repo_name stringlengths 6 101 | path stringlengths 4 300 | text stringlengths 7 1.31M |
|---|---|---|
Goofy-Penguin/Mainframe | ui/include/mainframe/ui/elms/scrollpanelback.h | <reponame>Goofy-Penguin/Mainframe
#pragma once
#include <mainframe/ui/element.h>
#include <mainframe/ui/elms/scrollbar.h>
#include <mainframe/ui/elms/panel.h>
namespace mainframe {
namespace ui {
class ScrollPanelBack : public Element {
math::Vector2i offset;
public:
virtual void draw(render::Stencil& stencil) override;
virtual void drawAfter(render::Stencil& stencil) override;
void setOffset(math::Vector2i ofset_);
};
}
} |
xLineMapper/solr | lucene/core/src/java/org/apache/lucene/codecs/blocktree/BitSetPostingsEnum.java | <gh_stars>1-10
package org.apache.lucene.codecs.blocktree;
/*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
import java.io.IOException;
import org.apache.lucene.index.PostingsEnum;
import org.apache.lucene.search.DocIdSetIterator;
import org.apache.lucene.util.BitSet;
import org.apache.lucene.util.BitSetIterator;
import org.apache.lucene.util.BytesRef;
import org.apache.lucene.util.FixedBitSet; // javadocs
/** Takes a {@link FixedBitSet} and creates a DOCS {@link PostingsEnum} from it. */
class BitSetPostingsEnum extends PostingsEnum {
private final BitSet bits;
private DocIdSetIterator in;
BitSetPostingsEnum(BitSet bits) {
this.bits = bits;
reset();
}
@Override
public int freq() throws IOException {
return 1;
}
@Override
public int docID() {
if (in == null) {
return -1;
} else {
return in.docID();
}
}
@Override
public int nextDoc() throws IOException {
if (in == null) {
in = new BitSetIterator(bits, 0);
}
return in.nextDoc();
}
@Override
public int advance(int target) throws IOException {
return in.advance(target);
}
@Override
public long cost() {
return in.cost();
}
void reset() {
in = null;
}
@Override
public BytesRef getPayload() {
return null;
}
@Override
public int nextPosition() {
throw new UnsupportedOperationException();
}
@Override
public int startOffset() {
throw new UnsupportedOperationException();
}
@Override
public int endOffset() {
throw new UnsupportedOperationException();
}
}
|
Andres6936/TinyRogue | Source/States/State.hpp | <filename>Source/States/State.hpp<gh_stars>1-10
#pragma once
#include "../Game/GameObject.hpp"
#include <SFML/Window/Keyboard.hpp>
#include <SFML/System/Time.hpp>
#include <memory>
class StateStack;
class Console;
class State : public GameObject
{
public:
using Ptr = std::unique_ptr<State>;
public:
virtual ~State() = default;
virtual void handleKeyboard(sf::Keyboard::Key key) = 0;
virtual void update(sf::Time dt) = 0;
virtual void drawBefore();
virtual void drawAfter();
static void initialize(StateStack& stack, Console& console);
protected:
void drawRect(int left, int top, int width, int height);
protected:
static StateStack* stack;
static Console* console;
};
|
scala-steward/udash-core | rpc/.jvm/src/main/scala/io/udash/rpc/DefaultClientRPC.scala | package io.udash.rpc
import com.avsystem.commons.rpc.AsReal
import com.avsystem.commons.serialization.json.JsonStringOutput
import io.udash.rpc.internals.{BroadcastManager, UsesClientRPC}
import scala.concurrent.ExecutionContext
/**
* Target for server to client call. Possible values:<br/>
* * [[io.udash.rpc.AllClients]] - all connected clients<br/>
* * [[io.udash.rpc.ClientId]] - one concrete client connection id
*/
sealed trait ClientRPCTarget
case object AllClients extends ClientRPCTarget
case class ClientId(id: String) extends ClientRPCTarget
abstract class ClientRPC[ClientRPCType](target: ClientRPCTarget)
(implicit ec: ExecutionContext) extends UsesClientRPC[ClientRPCType] {
override protected def fireRemote(getterChain: List[RpcInvocation], invocation: RpcInvocation): Unit = {
val json = JsonStringOutput.write[RpcRequest](RpcFire(invocation, getterChain))
target match {
case AllClients =>
BroadcastManager.broadcast(json)
case ClientId(clientId) =>
BroadcastManager.sendToClient(clientId, json)
}
}
def get: ClientRPCType = remoteRpc
}
/** Default implementation of [[io.udash.rpc.ClientRPC]] for server to client communication. */
class DefaultClientRPC[ClientRPCType: ClientRawRpc.AsRealRpc](target: ClientRPCTarget)(implicit ec: ExecutionContext)
extends ClientRPC[ClientRPCType](target) {
protected val remoteRpcAsReal: ClientRawRpc.AsRealRpc[ClientRPCType] =
AsReal[ClientRawRpc, ClientRPCType]
}
|
Bishwa05/Algorithms | src/dp/BombEnemy.java | package dp;
/**
* Leetcode 361
* https://leetcode.com/problems/bomb-enemy/
*
*
*
* 0, E, 0, 0
* E, 0, W, E
* 0, E, 0, 0
*
* E -> Enemy
* 0 -> empty cell, bomb can be placed
* W -> wall, bomb ca not pass through wall.
*
*/
public class BombEnemy
{
private static final char WALL='W';
private static final char ENEMY='E';
private static final char EMPTY='0';
public int maxKilledEnemies(char[][] grid){
if(grid == null){
return 0;
}
int m = grid.length;
int n = m==0?0: grid[0].length;
int maxEnemies =0;
int rowHits = 0;
int[] colHits = new int[n];
for(int i =0; i<m; i++){
for(int j =0; j<n; j++){
if(grid[i][j] == WALL){
continue;
}
if(j == 0 || grid[i][j-1]==WALL){
rowHits = 0;
for(int k =j; k<n && grid[i][k] != WALL; k++){
if(grid[i][k] == ENEMY){
rowHits++;
}
}
}
if(i==0 || grid[i-1][j]== WALL){
colHits[j] =0;
for(int k =i; k<m && grid[k][j]!= WALL; k++){
if(grid[k][j]==ENEMY){
colHits[j]++;
}
}
}
if(grid[i][j]== EMPTY){
maxEnemies = Integer.max(rowHits+ colHits[j], maxEnemies);
}
}
}
return maxEnemies;
}
public static void main(String arg[]){
BombEnemy b = new BombEnemy();
char[][] c= {{'0','E','0', '0'},
{'E','0','W','E'},
{'0', 'E', '0', '0'}};
System.out.println(b.maxKilledEnemies(c));
}
}
|
ScalablyTyped/SlinkyTyped | s/sentry__utils/src/main/scala/typingsSlinky/sentryUtils/pathMod.scala | package typingsSlinky.sentryUtils
import org.scalablytyped.runtime.StObject
import scala.scalajs.js
import scala.scalajs.js.`|`
import scala.scalajs.js.annotation.{JSGlobalScope, JSGlobal, JSImport, JSName, JSBracketAccess}
object pathMod {
@JSImport("@sentry/utils/dist/path", "basename")
@js.native
def basename(path: String): String = js.native
@JSImport("@sentry/utils/dist/path", "basename")
@js.native
def basename(path: String, ext: String): String = js.native
@JSImport("@sentry/utils/dist/path", "dirname")
@js.native
def dirname(path: String): String = js.native
@JSImport("@sentry/utils/dist/path", "isAbsolute")
@js.native
def isAbsolute(path: String): Boolean = js.native
@JSImport("@sentry/utils/dist/path", "join")
@js.native
def join(args: String*): String = js.native
@JSImport("@sentry/utils/dist/path", "normalizePath")
@js.native
def normalizePath(path: String): String = js.native
@JSImport("@sentry/utils/dist/path", "relative")
@js.native
def relative(from: String, to: String): String = js.native
@JSImport("@sentry/utils/dist/path", "resolve")
@js.native
def resolve(args: String*): String = js.native
}
|
ryborg/mcwss | protocol/command/particle.go | <filename>protocol/command/particle.go
package command
import (
"fmt"
"github.com/ryborg/mcwss/mctype"
)
// ParticleRequest produces the command required to spawn a particle using a particle name and position.
func ParticleRequest(particle string, position mctype.Position) string {
return fmt.Sprintf("particle %v %v %v %v", particle, position.X, position.Y, position.Z)
}
// Particle is sent by the server to spawn a particle in the world. It supports both default particles and
// particles defined using behaviour packs.
type Particle struct {
// StatusCode is the status code of the command. This status code is always non-0, which appears to be
// a bug in the command.
StatusCode int `json:"statusCode"`
}
|
shixingfeng/three_js_with_coffeescript | webserver/static/js/demo_10_232.js | // Generated by CoffeeScript 2.3.1
(function() {
var camera, canvas, ctx, date, fillWithPerlin, init, mesh, onResize, pn, renderer, scene;
console.log("demo_10.232 Canvas texture bumpmap");
camera = null;
scene = null;
renderer = null;
mesh = null;
fillWithPerlin = function(perlin, ctx) {
var base, i, results, value, x, y;
results = [];
for (x = i = 0; i <= 511; x = ++i) {
results.push((function() {
var j, results1;
results1 = [];
for (y = j = 0; j <= 511; y = ++j) {
base = new THREE.Color(0xffffff);
value = perlin.noise(x / 10, y / 10, 0);
base.multiplyScalar(value);
ctx.fillStyle = "#" + base.getHexString();
results1.push(ctx.fillRect(x, y, 1, 1));
}
return results1;
})());
}
return results;
};
canvas = document.createElement("canvas");
canvas.setAttribute("width", 256);
canvas.setAttribute("height", 256);
canvas.setAttribute("style", "position: absolute; x:0; y:0; bottom: 0px");
document.getElementById("canvas-output").appendChild(canvas);
ctx = canvas.getContext("2d");
date = new Date();
pn = new Perlin("rnd" + date.getTime());
fillWithPerlin(pn, ctx);
init = function() {
var ambiLight, controls, createMesh, cube, gui, initStats, light, renderScene, stats, step, webGLRenderer;
// 场景
scene = new THREE.Scene();
// 摄像机
camera = new THREE.PerspectiveCamera(45, window.innerWidth / window.innerHeight, 0.1, 1000);
camera.position.x = 0;
camera.position.y = 12;
camera.position.z = 28;
camera.lookAt(new THREE.Vector3(0, 0, 0));
// 渲染器
webGLRenderer = new THREE.WebGLRenderer();
webGLRenderer.setClearColor(new THREE.Color(0xEEEEEE, 1.0));
webGLRenderer.setSize(window.innerWidth, window.innerHeight);
webGLRenderer.shadowMapEnabled = true;
renderer = webGLRenderer;
//灯光
ambiLight = new THREE.AmbientLight(0x141414);
scene.add(ambiLight);
light = new THREE.DirectionalLight();
light.position.set(0, 30, 20);
scene.add(light);
// 方法区
createMesh = function(geom, texture) {
var bumpMap, mat;
texture = THREE.ImageUtils.loadTexture("/static/pictures/assets/textures/general/" + texture);
bumpMap = new THREE.Texture(canvas);
geom.computeVertexNormals();
mat = new THREE.MeshPhongMaterial();
mat.color = new THREE.Color(0x77ff77);
mat.bumpMap = bumpMap;
bumpMap.needsUpdate = true;
mesh = new THREE.Mesh(geom, mat);
return mesh;
};
// 方块
cube = createMesh(new THREE.BoxGeometry(12, 12, 12), "floor-wood.jpg");
cube.position.x = 3;
scene.add(cube);
// 控制条
controls = new function() {
this.bumpScale = cube.material.bumpScale;
this.regenerateMap = function() {
date = new Date();
pn = new Perlin("rnd" + date.getTime());
fillWithPerlin(pn, ctx);
return cube.material.bumpMap.needsUpdate = true;
};
this.updateScale = function() {
return cube.material.bumpScale = controls.bumpScale;
};
return this;
};
// UI
gui = new dat.GUI;
gui.add(controls, "regenerateMap");
gui.add(controls, "bumpScale", -2, 2).onChange(controls.updateScale);
step = 0;
// 实时渲染
renderScene = function() {
stats.update();
cube.rotation.y += 0.01;
cube.rotation.x += 0.01;
requestAnimationFrame(renderScene);
return renderer.render(scene, camera);
};
// 状态条
initStats = function() {
var stats;
stats = new Stats();
stats.setMode(0);
stats.domElement.style.position = "absolute";
stats.domElement.style.left = "0px";
stats.domElement.style.top = "0px";
$("#Stats-output").append(stats.domElement);
return stats;
};
stats = initStats();
$("#WebGL-output").append(renderer.domElement);
return renderScene();
};
//屏幕适配
onResize = function() {
console.log("onResize");
camera.aspect = window.innerWidth / window.innerHeight;
camera.updateProjectionMatrix();
return renderer.setSize(window.innerWidth, window.innerHeight);
};
window.onload = init();
window.addEventListener("resize", onResize, false);
}).call(this);
|
tseen/Federated-HDFS | tseenliu/FedHDFS-hadoop-src/hadoop-yarn-project/hadoop-yarn/hadoop-yarn-common/src/test/java/org/apache/hadoop/yarn/api/records/timeline/TestTimelineRecords.java | /**
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.hadoop.yarn.api.records.timeline;
import java.util.ArrayList;
import java.util.List;
import org.junit.Assert;
import org.apache.commons.logging.Log;
import org.apache.commons.logging.LogFactory;
import org.apache.hadoop.yarn.api.records.timeline.TimelineEntities;
import org.apache.hadoop.yarn.api.records.timeline.TimelineEntity;
import org.apache.hadoop.yarn.api.records.timeline.TimelineEvent;
import org.apache.hadoop.yarn.api.records.timeline.TimelineEvents;
import org.apache.hadoop.yarn.api.records.timeline.TimelinePutResponse;
import org.apache.hadoop.yarn.api.records.timeline.TimelinePutResponse.TimelinePutError;
import org.apache.hadoop.yarn.util.timeline.TimelineUtils;
import org.junit.Test;
public class TestTimelineRecords {
private static final Log LOG =
LogFactory.getLog(TestTimelineRecords.class);
@Test
public void testEntities() throws Exception {
TimelineEntities entities = new TimelineEntities();
for (int j = 0; j < 2; ++j) {
TimelineEntity entity = new TimelineEntity();
entity.setEntityId("entity id " + j);
entity.setEntityType("entity type " + j);
entity.setStartTime(System.currentTimeMillis());
for (int i = 0; i < 2; ++i) {
TimelineEvent event = new TimelineEvent();
event.setTimestamp(System.currentTimeMillis());
event.setEventType("event type " + i);
event.addEventInfo("key1", "val1");
event.addEventInfo("key2", "val2");
entity.addEvent(event);
}
entity.addRelatedEntity("test ref type 1", "test ref id 1");
entity.addRelatedEntity("test ref type 2", "test ref id 2");
entity.addPrimaryFilter("pkey1", "pval1");
entity.addPrimaryFilter("pkey2", "pval2");
entity.addOtherInfo("okey1", "oval1");
entity.addOtherInfo("okey2", "oval2");
entities.addEntity(entity);
}
LOG.info("Entities in JSON:");
LOG.info(TimelineUtils.dumpTimelineRecordtoJSON(entities, true));
Assert.assertEquals(2, entities.getEntities().size());
TimelineEntity entity1 = entities.getEntities().get(0);
Assert.assertEquals("entity id 0", entity1.getEntityId());
Assert.assertEquals("entity type 0", entity1.getEntityType());
Assert.assertEquals(2, entity1.getRelatedEntities().size());
Assert.assertEquals(2, entity1.getEvents().size());
Assert.assertEquals(2, entity1.getPrimaryFilters().size());
Assert.assertEquals(2, entity1.getOtherInfo().size());
TimelineEntity entity2 = entities.getEntities().get(1);
Assert.assertEquals("entity id 1", entity2.getEntityId());
Assert.assertEquals("entity type 1", entity2.getEntityType());
Assert.assertEquals(2, entity2.getRelatedEntities().size());
Assert.assertEquals(2, entity2.getEvents().size());
Assert.assertEquals(2, entity2.getPrimaryFilters().size());
Assert.assertEquals(2, entity2.getOtherInfo().size());
}
@Test
public void testEvents() throws Exception {
TimelineEvents events = new TimelineEvents();
for (int j = 0; j < 2; ++j) {
TimelineEvents.EventsOfOneEntity partEvents =
new TimelineEvents.EventsOfOneEntity();
partEvents.setEntityId("entity id " + j);
partEvents.setEntityType("entity type " + j);
for (int i = 0; i < 2; ++i) {
TimelineEvent event = new TimelineEvent();
event.setTimestamp(System.currentTimeMillis());
event.setEventType("event type " + i);
event.addEventInfo("key1", "val1");
event.addEventInfo("key2", "val2");
partEvents.addEvent(event);
}
events.addEvent(partEvents);
}
LOG.info("Events in JSON:");
LOG.info(TimelineUtils.dumpTimelineRecordtoJSON(events, true));
Assert.assertEquals(2, events.getAllEvents().size());
TimelineEvents.EventsOfOneEntity partEvents1 = events.getAllEvents().get(0);
Assert.assertEquals("entity id 0", partEvents1.getEntityId());
Assert.assertEquals("entity type 0", partEvents1.getEntityType());
Assert.assertEquals(2, partEvents1.getEvents().size());
TimelineEvent event11 = partEvents1.getEvents().get(0);
Assert.assertEquals("event type 0", event11.getEventType());
Assert.assertEquals(2, event11.getEventInfo().size());
TimelineEvent event12 = partEvents1.getEvents().get(1);
Assert.assertEquals("event type 1", event12.getEventType());
Assert.assertEquals(2, event12.getEventInfo().size());
TimelineEvents.EventsOfOneEntity partEvents2 = events.getAllEvents().get(1);
Assert.assertEquals("entity id 1", partEvents2.getEntityId());
Assert.assertEquals("entity type 1", partEvents2.getEntityType());
Assert.assertEquals(2, partEvents2.getEvents().size());
TimelineEvent event21 = partEvents2.getEvents().get(0);
Assert.assertEquals("event type 0", event21.getEventType());
Assert.assertEquals(2, event21.getEventInfo().size());
TimelineEvent event22 = partEvents2.getEvents().get(1);
Assert.assertEquals("event type 1", event22.getEventType());
Assert.assertEquals(2, event22.getEventInfo().size());
}
@Test
public void testTimelinePutErrors() throws Exception {
TimelinePutResponse TimelinePutErrors = new TimelinePutResponse();
TimelinePutError error1 = new TimelinePutError();
error1.setEntityId("entity id 1");
error1.setEntityId("entity type 1");
error1.setErrorCode(TimelinePutError.NO_START_TIME);
TimelinePutErrors.addError(error1);
List<TimelinePutError> response = new ArrayList<TimelinePutError>();
response.add(error1);
TimelinePutError error2 = new TimelinePutError();
error2.setEntityId("entity id 2");
error2.setEntityId("entity type 2");
error2.setErrorCode(TimelinePutError.IO_EXCEPTION);
response.add(error2);
TimelinePutErrors.addErrors(response);
LOG.info("Errors in JSON:");
LOG.info(TimelineUtils.dumpTimelineRecordtoJSON(TimelinePutErrors, true));
Assert.assertEquals(3, TimelinePutErrors.getErrors().size());
TimelinePutError e = TimelinePutErrors.getErrors().get(0);
Assert.assertEquals(error1.getEntityId(), e.getEntityId());
Assert.assertEquals(error1.getEntityType(), e.getEntityType());
Assert.assertEquals(error1.getErrorCode(), e.getErrorCode());
e = TimelinePutErrors.getErrors().get(1);
Assert.assertEquals(error1.getEntityId(), e.getEntityId());
Assert.assertEquals(error1.getEntityType(), e.getEntityType());
Assert.assertEquals(error1.getErrorCode(), e.getErrorCode());
e = TimelinePutErrors.getErrors().get(2);
Assert.assertEquals(error2.getEntityId(), e.getEntityId());
Assert.assertEquals(error2.getEntityType(), e.getEntityType());
Assert.assertEquals(error2.getErrorCode(), e.getErrorCode());
}
}
|
pgcrism/gobo | work/bootstrap/gec10.c | <reponame>pgcrism/gobo
#include "gec.h"
#ifdef __cplusplus
extern "C" {
#endif
/* ET_BRACED_TYPE_LIST.set_left_brace */
void T935f11(T0* C, T0* a1)
{
((T935*)(C))->a1 = a1;
}
/* ET_BRACED_TYPE_LIST.make_with_capacity */
T0* T935c9(T6 a1)
{
T0* C;
T0* t1;
C = GE_new935(EIF_TRUE);
t1 = (T935f5(C));
((T935*)(C))->a1 = (T74f201(GE_void(t1)));
t1 = (T935f5(C));
((T935*)(C))->a2 = (T74f202(GE_void(t1)));
T935f9p1(C, a1);
return C;
}
/* ET_BRACED_TYPE_LIST.make_with_capacity */
void T935f9p1(T0* C, T6 a1)
{
T1 t1;
T0* t2;
((T935*)(C))->a3 = (T6)(GE_int32(0));
t1 = (T6f1(&a1, (T6)(GE_int32(0))));
if (t1) {
t2 = (T935f6(C));
((T935*)(C))->a4 = (T1254f1(GE_void(t2), a1));
} else {
((T935*)(C))->a4 = EIF_VOID;
}
}
/* ET_EIFFEL_PARSER.yy_do_action_269 */
void T399f1314(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
T399f1987(C, t1);
T399f1983(C);
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a203 = ((T6)((((T399*)(C))->a203)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a203), ((T399*)(C))->a415));
if (t2) {
t2 = ((((T399*)(C))->a412)==(EIF_VOID));
if (t2) {
((T399*)(C))->a416 = T1251c3();
((T399*)(C))->a415 = (T6)(GE_int32(10));
((T399*)(C))->a412 = (T1251f1(GE_void(((T399*)(C))->a416), ((T399*)(C))->a415));
} else {
((T399*)(C))->a415 = ((T6)((((T399*)(C))->a415)+((T6)(GE_int32(10)))));
((T399*)(C))->a412 = (T1251f2(GE_void(((T399*)(C))->a416), ((T399*)(C))->a412, ((T399*)(C))->a415));
}
}
T1251f4(GE_void(((T399*)(C))->a416), ((T399*)(C))->a412, l1, ((T399*)(C))->a203);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_268 */
void T399f1313(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1247*)(GE_void(((T399*)(C))->a412)))->z2[((T399*)(C))->a203]);
T399f1986(C);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a203 = ((T6)((((T399*)(C))->a203)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
T1251f4(GE_void(((T399*)(C))->a416), ((T399*)(C))->a412, l1, ((T399*)(C))->a203);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_267 */
void T399f1312(T0* C)
{
T1 t1;
T0* l1 = 0;
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a203 = ((T6)((((T399*)(C))->a203)+((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(2)))));
t1 = (T6f12(&(((T399*)(C))->a203), ((T399*)(C))->a415));
if (t1) {
t1 = ((((T399*)(C))->a412)==(EIF_VOID));
if (t1) {
((T399*)(C))->a416 = T1251c3();
((T399*)(C))->a415 = (T6)(GE_int32(10));
((T399*)(C))->a412 = (T1251f1(GE_void(((T399*)(C))->a416), ((T399*)(C))->a415));
} else {
((T399*)(C))->a415 = ((T6)((((T399*)(C))->a415)+((T6)(GE_int32(10)))));
((T399*)(C))->a412 = (T1251f2(GE_void(((T399*)(C))->a416), ((T399*)(C))->a412, ((T399*)(C))->a415));
}
}
T1251f4(GE_void(((T399*)(C))->a416), ((T399*)(C))->a412, l1, ((T399*)(C))->a203);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_266 */
void T399f1311(T0* C)
{
T0* t1;
T0* t2;
T6 t3;
T0* t4;
T0* t5;
T0* t6;
T1 t7;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1220*)(GE_void(((T399*)(C))->a379)))->z2[((T399*)(C))->a159]);
t3 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
t4 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[t3]);
t5 = (((T1247*)(GE_void(((T399*)(C))->a412)))->z2[((T399*)(C))->a203]);
t6 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
l1 = (T362f162(GE_void(t1), t2, t4, t5, t6));
t7 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t7) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a141 = ((T6)((((T399*)(C))->a141)+((T6)(GE_int32(1)))));
((T399*)(C))->a159 = ((T6)((((T399*)(C))->a159)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(2)))));
((T399*)(C))->a203 = ((T6)((((T399*)(C))->a203)-((T6)(GE_int32(1)))));
t7 = (T6f12(&(((T399*)(C))->a141), ((T399*)(C))->a413));
if (t7) {
t7 = ((((T399*)(C))->a408)==(EIF_VOID));
if (t7) {
((T399*)(C))->a414 = T1249c3();
((T399*)(C))->a413 = (T6)(GE_int32(10));
((T399*)(C))->a408 = (T1249f1(GE_void(((T399*)(C))->a414), ((T399*)(C))->a413));
} else {
((T399*)(C))->a413 = ((T6)((((T399*)(C))->a413)+((T6)(GE_int32(10)))));
((T399*)(C))->a408 = (T1249f2(GE_void(((T399*)(C))->a414), ((T399*)(C))->a408, ((T399*)(C))->a413));
}
}
T1249f4(GE_void(((T399*)(C))->a414), ((T399*)(C))->a408, l1, ((T399*)(C))->a141);
}
}
/* KL_SPECIAL_ROUTINES [ET_CONVERT_FEATURE].force */
void T1249f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1243*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1243*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1243*)(GE_void(a1)))->a1);
T1243f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_CONVERT_FEATURE].fill_with */
void T1243f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1243*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1243*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1243f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_CONVERT_FEATURE].extend */
void T1243f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1243*)(C))->a1;
((T1243*)(C))->a1 = t1 + 1 ;
((T1243*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_CONVERT_FEATURE].resize */
T0* T1249f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1243*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1243f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_CONVERT_FEATURE].aliased_resized_area */
T0* T1243f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1243*)(C))->a2;
if (a1 > t1) {
R = GE_new1243(a1, EIF_FALSE);
*(T1243*)(R) = *(T1243*)(C);
memcpy(((T1243*)(R))->z2,((T1243*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1243*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1243*)(R))->a1;
if (t1 > a1) {
((T1243*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1243*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1243*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_CONVERT_FEATURE].make */
T0* T1249f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1688c4();
R = (((T1688*)(GE_void(l1)))->a1);
R = (T1243f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_CONVERT_FEATURE].make_empty */
T0* T1688c4(void)
{
T0* C;
C = GE_new1688(EIF_TRUE);
((T1688*)(C))->a2 = (T6)(GE_int32(1));
((T1688*)(C))->a3 = (T6)(GE_int32(0));
T1688f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_CONVERT_FEATURE].make_empty_area */
void T1688f5(T0* C, T6 a1)
{
((T1688*)(C))->a1 = T1243c6(a1);
}
/* SPECIAL [ET_CONVERT_FEATURE].make_empty */
T0* T1243c6(T6 a1)
{
T0* C;
C = GE_new1243(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_CONVERT_FEATURE].default_create */
T0* T1249c3(void)
{
T0* C;
C = GE_new1249(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_convert_procedure */
T0* T362f162(T0* C, T0* a1, T0* a2, T0* a3, T0* a4)
{
T1 t1;
T0* R = 0;
t1 = ((a1)!=(EIF_VOID));
if (t1) {
t1 = ((a3)!=(EIF_VOID));
}
if (t1) {
R = T1250c9(a1, a3);
}
return R;
}
/* ET_CONVERT_PROCEDURE.make */
T0* T1250c9(T0* a1, T0* a2)
{
T0* C;
T0* t1;
C = GE_new1250(EIF_TRUE);
((T1250*)(C))->a1 = a1;
((T1250*)(C))->a2 = a2;
t1 = (T1250f5(C));
((T1250*)(C))->a3 = (T74f205(GE_void(t1)));
t1 = (T1250f5(C));
((T1250*)(C))->a4 = (T74f206(GE_void(t1)));
return C;
}
/* ET_CONVERT_PROCEDURE.tokens */
T0* T1250f5(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_265 */
void T399f1310(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T1 t5;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1220*)(GE_void(((T399*)(C))->a379)))->z2[((T399*)(C))->a159]);
t3 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t4 = (((T1247*)(GE_void(((T399*)(C))->a412)))->z2[((T399*)(C))->a203]);
l1 = (T362f161(GE_void(t1), t2, t3, t4));
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a141 = ((T6)((((T399*)(C))->a141)+((T6)(GE_int32(1)))));
((T399*)(C))->a159 = ((T6)((((T399*)(C))->a159)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a203 = ((T6)((((T399*)(C))->a203)-((T6)(GE_int32(1)))));
t5 = (T6f12(&(((T399*)(C))->a141), ((T399*)(C))->a413));
if (t5) {
t5 = ((((T399*)(C))->a408)==(EIF_VOID));
if (t5) {
((T399*)(C))->a414 = T1249c3();
((T399*)(C))->a413 = (T6)(GE_int32(10));
((T399*)(C))->a408 = (T1249f1(GE_void(((T399*)(C))->a414), ((T399*)(C))->a413));
} else {
((T399*)(C))->a413 = ((T6)((((T399*)(C))->a413)+((T6)(GE_int32(10)))));
((T399*)(C))->a408 = (T1249f2(GE_void(((T399*)(C))->a414), ((T399*)(C))->a408, ((T399*)(C))->a413));
}
}
T1249f4(GE_void(((T399*)(C))->a414), ((T399*)(C))->a408, l1, ((T399*)(C))->a141);
}
}
/* ET_AST_FACTORY.new_convert_function */
T0* T362f161(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* R = 0;
t1 = ((a1)!=(EIF_VOID));
if (t1) {
t1 = ((a3)!=(EIF_VOID));
}
if (t1) {
R = T1248c8(a1, a3);
}
return R;
}
/* ET_CONVERT_FUNCTION.make */
T0* T1248c8(T0* a1, T0* a2)
{
T0* C;
T0* t1;
C = GE_new1248(EIF_TRUE);
((T1248*)(C))->a1 = a1;
((T1248*)(C))->a2 = a2;
t1 = (T1248f4(C));
((T1248*)(C))->a3 = (T74f553(GE_void(t1)));
return C;
}
/* ET_CONVERT_FUNCTION.tokens */
T0* T1248f4(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_264 */
void T399f1309(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1243*)(GE_void(((T399*)(C))->a408)))->z2[((T399*)(C))->a141]);
t3 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
l1 = (T362f160(GE_void(t1), t2, t3));
t4 = ((l1)!=(EIF_VOID));
if (t4) {
T399f1984(C);
}
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a142 = ((T6)((((T399*)(C))->a142)+((T6)(GE_int32(1)))));
((T399*)(C))->a141 = ((T6)((((T399*)(C))->a141)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a142), ((T399*)(C))->a410));
if (t4) {
t4 = ((((T399*)(C))->a409)==(EIF_VOID));
if (t4) {
((T399*)(C))->a411 = T1246c3();
((T399*)(C))->a410 = (T6)(GE_int32(10));
((T399*)(C))->a409 = (T1246f1(GE_void(((T399*)(C))->a411), ((T399*)(C))->a410));
} else {
((T399*)(C))->a410 = ((T6)((((T399*)(C))->a410)+((T6)(GE_int32(10)))));
((T399*)(C))->a409 = (T1246f2(GE_void(((T399*)(C))->a411), ((T399*)(C))->a409, ((T399*)(C))->a410));
}
}
T1246f4(GE_void(((T399*)(C))->a411), ((T399*)(C))->a409, l1, ((T399*)(C))->a142);
}
}
/* KL_SPECIAL_ROUTINES [ET_CONVERT_FEATURE_ITEM].force */
void T1246f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1245*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1245*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1245*)(GE_void(a1)))->a1);
T1245f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_CONVERT_FEATURE_ITEM].fill_with */
void T1245f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1245*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1245*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1245f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_CONVERT_FEATURE_ITEM].extend */
void T1245f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1245*)(C))->a1;
((T1245*)(C))->a1 = t1 + 1 ;
((T1245*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_CONVERT_FEATURE_ITEM].resize */
T0* T1246f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1245*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1245f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_CONVERT_FEATURE_ITEM].aliased_resized_area */
T0* T1245f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1245*)(C))->a2;
if (a1 > t1) {
R = GE_new1245(a1, EIF_FALSE);
*(T1245*)(R) = *(T1245*)(C);
memcpy(((T1245*)(R))->z2,((T1245*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1245*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1245*)(R))->a1;
if (t1 > a1) {
((T1245*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1245*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1245*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_CONVERT_FEATURE_ITEM].make */
T0* T1246f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1687c4();
R = (((T1687*)(GE_void(l1)))->a1);
R = (T1245f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_CONVERT_FEATURE_ITEM].make_empty */
T0* T1687c4(void)
{
T0* C;
C = GE_new1687(EIF_TRUE);
((T1687*)(C))->a2 = (T6)(GE_int32(1));
((T1687*)(C))->a3 = (T6)(GE_int32(0));
T1687f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_CONVERT_FEATURE_ITEM].make_empty_area */
void T1687f5(T0* C, T6 a1)
{
((T1687*)(C))->a1 = T1245c6(a1);
}
/* SPECIAL [ET_CONVERT_FEATURE_ITEM].make_empty */
T0* T1245c6(T6 a1)
{
T0* C;
C = GE_new1245(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_CONVERT_FEATURE_ITEM].default_create */
T0* T1246c3(void)
{
T0* C;
C = GE_new1246(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_convert_feature_comma */
T0* T362f160(T0* C, T0* a1, T0* a2)
{
T0* R = 0;
R = a1;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_263 */
void T399f1308(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1156*)(GE_void(((T399*)(C))->a319)))->z2[((T399*)(C))->a143]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t2 = (((T1245*)(GE_void(((T399*)(C))->a409)))->z2[((T399*)(C))->a142]);
t1 = ((t2)!=(EIF_VOID));
}
if (t1) {
t2 = (((T1245*)(GE_void(((T399*)(C))->a409)))->z2[((T399*)(C))->a142]);
T1155f9(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a142 = ((T6)((((T399*)(C))->a142)-((T6)(GE_int32(1)))));
T1241f4(GE_void(((T399*)(C))->a407), ((T399*)(C))->a319, l1, ((T399*)(C))->a143);
}
}
/* KL_SPECIAL_ROUTINES [ET_CONVERT_FEATURE_LIST].force */
void T1241f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1156*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1156*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1156*)(GE_void(a1)))->a1);
T1156f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_CONVERT_FEATURE_LIST].fill_with */
void T1156f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1156*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1156*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1156f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_CONVERT_FEATURE_LIST].extend */
void T1156f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1156*)(C))->a1;
((T1156*)(C))->a1 = t1 + 1 ;
((T1156*)(C))->z2[t1] = a1;
}
/* ET_CONVERT_FEATURE_LIST.put_first */
void T1155f9(T0* C, T0* a1)
{
T0* t1;
t1 = (T1155f5(C));
T1246f4(GE_void(t1), ((T1155*)(C))->a3, a1, ((T1155*)(C))->a2);
((T1155*)(C))->a2 = ((T6)((((T1155*)(C))->a2)+((T6)(GE_int32(1)))));
}
/* ET_CONVERT_FEATURE_LIST.fixed_array */
unsigned char ge527os11824 = '\0';
T0* ge527ov11824;
T0* T1155f5(T0* C)
{
T0* R = 0;
if (ge527os11824) {
return ge527ov11824;
} else {
ge527os11824 = '\1';
ge527ov11824 = R;
}
R = T1246c3();
ge527ov11824 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_262 */
void T399f1307(T0* C)
{
T0* t1;
T0* t2;
T6 t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (T399f905(C));
t3 = (T399f906(C));
l1 = (T362f159(GE_void(t1), t2, t3));
t4 = ((l1)!=(EIF_VOID));
if (t4) {
t1 = (((T1245*)(GE_void(((T399*)(C))->a409)))->z2[((T399*)(C))->a142]);
t4 = ((t1)!=(EIF_VOID));
}
if (t4) {
t1 = (((T1245*)(GE_void(((T399*)(C))->a409)))->z2[((T399*)(C))->a142]);
T1155f9(GE_void(l1), t1);
}
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a143 = ((T6)((((T399*)(C))->a143)+((T6)(GE_int32(1)))));
((T399*)(C))->a142 = ((T6)((((T399*)(C))->a142)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a143), ((T399*)(C))->a406));
if (t4) {
t4 = ((((T399*)(C))->a319)==(EIF_VOID));
if (t4) {
((T399*)(C))->a407 = T1241c3();
((T399*)(C))->a406 = (T6)(GE_int32(10));
((T399*)(C))->a319 = (T1241f1(GE_void(((T399*)(C))->a407), ((T399*)(C))->a406));
} else {
((T399*)(C))->a406 = ((T6)((((T399*)(C))->a406)+((T6)(GE_int32(10)))));
((T399*)(C))->a319 = (T1241f2(GE_void(((T399*)(C))->a407), ((T399*)(C))->a319, ((T399*)(C))->a406));
}
}
T1241f4(GE_void(((T399*)(C))->a407), ((T399*)(C))->a319, l1, ((T399*)(C))->a143);
}
}
/* KL_SPECIAL_ROUTINES [ET_CONVERT_FEATURE_LIST].resize */
T0* T1241f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1156*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1156f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_CONVERT_FEATURE_LIST].aliased_resized_area */
T0* T1156f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1156*)(C))->a2;
if (a1 > t1) {
R = GE_new1156(a1, EIF_FALSE);
*(T1156*)(R) = *(T1156*)(C);
memcpy(((T1156*)(R))->z2,((T1156*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1156*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1156*)(R))->a1;
if (t1 > a1) {
((T1156*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1156*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1156*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_CONVERT_FEATURE_LIST].make */
T0* T1241f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1686c4();
R = (((T1686*)(GE_void(l1)))->a1);
R = (T1156f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_CONVERT_FEATURE_LIST].make_empty */
T0* T1686c4(void)
{
T0* C;
C = GE_new1686(EIF_TRUE);
((T1686*)(C))->a2 = (T6)(GE_int32(1));
((T1686*)(C))->a3 = (T6)(GE_int32(0));
T1686f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_CONVERT_FEATURE_LIST].make_empty_area */
void T1686f5(T0* C, T6 a1)
{
((T1686*)(C))->a1 = T1156c6(a1);
}
/* SPECIAL [ET_CONVERT_FEATURE_LIST].make_empty */
T0* T1156c6(T6 a1)
{
T0* C;
C = GE_new1156(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_CONVERT_FEATURE_LIST].default_create */
T0* T1241c3(void)
{
T0* C;
C = GE_new1241(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_convert_features */
T0* T362f159(T0* C, T0* a1, T6 a2)
{
T0* R = 0;
R = T1155c8(a2);
return R;
}
/* ET_CONVERT_FEATURE_LIST.make_with_capacity */
T0* T1155c8(T6 a1)
{
T0* C;
T0* t1;
C = GE_new1155(EIF_TRUE);
t1 = (T1155f4(C));
((T1155*)(C))->a1 = (T74f581(GE_void(t1)));
T1155f8p1(C, a1);
return C;
}
/* ET_CONVERT_FEATURE_LIST.make_with_capacity */
void T1155f8p1(T0* C, T6 a1)
{
T1 t1;
T0* t2;
((T1155*)(C))->a2 = (T6)(GE_int32(0));
t1 = (T6f1(&a1, (T6)(GE_int32(0))));
if (t1) {
t2 = (T1155f5(C));
((T1155*)(C))->a3 = (T1246f1(GE_void(t2), a1));
} else {
((T1155*)(C))->a3 = EIF_VOID;
}
}
/* ET_TOKEN_CONSTANTS.convert_keyword */
unsigned char ge808os10958 = '\0';
T0* ge808ov10958;
T0* T74f581(T0* C)
{
T0* R = 0;
if (ge808os10958) {
return ge808ov10958;
} else {
ge808os10958 = '\1';
ge808ov10958 = R;
}
R = T356c83();
ge808ov10958 = R;
return R;
}
/* ET_KEYWORD.make_convert */
T0* T356c83(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)('\013'));
t1 = (T356f19(C));
t1 = (ge808ov11278);
T356f39(C, t1);
return C;
}
/* ET_CONVERT_FEATURE_LIST.tokens */
T0* T1155f4(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_261 */
void T399f1306(T0* C)
{
T0* t1;
T0* t2;
T6 t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (T399f905(C));
t3 = (T399f906(C));
t3 = ((T6)((t3)+((T6)(GE_int32(1)))));
l1 = (T362f159(GE_void(t1), t2, t3));
t4 = ((l1)!=(EIF_VOID));
if (t4) {
t1 = (((T1243*)(GE_void(((T399*)(C))->a408)))->z2[((T399*)(C))->a141]);
t4 = ((t1)!=(EIF_VOID));
}
if (t4) {
t1 = (((T1243*)(GE_void(((T399*)(C))->a408)))->z2[((T399*)(C))->a141]);
T1155f9(GE_void(l1), t1);
}
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a143 = ((T6)((((T399*)(C))->a143)+((T6)(GE_int32(1)))));
((T399*)(C))->a141 = ((T6)((((T399*)(C))->a141)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a143), ((T399*)(C))->a406));
if (t4) {
t4 = ((((T399*)(C))->a319)==(EIF_VOID));
if (t4) {
((T399*)(C))->a407 = T1241c3();
((T399*)(C))->a406 = (T6)(GE_int32(10));
((T399*)(C))->a319 = (T1241f1(GE_void(((T399*)(C))->a407), ((T399*)(C))->a406));
} else {
((T399*)(C))->a406 = ((T6)((((T399*)(C))->a406)+((T6)(GE_int32(10)))));
((T399*)(C))->a319 = (T1241f2(GE_void(((T399*)(C))->a407), ((T399*)(C))->a319, ((T399*)(C))->a406));
}
}
T1241f4(GE_void(((T399*)(C))->a407), ((T399*)(C))->a319, l1, ((T399*)(C))->a143);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_260 */
void T399f1305(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T399f1982(C, t1);
T399f1983(C);
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a143 = ((T6)((((T399*)(C))->a143)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a143), ((T399*)(C))->a406));
if (t2) {
t2 = ((((T399*)(C))->a319)==(EIF_VOID));
if (t2) {
((T399*)(C))->a407 = T1241c3();
((T399*)(C))->a406 = (T6)(GE_int32(10));
((T399*)(C))->a319 = (T1241f1(GE_void(((T399*)(C))->a407), ((T399*)(C))->a406));
} else {
((T399*)(C))->a406 = ((T6)((((T399*)(C))->a406)+((T6)(GE_int32(10)))));
((T399*)(C))->a319 = (T1241f2(GE_void(((T399*)(C))->a407), ((T399*)(C))->a319, ((T399*)(C))->a406));
}
}
T1241f4(GE_void(((T399*)(C))->a407), ((T399*)(C))->a319, l1, ((T399*)(C))->a143);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_259 */
void T399f1304(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1156*)(GE_void(((T399*)(C))->a319)))->z2[((T399*)(C))->a143]);
T399f1980(C);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a143 = ((T6)((((T399*)(C))->a143)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
T1241f4(GE_void(((T399*)(C))->a407), ((T399*)(C))->a319, l1, ((T399*)(C))->a143);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_258 */
void T399f1303(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1156*)(GE_void(((T399*)(C))->a319)))->z2[((T399*)(C))->a143]);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
T1241f4(GE_void(((T399*)(C))->a407), ((T399*)(C))->a319, l1, ((T399*)(C))->a143);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_257 */
void T399f1302(T0* C)
{
T1 t1;
T0* l1 = 0;
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a143 = ((T6)((((T399*)(C))->a143)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a143), ((T399*)(C))->a406));
if (t1) {
t1 = ((((T399*)(C))->a319)==(EIF_VOID));
if (t1) {
((T399*)(C))->a407 = T1241c3();
((T399*)(C))->a406 = (T6)(GE_int32(10));
((T399*)(C))->a319 = (T1241f1(GE_void(((T399*)(C))->a407), ((T399*)(C))->a406));
} else {
((T399*)(C))->a406 = ((T6)((((T399*)(C))->a406)+((T6)(GE_int32(10)))));
((T399*)(C))->a319 = (T1241f2(GE_void(((T399*)(C))->a407), ((T399*)(C))->a319, ((T399*)(C))->a406));
}
}
T1241f4(GE_void(((T399*)(C))->a407), ((T399*)(C))->a319, l1, ((T399*)(C))->a143);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_256 */
void T399f1301(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
l1 = (T362f156(GE_void(t1), t2, t3));
t4 = ((l1)!=(EIF_VOID));
if (t4) {
T399f1984(C);
}
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a160 = ((T6)((((T399*)(C))->a160)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a160), ((T399*)(C))->a399));
if (t4) {
t4 = ((((T399*)(C))->a352)==(EIF_VOID));
if (t4) {
((T399*)(C))->a400 = T1236c3();
((T399*)(C))->a399 = (T6)(GE_int32(10));
((T399*)(C))->a352 = (T1236f1(GE_void(((T399*)(C))->a400), ((T399*)(C))->a399));
} else {
((T399*)(C))->a399 = ((T6)((((T399*)(C))->a399)+((T6)(GE_int32(10)))));
((T399*)(C))->a352 = (T1236f2(GE_void(((T399*)(C))->a400), ((T399*)(C))->a352, ((T399*)(C))->a399));
}
}
T1236f4(GE_void(((T399*)(C))->a400), ((T399*)(C))->a352, l1, ((T399*)(C))->a160);
}
}
/* KL_SPECIAL_ROUTINES [ET_FEATURE_NAME_ITEM].resize */
T0* T1236f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1192*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1192f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* ET_AST_FACTORY.new_feature_name_comma */
T0* T362f156(T0* C, T0* a1, T0* a2)
{
T0* R = 0;
R = a1;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_255 */
void T399f1300(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1239*)(GE_void(((T399*)(C))->a403)))->z2[((T399*)(C))->a145]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t2 = (((T1192*)(GE_void(((T399*)(C))->a352)))->z2[((T399*)(C))->a160]);
t1 = ((t2)!=(EIF_VOID));
}
if (t1) {
t2 = (((T1192*)(GE_void(((T399*)(C))->a352)))->z2[((T399*)(C))->a160]);
T1238f17(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a160 = ((T6)((((T399*)(C))->a160)-((T6)(GE_int32(1)))));
T1240f4(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, l1, ((T399*)(C))->a145);
}
}
/* KL_SPECIAL_ROUTINES [ET_CREATOR].force */
void T1240f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1239*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1239*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1239*)(GE_void(a1)))->a1);
T1239f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_CREATOR].fill_with */
void T1239f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1239*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1239*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1239f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_CREATOR].extend */
void T1239f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1239*)(C))->a1;
((T1239*)(C))->a1 = t1 + 1 ;
((T1239*)(C))->z2[t1] = a1;
}
/* ET_CREATOR.put_first */
void T1238f17(T0* C, T0* a1)
{
T0* t1;
t1 = (T1238f6(C));
T1236f4(GE_void(t1), ((T1238*)(C))->a3, a1, ((T1238*)(C))->a4);
((T1238*)(C))->a4 = ((T6)((((T1238*)(C))->a4)+((T6)(GE_int32(1)))));
}
/* ET_CREATOR.fixed_array */
T0* T1238f6(T0* C)
{
T0* R = 0;
if (ge829os11824) {
return ge829ov11824;
} else {
ge829os11824 = '\1';
ge829ov11824 = R;
}
R = T1236c3();
ge829ov11824 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_254 */
void T399f1299(T0* C)
{
T0* t1;
T1 t2;
T0* t3;
T6 t4;
T0* l1 = 0;
t1 = (T399f901(C));
t2 = (T26x3051(GE_void(t1)));
if (t2) {
T399f1976(C);
} else {
t1 = (T399f682(C));
t3 = (T399f905(C));
t4 = (T399f906(C));
l1 = (T362f158(GE_void(t1), t3, ((T399*)(C))->a69, t4));
t2 = ((l1)!=(EIF_VOID));
if (t2) {
t1 = (((T1192*)(GE_void(((T399*)(C))->a352)))->z2[((T399*)(C))->a160]);
t2 = ((t1)!=(EIF_VOID));
}
if (t2) {
t1 = (((T1192*)(GE_void(((T399*)(C))->a352)))->z2[((T399*)(C))->a160]);
T1238f17(GE_void(l1), t1);
}
}
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a145 = ((T6)((((T399*)(C))->a145)+((T6)(GE_int32(1)))));
((T399*)(C))->a160 = ((T6)((((T399*)(C))->a160)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a145), ((T399*)(C))->a404));
if (t2) {
t2 = ((((T399*)(C))->a403)==(EIF_VOID));
if (t2) {
((T399*)(C))->a405 = T1240c3();
((T399*)(C))->a404 = (T6)(GE_int32(10));
((T399*)(C))->a403 = (T1240f1(GE_void(((T399*)(C))->a405), ((T399*)(C))->a404));
} else {
((T399*)(C))->a404 = ((T6)((((T399*)(C))->a404)+((T6)(GE_int32(10)))));
((T399*)(C))->a403 = (T1240f2(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, ((T399*)(C))->a404));
}
}
T1240f4(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, l1, ((T399*)(C))->a145);
}
}
/* KL_SPECIAL_ROUTINES [ET_CREATOR].resize */
T0* T1240f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1239*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1239f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_CREATOR].aliased_resized_area */
T0* T1239f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1239*)(C))->a2;
if (a1 > t1) {
R = GE_new1239(a1, EIF_FALSE);
*(T1239*)(R) = *(T1239*)(C);
memcpy(((T1239*)(R))->z2,((T1239*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1239*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1239*)(R))->a1;
if (t1 > a1) {
((T1239*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1239*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1239*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_CREATOR].make */
T0* T1240f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1685c4();
R = (((T1685*)(GE_void(l1)))->a1);
R = (T1239f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_CREATOR].make_empty */
T0* T1685c4(void)
{
T0* C;
C = GE_new1685(EIF_TRUE);
((T1685*)(C))->a2 = (T6)(GE_int32(1));
((T1685*)(C))->a3 = (T6)(GE_int32(0));
T1685f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_CREATOR].make_empty_area */
void T1685f5(T0* C, T6 a1)
{
((T1685*)(C))->a1 = T1239c6(a1);
}
/* SPECIAL [ET_CREATOR].make_empty */
T0* T1239c6(T6 a1)
{
T0* C;
C = GE_new1239(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_CREATOR].default_create */
T0* T1240c3(void)
{
T0* C;
C = GE_new1240(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_creator */
T0* T362f158(T0* C, T0* a1, T0* a2, T6 a3)
{
T1 t1;
T0* R = 0;
t1 = ((a2)!=(EIF_VOID));
if (t1) {
R = T1238c16(a2, a3);
}
return R;
}
/* ET_CREATOR.make_with_capacity */
T0* T1238c16(T0* a1, T6 a2)
{
T0* C;
T0* t1;
C = GE_new1238(EIF_TRUE);
t1 = (T1238f5(C));
((T1238*)(C))->a1 = (T74f585(GE_void(t1)));
((T1238*)(C))->a2 = a1;
T1238f18(C, a2);
return C;
}
/* ET_CREATOR.make_feature_name_list_with_capacity */
void T1238f18(T0* C, T6 a1)
{
T1 t1;
T0* t2;
((T1238*)(C))->a4 = (T6)(GE_int32(0));
t1 = (T6f1(&a1, (T6)(GE_int32(0))));
if (t1) {
t2 = (T1238f6(C));
((T1238*)(C))->a3 = (T1236f1(GE_void(t2), a1));
} else {
((T1238*)(C))->a3 = EIF_VOID;
}
}
/* ET_TOKEN_CONSTANTS.creation_keyword */
unsigned char ge808os10960 = '\0';
T0* ge808ov10960;
T0* T74f585(T0* C)
{
T0* R = 0;
if (ge808os10960) {
return ge808ov10960;
} else {
ge808os10960 = '\1';
ge808ov10960 = R;
}
R = T356c87();
ge808ov10960 = R;
return R;
}
/* ET_KEYWORD.make_creation */
T0* T356c87(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)('\r'));
t1 = (T356f19(C));
t1 = (ge808ov11280);
T356f39(C, t1);
return C;
}
/* ET_CREATOR.tokens */
T0* T1238f5(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_253 */
void T399f1298(T0* C)
{
T0* t1;
T1 t2;
T0* t3;
T6 t4;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t2 = ((t1)!=(EIF_VOID));
if (t2) {
t1 = (T399f682(C));
t3 = (T399f905(C));
t4 = (T399f906(C));
t4 = ((T6)((t4)+((T6)(GE_int32(1)))));
l1 = (T362f158(GE_void(t1), t3, ((T399*)(C))->a69, t4));
t2 = ((l1)!=(EIF_VOID));
if (t2) {
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
T1238f17(GE_void(l1), t1);
}
} else {
t1 = (T399f682(C));
t3 = (T399f905(C));
t4 = (T399f906(C));
l1 = (T362f158(GE_void(t1), t3, ((T399*)(C))->a69, t4));
}
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a145 = ((T6)((((T399*)(C))->a145)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a145), ((T399*)(C))->a404));
if (t2) {
t2 = ((((T399*)(C))->a403)==(EIF_VOID));
if (t2) {
((T399*)(C))->a405 = T1240c3();
((T399*)(C))->a404 = (T6)(GE_int32(10));
((T399*)(C))->a403 = (T1240f1(GE_void(((T399*)(C))->a405), ((T399*)(C))->a404));
} else {
((T399*)(C))->a404 = ((T6)((((T399*)(C))->a404)+((T6)(GE_int32(10)))));
((T399*)(C))->a403 = (T1240f2(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, ((T399*)(C))->a404));
}
}
T1240f4(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, l1, ((T399*)(C))->a145);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_252 */
void T399f1297(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T399f1982(C, t1);
t1 = (T399f905(C));
((T399*)(C))->a69 = (T399f683(C, t1));
T399f1983(C);
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a145 = ((T6)((((T399*)(C))->a145)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a145), ((T399*)(C))->a404));
if (t2) {
t2 = ((((T399*)(C))->a403)==(EIF_VOID));
if (t2) {
((T399*)(C))->a405 = T1240c3();
((T399*)(C))->a404 = (T6)(GE_int32(10));
((T399*)(C))->a403 = (T1240f1(GE_void(((T399*)(C))->a405), ((T399*)(C))->a404));
} else {
((T399*)(C))->a404 = ((T6)((((T399*)(C))->a404)+((T6)(GE_int32(10)))));
((T399*)(C))->a403 = (T1240f2(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, ((T399*)(C))->a404));
}
}
T1240f4(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, l1, ((T399*)(C))->a145);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_251 */
void T399f1296(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1239*)(GE_void(((T399*)(C))->a403)))->z2[((T399*)(C))->a145]);
T399f1980(C);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a145 = ((T6)((((T399*)(C))->a145)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
T1240f4(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, l1, ((T399*)(C))->a145);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_250 */
void T399f1295(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T399f1982(C, t1);
((T399*)(C))->a69 = (((T1227*)(GE_void(((T399*)(C))->a386)))->z2[((T399*)(C))->a133]);
T399f1983(C);
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a145 = ((T6)((((T399*)(C))->a145)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a145), ((T399*)(C))->a404));
if (t2) {
t2 = ((((T399*)(C))->a403)==(EIF_VOID));
if (t2) {
((T399*)(C))->a405 = T1240c3();
((T399*)(C))->a404 = (T6)(GE_int32(10));
((T399*)(C))->a403 = (T1240f1(GE_void(((T399*)(C))->a405), ((T399*)(C))->a404));
} else {
((T399*)(C))->a404 = ((T6)((((T399*)(C))->a404)+((T6)(GE_int32(10)))));
((T399*)(C))->a403 = (T1240f2(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, ((T399*)(C))->a404));
}
}
T1240f4(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, l1, ((T399*)(C))->a145);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_249 */
void T399f1294(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1239*)(GE_void(((T399*)(C))->a403)))->z2[((T399*)(C))->a145]);
T399f1980(C);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a145 = ((T6)((((T399*)(C))->a145)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a133 = ((T6)((((T399*)(C))->a133)-((T6)(GE_int32(1)))));
T1240f4(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, l1, ((T399*)(C))->a145);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_248 */
void T399f1293(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t3 = (T399f683(C, t3));
l1 = (T362f158(GE_void(t1), t2, t3, (T6)(GE_int32(0))));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a145 = ((T6)((((T399*)(C))->a145)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a145), ((T399*)(C))->a404));
if (t4) {
t4 = ((((T399*)(C))->a403)==(EIF_VOID));
if (t4) {
((T399*)(C))->a405 = T1240c3();
((T399*)(C))->a404 = (T6)(GE_int32(10));
((T399*)(C))->a403 = (T1240f1(GE_void(((T399*)(C))->a405), ((T399*)(C))->a404));
} else {
((T399*)(C))->a404 = ((T6)((((T399*)(C))->a404)+((T6)(GE_int32(10)))));
((T399*)(C))->a403 = (T1240f2(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, ((T399*)(C))->a404));
}
}
T1240f4(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, l1, ((T399*)(C))->a145);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_247 */
void T399f1292(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t3 = (((T1227*)(GE_void(((T399*)(C))->a386)))->z2[((T399*)(C))->a133]);
l1 = (T362f158(GE_void(t1), t2, t3, (T6)(GE_int32(0))));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a145 = ((T6)((((T399*)(C))->a145)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a133 = ((T6)((((T399*)(C))->a133)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a145), ((T399*)(C))->a404));
if (t4) {
t4 = ((((T399*)(C))->a403)==(EIF_VOID));
if (t4) {
((T399*)(C))->a405 = T1240c3();
((T399*)(C))->a404 = (T6)(GE_int32(10));
((T399*)(C))->a403 = (T1240f1(GE_void(((T399*)(C))->a405), ((T399*)(C))->a404));
} else {
((T399*)(C))->a404 = ((T6)((((T399*)(C))->a404)+((T6)(GE_int32(10)))));
((T399*)(C))->a403 = (T1240f2(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, ((T399*)(C))->a404));
}
}
T1240f4(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, l1, ((T399*)(C))->a145);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_246 */
void T399f1291(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T399f1982(C, t1);
t1 = (T399f905(C));
((T399*)(C))->a69 = (T399f683(C, t1));
T399f1983(C);
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a145 = ((T6)((((T399*)(C))->a145)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a145), ((T399*)(C))->a404));
if (t2) {
t2 = ((((T399*)(C))->a403)==(EIF_VOID));
if (t2) {
((T399*)(C))->a405 = T1240c3();
((T399*)(C))->a404 = (T6)(GE_int32(10));
((T399*)(C))->a403 = (T1240f1(GE_void(((T399*)(C))->a405), ((T399*)(C))->a404));
} else {
((T399*)(C))->a404 = ((T6)((((T399*)(C))->a404)+((T6)(GE_int32(10)))));
((T399*)(C))->a403 = (T1240f2(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, ((T399*)(C))->a404));
}
}
T1240f4(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, l1, ((T399*)(C))->a145);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_245 */
void T399f1290(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1239*)(GE_void(((T399*)(C))->a403)))->z2[((T399*)(C))->a145]);
T399f1980(C);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a145 = ((T6)((((T399*)(C))->a145)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
T1240f4(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, l1, ((T399*)(C))->a145);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_244 */
void T399f1289(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T399f1982(C, t1);
((T399*)(C))->a69 = (((T1227*)(GE_void(((T399*)(C))->a386)))->z2[((T399*)(C))->a133]);
T399f1983(C);
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a145 = ((T6)((((T399*)(C))->a145)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a145), ((T399*)(C))->a404));
if (t2) {
t2 = ((((T399*)(C))->a403)==(EIF_VOID));
if (t2) {
((T399*)(C))->a405 = T1240c3();
((T399*)(C))->a404 = (T6)(GE_int32(10));
((T399*)(C))->a403 = (T1240f1(GE_void(((T399*)(C))->a405), ((T399*)(C))->a404));
} else {
((T399*)(C))->a404 = ((T6)((((T399*)(C))->a404)+((T6)(GE_int32(10)))));
((T399*)(C))->a403 = (T1240f2(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, ((T399*)(C))->a404));
}
}
T1240f4(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, l1, ((T399*)(C))->a145);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_243 */
void T399f1288(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1239*)(GE_void(((T399*)(C))->a403)))->z2[((T399*)(C))->a145]);
T399f1980(C);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a145 = ((T6)((((T399*)(C))->a145)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a133 = ((T6)((((T399*)(C))->a133)-((T6)(GE_int32(1)))));
T1240f4(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, l1, ((T399*)(C))->a145);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_242 */
void T399f1287(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t3 = (T399f683(C, t3));
l1 = (T362f158(GE_void(t1), t2, t3, (T6)(GE_int32(0))));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a145 = ((T6)((((T399*)(C))->a145)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a145), ((T399*)(C))->a404));
if (t4) {
t4 = ((((T399*)(C))->a403)==(EIF_VOID));
if (t4) {
((T399*)(C))->a405 = T1240c3();
((T399*)(C))->a404 = (T6)(GE_int32(10));
((T399*)(C))->a403 = (T1240f1(GE_void(((T399*)(C))->a405), ((T399*)(C))->a404));
} else {
((T399*)(C))->a404 = ((T6)((((T399*)(C))->a404)+((T6)(GE_int32(10)))));
((T399*)(C))->a403 = (T1240f2(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, ((T399*)(C))->a404));
}
}
T1240f4(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, l1, ((T399*)(C))->a145);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_241 */
void T399f1286(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t3 = (((T1227*)(GE_void(((T399*)(C))->a386)))->z2[((T399*)(C))->a133]);
l1 = (T362f158(GE_void(t1), t2, t3, (T6)(GE_int32(0))));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a145 = ((T6)((((T399*)(C))->a145)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a133 = ((T6)((((T399*)(C))->a133)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a145), ((T399*)(C))->a404));
if (t4) {
t4 = ((((T399*)(C))->a403)==(EIF_VOID));
if (t4) {
((T399*)(C))->a405 = T1240c3();
((T399*)(C))->a404 = (T6)(GE_int32(10));
((T399*)(C))->a403 = (T1240f1(GE_void(((T399*)(C))->a405), ((T399*)(C))->a404));
} else {
((T399*)(C))->a404 = ((T6)((((T399*)(C))->a404)+((T6)(GE_int32(10)))));
((T399*)(C))->a403 = (T1240f2(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, ((T399*)(C))->a404));
}
}
T1240f4(GE_void(((T399*)(C))->a405), ((T399*)(C))->a403, l1, ((T399*)(C))->a145);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_240 */
void T399f1285(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (((T1239*)(GE_void(((T399*)(C))->a403)))->z2[((T399*)(C))->a145]);
t2 = ((t1)!=(EIF_VOID));
if (t2) {
T399f1984(C);
}
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a146 = ((T6)((((T399*)(C))->a146)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a146), ((T399*)(C))->a401));
if (t2) {
t2 = ((((T399*)(C))->a318)==(EIF_VOID));
if (t2) {
((T399*)(C))->a402 = T1237c3();
((T399*)(C))->a401 = (T6)(GE_int32(10));
((T399*)(C))->a318 = (T1237f1(GE_void(((T399*)(C))->a402), ((T399*)(C))->a401));
} else {
((T399*)(C))->a401 = ((T6)((((T399*)(C))->a401)+((T6)(GE_int32(10)))));
((T399*)(C))->a318 = (T1237f2(GE_void(((T399*)(C))->a402), ((T399*)(C))->a318, ((T399*)(C))->a401));
}
}
T1237f4(GE_void(((T399*)(C))->a402), ((T399*)(C))->a318, l1, ((T399*)(C))->a146);
}
}
/* KL_SPECIAL_ROUTINES [ET_CREATOR_LIST].force */
void T1237f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1154*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1154*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1154*)(GE_void(a1)))->a1);
T1154f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_CREATOR_LIST].fill_with */
void T1154f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1154*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1154*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1154f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_CREATOR_LIST].extend */
void T1154f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1154*)(C))->a1;
((T1154*)(C))->a1 = t1 + 1 ;
((T1154*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_CREATOR_LIST].resize */
T0* T1237f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1154*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1154f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_CREATOR_LIST].aliased_resized_area */
T0* T1154f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1154*)(C))->a2;
if (a1 > t1) {
R = GE_new1154(a1, EIF_FALSE);
*(T1154*)(R) = *(T1154*)(C);
memcpy(((T1154*)(R))->z2,((T1154*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1154*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1154*)(R))->a1;
if (t1 > a1) {
((T1154*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1154*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1154*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_CREATOR_LIST].make */
T0* T1237f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1684c4();
R = (((T1684*)(GE_void(l1)))->a1);
R = (T1154f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_CREATOR_LIST].make_empty */
T0* T1684c4(void)
{
T0* C;
C = GE_new1684(EIF_TRUE);
((T1684*)(C))->a2 = (T6)(GE_int32(1));
((T1684*)(C))->a3 = (T6)(GE_int32(0));
T1684f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_CREATOR_LIST].make_empty_area */
void T1684f5(T0* C, T6 a1)
{
((T1684*)(C))->a1 = T1154c6(a1);
}
/* SPECIAL [ET_CREATOR_LIST].make_empty */
T0* T1154c6(T6 a1)
{
T0* C;
C = GE_new1154(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_CREATOR_LIST].default_create */
T0* T1237c3(void)
{
T0* C;
C = GE_new1237(EIF_TRUE);
return C;
}
/* ET_EIFFEL_PARSER.yy_do_action_239 */
void T399f1284(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1154*)(GE_void(((T399*)(C))->a318)))->z2[((T399*)(C))->a146]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t2 = (((T1239*)(GE_void(((T399*)(C))->a403)))->z2[((T399*)(C))->a145]);
t1 = ((t2)!=(EIF_VOID));
}
if (t1) {
t2 = (((T1239*)(GE_void(((T399*)(C))->a403)))->z2[((T399*)(C))->a145]);
T1054f10(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a146 = ((T6)((((T399*)(C))->a146)-((T6)(GE_int32(1)))));
((T399*)(C))->a145 = ((T6)((((T399*)(C))->a145)-((T6)(GE_int32(1)))));
T1237f4(GE_void(((T399*)(C))->a402), ((T399*)(C))->a318, l1, ((T399*)(C))->a146);
}
}
/* ET_CREATOR_LIST.put_first */
void T1054f10(T0* C, T0* a1)
{
T0* t1;
t1 = (T1054f3(C));
T1240f4(GE_void(t1), ((T1054*)(C))->a2, a1, ((T1054*)(C))->a1);
((T1054*)(C))->a1 = ((T6)((((T1054*)(C))->a1)+((T6)(GE_int32(1)))));
}
/* ET_CREATOR_LIST.fixed_array */
unsigned char ge531os11824 = '\0';
T0* ge531ov11824;
T0* T1054f3(T0* C)
{
T0* R = 0;
if (ge531os11824) {
return ge531ov11824;
} else {
ge531os11824 = '\1';
ge531ov11824 = R;
}
R = T1240c3();
ge531ov11824 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_238 */
void T399f1283(T0* C)
{
T0* t1;
T1 t2;
T6 t3;
T0* l1 = 0;
t1 = (((T1239*)(GE_void(((T399*)(C))->a403)))->z2[((T399*)(C))->a145]);
t2 = ((t1)!=(EIF_VOID));
if (t2) {
t1 = (T399f682(C));
t3 = (T399f906(C));
t3 = ((T6)((t3)+((T6)(GE_int32(1)))));
l1 = (T362f157(GE_void(t1), t3));
t2 = ((l1)!=(EIF_VOID));
if (t2) {
t1 = (((T1239*)(GE_void(((T399*)(C))->a403)))->z2[((T399*)(C))->a145]);
T1054f10(GE_void(l1), t1);
}
} else {
t1 = (T399f682(C));
t3 = (T399f906(C));
l1 = (T362f157(GE_void(t1), t3));
}
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a146 = ((T6)((((T399*)(C))->a146)+((T6)(GE_int32(1)))));
((T399*)(C))->a145 = ((T6)((((T399*)(C))->a145)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a146), ((T399*)(C))->a401));
if (t2) {
t2 = ((((T399*)(C))->a318)==(EIF_VOID));
if (t2) {
((T399*)(C))->a402 = T1237c3();
((T399*)(C))->a401 = (T6)(GE_int32(10));
((T399*)(C))->a318 = (T1237f1(GE_void(((T399*)(C))->a402), ((T399*)(C))->a401));
} else {
((T399*)(C))->a401 = ((T6)((((T399*)(C))->a401)+((T6)(GE_int32(10)))));
((T399*)(C))->a318 = (T1237f2(GE_void(((T399*)(C))->a402), ((T399*)(C))->a318, ((T399*)(C))->a401));
}
}
T1237f4(GE_void(((T399*)(C))->a402), ((T399*)(C))->a318, l1, ((T399*)(C))->a146);
}
}
/* ET_AST_FACTORY.new_creators */
T0* T362f157(T0* C, T6 a1)
{
T0* R = 0;
R = T1054c9(a1);
return R;
}
/* ET_CREATOR_LIST.make_with_capacity */
T0* T1054c9(T6 a1)
{
T0* C;
T1 t1;
T0* t2;
C = GE_new1054(EIF_TRUE);
((T1054*)(C))->a1 = (T6)(GE_int32(0));
t1 = (T6f1(&a1, (T6)(GE_int32(0))));
if (t1) {
t2 = (T1054f3(C));
((T1054*)(C))->a2 = (T1240f1(GE_void(t2), a1));
} else {
((T1054*)(C))->a2 = EIF_VOID;
}
return C;
}
/* ET_EIFFEL_PARSER.yy_do_action_237 */
void T399f1282(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1154*)(GE_void(((T399*)(C))->a318)))->z2[((T399*)(C))->a146]);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(1)))));
T1237f4(GE_void(((T399*)(C))->a402), ((T399*)(C))->a318, l1, ((T399*)(C))->a146);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_236 */
void T399f1281(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1154*)(GE_void(((T399*)(C))->a318)))->z2[((T399*)(C))->a146]);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(1)))));
T1237f4(GE_void(((T399*)(C))->a402), ((T399*)(C))->a318, l1, ((T399*)(C))->a146);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_235 */
void T399f1280(T0* C)
{
T1 t1;
T0* l1 = 0;
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a146 = ((T6)((((T399*)(C))->a146)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a146), ((T399*)(C))->a401));
if (t1) {
t1 = ((((T399*)(C))->a318)==(EIF_VOID));
if (t1) {
((T399*)(C))->a402 = T1237c3();
((T399*)(C))->a401 = (T6)(GE_int32(10));
((T399*)(C))->a318 = (T1237f1(GE_void(((T399*)(C))->a402), ((T399*)(C))->a401));
} else {
((T399*)(C))->a401 = ((T6)((((T399*)(C))->a401)+((T6)(GE_int32(10)))));
((T399*)(C))->a318 = (T1237f2(GE_void(((T399*)(C))->a402), ((T399*)(C))->a318, ((T399*)(C))->a401));
}
}
T1237f4(GE_void(((T399*)(C))->a402), ((T399*)(C))->a318, l1, ((T399*)(C))->a146);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_234 */
void T399f1279(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1220*)(GE_void(((T399*)(C))->a379)))->z2[((T399*)(C))->a159]);
t3 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
l1 = (T362f156(GE_void(t1), t2, t3));
t4 = ((l1)!=(EIF_VOID));
if (t4) {
T399f1984(C);
}
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a160 = ((T6)((((T399*)(C))->a160)+((T6)(GE_int32(1)))));
((T399*)(C))->a159 = ((T6)((((T399*)(C))->a159)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a160), ((T399*)(C))->a399));
if (t4) {
t4 = ((((T399*)(C))->a352)==(EIF_VOID));
if (t4) {
((T399*)(C))->a400 = T1236c3();
((T399*)(C))->a399 = (T6)(GE_int32(10));
((T399*)(C))->a352 = (T1236f1(GE_void(((T399*)(C))->a400), ((T399*)(C))->a399));
} else {
((T399*)(C))->a399 = ((T6)((((T399*)(C))->a399)+((T6)(GE_int32(10)))));
((T399*)(C))->a352 = (T1236f2(GE_void(((T399*)(C))->a400), ((T399*)(C))->a352, ((T399*)(C))->a399));
}
}
T1236f4(GE_void(((T399*)(C))->a400), ((T399*)(C))->a352, l1, ((T399*)(C))->a160);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_233 */
void T399f1278(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1216*)(GE_void(((T399*)(C))->a372)))->z2[((T399*)(C))->a177]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t2 = (((T1192*)(GE_void(((T399*)(C))->a352)))->z2[((T399*)(C))->a160]);
t1 = ((t2)!=(EIF_VOID));
}
if (t1) {
t2 = (((T1192*)(GE_void(((T399*)(C))->a352)))->z2[((T399*)(C))->a160]);
T464f9(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a160 = ((T6)((((T399*)(C))->a160)-((T6)(GE_int32(1)))));
T1235f4(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, l1, ((T399*)(C))->a177);
}
}
/* KL_SPECIAL_ROUTINES [ET_KEYWORD_FEATURE_NAME_LIST].force */
void T1235f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1216*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1216*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1216*)(GE_void(a1)))->a1);
T1216f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_KEYWORD_FEATURE_NAME_LIST].fill_with */
void T1216f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1216*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1216*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1216f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_KEYWORD_FEATURE_NAME_LIST].extend */
void T1216f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1216*)(C))->a1;
((T1216*)(C))->a1 = t1 + 1 ;
((T1216*)(C))->z2[t1] = a1;
}
/* ET_KEYWORD_FEATURE_NAME_LIST.put_first */
void T464f9(T0* C, T0* a1)
{
T0* t1;
t1 = (T464f5(C));
T1236f4(GE_void(t1), ((T464*)(C))->a3, a1, ((T464*)(C))->a2);
((T464*)(C))->a2 = ((T6)((((T464*)(C))->a2)+((T6)(GE_int32(1)))));
}
/* ET_KEYWORD_FEATURE_NAME_LIST.fixed_array */
T0* T464f5(T0* C)
{
T0* R = 0;
if (ge829os11824) {
return ge829ov11824;
} else {
ge829os11824 = '\1';
ge829ov11824 = R;
}
R = T1236c3();
ge829ov11824 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_232 */
void T399f1277(T0* C)
{
T0* t1;
T0* t2;
T6 t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (T399f905(C));
t3 = (T399f906(C));
l1 = (T362f155(GE_void(t1), t2, t3));
t4 = ((l1)!=(EIF_VOID));
if (t4) {
t1 = (((T1192*)(GE_void(((T399*)(C))->a352)))->z2[((T399*)(C))->a160]);
t4 = ((t1)!=(EIF_VOID));
}
if (t4) {
t1 = (((T1192*)(GE_void(((T399*)(C))->a352)))->z2[((T399*)(C))->a160]);
T464f9(GE_void(l1), t1);
}
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a177 = ((T6)((((T399*)(C))->a177)+((T6)(GE_int32(1)))));
((T399*)(C))->a160 = ((T6)((((T399*)(C))->a160)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a177), ((T399*)(C))->a397));
if (t4) {
t4 = ((((T399*)(C))->a372)==(EIF_VOID));
if (t4) {
((T399*)(C))->a398 = T1235c3();
((T399*)(C))->a397 = (T6)(GE_int32(10));
((T399*)(C))->a372 = (T1235f1(GE_void(((T399*)(C))->a398), ((T399*)(C))->a397));
} else {
((T399*)(C))->a397 = ((T6)((((T399*)(C))->a397)+((T6)(GE_int32(10)))));
((T399*)(C))->a372 = (T1235f2(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, ((T399*)(C))->a397));
}
}
T1235f4(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, l1, ((T399*)(C))->a177);
}
}
/* KL_SPECIAL_ROUTINES [ET_KEYWORD_FEATURE_NAME_LIST].resize */
T0* T1235f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1216*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1216f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_KEYWORD_FEATURE_NAME_LIST].aliased_resized_area */
T0* T1216f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1216*)(C))->a2;
if (a1 > t1) {
R = GE_new1216(a1, EIF_FALSE);
*(T1216*)(R) = *(T1216*)(C);
memcpy(((T1216*)(R))->z2,((T1216*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1216*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1216*)(R))->a1;
if (t1 > a1) {
((T1216*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1216*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1216*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_KEYWORD_FEATURE_NAME_LIST].make */
T0* T1235f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1682c4();
R = (((T1682*)(GE_void(l1)))->a1);
R = (T1216f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_KEYWORD_FEATURE_NAME_LIST].make_empty */
T0* T1682c4(void)
{
T0* C;
C = GE_new1682(EIF_TRUE);
((T1682*)(C))->a2 = (T6)(GE_int32(1));
((T1682*)(C))->a3 = (T6)(GE_int32(0));
T1682f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_KEYWORD_FEATURE_NAME_LIST].make_empty_area */
void T1682f5(T0* C, T6 a1)
{
((T1682*)(C))->a1 = T1216c6(a1);
}
/* SPECIAL [ET_KEYWORD_FEATURE_NAME_LIST].make_empty */
T0* T1216c6(T6 a1)
{
T0* C;
C = GE_new1216(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_KEYWORD_FEATURE_NAME_LIST].default_create */
T0* T1235c3(void)
{
T0* C;
C = GE_new1235(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_keyword_feature_name_list */
T0* T362f155(T0* C, T0* a1, T6 a2)
{
T0* R = 0;
R = T464c8(a2);
return R;
}
/* ET_KEYWORD_FEATURE_NAME_LIST.make_with_capacity */
T0* T464c8(T6 a1)
{
T0* C;
T0* t1;
C = GE_new464(EIF_TRUE);
t1 = (T464f4(C));
((T464*)(C))->a1 = (T74f589(GE_void(t1)));
T464f8p1(C, a1);
return C;
}
/* ET_KEYWORD_FEATURE_NAME_LIST.make_with_capacity */
void T464f8p1(T0* C, T6 a1)
{
T1 t1;
T0* t2;
((T464*)(C))->a2 = (T6)(GE_int32(0));
t1 = (T6f1(&a1, (T6)(GE_int32(0))));
if (t1) {
t2 = (T464f5(C));
((T464*)(C))->a3 = (T1236f1(GE_void(t2), a1));
} else {
((T464*)(C))->a3 = EIF_VOID;
}
}
/* ET_TOKEN_CONSTANTS.redefine_keyword */
unsigned char ge808os10993 = '\0';
T0* ge808ov10993;
T0* T74f589(T0* C)
{
T0* R = 0;
if (ge808os10993) {
return ge808ov10993;
} else {
ge808os10993 = '\1';
ge808ov10993 = R;
}
R = T356c91();
ge808ov10993 = R;
return R;
}
/* ET_KEYWORD.make_redefine */
T0* T356c91(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)('.'));
t1 = (T356f19(C));
t1 = (ge808ov11317);
T356f39(C, t1);
return C;
}
/* ET_KEYWORD_FEATURE_NAME_LIST.tokens */
T0* T464f4(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_231 */
void T399f1276(T0* C)
{
T0* t1;
T1 t2;
T0* t3;
T6 t4;
T0* l1 = 0;
t1 = (((T1220*)(GE_void(((T399*)(C))->a379)))->z2[((T399*)(C))->a159]);
t2 = ((t1)!=(EIF_VOID));
if (t2) {
t1 = (T399f682(C));
t3 = (T399f905(C));
t4 = (T399f906(C));
t4 = ((T6)((t4)+((T6)(GE_int32(1)))));
l1 = (T362f155(GE_void(t1), t3, t4));
t2 = ((l1)!=(EIF_VOID));
if (t2) {
t1 = (((T1220*)(GE_void(((T399*)(C))->a379)))->z2[((T399*)(C))->a159]);
T464f9(GE_void(l1), t1);
}
} else {
t1 = (T399f682(C));
t3 = (T399f905(C));
t4 = (T399f906(C));
l1 = (T362f155(GE_void(t1), t3, t4));
}
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a177 = ((T6)((((T399*)(C))->a177)+((T6)(GE_int32(1)))));
((T399*)(C))->a159 = ((T6)((((T399*)(C))->a159)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a177), ((T399*)(C))->a397));
if (t2) {
t2 = ((((T399*)(C))->a372)==(EIF_VOID));
if (t2) {
((T399*)(C))->a398 = T1235c3();
((T399*)(C))->a397 = (T6)(GE_int32(10));
((T399*)(C))->a372 = (T1235f1(GE_void(((T399*)(C))->a398), ((T399*)(C))->a397));
} else {
((T399*)(C))->a397 = ((T6)((((T399*)(C))->a397)+((T6)(GE_int32(10)))));
((T399*)(C))->a372 = (T1235f2(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, ((T399*)(C))->a397));
}
}
T1235f4(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, l1, ((T399*)(C))->a177);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_230 */
void T399f1275(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1216*)(GE_void(((T399*)(C))->a372)))->z2[((T399*)(C))->a177]);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
T1235f4(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, l1, ((T399*)(C))->a177);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_229 */
void T399f1274(T0* C)
{
T1 t1;
T0* l1 = 0;
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a177 = ((T6)((((T399*)(C))->a177)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a177), ((T399*)(C))->a397));
if (t1) {
t1 = ((((T399*)(C))->a372)==(EIF_VOID));
if (t1) {
((T399*)(C))->a398 = T1235c3();
((T399*)(C))->a397 = (T6)(GE_int32(10));
((T399*)(C))->a372 = (T1235f1(GE_void(((T399*)(C))->a398), ((T399*)(C))->a397));
} else {
((T399*)(C))->a397 = ((T6)((((T399*)(C))->a397)+((T6)(GE_int32(10)))));
((T399*)(C))->a372 = (T1235f2(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, ((T399*)(C))->a397));
}
}
T1235f4(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, l1, ((T399*)(C))->a177);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_228 */
void T399f1273(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T399f1982(C, t1);
T399f1983(C);
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a177 = ((T6)((((T399*)(C))->a177)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a177), ((T399*)(C))->a397));
if (t2) {
t2 = ((((T399*)(C))->a372)==(EIF_VOID));
if (t2) {
((T399*)(C))->a398 = T1235c3();
((T399*)(C))->a397 = (T6)(GE_int32(10));
((T399*)(C))->a372 = (T1235f1(GE_void(((T399*)(C))->a398), ((T399*)(C))->a397));
} else {
((T399*)(C))->a397 = ((T6)((((T399*)(C))->a397)+((T6)(GE_int32(10)))));
((T399*)(C))->a372 = (T1235f2(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, ((T399*)(C))->a397));
}
}
T1235f4(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, l1, ((T399*)(C))->a177);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_227 */
void T399f1272(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1216*)(GE_void(((T399*)(C))->a372)))->z2[((T399*)(C))->a177]);
T399f1980(C);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a177 = ((T6)((((T399*)(C))->a177)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
T1235f4(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, l1, ((T399*)(C))->a177);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_226 */
void T399f1271(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
l1 = (T362f155(GE_void(t1), t2, (T6)(GE_int32(0))));
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a177 = ((T6)((((T399*)(C))->a177)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t3 = (T6f12(&(((T399*)(C))->a177), ((T399*)(C))->a397));
if (t3) {
t3 = ((((T399*)(C))->a372)==(EIF_VOID));
if (t3) {
((T399*)(C))->a398 = T1235c3();
((T399*)(C))->a397 = (T6)(GE_int32(10));
((T399*)(C))->a372 = (T1235f1(GE_void(((T399*)(C))->a398), ((T399*)(C))->a397));
} else {
((T399*)(C))->a397 = ((T6)((((T399*)(C))->a397)+((T6)(GE_int32(10)))));
((T399*)(C))->a372 = (T1235f2(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, ((T399*)(C))->a397));
}
}
T1235f4(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, l1, ((T399*)(C))->a177);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_225 */
void T399f1270(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1216*)(GE_void(((T399*)(C))->a372)))->z2[((T399*)(C))->a177]);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
T1235f4(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, l1, ((T399*)(C))->a177);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_224 */
void T399f1269(T0* C)
{
T1 t1;
T0* l1 = 0;
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a177 = ((T6)((((T399*)(C))->a177)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a177), ((T399*)(C))->a397));
if (t1) {
t1 = ((((T399*)(C))->a372)==(EIF_VOID));
if (t1) {
((T399*)(C))->a398 = T1235c3();
((T399*)(C))->a397 = (T6)(GE_int32(10));
((T399*)(C))->a372 = (T1235f1(GE_void(((T399*)(C))->a398), ((T399*)(C))->a397));
} else {
((T399*)(C))->a397 = ((T6)((((T399*)(C))->a397)+((T6)(GE_int32(10)))));
((T399*)(C))->a372 = (T1235f2(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, ((T399*)(C))->a397));
}
}
T1235f4(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, l1, ((T399*)(C))->a177);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_223 */
void T399f1268(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T399f1982(C, t1);
T399f1983(C);
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a177 = ((T6)((((T399*)(C))->a177)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a177), ((T399*)(C))->a397));
if (t2) {
t2 = ((((T399*)(C))->a372)==(EIF_VOID));
if (t2) {
((T399*)(C))->a398 = T1235c3();
((T399*)(C))->a397 = (T6)(GE_int32(10));
((T399*)(C))->a372 = (T1235f1(GE_void(((T399*)(C))->a398), ((T399*)(C))->a397));
} else {
((T399*)(C))->a397 = ((T6)((((T399*)(C))->a397)+((T6)(GE_int32(10)))));
((T399*)(C))->a372 = (T1235f2(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, ((T399*)(C))->a397));
}
}
T1235f4(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, l1, ((T399*)(C))->a177);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_222 */
void T399f1267(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1216*)(GE_void(((T399*)(C))->a372)))->z2[((T399*)(C))->a177]);
T399f1980(C);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a177 = ((T6)((((T399*)(C))->a177)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
T1235f4(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, l1, ((T399*)(C))->a177);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_221 */
void T399f1266(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
l1 = (T362f155(GE_void(t1), t2, (T6)(GE_int32(0))));
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a177 = ((T6)((((T399*)(C))->a177)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t3 = (T6f12(&(((T399*)(C))->a177), ((T399*)(C))->a397));
if (t3) {
t3 = ((((T399*)(C))->a372)==(EIF_VOID));
if (t3) {
((T399*)(C))->a398 = T1235c3();
((T399*)(C))->a397 = (T6)(GE_int32(10));
((T399*)(C))->a372 = (T1235f1(GE_void(((T399*)(C))->a398), ((T399*)(C))->a397));
} else {
((T399*)(C))->a397 = ((T6)((((T399*)(C))->a397)+((T6)(GE_int32(10)))));
((T399*)(C))->a372 = (T1235f2(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, ((T399*)(C))->a397));
}
}
T1235f4(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, l1, ((T399*)(C))->a177);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_220 */
void T399f1265(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1216*)(GE_void(((T399*)(C))->a372)))->z2[((T399*)(C))->a177]);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
T1235f4(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, l1, ((T399*)(C))->a177);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_219 */
void T399f1264(T0* C)
{
T1 t1;
T0* l1 = 0;
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a177 = ((T6)((((T399*)(C))->a177)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a177), ((T399*)(C))->a397));
if (t1) {
t1 = ((((T399*)(C))->a372)==(EIF_VOID));
if (t1) {
((T399*)(C))->a398 = T1235c3();
((T399*)(C))->a397 = (T6)(GE_int32(10));
((T399*)(C))->a372 = (T1235f1(GE_void(((T399*)(C))->a398), ((T399*)(C))->a397));
} else {
((T399*)(C))->a397 = ((T6)((((T399*)(C))->a397)+((T6)(GE_int32(10)))));
((T399*)(C))->a372 = (T1235f2(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, ((T399*)(C))->a397));
}
}
T1235f4(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, l1, ((T399*)(C))->a177);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_218 */
void T399f1263(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T399f1982(C, t1);
T399f1983(C);
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a177 = ((T6)((((T399*)(C))->a177)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a177), ((T399*)(C))->a397));
if (t2) {
t2 = ((((T399*)(C))->a372)==(EIF_VOID));
if (t2) {
((T399*)(C))->a398 = T1235c3();
((T399*)(C))->a397 = (T6)(GE_int32(10));
((T399*)(C))->a372 = (T1235f1(GE_void(((T399*)(C))->a398), ((T399*)(C))->a397));
} else {
((T399*)(C))->a397 = ((T6)((((T399*)(C))->a397)+((T6)(GE_int32(10)))));
((T399*)(C))->a372 = (T1235f2(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, ((T399*)(C))->a397));
}
}
T1235f4(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, l1, ((T399*)(C))->a177);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_217 */
void T399f1262(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1216*)(GE_void(((T399*)(C))->a372)))->z2[((T399*)(C))->a177]);
T399f1980(C);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a177 = ((T6)((((T399*)(C))->a177)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
T1235f4(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, l1, ((T399*)(C))->a177);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_216 */
void T399f1261(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
l1 = (T362f155(GE_void(t1), t2, (T6)(GE_int32(0))));
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a177 = ((T6)((((T399*)(C))->a177)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t3 = (T6f12(&(((T399*)(C))->a177), ((T399*)(C))->a397));
if (t3) {
t3 = ((((T399*)(C))->a372)==(EIF_VOID));
if (t3) {
((T399*)(C))->a398 = T1235c3();
((T399*)(C))->a397 = (T6)(GE_int32(10));
((T399*)(C))->a372 = (T1235f1(GE_void(((T399*)(C))->a398), ((T399*)(C))->a397));
} else {
((T399*)(C))->a397 = ((T6)((((T399*)(C))->a397)+((T6)(GE_int32(10)))));
((T399*)(C))->a372 = (T1235f2(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, ((T399*)(C))->a397));
}
}
T1235f4(GE_void(((T399*)(C))->a398), ((T399*)(C))->a372, l1, ((T399*)(C))->a177);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_215 */
void T399f1260(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t2 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
l1 = (T399f673(C, t1, t2));
t3 = ((l1)!=(EIF_VOID));
if (t3) {
T399f1984(C);
}
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a132 = ((T6)((((T399*)(C))->a132)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
t3 = (T6f12(&(((T399*)(C))->a132), ((T399*)(C))->a395));
if (t3) {
t3 = ((((T399*)(C))->a394)==(EIF_VOID));
if (t3) {
((T399*)(C))->a396 = T933c3();
((T399*)(C))->a395 = (T6)(GE_int32(10));
((T399*)(C))->a394 = (T933f1(GE_void(((T399*)(C))->a396), ((T399*)(C))->a395));
} else {
((T399*)(C))->a395 = ((T6)((((T399*)(C))->a395)+((T6)(GE_int32(10)))));
((T399*)(C))->a394 = (T933f2(GE_void(((T399*)(C))->a396), ((T399*)(C))->a394, ((T399*)(C))->a395));
}
}
T933f4(GE_void(((T399*)(C))->a396), ((T399*)(C))->a394, l1, ((T399*)(C))->a132);
}
}
/* KL_SPECIAL_ROUTINES [ET_CLIENT_ITEM].resize */
T0* T933f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T932*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T932f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* ET_EIFFEL_PARSER.new_client_comma */
T0* T399f673(T0* C, T0* a1, T0* a2)
{
T0* t1;
T0* R = 0;
T0* l1 = 0;
t1 = (T399f909(C));
l1 = (T216x3152T0(GE_void(t1), a1));
t1 = (T399f682(C));
R = (T362f333(GE_void(t1), a1, l1, a2));
return R;
}
/* ET_AST_FACTORY.new_client_comma */
T0* T362f333(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* R = 0;
t1 = ((a1)!=(EIF_VOID));
if (t1) {
t1 = ((a2)!=(EIF_VOID));
}
if (t1) {
R = T460c6(a1, a2);
}
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_214 */
void T399f1259(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
l1 = (T399f670(C, t1));
t2 = ((l1)!=(EIF_VOID));
if (t2) {
T399f1984(C);
}
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a132 = ((T6)((((T399*)(C))->a132)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a132), ((T399*)(C))->a395));
if (t2) {
t2 = ((((T399*)(C))->a394)==(EIF_VOID));
if (t2) {
((T399*)(C))->a396 = T933c3();
((T399*)(C))->a395 = (T6)(GE_int32(10));
((T399*)(C))->a394 = (T933f1(GE_void(((T399*)(C))->a396), ((T399*)(C))->a395));
} else {
((T399*)(C))->a395 = ((T6)((((T399*)(C))->a395)+((T6)(GE_int32(10)))));
((T399*)(C))->a394 = (T933f2(GE_void(((T399*)(C))->a396), ((T399*)(C))->a394, ((T399*)(C))->a395));
}
}
T933f4(GE_void(((T399*)(C))->a396), ((T399*)(C))->a394, l1, ((T399*)(C))->a132);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_213 */
void T399f1258(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1227*)(GE_void(((T399*)(C))->a386)))->z2[((T399*)(C))->a133]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t2 = (((T932*)(GE_void(((T399*)(C))->a394)))->z2[((T399*)(C))->a132]);
t1 = ((t2)!=(EIF_VOID));
}
if (t1) {
t2 = (((T932*)(GE_void(((T399*)(C))->a394)))->z2[((T399*)(C))->a132]);
T1069f19(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a132 = ((T6)((((T399*)(C))->a132)-((T6)(GE_int32(1)))));
T1234f4(GE_void(((T399*)(C))->a392), ((T399*)(C))->a386, l1, ((T399*)(C))->a133);
}
}
/* KL_SPECIAL_ROUTINES [ET_CLIENTS].force */
void T1234f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1227*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1227*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1227*)(GE_void(a1)))->a1);
T1227f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_CLIENTS].fill_with */
void T1227f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1227*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1227*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1227f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_CLIENTS].extend */
void T1227f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1227*)(C))->a1;
((T1227*)(C))->a1 = t1 + 1 ;
((T1227*)(C))->z2[t1] = a1;
}
/* ET_EIFFEL_PARSER.yy_do_action_212 */
void T399f1257(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1227*)(GE_void(((T399*)(C))->a386)))->z2[((T399*)(C))->a133]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t2 = (((T932*)(GE_void(((T399*)(C))->a394)))->z2[((T399*)(C))->a132]);
t1 = ((t2)!=(EIF_VOID));
}
if (t1) {
t2 = (((T932*)(GE_void(((T399*)(C))->a394)))->z2[((T399*)(C))->a132]);
T1069f19(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a132 = ((T6)((((T399*)(C))->a132)-((T6)(GE_int32(1)))));
T1234f4(GE_void(((T399*)(C))->a392), ((T399*)(C))->a386, l1, ((T399*)(C))->a133);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_211 */
void T399f1256(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T6 t4;
T1 t5;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (T399f612(C));
t3 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t4 = (T399f906(C));
l1 = (T362f154(GE_void(t1), t2, t3, t4));
t5 = ((l1)!=(EIF_VOID));
if (t5) {
t1 = (((T932*)(GE_void(((T399*)(C))->a394)))->z2[((T399*)(C))->a132]);
t5 = ((t1)!=(EIF_VOID));
}
if (t5) {
t1 = (((T932*)(GE_void(((T399*)(C))->a394)))->z2[((T399*)(C))->a132]);
T1069f19(GE_void(l1), t1);
}
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a133 = ((T6)((((T399*)(C))->a133)+((T6)(GE_int32(1)))));
((T399*)(C))->a132 = ((T6)((((T399*)(C))->a132)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
t5 = (T6f12(&(((T399*)(C))->a133), ((T399*)(C))->a393));
if (t5) {
t5 = ((((T399*)(C))->a386)==(EIF_VOID));
if (t5) {
((T399*)(C))->a392 = T1234c3();
((T399*)(C))->a393 = (T6)(GE_int32(10));
((T399*)(C))->a386 = (T1234f1(GE_void(((T399*)(C))->a392), ((T399*)(C))->a393));
} else {
((T399*)(C))->a393 = ((T6)((((T399*)(C))->a393)+((T6)(GE_int32(10)))));
((T399*)(C))->a386 = (T1234f2(GE_void(((T399*)(C))->a392), ((T399*)(C))->a386, ((T399*)(C))->a393));
}
}
T1234f4(GE_void(((T399*)(C))->a392), ((T399*)(C))->a386, l1, ((T399*)(C))->a133);
}
}
/* KL_SPECIAL_ROUTINES [ET_CLIENTS].resize */
T0* T1234f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1227*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1227f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_CLIENTS].aliased_resized_area */
T0* T1227f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1227*)(C))->a2;
if (a1 > t1) {
R = GE_new1227(a1, EIF_FALSE);
*(T1227*)(R) = *(T1227*)(C);
memcpy(((T1227*)(R))->z2,((T1227*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1227*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1227*)(R))->a1;
if (t1 > a1) {
((T1227*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1227*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1227*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_CLIENTS].make */
T0* T1234f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1681c4();
R = (((T1681*)(GE_void(l1)))->a1);
R = (T1227f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_CLIENTS].make_empty */
T0* T1681c4(void)
{
T0* C;
C = GE_new1681(EIF_TRUE);
((T1681*)(C))->a2 = (T6)(GE_int32(1));
((T1681*)(C))->a3 = (T6)(GE_int32(0));
T1681f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_CLIENTS].make_empty_area */
void T1681f5(T0* C, T6 a1)
{
((T1681*)(C))->a1 = T1227c6(a1);
}
/* SPECIAL [ET_CLIENTS].make_empty */
T0* T1227c6(T6 a1)
{
T0* C;
C = GE_new1227(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_CLIENTS].default_create */
T0* T1234c3(void)
{
T0* C;
C = GE_new1234(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_clients */
T0* T362f154(T0* C, T0* a1, T0* a2, T6 a3)
{
T1 t1;
T0* t2;
T1 t3;
T0* R = 0;
R = T1069c18(a3);
t1 = ((a1)!=(EIF_VOID));
if (t1) {
t2 = (((((T0*)(GE_void(a1)))->id==304)?T304f4(a1):T622f4(a1)));
t3 = (((((T0*)(GE_void(t2)))->id==622)?T622f7(t2):T304f18(t2)));
t1 = ((T1)(!(t3)));
}
if (t1) {
T1069f17(GE_void(R), a1);
}
return R;
}
/* ET_CLIENTS.set_left_brace */
void T1069f17(T0* C, T0* a1)
{
((T1069*)(C))->a1 = a1;
}
/* ET_CLIENTS.make_with_capacity */
T0* T1069c18(T6 a1)
{
T0* C;
T0* t1;
C = GE_new1069(EIF_TRUE);
t1 = (T1069f5(C));
((T1069*)(C))->a1 = (T74f544(GE_void(t1)));
t1 = (T1069f5(C));
((T1069*)(C))->a2 = (T74f545(GE_void(t1)));
T1069f18p1(C, a1);
return C;
}
/* ET_CLIENTS.make_with_capacity */
void T1069f18p1(T0* C, T6 a1)
{
T1 t1;
T0* t2;
((T1069*)(C))->a3 = (T6)(GE_int32(0));
t1 = (T6f1(&a1, (T6)(GE_int32(0))));
if (t1) {
t2 = (T1069f6(C));
((T1069*)(C))->a4 = (T933f1(GE_void(t2), a1));
} else {
((T1069*)(C))->a4 = EIF_VOID;
}
}
/* ET_CLIENTS.tokens */
T0* T1069f5(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_210 */
void T399f1255(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T6 t4;
T1 t5;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (T399f612(C));
t3 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t4 = (T399f906(C));
l1 = (T362f154(GE_void(t1), t2, t3, t4));
t5 = ((l1)!=(EIF_VOID));
if (t5) {
t1 = (((T932*)(GE_void(((T399*)(C))->a394)))->z2[((T399*)(C))->a132]);
t5 = ((t1)!=(EIF_VOID));
}
if (t5) {
t1 = (((T932*)(GE_void(((T399*)(C))->a394)))->z2[((T399*)(C))->a132]);
T1069f19(GE_void(l1), t1);
}
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a133 = ((T6)((((T399*)(C))->a133)+((T6)(GE_int32(1)))));
((T399*)(C))->a132 = ((T6)((((T399*)(C))->a132)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
t5 = (T6f12(&(((T399*)(C))->a133), ((T399*)(C))->a393));
if (t5) {
t5 = ((((T399*)(C))->a386)==(EIF_VOID));
if (t5) {
((T399*)(C))->a392 = T1234c3();
((T399*)(C))->a393 = (T6)(GE_int32(10));
((T399*)(C))->a386 = (T1234f1(GE_void(((T399*)(C))->a392), ((T399*)(C))->a393));
} else {
((T399*)(C))->a393 = ((T6)((((T399*)(C))->a393)+((T6)(GE_int32(10)))));
((T399*)(C))->a386 = (T1234f2(GE_void(((T399*)(C))->a392), ((T399*)(C))->a386, ((T399*)(C))->a393));
}
}
T1234f4(GE_void(((T399*)(C))->a392), ((T399*)(C))->a386, l1, ((T399*)(C))->a133);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_209 */
void T399f1254(T0* C)
{
T0* t1;
T6 t2;
T0* t3;
T0* t4;
T1 t5;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
t3 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[t2]);
t4 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
l1 = (T362f153(GE_void(t1), t3, t4));
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a133 = ((T6)((((T399*)(C))->a133)+((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(2)))));
t5 = (T6f12(&(((T399*)(C))->a133), ((T399*)(C))->a393));
if (t5) {
t5 = ((((T399*)(C))->a386)==(EIF_VOID));
if (t5) {
((T399*)(C))->a392 = T1234c3();
((T399*)(C))->a393 = (T6)(GE_int32(10));
((T399*)(C))->a386 = (T1234f1(GE_void(((T399*)(C))->a392), ((T399*)(C))->a393));
} else {
((T399*)(C))->a393 = ((T6)((((T399*)(C))->a393)+((T6)(GE_int32(10)))));
((T399*)(C))->a386 = (T1234f2(GE_void(((T399*)(C))->a392), ((T399*)(C))->a386, ((T399*)(C))->a393));
}
}
T1234f4(GE_void(((T399*)(C))->a392), ((T399*)(C))->a386, l1, ((T399*)(C))->a133);
}
}
/* ET_AST_FACTORY.new_none_clients */
T0* T362f153(T0* C, T0* a1, T0* a2)
{
T1 t1;
T0* t2;
T1 t3;
T0* R = 0;
R = T1069c16();
t1 = ((a1)!=(EIF_VOID));
if (t1) {
t2 = (((((T0*)(GE_void(a1)))->id==304)?T304f4(a1):T622f4(a1)));
t3 = (((((T0*)(GE_void(t2)))->id==622)?T622f7(t2):T304f18(t2)));
t1 = ((T1)(!(t3)));
}
if (t1) {
T1069f17(GE_void(R), a1);
}
return R;
}
/* ET_CLIENTS.make */
T0* T1069c16(void)
{
T0* C;
T0* t1;
C = GE_new1069(EIF_TRUE);
t1 = (T1069f5(C));
((T1069*)(C))->a1 = (T74f544(GE_void(t1)));
t1 = (T1069f5(C));
((T1069*)(C))->a2 = (T74f545(GE_void(t1)));
T1069f16p1(C);
return C;
}
/* ET_CLIENTS.make */
void T1069f16p1(T0* C)
{
((T1069*)(C))->a3 = (T6)(GE_int32(0));
((T1069*)(C))->a4 = EIF_VOID;
}
/* ET_EIFFEL_PARSER.yy_do_action_208 */
void T399f1253(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
T399f1987(C, t1);
T399f1983(C);
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a133 = ((T6)((((T399*)(C))->a133)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a133), ((T399*)(C))->a393));
if (t2) {
t2 = ((((T399*)(C))->a386)==(EIF_VOID));
if (t2) {
((T399*)(C))->a392 = T1234c3();
((T399*)(C))->a393 = (T6)(GE_int32(10));
((T399*)(C))->a386 = (T1234f1(GE_void(((T399*)(C))->a392), ((T399*)(C))->a393));
} else {
((T399*)(C))->a393 = ((T6)((((T399*)(C))->a393)+((T6)(GE_int32(10)))));
((T399*)(C))->a386 = (T1234f2(GE_void(((T399*)(C))->a392), ((T399*)(C))->a386, ((T399*)(C))->a393));
}
}
T1234f4(GE_void(((T399*)(C))->a392), ((T399*)(C))->a386, l1, ((T399*)(C))->a133);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_207 */
void T399f1252(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1227*)(GE_void(((T399*)(C))->a386)))->z2[((T399*)(C))->a133]);
T399f1986(C);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a133 = ((T6)((((T399*)(C))->a133)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
T1234f4(GE_void(((T399*)(C))->a392), ((T399*)(C))->a386, l1, ((T399*)(C))->a133);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_206 */
void T399f1251(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1231*)(GE_void(((T399*)(C))->a389)))->z2[((T399*)(C))->a158]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t2 = (((T1192*)(GE_void(((T399*)(C))->a352)))->z2[((T399*)(C))->a160]);
t1 = ((t2)!=(EIF_VOID));
}
if (t1) {
t2 = (((T1192*)(GE_void(((T399*)(C))->a352)))->z2[((T399*)(C))->a160]);
T1230f11(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a160 = ((T6)((((T399*)(C))->a160)-((T6)(GE_int32(1)))));
T1233f4(GE_void(((T399*)(C))->a391), ((T399*)(C))->a389, l1, ((T399*)(C))->a158);
}
}
/* KL_SPECIAL_ROUTINES [ET_FEATURE_EXPORT].force */
void T1233f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1231*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1231*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1231*)(GE_void(a1)))->a1);
T1231f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_FEATURE_EXPORT].fill_with */
void T1231f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1231*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1231*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1231f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_FEATURE_EXPORT].extend */
void T1231f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1231*)(C))->a1;
((T1231*)(C))->a1 = t1 + 1 ;
((T1231*)(C))->z2[t1] = a1;
}
/* ET_FEATURE_EXPORT.put_first */
void T1230f11(T0* C, T0* a1)
{
T0* t1;
t1 = (T1230f4(C));
T1236f4(GE_void(t1), ((T1230*)(C))->a2, a1, ((T1230*)(C))->a3);
((T1230*)(C))->a3 = ((T6)((((T1230*)(C))->a3)+((T6)(GE_int32(1)))));
}
/* ET_FEATURE_EXPORT.fixed_array */
T0* T1230f4(T0* C)
{
T0* R = 0;
if (ge829os11824) {
return ge829ov11824;
} else {
ge829os11824 = '\1';
ge829ov11824 = R;
}
R = T1236c3();
ge829ov11824 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_205 */
void T399f1250(T0* C)
{
T0* t1;
T6 t2;
T1 t3;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (T399f906(C));
l1 = (T362f151(GE_void(t1), ((T399*)(C))->a70, t2));
t3 = ((l1)!=(EIF_VOID));
if (t3) {
t1 = (((T1192*)(GE_void(((T399*)(C))->a352)))->z2[((T399*)(C))->a160]);
t3 = ((t1)!=(EIF_VOID));
}
if (t3) {
t1 = (((T1192*)(GE_void(((T399*)(C))->a352)))->z2[((T399*)(C))->a160]);
T1230f11(GE_void(l1), t1);
}
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a158 = ((T6)((((T399*)(C))->a158)+((T6)(GE_int32(1)))));
((T399*)(C))->a160 = ((T6)((((T399*)(C))->a160)-((T6)(GE_int32(1)))));
t3 = (T6f12(&(((T399*)(C))->a158), ((T399*)(C))->a390));
if (t3) {
t3 = ((((T399*)(C))->a389)==(EIF_VOID));
if (t3) {
((T399*)(C))->a391 = T1233c3();
((T399*)(C))->a390 = (T6)(GE_int32(10));
((T399*)(C))->a389 = (T1233f1(GE_void(((T399*)(C))->a391), ((T399*)(C))->a390));
} else {
((T399*)(C))->a390 = ((T6)((((T399*)(C))->a390)+((T6)(GE_int32(10)))));
((T399*)(C))->a389 = (T1233f2(GE_void(((T399*)(C))->a391), ((T399*)(C))->a389, ((T399*)(C))->a390));
}
}
T1233f4(GE_void(((T399*)(C))->a391), ((T399*)(C))->a389, l1, ((T399*)(C))->a158);
}
}
/* KL_SPECIAL_ROUTINES [ET_FEATURE_EXPORT].resize */
T0* T1233f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1231*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1231f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_FEATURE_EXPORT].aliased_resized_area */
T0* T1231f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1231*)(C))->a2;
if (a1 > t1) {
R = GE_new1231(a1, EIF_FALSE);
*(T1231*)(R) = *(T1231*)(C);
memcpy(((T1231*)(R))->z2,((T1231*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1231*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1231*)(R))->a1;
if (t1 > a1) {
((T1231*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1231*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1231*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_FEATURE_EXPORT].make */
T0* T1233f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1680c4();
R = (((T1680*)(GE_void(l1)))->a1);
R = (T1231f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_FEATURE_EXPORT].make_empty */
T0* T1680c4(void)
{
T0* C;
C = GE_new1680(EIF_TRUE);
((T1680*)(C))->a2 = (T6)(GE_int32(1));
((T1680*)(C))->a3 = (T6)(GE_int32(0));
T1680f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_FEATURE_EXPORT].make_empty_area */
void T1680f5(T0* C, T6 a1)
{
((T1680*)(C))->a1 = T1231c6(a1);
}
/* SPECIAL [ET_FEATURE_EXPORT].make_empty */
T0* T1231c6(T6 a1)
{
T0* C;
C = GE_new1231(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_FEATURE_EXPORT].default_create */
T0* T1233c3(void)
{
T0* C;
C = GE_new1233(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_feature_export */
T0* T362f151(T0* C, T0* a1, T6 a2)
{
T1 t1;
T0* R = 0;
t1 = ((a1)!=(EIF_VOID));
if (t1) {
R = T1230c10(a1, a2);
}
return R;
}
/* ET_FEATURE_EXPORT.make_with_capacity */
T0* T1230c10(T0* a1, T6 a2)
{
T0* C;
C = GE_new1230(EIF_TRUE);
((T1230*)(C))->a1 = a1;
T1230f12(C, a2);
return C;
}
/* ET_FEATURE_EXPORT.make_feature_name_list_with_capacity */
void T1230f12(T0* C, T6 a1)
{
T1 t1;
T0* t2;
((T1230*)(C))->a3 = (T6)(GE_int32(0));
t1 = (T6f1(&a1, (T6)(GE_int32(0))));
if (t1) {
t2 = (T1230f4(C));
((T1230*)(C))->a2 = (T1236f1(GE_void(t2), a1));
} else {
((T1230*)(C))->a2 = EIF_VOID;
}
}
/* ET_EIFFEL_PARSER.yy_do_action_204 */
void T399f1249(T0* C)
{
T0* t1;
T1 t2;
T6 t3;
T0* l1 = 0;
t1 = (((T1220*)(GE_void(((T399*)(C))->a379)))->z2[((T399*)(C))->a159]);
t2 = ((t1)!=(EIF_VOID));
if (t2) {
t1 = (T399f682(C));
t3 = (T399f906(C));
t3 = ((T6)((t3)+((T6)(GE_int32(1)))));
l1 = (T362f151(GE_void(t1), ((T399*)(C))->a70, t3));
t2 = ((l1)!=(EIF_VOID));
if (t2) {
t1 = (((T1220*)(GE_void(((T399*)(C))->a379)))->z2[((T399*)(C))->a159]);
T1230f11(GE_void(l1), t1);
}
} else {
t1 = (T399f682(C));
t3 = (T399f906(C));
l1 = (T362f151(GE_void(t1), ((T399*)(C))->a70, t3));
}
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a158 = ((T6)((((T399*)(C))->a158)+((T6)(GE_int32(1)))));
((T399*)(C))->a159 = ((T6)((((T399*)(C))->a159)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a158), ((T399*)(C))->a390));
if (t2) {
t2 = ((((T399*)(C))->a389)==(EIF_VOID));
if (t2) {
((T399*)(C))->a391 = T1233c3();
((T399*)(C))->a390 = (T6)(GE_int32(10));
((T399*)(C))->a389 = (T1233f1(GE_void(((T399*)(C))->a391), ((T399*)(C))->a390));
} else {
((T399*)(C))->a390 = ((T6)((((T399*)(C))->a390)+((T6)(GE_int32(10)))));
((T399*)(C))->a389 = (T1233f2(GE_void(((T399*)(C))->a391), ((T399*)(C))->a389, ((T399*)(C))->a390));
}
}
T1233f4(GE_void(((T399*)(C))->a391), ((T399*)(C))->a389, l1, ((T399*)(C))->a158);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_203 */
void T399f1248(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1123*)(GE_void(((T399*)(C))->a293)))->z2[((T399*)(C))->a108]);
l1 = (T362f152(GE_void(t1), t2));
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a150 = ((T6)((((T399*)(C))->a150)+((T6)(GE_int32(1)))));
((T399*)(C))->a108 = ((T6)((((T399*)(C))->a108)-((T6)(GE_int32(1)))));
t3 = (T6f12(&(((T399*)(C))->a150), ((T399*)(C))->a387));
if (t3) {
t3 = ((((T399*)(C))->a385)==(EIF_VOID));
if (t3) {
((T399*)(C))->a388 = T1229c3();
((T399*)(C))->a387 = (T6)(GE_int32(10));
((T399*)(C))->a385 = (T1229f1(GE_void(((T399*)(C))->a388), ((T399*)(C))->a387));
} else {
((T399*)(C))->a387 = ((T6)((((T399*)(C))->a387)+((T6)(GE_int32(10)))));
((T399*)(C))->a385 = (T1229f2(GE_void(((T399*)(C))->a388), ((T399*)(C))->a385, ((T399*)(C))->a387));
}
}
T1229f4(GE_void(((T399*)(C))->a388), ((T399*)(C))->a385, l1, ((T399*)(C))->a150);
}
}
/* KL_SPECIAL_ROUTINES [ET_EXPORT].force */
void T1229f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1226*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1226*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1226*)(GE_void(a1)))->a1);
T1226f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_EXPORT].fill_with */
void T1226f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1226*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1226*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1226f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_EXPORT].extend */
void T1226f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1226*)(C))->a1;
((T1226*)(C))->a1 = t1 + 1 ;
((T1226*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_EXPORT].resize */
T0* T1229f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1226*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1226f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_EXPORT].aliased_resized_area */
T0* T1226f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1226*)(C))->a2;
if (a1 > t1) {
R = GE_new1226(a1, EIF_FALSE);
*(T1226*)(R) = *(T1226*)(C);
memcpy(((T1226*)(R))->z2,((T1226*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1226*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1226*)(R))->a1;
if (t1 > a1) {
((T1226*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1226*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1226*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_EXPORT].make */
T0* T1229f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1679c4();
R = (((T1679*)(GE_void(l1)))->a1);
R = (T1226f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_EXPORT].make_empty */
T0* T1679c4(void)
{
T0* C;
C = GE_new1679(EIF_TRUE);
((T1679*)(C))->a2 = (T6)(GE_int32(1));
((T1679*)(C))->a3 = (T6)(GE_int32(0));
T1679f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_EXPORT].make_empty_area */
void T1679f5(T0* C, T6 a1)
{
((T1679*)(C))->a1 = T1226c6(a1);
}
/* SPECIAL [ET_EXPORT].make_empty */
T0* T1226c6(T6 a1)
{
T0* C;
C = GE_new1226(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_EXPORT].default_create */
T0* T1229c3(void)
{
T0* C;
C = GE_new1229(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_null_export */
T0* T362f152(T0* C, T0* a1)
{
T0* R = 0;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_202 */
void T399f1247(T0* C)
{
T1 t1;
T0* l1 = 0;
((T399*)(C))->a70 = (((T1227*)(GE_void(((T399*)(C))->a386)))->z2[((T399*)(C))->a133]);
T399f1983(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a150 = ((T6)((((T399*)(C))->a150)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a150), ((T399*)(C))->a387));
if (t1) {
t1 = ((((T399*)(C))->a385)==(EIF_VOID));
if (t1) {
((T399*)(C))->a388 = T1229c3();
((T399*)(C))->a387 = (T6)(GE_int32(10));
((T399*)(C))->a385 = (T1229f1(GE_void(((T399*)(C))->a388), ((T399*)(C))->a387));
} else {
((T399*)(C))->a387 = ((T6)((((T399*)(C))->a387)+((T6)(GE_int32(10)))));
((T399*)(C))->a385 = (T1229f2(GE_void(((T399*)(C))->a388), ((T399*)(C))->a385, ((T399*)(C))->a387));
}
}
T1229f4(GE_void(((T399*)(C))->a388), ((T399*)(C))->a385, l1, ((T399*)(C))->a150);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_201 */
void T399f1246(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1231*)(GE_void(((T399*)(C))->a389)))->z2[((T399*)(C))->a158]);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a133 = ((T6)((((T399*)(C))->a133)-((T6)(GE_int32(1)))));
((T399*)(C))->a158 = ((T6)((((T399*)(C))->a158)-((T6)(GE_int32(1)))));
T1229f4(GE_void(((T399*)(C))->a388), ((T399*)(C))->a385, l1, ((T399*)(C))->a150);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_1_200 */
void T399f1025(T0* C, T6 a1)
{
switch (a1) {
case (T6)(T6)(GE_int32(1)):
T399f1046(C);
break;
case (T6)(T6)(GE_int32(2)):
T399f1047(C);
break;
case (T6)(T6)(GE_int32(3)):
T399f1048(C);
break;
case (T6)(T6)(GE_int32(4)):
T399f1049(C);
break;
case (T6)(T6)(GE_int32(5)):
T399f1050(C);
break;
case (T6)(T6)(GE_int32(6)):
T399f1051(C);
break;
case (T6)(T6)(GE_int32(7)):
T399f1052(C);
break;
case (T6)(T6)(GE_int32(8)):
T399f1053(C);
break;
case (T6)(T6)(GE_int32(9)):
T399f1054(C);
break;
case (T6)(T6)(GE_int32(10)):
T399f1055(C);
break;
case (T6)(T6)(GE_int32(11)):
T399f1056(C);
break;
case (T6)(T6)(GE_int32(12)):
T399f1057(C);
break;
case (T6)(T6)(GE_int32(13)):
T399f1058(C);
break;
case (T6)(T6)(GE_int32(14)):
T399f1059(C);
break;
case (T6)(T6)(GE_int32(15)):
T399f1060(C);
break;
case (T6)(T6)(GE_int32(16)):
T399f1061(C);
break;
case (T6)(T6)(GE_int32(17)):
T399f1062(C);
break;
case (T6)(T6)(GE_int32(18)):
T399f1063(C);
break;
case (T6)(T6)(GE_int32(19)):
T399f1064(C);
break;
case (T6)(T6)(GE_int32(20)):
T399f1065(C);
break;
case (T6)(T6)(GE_int32(21)):
T399f1066(C);
break;
case (T6)(T6)(GE_int32(22)):
T399f1067(C);
break;
case (T6)(T6)(GE_int32(23)):
T399f1068(C);
break;
case (T6)(T6)(GE_int32(24)):
T399f1069(C);
break;
case (T6)(T6)(GE_int32(25)):
T399f1070(C);
break;
case (T6)(T6)(GE_int32(26)):
T399f1071(C);
break;
case (T6)(T6)(GE_int32(27)):
T399f1072(C);
break;
case (T6)(T6)(GE_int32(28)):
T399f1073(C);
break;
case (T6)(T6)(GE_int32(29)):
T399f1074(C);
break;
case (T6)(T6)(GE_int32(30)):
T399f1075(C);
break;
case (T6)(T6)(GE_int32(31)):
T399f1076(C);
break;
case (T6)(T6)(GE_int32(32)):
T399f1077(C);
break;
case (T6)(T6)(GE_int32(33)):
T399f1078(C);
break;
case (T6)(T6)(GE_int32(34)):
T399f1079(C);
break;
case (T6)(T6)(GE_int32(35)):
T399f1080(C);
break;
case (T6)(T6)(GE_int32(36)):
T399f1081(C);
break;
case (T6)(T6)(GE_int32(37)):
T399f1082(C);
break;
case (T6)(T6)(GE_int32(38)):
T399f1083(C);
break;
case (T6)(T6)(GE_int32(39)):
T399f1084(C);
break;
case (T6)(T6)(GE_int32(40)):
T399f1085(C);
break;
case (T6)(T6)(GE_int32(41)):
T399f1086(C);
break;
case (T6)(T6)(GE_int32(42)):
T399f1087(C);
break;
case (T6)(T6)(GE_int32(43)):
T399f1088(C);
break;
case (T6)(T6)(GE_int32(44)):
T399f1089(C);
break;
case (T6)(T6)(GE_int32(45)):
T399f1090(C);
break;
case (T6)(T6)(GE_int32(46)):
T399f1091(C);
break;
case (T6)(T6)(GE_int32(47)):
T399f1092(C);
break;
case (T6)(T6)(GE_int32(48)):
T399f1093(C);
break;
case (T6)(T6)(GE_int32(49)):
T399f1094(C);
break;
case (T6)(T6)(GE_int32(50)):
T399f1095(C);
break;
case (T6)(T6)(GE_int32(51)):
T399f1096(C);
break;
case (T6)(T6)(GE_int32(52)):
T399f1097(C);
break;
case (T6)(T6)(GE_int32(53)):
T399f1098(C);
break;
case (T6)(T6)(GE_int32(54)):
T399f1099(C);
break;
case (T6)(T6)(GE_int32(55)):
T399f1100(C);
break;
case (T6)(T6)(GE_int32(56)):
T399f1101(C);
break;
case (T6)(T6)(GE_int32(57)):
T399f1102(C);
break;
case (T6)(T6)(GE_int32(58)):
T399f1103(C);
break;
case (T6)(T6)(GE_int32(59)):
T399f1104(C);
break;
case (T6)(T6)(GE_int32(60)):
T399f1105(C);
break;
case (T6)(T6)(GE_int32(61)):
T399f1106(C);
break;
case (T6)(T6)(GE_int32(62)):
T399f1107(C);
break;
case (T6)(T6)(GE_int32(63)):
T399f1108(C);
break;
case (T6)(T6)(GE_int32(64)):
T399f1109(C);
break;
case (T6)(T6)(GE_int32(65)):
T399f1110(C);
break;
case (T6)(T6)(GE_int32(66)):
T399f1111(C);
break;
case (T6)(T6)(GE_int32(67)):
T399f1112(C);
break;
case (T6)(T6)(GE_int32(68)):
T399f1113(C);
break;
case (T6)(T6)(GE_int32(69)):
T399f1114(C);
break;
case (T6)(T6)(GE_int32(70)):
T399f1115(C);
break;
case (T6)(T6)(GE_int32(71)):
T399f1116(C);
break;
case (T6)(T6)(GE_int32(72)):
T399f1117(C);
break;
case (T6)(T6)(GE_int32(73)):
T399f1118(C);
break;
case (T6)(T6)(GE_int32(74)):
T399f1119(C);
break;
case (T6)(T6)(GE_int32(75)):
T399f1120(C);
break;
case (T6)(T6)(GE_int32(76)):
T399f1121(C);
break;
case (T6)(T6)(GE_int32(77)):
T399f1122(C);
break;
case (T6)(T6)(GE_int32(78)):
T399f1123(C);
break;
case (T6)(T6)(GE_int32(79)):
T399f1124(C);
break;
case (T6)(T6)(GE_int32(80)):
T399f1125(C);
break;
case (T6)(T6)(GE_int32(81)):
T399f1126(C);
break;
case (T6)(T6)(GE_int32(82)):
T399f1127(C);
break;
case (T6)(T6)(GE_int32(83)):
T399f1128(C);
break;
case (T6)(T6)(GE_int32(84)):
T399f1129(C);
break;
case (T6)(T6)(GE_int32(85)):
T399f1130(C);
break;
case (T6)(T6)(GE_int32(86)):
T399f1131(C);
break;
case (T6)(T6)(GE_int32(87)):
T399f1132(C);
break;
case (T6)(T6)(GE_int32(88)):
T399f1133(C);
break;
case (T6)(T6)(GE_int32(89)):
T399f1134(C);
break;
case (T6)(T6)(GE_int32(90)):
T399f1135(C);
break;
case (T6)(T6)(GE_int32(91)):
T399f1136(C);
break;
case (T6)(T6)(GE_int32(92)):
T399f1137(C);
break;
case (T6)(T6)(GE_int32(93)):
T399f1138(C);
break;
case (T6)(T6)(GE_int32(94)):
T399f1139(C);
break;
case (T6)(T6)(GE_int32(95)):
T399f1140(C);
break;
case (T6)(T6)(GE_int32(96)):
T399f1141(C);
break;
case (T6)(T6)(GE_int32(97)):
T399f1142(C);
break;
case (T6)(T6)(GE_int32(98)):
T399f1143(C);
break;
case (T6)(T6)(GE_int32(99)):
T399f1144(C);
break;
case (T6)(T6)(GE_int32(100)):
T399f1145(C);
break;
case (T6)(T6)(GE_int32(101)):
T399f1146(C);
break;
case (T6)(T6)(GE_int32(102)):
T399f1147(C);
break;
case (T6)(T6)(GE_int32(103)):
T399f1148(C);
break;
case (T6)(T6)(GE_int32(104)):
T399f1149(C);
break;
case (T6)(T6)(GE_int32(105)):
T399f1150(C);
break;
case (T6)(T6)(GE_int32(106)):
T399f1151(C);
break;
case (T6)(T6)(GE_int32(107)):
T399f1152(C);
break;
case (T6)(T6)(GE_int32(108)):
T399f1153(C);
break;
case (T6)(T6)(GE_int32(109)):
T399f1154(C);
break;
case (T6)(T6)(GE_int32(110)):
T399f1155(C);
break;
case (T6)(T6)(GE_int32(111)):
T399f1156(C);
break;
case (T6)(T6)(GE_int32(112)):
T399f1157(C);
break;
case (T6)(T6)(GE_int32(113)):
T399f1158(C);
break;
case (T6)(T6)(GE_int32(114)):
T399f1159(C);
break;
case (T6)(T6)(GE_int32(115)):
T399f1160(C);
break;
case (T6)(T6)(GE_int32(116)):
T399f1161(C);
break;
case (T6)(T6)(GE_int32(117)):
T399f1162(C);
break;
case (T6)(T6)(GE_int32(118)):
T399f1163(C);
break;
case (T6)(T6)(GE_int32(119)):
T399f1164(C);
break;
case (T6)(T6)(GE_int32(120)):
T399f1165(C);
break;
case (T6)(T6)(GE_int32(121)):
T399f1166(C);
break;
case (T6)(T6)(GE_int32(122)):
T399f1167(C);
break;
case (T6)(T6)(GE_int32(123)):
T399f1168(C);
break;
case (T6)(T6)(GE_int32(124)):
T399f1169(C);
break;
case (T6)(T6)(GE_int32(125)):
T399f1170(C);
break;
case (T6)(T6)(GE_int32(126)):
T399f1171(C);
break;
case (T6)(T6)(GE_int32(127)):
T399f1172(C);
break;
case (T6)(T6)(GE_int32(128)):
T399f1173(C);
break;
case (T6)(T6)(GE_int32(129)):
T399f1174(C);
break;
case (T6)(T6)(GE_int32(130)):
T399f1175(C);
break;
case (T6)(T6)(GE_int32(131)):
T399f1176(C);
break;
case (T6)(T6)(GE_int32(132)):
T399f1177(C);
break;
case (T6)(T6)(GE_int32(133)):
T399f1178(C);
break;
case (T6)(T6)(GE_int32(134)):
T399f1179(C);
break;
case (T6)(T6)(GE_int32(135)):
T399f1180(C);
break;
case (T6)(T6)(GE_int32(136)):
T399f1181(C);
break;
case (T6)(T6)(GE_int32(137)):
T399f1182(C);
break;
case (T6)(T6)(GE_int32(138)):
T399f1183(C);
break;
case (T6)(T6)(GE_int32(139)):
T399f1184(C);
break;
case (T6)(T6)(GE_int32(140)):
T399f1185(C);
break;
case (T6)(T6)(GE_int32(141)):
T399f1186(C);
break;
case (T6)(T6)(GE_int32(142)):
T399f1187(C);
break;
case (T6)(T6)(GE_int32(143)):
T399f1188(C);
break;
case (T6)(T6)(GE_int32(144)):
T399f1189(C);
break;
case (T6)(T6)(GE_int32(145)):
T399f1190(C);
break;
case (T6)(T6)(GE_int32(146)):
T399f1191(C);
break;
case (T6)(T6)(GE_int32(147)):
T399f1192(C);
break;
case (T6)(T6)(GE_int32(148)):
T399f1193(C);
break;
case (T6)(T6)(GE_int32(149)):
T399f1194(C);
break;
case (T6)(T6)(GE_int32(150)):
T399f1195(C);
break;
case (T6)(T6)(GE_int32(151)):
T399f1196(C);
break;
case (T6)(T6)(GE_int32(152)):
T399f1197(C);
break;
case (T6)(T6)(GE_int32(153)):
T399f1198(C);
break;
case (T6)(T6)(GE_int32(154)):
T399f1199(C);
break;
case (T6)(T6)(GE_int32(155)):
T399f1200(C);
break;
case (T6)(T6)(GE_int32(156)):
T399f1201(C);
break;
case (T6)(T6)(GE_int32(157)):
T399f1202(C);
break;
case (T6)(T6)(GE_int32(158)):
T399f1203(C);
break;
case (T6)(T6)(GE_int32(159)):
T399f1204(C);
break;
case (T6)(T6)(GE_int32(160)):
T399f1205(C);
break;
case (T6)(T6)(GE_int32(161)):
T399f1206(C);
break;
case (T6)(T6)(GE_int32(162)):
T399f1207(C);
break;
case (T6)(T6)(GE_int32(163)):
T399f1208(C);
break;
case (T6)(T6)(GE_int32(164)):
T399f1209(C);
break;
case (T6)(T6)(GE_int32(165)):
T399f1210(C);
break;
case (T6)(T6)(GE_int32(166)):
T399f1211(C);
break;
case (T6)(T6)(GE_int32(167)):
T399f1212(C);
break;
case (T6)(T6)(GE_int32(168)):
T399f1213(C);
break;
case (T6)(T6)(GE_int32(169)):
T399f1214(C);
break;
case (T6)(T6)(GE_int32(170)):
T399f1215(C);
break;
case (T6)(T6)(GE_int32(171)):
T399f1216(C);
break;
case (T6)(T6)(GE_int32(172)):
T399f1217(C);
break;
case (T6)(T6)(GE_int32(173)):
T399f1218(C);
break;
case (T6)(T6)(GE_int32(174)):
T399f1219(C);
break;
case (T6)(T6)(GE_int32(175)):
T399f1220(C);
break;
case (T6)(T6)(GE_int32(176)):
T399f1221(C);
break;
case (T6)(T6)(GE_int32(177)):
T399f1222(C);
break;
case (T6)(T6)(GE_int32(178)):
T399f1223(C);
break;
case (T6)(T6)(GE_int32(179)):
T399f1224(C);
break;
case (T6)(T6)(GE_int32(180)):
T399f1225(C);
break;
case (T6)(T6)(GE_int32(181)):
T399f1226(C);
break;
case (T6)(T6)(GE_int32(182)):
T399f1227(C);
break;
case (T6)(T6)(GE_int32(183)):
T399f1228(C);
break;
case (T6)(T6)(GE_int32(184)):
T399f1229(C);
break;
case (T6)(T6)(GE_int32(185)):
T399f1230(C);
break;
case (T6)(T6)(GE_int32(186)):
T399f1231(C);
break;
case (T6)(T6)(GE_int32(187)):
T399f1232(C);
break;
case (T6)(T6)(GE_int32(188)):
T399f1233(C);
break;
case (T6)(T6)(GE_int32(189)):
T399f1234(C);
break;
case (T6)(T6)(GE_int32(190)):
T399f1235(C);
break;
case (T6)(T6)(GE_int32(191)):
T399f1236(C);
break;
case (T6)(T6)(GE_int32(192)):
T399f1237(C);
break;
case (T6)(T6)(GE_int32(193)):
T399f1238(C);
break;
case (T6)(T6)(GE_int32(194)):
T399f1239(C);
break;
case (T6)(T6)(GE_int32(195)):
T399f1240(C);
break;
case (T6)(T6)(GE_int32(196)):
T399f1241(C);
break;
case (T6)(T6)(GE_int32(197)):
T399f1242(C);
break;
case (T6)(T6)(GE_int32(198)):
T399f1243(C);
break;
case (T6)(T6)(GE_int32(199)):
T399f1244(C);
break;
case (T6)(T6)(GE_int32(200)):
T399f1245(C);
break;
default:
T399f1000(C);
break;
}
}
/* ET_EIFFEL_PARSER.yy_do_action_200 */
void T399f1245(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
((T399*)(C))->a70 = (((T1227*)(GE_void(((T399*)(C))->a386)))->z2[((T399*)(C))->a133]);
t1 = (T399f682(C));
l1 = (T362f151(GE_void(t1), ((T399*)(C))->a70, (T6)(GE_int32(0))));
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a150 = ((T6)((((T399*)(C))->a150)+((T6)(GE_int32(1)))));
((T399*)(C))->a133 = ((T6)((((T399*)(C))->a133)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a150), ((T399*)(C))->a387));
if (t2) {
t2 = ((((T399*)(C))->a385)==(EIF_VOID));
if (t2) {
((T399*)(C))->a388 = T1229c3();
((T399*)(C))->a387 = (T6)(GE_int32(10));
((T399*)(C))->a385 = (T1229f1(GE_void(((T399*)(C))->a388), ((T399*)(C))->a387));
} else {
((T399*)(C))->a387 = ((T6)((((T399*)(C))->a387)+((T6)(GE_int32(10)))));
((T399*)(C))->a385 = (T1229f2(GE_void(((T399*)(C))->a388), ((T399*)(C))->a385, ((T399*)(C))->a387));
}
}
T1229f4(GE_void(((T399*)(C))->a388), ((T399*)(C))->a385, l1, ((T399*)(C))->a150);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_199 */
void T399f1244(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1227*)(GE_void(((T399*)(C))->a386)))->z2[((T399*)(C))->a133]);
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
l1 = (T362f150(GE_void(t1), t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a150 = ((T6)((((T399*)(C))->a150)+((T6)(GE_int32(1)))));
((T399*)(C))->a133 = ((T6)((((T399*)(C))->a133)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a150), ((T399*)(C))->a387));
if (t4) {
t4 = ((((T399*)(C))->a385)==(EIF_VOID));
if (t4) {
((T399*)(C))->a388 = T1229c3();
((T399*)(C))->a387 = (T6)(GE_int32(10));
((T399*)(C))->a385 = (T1229f1(GE_void(((T399*)(C))->a388), ((T399*)(C))->a387));
} else {
((T399*)(C))->a387 = ((T6)((((T399*)(C))->a387)+((T6)(GE_int32(10)))));
((T399*)(C))->a385 = (T1229f2(GE_void(((T399*)(C))->a388), ((T399*)(C))->a385, ((T399*)(C))->a387));
}
}
T1229f4(GE_void(((T399*)(C))->a388), ((T399*)(C))->a385, l1, ((T399*)(C))->a150);
}
}
/* ET_AST_FACTORY.new_all_export */
T0* T362f150(T0* C, T0* a1, T0* a2)
{
T1 t1;
T0* R = 0;
t1 = ((a1)!=(EIF_VOID));
if (t1) {
R = T1228c7(a1);
}
return R;
}
/* ET_ALL_EXPORT.make */
T0* T1228c7(T0* a1)
{
T0* C;
T0* t1;
C = GE_new1228(EIF_TRUE);
((T1228*)(C))->a1 = a1;
t1 = (T1228f3(C));
((T1228*)(C))->a2 = (T74f1147(GE_void(t1)));
return C;
}
/* ET_TOKEN_CONSTANTS.all_keyword */
unsigned char ge808os10950 = '\0';
T0* ge808ov10950;
T0* T74f1147(T0* C)
{
T0* R = 0;
if (ge808os10950) {
return ge808ov10950;
} else {
ge808os10950 = '\1';
ge808ov10950 = R;
}
R = T356c48();
ge808ov10950 = R;
return R;
}
/* ET_KEYWORD.make_all */
T0* T356c48(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)('\004'));
t1 = (T356f19(C));
t1 = (ge808ov11269);
T356f39(C, t1);
return C;
}
/* ET_ALL_EXPORT.tokens */
T0* T1228f3(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_198 */
void T399f1243(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (((T1226*)(GE_void(((T399*)(C))->a385)))->z2[((T399*)(C))->a150]);
t2 = ((t1)!=(EIF_VOID));
if (t2) {
T399f1984(C);
}
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a151 = ((T6)((((T399*)(C))->a151)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a151), ((T399*)(C))->a383));
if (t2) {
t2 = ((((T399*)(C))->a371)==(EIF_VOID));
if (t2) {
((T399*)(C))->a384 = T1224c3();
((T399*)(C))->a383 = (T6)(GE_int32(10));
((T399*)(C))->a371 = (T1224f1(GE_void(((T399*)(C))->a384), ((T399*)(C))->a383));
} else {
((T399*)(C))->a383 = ((T6)((((T399*)(C))->a383)+((T6)(GE_int32(10)))));
((T399*)(C))->a371 = (T1224f2(GE_void(((T399*)(C))->a384), ((T399*)(C))->a371, ((T399*)(C))->a383));
}
}
T1224f4(GE_void(((T399*)(C))->a384), ((T399*)(C))->a371, l1, ((T399*)(C))->a151);
}
}
/* KL_SPECIAL_ROUTINES [ET_EXPORT_LIST].force */
void T1224f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1215*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1215*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1215*)(GE_void(a1)))->a1);
T1215f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_EXPORT_LIST].fill_with */
void T1215f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1215*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1215*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1215f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_EXPORT_LIST].extend */
void T1215f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1215*)(C))->a1;
((T1215*)(C))->a1 = t1 + 1 ;
((T1215*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_EXPORT_LIST].resize */
T0* T1224f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1215*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1215f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_EXPORT_LIST].aliased_resized_area */
T0* T1215f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1215*)(C))->a2;
if (a1 > t1) {
R = GE_new1215(a1, EIF_FALSE);
*(T1215*)(R) = *(T1215*)(C);
memcpy(((T1215*)(R))->z2,((T1215*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1215*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1215*)(R))->a1;
if (t1 > a1) {
((T1215*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1215*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1215*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_EXPORT_LIST].make */
T0* T1224f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1678c4();
R = (((T1678*)(GE_void(l1)))->a1);
R = (T1215f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_EXPORT_LIST].make_empty */
T0* T1678c4(void)
{
T0* C;
C = GE_new1678(EIF_TRUE);
((T1678*)(C))->a2 = (T6)(GE_int32(1));
((T1678*)(C))->a3 = (T6)(GE_int32(0));
T1678f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_EXPORT_LIST].make_empty_area */
void T1678f5(T0* C, T6 a1)
{
((T1678*)(C))->a1 = T1215c6(a1);
}
/* SPECIAL [ET_EXPORT_LIST].make_empty */
T0* T1215c6(T6 a1)
{
T0* C;
C = GE_new1215(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_EXPORT_LIST].default_create */
T0* T1224c3(void)
{
T0* C;
C = GE_new1224(EIF_TRUE);
return C;
}
/* ET_EIFFEL_PARSER.yy_do_action_197 */
void T399f1242(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1215*)(GE_void(((T399*)(C))->a371)))->z2[((T399*)(C))->a151]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t2 = (((T1226*)(GE_void(((T399*)(C))->a385)))->z2[((T399*)(C))->a150]);
t1 = ((t2)!=(EIF_VOID));
}
if (t1) {
t2 = (((T1226*)(GE_void(((T399*)(C))->a385)))->z2[((T399*)(C))->a150]);
T463f8(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a151 = ((T6)((((T399*)(C))->a151)-((T6)(GE_int32(1)))));
((T399*)(C))->a150 = ((T6)((((T399*)(C))->a150)-((T6)(GE_int32(1)))));
T1224f4(GE_void(((T399*)(C))->a384), ((T399*)(C))->a371, l1, ((T399*)(C))->a151);
}
}
/* ET_EXPORT_LIST.put_first */
void T463f8(T0* C, T0* a1)
{
T0* t1;
t1 = (T463f5(C));
T1229f4(GE_void(t1), ((T463*)(C))->a3, a1, ((T463*)(C))->a2);
((T463*)(C))->a2 = ((T6)((((T463*)(C))->a2)+((T6)(GE_int32(1)))));
}
/* ET_EXPORT_LIST.fixed_array */
unsigned char ge534os11824 = '\0';
T0* ge534ov11824;
T0* T463f5(T0* C)
{
T0* R = 0;
if (ge534os11824) {
return ge534ov11824;
} else {
ge534os11824 = '\1';
ge534ov11824 = R;
}
R = T1229c3();
ge534ov11824 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_196 */
void T399f1241(T0* C)
{
T0* t1;
T1 t2;
T0* t3;
T6 t4;
T0* l1 = 0;
t1 = (((T1226*)(GE_void(((T399*)(C))->a385)))->z2[((T399*)(C))->a150]);
t2 = ((t1)!=(EIF_VOID));
if (t2) {
t1 = (T399f682(C));
t3 = (T399f905(C));
t4 = (T399f906(C));
t4 = ((T6)((t4)+((T6)(GE_int32(1)))));
l1 = (T362f149(GE_void(t1), t3, t4));
t2 = ((l1)!=(EIF_VOID));
if (t2) {
t1 = (((T1226*)(GE_void(((T399*)(C))->a385)))->z2[((T399*)(C))->a150]);
T463f8(GE_void(l1), t1);
}
} else {
t1 = (T399f682(C));
t3 = (T399f905(C));
t4 = (T399f906(C));
l1 = (T362f149(GE_void(t1), t3, t4));
}
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a151 = ((T6)((((T399*)(C))->a151)+((T6)(GE_int32(1)))));
((T399*)(C))->a150 = ((T6)((((T399*)(C))->a150)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a151), ((T399*)(C))->a383));
if (t2) {
t2 = ((((T399*)(C))->a371)==(EIF_VOID));
if (t2) {
((T399*)(C))->a384 = T1224c3();
((T399*)(C))->a383 = (T6)(GE_int32(10));
((T399*)(C))->a371 = (T1224f1(GE_void(((T399*)(C))->a384), ((T399*)(C))->a383));
} else {
((T399*)(C))->a383 = ((T6)((((T399*)(C))->a383)+((T6)(GE_int32(10)))));
((T399*)(C))->a371 = (T1224f2(GE_void(((T399*)(C))->a384), ((T399*)(C))->a371, ((T399*)(C))->a383));
}
}
T1224f4(GE_void(((T399*)(C))->a384), ((T399*)(C))->a371, l1, ((T399*)(C))->a151);
}
}
/* ET_AST_FACTORY.new_exports */
T0* T362f149(T0* C, T0* a1, T6 a2)
{
T0* R = 0;
R = T463c7(a2);
return R;
}
/* ET_EXPORT_LIST.make_with_capacity */
T0* T463c7(T6 a1)
{
T0* C;
T0* t1;
C = GE_new463(EIF_TRUE);
t1 = (T463f4(C));
((T463*)(C))->a1 = (T74f576(GE_void(t1)));
T463f7p1(C, a1);
return C;
}
/* ET_EXPORT_LIST.make_with_capacity */
void T463f7p1(T0* C, T6 a1)
{
T1 t1;
T0* t2;
((T463*)(C))->a2 = (T6)(GE_int32(0));
t1 = (T6f1(&a1, (T6)(GE_int32(0))));
if (t1) {
t2 = (T463f5(C));
((T463*)(C))->a3 = (T1229f1(GE_void(t2), a1));
} else {
((T463*)(C))->a3 = EIF_VOID;
}
}
/* ET_TOKEN_CONSTANTS.export_keyword */
unsigned char ge808os10971 = '\0';
T0* ge808ov10971;
T0* T74f576(T0* C)
{
T0* R = 0;
if (ge808os10971) {
return ge808ov10971;
} else {
ge808os10971 = '\1';
ge808ov10971 = R;
}
R = T356c78();
ge808ov10971 = R;
return R;
}
/* ET_KEYWORD.make_export */
T0* T356c78(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)('\030'));
t1 = (T356f19(C));
t1 = (ge808ov11291);
T356f39(C, t1);
return C;
}
/* ET_EXPORT_LIST.tokens */
T0* T463f4(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_195 */
void T399f1240(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1215*)(GE_void(((T399*)(C))->a371)))->z2[((T399*)(C))->a151]);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
T1224f4(GE_void(((T399*)(C))->a384), ((T399*)(C))->a371, l1, ((T399*)(C))->a151);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_194 */
void T399f1239(T0* C)
{
T1 t1;
T0* l1 = 0;
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a151 = ((T6)((((T399*)(C))->a151)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a151), ((T399*)(C))->a383));
if (t1) {
t1 = ((((T399*)(C))->a371)==(EIF_VOID));
if (t1) {
((T399*)(C))->a384 = T1224c3();
((T399*)(C))->a383 = (T6)(GE_int32(10));
((T399*)(C))->a371 = (T1224f1(GE_void(((T399*)(C))->a384), ((T399*)(C))->a383));
} else {
((T399*)(C))->a383 = ((T6)((((T399*)(C))->a383)+((T6)(GE_int32(10)))));
((T399*)(C))->a371 = (T1224f2(GE_void(((T399*)(C))->a384), ((T399*)(C))->a371, ((T399*)(C))->a383));
}
}
T1224f4(GE_void(((T399*)(C))->a384), ((T399*)(C))->a371, l1, ((T399*)(C))->a151);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_193 */
void T399f1238(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T399f1982(C, t1);
T399f1983(C);
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a151 = ((T6)((((T399*)(C))->a151)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a151), ((T399*)(C))->a383));
if (t2) {
t2 = ((((T399*)(C))->a371)==(EIF_VOID));
if (t2) {
((T399*)(C))->a384 = T1224c3();
((T399*)(C))->a383 = (T6)(GE_int32(10));
((T399*)(C))->a371 = (T1224f1(GE_void(((T399*)(C))->a384), ((T399*)(C))->a383));
} else {
((T399*)(C))->a383 = ((T6)((((T399*)(C))->a383)+((T6)(GE_int32(10)))));
((T399*)(C))->a371 = (T1224f2(GE_void(((T399*)(C))->a384), ((T399*)(C))->a371, ((T399*)(C))->a383));
}
}
T1224f4(GE_void(((T399*)(C))->a384), ((T399*)(C))->a371, l1, ((T399*)(C))->a151);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_192 */
void T399f1237(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1215*)(GE_void(((T399*)(C))->a371)))->z2[((T399*)(C))->a151]);
T399f1980(C);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a151 = ((T6)((((T399*)(C))->a151)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
T1224f4(GE_void(((T399*)(C))->a384), ((T399*)(C))->a371, l1, ((T399*)(C))->a151);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_191 */
void T399f1236(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
l1 = (T362f149(GE_void(t1), t2, (T6)(GE_int32(0))));
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a151 = ((T6)((((T399*)(C))->a151)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t3 = (T6f12(&(((T399*)(C))->a151), ((T399*)(C))->a383));
if (t3) {
t3 = ((((T399*)(C))->a371)==(EIF_VOID));
if (t3) {
((T399*)(C))->a384 = T1224c3();
((T399*)(C))->a383 = (T6)(GE_int32(10));
((T399*)(C))->a371 = (T1224f1(GE_void(((T399*)(C))->a384), ((T399*)(C))->a383));
} else {
((T399*)(C))->a383 = ((T6)((((T399*)(C))->a383)+((T6)(GE_int32(10)))));
((T399*)(C))->a371 = (T1224f2(GE_void(((T399*)(C))->a384), ((T399*)(C))->a371, ((T399*)(C))->a383));
}
}
T1224f4(GE_void(((T399*)(C))->a384), ((T399*)(C))->a371, l1, ((T399*)(C))->a151);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_190 */
void T399f1235(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T0* t5;
T1 t6;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1220*)(GE_void(((T399*)(C))->a379)))->z2[((T399*)(C))->a159]);
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t4 = (((T1221*)(GE_void(((T399*)(C))->a380)))->z2[((T399*)(C))->a154]);
t5 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
l1 = (T362f148(GE_void(t1), t2, t3, t4, t5));
t6 = ((l1)!=(EIF_VOID));
if (t6) {
T399f1984(C);
}
t6 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t6) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a197 = ((T6)((((T399*)(C))->a197)+((T6)(GE_int32(1)))));
((T399*)(C))->a159 = ((T6)((((T399*)(C))->a159)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a154 = ((T6)((((T399*)(C))->a154)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
t6 = (T6f12(&(((T399*)(C))->a197), ((T399*)(C))->a381));
if (t6) {
t6 = ((((T399*)(C))->a378)==(EIF_VOID));
if (t6) {
((T399*)(C))->a382 = T1223c3();
((T399*)(C))->a381 = (T6)(GE_int32(10));
((T399*)(C))->a378 = (T1223f1(GE_void(((T399*)(C))->a382), ((T399*)(C))->a381));
} else {
((T399*)(C))->a381 = ((T6)((((T399*)(C))->a381)+((T6)(GE_int32(10)))));
((T399*)(C))->a378 = (T1223f2(GE_void(((T399*)(C))->a382), ((T399*)(C))->a378, ((T399*)(C))->a381));
}
}
T1223f4(GE_void(((T399*)(C))->a382), ((T399*)(C))->a378, l1, ((T399*)(C))->a197);
}
}
/* KL_SPECIAL_ROUTINES [ET_RENAME_ITEM].force */
void T1223f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1219*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1219*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1219*)(GE_void(a1)))->a1);
T1219f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_RENAME_ITEM].fill_with */
void T1219f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1219*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1219*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1219f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_RENAME_ITEM].extend */
void T1219f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1219*)(C))->a1;
((T1219*)(C))->a1 = t1 + 1 ;
((T1219*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_RENAME_ITEM].resize */
T0* T1223f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1219*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1219f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_RENAME_ITEM].aliased_resized_area */
T0* T1219f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1219*)(C))->a2;
if (a1 > t1) {
R = GE_new1219(a1, EIF_FALSE);
*(T1219*)(R) = *(T1219*)(C);
memcpy(((T1219*)(R))->z2,((T1219*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1219*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1219*)(R))->a1;
if (t1 > a1) {
((T1219*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1219*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1219*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_RENAME_ITEM].make */
T0* T1223f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1677c4();
R = (((T1677*)(GE_void(l1)))->a1);
R = (T1219f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_RENAME_ITEM].make_empty */
T0* T1677c4(void)
{
T0* C;
C = GE_new1677(EIF_TRUE);
((T1677*)(C))->a2 = (T6)(GE_int32(1));
((T1677*)(C))->a3 = (T6)(GE_int32(0));
T1677f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_RENAME_ITEM].make_empty_area */
void T1677f5(T0* C, T6 a1)
{
((T1677*)(C))->a1 = T1219c6(a1);
}
/* SPECIAL [ET_RENAME_ITEM].make_empty */
T0* T1219c6(T6 a1)
{
T0* C;
C = GE_new1219(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_RENAME_ITEM].default_create */
T0* T1223c3(void)
{
T0* C;
C = GE_new1223(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_rename_comma */
T0* T362f148(T0* C, T0* a1, T0* a2, T0* a3, T0* a4)
{
T1 t1;
T0* R = 0;
t1 = ((a1)!=(EIF_VOID));
if (t1) {
t1 = ((a3)!=(EIF_VOID));
}
if (t1) {
R = T1222c6(a1, a3);
}
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_189 */
void T399f1234(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T1 t5;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1220*)(GE_void(((T399*)(C))->a379)))->z2[((T399*)(C))->a159]);
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t4 = (((T1221*)(GE_void(((T399*)(C))->a380)))->z2[((T399*)(C))->a154]);
l1 = (T362f147(GE_void(t1), t2, t3, t4));
t5 = ((l1)!=(EIF_VOID));
if (t5) {
T399f1984(C);
}
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a197 = ((T6)((((T399*)(C))->a197)+((T6)(GE_int32(1)))));
((T399*)(C))->a159 = ((T6)((((T399*)(C))->a159)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a154 = ((T6)((((T399*)(C))->a154)-((T6)(GE_int32(1)))));
t5 = (T6f12(&(((T399*)(C))->a197), ((T399*)(C))->a381));
if (t5) {
t5 = ((((T399*)(C))->a378)==(EIF_VOID));
if (t5) {
((T399*)(C))->a382 = T1223c3();
((T399*)(C))->a381 = (T6)(GE_int32(10));
((T399*)(C))->a378 = (T1223f1(GE_void(((T399*)(C))->a382), ((T399*)(C))->a381));
} else {
((T399*)(C))->a381 = ((T6)((((T399*)(C))->a381)+((T6)(GE_int32(10)))));
((T399*)(C))->a378 = (T1223f2(GE_void(((T399*)(C))->a382), ((T399*)(C))->a378, ((T399*)(C))->a381));
}
}
T1223f4(GE_void(((T399*)(C))->a382), ((T399*)(C))->a378, l1, ((T399*)(C))->a197);
}
}
/* ET_AST_FACTORY.new_rename */
T0* T362f147(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* R = 0;
t1 = ((a1)!=(EIF_VOID));
if (t1) {
t1 = ((a3)!=(EIF_VOID));
}
if (t1) {
R = T1222c6(a1, a3);
}
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_188 */
void T399f1233(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1214*)(GE_void(((T399*)(C))->a370)))->z2[((T399*)(C))->a198]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t2 = (((T1219*)(GE_void(((T399*)(C))->a378)))->z2[((T399*)(C))->a197]);
t1 = ((t2)!=(EIF_VOID));
}
if (t1) {
t2 = (((T1219*)(GE_void(((T399*)(C))->a378)))->z2[((T399*)(C))->a197]);
T462f9(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a197 = ((T6)((((T399*)(C))->a197)-((T6)(GE_int32(1)))));
T1217f4(GE_void(((T399*)(C))->a377), ((T399*)(C))->a370, l1, ((T399*)(C))->a198);
}
}
/* KL_SPECIAL_ROUTINES [ET_RENAME_LIST].force */
void T1217f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1214*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1214*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1214*)(GE_void(a1)))->a1);
T1214f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_RENAME_LIST].fill_with */
void T1214f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1214*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1214*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1214f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_RENAME_LIST].extend */
void T1214f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1214*)(C))->a1;
((T1214*)(C))->a1 = t1 + 1 ;
((T1214*)(C))->z2[t1] = a1;
}
/* ET_RENAME_LIST.put_first */
void T462f9(T0* C, T0* a1)
{
T0* t1;
t1 = (T462f5(C));
T1223f4(GE_void(t1), ((T462*)(C))->a3, a1, ((T462*)(C))->a2);
((T462*)(C))->a2 = ((T6)((((T462*)(C))->a2)+((T6)(GE_int32(1)))));
}
/* ET_RENAME_LIST.fixed_array */
unsigned char ge561os11824 = '\0';
T0* ge561ov11824;
T0* T462f5(T0* C)
{
T0* R = 0;
if (ge561os11824) {
return ge561ov11824;
} else {
ge561os11824 = '\1';
ge561ov11824 = R;
}
R = T1223c3();
ge561ov11824 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_187 */
void T399f1232(T0* C)
{
T0* t1;
T0* t2;
T6 t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (T399f905(C));
t3 = (T399f906(C));
l1 = (T362f146(GE_void(t1), t2, t3));
t4 = ((l1)!=(EIF_VOID));
if (t4) {
t1 = (((T1219*)(GE_void(((T399*)(C))->a378)))->z2[((T399*)(C))->a197]);
t4 = ((t1)!=(EIF_VOID));
}
if (t4) {
t1 = (((T1219*)(GE_void(((T399*)(C))->a378)))->z2[((T399*)(C))->a197]);
T462f9(GE_void(l1), t1);
}
T399f1976(C);
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a198 = ((T6)((((T399*)(C))->a198)+((T6)(GE_int32(1)))));
((T399*)(C))->a197 = ((T6)((((T399*)(C))->a197)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a198), ((T399*)(C))->a376));
if (t4) {
t4 = ((((T399*)(C))->a370)==(EIF_VOID));
if (t4) {
((T399*)(C))->a377 = T1217c3();
((T399*)(C))->a376 = (T6)(GE_int32(10));
((T399*)(C))->a370 = (T1217f1(GE_void(((T399*)(C))->a377), ((T399*)(C))->a376));
} else {
((T399*)(C))->a376 = ((T6)((((T399*)(C))->a376)+((T6)(GE_int32(10)))));
((T399*)(C))->a370 = (T1217f2(GE_void(((T399*)(C))->a377), ((T399*)(C))->a370, ((T399*)(C))->a376));
}
}
T1217f4(GE_void(((T399*)(C))->a377), ((T399*)(C))->a370, l1, ((T399*)(C))->a198);
}
}
/* KL_SPECIAL_ROUTINES [ET_RENAME_LIST].resize */
T0* T1217f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1214*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1214f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_RENAME_LIST].aliased_resized_area */
T0* T1214f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1214*)(C))->a2;
if (a1 > t1) {
R = GE_new1214(a1, EIF_FALSE);
*(T1214*)(R) = *(T1214*)(C);
memcpy(((T1214*)(R))->z2,((T1214*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1214*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1214*)(R))->a1;
if (t1 > a1) {
((T1214*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1214*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1214*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_RENAME_LIST].make */
T0* T1217f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1676c4();
R = (((T1676*)(GE_void(l1)))->a1);
R = (T1214f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_RENAME_LIST].make_empty */
T0* T1676c4(void)
{
T0* C;
C = GE_new1676(EIF_TRUE);
((T1676*)(C))->a2 = (T6)(GE_int32(1));
((T1676*)(C))->a3 = (T6)(GE_int32(0));
T1676f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_RENAME_LIST].make_empty_area */
void T1676f5(T0* C, T6 a1)
{
((T1676*)(C))->a1 = T1214c6(a1);
}
/* SPECIAL [ET_RENAME_LIST].make_empty */
T0* T1214c6(T6 a1)
{
T0* C;
C = GE_new1214(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_RENAME_LIST].default_create */
T0* T1217c3(void)
{
T0* C;
C = GE_new1217(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_renames */
T0* T362f146(T0* C, T0* a1, T6 a2)
{
T0* R = 0;
R = T462c8(a2);
return R;
}
/* ET_RENAME_LIST.make_with_capacity */
T0* T462c8(T6 a1)
{
T0* C;
T0* t1;
C = GE_new462(EIF_TRUE);
t1 = (T462f4(C));
((T462*)(C))->a1 = (T74f578(GE_void(t1)));
T462f8p1(C, a1);
return C;
}
/* ET_RENAME_LIST.make_with_capacity */
void T462f8p1(T0* C, T6 a1)
{
T1 t1;
T0* t2;
((T462*)(C))->a2 = (T6)(GE_int32(0));
t1 = (T6f1(&a1, (T6)(GE_int32(0))));
if (t1) {
t2 = (T462f5(C));
((T462*)(C))->a3 = (T1223f1(GE_void(t2), a1));
} else {
((T462*)(C))->a3 = EIF_VOID;
}
}
/* ET_TOKEN_CONSTANTS.rename_keyword */
unsigned char ge808os10995 = '\0';
T0* ge808ov10995;
T0* T74f578(T0* C)
{
T0* R = 0;
if (ge808os10995) {
return ge808ov10995;
} else {
ge808os10995 = '\1';
ge808ov10995 = R;
}
R = T356c80();
ge808ov10995 = R;
return R;
}
/* ET_KEYWORD.make_rename */
T0* T356c80(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)('0'));
t1 = (T356f19(C));
t1 = (ge808ov11319);
T356f39(C, t1);
return C;
}
/* ET_RENAME_LIST.tokens */
T0* T462f4(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_186 */
void T399f1231(T0* C)
{
T0* t1;
T0* t2;
T6 t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (T399f905(C));
t3 = (T399f906(C));
l1 = (T362f146(GE_void(t1), t2, t3));
t4 = ((l1)!=(EIF_VOID));
if (t4) {
t1 = (((T1219*)(GE_void(((T399*)(C))->a378)))->z2[((T399*)(C))->a197]);
t4 = ((t1)!=(EIF_VOID));
}
if (t4) {
t1 = (((T1219*)(GE_void(((T399*)(C))->a378)))->z2[((T399*)(C))->a197]);
T462f9(GE_void(l1), t1);
}
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a198 = ((T6)((((T399*)(C))->a198)+((T6)(GE_int32(1)))));
((T399*)(C))->a197 = ((T6)((((T399*)(C))->a197)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a198), ((T399*)(C))->a376));
if (t4) {
t4 = ((((T399*)(C))->a370)==(EIF_VOID));
if (t4) {
((T399*)(C))->a377 = T1217c3();
((T399*)(C))->a376 = (T6)(GE_int32(10));
((T399*)(C))->a370 = (T1217f1(GE_void(((T399*)(C))->a377), ((T399*)(C))->a376));
} else {
((T399*)(C))->a376 = ((T6)((((T399*)(C))->a376)+((T6)(GE_int32(10)))));
((T399*)(C))->a370 = (T1217f2(GE_void(((T399*)(C))->a377), ((T399*)(C))->a370, ((T399*)(C))->a376));
}
}
T1217f4(GE_void(((T399*)(C))->a377), ((T399*)(C))->a370, l1, ((T399*)(C))->a198);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_185 */
void T399f1230(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T399f1982(C, t1);
T399f1983(C);
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a198 = ((T6)((((T399*)(C))->a198)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a198), ((T399*)(C))->a376));
if (t2) {
t2 = ((((T399*)(C))->a370)==(EIF_VOID));
if (t2) {
((T399*)(C))->a377 = T1217c3();
((T399*)(C))->a376 = (T6)(GE_int32(10));
((T399*)(C))->a370 = (T1217f1(GE_void(((T399*)(C))->a377), ((T399*)(C))->a376));
} else {
((T399*)(C))->a376 = ((T6)((((T399*)(C))->a376)+((T6)(GE_int32(10)))));
((T399*)(C))->a370 = (T1217f2(GE_void(((T399*)(C))->a377), ((T399*)(C))->a370, ((T399*)(C))->a376));
}
}
T1217f4(GE_void(((T399*)(C))->a377), ((T399*)(C))->a370, l1, ((T399*)(C))->a198);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_184 */
void T399f1229(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1214*)(GE_void(((T399*)(C))->a370)))->z2[((T399*)(C))->a198]);
T399f1980(C);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a198 = ((T6)((((T399*)(C))->a198)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
T1217f4(GE_void(((T399*)(C))->a377), ((T399*)(C))->a370, l1, ((T399*)(C))->a198);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_183 */
void T399f1228(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
l1 = (T362f146(GE_void(t1), t2, (T6)(GE_int32(0))));
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a198 = ((T6)((((T399*)(C))->a198)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t3 = (T6f12(&(((T399*)(C))->a198), ((T399*)(C))->a376));
if (t3) {
t3 = ((((T399*)(C))->a370)==(EIF_VOID));
if (t3) {
((T399*)(C))->a377 = T1217c3();
((T399*)(C))->a376 = (T6)(GE_int32(10));
((T399*)(C))->a370 = (T1217f1(GE_void(((T399*)(C))->a377), ((T399*)(C))->a376));
} else {
((T399*)(C))->a376 = ((T6)((((T399*)(C))->a376)+((T6)(GE_int32(10)))));
((T399*)(C))->a370 = (T1217f2(GE_void(((T399*)(C))->a377), ((T399*)(C))->a370, ((T399*)(C))->a376));
}
}
T1217f4(GE_void(((T399*)(C))->a377), ((T399*)(C))->a370, l1, ((T399*)(C))->a198);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_182 */
void T399f1227(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1212*)(GE_void(((T399*)(C))->a368)))->z2[((T399*)(C))->a189]);
t3 = (((T1123*)(GE_void(((T399*)(C))->a293)))->z2[((T399*)(C))->a108]);
l1 = (T362f145(GE_void(t1), t2, t3));
t4 = ((l1)!=(EIF_VOID));
if (t4) {
t1 = (((T1212*)(GE_void(((T399*)(C))->a368)))->z2[((T399*)(C))->a189]);
t4 = ((t1)==(EIF_VOID));
}
if (t4) {
T399f1984(C);
}
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a190 = ((T6)((((T399*)(C))->a190)+((T6)(GE_int32(1)))));
((T399*)(C))->a189 = ((T6)((((T399*)(C))->a189)-((T6)(GE_int32(1)))));
((T399*)(C))->a108 = ((T6)((((T399*)(C))->a108)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a190), ((T399*)(C))->a374));
if (t4) {
t4 = ((((T399*)(C))->a373)==(EIF_VOID));
if (t4) {
((T399*)(C))->a375 = T931c3();
((T399*)(C))->a374 = (T6)(GE_int32(10));
((T399*)(C))->a373 = (T931f1(GE_void(((T399*)(C))->a375), ((T399*)(C))->a374));
} else {
((T399*)(C))->a374 = ((T6)((((T399*)(C))->a374)+((T6)(GE_int32(10)))));
((T399*)(C))->a373 = (T931f2(GE_void(((T399*)(C))->a375), ((T399*)(C))->a373, ((T399*)(C))->a374));
}
}
T931f4(GE_void(((T399*)(C))->a375), ((T399*)(C))->a373, l1, ((T399*)(C))->a190);
}
}
/* KL_SPECIAL_ROUTINES [ET_PARENT_ITEM].resize */
T0* T931f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T930*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T930f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* ET_AST_FACTORY.new_parent_semicolon */
T0* T362f145(T0* C, T0* a1, T0* a2)
{
T0* R = 0;
R = a1;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_181 */
void T399f1226(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1212*)(GE_void(((T399*)(C))->a368)))->z2[((T399*)(C))->a189]);
t3 = (((T1123*)(GE_void(((T399*)(C))->a293)))->z2[((T399*)(C))->a108]);
l1 = (T362f145(GE_void(t1), t2, t3));
t4 = ((l1)!=(EIF_VOID));
if (t4) {
t1 = (((T1212*)(GE_void(((T399*)(C))->a368)))->z2[((T399*)(C))->a189]);
t4 = ((t1)==(EIF_VOID));
}
if (t4) {
T399f1984(C);
}
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a190 = ((T6)((((T399*)(C))->a190)+((T6)(GE_int32(1)))));
((T399*)(C))->a189 = ((T6)((((T399*)(C))->a189)-((T6)(GE_int32(1)))));
((T399*)(C))->a108 = ((T6)((((T399*)(C))->a108)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a190), ((T399*)(C))->a374));
if (t4) {
t4 = ((((T399*)(C))->a373)==(EIF_VOID));
if (t4) {
((T399*)(C))->a375 = T931c3();
((T399*)(C))->a374 = (T6)(GE_int32(10));
((T399*)(C))->a373 = (T931f1(GE_void(((T399*)(C))->a375), ((T399*)(C))->a374));
} else {
((T399*)(C))->a374 = ((T6)((((T399*)(C))->a374)+((T6)(GE_int32(10)))));
((T399*)(C))->a373 = (T931f2(GE_void(((T399*)(C))->a375), ((T399*)(C))->a373, ((T399*)(C))->a374));
}
}
T931f4(GE_void(((T399*)(C))->a375), ((T399*)(C))->a373, l1, ((T399*)(C))->a190);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_180 */
void T399f1225(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1153*)(GE_void(((T399*)(C))->a317)))->z2[((T399*)(C))->a191]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t2 = (((T930*)(GE_void(((T399*)(C))->a373)))->z2[((T399*)(C))->a190]);
t1 = ((t2)!=(EIF_VOID));
}
if (t1) {
t2 = (((T930*)(GE_void(((T399*)(C))->a373)))->z2[((T399*)(C))->a190]);
T465f11(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a190 = ((T6)((((T399*)(C))->a190)-((T6)(GE_int32(1)))));
T1210f4(GE_void(((T399*)(C))->a365), ((T399*)(C))->a317, l1, ((T399*)(C))->a191);
}
}
/* KL_SPECIAL_ROUTINES [ET_PARENT_LIST].force */
void T1210f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1153*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1153*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1153*)(GE_void(a1)))->a1);
T1153f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_PARENT_LIST].fill_with */
void T1153f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1153*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1153*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1153f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_PARENT_LIST].extend */
void T1153f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1153*)(C))->a1;
((T1153*)(C))->a1 = t1 + 1 ;
((T1153*)(C))->z2[t1] = a1;
}
/* ET_EIFFEL_PARSER.yy_do_action_179 */
void T399f1224(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1153*)(GE_void(((T399*)(C))->a317)))->z2[((T399*)(C))->a191]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t2 = (((T1212*)(GE_void(((T399*)(C))->a368)))->z2[((T399*)(C))->a189]);
t1 = ((t2)!=(EIF_VOID));
}
if (t1) {
t2 = (((T1212*)(GE_void(((T399*)(C))->a368)))->z2[((T399*)(C))->a189]);
T465f11(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a189 = ((T6)((((T399*)(C))->a189)-((T6)(GE_int32(1)))));
T1210f4(GE_void(((T399*)(C))->a365), ((T399*)(C))->a317, l1, ((T399*)(C))->a191);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_178 */
void T399f1223(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1153*)(GE_void(((T399*)(C))->a317)))->z2[((T399*)(C))->a191]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t2 = (((T1212*)(GE_void(((T399*)(C))->a368)))->z2[((T399*)(C))->a189]);
t1 = ((t2)!=(EIF_VOID));
}
if (t1) {
t2 = (((T1212*)(GE_void(((T399*)(C))->a368)))->z2[((T399*)(C))->a189]);
T465f11(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a189 = ((T6)((((T399*)(C))->a189)-((T6)(GE_int32(1)))));
T1210f4(GE_void(((T399*)(C))->a365), ((T399*)(C))->a317, l1, ((T399*)(C))->a191);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_177 */
void T399f1222(T0* C)
{
T0* t1;
T0* t2;
T6 t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (T399f905(C));
t3 = (T399f906(C));
l1 = (T362f144(GE_void(t1), t2, t3));
t4 = ((l1)!=(EIF_VOID));
if (t4) {
t1 = (((T1212*)(GE_void(((T399*)(C))->a368)))->z2[((T399*)(C))->a189]);
t4 = ((t1)!=(EIF_VOID));
}
if (t4) {
t1 = (((T1212*)(GE_void(((T399*)(C))->a368)))->z2[((T399*)(C))->a189]);
T465f11(GE_void(l1), t1);
}
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a191 = ((T6)((((T399*)(C))->a191)+((T6)(GE_int32(1)))));
((T399*)(C))->a189 = ((T6)((((T399*)(C))->a189)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a191), ((T399*)(C))->a364));
if (t4) {
t4 = ((((T399*)(C))->a317)==(EIF_VOID));
if (t4) {
((T399*)(C))->a365 = T1210c3();
((T399*)(C))->a364 = (T6)(GE_int32(10));
((T399*)(C))->a317 = (T1210f1(GE_void(((T399*)(C))->a365), ((T399*)(C))->a364));
} else {
((T399*)(C))->a364 = ((T6)((((T399*)(C))->a364)+((T6)(GE_int32(10)))));
((T399*)(C))->a317 = (T1210f2(GE_void(((T399*)(C))->a365), ((T399*)(C))->a317, ((T399*)(C))->a364));
}
}
T1210f4(GE_void(((T399*)(C))->a365), ((T399*)(C))->a317, l1, ((T399*)(C))->a191);
}
}
/* KL_SPECIAL_ROUTINES [ET_PARENT_LIST].resize */
T0* T1210f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1153*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1153f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_PARENT_LIST].aliased_resized_area */
T0* T1153f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1153*)(C))->a2;
if (a1 > t1) {
R = GE_new1153(a1, EIF_FALSE);
*(T1153*)(R) = *(T1153*)(C);
memcpy(((T1153*)(R))->z2,((T1153*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1153*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1153*)(R))->a1;
if (t1 > a1) {
((T1153*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1153*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1153*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_PARENT_LIST].make */
T0* T1210f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1674c4();
R = (((T1674*)(GE_void(l1)))->a1);
R = (T1153f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_PARENT_LIST].make_empty */
T0* T1674c4(void)
{
T0* C;
C = GE_new1674(EIF_TRUE);
((T1674*)(C))->a2 = (T6)(GE_int32(1));
((T1674*)(C))->a3 = (T6)(GE_int32(0));
T1674f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_PARENT_LIST].make_empty_area */
void T1674f5(T0* C, T6 a1)
{
((T1674*)(C))->a1 = T1153c6(a1);
}
/* SPECIAL [ET_PARENT_LIST].make_empty */
T0* T1153c6(T6 a1)
{
T0* C;
C = GE_new1153(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_PARENT_LIST].default_create */
T0* T1210c3(void)
{
T0* C;
C = GE_new1210(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_parents */
T0* T362f144(T0* C, T0* a1, T6 a2)
{
T0* R = 0;
R = T465c10(a2);
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_176 */
void T399f1221(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1153*)(GE_void(((T399*)(C))->a317)))->z2[((T399*)(C))->a191]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t2 = (((T930*)(GE_void(((T399*)(C))->a373)))->z2[((T399*)(C))->a190]);
t1 = ((t2)!=(EIF_VOID));
}
if (t1) {
t2 = (((T930*)(GE_void(((T399*)(C))->a373)))->z2[((T399*)(C))->a190]);
T465f11(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a190 = ((T6)((((T399*)(C))->a190)-((T6)(GE_int32(1)))));
T1210f4(GE_void(((T399*)(C))->a365), ((T399*)(C))->a317, l1, ((T399*)(C))->a191);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_175 */
void T399f1220(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1153*)(GE_void(((T399*)(C))->a317)))->z2[((T399*)(C))->a191]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t2 = (((T1212*)(GE_void(((T399*)(C))->a368)))->z2[((T399*)(C))->a189]);
t1 = ((t2)!=(EIF_VOID));
}
if (t1) {
t2 = (((T1212*)(GE_void(((T399*)(C))->a368)))->z2[((T399*)(C))->a189]);
T465f11(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a189 = ((T6)((((T399*)(C))->a189)-((T6)(GE_int32(1)))));
T1210f4(GE_void(((T399*)(C))->a365), ((T399*)(C))->a317, l1, ((T399*)(C))->a191);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_174 */
void T399f1219(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1153*)(GE_void(((T399*)(C))->a317)))->z2[((T399*)(C))->a191]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t2 = (((T1212*)(GE_void(((T399*)(C))->a368)))->z2[((T399*)(C))->a189]);
t1 = ((t2)!=(EIF_VOID));
}
if (t1) {
t2 = (((T1212*)(GE_void(((T399*)(C))->a368)))->z2[((T399*)(C))->a189]);
T465f11(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a189 = ((T6)((((T399*)(C))->a189)-((T6)(GE_int32(1)))));
T1210f4(GE_void(((T399*)(C))->a365), ((T399*)(C))->a317, l1, ((T399*)(C))->a191);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_173 */
void T399f1218(T0* C)
{
T0* t1;
T0* t2;
T6 t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (T399f905(C));
t3 = (T399f906(C));
l1 = (T362f144(GE_void(t1), t2, t3));
t4 = ((l1)!=(EIF_VOID));
if (t4) {
t1 = (((T930*)(GE_void(((T399*)(C))->a373)))->z2[((T399*)(C))->a190]);
t4 = ((t1)!=(EIF_VOID));
}
if (t4) {
t1 = (((T930*)(GE_void(((T399*)(C))->a373)))->z2[((T399*)(C))->a190]);
T465f11(GE_void(l1), t1);
}
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a191 = ((T6)((((T399*)(C))->a191)+((T6)(GE_int32(1)))));
((T399*)(C))->a190 = ((T6)((((T399*)(C))->a190)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a191), ((T399*)(C))->a364));
if (t4) {
t4 = ((((T399*)(C))->a317)==(EIF_VOID));
if (t4) {
((T399*)(C))->a365 = T1210c3();
((T399*)(C))->a364 = (T6)(GE_int32(10));
((T399*)(C))->a317 = (T1210f1(GE_void(((T399*)(C))->a365), ((T399*)(C))->a364));
} else {
((T399*)(C))->a364 = ((T6)((((T399*)(C))->a364)+((T6)(GE_int32(10)))));
((T399*)(C))->a317 = (T1210f2(GE_void(((T399*)(C))->a365), ((T399*)(C))->a317, ((T399*)(C))->a364));
}
}
T1210f4(GE_void(((T399*)(C))->a365), ((T399*)(C))->a317, l1, ((T399*)(C))->a191);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_172 */
void T399f1217(T0* C)
{
T0* t1;
T0* t2;
T6 t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (T399f905(C));
t3 = (T399f906(C));
l1 = (T362f144(GE_void(t1), t2, t3));
t4 = ((l1)!=(EIF_VOID));
if (t4) {
t1 = (((T1212*)(GE_void(((T399*)(C))->a368)))->z2[((T399*)(C))->a189]);
t4 = ((t1)!=(EIF_VOID));
}
if (t4) {
t1 = (((T1212*)(GE_void(((T399*)(C))->a368)))->z2[((T399*)(C))->a189]);
T465f11(GE_void(l1), t1);
}
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a191 = ((T6)((((T399*)(C))->a191)+((T6)(GE_int32(1)))));
((T399*)(C))->a189 = ((T6)((((T399*)(C))->a189)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a191), ((T399*)(C))->a364));
if (t4) {
t4 = ((((T399*)(C))->a317)==(EIF_VOID));
if (t4) {
((T399*)(C))->a365 = T1210c3();
((T399*)(C))->a364 = (T6)(GE_int32(10));
((T399*)(C))->a317 = (T1210f1(GE_void(((T399*)(C))->a365), ((T399*)(C))->a364));
} else {
((T399*)(C))->a364 = ((T6)((((T399*)(C))->a364)+((T6)(GE_int32(10)))));
((T399*)(C))->a317 = (T1210f2(GE_void(((T399*)(C))->a365), ((T399*)(C))->a317, ((T399*)(C))->a364));
}
}
T1210f4(GE_void(((T399*)(C))->a365), ((T399*)(C))->a317, l1, ((T399*)(C))->a191);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_171 */
void T399f1216(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t2 = (((T1211*)(GE_void(((T399*)(C))->a366)))->z2[((T399*)(C))->a115]);
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
l1 = (T399f641(C, t1, t2, EIF_VOID, EIF_VOID, EIF_VOID, EIF_VOID, EIF_VOID, t3));
t4 = ((l1)!=(EIF_VOID));
if (t4) {
T399f1984(C);
}
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a189 = ((T6)((((T399*)(C))->a189)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a115 = ((T6)((((T399*)(C))->a115)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a189), ((T399*)(C))->a367));
if (t4) {
t4 = ((((T399*)(C))->a368)==(EIF_VOID));
if (t4) {
((T399*)(C))->a369 = T1213c3();
((T399*)(C))->a367 = (T6)(GE_int32(10));
((T399*)(C))->a368 = (T1213f1(GE_void(((T399*)(C))->a369), ((T399*)(C))->a367));
} else {
((T399*)(C))->a367 = ((T6)((((T399*)(C))->a367)+((T6)(GE_int32(10)))));
((T399*)(C))->a368 = (T1213f2(GE_void(((T399*)(C))->a369), ((T399*)(C))->a368, ((T399*)(C))->a367));
}
}
T1213f4(GE_void(((T399*)(C))->a369), ((T399*)(C))->a368, l1, ((T399*)(C))->a189);
}
}
/* KL_SPECIAL_ROUTINES [ET_PARENT].force */
void T1213f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1212*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1212*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1212*)(GE_void(a1)))->a1);
T1212f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_PARENT].fill_with */
void T1212f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1212*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1212*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1212f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_PARENT].extend */
void T1212f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1212*)(C))->a1;
((T1212*)(C))->a1 = t1 + 1 ;
((T1212*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_PARENT].resize */
T0* T1213f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1212*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1212f3(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_PARENT].aliased_resized_area */
T0* T1212f3(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1212*)(C))->a2;
if (a1 > t1) {
R = GE_new1212(a1, EIF_FALSE);
*(T1212*)(R) = *(T1212*)(C);
memcpy(((T1212*)(R))->z2,((T1212*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1212*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1212*)(R))->a1;
if (t1 > a1) {
((T1212*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1212*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1212*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_PARENT].make */
T0* T1213f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1675c4();
R = (((T1675*)(GE_void(l1)))->a1);
R = (T1212f3(GE_void(R), a1));
return R;
}
/* ARRAY [ET_PARENT].make_empty */
T0* T1675c4(void)
{
T0* C;
C = GE_new1675(EIF_TRUE);
((T1675*)(C))->a2 = (T6)(GE_int32(1));
((T1675*)(C))->a3 = (T6)(GE_int32(0));
T1675f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_PARENT].make_empty_area */
void T1675f5(T0* C, T6 a1)
{
((T1675*)(C))->a1 = T1212c6(a1);
}
/* SPECIAL [ET_PARENT].make_empty */
T0* T1212c6(T6 a1)
{
T0* C;
C = GE_new1212(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_PARENT].default_create */
T0* T1213c3(void)
{
T0* C;
C = GE_new1213(EIF_TRUE);
return C;
}
/* ET_EIFFEL_PARSER.new_parent */
T0* T399f641(T0* C, T0* a1, T0* a2, T0* a3, T0* a4, T0* a5, T0* a6, T0* a7, T0* a8)
{
T1 t1;
T0* t2;
T0* R = 0;
T0* l1 = 0;
T0* l2 = 0;
T0* l3 = 0;
l2 = ((T399*)(C))->a68;
t1 = ((l2)!=(EIF_VOID));
if (t1) {
t1 = ((a1)!=(EIF_VOID));
}
if (t1) {
t1 = (T75f130(GE_void(l2), a1));
if (t1) {
}
t2 = (T399f909(C));
l3 = (T216x3152T0(GE_void(t2), a1));
t1 = (T399f918(C));
if (t1) {
T864f67(GE_void(((T399*)(C))->a16), l3);
}
T432f47(GE_void(l3), EIF_TRUE);
t1 = ((a2)!=(EIF_VOID));
if (t1) {
t2 = (T399f682(C));
l1 = (T362f329(GE_void(t2), EIF_VOID, a1, a2, l3));
} else {
t2 = (T399f682(C));
l1 = (T362f330(GE_void(t2), EIF_VOID, a1, l3));
}
t2 = (T399f682(C));
R = (T362f331(GE_void(t2), l1, a3, a4, a5, a6, a7, a8));
}
return R;
}
/* ET_AST_FACTORY.new_parent */
T0* T362f331(T0* C, T0* a1, T0* a2, T0* a3, T0* a4, T0* a5, T0* a6, T0* a7)
{
T1 t1;
T0* R = 0;
t1 = ((a1)!=(EIF_VOID));
if (t1) {
R = T461c11(a1, a2, a3, a4, a5, a6);
}
return R;
}
/* ET_CLASS.has_formal_parameter */
T1 T75f130(T0* C, T0* a1)
{
T1 t1;
T1 R = 0;
t1 = ((((T75*)(C))->a22)!=(EIF_VOID));
if (t1) {
R = (T618f9(GE_void(((T75*)(C))->a22), a1));
}
return R;
}
/* ET_FORMAL_PARAMETER_LIST.has_formal_parameter */
T1 T618f9(T0* C, T0* a1)
{
T1 t1;
T0* t2;
T1 R = 0;
T6 l1 = 0;
T6 l2 = 0;
l2 = ((T6)((((T618*)(C))->a1)-((T6)(GE_int32(1)))));
l1 = (T6)(GE_int32(0));
while (1) {
t1 = (T6f1((&l1), l2));
if (t1) {
break;
}
t2 = (((T1183*)(GE_void(((T618*)(C))->a2)))->z2[l1]);
t2 = (((((T0*)(GE_void(t2)))->id==905)?T905f5(t2):T1188f9(t2)));
t2 = (((((T0*)(GE_void(t2)))->id==905)?((T905*)(t2))->a1:((T1188*)(t2))->a5));
t1 = (T143f35(GE_void(t2), a1));
if (t1) {
R = EIF_TRUE;
l1 = ((T6)((l2)+((T6)(GE_int32(1)))));
} else {
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_170 */
void T399f1215(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T1 t5;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t2 = (((T1211*)(GE_void(((T399*)(C))->a366)))->z2[((T399*)(C))->a115]);
t3 = (((T1216*)(GE_void(((T399*)(C))->a372)))->z2[((T399*)(C))->a177]);
t4 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
l1 = (T399f641(C, t1, t2, EIF_VOID, EIF_VOID, EIF_VOID, EIF_VOID, t3, t4));
t5 = ((l1)!=(EIF_VOID));
if (t5) {
T399f1984(C);
}
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a189 = ((T6)((((T399*)(C))->a189)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a115 = ((T6)((((T399*)(C))->a115)-((T6)(GE_int32(1)))));
((T399*)(C))->a177 = ((T6)((((T399*)(C))->a177)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t5 = (T6f12(&(((T399*)(C))->a189), ((T399*)(C))->a367));
if (t5) {
t5 = ((((T399*)(C))->a368)==(EIF_VOID));
if (t5) {
((T399*)(C))->a369 = T1213c3();
((T399*)(C))->a367 = (T6)(GE_int32(10));
((T399*)(C))->a368 = (T1213f1(GE_void(((T399*)(C))->a369), ((T399*)(C))->a367));
} else {
((T399*)(C))->a367 = ((T6)((((T399*)(C))->a367)+((T6)(GE_int32(10)))));
((T399*)(C))->a368 = (T1213f2(GE_void(((T399*)(C))->a369), ((T399*)(C))->a368, ((T399*)(C))->a367));
}
}
T1213f4(GE_void(((T399*)(C))->a369), ((T399*)(C))->a368, l1, ((T399*)(C))->a189);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_169 */
void T399f1214(T0* C)
{
T0* t1;
T0* t2;
T6 t3;
T0* t4;
T0* t5;
T0* t6;
T1 t7;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t2 = (((T1211*)(GE_void(((T399*)(C))->a366)))->z2[((T399*)(C))->a115]);
t3 = ((T6)((((T399*)(C))->a177)-((T6)(GE_int32(1)))));
t4 = (((T1216*)(GE_void(((T399*)(C))->a372)))->z2[t3]);
t5 = (((T1216*)(GE_void(((T399*)(C))->a372)))->z2[((T399*)(C))->a177]);
t6 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
l1 = (T399f641(C, t1, t2, EIF_VOID, EIF_VOID, EIF_VOID, t4, t5, t6));
t7 = ((l1)!=(EIF_VOID));
if (t7) {
T399f1984(C);
}
t7 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t7) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(5)))));
((T399*)(C))->a189 = ((T6)((((T399*)(C))->a189)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a115 = ((T6)((((T399*)(C))->a115)-((T6)(GE_int32(1)))));
((T399*)(C))->a177 = ((T6)((((T399*)(C))->a177)-((T6)(GE_int32(2)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t7 = (T6f12(&(((T399*)(C))->a189), ((T399*)(C))->a367));
if (t7) {
t7 = ((((T399*)(C))->a368)==(EIF_VOID));
if (t7) {
((T399*)(C))->a369 = T1213c3();
((T399*)(C))->a367 = (T6)(GE_int32(10));
((T399*)(C))->a368 = (T1213f1(GE_void(((T399*)(C))->a369), ((T399*)(C))->a367));
} else {
((T399*)(C))->a367 = ((T6)((((T399*)(C))->a367)+((T6)(GE_int32(10)))));
((T399*)(C))->a368 = (T1213f2(GE_void(((T399*)(C))->a369), ((T399*)(C))->a368, ((T399*)(C))->a367));
}
}
T1213f4(GE_void(((T399*)(C))->a369), ((T399*)(C))->a368, l1, ((T399*)(C))->a189);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_168 */
void T399f1213(T0* C)
{
T0* t1;
T0* t2;
T6 t3;
T0* t4;
T0* t5;
T0* t6;
T0* t7;
T1 t8;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t2 = (((T1211*)(GE_void(((T399*)(C))->a366)))->z2[((T399*)(C))->a115]);
t3 = ((T6)((((T399*)(C))->a177)-((T6)(GE_int32(2)))));
t4 = (((T1216*)(GE_void(((T399*)(C))->a372)))->z2[t3]);
t3 = ((T6)((((T399*)(C))->a177)-((T6)(GE_int32(1)))));
t5 = (((T1216*)(GE_void(((T399*)(C))->a372)))->z2[t3]);
t6 = (((T1216*)(GE_void(((T399*)(C))->a372)))->z2[((T399*)(C))->a177]);
t7 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
l1 = (T399f641(C, t1, t2, EIF_VOID, EIF_VOID, t4, t5, t6, t7));
t8 = ((l1)!=(EIF_VOID));
if (t8) {
T399f1984(C);
}
t8 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t8) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(6)))));
((T399*)(C))->a189 = ((T6)((((T399*)(C))->a189)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a115 = ((T6)((((T399*)(C))->a115)-((T6)(GE_int32(1)))));
((T399*)(C))->a177 = ((T6)((((T399*)(C))->a177)-((T6)(GE_int32(3)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t8 = (T6f12(&(((T399*)(C))->a189), ((T399*)(C))->a367));
if (t8) {
t8 = ((((T399*)(C))->a368)==(EIF_VOID));
if (t8) {
((T399*)(C))->a369 = T1213c3();
((T399*)(C))->a367 = (T6)(GE_int32(10));
((T399*)(C))->a368 = (T1213f1(GE_void(((T399*)(C))->a369), ((T399*)(C))->a367));
} else {
((T399*)(C))->a367 = ((T6)((((T399*)(C))->a367)+((T6)(GE_int32(10)))));
((T399*)(C))->a368 = (T1213f2(GE_void(((T399*)(C))->a369), ((T399*)(C))->a368, ((T399*)(C))->a367));
}
}
T1213f4(GE_void(((T399*)(C))->a369), ((T399*)(C))->a368, l1, ((T399*)(C))->a189);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_167 */
void T399f1212(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T6 t4;
T0* t5;
T0* t6;
T0* t7;
T0* t8;
T1 t9;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t2 = (((T1211*)(GE_void(((T399*)(C))->a366)))->z2[((T399*)(C))->a115]);
t3 = (((T1215*)(GE_void(((T399*)(C))->a371)))->z2[((T399*)(C))->a151]);
t4 = ((T6)((((T399*)(C))->a177)-((T6)(GE_int32(2)))));
t5 = (((T1216*)(GE_void(((T399*)(C))->a372)))->z2[t4]);
t4 = ((T6)((((T399*)(C))->a177)-((T6)(GE_int32(1)))));
t6 = (((T1216*)(GE_void(((T399*)(C))->a372)))->z2[t4]);
t7 = (((T1216*)(GE_void(((T399*)(C))->a372)))->z2[((T399*)(C))->a177]);
t8 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
l1 = (T399f641(C, t1, t2, EIF_VOID, t3, t5, t6, t7, t8));
t9 = ((l1)!=(EIF_VOID));
if (t9) {
T399f1984(C);
}
t9 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t9) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(7)))));
((T399*)(C))->a189 = ((T6)((((T399*)(C))->a189)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a115 = ((T6)((((T399*)(C))->a115)-((T6)(GE_int32(1)))));
((T399*)(C))->a151 = ((T6)((((T399*)(C))->a151)-((T6)(GE_int32(1)))));
((T399*)(C))->a177 = ((T6)((((T399*)(C))->a177)-((T6)(GE_int32(3)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t9 = (T6f12(&(((T399*)(C))->a189), ((T399*)(C))->a367));
if (t9) {
t9 = ((((T399*)(C))->a368)==(EIF_VOID));
if (t9) {
((T399*)(C))->a369 = T1213c3();
((T399*)(C))->a367 = (T6)(GE_int32(10));
((T399*)(C))->a368 = (T1213f1(GE_void(((T399*)(C))->a369), ((T399*)(C))->a367));
} else {
((T399*)(C))->a367 = ((T6)((((T399*)(C))->a367)+((T6)(GE_int32(10)))));
((T399*)(C))->a368 = (T1213f2(GE_void(((T399*)(C))->a369), ((T399*)(C))->a368, ((T399*)(C))->a367));
}
}
T1213f4(GE_void(((T399*)(C))->a369), ((T399*)(C))->a368, l1, ((T399*)(C))->a189);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_166 */
void T399f1211(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T6 t5;
T0* t6;
T0* t7;
T0* t8;
T0* t9;
T1 t10;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t2 = (((T1211*)(GE_void(((T399*)(C))->a366)))->z2[((T399*)(C))->a115]);
t3 = (((T1214*)(GE_void(((T399*)(C))->a370)))->z2[((T399*)(C))->a198]);
t4 = (((T1215*)(GE_void(((T399*)(C))->a371)))->z2[((T399*)(C))->a151]);
t5 = ((T6)((((T399*)(C))->a177)-((T6)(GE_int32(2)))));
t6 = (((T1216*)(GE_void(((T399*)(C))->a372)))->z2[t5]);
t5 = ((T6)((((T399*)(C))->a177)-((T6)(GE_int32(1)))));
t7 = (((T1216*)(GE_void(((T399*)(C))->a372)))->z2[t5]);
t8 = (((T1216*)(GE_void(((T399*)(C))->a372)))->z2[((T399*)(C))->a177]);
t9 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
l1 = (T399f641(C, t1, t2, t3, t4, t6, t7, t8, t9));
t10 = ((l1)!=(EIF_VOID));
if (t10) {
T399f1984(C);
}
t10 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t10) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(8)))));
((T399*)(C))->a189 = ((T6)((((T399*)(C))->a189)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a115 = ((T6)((((T399*)(C))->a115)-((T6)(GE_int32(1)))));
((T399*)(C))->a198 = ((T6)((((T399*)(C))->a198)-((T6)(GE_int32(1)))));
((T399*)(C))->a151 = ((T6)((((T399*)(C))->a151)-((T6)(GE_int32(1)))));
((T399*)(C))->a177 = ((T6)((((T399*)(C))->a177)-((T6)(GE_int32(3)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t10 = (T6f12(&(((T399*)(C))->a189), ((T399*)(C))->a367));
if (t10) {
t10 = ((((T399*)(C))->a368)==(EIF_VOID));
if (t10) {
((T399*)(C))->a369 = T1213c3();
((T399*)(C))->a367 = (T6)(GE_int32(10));
((T399*)(C))->a368 = (T1213f1(GE_void(((T399*)(C))->a369), ((T399*)(C))->a367));
} else {
((T399*)(C))->a367 = ((T6)((((T399*)(C))->a367)+((T6)(GE_int32(10)))));
((T399*)(C))->a368 = (T1213f2(GE_void(((T399*)(C))->a369), ((T399*)(C))->a368, ((T399*)(C))->a367));
}
}
T1213f4(GE_void(((T399*)(C))->a369), ((T399*)(C))->a368, l1, ((T399*)(C))->a189);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_165 */
void T399f1210(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t2 = (((T1211*)(GE_void(((T399*)(C))->a366)))->z2[((T399*)(C))->a115]);
l1 = (T399f641(C, t1, t2, EIF_VOID, EIF_VOID, EIF_VOID, EIF_VOID, EIF_VOID, EIF_VOID));
t3 = ((l1)!=(EIF_VOID));
if (t3) {
T399f1984(C);
}
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a189 = ((T6)((((T399*)(C))->a189)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a115 = ((T6)((((T399*)(C))->a115)-((T6)(GE_int32(1)))));
t3 = (T6f12(&(((T399*)(C))->a189), ((T399*)(C))->a367));
if (t3) {
t3 = ((((T399*)(C))->a368)==(EIF_VOID));
if (t3) {
((T399*)(C))->a369 = T1213c3();
((T399*)(C))->a367 = (T6)(GE_int32(10));
((T399*)(C))->a368 = (T1213f1(GE_void(((T399*)(C))->a369), ((T399*)(C))->a367));
} else {
((T399*)(C))->a367 = ((T6)((((T399*)(C))->a367)+((T6)(GE_int32(10)))));
((T399*)(C))->a368 = (T1213f2(GE_void(((T399*)(C))->a369), ((T399*)(C))->a368, ((T399*)(C))->a367));
}
}
T1213f4(GE_void(((T399*)(C))->a369), ((T399*)(C))->a368, l1, ((T399*)(C))->a189);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_164 */
void T399f1209(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T399f1982(C, t1);
T399f1983(C);
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a87), ((T399*)(C))->a208));
if (t2) {
t2 = ((((T399*)(C))->a209)==(EIF_VOID));
if (t2) {
((T399*)(C))->a210 = T171c3();
((T399*)(C))->a208 = (T6)(GE_int32(10));
((T399*)(C))->a209 = (T171f1(GE_void(((T399*)(C))->a210), ((T399*)(C))->a208));
} else {
((T399*)(C))->a208 = ((T6)((((T399*)(C))->a208)+((T6)(GE_int32(10)))));
((T399*)(C))->a209 = (T171f2(GE_void(((T399*)(C))->a210), ((T399*)(C))->a209, ((T399*)(C))->a208));
}
}
T171f4(GE_void(((T399*)(C))->a210), ((T399*)(C))->a209, l1, ((T399*)(C))->a87);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_163 */
void T399f1208(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1153*)(GE_void(((T399*)(C))->a317)))->z2[((T399*)(C))->a191]);
T399f1980(C);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(1)))));
T1210f4(GE_void(((T399*)(C))->a365), ((T399*)(C))->a317, l1, ((T399*)(C))->a191);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_162 */
void T399f1207(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1153*)(GE_void(((T399*)(C))->a317)))->z2[((T399*)(C))->a191]);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(1)))));
T1210f4(GE_void(((T399*)(C))->a365), ((T399*)(C))->a317, l1, ((T399*)(C))->a191);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_161 */
void T399f1206(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
l1 = (T362f144(GE_void(t1), t2, (T6)(GE_int32(0))));
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a191 = ((T6)((((T399*)(C))->a191)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t3 = (T6f12(&(((T399*)(C))->a191), ((T399*)(C))->a364));
if (t3) {
t3 = ((((T399*)(C))->a317)==(EIF_VOID));
if (t3) {
((T399*)(C))->a365 = T1210c3();
((T399*)(C))->a364 = (T6)(GE_int32(10));
((T399*)(C))->a317 = (T1210f1(GE_void(((T399*)(C))->a365), ((T399*)(C))->a364));
} else {
((T399*)(C))->a364 = ((T6)((((T399*)(C))->a364)+((T6)(GE_int32(10)))));
((T399*)(C))->a317 = (T1210f2(GE_void(((T399*)(C))->a365), ((T399*)(C))->a317, ((T399*)(C))->a364));
}
}
T1210f4(GE_void(((T399*)(C))->a365), ((T399*)(C))->a317, l1, ((T399*)(C))->a191);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_160 */
void T399f1205(T0* C)
{
T1 t1;
T0* l1 = 0;
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a191 = ((T6)((((T399*)(C))->a191)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a191), ((T399*)(C))->a364));
if (t1) {
t1 = ((((T399*)(C))->a317)==(EIF_VOID));
if (t1) {
((T399*)(C))->a365 = T1210c3();
((T399*)(C))->a364 = (T6)(GE_int32(10));
((T399*)(C))->a317 = (T1210f1(GE_void(((T399*)(C))->a365), ((T399*)(C))->a364));
} else {
((T399*)(C))->a364 = ((T6)((((T399*)(C))->a364)+((T6)(GE_int32(10)))));
((T399*)(C))->a317 = (T1210f2(GE_void(((T399*)(C))->a365), ((T399*)(C))->a317, ((T399*)(C))->a364));
}
}
T1210f4(GE_void(((T399*)(C))->a365), ((T399*)(C))->a317, l1, ((T399*)(C))->a191);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_159 */
void T399f1204(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t3 = (((T1106*)(GE_void(((T399*)(C))->a269)))->z2[((T399*)(C))->a102]);
l1 = (T362f143(GE_void(t1), t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a187 = ((T6)((((T399*)(C))->a187)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a102 = ((T6)((((T399*)(C))->a102)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a187), ((T399*)(C))->a362));
if (t4) {
t4 = ((((T399*)(C))->a316)==(EIF_VOID));
if (t4) {
((T399*)(C))->a363 = T1209c3();
((T399*)(C))->a362 = (T6)(GE_int32(10));
((T399*)(C))->a316 = (T1209f1(GE_void(((T399*)(C))->a363), ((T399*)(C))->a362));
} else {
((T399*)(C))->a362 = ((T6)((((T399*)(C))->a362)+((T6)(GE_int32(10)))));
((T399*)(C))->a316 = (T1209f2(GE_void(((T399*)(C))->a363), ((T399*)(C))->a316, ((T399*)(C))->a362));
}
}
T1209f4(GE_void(((T399*)(C))->a363), ((T399*)(C))->a316, l1, ((T399*)(C))->a187);
}
}
/* KL_SPECIAL_ROUTINES [ET_OBSOLETE].force */
void T1209f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1152*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1152*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1152*)(GE_void(a1)))->a1);
T1152f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_OBSOLETE].fill_with */
void T1152f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1152*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1152*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1152f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_OBSOLETE].extend */
void T1152f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1152*)(C))->a1;
((T1152*)(C))->a1 = t1 + 1 ;
((T1152*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_OBSOLETE].resize */
T0* T1209f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1152*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1152f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_OBSOLETE].aliased_resized_area */
T0* T1152f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1152*)(C))->a2;
if (a1 > t1) {
R = GE_new1152(a1, EIF_FALSE);
*(T1152*)(R) = *(T1152*)(C);
memcpy(((T1152*)(R))->z2,((T1152*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1152*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1152*)(R))->a1;
if (t1 > a1) {
((T1152*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1152*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1152*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_OBSOLETE].make */
T0* T1209f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1673c4();
R = (((T1673*)(GE_void(l1)))->a1);
R = (T1152f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_OBSOLETE].make_empty */
T0* T1673c4(void)
{
T0* C;
C = GE_new1673(EIF_TRUE);
((T1673*)(C))->a2 = (T6)(GE_int32(1));
((T1673*)(C))->a3 = (T6)(GE_int32(0));
T1673f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_OBSOLETE].make_empty_area */
void T1673f5(T0* C, T6 a1)
{
((T1673*)(C))->a1 = T1152c6(a1);
}
/* SPECIAL [ET_OBSOLETE].make_empty */
T0* T1152c6(T6 a1)
{
T0* C;
C = GE_new1152(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_OBSOLETE].default_create */
T0* T1209c3(void)
{
T0* C;
C = GE_new1209(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_obsolete_message */
T0* T362f143(T0* C, T0* a1, T0* a2)
{
T0* R = 0;
R = a2;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_158 */
void T399f1203(T0* C)
{
T1 t1;
T0* l1 = 0;
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a187 = ((T6)((((T399*)(C))->a187)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a187), ((T399*)(C))->a362));
if (t1) {
t1 = ((((T399*)(C))->a316)==(EIF_VOID));
if (t1) {
((T399*)(C))->a363 = T1209c3();
((T399*)(C))->a362 = (T6)(GE_int32(10));
((T399*)(C))->a316 = (T1209f1(GE_void(((T399*)(C))->a363), ((T399*)(C))->a362));
} else {
((T399*)(C))->a362 = ((T6)((((T399*)(C))->a362)+((T6)(GE_int32(10)))));
((T399*)(C))->a316 = (T1209f2(GE_void(((T399*)(C))->a363), ((T399*)(C))->a316, ((T399*)(C))->a362));
}
}
T1209f4(GE_void(((T399*)(C))->a363), ((T399*)(C))->a316, l1, ((T399*)(C))->a187);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_157 */
void T399f1202(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T0* t5;
T1 t6;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (T399f682(C));
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t5 = (((T1187*)(GE_void(((T399*)(C))->a348)))->z2[((T399*)(C))->a140]);
t2 = (T362f140(GE_void(t2), t3, t4, t5));
t3 = (((T1123*)(GE_void(((T399*)(C))->a293)))->z2[((T399*)(C))->a108]);
l1 = (T362f142(GE_void(t1), t2, t3));
t6 = ((l1)!=(EIF_VOID));
if (t6) {
T399f1984(C);
}
t6 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t6) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a137 = ((T6)((((T399*)(C))->a137)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)-((T6)(GE_int32(1)))));
((T399*)(C))->a108 = ((T6)((((T399*)(C))->a108)-((T6)(GE_int32(1)))));
t6 = (T6f12(&(((T399*)(C))->a137), ((T399*)(C))->a360));
if (t6) {
t6 = ((((T399*)(C))->a359)==(EIF_VOID));
if (t6) {
((T399*)(C))->a361 = T1206c3();
((T399*)(C))->a360 = (T6)(GE_int32(10));
((T399*)(C))->a359 = (T1206f1(GE_void(((T399*)(C))->a361), ((T399*)(C))->a360));
} else {
((T399*)(C))->a360 = ((T6)((((T399*)(C))->a360)+((T6)(GE_int32(10)))));
((T399*)(C))->a359 = (T1206f2(GE_void(((T399*)(C))->a361), ((T399*)(C))->a359, ((T399*)(C))->a360));
}
}
T1206f4(GE_void(((T399*)(C))->a361), ((T399*)(C))->a359, l1, ((T399*)(C))->a137);
}
}
/* KL_SPECIAL_ROUTINES [ET_CONSTRAINT_ACTUAL_PARAMETER_ITEM].force */
void T1206f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1205*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1205*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1205*)(GE_void(a1)))->a1);
T1205f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_CONSTRAINT_ACTUAL_PARAMETER_ITEM].fill_with */
void T1205f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1205*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1205*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1205f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_CONSTRAINT_ACTUAL_PARAMETER_ITEM].extend */
void T1205f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1205*)(C))->a1;
((T1205*)(C))->a1 = t1 + 1 ;
((T1205*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_CONSTRAINT_ACTUAL_PARAMETER_ITEM].resize */
T0* T1206f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1205*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1205f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_CONSTRAINT_ACTUAL_PARAMETER_ITEM].aliased_resized_area */
T0* T1205f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1205*)(C))->a2;
if (a1 > t1) {
R = GE_new1205(a1, EIF_FALSE);
*(T1205*)(R) = *(T1205*)(C);
memcpy(((T1205*)(R))->z2,((T1205*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1205*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1205*)(R))->a1;
if (t1 > a1) {
((T1205*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1205*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1205*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_CONSTRAINT_ACTUAL_PARAMETER_ITEM].make */
T0* T1206f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1672c4();
R = (((T1672*)(GE_void(l1)))->a1);
R = (T1205f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_CONSTRAINT_ACTUAL_PARAMETER_ITEM].make_empty */
T0* T1672c4(void)
{
T0* C;
C = GE_new1672(EIF_TRUE);
((T1672*)(C))->a2 = (T6)(GE_int32(1));
((T1672*)(C))->a3 = (T6)(GE_int32(0));
T1672f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_CONSTRAINT_ACTUAL_PARAMETER_ITEM].make_empty_area */
void T1672f5(T0* C, T6 a1)
{
((T1672*)(C))->a1 = T1205c6(a1);
}
/* SPECIAL [ET_CONSTRAINT_ACTUAL_PARAMETER_ITEM].make_empty */
T0* T1205c6(T6 a1)
{
T0* C;
C = GE_new1205(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_CONSTRAINT_ACTUAL_PARAMETER_ITEM].default_create */
T0* T1206c3(void)
{
T0* C;
C = GE_new1206(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_constraint_labeled_actual_parameter_semicolon */
T0* T362f142(T0* C, T0* a1, T0* a2)
{
T0* R = 0;
R = a1;
return R;
}
/* ET_AST_FACTORY.new_constraint_labeled_actual_parameter */
T0* T362f140(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* R = 0;
t1 = ((a1)!=(EIF_VOID));
if (t1) {
t1 = ((a3)!=(EIF_VOID));
}
if (t1) {
R = T1207c6(a1, a2, a3);
}
return R;
}
/* ET_CONSTRAINT_LABELED_ACTUAL_PARAMETER.make */
T0* T1207c6(T0* a1, T0* a2, T0* a3)
{
T0* C;
C = GE_new1207(EIF_TRUE);
((T1207*)(C))->a1 = a1;
((T1207*)(C))->a2 = a2;
((T1207*)(C))->a3 = a3;
return C;
}
/* ET_EIFFEL_PARSER.yy_do_action_156 */
void T399f1201(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T1 t5;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t4 = (((T1187*)(GE_void(((T399*)(C))->a348)))->z2[((T399*)(C))->a140]);
l1 = (T362f140(GE_void(t1), t2, t3, t4));
t5 = ((l1)!=(EIF_VOID));
if (t5) {
T399f1984(C);
}
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a137 = ((T6)((((T399*)(C))->a137)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)-((T6)(GE_int32(1)))));
t5 = (T6f12(&(((T399*)(C))->a137), ((T399*)(C))->a360));
if (t5) {
t5 = ((((T399*)(C))->a359)==(EIF_VOID));
if (t5) {
((T399*)(C))->a361 = T1206c3();
((T399*)(C))->a360 = (T6)(GE_int32(10));
((T399*)(C))->a359 = (T1206f1(GE_void(((T399*)(C))->a361), ((T399*)(C))->a360));
} else {
((T399*)(C))->a360 = ((T6)((((T399*)(C))->a360)+((T6)(GE_int32(10)))));
((T399*)(C))->a359 = (T1206f2(GE_void(((T399*)(C))->a361), ((T399*)(C))->a359, ((T399*)(C))->a360));
}
}
T1206f4(GE_void(((T399*)(C))->a361), ((T399*)(C))->a359, l1, ((T399*)(C))->a137);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_155 */
void T399f1200(T0* C)
{
T1 t1;
T0* t2;
T0* t3;
T0* t4;
T0* t5;
T0* l1 = 0;
l1 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t1 = (T1193f7(GE_void(l1)));
t1 = ((T1)(!(t1)));
if (t1) {
t2 = (T399f682(C));
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t5 = (T1193f8(GE_void(l1)));
t5 = (T1204x6923(GE_void(t5)));
t2 = (T362f141(GE_void(t2), t3, t4, t5));
T399f1989(C, t2, l1);
} else {
t2 = (T399f682(C));
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t2 = (T362f141(GE_void(t2), t3, t4, EIF_VOID));
T399f1989(C, t2, l1);
}
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(1)))));
T1203f4(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, l1, ((T399*)(C))->a138);
}
}
/* KL_SPECIAL_ROUTINES [ET_CONSTRAINT_ACTUAL_PARAMETER_LIST].force */
void T1203f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1194*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1194*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1194*)(GE_void(a1)))->a1);
T1194f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_CONSTRAINT_ACTUAL_PARAMETER_LIST].fill_with */
void T1194f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1194*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1194*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1194f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_CONSTRAINT_ACTUAL_PARAMETER_LIST].extend */
void T1194f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1194*)(C))->a1;
((T1194*)(C))->a1 = t1 + 1 ;
((T1194*)(C))->z2[t1] = a1;
}
/* ET_EIFFEL_PARSER.add_to_constraint_actual_parameter_list */
void T399f1989(T0* C, T0* a1, T0* a2)
{
T1 t1;
t1 = ((a2)!=(EIF_VOID));
if (t1) {
t1 = ((a1)!=(EIF_VOID));
}
if (t1) {
T1193f13(GE_void(a2), a1);
}
}
/* ET_CONSTRAINT_ACTUAL_PARAMETER_LIST.put_first */
void T1193f13(T0* C, T0* a1)
{
T0* t1;
t1 = (T1193f6(C));
T1206f4(GE_void(t1), ((T1193*)(C))->a4, a1, ((T1193*)(C))->a3);
((T1193*)(C))->a3 = ((T6)((((T1193*)(C))->a3)+((T6)(GE_int32(1)))));
}
/* ET_CONSTRAINT_ACTUAL_PARAMETER_LIST.fixed_array */
unsigned char ge878os11824 = '\0';
T0* ge878ov11824;
T0* T1193f6(T0* C)
{
T0* R = 0;
if (ge878os11824) {
return ge878ov11824;
} else {
ge878os11824 = '\1';
ge878ov11824 = R;
}
R = T1206c3();
ge878ov11824 = R;
return R;
}
/* ET_AST_FACTORY.new_constraint_labeled_comma_actual_parameter */
T0* T362f141(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* R = 0;
t1 = ((a1)!=(EIF_VOID));
if (t1) {
t1 = ((a3)!=(EIF_VOID));
}
if (t1) {
R = T1208c6(a1, a2, a3);
}
return R;
}
/* ET_CONSTRAINT_LABELED_COMMA_ACTUAL_PARAMETER.make */
T0* T1208c6(T0* a1, T0* a2, T0* a3)
{
T0* C;
C = GE_new1208(EIF_TRUE);
((T1208*)(C))->a1 = a1;
((T1208*)(C))->a2 = a2;
((T1208*)(C))->a3 = a3;
return C;
}
/* ET_CONSTRAINT_ACTUAL_PARAMETER_LIST.first */
T0* T1193f8(T0* C)
{
T6 t1;
T0* R = 0;
t1 = ((T6)((((T1193*)(C))->a3)-((T6)(GE_int32(1)))));
R = (((T1205*)(GE_void(((T1193*)(C))->a4)))->z2[t1]);
return R;
}
/* ET_CONSTRAINT_ACTUAL_PARAMETER_LIST.is_empty */
T1 T1193f7(T0* C)
{
T1 R = 0;
R = (((((((T1193*)(C))->a3) == ((T6)(GE_int32(0)))))));
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_154 */
void T399f1199(T0* C)
{
T1 t1;
T0* t2;
T0* t3;
T0* t4;
T0* t5;
T0* l1 = 0;
l1 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t1 = (T1193f7(GE_void(l1)));
t1 = ((T1)(!(t1)));
if (t1) {
t2 = (T399f682(C));
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t5 = (T1193f8(GE_void(l1)));
t5 = (T1204x6923(GE_void(t5)));
t2 = (T362f141(GE_void(t2), t3, t4, t5));
T399f1989(C, t2, l1);
} else {
t2 = (T399f682(C));
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t2 = (T362f141(GE_void(t2), t3, t4, EIF_VOID));
T399f1989(C, t2, l1);
}
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(1)))));
T1203f4(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, l1, ((T399*)(C))->a138);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_153 */
void T399f1198(T0* C)
{
T1 t1;
T0* t2;
T0* t3;
T0* t4;
T0* t5;
T0* l1 = 0;
l1 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t1 = (T1193f7(GE_void(l1)));
t1 = ((T1)(!(t1)));
if (t1) {
t2 = (T399f682(C));
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t5 = (T1193f8(GE_void(l1)));
t5 = (T1204x6923(GE_void(t5)));
t2 = (T362f141(GE_void(t2), t3, t4, t5));
T399f1989(C, t2, l1);
} else {
t2 = (T399f682(C));
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t2 = (T362f141(GE_void(t2), t3, t4, EIF_VOID));
T399f1989(C, t2, l1);
}
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(1)))));
T1203f4(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, l1, ((T399*)(C))->a138);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_152 */
void T399f1197(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
l1 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
t1 = (((T1205*)(GE_void(((T399*)(C))->a359)))->z2[((T399*)(C))->a137]);
t2 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
T399f1989(C, t1, t2);
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a137 = ((T6)((((T399*)(C))->a137)-((T6)(GE_int32(1)))));
T1203f4(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, l1, ((T399*)(C))->a138);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_151 */
void T399f1196(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
l1 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
t1 = (((T1205*)(GE_void(((T399*)(C))->a359)))->z2[((T399*)(C))->a137]);
t2 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
T399f1989(C, t1, t2);
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a137 = ((T6)((((T399*)(C))->a137)-((T6)(GE_int32(1)))));
T1203f4(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, l1, ((T399*)(C))->a138);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_150 */
void T399f1195(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T6 t4;
T0* t5;
T1 t6;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (T399f612(C));
t3 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t4 = (T399f906(C));
t4 = ((T6)((t4)+((T6)(GE_int32(1)))));
l1 = (T362f138(GE_void(t1), t2, t3, t4));
t1 = (T399f682(C));
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
t3 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[t4]);
t5 = (((T1187*)(GE_void(((T399*)(C))->a348)))->z2[((T399*)(C))->a140]);
t1 = (T362f140(GE_void(t1), t2, t3, t5));
T399f1989(C, t1, l1);
t6 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t6) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(2)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)-((T6)(GE_int32(1)))));
t6 = (T6f12(&(((T399*)(C))->a138), ((T399*)(C))->a357));
if (t6) {
t6 = ((((T399*)(C))->a353)==(EIF_VOID));
if (t6) {
((T399*)(C))->a358 = T1203c3();
((T399*)(C))->a357 = (T6)(GE_int32(10));
((T399*)(C))->a353 = (T1203f1(GE_void(((T399*)(C))->a358), ((T399*)(C))->a357));
} else {
((T399*)(C))->a357 = ((T6)((((T399*)(C))->a357)+((T6)(GE_int32(10)))));
((T399*)(C))->a353 = (T1203f2(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, ((T399*)(C))->a357));
}
}
T1203f4(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, l1, ((T399*)(C))->a138);
}
}
/* KL_SPECIAL_ROUTINES [ET_CONSTRAINT_ACTUAL_PARAMETER_LIST].resize */
T0* T1203f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1194*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1194f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_CONSTRAINT_ACTUAL_PARAMETER_LIST].aliased_resized_area */
T0* T1194f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1194*)(C))->a2;
if (a1 > t1) {
R = GE_new1194(a1, EIF_FALSE);
*(T1194*)(R) = *(T1194*)(C);
memcpy(((T1194*)(R))->z2,((T1194*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1194*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1194*)(R))->a1;
if (t1 > a1) {
((T1194*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1194*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1194*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_CONSTRAINT_ACTUAL_PARAMETER_LIST].make */
T0* T1203f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1671c4();
R = (((T1671*)(GE_void(l1)))->a1);
R = (T1194f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_CONSTRAINT_ACTUAL_PARAMETER_LIST].make_empty */
T0* T1671c4(void)
{
T0* C;
C = GE_new1671(EIF_TRUE);
((T1671*)(C))->a2 = (T6)(GE_int32(1));
((T1671*)(C))->a3 = (T6)(GE_int32(0));
T1671f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_CONSTRAINT_ACTUAL_PARAMETER_LIST].make_empty_area */
void T1671f5(T0* C, T6 a1)
{
((T1671*)(C))->a1 = T1194c6(a1);
}
/* SPECIAL [ET_CONSTRAINT_ACTUAL_PARAMETER_LIST].make_empty */
T0* T1194c6(T6 a1)
{
T0* C;
C = GE_new1194(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_CONSTRAINT_ACTUAL_PARAMETER_LIST].default_create */
T0* T1203c3(void)
{
T0* C;
C = GE_new1203(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_constraint_actual_parameters */
T0* T362f138(T0* C, T0* a1, T0* a2, T6 a3)
{
T1 t1;
T0* t2;
T1 t3;
T0* R = 0;
t1 = (T6f1(&a3, (T6)(GE_int32(0))));
if (t1) {
R = T1193c12(a3);
t1 = ((a1)!=(EIF_VOID));
if (t1) {
t2 = (((((T0*)(GE_void(a1)))->id==304)?T304f4(a1):T622f4(a1)));
t3 = (((((T0*)(GE_void(t2)))->id==622)?T622f7(t2):T304f18(t2)));
t1 = ((T1)(!(t3)));
}
if (t1) {
T1193f14(GE_void(R), a1);
}
}
return R;
}
/* ET_CONSTRAINT_ACTUAL_PARAMETER_LIST.set_left_bracket */
void T1193f14(T0* C, T0* a1)
{
((T1193*)(C))->a1 = a1;
}
/* ET_CONSTRAINT_ACTUAL_PARAMETER_LIST.make_with_capacity */
T0* T1193c12(T6 a1)
{
T0* C;
T0* t1;
C = GE_new1193(EIF_TRUE);
t1 = (T1193f5(C));
((T1193*)(C))->a1 = (T74f201(GE_void(t1)));
t1 = (T1193f5(C));
((T1193*)(C))->a2 = (T74f202(GE_void(t1)));
T1193f12p1(C, a1);
return C;
}
/* ET_CONSTRAINT_ACTUAL_PARAMETER_LIST.make_with_capacity */
void T1193f12p1(T0* C, T6 a1)
{
T1 t1;
T0* t2;
((T1193*)(C))->a3 = (T6)(GE_int32(0));
t1 = (T6f1(&a1, (T6)(GE_int32(0))));
if (t1) {
t2 = (T1193f6(C));
((T1193*)(C))->a4 = (T1206f1(GE_void(t2), a1));
} else {
((T1193*)(C))->a4 = EIF_VOID;
}
}
/* ET_CONSTRAINT_ACTUAL_PARAMETER_LIST.tokens */
T0* T1193f5(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_149 */
void T399f1194(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
T399f1986(C);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(1)))));
T1203f4(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, l1, ((T399*)(C))->a138);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_148 */
void T399f1193(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
T399f1986(C);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(1)))));
T1203f4(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, l1, ((T399*)(C))->a138);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_147 */
void T399f1192(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1125*)(GE_void(((T399*)(C))->a297)))->z2[((T399*)(C))->a109]);
t3 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
l1 = (T362f138(GE_void(t1), t2, t3, (T6)(GE_int32(0))));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)+((T6)(GE_int32(1)))));
((T399*)(C))->a109 = ((T6)((((T399*)(C))->a109)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a138), ((T399*)(C))->a357));
if (t4) {
t4 = ((((T399*)(C))->a353)==(EIF_VOID));
if (t4) {
((T399*)(C))->a358 = T1203c3();
((T399*)(C))->a357 = (T6)(GE_int32(10));
((T399*)(C))->a353 = (T1203f1(GE_void(((T399*)(C))->a358), ((T399*)(C))->a357));
} else {
((T399*)(C))->a357 = ((T6)((((T399*)(C))->a357)+((T6)(GE_int32(10)))));
((T399*)(C))->a353 = (T1203f2(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, ((T399*)(C))->a357));
}
}
T1203f4(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, l1, ((T399*)(C))->a138);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_146 */
void T399f1191(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
T1203f4(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, l1, ((T399*)(C))->a138);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_145 */
void T399f1190(T0* C)
{
T1 t1;
T0* l1 = 0;
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a138), ((T399*)(C))->a357));
if (t1) {
t1 = ((((T399*)(C))->a353)==(EIF_VOID));
if (t1) {
((T399*)(C))->a358 = T1203c3();
((T399*)(C))->a357 = (T6)(GE_int32(10));
((T399*)(C))->a353 = (T1203f1(GE_void(((T399*)(C))->a358), ((T399*)(C))->a357));
} else {
((T399*)(C))->a357 = ((T6)((((T399*)(C))->a357)+((T6)(GE_int32(10)))));
((T399*)(C))->a353 = (T1203f2(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, ((T399*)(C))->a357));
}
}
T1203f4(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, l1, ((T399*)(C))->a138);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_144 */
void T399f1189(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1187*)(GE_void(((T399*)(C))->a348)))->z2[((T399*)(C))->a140]);
t3 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
l1 = (T362f139(GE_void(t1), t2, t3));
t4 = ((l1)!=(EIF_VOID));
if (t4) {
T399f1984(C);
}
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a137 = ((T6)((((T399*)(C))->a137)+((T6)(GE_int32(1)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a137), ((T399*)(C))->a360));
if (t4) {
t4 = ((((T399*)(C))->a359)==(EIF_VOID));
if (t4) {
((T399*)(C))->a361 = T1206c3();
((T399*)(C))->a360 = (T6)(GE_int32(10));
((T399*)(C))->a359 = (T1206f1(GE_void(((T399*)(C))->a361), ((T399*)(C))->a360));
} else {
((T399*)(C))->a360 = ((T6)((((T399*)(C))->a360)+((T6)(GE_int32(10)))));
((T399*)(C))->a359 = (T1206f2(GE_void(((T399*)(C))->a361), ((T399*)(C))->a359, ((T399*)(C))->a360));
}
}
T1206f4(GE_void(((T399*)(C))->a361), ((T399*)(C))->a359, l1, ((T399*)(C))->a137);
}
}
/* ET_AST_FACTORY.new_constraint_actual_parameter_comma */
T0* T362f139(T0* C, T0* a1, T0* a2)
{
T0* R = 0;
R = a1;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_143 */
void T399f1188(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
l1 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
t1 = (T399f682(C));
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t2 = (T399f625(C, EIF_VOID, t2, EIF_VOID));
t3 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t1 = (T362f139(GE_void(t1), t2, t3));
T399f1989(C, t1, l1);
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(1)))));
T1203f4(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, l1, ((T399*)(C))->a138);
}
}
/* ET_EIFFEL_PARSER.new_constraint_named_type */
T0* T399f625(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* t2;
T0* R = 0;
t1 = ((a3)!=(EIF_VOID));
if (t1) {
t2 = (T399f682(C));
R = (T362f325(GE_void(t2), a1, a2, a3));
} else {
t2 = (T399f682(C));
R = (T362f326(GE_void(t2), a1, a2));
}
return R;
}
/* ET_AST_FACTORY.new_constraint_named_type */
T0* T362f326(T0* C, T0* a1, T0* a2)
{
T1 t1;
T0* R = 0;
t1 = ((a2)!=(EIF_VOID));
if (t1) {
R = T1195c7(a1, a2);
}
return R;
}
/* ET_CONSTRAINT_NAMED_TYPE.make */
T0* T1195c7(T0* a1, T0* a2)
{
T0* C;
C = GE_new1195(EIF_TRUE);
((T1195*)(C))->a1 = a1;
((T1195*)(C))->a2 = a2;
return C;
}
/* ET_AST_FACTORY.new_constraint_generic_named_type */
T0* T362f325(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* R = 0;
t1 = ((a2)!=(EIF_VOID));
if (t1) {
t1 = ((a3)!=(EIF_VOID));
}
if (t1) {
R = T1595c8(a1, a2, a3);
}
return R;
}
/* ET_CONSTRAINT_GENERIC_NAMED_TYPE.make */
T0* T1595c8(T0* a1, T0* a2, T0* a3)
{
T0* C;
C = GE_new1595(EIF_TRUE);
((T1595*)(C))->a1 = a1;
((T1595*)(C))->a2 = a2;
((T1595*)(C))->a3 = a3;
return C;
}
/* ET_EIFFEL_PARSER.yy_do_action_142 */
void T399f1187(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
l1 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
t1 = (T399f682(C));
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t2 = (T399f625(C, EIF_VOID, t2, EIF_VOID));
t3 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t1 = (T362f139(GE_void(t1), t2, t3));
T399f1989(C, t1, l1);
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(1)))));
T1203f4(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, l1, ((T399*)(C))->a138);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_141 */
void T399f1186(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
l1 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
t1 = (((T1205*)(GE_void(((T399*)(C))->a359)))->z2[((T399*)(C))->a137]);
T399f1989(C, t1, l1);
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a137 = ((T6)((((T399*)(C))->a137)-((T6)(GE_int32(1)))));
T1203f4(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, l1, ((T399*)(C))->a138);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_140 */
void T399f1185(T0* C)
{
T0* t1;
T1 t2;
T0* t3;
T0* t4;
T6 t5;
T0* l1 = 0;
t1 = (((T1187*)(GE_void(((T399*)(C))->a348)))->z2[((T399*)(C))->a140]);
t2 = ((t1)!=(EIF_VOID));
if (t2) {
t1 = (T399f682(C));
t3 = (T399f612(C));
t4 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t5 = (T399f906(C));
t5 = ((T6)((t5)+((T6)(GE_int32(1)))));
l1 = (T362f138(GE_void(t1), t3, t4, t5));
t2 = ((l1)!=(EIF_VOID));
if (t2) {
t1 = (((T1187*)(GE_void(((T399*)(C))->a348)))->z2[((T399*)(C))->a140]);
T1193f13(GE_void(l1), t1);
}
} else {
t1 = (T399f682(C));
t3 = (T399f612(C));
t4 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t5 = (T399f906(C));
l1 = (T362f138(GE_void(t1), t3, t4, t5));
}
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)+((T6)(GE_int32(1)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a138), ((T399*)(C))->a357));
if (t2) {
t2 = ((((T399*)(C))->a353)==(EIF_VOID));
if (t2) {
((T399*)(C))->a358 = T1203c3();
((T399*)(C))->a357 = (T6)(GE_int32(10));
((T399*)(C))->a353 = (T1203f1(GE_void(((T399*)(C))->a358), ((T399*)(C))->a357));
} else {
((T399*)(C))->a357 = ((T6)((((T399*)(C))->a357)+((T6)(GE_int32(10)))));
((T399*)(C))->a353 = (T1203f2(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, ((T399*)(C))->a357));
}
}
T1203f4(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, l1, ((T399*)(C))->a138);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_139 */
void T399f1184(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
T399f1986(C);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(1)))));
T1203f4(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, l1, ((T399*)(C))->a138);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_138 */
void T399f1183(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1125*)(GE_void(((T399*)(C))->a297)))->z2[((T399*)(C))->a109]);
t3 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
l1 = (T362f138(GE_void(t1), t2, t3, (T6)(GE_int32(0))));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)+((T6)(GE_int32(1)))));
((T399*)(C))->a109 = ((T6)((((T399*)(C))->a109)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a138), ((T399*)(C))->a357));
if (t4) {
t4 = ((((T399*)(C))->a353)==(EIF_VOID));
if (t4) {
((T399*)(C))->a358 = T1203c3();
((T399*)(C))->a357 = (T6)(GE_int32(10));
((T399*)(C))->a353 = (T1203f1(GE_void(((T399*)(C))->a358), ((T399*)(C))->a357));
} else {
((T399*)(C))->a357 = ((T6)((((T399*)(C))->a357)+((T6)(GE_int32(10)))));
((T399*)(C))->a353 = (T1203f2(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, ((T399*)(C))->a357));
}
}
T1203f4(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, l1, ((T399*)(C))->a138);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_137 */
void T399f1182(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
T1203f4(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, l1, ((T399*)(C))->a138);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_136 */
void T399f1181(T0* C)
{
T1 t1;
T0* l1 = 0;
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a138), ((T399*)(C))->a357));
if (t1) {
t1 = ((((T399*)(C))->a353)==(EIF_VOID));
if (t1) {
((T399*)(C))->a358 = T1203c3();
((T399*)(C))->a357 = (T6)(GE_int32(10));
((T399*)(C))->a353 = (T1203f1(GE_void(((T399*)(C))->a358), ((T399*)(C))->a357));
} else {
((T399*)(C))->a357 = ((T6)((((T399*)(C))->a357)+((T6)(GE_int32(10)))));
((T399*)(C))->a353 = (T1203f2(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, ((T399*)(C))->a357));
}
}
T1203f4(GE_void(((T399*)(C))->a358), ((T399*)(C))->a353, l1, ((T399*)(C))->a138);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_135 */
void T399f1180(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1128*)(GE_void(((T399*)(C))->a301)))->z2[((T399*)(C))->a110]);
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t1 = (T362f137(GE_void(t1), t2, t3));
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a110 = ((T6)((((T399*)(C))->a110)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* KL_SPECIAL_ROUTINES [ET_CONSTRAINT_TYPE].force */
void T1196f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1187*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1187*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1187*)(GE_void(a1)))->a1);
T1187f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_CONSTRAINT_TYPE].fill_with */
void T1187f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1187*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1187*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1187f10(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_CONSTRAINT_TYPE].extend */
void T1187f10(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1187*)(C))->a1;
((T1187*)(C))->a1 = t1 + 1 ;
((T1187*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_CONSTRAINT_TYPE].resize */
T0* T1196f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1187*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1187f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_CONSTRAINT_TYPE].aliased_resized_area */
T0* T1187f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1187*)(C))->a2;
if (a1 > t1) {
R = GE_new1187(a1, EIF_FALSE);
*(T1187*)(R) = *(T1187*)(C);
memcpy(((T1187*)(R))->z2,((T1187*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1187*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1187*)(R))->a1;
if (t1 > a1) {
((T1187*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1187*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1187*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_CONSTRAINT_TYPE].make */
T0* T1196f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1670c4();
R = (((T1670*)(GE_void(l1)))->a1);
R = (T1187f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_CONSTRAINT_TYPE].make_empty */
T0* T1670c4(void)
{
T0* C;
C = GE_new1670(EIF_TRUE);
((T1670*)(C))->a2 = (T6)(GE_int32(1));
((T1670*)(C))->a3 = (T6)(GE_int32(0));
T1670f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_CONSTRAINT_TYPE].make_empty_area */
void T1670f5(T0* C, T6 a1)
{
((T1670*)(C))->a1 = T1187c6(a1);
}
/* SPECIAL [ET_CONSTRAINT_TYPE].make_empty */
T0* T1187c6(T6 a1)
{
T0* C;
C = GE_new1187(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_CONSTRAINT_TYPE].default_create */
T0* T1196c3(void)
{
T0* C;
C = GE_new1196(EIF_TRUE);
return C;
}
/* ET_EIFFEL_PARSER.yy_do_action_134 */
void T399f1179(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1128*)(GE_void(((T399*)(C))->a301)))->z2[((T399*)(C))->a110]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a110 = ((T6)((((T399*)(C))->a110)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_133 */
void T399f1178(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t1 = (T362f137(GE_void(t1), t2, t3));
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_132 */
void T399f1177(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_131 */
void T399f1176(T0* C)
{
T0* t1;
T6 t2;
T0* t3;
T0* t4;
T1 t5;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[t2]);
t4 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t1 = (T362f136(GE_void(t1), t3, t4));
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t3, t4));
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(2)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t5 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t5) {
t5 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t5) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_130 */
void T399f1175(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_129 */
void T399f1174(T0* C)
{
T0* t1;
T6 t2;
T0* t3;
T0* t4;
T1 t5;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[t2]);
t4 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t1 = (T362f136(GE_void(t1), t3, t4));
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t3, t4));
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(2)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t5 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t5) {
t5 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t5) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_128 */
void T399f1173(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_127 */
void T399f1172(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_126 */
void T399f1171(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t2 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, EIF_VOID, t1, t2));
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t3 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t3) {
t3 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t3) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_125 */
void T399f1170(T0* C)
{
T6 t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[t1]);
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
l1 = (T399f630(C, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(2)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_124 */
void T399f1169(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t2 = (((T1101*)(GE_void(((T399*)(C))->a261)))->z2[((T399*)(C))->a100]);
l1 = (T399f629(C, t1, t2));
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a100 = ((T6)((((T399*)(C))->a100)-((T6)(GE_int32(1)))));
t3 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t3) {
t3 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t3) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_123 */
void T399f1168(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1200*)(GE_void(((T399*)(C))->a356)))->z2[((T399*)(C))->a178]);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a178 = ((T6)((((T399*)(C))->a178)-((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t1) {
t1 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t1) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_122 */
void T399f1167(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1128*)(GE_void(((T399*)(C))->a301)))->z2[((T399*)(C))->a110]);
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t1 = (T362f137(GE_void(t1), t2, t3));
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a110 = ((T6)((((T399*)(C))->a110)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_121 */
void T399f1166(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1128*)(GE_void(((T399*)(C))->a301)))->z2[((T399*)(C))->a110]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a110 = ((T6)((((T399*)(C))->a110)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_120 */
void T399f1165(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t1 = (T362f137(GE_void(t1), t2, t3));
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_119 */
void T399f1164(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_118 */
void T399f1163(T0* C)
{
T0* t1;
T6 t2;
T0* t3;
T0* t4;
T1 t5;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[t2]);
t4 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t1 = (T362f136(GE_void(t1), t3, t4));
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t3, t4));
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(2)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t5 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t5) {
t5 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t5) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_117 */
void T399f1162(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_116 */
void T399f1161(T0* C)
{
T0* t1;
T6 t2;
T0* t3;
T0* t4;
T1 t5;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[t2]);
t4 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t1 = (T362f136(GE_void(t1), t3, t4));
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t3, t4));
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(2)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t5 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t5) {
t5 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t5) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_115 */
void T399f1160(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_114 */
void T399f1159(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_113 */
void T399f1158(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_112 */
void T399f1157(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_111 */
void T399f1156(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t2 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, EIF_VOID, t1, t2));
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t3 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t3) {
t3 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t3) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_110 */
void T399f1155(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1128*)(GE_void(((T399*)(C))->a301)))->z2[((T399*)(C))->a110]);
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t1 = (T362f137(GE_void(t1), t2, t3));
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a110 = ((T6)((((T399*)(C))->a110)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_109 */
void T399f1154(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1128*)(GE_void(((T399*)(C))->a301)))->z2[((T399*)(C))->a110]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a110 = ((T6)((((T399*)(C))->a110)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_108 */
void T399f1153(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t1 = (T362f137(GE_void(t1), t2, t3));
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_107 */
void T399f1152(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_106 */
void T399f1151(T0* C)
{
T0* t1;
T6 t2;
T0* t3;
T0* t4;
T1 t5;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[t2]);
t4 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t1 = (T362f136(GE_void(t1), t3, t4));
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t3, t4));
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(2)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t5 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t5) {
t5 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t5) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_105 */
void T399f1150(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_104 */
void T399f1149(T0* C)
{
T0* t1;
T6 t2;
T0* t3;
T0* t4;
T1 t5;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[t2]);
t4 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t1 = (T362f136(GE_void(t1), t3, t4));
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t3, t4));
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(2)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t5 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t5) {
t5 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t5) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_103 */
void T399f1148(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_102 */
void T399f1147(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_101 */
void T399f1146(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t2 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, EIF_VOID, t1, t2));
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t3 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t3) {
t3 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t3) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_100 */
void T399f1145(T0* C)
{
T6 t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[t1]);
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
l1 = (T399f630(C, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(2)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_99 */
void T399f1144(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t2 = (((T1101*)(GE_void(((T399*)(C))->a261)))->z2[((T399*)(C))->a100]);
l1 = (T399f629(C, t1, t2));
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a100 = ((T6)((((T399*)(C))->a100)-((T6)(GE_int32(1)))));
t3 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t3) {
t3 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t3) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_98 */
void T399f1143(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1200*)(GE_void(((T399*)(C))->a356)))->z2[((T399*)(C))->a178]);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a178 = ((T6)((((T399*)(C))->a178)-((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t1) {
t1 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t1) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_97 */
void T399f1142(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1128*)(GE_void(((T399*)(C))->a301)))->z2[((T399*)(C))->a110]);
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t1 = (T362f137(GE_void(t1), t2, t3));
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a110 = ((T6)((((T399*)(C))->a110)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_96 */
void T399f1141(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1128*)(GE_void(((T399*)(C))->a301)))->z2[((T399*)(C))->a110]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a110 = ((T6)((((T399*)(C))->a110)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_95 */
void T399f1140(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t1 = (T362f137(GE_void(t1), t2, t3));
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_94 */
void T399f1139(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_93 */
void T399f1138(T0* C)
{
T0* t1;
T6 t2;
T0* t3;
T0* t4;
T1 t5;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[t2]);
t4 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t1 = (T362f136(GE_void(t1), t3, t4));
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t3, t4));
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(2)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t5 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t5) {
t5 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t5) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_92 */
void T399f1137(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_91 */
void T399f1136(T0* C)
{
T0* t1;
T6 t2;
T0* t3;
T0* t4;
T1 t5;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[t2]);
t4 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t1 = (T362f136(GE_void(t1), t3, t4));
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t3, t4));
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(2)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t5 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t5) {
t5 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t5) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_90 */
void T399f1135(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_89 */
void T399f1134(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_88 */
void T399f1133(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_87 */
void T399f1132(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, t1, t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t4) {
t4 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t4) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_86 */
void T399f1131(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t2 = (((T1194*)(GE_void(((T399*)(C))->a353)))->z2[((T399*)(C))->a138]);
l1 = (T399f625(C, EIF_VOID, t1, t2));
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a138 = ((T6)((((T399*)(C))->a138)-((T6)(GE_int32(1)))));
t3 = (T6f12(&(((T399*)(C))->a140), ((T399*)(C))->a354));
if (t3) {
t3 = ((((T399*)(C))->a348)==(EIF_VOID));
if (t3) {
((T399*)(C))->a355 = T1196c3();
((T399*)(C))->a354 = (T6)(GE_int32(10));
((T399*)(C))->a348 = (T1196f1(GE_void(((T399*)(C))->a355), ((T399*)(C))->a354));
} else {
((T399*)(C))->a354 = ((T6)((((T399*)(C))->a354)+((T6)(GE_int32(10)))));
((T399*)(C))->a348 = (T1196f2(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, ((T399*)(C))->a354));
}
}
T1196f4(GE_void(((T399*)(C))->a355), ((T399*)(C))->a348, l1, ((T399*)(C))->a140);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_85 */
void T399f1130(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1189*)(GE_void(((T399*)(C))->a349)))->z2[((T399*)(C))->a139]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t2 = (((T1192*)(GE_void(((T399*)(C))->a352)))->z2[((T399*)(C))->a160]);
t1 = ((t2)!=(EIF_VOID));
}
if (t1) {
t2 = (((T1192*)(GE_void(((T399*)(C))->a352)))->z2[((T399*)(C))->a160]);
T906f13(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a160 = ((T6)((((T399*)(C))->a160)-((T6)(GE_int32(1)))));
T1190f4(GE_void(((T399*)(C))->a351), ((T399*)(C))->a349, l1, ((T399*)(C))->a139);
}
}
/* KL_SPECIAL_ROUTINES [ET_CONSTRAINT_CREATOR].force */
void T1190f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1189*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1189*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1189*)(GE_void(a1)))->a1);
T1189f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_CONSTRAINT_CREATOR].fill_with */
void T1189f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1189*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1189*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1189f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_CONSTRAINT_CREATOR].extend */
void T1189f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1189*)(C))->a1;
((T1189*)(C))->a1 = t1 + 1 ;
((T1189*)(C))->z2[t1] = a1;
}
/* ET_CONSTRAINT_CREATOR.put_first */
void T906f13(T0* C, T0* a1)
{
T0* t1;
t1 = (T906f6(C));
T1236f4(GE_void(t1), ((T906*)(C))->a4, a1, ((T906*)(C))->a3);
((T906*)(C))->a3 = ((T6)((((T906*)(C))->a3)+((T6)(GE_int32(1)))));
}
/* ET_CONSTRAINT_CREATOR.fixed_array */
T0* T906f6(T0* C)
{
T0* R = 0;
if (ge829os11824) {
return ge829ov11824;
} else {
ge829os11824 = '\1';
ge829ov11824 = R;
}
R = T1236c3();
ge829ov11824 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_84 */
void T399f1129(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T6 t4;
T1 t5;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (T399f905(C));
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t4 = (T399f906(C));
l1 = (T362f135(GE_void(t1), t2, t3, t4));
t5 = ((l1)!=(EIF_VOID));
if (t5) {
t1 = (((T1192*)(GE_void(((T399*)(C))->a352)))->z2[((T399*)(C))->a160]);
t5 = ((t1)!=(EIF_VOID));
}
if (t5) {
t1 = (((T1192*)(GE_void(((T399*)(C))->a352)))->z2[((T399*)(C))->a160]);
T906f13(GE_void(l1), t1);
}
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a139 = ((T6)((((T399*)(C))->a139)+((T6)(GE_int32(1)))));
((T399*)(C))->a160 = ((T6)((((T399*)(C))->a160)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t5 = (T6f12(&(((T399*)(C))->a139), ((T399*)(C))->a350));
if (t5) {
t5 = ((((T399*)(C))->a349)==(EIF_VOID));
if (t5) {
((T399*)(C))->a351 = T1190c3();
((T399*)(C))->a350 = (T6)(GE_int32(10));
((T399*)(C))->a349 = (T1190f1(GE_void(((T399*)(C))->a351), ((T399*)(C))->a350));
} else {
((T399*)(C))->a350 = ((T6)((((T399*)(C))->a350)+((T6)(GE_int32(10)))));
((T399*)(C))->a349 = (T1190f2(GE_void(((T399*)(C))->a351), ((T399*)(C))->a349, ((T399*)(C))->a350));
}
}
T1190f4(GE_void(((T399*)(C))->a351), ((T399*)(C))->a349, l1, ((T399*)(C))->a139);
}
}
/* KL_SPECIAL_ROUTINES [ET_CONSTRAINT_CREATOR].resize */
T0* T1190f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1189*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1189f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_CONSTRAINT_CREATOR].aliased_resized_area */
T0* T1189f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1189*)(C))->a2;
if (a1 > t1) {
R = GE_new1189(a1, EIF_FALSE);
*(T1189*)(R) = *(T1189*)(C);
memcpy(((T1189*)(R))->z2,((T1189*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1189*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1189*)(R))->a1;
if (t1 > a1) {
((T1189*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1189*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1189*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_CONSTRAINT_CREATOR].make */
T0* T1190f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1669c4();
R = (((T1669*)(GE_void(l1)))->a1);
R = (T1189f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_CONSTRAINT_CREATOR].make_empty */
T0* T1669c4(void)
{
T0* C;
C = GE_new1669(EIF_TRUE);
((T1669*)(C))->a2 = (T6)(GE_int32(1));
((T1669*)(C))->a3 = (T6)(GE_int32(0));
T1669f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_CONSTRAINT_CREATOR].make_empty_area */
void T1669f5(T0* C, T6 a1)
{
((T1669*)(C))->a1 = T1189c6(a1);
}
/* SPECIAL [ET_CONSTRAINT_CREATOR].make_empty */
T0* T1189c6(T6 a1)
{
T0* C;
C = GE_new1189(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_CONSTRAINT_CREATOR].default_create */
T0* T1190c3(void)
{
T0* C;
C = GE_new1190(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_constraint_creator */
T0* T362f135(T0* C, T0* a1, T0* a2, T6 a3)
{
T0* R = 0;
R = T906c12(a3);
return R;
}
/* ET_CONSTRAINT_CREATOR.make_with_capacity */
T0* T906c12(T6 a1)
{
T0* C;
T0* t1;
C = GE_new906(EIF_TRUE);
t1 = (T906f5(C));
((T906*)(C))->a1 = (T74f209(GE_void(t1)));
t1 = (T906f5(C));
((T906*)(C))->a2 = (T74f66(GE_void(t1)));
T906f12p1(C, a1);
return C;
}
/* ET_CONSTRAINT_CREATOR.make_with_capacity */
void T906f12p1(T0* C, T6 a1)
{
T1 t1;
T0* t2;
((T906*)(C))->a3 = (T6)(GE_int32(0));
t1 = (T6f1(&a1, (T6)(GE_int32(0))));
if (t1) {
t2 = (T906f6(C));
((T906*)(C))->a4 = (T1236f1(GE_void(t2), a1));
} else {
((T906*)(C))->a4 = EIF_VOID;
}
}
/* ET_CONSTRAINT_CREATOR.tokens */
T0* T906f5(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_83 */
void T399f1128(T0* C)
{
T0* t1;
T1 t2;
T0* t3;
T0* t4;
T6 t5;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t2 = ((t1)!=(EIF_VOID));
if (t2) {
t1 = (T399f682(C));
t3 = (T399f905(C));
t4 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t5 = (T399f906(C));
t5 = ((T6)((t5)+((T6)(GE_int32(1)))));
l1 = (T362f135(GE_void(t1), t3, t4, t5));
t2 = ((l1)!=(EIF_VOID));
if (t2) {
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
T906f13(GE_void(l1), t1);
}
} else {
t1 = (T399f682(C));
t3 = (T399f905(C));
t4 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t5 = (T399f906(C));
l1 = (T362f135(GE_void(t1), t3, t4, t5));
}
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a139 = ((T6)((((T399*)(C))->a139)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a139), ((T399*)(C))->a350));
if (t2) {
t2 = ((((T399*)(C))->a349)==(EIF_VOID));
if (t2) {
((T399*)(C))->a351 = T1190c3();
((T399*)(C))->a350 = (T6)(GE_int32(10));
((T399*)(C))->a349 = (T1190f1(GE_void(((T399*)(C))->a351), ((T399*)(C))->a350));
} else {
((T399*)(C))->a350 = ((T6)((((T399*)(C))->a350)+((T6)(GE_int32(10)))));
((T399*)(C))->a349 = (T1190f2(GE_void(((T399*)(C))->a351), ((T399*)(C))->a349, ((T399*)(C))->a350));
}
}
T1190f4(GE_void(((T399*)(C))->a351), ((T399*)(C))->a349, l1, ((T399*)(C))->a139);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_82 */
void T399f1127(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T399f1982(C, t1);
T399f1983(C);
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a139 = ((T6)((((T399*)(C))->a139)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a139), ((T399*)(C))->a350));
if (t2) {
t2 = ((((T399*)(C))->a349)==(EIF_VOID));
if (t2) {
((T399*)(C))->a351 = T1190c3();
((T399*)(C))->a350 = (T6)(GE_int32(10));
((T399*)(C))->a349 = (T1190f1(GE_void(((T399*)(C))->a351), ((T399*)(C))->a350));
} else {
((T399*)(C))->a350 = ((T6)((((T399*)(C))->a350)+((T6)(GE_int32(10)))));
((T399*)(C))->a349 = (T1190f2(GE_void(((T399*)(C))->a351), ((T399*)(C))->a349, ((T399*)(C))->a350));
}
}
T1190f4(GE_void(((T399*)(C))->a351), ((T399*)(C))->a349, l1, ((T399*)(C))->a139);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_81 */
void T399f1126(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1189*)(GE_void(((T399*)(C))->a349)))->z2[((T399*)(C))->a139]);
T399f1980(C);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a139 = ((T6)((((T399*)(C))->a139)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
T1190f4(GE_void(((T399*)(C))->a351), ((T399*)(C))->a349, l1, ((T399*)(C))->a139);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_80 */
void T399f1125(T0* C)
{
T0* t1;
T6 t2;
T0* t3;
T0* t4;
T1 t5;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[t2]);
t4 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
l1 = (T362f135(GE_void(t1), t3, t4, (T6)(GE_int32(0))));
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a139 = ((T6)((((T399*)(C))->a139)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(2)))));
t5 = (T6f12(&(((T399*)(C))->a139), ((T399*)(C))->a350));
if (t5) {
t5 = ((((T399*)(C))->a349)==(EIF_VOID));
if (t5) {
((T399*)(C))->a351 = T1190c3();
((T399*)(C))->a350 = (T6)(GE_int32(10));
((T399*)(C))->a349 = (T1190f1(GE_void(((T399*)(C))->a351), ((T399*)(C))->a350));
} else {
((T399*)(C))->a350 = ((T6)((((T399*)(C))->a350)+((T6)(GE_int32(10)))));
((T399*)(C))->a349 = (T1190f2(GE_void(((T399*)(C))->a351), ((T399*)(C))->a349, ((T399*)(C))->a350));
}
}
T1190f4(GE_void(((T399*)(C))->a351), ((T399*)(C))->a349, l1, ((T399*)(C))->a139);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_79 */
void T399f1124(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T0* t5;
T0* t6;
T1 t7;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t5 = (((T1187*)(GE_void(((T399*)(C))->a348)))->z2[((T399*)(C))->a140]);
t5 = (T399f619(C, t5));
t6 = (((T1189*)(GE_void(((T399*)(C))->a349)))->z2[((T399*)(C))->a139]);
l1 = (T362f134(GE_void(t1), t2, t3, t4, t5, t6, ((T399*)(C))->a68));
t7 = ((l1)!=(EIF_VOID));
if (t7) {
t1 = (((T1187*)(GE_void(((T399*)(C))->a348)))->z2[((T399*)(C))->a140]);
T399f1988(C, t1);
}
t7 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t7) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(5)))));
((T399*)(C))->a164 = ((T6)((((T399*)(C))->a164)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)-((T6)(GE_int32(1)))));
((T399*)(C))->a139 = ((T6)((((T399*)(C))->a139)-((T6)(GE_int32(1)))));
t7 = (T6f12(&(((T399*)(C))->a164), ((T399*)(C))->a346));
if (t7) {
t7 = ((((T399*)(C))->a342)==(EIF_VOID));
if (t7) {
((T399*)(C))->a347 = T1186c5();
((T399*)(C))->a346 = (T6)(GE_int32(10));
((T399*)(C))->a342 = (T1186f1(GE_void(((T399*)(C))->a347), ((T399*)(C))->a346));
} else {
((T399*)(C))->a346 = ((T6)((((T399*)(C))->a346)+((T6)(GE_int32(10)))));
((T399*)(C))->a342 = (T1186f2(GE_void(((T399*)(C))->a347), ((T399*)(C))->a342, ((T399*)(C))->a346));
}
}
T1186f6(GE_void(((T399*)(C))->a347), ((T399*)(C))->a342, l1, ((T399*)(C))->a164);
}
}
/* KL_SPECIAL_ROUTINES [ET_FORMAL_PARAMETER].resize */
T0* T1186f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1181*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1181f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* ET_EIFFEL_PARSER.register_constraint */
void T399f1988(T0* C, T0* a1)
{
T878f13(GE_void(((T399*)(C))->a15), a1);
}
/* DS_ARRAYED_LIST [ET_CONSTRAINT_TYPE].force_last */
void T878f13(T0* C, T0* a1)
{
T1 t1;
T6 t2;
t1 = (T878f7(C, (T6)(GE_int32(1))));
t1 = ((T1)(!(t1)));
if (t1) {
t2 = ((T6)((((T878*)(C))->a4)+((T6)(GE_int32(1)))));
t2 = (T878f8(C, t2));
T878f17(C, t2);
}
t1 = (((((((T878*)(C))->a4) == ((T6)(GE_int32(0)))))));
if (t1) {
T1196f4(GE_void(((T878*)(C))->a2), ((T878*)(C))->a1, a1, (T6)(GE_int32(0)));
}
((T878*)(C))->a4 = ((T6)((((T878*)(C))->a4)+((T6)(GE_int32(1)))));
T1196f4(GE_void(((T878*)(C))->a2), ((T878*)(C))->a1, a1, ((T878*)(C))->a4);
}
/* DS_ARRAYED_LIST [ET_CONSTRAINT_TYPE].resize */
void T878f17(T0* C, T6 a1)
{
T6 t1;
t1 = ((T6)((a1)+((T6)(GE_int32(1)))));
((T878*)(C))->a1 = (T1196f2(GE_void(((T878*)(C))->a2), ((T878*)(C))->a1, t1));
((T878*)(C))->a3 = a1;
}
/* DS_ARRAYED_LIST [ET_CONSTRAINT_TYPE].new_capacity */
T6 T878f8(T0* C, T6 a1)
{
T6 t1;
T6 R = 0;
t1 = ((T6)((a1)+((T6)(GE_int32(1)))));
t1 = ((T6)((t1)*((T6)(GE_int32(3)))));
R = ((T6)((t1)/((T6)(GE_int32(2)))));
return R;
}
/* DS_ARRAYED_LIST [ET_CONSTRAINT_TYPE].extendible */
T1 T878f7(T0* C, T6 a1)
{
T6 t1;
T1 R = 0;
t1 = ((T6)((((T878*)(C))->a4)+(a1)));
R = (T6f12(&(((T878*)(C))->a3), t1));
return R;
}
/* ET_AST_FACTORY.new_constrained_formal_parameter */
T0* T362f134(T0* C, T0* a1, T0* a2, T0* a3, T0* a4, T0* a5, T0* a6)
{
T1 t1;
T0* R = 0;
t1 = ((a2)!=(EIF_VOID));
if (t1) {
t1 = ((a4)!=(EIF_VOID));
}
if (t1) {
t1 = ((a6)!=(EIF_VOID));
}
if (t1) {
R = T1188c81(a2, a4, a5, a6);
t1 = ((a1)!=(EIF_VOID));
if (t1) {
T1188f82(GE_void(R), a1);
}
}
return R;
}
/* ET_CONSTRAINED_FORMAL_PARAMETER.set_type_mark */
void T1188f82(T0* C, T0* a1)
{
((T1188*)(C))->a4 = a1;
}
/* ET_CONSTRAINED_FORMAL_PARAMETER.make */
T0* T1188c81(T0* a1, T0* a2, T0* a3, T0* a4)
{
T0* C;
T0* t1;
C = GE_new1188(EIF_TRUE);
t1 = (T1188f11(C));
((T1188*)(C))->a1 = (T74f555(GE_void(t1)));
((T1188*)(C))->a2 = a2;
((T1188*)(C))->a3 = a3;
T1188f83(C, a1, a4);
return C;
}
/* ET_CONSTRAINED_FORMAL_PARAMETER.make_unconstrained */
void T1188f83(T0* C, T0* a1, T0* a2)
{
((T1188*)(C))->a5 = a1;
((T1188*)(C))->a6 = (T6)(GE_int32(1));
((T1188*)(C))->a7 = a2;
}
/* ET_TOKEN_CONSTANTS.arrow_symbol */
unsigned char ge808os10925 = '\0';
T0* ge808ov10925;
T0* T74f555(T0* C)
{
T0* R = 0;
if (ge808os10925) {
return ge808ov10925;
} else {
ge808os10925 = '\1';
ge808ov10925 = R;
}
R = T304c90();
ge808ov10925 = R;
return R;
}
/* ET_SYMBOL.make_arrow */
T0* T304c90(void)
{
T0* C;
T0* t1;
C = GE_new304(EIF_TRUE);
t1 = (T304f3(C));
((T304*)(C))->a1 = ((T2)('e'));
T304f75(C);
return C;
}
/* ET_CONSTRAINED_FORMAL_PARAMETER.tokens */
T0* T1188f11(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_EIFFEL_PARSER.dummy_constraint */
T0* T399f619(T0* C, T0* a1)
{
T1 t1;
T0* R = 0;
t1 = ((a1)!=(EIF_VOID));
if (t1) {
R = (T399f743(C));
}
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_78 */
void T399f1123(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T0* t5;
T0* t6;
T1 t7;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t5 = (((T1187*)(GE_void(((T399*)(C))->a348)))->z2[((T399*)(C))->a140]);
t5 = (T399f619(C, t5));
t6 = (((T1189*)(GE_void(((T399*)(C))->a349)))->z2[((T399*)(C))->a139]);
l1 = (T362f134(GE_void(t1), t2, t3, t4, t5, t6, ((T399*)(C))->a68));
t7 = ((l1)!=(EIF_VOID));
if (t7) {
t1 = (((T1187*)(GE_void(((T399*)(C))->a348)))->z2[((T399*)(C))->a140]);
T399f1988(C, t1);
}
t7 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t7) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(5)))));
((T399*)(C))->a164 = ((T6)((((T399*)(C))->a164)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)-((T6)(GE_int32(1)))));
((T399*)(C))->a139 = ((T6)((((T399*)(C))->a139)-((T6)(GE_int32(1)))));
t7 = (T6f12(&(((T399*)(C))->a164), ((T399*)(C))->a346));
if (t7) {
t7 = ((((T399*)(C))->a342)==(EIF_VOID));
if (t7) {
((T399*)(C))->a347 = T1186c5();
((T399*)(C))->a346 = (T6)(GE_int32(10));
((T399*)(C))->a342 = (T1186f1(GE_void(((T399*)(C))->a347), ((T399*)(C))->a346));
} else {
((T399*)(C))->a346 = ((T6)((((T399*)(C))->a346)+((T6)(GE_int32(10)))));
((T399*)(C))->a342 = (T1186f2(GE_void(((T399*)(C))->a347), ((T399*)(C))->a342, ((T399*)(C))->a346));
}
}
T1186f6(GE_void(((T399*)(C))->a347), ((T399*)(C))->a342, l1, ((T399*)(C))->a164);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_77 */
void T399f1122(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T0* t5;
T1 t6;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t4 = (((T1187*)(GE_void(((T399*)(C))->a348)))->z2[((T399*)(C))->a140]);
t4 = (T399f619(C, t4));
t5 = (((T1189*)(GE_void(((T399*)(C))->a349)))->z2[((T399*)(C))->a139]);
l1 = (T362f134(GE_void(t1), EIF_VOID, t2, t3, t4, t5, ((T399*)(C))->a68));
t6 = ((l1)!=(EIF_VOID));
if (t6) {
t1 = (((T1187*)(GE_void(((T399*)(C))->a348)))->z2[((T399*)(C))->a140]);
T399f1988(C, t1);
}
t6 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t6) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a164 = ((T6)((((T399*)(C))->a164)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)-((T6)(GE_int32(1)))));
((T399*)(C))->a139 = ((T6)((((T399*)(C))->a139)-((T6)(GE_int32(1)))));
t6 = (T6f12(&(((T399*)(C))->a164), ((T399*)(C))->a346));
if (t6) {
t6 = ((((T399*)(C))->a342)==(EIF_VOID));
if (t6) {
((T399*)(C))->a347 = T1186c5();
((T399*)(C))->a346 = (T6)(GE_int32(10));
((T399*)(C))->a342 = (T1186f1(GE_void(((T399*)(C))->a347), ((T399*)(C))->a346));
} else {
((T399*)(C))->a346 = ((T6)((((T399*)(C))->a346)+((T6)(GE_int32(10)))));
((T399*)(C))->a342 = (T1186f2(GE_void(((T399*)(C))->a347), ((T399*)(C))->a342, ((T399*)(C))->a346));
}
}
T1186f6(GE_void(((T399*)(C))->a347), ((T399*)(C))->a342, l1, ((T399*)(C))->a164);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_76 */
void T399f1121(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T0* t5;
T1 t6;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t5 = (((T1187*)(GE_void(((T399*)(C))->a348)))->z2[((T399*)(C))->a140]);
t5 = (T399f619(C, t5));
l1 = (T362f134(GE_void(t1), t2, t3, t4, t5, EIF_VOID, ((T399*)(C))->a68));
t6 = ((l1)!=(EIF_VOID));
if (t6) {
t1 = (((T1187*)(GE_void(((T399*)(C))->a348)))->z2[((T399*)(C))->a140]);
T399f1988(C, t1);
}
t6 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t6) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a164 = ((T6)((((T399*)(C))->a164)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)-((T6)(GE_int32(1)))));
t6 = (T6f12(&(((T399*)(C))->a164), ((T399*)(C))->a346));
if (t6) {
t6 = ((((T399*)(C))->a342)==(EIF_VOID));
if (t6) {
((T399*)(C))->a347 = T1186c5();
((T399*)(C))->a346 = (T6)(GE_int32(10));
((T399*)(C))->a342 = (T1186f1(GE_void(((T399*)(C))->a347), ((T399*)(C))->a346));
} else {
((T399*)(C))->a346 = ((T6)((((T399*)(C))->a346)+((T6)(GE_int32(10)))));
((T399*)(C))->a342 = (T1186f2(GE_void(((T399*)(C))->a347), ((T399*)(C))->a342, ((T399*)(C))->a346));
}
}
T1186f6(GE_void(((T399*)(C))->a347), ((T399*)(C))->a342, l1, ((T399*)(C))->a164);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_75 */
void T399f1120(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T0* t5;
T1 t6;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t5 = (((T1187*)(GE_void(((T399*)(C))->a348)))->z2[((T399*)(C))->a140]);
t5 = (T399f619(C, t5));
l1 = (T362f134(GE_void(t1), t2, t3, t4, t5, EIF_VOID, ((T399*)(C))->a68));
t6 = ((l1)!=(EIF_VOID));
if (t6) {
t1 = (((T1187*)(GE_void(((T399*)(C))->a348)))->z2[((T399*)(C))->a140]);
T399f1988(C, t1);
}
t6 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t6) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a164 = ((T6)((((T399*)(C))->a164)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)-((T6)(GE_int32(1)))));
t6 = (T6f12(&(((T399*)(C))->a164), ((T399*)(C))->a346));
if (t6) {
t6 = ((((T399*)(C))->a342)==(EIF_VOID));
if (t6) {
((T399*)(C))->a347 = T1186c5();
((T399*)(C))->a346 = (T6)(GE_int32(10));
((T399*)(C))->a342 = (T1186f1(GE_void(((T399*)(C))->a347), ((T399*)(C))->a346));
} else {
((T399*)(C))->a346 = ((T6)((((T399*)(C))->a346)+((T6)(GE_int32(10)))));
((T399*)(C))->a342 = (T1186f2(GE_void(((T399*)(C))->a347), ((T399*)(C))->a342, ((T399*)(C))->a346));
}
}
T1186f6(GE_void(((T399*)(C))->a347), ((T399*)(C))->a342, l1, ((T399*)(C))->a164);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_74 */
void T399f1119(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T1 t5;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t3 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t4 = (((T1187*)(GE_void(((T399*)(C))->a348)))->z2[((T399*)(C))->a140]);
t4 = (T399f619(C, t4));
l1 = (T362f134(GE_void(t1), EIF_VOID, t2, t3, t4, EIF_VOID, ((T399*)(C))->a68));
t5 = ((l1)!=(EIF_VOID));
if (t5) {
t1 = (((T1187*)(GE_void(((T399*)(C))->a348)))->z2[((T399*)(C))->a140]);
T399f1988(C, t1);
}
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a164 = ((T6)((((T399*)(C))->a164)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a140 = ((T6)((((T399*)(C))->a140)-((T6)(GE_int32(1)))));
t5 = (T6f12(&(((T399*)(C))->a164), ((T399*)(C))->a346));
if (t5) {
t5 = ((((T399*)(C))->a342)==(EIF_VOID));
if (t5) {
((T399*)(C))->a347 = T1186c5();
((T399*)(C))->a346 = (T6)(GE_int32(10));
((T399*)(C))->a342 = (T1186f1(GE_void(((T399*)(C))->a347), ((T399*)(C))->a346));
} else {
((T399*)(C))->a346 = ((T6)((((T399*)(C))->a346)+((T6)(GE_int32(10)))));
((T399*)(C))->a342 = (T1186f2(GE_void(((T399*)(C))->a347), ((T399*)(C))->a342, ((T399*)(C))->a346));
}
}
T1186f6(GE_void(((T399*)(C))->a347), ((T399*)(C))->a342, l1, ((T399*)(C))->a164);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_73 */
void T399f1118(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
l1 = (T362f133(GE_void(t1), t2, t3, ((T399*)(C))->a68));
t4 = ((l1)!=(EIF_VOID));
if (t4) {
T399f1988(C, EIF_VOID);
}
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a164 = ((T6)((((T399*)(C))->a164)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a164), ((T399*)(C))->a346));
if (t4) {
t4 = ((((T399*)(C))->a342)==(EIF_VOID));
if (t4) {
((T399*)(C))->a347 = T1186c5();
((T399*)(C))->a346 = (T6)(GE_int32(10));
((T399*)(C))->a342 = (T1186f1(GE_void(((T399*)(C))->a347), ((T399*)(C))->a346));
} else {
((T399*)(C))->a346 = ((T6)((((T399*)(C))->a346)+((T6)(GE_int32(10)))));
((T399*)(C))->a342 = (T1186f2(GE_void(((T399*)(C))->a347), ((T399*)(C))->a342, ((T399*)(C))->a346));
}
}
T1186f6(GE_void(((T399*)(C))->a347), ((T399*)(C))->a342, l1, ((T399*)(C))->a164);
}
}
/* ET_AST_FACTORY.new_formal_parameter */
T0* T362f133(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* R = 0;
t1 = ((a2)!=(EIF_VOID));
if (t1) {
t1 = ((a3)!=(EIF_VOID));
}
if (t1) {
R = T905c80(a2, a3);
t1 = ((a1)!=(EIF_VOID));
if (t1) {
T905f81(GE_void(R), a1);
}
}
return R;
}
/* ET_FORMAL_PARAMETER.set_type_mark */
void T905f81(T0* C, T0* a1)
{
((T905*)(C))->a4 = a1;
}
/* ET_FORMAL_PARAMETER.make */
T0* T905c80(T0* a1, T0* a2)
{
T0* C;
C = GE_new905(EIF_TRUE);
((T905*)(C))->a1 = a1;
((T905*)(C))->a2 = (T6)(GE_int32(1));
((T905*)(C))->a3 = a2;
return C;
}
/* ET_EIFFEL_PARSER.yy_do_action_72 */
void T399f1117(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
l1 = (T362f133(GE_void(t1), t2, t3, ((T399*)(C))->a68));
t4 = ((l1)!=(EIF_VOID));
if (t4) {
T399f1988(C, EIF_VOID);
}
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a164 = ((T6)((((T399*)(C))->a164)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a164), ((T399*)(C))->a346));
if (t4) {
t4 = ((((T399*)(C))->a342)==(EIF_VOID));
if (t4) {
((T399*)(C))->a347 = T1186c5();
((T399*)(C))->a346 = (T6)(GE_int32(10));
((T399*)(C))->a342 = (T1186f1(GE_void(((T399*)(C))->a347), ((T399*)(C))->a346));
} else {
((T399*)(C))->a346 = ((T6)((((T399*)(C))->a346)+((T6)(GE_int32(10)))));
((T399*)(C))->a342 = (T1186f2(GE_void(((T399*)(C))->a347), ((T399*)(C))->a342, ((T399*)(C))->a346));
}
}
T1186f6(GE_void(((T399*)(C))->a347), ((T399*)(C))->a342, l1, ((T399*)(C))->a164);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_71 */
void T399f1116(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
l1 = (T362f133(GE_void(t1), EIF_VOID, t2, ((T399*)(C))->a68));
t3 = ((l1)!=(EIF_VOID));
if (t3) {
T399f1988(C, EIF_VOID);
}
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a164 = ((T6)((((T399*)(C))->a164)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
t3 = (T6f12(&(((T399*)(C))->a164), ((T399*)(C))->a346));
if (t3) {
t3 = ((((T399*)(C))->a342)==(EIF_VOID));
if (t3) {
((T399*)(C))->a347 = T1186c5();
((T399*)(C))->a346 = (T6)(GE_int32(10));
((T399*)(C))->a342 = (T1186f1(GE_void(((T399*)(C))->a347), ((T399*)(C))->a346));
} else {
((T399*)(C))->a346 = ((T6)((((T399*)(C))->a346)+((T6)(GE_int32(10)))));
((T399*)(C))->a342 = (T1186f2(GE_void(((T399*)(C))->a347), ((T399*)(C))->a342, ((T399*)(C))->a346));
}
}
T1186f6(GE_void(((T399*)(C))->a347), ((T399*)(C))->a342, l1, ((T399*)(C))->a164);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_70 */
void T399f1115(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1181*)(GE_void(((T399*)(C))->a342)))->z2[((T399*)(C))->a164]);
t3 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
l1 = (T362f132(GE_void(t1), t2, t3));
t4 = ((l1)!=(EIF_VOID));
if (t4) {
T399f1984(C);
}
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a165 = ((T6)((((T399*)(C))->a165)+((T6)(GE_int32(1)))));
((T399*)(C))->a164 = ((T6)((((T399*)(C))->a164)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a165), ((T399*)(C))->a344));
if (t4) {
t4 = ((((T399*)(C))->a343)==(EIF_VOID));
if (t4) {
((T399*)(C))->a345 = T1184c3();
((T399*)(C))->a344 = (T6)(GE_int32(10));
((T399*)(C))->a343 = (T1184f1(GE_void(((T399*)(C))->a345), ((T399*)(C))->a344));
} else {
((T399*)(C))->a344 = ((T6)((((T399*)(C))->a344)+((T6)(GE_int32(10)))));
((T399*)(C))->a343 = (T1184f2(GE_void(((T399*)(C))->a345), ((T399*)(C))->a343, ((T399*)(C))->a344));
}
}
T1184f4(GE_void(((T399*)(C))->a345), ((T399*)(C))->a343, l1, ((T399*)(C))->a165);
}
}
/* KL_SPECIAL_ROUTINES [ET_FORMAL_PARAMETER_ITEM].force */
void T1184f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1183*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1183*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1183*)(GE_void(a1)))->a1);
T1183f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_FORMAL_PARAMETER_ITEM].fill_with */
void T1183f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1183*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1183*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1183f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_FORMAL_PARAMETER_ITEM].extend */
void T1183f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1183*)(C))->a1;
((T1183*)(C))->a1 = t1 + 1 ;
((T1183*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_FORMAL_PARAMETER_ITEM].resize */
T0* T1184f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1183*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1183f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_FORMAL_PARAMETER_ITEM].aliased_resized_area */
T0* T1183f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1183*)(C))->a2;
if (a1 > t1) {
R = GE_new1183(a1, EIF_FALSE);
*(T1183*)(R) = *(T1183*)(C);
memcpy(((T1183*)(R))->z2,((T1183*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1183*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1183*)(R))->a1;
if (t1 > a1) {
((T1183*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1183*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1183*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_FORMAL_PARAMETER_ITEM].make */
T0* T1184f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1667c4();
R = (((T1667*)(GE_void(l1)))->a1);
R = (T1183f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_FORMAL_PARAMETER_ITEM].make_empty */
T0* T1667c4(void)
{
T0* C;
C = GE_new1667(EIF_TRUE);
((T1667*)(C))->a2 = (T6)(GE_int32(1));
((T1667*)(C))->a3 = (T6)(GE_int32(0));
T1667f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_FORMAL_PARAMETER_ITEM].make_empty_area */
void T1667f5(T0* C, T6 a1)
{
((T1667*)(C))->a1 = T1183c6(a1);
}
/* SPECIAL [ET_FORMAL_PARAMETER_ITEM].make_empty */
T0* T1183c6(T6 a1)
{
T0* C;
C = GE_new1183(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_FORMAL_PARAMETER_ITEM].default_create */
T0* T1184c3(void)
{
T0* C;
C = GE_new1184(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_formal_parameter_comma */
T0* T362f132(T0* C, T0* a1, T0* a2)
{
T0* R = 0;
R = a1;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_69 */
void T399f1114(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1179*)(GE_void(((T399*)(C))->a340)))->z2[((T399*)(C))->a166]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t2 = (((T1183*)(GE_void(((T399*)(C))->a343)))->z2[((T399*)(C))->a165]);
t1 = ((t2)!=(EIF_VOID));
}
if (t1) {
t2 = (((T1183*)(GE_void(((T399*)(C))->a343)))->z2[((T399*)(C))->a165]);
T618f29(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a165 = ((T6)((((T399*)(C))->a165)-((T6)(GE_int32(1)))));
T1180f4(GE_void(((T399*)(C))->a341), ((T399*)(C))->a340, l1, ((T399*)(C))->a166);
}
}
/* KL_SPECIAL_ROUTINES [ET_FORMAL_PARAMETER_LIST].force */
void T1180f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1179*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1179*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1179*)(GE_void(a1)))->a1);
T1179f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_FORMAL_PARAMETER_LIST].fill_with */
void T1179f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1179*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1179*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1179f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_FORMAL_PARAMETER_LIST].extend */
void T1179f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1179*)(C))->a1;
((T1179*)(C))->a1 = t1 + 1 ;
((T1179*)(C))->z2[t1] = a1;
}
/* ET_FORMAL_PARAMETER_LIST.put_first */
void T618f29(T0* C, T0* a1)
{
T0* t1;
T6 t2;
T618f29p1(C, a1);
t1 = (((((T0*)(GE_void(a1)))->id==905)?T905f5(a1):T1188f9(a1)));
t2 = (T618f16(C));
t2 = ((T6)((t2)-(((T618*)(C))->a1)));
t2 = ((T6)((t2)+((T6)(GE_int32(1)))));
if (((T0*)(GE_void(t1)))->id==905) {
T905f83(t1, t2);
} else {
T1188f85(t1, t2);
}
}
/* ET_CONSTRAINED_FORMAL_PARAMETER.set_index */
void T1188f85(T0* C, T6 a1)
{
((T1188*)(C))->a6 = a1;
}
/* ET_FORMAL_PARAMETER.set_index */
void T905f83(T0* C, T6 a1)
{
((T905*)(C))->a2 = a1;
}
/* ET_FORMAL_PARAMETER_LIST.capacity */
T6 T618f16(T0* C)
{
T1 t1;
T6 R = 0;
t1 = ((((T618*)(C))->a2)!=(EIF_VOID));
if (t1) {
R = (((T1183*)(GE_void(((T618*)(C))->a2)))->a2);
}
return R;
}
/* ET_FORMAL_PARAMETER_LIST.put_first */
void T618f29p1(T0* C, T0* a1)
{
T0* t1;
t1 = (T618f15(C));
T1184f4(GE_void(t1), ((T618*)(C))->a2, a1, ((T618*)(C))->a1);
((T618*)(C))->a1 = ((T6)((((T618*)(C))->a1)+((T6)(GE_int32(1)))));
}
/* ET_FORMAL_PARAMETER_LIST.fixed_array */
unsigned char ge541os11824 = '\0';
T0* ge541ov11824;
T0* T618f15(T0* C)
{
T0* R = 0;
if (ge541os11824) {
return ge541ov11824;
} else {
ge541os11824 = '\1';
ge541ov11824 = R;
}
R = T1184c3();
ge541ov11824 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_68 */
void T399f1113(T0* C)
{
T0* t1;
T1 t2;
T0* t3;
T0* t4;
T6 t5;
T0* l1 = 0;
t1 = (((T1181*)(GE_void(((T399*)(C))->a342)))->z2[((T399*)(C))->a164]);
t2 = ((t1)!=(EIF_VOID));
if (t2) {
t1 = (T399f682(C));
t3 = (T399f612(C));
t4 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t5 = (T399f906(C));
t5 = ((T6)((t5)+((T6)(GE_int32(1)))));
l1 = (T362f131(GE_void(t1), t3, t4, t5));
t2 = ((l1)!=(EIF_VOID));
if (t2) {
t1 = (((T1181*)(GE_void(((T399*)(C))->a342)))->z2[((T399*)(C))->a164]);
T618f29(GE_void(l1), t1);
}
} else {
t1 = (T399f682(C));
t3 = (T399f612(C));
t4 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t5 = (T399f906(C));
l1 = (T362f131(GE_void(t1), t3, t4, t5));
}
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a166 = ((T6)((((T399*)(C))->a166)+((T6)(GE_int32(1)))));
((T399*)(C))->a164 = ((T6)((((T399*)(C))->a164)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a166), ((T399*)(C))->a339));
if (t2) {
t2 = ((((T399*)(C))->a340)==(EIF_VOID));
if (t2) {
((T399*)(C))->a341 = T1180c3();
((T399*)(C))->a339 = (T6)(GE_int32(10));
((T399*)(C))->a340 = (T1180f1(GE_void(((T399*)(C))->a341), ((T399*)(C))->a339));
} else {
((T399*)(C))->a339 = ((T6)((((T399*)(C))->a339)+((T6)(GE_int32(10)))));
((T399*)(C))->a340 = (T1180f2(GE_void(((T399*)(C))->a341), ((T399*)(C))->a340, ((T399*)(C))->a339));
}
}
T1180f4(GE_void(((T399*)(C))->a341), ((T399*)(C))->a340, l1, ((T399*)(C))->a166);
}
}
/* KL_SPECIAL_ROUTINES [ET_FORMAL_PARAMETER_LIST].resize */
T0* T1180f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1179*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1179f3(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_FORMAL_PARAMETER_LIST].aliased_resized_area */
T0* T1179f3(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1179*)(C))->a2;
if (a1 > t1) {
R = GE_new1179(a1, EIF_FALSE);
*(T1179*)(R) = *(T1179*)(C);
memcpy(((T1179*)(R))->z2,((T1179*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1179*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1179*)(R))->a1;
if (t1 > a1) {
((T1179*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1179*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1179*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_FORMAL_PARAMETER_LIST].make */
T0* T1180f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1666c4();
R = (((T1666*)(GE_void(l1)))->a1);
R = (T1179f3(GE_void(R), a1));
return R;
}
/* ARRAY [ET_FORMAL_PARAMETER_LIST].make_empty */
T0* T1666c4(void)
{
T0* C;
C = GE_new1666(EIF_TRUE);
((T1666*)(C))->a2 = (T6)(GE_int32(1));
((T1666*)(C))->a3 = (T6)(GE_int32(0));
T1666f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_FORMAL_PARAMETER_LIST].make_empty_area */
void T1666f5(T0* C, T6 a1)
{
((T1666*)(C))->a1 = T1179c6(a1);
}
/* SPECIAL [ET_FORMAL_PARAMETER_LIST].make_empty */
T0* T1179c6(T6 a1)
{
T0* C;
C = GE_new1179(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_FORMAL_PARAMETER_LIST].default_create */
T0* T1180c3(void)
{
T0* C;
C = GE_new1180(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_formal_parameters */
T0* T362f131(T0* C, T0* a1, T0* a2, T6 a3)
{
T1 t1;
T0* t2;
T1 t3;
T0* R = 0;
R = T618c24(a3);
t1 = ((a1)!=(EIF_VOID));
if (t1) {
t2 = (((((T0*)(GE_void(a1)))->id==304)?T304f4(a1):T622f4(a1)));
t3 = (((((T0*)(GE_void(t2)))->id==622)?T622f7(t2):T304f18(t2)));
t1 = ((T1)(!(t3)));
}
if (t1) {
T618f30(GE_void(R), a1);
}
return R;
}
/* ET_FORMAL_PARAMETER_LIST.set_left_bracket */
void T618f30(T0* C, T0* a1)
{
((T618*)(C))->a3 = a1;
}
/* ET_FORMAL_PARAMETER_LIST.make_with_capacity */
T0* T618c24(T6 a1)
{
T0* C;
T0* t1;
C = GE_new618(EIF_TRUE);
t1 = (T618f13(C));
((T618*)(C))->a3 = (T74f201(GE_void(t1)));
t1 = (T618f13(C));
((T618*)(C))->a4 = (T74f202(GE_void(t1)));
T618f24p1(C, a1);
return C;
}
/* ET_FORMAL_PARAMETER_LIST.make_with_capacity */
void T618f24p1(T0* C, T6 a1)
{
T1 t1;
T0* t2;
((T618*)(C))->a1 = (T6)(GE_int32(0));
t1 = (T6f1(&a1, (T6)(GE_int32(0))));
if (t1) {
t2 = (T618f15(C));
((T618*)(C))->a2 = (T1184f1(GE_void(t2), a1));
} else {
((T618*)(C))->a2 = EIF_VOID;
}
}
/* ET_FORMAL_PARAMETER_LIST.tokens */
T0* T618f13(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_67 */
void T399f1112(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (((T1125*)(GE_void(((T399*)(C))->a297)))->z2[((T399*)(C))->a109]);
T399f1987(C, t1);
T399f1983(C);
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a166 = ((T6)((((T399*)(C))->a166)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a166), ((T399*)(C))->a339));
if (t2) {
t2 = ((((T399*)(C))->a340)==(EIF_VOID));
if (t2) {
((T399*)(C))->a341 = T1180c3();
((T399*)(C))->a339 = (T6)(GE_int32(10));
((T399*)(C))->a340 = (T1180f1(GE_void(((T399*)(C))->a341), ((T399*)(C))->a339));
} else {
((T399*)(C))->a339 = ((T6)((((T399*)(C))->a339)+((T6)(GE_int32(10)))));
((T399*)(C))->a340 = (T1180f2(GE_void(((T399*)(C))->a341), ((T399*)(C))->a340, ((T399*)(C))->a339));
}
}
T1180f4(GE_void(((T399*)(C))->a341), ((T399*)(C))->a340, l1, ((T399*)(C))->a166);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_66 */
void T399f1111(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1179*)(GE_void(((T399*)(C))->a340)))->z2[((T399*)(C))->a166]);
T399f1985(C, l1);
T399f1986(C);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a166 = ((T6)((((T399*)(C))->a166)-((T6)(GE_int32(1)))));
((T399*)(C))->a109 = ((T6)((((T399*)(C))->a109)-((T6)(GE_int32(1)))));
T1180f4(GE_void(((T399*)(C))->a341), ((T399*)(C))->a340, l1, ((T399*)(C))->a166);
}
}
/* ET_EIFFEL_PARSER.set_formal_parameters */
void T399f1985(T0* C, T0* a1)
{
T1 t1;
T0* t2;
T0* l1 = 0;
T0* l2 = 0;
T0* l3 = 0;
T0* l4 = 0;
T6 l5 = 0;
T6 l6 = 0;
t1 = ((a1)!=(EIF_VOID));
if (t1) {
l1 = ((T399*)(C))->a68;
t1 = ((l1)!=(EIF_VOID));
if (t1) {
T75f250(GE_void(l1), a1);
l6 = (((T618*)(GE_void(a1)))->a1);
l5 = l6;
while (1) {
t1 = ((T1)((l5)<((T6)(GE_int32(1)))));
if (t1) {
break;
}
t2 = (T618f5(GE_void(a1), l5));
if ((t2)==EIF_VOID) {
l2 = EIF_VOID;
} else {
switch (((T0*)(t2))->id) {
case 1188:
l2 = t2;
break;
default:
l2 = EIF_VOID;
}
}
t1 = ((l2)!=(EIF_VOID));
if (t1) {
l3 = (T878f6(GE_void(((T399*)(C))->a15), l5));
t1 = ((l3)!=(EIF_VOID));
if (t1) {
l4 = (T1185x6927T0T0T0(GE_void(l3), a1, l1, C));
t1 = ((l4)!=(EIF_VOID));
if (t1) {
T1188f86(GE_void(l2), l4);
} else {
T618f25(GE_void(a1), l5);
}
} else {
T618f25(GE_void(a1), l5);
}
}
l5 = ((T6)((l5)-((T6)(GE_int32(1)))));
}
}
}
T878f12(GE_void(((T399*)(C))->a15));
}
/* DS_ARRAYED_LIST [ET_CONSTRAINT_TYPE].wipe_out */
void T878f12(T0* C)
{
T878f15(C);
T878f16(C, (T6)(GE_int32(1)), ((T878*)(C))->a4);
((T878*)(C))->a4 = (T6)(GE_int32(0));
}
/* DS_ARRAYED_LIST [ET_CONSTRAINT_TYPE].clear_items */
void T878f16(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
t1 = (((((a2) == ((T6)(GE_int32(0)))))));
if (t1) {
} else {
t1 = (((((a1) == ((T6)(GE_int32(1)))))));
if (t1) {
t2 = ((T6)((a2)+((T6)(GE_int32(1)))));
T1196f5(GE_void(((T878*)(C))->a2), ((T878*)(C))->a1, (T6)(GE_int32(0)), t2);
} else {
t2 = ((T6)((a2)+((T6)(GE_int32(1)))));
T1196f5(GE_void(((T878*)(C))->a2), ((T878*)(C))->a1, a1, t2);
}
}
}
/* KL_SPECIAL_ROUTINES [ET_CONSTRAINT_TYPE].keep_head */
void T1196f5(T0* C, T0* a1, T6 a2, T6 a3)
{
T1187f9(GE_void(a1), a2);
}
/* SPECIAL [ET_CONSTRAINT_TYPE].keep_head */
void T1187f9(T0* C, T6 a1)
{
T1187f11(C, a1);
}
/* SPECIAL [ET_CONSTRAINT_TYPE].set_count */
void T1187f11(T0* C, T6 a1)
{
T6 t1;
t1 = ((T1187*)(C))->a1;
((T1187*)(C))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1187*)(C))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
/* DS_ARRAYED_LIST [ET_CONSTRAINT_TYPE].move_all_cursors_after */
void T878f15(T0* C)
{
T1 t1;
T0* l1 = 0;
T0* l2 = 0;
l1 = ((T878*)(C))->a5;
while (1) {
t1 = ((l1)==(EIF_VOID));
if (t1) {
break;
}
T1502f5(GE_void(l1), (T6)(GE_int32(-1)));
l2 = (((T1502*)(GE_void(l1)))->a1);
T1502f6(GE_void(l1), EIF_VOID);
l1 = l2;
}
}
/* DS_ARRAYED_LIST_CURSOR [ET_CONSTRAINT_TYPE].set_next_cursor */
void T1502f6(T0* C, T0* a1)
{
((T1502*)(C))->a1 = a1;
}
/* DS_ARRAYED_LIST_CURSOR [ET_CONSTRAINT_TYPE].set_position */
void T1502f5(T0* C, T6 a1)
{
((T1502*)(C))->a3 = a1;
}
/* ET_FORMAL_PARAMETER_LIST.remove */
void T618f25(T0* C, T6 a1)
{
T1 t1;
T6 t2;
T0* t3;
T6 l1 = 0;
T6 l2 = 0;
l1 = ((T6)((((T618*)(C))->a1)-(a1)));
l2 = ((T6)((((T618*)(C))->a1)-((T6)(GE_int32(2)))));
while (1) {
t1 = (T6f1((&l1), l2));
if (t1) {
break;
}
t2 = ((T6)((l1)+((T6)(GE_int32(1)))));
t3 = (((T1183*)(GE_void(((T618*)(C))->a2)))->z2[t2]);
((T1183*)(GE_void(((T618*)(C))->a2)))->z2[l1] = (t3);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
t3 = (T618f15(C));
t2 = ((T6)((((T618*)(C))->a1)-((T6)(GE_int32(1)))));
T1184f5(GE_void(t3), ((T618*)(C))->a2, t2, ((T618*)(C))->a1);
((T618*)(C))->a1 = ((T6)((((T618*)(C))->a1)-((T6)(GE_int32(1)))));
}
/* KL_SPECIAL_ROUTINES [ET_FORMAL_PARAMETER_ITEM].keep_head */
void T1184f5(T0* C, T0* a1, T6 a2, T6 a3)
{
T1183f10(GE_void(a1), a2);
}
/* SPECIAL [ET_FORMAL_PARAMETER_ITEM].keep_head */
void T1183f10(T0* C, T6 a1)
{
T1183f11(C, a1);
}
/* SPECIAL [ET_FORMAL_PARAMETER_ITEM].set_count */
void T1183f11(T0* C, T6 a1)
{
T6 t1;
t1 = ((T1183*)(C))->a1;
((T1183*)(C))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1183*)(C))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
/* ET_CONSTRAINED_FORMAL_PARAMETER.set_constraint */
void T1188f86(T0* C, T0* a1)
{
((T1188*)(C))->a2 = a1;
}
/* DS_ARRAYED_LIST [ET_CONSTRAINT_TYPE].item */
T0* T878f6(T0* C, T6 a1)
{
T0* R = 0;
R = (((T1187*)(GE_void(((T878*)(C))->a1)))->z2[a1]);
return R;
}
/* ET_CLASS.set_formal_parameters */
void T75f250(T0* C, T0* a1)
{
((T75*)(C))->a22 = a1;
}
/* ET_EIFFEL_PARSER.yy_do_action_65 */
void T399f1110(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1125*)(GE_void(((T399*)(C))->a297)))->z2[((T399*)(C))->a109]);
t3 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
l1 = (T362f131(GE_void(t1), t2, t3, (T6)(GE_int32(0))));
T399f1985(C, l1);
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a166 = ((T6)((((T399*)(C))->a166)+((T6)(GE_int32(1)))));
((T399*)(C))->a109 = ((T6)((((T399*)(C))->a109)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a166), ((T399*)(C))->a339));
if (t4) {
t4 = ((((T399*)(C))->a340)==(EIF_VOID));
if (t4) {
((T399*)(C))->a341 = T1180c3();
((T399*)(C))->a339 = (T6)(GE_int32(10));
((T399*)(C))->a340 = (T1180f1(GE_void(((T399*)(C))->a341), ((T399*)(C))->a339));
} else {
((T399*)(C))->a339 = ((T6)((((T399*)(C))->a339)+((T6)(GE_int32(10)))));
((T399*)(C))->a340 = (T1180f2(GE_void(((T399*)(C))->a341), ((T399*)(C))->a340, ((T399*)(C))->a339));
}
}
T1180f4(GE_void(((T399*)(C))->a341), ((T399*)(C))->a340, l1, ((T399*)(C))->a166);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_64 */
void T399f1109(T0* C)
{
T1 t1;
T0* l1 = 0;
T399f1985(C, EIF_VOID);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a166 = ((T6)((((T399*)(C))->a166)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a166), ((T399*)(C))->a339));
if (t1) {
t1 = ((((T399*)(C))->a340)==(EIF_VOID));
if (t1) {
((T399*)(C))->a341 = T1180c3();
((T399*)(C))->a339 = (T6)(GE_int32(10));
((T399*)(C))->a340 = (T1180f1(GE_void(((T399*)(C))->a341), ((T399*)(C))->a339));
} else {
((T399*)(C))->a339 = ((T6)((((T399*)(C))->a339)+((T6)(GE_int32(10)))));
((T399*)(C))->a340 = (T1180f2(GE_void(((T399*)(C))->a341), ((T399*)(C))->a340, ((T399*)(C))->a339));
}
}
T1180f4(GE_void(((T399*)(C))->a341), ((T399*)(C))->a340, l1, ((T399*)(C))->a166);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_63 */
void T399f1108(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
T1072f4(GE_void(((T399*)(C))->a214), ((T399*)(C))->a213, l1, ((T399*)(C))->a88);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_62 */
void T399f1107(T0* C)
{
T1 t1;
T0* l1 = 0;
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a88), ((T399*)(C))->a212));
if (t1) {
t1 = ((((T399*)(C))->a213)==(EIF_VOID));
if (t1) {
((T399*)(C))->a214 = T1072c3();
((T399*)(C))->a212 = (T6)(GE_int32(10));
((T399*)(C))->a213 = (T1072f1(GE_void(((T399*)(C))->a214), ((T399*)(C))->a212));
} else {
((T399*)(C))->a212 = ((T6)((((T399*)(C))->a212)+((T6)(GE_int32(10)))));
((T399*)(C))->a213 = (T1072f2(GE_void(((T399*)(C))->a214), ((T399*)(C))->a213, ((T399*)(C))->a212));
}
}
T1072f4(GE_void(((T399*)(C))->a214), ((T399*)(C))->a213, l1, ((T399*)(C))->a88);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_61 */
void T399f1106(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
T1072f4(GE_void(((T399*)(C))->a214), ((T399*)(C))->a213, l1, ((T399*)(C))->a88);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_60 */
void T399f1105(T0* C)
{
T1 t1;
T0* l1 = 0;
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a88), ((T399*)(C))->a212));
if (t1) {
t1 = ((((T399*)(C))->a213)==(EIF_VOID));
if (t1) {
((T399*)(C))->a214 = T1072c3();
((T399*)(C))->a212 = (T6)(GE_int32(10));
((T399*)(C))->a213 = (T1072f1(GE_void(((T399*)(C))->a214), ((T399*)(C))->a212));
} else {
((T399*)(C))->a212 = ((T6)((((T399*)(C))->a212)+((T6)(GE_int32(10)))));
((T399*)(C))->a213 = (T1072f2(GE_void(((T399*)(C))->a214), ((T399*)(C))->a213, ((T399*)(C))->a212));
}
}
T1072f4(GE_void(((T399*)(C))->a214), ((T399*)(C))->a213, l1, ((T399*)(C))->a88);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_59 */
void T399f1104(T0* C)
{
T0* t1;
T1 t2;
T6 t3;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
l1 = (T399f607(C, t1));
t2 = ((l1)!=(EIF_VOID));
if (t2) {
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T75f246(GE_void(l1), t1);
t3 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(2)))));
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[t3]);
T75f253(GE_void(l1), t1);
t3 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(3)))));
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[t3]);
T75f247(GE_void(l1), t1);
t3 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[t3]);
T75f248(GE_void(l1), t1);
}
((T399*)(C))->a68 = l1;
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(5)))));
((T399*)(C))->a131 = ((T6)((((T399*)(C))->a131)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(4)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a131), ((T399*)(C))->a322));
if (t2) {
t2 = ((((T399*)(C))->a313)==(EIF_VOID));
if (t2) {
((T399*)(C))->a315 = T1150c5();
((T399*)(C))->a322 = (T6)(GE_int32(10));
((T399*)(C))->a313 = (T1150f1(GE_void(((T399*)(C))->a315), ((T399*)(C))->a322));
} else {
((T399*)(C))->a322 = ((T6)((((T399*)(C))->a322)+((T6)(GE_int32(10)))));
((T399*)(C))->a313 = (T1150f2(GE_void(((T399*)(C))->a315), ((T399*)(C))->a313, ((T399*)(C))->a322));
}
}
T1150f6(GE_void(((T399*)(C))->a315), ((T399*)(C))->a313, l1, ((T399*)(C))->a131);
}
}
/* ET_CLASS.set_external_keyword */
void T75f248(T0* C, T0* a1)
{
((T75*)(C))->a36 = a1;
}
/* ET_CLASS.set_frozen_keyword */
void T75f247(T0* C, T0* a1)
{
((T75*)(C))->a37 = a1;
}
/* ET_CLASS.set_class_mark */
void T75f253(T0* C, T0* a1)
{
((T75*)(C))->a24 = a1;
}
/* ET_CLASS.set_class_keyword */
void T75f246(T0* C, T0* a1)
{
((T75*)(C))->a17 = a1;
}
/* ET_EIFFEL_PARSER.new_class */
T0* T399f607(T0* C, T0* a1)
{
T1 t1;
T0* t2;
T1 t3;
T0* t4;
T6 t5;
T0* R = 0;
T0* l1 = 0;
T0* l2 = 0;
T0* l3 = 0;
T0* l4 = 0;
T0* l5 = 0;
t1 = ((a1)!=(EIF_VOID));
if (t1) {
t2 = (T399f909(C));
l4 = (T216x3152T0(GE_void(t2), a1));
t1 = (T432f25(GE_void(l4), ((T399*)(C))->a17));
if (t1) {
R = ((T399*)(C))->a17;
} else {
t2 = (T432f26(GE_void(l4)));
t1 = ((t2)!=(EIF_VOID));
if (t1) {
R = (T432f26(GE_void(l4)));
} else {
t2 = (T399f604(C));
R = (T74f1(GE_void(t2)));
}
}
t2 = (T399f901(C));
t1 = (T26x3010(GE_void(t2)));
t1 = ((T1)(!(t1)));
if (t1) {
t3 = (T75f55(GE_void(((T399*)(C))->a17)));
t1 = ((T1)(!(t3)));
}
if (t1) {
t1 = ((R)!=(((T399*)(C))->a17));
}
if (t1) {
T399f987(C, ((T399*)(C))->a17);
t2 = (T399f895(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f227(t2, ((T399*)(C))->a17, a1);
} else {
T29f226(t2, ((T399*)(C))->a17, a1);
}
T399f1001(C);
} else {
t2 = (T399f901(C));
t1 = (T26x3008(GE_void(t2)));
if (t1) {
t1 = (T75f55(GE_void(((T399*)(C))->a17)));
}
if (t1) {
t2 = (T399f904(C));
t2 = (((((T0*)(GE_void(t2)))->id==81)?T81f2(t2, ((T399*)(C))->a20):T82f2(t2, ((T399*)(C))->a20)));
t2 = (((((T0*)(GE_void(t2)))->id==17)?T17f26(t2):T835f12(t2)));
t4 = (T143f43(GE_void(a1)));
t4 = (((((T0*)(GE_void(t4)))->id==17)?T17f9(t4, GE_ms8(".e", 2)):T835f15(t4, GE_ms8(".e", 2))));
t3 = (((((T0*)(GE_void(t2)))->id==17)?T17f8(t2, t4):T835f19(t2, t4)));
t1 = ((T1)(!(t3)));
}
if (t1) {
t2 = (T399f904(C));
t2 = (((((T0*)(GE_void(t2)))->id==81)?T81f2(t2, ((T399*)(C))->a20):T82f2(t2, ((T399*)(C))->a20)));
l2 = (((((T0*)(GE_void(t2)))->id==17)?T17f26(t2):T835f12(t2)));
t1 = (((((T0*)(GE_void(l2)))->id==17)?T17f30(l2, GE_ms8(".e", 2)):T835f20(l2, GE_ms8(".e", 2))));
if (t1) {
t5 = (((((T0*)(GE_void(l2)))->id==17)?((T17*)(l2))->a2:((T835*)(l2))->a1));
t5 = ((T6)((t5)-((T6)(GE_int32(2)))));
l2 = (((((T0*)(GE_void(l2)))->id==17)?T17f25(l2, (T6)(GE_int32(1)), t5):T835f11(l2, (T6)(GE_int32(1)), t5)));
}
l3 = T143c104(l2);
l5 = T75c218(l3);
T75f226(GE_void(l5), ((T399*)(C))->a20);
T75f207(GE_void(l5), ((T399*)(C))->a21);
T399f987(C, l5);
t2 = (T399f895(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f227(t2, l5, a1);
} else {
T29f226(t2, l5, a1);
}
T399f1001(C);
} else {
t1 = (T75f55(GE_void(R)));
t1 = ((T1)(!(t1)));
if (t1) {
t3 = ((R)==(((T399*)(C))->a17));
if (!(t3)) {
t3 = (T75f102(GE_void(R)));
if (t3) {
t2 = (((T75*)(GE_void(R)))->a1);
t3 = ((t2)==(((T399*)(C))->a21));
if (t3) {
t2 = (T399f904(C));
t4 = (((T75*)(GE_void(R)))->a33);
t1 = (((((T0*)(GE_void(t2)))->id==81)?T81f30(t2, t4, ((T399*)(C))->a20):T82f27(t2, t4, ((T399*)(C))->a20)));
} else {
t1 = EIF_FALSE;
}
} else {
t1 = EIF_FALSE;
}
} else {
t1 = EIF_TRUE;
}
}
if (t1) {
t1 = (((T75*)(GE_void(R)))->a2);
if (t1) {
t2 = (T432f18(GE_void(l4)));
t1 = ((R)==(t2));
if (t1) {
T432f66(GE_void(l4), EIF_TRUE);
}
T75f231(GE_void(R));
}
T75f254(GE_void(R), a1);
T75f207(GE_void(R), ((T399*)(C))->a21);
} else {
R = T75c218(a1);
t2 = (T399f901(C));
T26x2969T0(GE_void(t2), R);
T75f207(GE_void(R), ((T399*)(C))->a21);
T432f78(GE_void(l4), R);
}
T75f226(GE_void(R), ((T399*)(C))->a20);
T75f208(GE_void(R));
T75f227(GE_void(R), ((T399*)(C))->a54);
T75f255(GE_void(R), EIF_TRUE);
l1 = ((T399*)(C))->a17;
((T399*)(C))->a17 = R;
t2 = (T399f895(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f193(t2, C, ((T399*)(C))->a17);
} else {
T29f192(t2, C, ((T399*)(C))->a17);
}
((T399*)(C))->a17 = l1;
T336f20(GE_void(((T399*)(C))->a13));
T334f20(GE_void(((T399*)(C))->a14));
}
}
}
return R;
}
/* ET_CLASS.set_in_system */
void T75f255(T0* C, T1 a1)
{
T75f223(C, a1);
}
/* ET_CLASS.set_time_stamp */
void T75f227(T0* C, T6 a1)
{
((T75*)(C))->a20 = a1;
}
/* ET_MASTER_CLASS.add_last_local_class */
void T432f78(T0* C, T0* a1)
{
T1 t1;
t1 = (((T75*)(GE_void(a1)))->a26);
if (t1) {
T432f79(C, a1);
} else {
t1 = (T75f74(GE_void(a1)));
if (t1) {
T432f80(C, a1);
} else {
T432f81(C, a1);
}
}
}
/* ET_MASTER_CLASS.add_last_local_non_override_class */
void T432f81(T0* C, T0* a1)
{
T1 t1;
T0* t2;
t1 = ((((T432*)(C))->a17)==(EIF_VOID));
if (t1) {
((T432*)(C))->a17 = a1;
} else {
t2 = (T432f19(C));
t2 = (T74f223(GE_void(t2)));
t1 = ((((T432*)(C))->a8)==(t2));
if (t1) {
((T432*)(C))->a8 = T918c19((T6)(GE_int32(2)));
}
T918f39(GE_void(((T432*)(C))->a8), a1);
}
T432f56(C);
}
/* DS_ARRAYED_LIST [ET_CLASS].force_last */
void T918f39(T0* C, T0* a1)
{
T1 t1;
T6 t2;
t1 = (T918f9(C, (T6)(GE_int32(1))));
t1 = ((T1)(!(t1)));
if (t1) {
t2 = ((T6)((((T918*)(C))->a1)+((T6)(GE_int32(1)))));
t2 = (T918f10(C, t2));
T918f28(C, t2);
}
t1 = (((((((T918*)(C))->a1) == ((T6)(GE_int32(0)))))));
if (t1) {
T1150f6(GE_void(((T918*)(C))->a3), ((T918*)(C))->a2, a1, (T6)(GE_int32(0)));
}
((T918*)(C))->a1 = ((T6)((((T918*)(C))->a1)+((T6)(GE_int32(1)))));
T1150f6(GE_void(((T918*)(C))->a3), ((T918*)(C))->a2, a1, ((T918*)(C))->a1);
}
/* ET_MASTER_CLASS.add_last_local_override_class */
void T432f80(T0* C, T0* a1)
{
T1 t1;
T0* t2;
t1 = ((((T432*)(C))->a16)==(EIF_VOID));
if (t1) {
((T432*)(C))->a16 = a1;
} else {
t2 = (T432f19(C));
t2 = (T74f223(GE_void(t2)));
t1 = ((((T432*)(C))->a7)==(t2));
if (t1) {
((T432*)(C))->a7 = T918c19((T6)(GE_int32(2)));
}
T918f39(GE_void(((T432*)(C))->a7), a1);
}
T432f56(C);
}
/* ET_MASTER_CLASS.add_last_local_ignored_class */
void T432f79(T0* C, T0* a1)
{
T1 t1;
T0* t2;
t1 = ((((T432*)(C))->a15)==(EIF_VOID));
if (t1) {
((T432*)(C))->a15 = a1;
} else {
t2 = (T432f19(C));
t2 = (T74f223(GE_void(t2)));
t1 = ((((T432*)(C))->a9)==(t2));
if (t1) {
((T432*)(C))->a9 = T918c19((T6)(GE_int32(2)));
}
T918f39(GE_void(((T432*)(C))->a9), a1);
}
}
/* ET_CLASS.set_name */
void T75f254(T0* C, T0* a1)
{
((T75*)(C))->a12 = a1;
}
/* ET_CLASS.reset */
void T75f231(T0* C)
{
T75f241(C);
T75f242(C);
T75f243(C);
T75f244(C);
T75f232(C);
T75f245(C);
((T75*)(C))->a27 = (T6)(GE_int32(0));
((T75*)(C))->a30 = EIF_FALSE;
}
/* ET_CLASS.reset_preparsed */
void T75f245(T0* C)
{
T0* t1;
((T75*)(C))->a33 = EIF_VOID;
t1 = (T75f53(C));
((T75*)(C))->a1 = (T74f2(GE_void(t1)));
((T75*)(C))->a20 = (T6)(GE_int32(-2));
((T75*)(C))->a35 = EIF_FALSE;
}
/* ET_CLASS.reset_parsed */
void T75f232(T0* C)
{
T0* t1;
((T75*)(C))->a3 = EIF_FALSE;
((T75*)(C))->a2 = EIF_FALSE;
t1 = (T75f53(C));
((T75*)(C))->a17 = (T74f65(GE_void(t1)));
t1 = (T75f53(C));
((T75*)(C))->a18 = (T74f66(GE_void(t1)));
((T75*)(C))->a36 = EIF_VOID;
((T75*)(C))->a37 = EIF_VOID;
((T75*)(C))->a24 = EIF_VOID;
((T75*)(C))->a29 = EIF_VOID;
((T75*)(C))->a38 = EIF_VOID;
((T75*)(C))->a39 = EIF_VOID;
((T75*)(C))->a40 = EIF_VOID;
((T75*)(C))->a41 = EIF_VOID;
((T75*)(C))->a22 = EIF_VOID;
((T75*)(C))->a32 = EIF_VOID;
((T75*)(C))->a42 = EIF_VOID;
((T75*)(C))->a28 = EIF_VOID;
t1 = (T75f53(C));
((T75*)(C))->a15 = (T74f63(GE_void(t1)));
t1 = (T75f53(C));
((T75*)(C))->a16 = (T74f64(GE_void(t1)));
((T75*)(C))->a43 = EIF_VOID;
((T75*)(C))->a34 = EIF_VOID;
}
/* ET_CLASS.reset_ancestors_built */
void T75f244(T0* C)
{
T0* t1;
((T75*)(C))->a5 = EIF_FALSE;
((T75*)(C))->a4 = EIF_FALSE;
t1 = (T75f53(C));
((T75*)(C))->a14 = (T74f62(GE_void(t1)));
}
/* ET_CLASS.reset_features_flattened */
void T75f243(T0* C)
{
((T75*)(C))->a7 = EIF_FALSE;
((T75*)(C))->a6 = EIF_FALSE;
((T75*)(C))->a23 = EIF_FALSE;
((T75*)(C))->a25 = EIF_FALSE;
}
/* ET_CLASS.reset_interface_checked */
void T75f242(T0* C)
{
((T75*)(C))->a9 = EIF_FALSE;
((T75*)(C))->a8 = EIF_FALSE;
}
/* ET_CLASS.reset_implementation_checked */
void T75f241(T0* C)
{
((T75*)(C))->a11 = EIF_FALSE;
((T75*)(C))->a10 = EIF_FALSE;
((T75*)(C))->a31 = EIF_VOID;
}
/* ET_MASTER_CLASS.set_modified */
void T432f66(T0* C, T1 a1)
{
((T432*)(C))->a12 = a1;
}
/* KL_UNIX_FILE_SYSTEM.same_pathnames */
T1 T82f27(T0* C, T0* a1, T0* a2)
{
T1 R = 0;
T0* l1 = 0;
T0* l2 = 0;
l1 = (T82f19(C, a1));
l2 = (T82f19(C, a2));
R = (T499f14(GE_void(l1), l2));
return R;
}
/* KL_PATHNAME.same_pathname */
T1 T499f14(T0* C, T0* a1)
{
T1 t1;
T6 t2;
T1 R = 0;
t1 = ((a1)==(C));
if (t1) {
R = EIF_TRUE;
} else {
t2 = (((T499*)(GE_void(a1)))->a1);
t1 = (((((((T499*)(C))->a1) == (t2)))));
if (t1) {
R = (T499f16(C, a1));
}
}
return R;
}
/* KL_PATHNAME.is_subpathname */
T1 T499f16(T0* C, T0* a1)
{
T1 t1;
T6 t2;
T1 t3;
T0* t4;
T0* t5;
T0* t6;
T1 R = 0;
T6 l1 = 0;
T6 l2 = 0;
t1 = ((a1)==(C));
if (t1) {
R = EIF_TRUE;
} else {
l2 = ((T499*)(C))->a1;
t2 = (((T499*)(GE_void(a1)))->a1);
t1 = (T6f13((&l2), t2));
if (t1) {
t3 = (((T499*)(GE_void(a1)))->a5);
t1 = (((((((T499*)(C))->a5) == (t3)))));
}
if (t1) {
t4 = (T499f19(C));
t5 = (((T499*)(GE_void(a1)))->a2);
t1 = (T50f1(GE_void(t4), ((T499*)(C))->a2, t5));
}
if (t1) {
t4 = (T499f19(C));
t5 = (((T499*)(GE_void(a1)))->a3);
t1 = (T50f1(GE_void(t4), ((T499*)(C))->a3, t5));
}
if (t1) {
t4 = (T499f19(C));
t5 = (((T499*)(GE_void(a1)))->a4);
t1 = (T50f1(GE_void(t4), ((T499*)(C))->a4, t5));
}
if (t1) {
R = EIF_TRUE;
l1 = (T6)(GE_int32(1));
while (1) {
t1 = (T6f1((&l1), l2));
if (t1) {
break;
}
t4 = (T499f18(C));
t5 = (T499f8(C, l1));
t6 = (T499f8(GE_void(a1), l1));
t1 = (T27f1(GE_void(t4), t5, t6));
t1 = ((T1)(!(t1)));
if (t1) {
R = EIF_FALSE;
l1 = ((T6)((l2)+((T6)(GE_int32(1)))));
}
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
}
return R;
}
/* KL_PATHNAME.string_ */
T0* T499f18(T0* C)
{
T0* R = 0;
if (ge233os1922) {
return ge233ov1922;
} else {
ge233os1922 = '\1';
ge233ov1922 = R;
}
R = T27c19();
ge233ov1922 = R;
return R;
}
/* KL_PATHNAME.string_equality_tester */
T0* T499f19(T0* C)
{
T0* R = 0;
if (ge326os1923) {
return ge326ov1923;
} else {
ge326os1923 = '\1';
ge326ov1923 = R;
}
R = T50c3();
ge326ov1923 = R;
return R;
}
/* KL_WINDOWS_FILE_SYSTEM.same_pathnames */
T1 T81f30(T0* C, T0* a1, T0* a2)
{
T1 R = 0;
T0* l1 = 0;
T0* l2 = 0;
l1 = (T81f20(C, a1));
l2 = (T81f20(C, a2));
R = (T499f13(GE_void(l1), l2));
return R;
}
/* KL_PATHNAME.same_case_insensitive */
T1 T499f13(T0* C, T0* a1)
{
T1 t1;
T6 t2;
T1 R = 0;
t1 = ((a1)==(C));
if (t1) {
R = EIF_TRUE;
} else {
t2 = (((T499*)(GE_void(a1)))->a1);
t1 = (((((((T499*)(C))->a1) == (t2)))));
if (t1) {
R = (T499f15(C, a1));
}
}
return R;
}
/* KL_PATHNAME.is_case_insensitive_subpathname */
T1 T499f15(T0* C, T0* a1)
{
T1 t1;
T6 t2;
T1 t3;
T0* t4;
T0* t5;
T0* t6;
T1 R = 0;
T6 l1 = 0;
T6 l2 = 0;
t1 = ((a1)==(C));
if (t1) {
R = EIF_TRUE;
} else {
l2 = ((T499*)(C))->a1;
t2 = (((T499*)(GE_void(a1)))->a1);
t1 = (T6f13((&l2), t2));
if (t1) {
t3 = (((T499*)(GE_void(a1)))->a5);
t1 = (((((((T499*)(C))->a5) == (t3)))));
}
if (t1) {
t4 = (T499f17(C));
t5 = (((T499*)(GE_void(a1)))->a2);
t1 = (T145f1(GE_void(t4), ((T499*)(C))->a2, t5));
}
if (t1) {
t4 = (T499f17(C));
t5 = (((T499*)(GE_void(a1)))->a3);
t1 = (T145f1(GE_void(t4), ((T499*)(C))->a3, t5));
}
if (t1) {
t4 = (T499f17(C));
t5 = (((T499*)(GE_void(a1)))->a4);
t1 = (T145f1(GE_void(t4), ((T499*)(C))->a4, t5));
}
if (t1) {
R = EIF_TRUE;
l1 = (T6)(GE_int32(1));
while (1) {
t1 = (T6f1((&l1), l2));
if (t1) {
break;
}
t4 = (T499f18(C));
t5 = (T499f8(C, l1));
t6 = (T499f8(GE_void(a1), l1));
t1 = (T27f11(GE_void(t4), t5, t6));
t1 = ((T1)(!(t1)));
if (t1) {
R = EIF_FALSE;
l1 = ((T6)((l2)+((T6)(GE_int32(1)))));
}
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
}
return R;
}
/* KL_PATHNAME.case_insensitive_string_equality_tester */
T0* T499f17(T0* C)
{
T0* R = 0;
if (ge235os4106) {
return ge235ov4106;
} else {
ge235os4106 = '\1';
ge235ov4106 = R;
}
R = T145c3();
ge235ov4106 = R;
return R;
}
/* ET_EIFFEL_PARSER.file_system */
T0* T399f904(T0* C)
{
T0* t1;
T1 t2;
T0* R = 0;
if (ge269os1918) {
return ge269ov1918;
} else {
ge269os1918 = '\1';
ge269ov1918 = R;
}
t1 = (T399f930(C));
t2 = (T77f1(GE_void(t1)));
if (t2) {
R = (T399f931(C));
ge269ov1918 = R;
} else {
t1 = (T399f930(C));
t2 = (T77f2(GE_void(t1)));
if (t2) {
R = (T399f932(C));
ge269ov1918 = R;
} else {
R = (T399f932(C));
ge269ov1918 = R;
}
}
return R;
}
/* ET_EIFFEL_PARSER.unix_file_system */
T0* T399f932(T0* C)
{
T0* R = 0;
if (ge269os1921) {
return ge269ov1921;
} else {
ge269os1921 = '\1';
ge269ov1921 = R;
}
R = T82c31();
ge269ov1921 = R;
return R;
}
/* ET_EIFFEL_PARSER.windows_file_system */
T0* T399f931(T0* C)
{
T0* R = 0;
if (ge269os1919) {
return ge269ov1919;
} else {
ge269os1919 = '\1';
ge269ov1919 = R;
}
R = T81c34();
ge269ov1919 = R;
return R;
}
/* ET_EIFFEL_PARSER.operating_system */
T0* T399f930(T0* C)
{
T0* R = 0;
if (ge311os1917) {
return ge311ov1917;
} else {
ge311os1917 = '\1';
ge311ov1917 = R;
}
R = T77c6();
ge311ov1917 = R;
return R;
}
/* ET_ERROR_HANDLER.report_gvscn1a_error */
void T29f226(T0* C, T0* a1, T0* a2)
{
T1 t1;
T0* l1 = 0;
t1 = (T29f31(C, a1));
if (t1) {
l1 = T495c726(a1, a2);
T29f184(C, l1);
}
}
/* ET_VALIDITY_ERROR.make_gvscn1a */
T0* T495c726(T0* a1, T0* a2)
{
T0* C;
T0* t1;
T6 t2;
C = GE_new495(EIF_TRUE);
((T495*)(C))->a5 = a1;
((T495*)(C))->a6 = a1;
((T495*)(C))->a7 = (T143f22(GE_void(a2)));
((T495*)(C))->a8 = (T495f15(C, ge1014ov27384));
((T495*)(C))->a9 = ge1014ov27108;
((T495*)(C))->a3 = (T495f19(C, ge1014ov26956));
((T495*)(C))->a4 = T101c11(ge178ov4496, (T6)(GE_int32(1)), (T6)(GE_int32(9)));
T101f12(GE_void(((T495*)(C))->a4), ((T495*)(C))->a9, (T6)(GE_int32(1)));
t1 = (T495f21(C));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(2)));
t2 = (T148x11747(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(3)));
t2 = (T148x11748(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(4)));
t1 = (T75f49(GE_void(((T495*)(C))->a5)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(5)));
t1 = (T75f49(GE_void(((T495*)(C))->a6)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(6)));
t1 = (((T75*)(GE_void(a1)))->a1);
t1 = (T354x14781T2(GE_void(t1), (T2)('/')));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(7)));
t1 = (((T75*)(GE_void(a1)))->a33);
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(8)));
t1 = (T143f7(GE_void(a2)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(9)));
T495f713(C, EIF_TRUE);
return C;
}
/* ET_NULL_ERROR_HANDLER.report_gvscn1a_error */
void T70f227(T0* C, T0* a1, T0* a2)
{
T1 t1;
T0* l1 = 0;
t1 = (T70f32(C, a1));
if (t1) {
l1 = T495c726(a1, a2);
T70f184(C, l1);
}
}
/* ET_MASTER_CLASS.first_local_class */
T0* T432f26(T0* C)
{
T1 t1;
T0* R = 0;
R = ((T432*)(C))->a16;
t1 = ((R)==(EIF_VOID));
if (t1) {
R = ((T432*)(C))->a17;
}
t1 = ((R)==(EIF_VOID));
if (t1) {
R = ((T432*)(C))->a15;
}
return R;
}
/* ET_MASTER_CLASS.has_local_class */
T1 T432f25(T0* C, T0* a1)
{
T1 t1;
T1 R = 0;
t1 = (T432f30(C, a1));
if (!(t1)) {
t1 = (T432f31(C, a1));
}
if (!(t1)) {
R = (T432f32(C, a1));
} else {
R = EIF_TRUE;
}
return R;
}
/* ET_MASTER_CLASS.has_local_ignored_class */
T1 T432f32(T0* C, T0* a1)
{
T1 t1;
T1 R = 0;
t1 = ((((T432*)(C))->a15)==(a1));
if (t1) {
R = EIF_TRUE;
} else {
t1 = ((((T432*)(C))->a9)!=(EIF_VOID));
if (t1) {
R = (T918f14(GE_void(((T432*)(C))->a9), a1));
}
}
return R;
}
/* DS_ARRAYED_LIST [ET_CLASS].has */
T1 T918f14(T0* C, T0* a1)
{
T1 t1;
T0* t2;
T1 R = 0;
T6 l1 = 0;
T0* l2 = 0;
l1 = ((T918*)(C))->a1;
l2 = ((T918*)(C))->a5;
t1 = (EIF_FALSE);
if (t1) {
while (1) {
t1 = ((T1)((l1)<((T6)(GE_int32(1)))));
if (t1) {
break;
}
t2 = (((T1147*)(GE_void(((T918*)(C))->a2)))->z2[l1]);
t1 = ((GE_void(l2), t2, a1, (T1)0));
if (t1) {
R = EIF_TRUE;
l1 = (T6)(GE_int32(0));
} else {
l1 = ((T6)((l1)-((T6)(GE_int32(1)))));
}
}
} else {
while (1) {
t1 = ((T1)((l1)<((T6)(GE_int32(1)))));
if (t1) {
break;
}
t2 = (((T1147*)(GE_void(((T918*)(C))->a2)))->z2[l1]);
t1 = ((t2)==(a1));
if (t1) {
R = EIF_TRUE;
l1 = (T6)(GE_int32(0));
} else {
l1 = ((T6)((l1)-((T6)(GE_int32(1)))));
}
}
}
return R;
}
/* ET_MASTER_CLASS.has_local_non_override_class */
T1 T432f31(T0* C, T0* a1)
{
T1 t1;
T1 R = 0;
t1 = ((((T432*)(C))->a17)==(a1));
if (t1) {
R = EIF_TRUE;
} else {
t1 = ((((T432*)(C))->a8)!=(EIF_VOID));
if (t1) {
R = (T918f14(GE_void(((T432*)(C))->a8), a1));
}
}
return R;
}
/* ET_MASTER_CLASS.has_local_override_class */
T1 T432f30(T0* C, T0* a1)
{
T1 t1;
T1 R = 0;
t1 = ((((T432*)(C))->a16)==(a1));
if (t1) {
R = EIF_TRUE;
} else {
t1 = ((((T432*)(C))->a7)!=(EIF_VOID));
if (t1) {
R = (T918f14(GE_void(((T432*)(C))->a7), a1));
}
}
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_58 */
void T399f1103(T0* C)
{
T0* t1;
T1 t2;
T6 t3;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
l1 = (T399f607(C, t1));
t2 = ((l1)!=(EIF_VOID));
if (t2) {
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T75f246(GE_void(l1), t1);
t3 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(2)))));
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[t3]);
T75f253(GE_void(l1), t1);
t3 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(3)))));
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[t3]);
T75f247(GE_void(l1), t1);
t3 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[t3]);
T75f248(GE_void(l1), t1);
}
((T399*)(C))->a68 = l1;
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(5)))));
((T399*)(C))->a131 = ((T6)((((T399*)(C))->a131)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(4)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a131), ((T399*)(C))->a322));
if (t2) {
t2 = ((((T399*)(C))->a313)==(EIF_VOID));
if (t2) {
((T399*)(C))->a315 = T1150c5();
((T399*)(C))->a322 = (T6)(GE_int32(10));
((T399*)(C))->a313 = (T1150f1(GE_void(((T399*)(C))->a315), ((T399*)(C))->a322));
} else {
((T399*)(C))->a322 = ((T6)((((T399*)(C))->a322)+((T6)(GE_int32(10)))));
((T399*)(C))->a313 = (T1150f2(GE_void(((T399*)(C))->a315), ((T399*)(C))->a313, ((T399*)(C))->a322));
}
}
T1150f6(GE_void(((T399*)(C))->a315), ((T399*)(C))->a313, l1, ((T399*)(C))->a131);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_57 */
void T399f1102(T0* C)
{
T0* t1;
T1 t2;
T6 t3;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
l1 = (T399f607(C, t1));
t2 = ((l1)!=(EIF_VOID));
if (t2) {
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T75f246(GE_void(l1), t1);
t3 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(2)))));
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[t3]);
T75f253(GE_void(l1), t1);
t3 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(3)))));
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[t3]);
T75f247(GE_void(l1), t1);
t3 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[t3]);
T75f248(GE_void(l1), t1);
}
((T399*)(C))->a68 = l1;
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(5)))));
((T399*)(C))->a131 = ((T6)((((T399*)(C))->a131)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(4)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a131), ((T399*)(C))->a322));
if (t2) {
t2 = ((((T399*)(C))->a313)==(EIF_VOID));
if (t2) {
((T399*)(C))->a315 = T1150c5();
((T399*)(C))->a322 = (T6)(GE_int32(10));
((T399*)(C))->a313 = (T1150f1(GE_void(((T399*)(C))->a315), ((T399*)(C))->a322));
} else {
((T399*)(C))->a322 = ((T6)((((T399*)(C))->a322)+((T6)(GE_int32(10)))));
((T399*)(C))->a313 = (T1150f2(GE_void(((T399*)(C))->a315), ((T399*)(C))->a313, ((T399*)(C))->a322));
}
}
T1150f6(GE_void(((T399*)(C))->a315), ((T399*)(C))->a313, l1, ((T399*)(C))->a131);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_56 */
void T399f1101(T0* C)
{
T0* t1;
T1 t2;
T6 t3;
T0* l1 = 0;
t1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
l1 = (T399f607(C, t1));
t2 = ((l1)!=(EIF_VOID));
if (t2) {
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T75f246(GE_void(l1), t1);
t3 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(2)))));
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[t3]);
T75f247(GE_void(l1), t1);
t3 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[t3]);
T75f248(GE_void(l1), t1);
}
((T399*)(C))->a68 = l1;
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(4)))));
((T399*)(C))->a131 = ((T6)((((T399*)(C))->a131)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(3)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a131), ((T399*)(C))->a322));
if (t2) {
t2 = ((((T399*)(C))->a313)==(EIF_VOID));
if (t2) {
((T399*)(C))->a315 = T1150c5();
((T399*)(C))->a322 = (T6)(GE_int32(10));
((T399*)(C))->a313 = (T1150f1(GE_void(((T399*)(C))->a315), ((T399*)(C))->a322));
} else {
((T399*)(C))->a322 = ((T6)((((T399*)(C))->a322)+((T6)(GE_int32(10)))));
((T399*)(C))->a313 = (T1150f2(GE_void(((T399*)(C))->a315), ((T399*)(C))->a313, ((T399*)(C))->a322));
}
}
T1150f6(GE_void(((T399*)(C))->a315), ((T399*)(C))->a313, l1, ((T399*)(C))->a131);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_55 */
void T399f1100(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1170*)(GE_void(((T399*)(C))->a329)))->z2[((T399*)(C))->a170]);
t3 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
l1 = (T362f130(GE_void(t1), t2, t3));
t4 = ((l1)!=(EIF_VOID));
if (t4) {
T399f1984(C);
}
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a171 = ((T6)((((T399*)(C))->a171)+((T6)(GE_int32(1)))));
((T399*)(C))->a170 = ((T6)((((T399*)(C))->a170)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a171), ((T399*)(C))->a337));
if (t4) {
t4 = ((((T399*)(C))->a332)==(EIF_VOID));
if (t4) {
((T399*)(C))->a338 = T1178c3();
((T399*)(C))->a337 = (T6)(GE_int32(10));
((T399*)(C))->a332 = (T1178f1(GE_void(((T399*)(C))->a338), ((T399*)(C))->a337));
} else {
((T399*)(C))->a337 = ((T6)((((T399*)(C))->a337)+((T6)(GE_int32(10)))));
((T399*)(C))->a332 = (T1178f2(GE_void(((T399*)(C))->a338), ((T399*)(C))->a332, ((T399*)(C))->a337));
}
}
T1178f4(GE_void(((T399*)(C))->a338), ((T399*)(C))->a332, l1, ((T399*)(C))->a171);
}
}
/* KL_SPECIAL_ROUTINES [ET_INDEXING_TERM_ITEM].force */
void T1178f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1173*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1173*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1173*)(GE_void(a1)))->a1);
T1173f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_INDEXING_TERM_ITEM].fill_with */
void T1173f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1173*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1173*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1173f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_INDEXING_TERM_ITEM].extend */
void T1173f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1173*)(C))->a1;
((T1173*)(C))->a1 = t1 + 1 ;
((T1173*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_INDEXING_TERM_ITEM].resize */
T0* T1178f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1173*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1173f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_INDEXING_TERM_ITEM].aliased_resized_area */
T0* T1173f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1173*)(C))->a2;
if (a1 > t1) {
R = GE_new1173(a1, EIF_FALSE);
*(T1173*)(R) = *(T1173*)(C);
memcpy(((T1173*)(R))->z2,((T1173*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1173*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1173*)(R))->a1;
if (t1 > a1) {
((T1173*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1173*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1173*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_INDEXING_TERM_ITEM].make */
T0* T1178f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1665c4();
R = (((T1665*)(GE_void(l1)))->a1);
R = (T1173f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_INDEXING_TERM_ITEM].make_empty */
T0* T1665c4(void)
{
T0* C;
C = GE_new1665(EIF_TRUE);
((T1665*)(C))->a2 = (T6)(GE_int32(1));
((T1665*)(C))->a3 = (T6)(GE_int32(0));
T1665f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_INDEXING_TERM_ITEM].make_empty_area */
void T1665f5(T0* C, T6 a1)
{
((T1665*)(C))->a1 = T1173c6(a1);
}
/* SPECIAL [ET_INDEXING_TERM_ITEM].make_empty */
T0* T1173c6(T6 a1)
{
T0* C;
C = GE_new1173(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_INDEXING_TERM_ITEM].default_create */
T0* T1178c3(void)
{
T0* C;
C = GE_new1178(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_indexing_term_comma */
T0* T362f130(T0* C, T0* a1, T0* a2)
{
T0* R = 0;
R = a1;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_54 */
void T399f1099(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T1 t5;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1175*)(GE_void(((T399*)(C))->a335)))->z2[((T399*)(C))->a144]);
t3 = (((T1177*)(GE_void(((T399*)(C))->a336)))->z2[((T399*)(C))->a186]);
t4 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
l1 = (T362f129(GE_void(t1), t2, t3, t4));
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a170 = ((T6)((((T399*)(C))->a170)+((T6)(GE_int32(1)))));
((T399*)(C))->a144 = ((T6)((((T399*)(C))->a144)-((T6)(GE_int32(1)))));
((T399*)(C))->a186 = ((T6)((((T399*)(C))->a186)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t5 = (T6f12(&(((T399*)(C))->a170), ((T399*)(C))->a333));
if (t5) {
t5 = ((((T399*)(C))->a329)==(EIF_VOID));
if (t5) {
((T399*)(C))->a334 = T1174c3();
((T399*)(C))->a333 = (T6)(GE_int32(10));
((T399*)(C))->a329 = (T1174f1(GE_void(((T399*)(C))->a334), ((T399*)(C))->a333));
} else {
((T399*)(C))->a333 = ((T6)((((T399*)(C))->a333)+((T6)(GE_int32(10)))));
((T399*)(C))->a329 = (T1174f2(GE_void(((T399*)(C))->a334), ((T399*)(C))->a329, ((T399*)(C))->a333));
}
}
T1174f4(GE_void(((T399*)(C))->a334), ((T399*)(C))->a329, l1, ((T399*)(C))->a170);
}
}
/* KL_SPECIAL_ROUTINES [ET_INDEXING_TERM].force */
void T1174f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1170*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1170*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1170*)(GE_void(a1)))->a1);
T1170f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_INDEXING_TERM].fill_with */
void T1170f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1170*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1170*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1170f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_INDEXING_TERM].extend */
void T1170f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1170*)(C))->a1;
((T1170*)(C))->a1 = t1 + 1 ;
((T1170*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_INDEXING_TERM].resize */
T0* T1174f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1170*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1170f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_INDEXING_TERM].aliased_resized_area */
T0* T1170f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1170*)(C))->a2;
if (a1 > t1) {
R = GE_new1170(a1, EIF_FALSE);
*(T1170*)(R) = *(T1170*)(C);
memcpy(((T1170*)(R))->z2,((T1170*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1170*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1170*)(R))->a1;
if (t1 > a1) {
((T1170*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1170*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1170*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_INDEXING_TERM].make */
T0* T1174f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1664c4();
R = (((T1664*)(GE_void(l1)))->a1);
R = (T1170f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_INDEXING_TERM].make_empty */
T0* T1664c4(void)
{
T0* C;
C = GE_new1664(EIF_TRUE);
((T1664*)(C))->a2 = (T6)(GE_int32(1));
((T1664*)(C))->a3 = (T6)(GE_int32(0));
T1664f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_INDEXING_TERM].make_empty_area */
void T1664f5(T0* C, T6 a1)
{
((T1664*)(C))->a1 = T1170c6(a1);
}
/* SPECIAL [ET_INDEXING_TERM].make_empty */
T0* T1170c6(T6 a1)
{
T0* C;
C = GE_new1170(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_INDEXING_TERM].default_create */
T0* T1174c3(void)
{
T0* C;
C = GE_new1174(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_custom_attribute */
T0* T362f129(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* R = 0;
t1 = ((a1)!=(EIF_VOID));
if (t1) {
R = T1176c5(a1, a2);
}
return R;
}
/* ET_CUSTOM_ATTRIBUTE.make */
T0* T1176c5(T0* a1, T0* a2)
{
T0* C;
T0* t1;
C = GE_new1176(EIF_TRUE);
((T1176*)(C))->a1 = a1;
((T1176*)(C))->a2 = a2;
t1 = (T1176f4(C));
((T1176*)(C))->a3 = (T74f66(GE_void(t1)));
return C;
}
/* ET_CUSTOM_ATTRIBUTE.tokens */
T0* T1176f4(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_53 */
void T399f1098(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1175*)(GE_void(((T399*)(C))->a335)))->z2[((T399*)(C))->a144]);
t3 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
l1 = (T362f129(GE_void(t1), t2, EIF_VOID, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a170 = ((T6)((((T399*)(C))->a170)+((T6)(GE_int32(1)))));
((T399*)(C))->a144 = ((T6)((((T399*)(C))->a144)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t4 = (T6f12(&(((T399*)(C))->a170), ((T399*)(C))->a333));
if (t4) {
t4 = ((((T399*)(C))->a329)==(EIF_VOID));
if (t4) {
((T399*)(C))->a334 = T1174c3();
((T399*)(C))->a333 = (T6)(GE_int32(10));
((T399*)(C))->a329 = (T1174f1(GE_void(((T399*)(C))->a334), ((T399*)(C))->a333));
} else {
((T399*)(C))->a333 = ((T6)((((T399*)(C))->a333)+((T6)(GE_int32(10)))));
((T399*)(C))->a329 = (T1174f2(GE_void(((T399*)(C))->a334), ((T399*)(C))->a329, ((T399*)(C))->a333));
}
}
T1174f4(GE_void(((T399*)(C))->a334), ((T399*)(C))->a329, l1, ((T399*)(C))->a170);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_52 */
void T399f1097(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1084*)(GE_void(((T399*)(C))->a233)))->z2[((T399*)(C))->a93]);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a170 = ((T6)((((T399*)(C))->a170)+((T6)(GE_int32(1)))));
((T399*)(C))->a93 = ((T6)((((T399*)(C))->a93)-((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a170), ((T399*)(C))->a333));
if (t1) {
t1 = ((((T399*)(C))->a329)==(EIF_VOID));
if (t1) {
((T399*)(C))->a334 = T1174c3();
((T399*)(C))->a333 = (T6)(GE_int32(10));
((T399*)(C))->a329 = (T1174f1(GE_void(((T399*)(C))->a334), ((T399*)(C))->a333));
} else {
((T399*)(C))->a333 = ((T6)((((T399*)(C))->a333)+((T6)(GE_int32(10)))));
((T399*)(C))->a329 = (T1174f2(GE_void(((T399*)(C))->a334), ((T399*)(C))->a329, ((T399*)(C))->a333));
}
}
T1174f4(GE_void(((T399*)(C))->a334), ((T399*)(C))->a329, l1, ((T399*)(C))->a170);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_51 */
void T399f1096(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1106*)(GE_void(((T399*)(C))->a269)))->z2[((T399*)(C))->a102]);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a170 = ((T6)((((T399*)(C))->a170)+((T6)(GE_int32(1)))));
((T399*)(C))->a102 = ((T6)((((T399*)(C))->a102)-((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a170), ((T399*)(C))->a333));
if (t1) {
t1 = ((((T399*)(C))->a329)==(EIF_VOID));
if (t1) {
((T399*)(C))->a334 = T1174c3();
((T399*)(C))->a333 = (T6)(GE_int32(10));
((T399*)(C))->a329 = (T1174f1(GE_void(((T399*)(C))->a334), ((T399*)(C))->a333));
} else {
((T399*)(C))->a333 = ((T6)((((T399*)(C))->a333)+((T6)(GE_int32(10)))));
((T399*)(C))->a329 = (T1174f2(GE_void(((T399*)(C))->a334), ((T399*)(C))->a329, ((T399*)(C))->a333));
}
}
T1174f4(GE_void(((T399*)(C))->a334), ((T399*)(C))->a329, l1, ((T399*)(C))->a170);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_50 */
void T399f1095(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1109*)(GE_void(((T399*)(C))->a273)))->z2[((T399*)(C))->a103]);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a170 = ((T6)((((T399*)(C))->a170)+((T6)(GE_int32(1)))));
((T399*)(C))->a103 = ((T6)((((T399*)(C))->a103)-((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a170), ((T399*)(C))->a333));
if (t1) {
t1 = ((((T399*)(C))->a329)==(EIF_VOID));
if (t1) {
((T399*)(C))->a334 = T1174c3();
((T399*)(C))->a333 = (T6)(GE_int32(10));
((T399*)(C))->a329 = (T1174f1(GE_void(((T399*)(C))->a334), ((T399*)(C))->a333));
} else {
((T399*)(C))->a333 = ((T6)((((T399*)(C))->a333)+((T6)(GE_int32(10)))));
((T399*)(C))->a329 = (T1174f2(GE_void(((T399*)(C))->a334), ((T399*)(C))->a329, ((T399*)(C))->a333));
}
}
T1174f4(GE_void(((T399*)(C))->a334), ((T399*)(C))->a329, l1, ((T399*)(C))->a170);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_49 */
void T399f1094(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1101*)(GE_void(((T399*)(C))->a261)))->z2[((T399*)(C))->a100]);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a170 = ((T6)((((T399*)(C))->a170)+((T6)(GE_int32(1)))));
((T399*)(C))->a100 = ((T6)((((T399*)(C))->a100)-((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a170), ((T399*)(C))->a333));
if (t1) {
t1 = ((((T399*)(C))->a329)==(EIF_VOID));
if (t1) {
((T399*)(C))->a334 = T1174c3();
((T399*)(C))->a333 = (T6)(GE_int32(10));
((T399*)(C))->a329 = (T1174f1(GE_void(((T399*)(C))->a334), ((T399*)(C))->a333));
} else {
((T399*)(C))->a333 = ((T6)((((T399*)(C))->a333)+((T6)(GE_int32(10)))));
((T399*)(C))->a329 = (T1174f2(GE_void(((T399*)(C))->a334), ((T399*)(C))->a329, ((T399*)(C))->a333));
}
}
T1174f4(GE_void(((T399*)(C))->a334), ((T399*)(C))->a329, l1, ((T399*)(C))->a170);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_48 */
void T399f1093(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1093*)(GE_void(((T399*)(C))->a245)))->z2[((T399*)(C))->a96]);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a170 = ((T6)((((T399*)(C))->a170)+((T6)(GE_int32(1)))));
((T399*)(C))->a96 = ((T6)((((T399*)(C))->a96)-((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a170), ((T399*)(C))->a333));
if (t1) {
t1 = ((((T399*)(C))->a329)==(EIF_VOID));
if (t1) {
((T399*)(C))->a334 = T1174c3();
((T399*)(C))->a333 = (T6)(GE_int32(10));
((T399*)(C))->a329 = (T1174f1(GE_void(((T399*)(C))->a334), ((T399*)(C))->a333));
} else {
((T399*)(C))->a333 = ((T6)((((T399*)(C))->a333)+((T6)(GE_int32(10)))));
((T399*)(C))->a329 = (T1174f2(GE_void(((T399*)(C))->a334), ((T399*)(C))->a329, ((T399*)(C))->a333));
}
}
T1174f4(GE_void(((T399*)(C))->a334), ((T399*)(C))->a329, l1, ((T399*)(C))->a170);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_47 */
void T399f1092(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1087*)(GE_void(((T399*)(C))->a237)))->z2[((T399*)(C))->a94]);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a170 = ((T6)((((T399*)(C))->a170)+((T6)(GE_int32(1)))));
((T399*)(C))->a94 = ((T6)((((T399*)(C))->a94)-((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a170), ((T399*)(C))->a333));
if (t1) {
t1 = ((((T399*)(C))->a329)==(EIF_VOID));
if (t1) {
((T399*)(C))->a334 = T1174c3();
((T399*)(C))->a333 = (T6)(GE_int32(10));
((T399*)(C))->a329 = (T1174f1(GE_void(((T399*)(C))->a334), ((T399*)(C))->a333));
} else {
((T399*)(C))->a333 = ((T6)((((T399*)(C))->a333)+((T6)(GE_int32(10)))));
((T399*)(C))->a329 = (T1174f2(GE_void(((T399*)(C))->a334), ((T399*)(C))->a329, ((T399*)(C))->a333));
}
}
T1174f4(GE_void(((T399*)(C))->a334), ((T399*)(C))->a329, l1, ((T399*)(C))->a170);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_46 */
void T399f1091(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a170 = ((T6)((((T399*)(C))->a170)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a170), ((T399*)(C))->a333));
if (t1) {
t1 = ((((T399*)(C))->a329)==(EIF_VOID));
if (t1) {
((T399*)(C))->a334 = T1174c3();
((T399*)(C))->a333 = (T6)(GE_int32(10));
((T399*)(C))->a329 = (T1174f1(GE_void(((T399*)(C))->a334), ((T399*)(C))->a333));
} else {
((T399*)(C))->a333 = ((T6)((((T399*)(C))->a333)+((T6)(GE_int32(10)))));
((T399*)(C))->a329 = (T1174f2(GE_void(((T399*)(C))->a334), ((T399*)(C))->a329, ((T399*)(C))->a333));
}
}
T1174f4(GE_void(((T399*)(C))->a334), ((T399*)(C))->a329, l1, ((T399*)(C))->a170);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_45 */
void T399f1090(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1166*)(GE_void(((T399*)(C))->a327)))->z2[((T399*)(C))->a172]);
t1 = (EIF_FALSE);
if (t1) {
t2 = (((T1173*)(GE_void(((T399*)(C))->a332)))->z2[((T399*)(C))->a171]);
t1 = ((t2)!=(EIF_VOID));
}
if (t1) {
t2 = (((T1173*)(GE_void(((T399*)(C))->a332)))->z2[((T399*)(C))->a171]);
(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a171 = ((T6)((((T399*)(C))->a171)-((T6)(GE_int32(1)))));
T1171f4(GE_void(((T399*)(C))->a331), ((T399*)(C))->a327, l1, ((T399*)(C))->a172);
}
}
/* KL_SPECIAL_ROUTINES [ET_INDEXING_TERM_LIST].force */
void T1171f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1166*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1166*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1166*)(GE_void(a1)))->a1);
T1166f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_INDEXING_TERM_LIST].fill_with */
void T1166f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1166*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1166*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1166f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_INDEXING_TERM_LIST].extend */
void T1166f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1166*)(C))->a1;
((T1166*)(C))->a1 = t1 + 1 ;
((T1166*)(C))->z2[t1] = a1;
}
/* ET_EIFFEL_PARSER.yy_do_action_44 */
void T399f1089(T0* C)
{
T0* t1;
T1 t2;
T6 t3;
T0* l1 = 0;
t1 = (((T1170*)(GE_void(((T399*)(C))->a329)))->z2[((T399*)(C))->a170]);
t2 = ((t1)!=(EIF_VOID));
if (t2) {
t1 = (T399f682(C));
t3 = (T399f906(C));
t3 = ((T6)((t3)+((T6)(GE_int32(1)))));
l1 = (T362f128(GE_void(t1), t3));
t2 = (EIF_FALSE);
if (t2) {
t1 = (((T1170*)(GE_void(((T399*)(C))->a329)))->z2[((T399*)(C))->a170]);
(GE_void(l1), t1);
}
} else {
t1 = (T399f682(C));
t3 = (T399f906(C));
l1 = (T362f128(GE_void(t1), t3));
}
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a172 = ((T6)((((T399*)(C))->a172)+((T6)(GE_int32(1)))));
((T399*)(C))->a170 = ((T6)((((T399*)(C))->a170)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a172), ((T399*)(C))->a330));
if (t2) {
t2 = ((((T399*)(C))->a327)==(EIF_VOID));
if (t2) {
((T399*)(C))->a331 = T1171c3();
((T399*)(C))->a330 = (T6)(GE_int32(10));
((T399*)(C))->a327 = (T1171f1(GE_void(((T399*)(C))->a331), ((T399*)(C))->a330));
} else {
((T399*)(C))->a330 = ((T6)((((T399*)(C))->a330)+((T6)(GE_int32(10)))));
((T399*)(C))->a327 = (T1171f2(GE_void(((T399*)(C))->a331), ((T399*)(C))->a327, ((T399*)(C))->a330));
}
}
T1171f4(GE_void(((T399*)(C))->a331), ((T399*)(C))->a327, l1, ((T399*)(C))->a172);
}
}
/* KL_SPECIAL_ROUTINES [ET_INDEXING_TERM_LIST].resize */
T0* T1171f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1166*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1166f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_INDEXING_TERM_LIST].aliased_resized_area */
T0* T1166f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1166*)(C))->a2;
if (a1 > t1) {
R = GE_new1166(a1, EIF_FALSE);
*(T1166*)(R) = *(T1166*)(C);
memcpy(((T1166*)(R))->z2,((T1166*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1166*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1166*)(R))->a1;
if (t1 > a1) {
((T1166*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1166*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1166*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_INDEXING_TERM_LIST].make */
T0* T1171f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1663c4();
R = (((T1663*)(GE_void(l1)))->a1);
R = (T1166f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_INDEXING_TERM_LIST].make_empty */
T0* T1663c4(void)
{
T0* C;
C = GE_new1663(EIF_TRUE);
((T1663*)(C))->a2 = (T6)(GE_int32(1));
((T1663*)(C))->a3 = (T6)(GE_int32(0));
T1663f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_INDEXING_TERM_LIST].make_empty_area */
void T1663f5(T0* C, T6 a1)
{
((T1663*)(C))->a1 = T1166c6(a1);
}
/* SPECIAL [ET_INDEXING_TERM_LIST].make_empty */
T0* T1166c6(T6 a1)
{
T0* C;
C = GE_new1166(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_INDEXING_TERM_LIST].default_create */
T0* T1171c3(void)
{
T0* C;
C = GE_new1171(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_indexing_terms */
T0* T362f128(T0* C, T6 a1)
{
T0* R = 0;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_43 */
void T399f1088(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1162*)(GE_void(((T399*)(C))->a325)))->z2[((T399*)(C))->a169]);
t3 = (((T1123*)(GE_void(((T399*)(C))->a293)))->z2[((T399*)(C))->a108]);
l1 = (T362f126(GE_void(t1), t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a108 = ((T6)((((T399*)(C))->a108)-((T6)(GE_int32(1)))));
T1163f4(GE_void(((T399*)(C))->a326), ((T399*)(C))->a325, l1, ((T399*)(C))->a169);
}
}
/* KL_SPECIAL_ROUTINES [ET_INDEXING_ITEM].force */
void T1163f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1162*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1162*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1162*)(GE_void(a1)))->a1);
T1162f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_INDEXING_ITEM].fill_with */
void T1162f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1162*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1162*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1162f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_INDEXING_ITEM].extend */
void T1162f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1162*)(C))->a1;
((T1162*)(C))->a1 = t1 + 1 ;
((T1162*)(C))->z2[t1] = a1;
}
/* ET_AST_FACTORY.new_indexing_semicolon */
T0* T362f126(T0* C, T0* a1, T0* a2)
{
T0* R = 0;
R = a1;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_42 */
void T399f1087(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1162*)(GE_void(((T399*)(C))->a325)))->z2[((T399*)(C))->a169]);
t3 = (((T1123*)(GE_void(((T399*)(C))->a293)))->z2[((T399*)(C))->a108]);
l1 = (T362f126(GE_void(t1), t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a108 = ((T6)((((T399*)(C))->a108)-((T6)(GE_int32(1)))));
T1163f4(GE_void(((T399*)(C))->a326), ((T399*)(C))->a325, l1, ((T399*)(C))->a169);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_41 */
void T399f1086(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T1 t5;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (T399f682(C));
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t2 = (T362f124(GE_void(t2), t3, t4));
t3 = (((T1166*)(GE_void(((T399*)(C))->a327)))->z2[((T399*)(C))->a172]);
l1 = (T362f125(GE_void(t1), t2, t3));
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a169 = ((T6)((((T399*)(C))->a169)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a172 = ((T6)((((T399*)(C))->a172)-((T6)(GE_int32(1)))));
t5 = (T6f12(&(((T399*)(C))->a169), ((T399*)(C))->a328));
if (t5) {
t5 = ((((T399*)(C))->a325)==(EIF_VOID));
if (t5) {
((T399*)(C))->a326 = T1163c3();
((T399*)(C))->a328 = (T6)(GE_int32(10));
((T399*)(C))->a325 = (T1163f1(GE_void(((T399*)(C))->a326), ((T399*)(C))->a328));
} else {
((T399*)(C))->a328 = ((T6)((((T399*)(C))->a328)+((T6)(GE_int32(10)))));
((T399*)(C))->a325 = (T1163f2(GE_void(((T399*)(C))->a326), ((T399*)(C))->a325, ((T399*)(C))->a328));
}
}
T1163f4(GE_void(((T399*)(C))->a326), ((T399*)(C))->a325, l1, ((T399*)(C))->a169);
}
}
/* KL_SPECIAL_ROUTINES [ET_INDEXING_ITEM].resize */
T0* T1163f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1162*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1162f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_INDEXING_ITEM].aliased_resized_area */
T0* T1162f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1162*)(C))->a2;
if (a1 > t1) {
R = GE_new1162(a1, EIF_FALSE);
*(T1162*)(R) = *(T1162*)(C);
memcpy(((T1162*)(R))->z2,((T1162*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1162*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1162*)(R))->a1;
if (t1 > a1) {
((T1162*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1162*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1162*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_INDEXING_ITEM].make */
T0* T1163f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1662c4();
R = (((T1662*)(GE_void(l1)))->a1);
R = (T1162f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_INDEXING_ITEM].make_empty */
T0* T1662c4(void)
{
T0* C;
C = GE_new1662(EIF_TRUE);
((T1662*)(C))->a2 = (T6)(GE_int32(1));
((T1662*)(C))->a3 = (T6)(GE_int32(0));
T1662f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_INDEXING_ITEM].make_empty_area */
void T1662f5(T0* C, T6 a1)
{
((T1662*)(C))->a1 = T1162c6(a1);
}
/* SPECIAL [ET_INDEXING_ITEM].make_empty */
T0* T1162c6(T6 a1)
{
T0* C;
C = GE_new1162(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_INDEXING_ITEM].default_create */
T0* T1163c3(void)
{
T0* C;
C = GE_new1163(EIF_TRUE);
return C;
}
/* ET_AST_FACTORY.new_tagged_indexing */
T0* T362f125(T0* C, T0* a1, T0* a2)
{
T0* R = 0;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_40 */
void T399f1085(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1166*)(GE_void(((T399*)(C))->a327)))->z2[((T399*)(C))->a172]);
l1 = (T362f127(GE_void(t1), t2));
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a169 = ((T6)((((T399*)(C))->a169)+((T6)(GE_int32(1)))));
((T399*)(C))->a172 = ((T6)((((T399*)(C))->a172)-((T6)(GE_int32(1)))));
t3 = (T6f12(&(((T399*)(C))->a169), ((T399*)(C))->a328));
if (t3) {
t3 = ((((T399*)(C))->a325)==(EIF_VOID));
if (t3) {
((T399*)(C))->a326 = T1163c3();
((T399*)(C))->a328 = (T6)(GE_int32(10));
((T399*)(C))->a325 = (T1163f1(GE_void(((T399*)(C))->a326), ((T399*)(C))->a328));
} else {
((T399*)(C))->a328 = ((T6)((((T399*)(C))->a328)+((T6)(GE_int32(10)))));
((T399*)(C))->a325 = (T1163f2(GE_void(((T399*)(C))->a326), ((T399*)(C))->a325, ((T399*)(C))->a328));
}
}
T1163f4(GE_void(((T399*)(C))->a326), ((T399*)(C))->a325, l1, ((T399*)(C))->a169);
}
}
/* ET_AST_FACTORY.new_indexing */
T0* T362f127(T0* C, T0* a1)
{
T0* R = 0;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_39 */
void T399f1084(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1162*)(GE_void(((T399*)(C))->a325)))->z2[((T399*)(C))->a169]);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(1)))));
T1163f4(GE_void(((T399*)(C))->a326), ((T399*)(C))->a325, l1, ((T399*)(C))->a169);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_38 */
void T399f1083(T0* C)
{
T1 t1;
T0* l1 = 0;
T399f1984(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a168), ((T399*)(C))->a323));
if (t1) {
t1 = ((((T399*)(C))->a314)==(EIF_VOID));
if (t1) {
((T399*)(C))->a324 = T1160c3();
((T399*)(C))->a323 = (T6)(GE_int32(10));
((T399*)(C))->a314 = (T1160f1(GE_void(((T399*)(C))->a324), ((T399*)(C))->a323));
} else {
((T399*)(C))->a323 = ((T6)((((T399*)(C))->a323)+((T6)(GE_int32(10)))));
((T399*)(C))->a314 = (T1160f2(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, ((T399*)(C))->a323));
}
}
T1160f4(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, l1, ((T399*)(C))->a168);
}
}
/* KL_SPECIAL_ROUTINES [ET_INDEXING_LIST].force */
void T1160f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1149*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1149*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1149*)(GE_void(a1)))->a1);
T1149f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_INDEXING_LIST].fill_with */
void T1149f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1149*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1149*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1149f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_INDEXING_LIST].extend */
void T1149f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1149*)(C))->a1;
((T1149*)(C))->a1 = t1 + 1 ;
((T1149*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_INDEXING_LIST].resize */
T0* T1160f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1149*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1149f4(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_INDEXING_LIST].aliased_resized_area */
T0* T1149f4(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1149*)(C))->a2;
if (a1 > t1) {
R = GE_new1149(a1, EIF_FALSE);
*(T1149*)(R) = *(T1149*)(C);
memcpy(((T1149*)(R))->z2,((T1149*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1149*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1149*)(R))->a1;
if (t1 > a1) {
((T1149*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1149*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1149*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_INDEXING_LIST].make */
T0* T1160f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1661c4();
R = (((T1661*)(GE_void(l1)))->a1);
R = (T1149f4(GE_void(R), a1));
return R;
}
/* ARRAY [ET_INDEXING_LIST].make_empty */
T0* T1661c4(void)
{
T0* C;
C = GE_new1661(EIF_TRUE);
((T1661*)(C))->a2 = (T6)(GE_int32(1));
((T1661*)(C))->a3 = (T6)(GE_int32(0));
T1661f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_INDEXING_LIST].make_empty_area */
void T1661f5(T0* C, T6 a1)
{
((T1661*)(C))->a1 = T1149c6(a1);
}
/* SPECIAL [ET_INDEXING_LIST].make_empty */
T0* T1149c6(T6 a1)
{
T0* C;
C = GE_new1149(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_INDEXING_LIST].default_create */
T0* T1160c3(void)
{
T0* C;
C = GE_new1160(EIF_TRUE);
return C;
}
/* ET_EIFFEL_PARSER.yy_do_action_37 */
void T399f1082(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1149*)(GE_void(((T399*)(C))->a314)))->z2[((T399*)(C))->a168]);
t1 = (EIF_FALSE);
if (t1) {
t2 = (((T1162*)(GE_void(((T399*)(C))->a325)))->z2[((T399*)(C))->a169]);
t1 = (EIF_FALSE);
}
if (t1) {
t2 = (((T1162*)(GE_void(((T399*)(C))->a325)))->z2[((T399*)(C))->a169]);
(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)-((T6)(GE_int32(1)))));
((T399*)(C))->a169 = ((T6)((((T399*)(C))->a169)-((T6)(GE_int32(1)))));
T1160f4(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, l1, ((T399*)(C))->a168);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_36 */
void T399f1081(T0* C)
{
T1 t1;
T0* l1 = 0;
T399f1984(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a168), ((T399*)(C))->a323));
if (t1) {
t1 = ((((T399*)(C))->a314)==(EIF_VOID));
if (t1) {
((T399*)(C))->a324 = T1160c3();
((T399*)(C))->a323 = (T6)(GE_int32(10));
((T399*)(C))->a314 = (T1160f1(GE_void(((T399*)(C))->a324), ((T399*)(C))->a323));
} else {
((T399*)(C))->a323 = ((T6)((((T399*)(C))->a323)+((T6)(GE_int32(10)))));
((T399*)(C))->a314 = (T1160f2(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, ((T399*)(C))->a323));
}
}
T1160f4(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, l1, ((T399*)(C))->a168);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_35 */
void T399f1080(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1149*)(GE_void(((T399*)(C))->a314)))->z2[((T399*)(C))->a168]);
t1 = (EIF_FALSE);
if (t1) {
t2 = (((T1162*)(GE_void(((T399*)(C))->a325)))->z2[((T399*)(C))->a169]);
t1 = (EIF_FALSE);
}
if (t1) {
t2 = (((T1162*)(GE_void(((T399*)(C))->a325)))->z2[((T399*)(C))->a169]);
(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)-((T6)(GE_int32(1)))));
((T399*)(C))->a169 = ((T6)((((T399*)(C))->a169)-((T6)(GE_int32(1)))));
T1160f4(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, l1, ((T399*)(C))->a168);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_34 */
void T399f1079(T0* C)
{
T0* t1;
T1 t2;
T0* t3;
T6 t4;
T0* l1 = 0;
t1 = (((T1162*)(GE_void(((T399*)(C))->a325)))->z2[((T399*)(C))->a169]);
t2 = (EIF_FALSE);
if (t2) {
t1 = (T399f682(C));
t3 = (T399f905(C));
t4 = (T399f906(C));
t4 = ((T6)((t4)+((T6)(GE_int32(1)))));
l1 = (T362f123(GE_void(t1), t3, t4));
t2 = (EIF_FALSE);
if (t2) {
t1 = (((T1162*)(GE_void(((T399*)(C))->a325)))->z2[((T399*)(C))->a169]);
(GE_void(l1), t1);
}
} else {
t1 = (T399f682(C));
t3 = (T399f905(C));
t4 = (T399f906(C));
l1 = (T362f123(GE_void(t1), t3, t4));
}
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)+((T6)(GE_int32(1)))));
((T399*)(C))->a169 = ((T6)((((T399*)(C))->a169)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a168), ((T399*)(C))->a323));
if (t2) {
t2 = ((((T399*)(C))->a314)==(EIF_VOID));
if (t2) {
((T399*)(C))->a324 = T1160c3();
((T399*)(C))->a323 = (T6)(GE_int32(10));
((T399*)(C))->a314 = (T1160f1(GE_void(((T399*)(C))->a324), ((T399*)(C))->a323));
} else {
((T399*)(C))->a323 = ((T6)((((T399*)(C))->a323)+((T6)(GE_int32(10)))));
((T399*)(C))->a314 = (T1160f2(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, ((T399*)(C))->a323));
}
}
T1160f4(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, l1, ((T399*)(C))->a168);
}
}
/* ET_AST_FACTORY.new_indexings */
T0* T362f123(T0* C, T0* a1, T6 a2)
{
T0* R = 0;
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_33 */
void T399f1078(T0* C)
{
T0* t1;
T1 t2;
T0* t3;
T6 t4;
T0* l1 = 0;
t1 = (((T1162*)(GE_void(((T399*)(C))->a325)))->z2[((T399*)(C))->a169]);
t2 = (EIF_FALSE);
if (t2) {
t1 = (T399f682(C));
t3 = (T399f905(C));
t4 = (T399f906(C));
t4 = ((T6)((t4)+((T6)(GE_int32(1)))));
l1 = (T362f123(GE_void(t1), t3, t4));
t2 = (EIF_FALSE);
if (t2) {
t1 = (((T1162*)(GE_void(((T399*)(C))->a325)))->z2[((T399*)(C))->a169]);
(GE_void(l1), t1);
}
} else {
t1 = (T399f682(C));
t3 = (T399f905(C));
t4 = (T399f906(C));
l1 = (T362f123(GE_void(t1), t3, t4));
}
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)+((T6)(GE_int32(1)))));
((T399*)(C))->a169 = ((T6)((((T399*)(C))->a169)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a168), ((T399*)(C))->a323));
if (t2) {
t2 = ((((T399*)(C))->a314)==(EIF_VOID));
if (t2) {
((T399*)(C))->a324 = T1160c3();
((T399*)(C))->a323 = (T6)(GE_int32(10));
((T399*)(C))->a314 = (T1160f1(GE_void(((T399*)(C))->a324), ((T399*)(C))->a323));
} else {
((T399*)(C))->a323 = ((T6)((((T399*)(C))->a323)+((T6)(GE_int32(10)))));
((T399*)(C))->a314 = (T1160f2(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, ((T399*)(C))->a323));
}
}
T1160f4(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, l1, ((T399*)(C))->a168);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_32 */
void T399f1077(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1162*)(GE_void(((T399*)(C))->a325)))->z2[((T399*)(C))->a169]);
t3 = (((T1123*)(GE_void(((T399*)(C))->a293)))->z2[((T399*)(C))->a108]);
l1 = (T362f126(GE_void(t1), t2, t3));
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a108 = ((T6)((((T399*)(C))->a108)-((T6)(GE_int32(1)))));
T1163f4(GE_void(((T399*)(C))->a326), ((T399*)(C))->a325, l1, ((T399*)(C))->a169);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_31 */
void T399f1076(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T1 t5;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (T399f682(C));
t3 = (((T172*)(GE_void(((T399*)(C))->a257)))->z2[((T399*)(C))->a99]);
t4 = (((T1079*)(GE_void(((T399*)(C))->a225)))->z2[((T399*)(C))->a91]);
t2 = (T362f124(GE_void(t2), t3, t4));
t3 = (((T1166*)(GE_void(((T399*)(C))->a327)))->z2[((T399*)(C))->a172]);
l1 = (T362f125(GE_void(t1), t2, t3));
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a169 = ((T6)((((T399*)(C))->a169)+((T6)(GE_int32(1)))));
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)-((T6)(GE_int32(1)))));
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)-((T6)(GE_int32(1)))));
((T399*)(C))->a172 = ((T6)((((T399*)(C))->a172)-((T6)(GE_int32(1)))));
t5 = (T6f12(&(((T399*)(C))->a169), ((T399*)(C))->a328));
if (t5) {
t5 = ((((T399*)(C))->a325)==(EIF_VOID));
if (t5) {
((T399*)(C))->a326 = T1163c3();
((T399*)(C))->a328 = (T6)(GE_int32(10));
((T399*)(C))->a325 = (T1163f1(GE_void(((T399*)(C))->a326), ((T399*)(C))->a328));
} else {
((T399*)(C))->a328 = ((T6)((((T399*)(C))->a328)+((T6)(GE_int32(10)))));
((T399*)(C))->a325 = (T1163f2(GE_void(((T399*)(C))->a326), ((T399*)(C))->a325, ((T399*)(C))->a328));
}
}
T1163f4(GE_void(((T399*)(C))->a326), ((T399*)(C))->a325, l1, ((T399*)(C))->a169);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_30 */
void T399f1075(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1162*)(GE_void(((T399*)(C))->a325)))->z2[((T399*)(C))->a169]);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(1)))));
T1163f4(GE_void(((T399*)(C))->a326), ((T399*)(C))->a325, l1, ((T399*)(C))->a169);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_29 */
void T399f1074(T0* C)
{
T1 t1;
T0* l1 = 0;
T399f1984(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a168), ((T399*)(C))->a323));
if (t1) {
t1 = ((((T399*)(C))->a314)==(EIF_VOID));
if (t1) {
((T399*)(C))->a324 = T1160c3();
((T399*)(C))->a323 = (T6)(GE_int32(10));
((T399*)(C))->a314 = (T1160f1(GE_void(((T399*)(C))->a324), ((T399*)(C))->a323));
} else {
((T399*)(C))->a323 = ((T6)((((T399*)(C))->a323)+((T6)(GE_int32(10)))));
((T399*)(C))->a314 = (T1160f2(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, ((T399*)(C))->a323));
}
}
T1160f4(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, l1, ((T399*)(C))->a168);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_28 */
void T399f1073(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1149*)(GE_void(((T399*)(C))->a314)))->z2[((T399*)(C))->a168]);
t1 = (EIF_FALSE);
if (t1) {
t2 = (((T1162*)(GE_void(((T399*)(C))->a325)))->z2[((T399*)(C))->a169]);
t1 = (EIF_FALSE);
}
if (t1) {
t2 = (((T1162*)(GE_void(((T399*)(C))->a325)))->z2[((T399*)(C))->a169]);
(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)-((T6)(GE_int32(1)))));
((T399*)(C))->a169 = ((T6)((((T399*)(C))->a169)-((T6)(GE_int32(1)))));
T1160f4(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, l1, ((T399*)(C))->a168);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_27 */
void T399f1072(T0* C)
{
T1 t1;
T0* l1 = 0;
T399f1984(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a168), ((T399*)(C))->a323));
if (t1) {
t1 = ((((T399*)(C))->a314)==(EIF_VOID));
if (t1) {
((T399*)(C))->a324 = T1160c3();
((T399*)(C))->a323 = (T6)(GE_int32(10));
((T399*)(C))->a314 = (T1160f1(GE_void(((T399*)(C))->a324), ((T399*)(C))->a323));
} else {
((T399*)(C))->a323 = ((T6)((((T399*)(C))->a323)+((T6)(GE_int32(10)))));
((T399*)(C))->a314 = (T1160f2(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, ((T399*)(C))->a323));
}
}
T1160f4(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, l1, ((T399*)(C))->a168);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_26 */
void T399f1071(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1149*)(GE_void(((T399*)(C))->a314)))->z2[((T399*)(C))->a168]);
t1 = (EIF_FALSE);
if (t1) {
t2 = (((T1162*)(GE_void(((T399*)(C))->a325)))->z2[((T399*)(C))->a169]);
t1 = (EIF_FALSE);
}
if (t1) {
t2 = (((T1162*)(GE_void(((T399*)(C))->a325)))->z2[((T399*)(C))->a169]);
(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)-((T6)(GE_int32(1)))));
((T399*)(C))->a169 = ((T6)((((T399*)(C))->a169)-((T6)(GE_int32(1)))));
T1160f4(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, l1, ((T399*)(C))->a168);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_25 */
void T399f1070(T0* C)
{
T0* t1;
T1 t2;
T0* t3;
T6 t4;
T0* l1 = 0;
t1 = (((T1162*)(GE_void(((T399*)(C))->a325)))->z2[((T399*)(C))->a169]);
t2 = (EIF_FALSE);
if (t2) {
t1 = (T399f682(C));
t3 = (T399f905(C));
t4 = (T399f906(C));
t4 = ((T6)((t4)+((T6)(GE_int32(1)))));
l1 = (T362f123(GE_void(t1), t3, t4));
t2 = (EIF_FALSE);
if (t2) {
t1 = (((T1162*)(GE_void(((T399*)(C))->a325)))->z2[((T399*)(C))->a169]);
(GE_void(l1), t1);
}
} else {
t1 = (T399f682(C));
t3 = (T399f905(C));
t4 = (T399f906(C));
l1 = (T362f123(GE_void(t1), t3, t4));
}
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)+((T6)(GE_int32(1)))));
((T399*)(C))->a169 = ((T6)((((T399*)(C))->a169)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a168), ((T399*)(C))->a323));
if (t2) {
t2 = ((((T399*)(C))->a314)==(EIF_VOID));
if (t2) {
((T399*)(C))->a324 = T1160c3();
((T399*)(C))->a323 = (T6)(GE_int32(10));
((T399*)(C))->a314 = (T1160f1(GE_void(((T399*)(C))->a324), ((T399*)(C))->a323));
} else {
((T399*)(C))->a323 = ((T6)((((T399*)(C))->a323)+((T6)(GE_int32(10)))));
((T399*)(C))->a314 = (T1160f2(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, ((T399*)(C))->a323));
}
}
T1160f4(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, l1, ((T399*)(C))->a168);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_24 */
void T399f1069(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1149*)(GE_void(((T399*)(C))->a314)))->z2[((T399*)(C))->a168]);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
T1160f4(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, l1, ((T399*)(C))->a168);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_23 */
void T399f1068(T0* C)
{
T1 t1;
T0* l1 = 0;
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a168), ((T399*)(C))->a323));
if (t1) {
t1 = ((((T399*)(C))->a314)==(EIF_VOID));
if (t1) {
((T399*)(C))->a324 = T1160c3();
((T399*)(C))->a323 = (T6)(GE_int32(10));
((T399*)(C))->a314 = (T1160f1(GE_void(((T399*)(C))->a324), ((T399*)(C))->a323));
} else {
((T399*)(C))->a323 = ((T6)((((T399*)(C))->a323)+((T6)(GE_int32(10)))));
((T399*)(C))->a314 = (T1160f2(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, ((T399*)(C))->a323));
}
}
T1160f4(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, l1, ((T399*)(C))->a168);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_22 */
void T399f1067(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T399f1982(C, t1);
T399f1983(C);
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a168), ((T399*)(C))->a323));
if (t2) {
t2 = ((((T399*)(C))->a314)==(EIF_VOID));
if (t2) {
((T399*)(C))->a324 = T1160c3();
((T399*)(C))->a323 = (T6)(GE_int32(10));
((T399*)(C))->a314 = (T1160f1(GE_void(((T399*)(C))->a324), ((T399*)(C))->a323));
} else {
((T399*)(C))->a323 = ((T6)((((T399*)(C))->a323)+((T6)(GE_int32(10)))));
((T399*)(C))->a314 = (T1160f2(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, ((T399*)(C))->a323));
}
}
T1160f4(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, l1, ((T399*)(C))->a168);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_21 */
void T399f1066(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1149*)(GE_void(((T399*)(C))->a314)))->z2[((T399*)(C))->a168]);
T399f1980(C);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
T1160f4(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, l1, ((T399*)(C))->a168);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_20 */
void T399f1065(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
l1 = (T362f123(GE_void(t1), t2, (T6)(GE_int32(0))));
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t3 = (T6f12(&(((T399*)(C))->a168), ((T399*)(C))->a323));
if (t3) {
t3 = ((((T399*)(C))->a314)==(EIF_VOID));
if (t3) {
((T399*)(C))->a324 = T1160c3();
((T399*)(C))->a323 = (T6)(GE_int32(10));
((T399*)(C))->a314 = (T1160f1(GE_void(((T399*)(C))->a324), ((T399*)(C))->a323));
} else {
((T399*)(C))->a323 = ((T6)((((T399*)(C))->a323)+((T6)(GE_int32(10)))));
((T399*)(C))->a314 = (T1160f2(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, ((T399*)(C))->a323));
}
}
T1160f4(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, l1, ((T399*)(C))->a168);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_19 */
void T399f1064(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T399f1982(C, t1);
T399f1983(C);
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a168), ((T399*)(C))->a323));
if (t2) {
t2 = ((((T399*)(C))->a314)==(EIF_VOID));
if (t2) {
((T399*)(C))->a324 = T1160c3();
((T399*)(C))->a323 = (T6)(GE_int32(10));
((T399*)(C))->a314 = (T1160f1(GE_void(((T399*)(C))->a324), ((T399*)(C))->a323));
} else {
((T399*)(C))->a323 = ((T6)((((T399*)(C))->a323)+((T6)(GE_int32(10)))));
((T399*)(C))->a314 = (T1160f2(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, ((T399*)(C))->a323));
}
}
T1160f4(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, l1, ((T399*)(C))->a168);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_18 */
void T399f1063(T0* C)
{
T1 t1;
T0* l1 = 0;
l1 = (((T1149*)(GE_void(((T399*)(C))->a314)))->z2[((T399*)(C))->a168]);
T399f1980(C);
T399f1981(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(3)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
T1160f4(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, l1, ((T399*)(C))->a168);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_17 */
void T399f1062(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
t1 = (T399f682(C));
t2 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
l1 = (T362f123(GE_void(t1), t2, (T6)(GE_int32(0))));
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)+((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
t3 = (T6f12(&(((T399*)(C))->a168), ((T399*)(C))->a323));
if (t3) {
t3 = ((((T399*)(C))->a314)==(EIF_VOID));
if (t3) {
((T399*)(C))->a324 = T1160c3();
((T399*)(C))->a323 = (T6)(GE_int32(10));
((T399*)(C))->a314 = (T1160f1(GE_void(((T399*)(C))->a324), ((T399*)(C))->a323));
} else {
((T399*)(C))->a323 = ((T6)((((T399*)(C))->a323)+((T6)(GE_int32(10)))));
((T399*)(C))->a314 = (T1160f2(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, ((T399*)(C))->a323));
}
}
T1160f4(GE_void(((T399*)(C))->a324), ((T399*)(C))->a314, l1, ((T399*)(C))->a168);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_16 */
void T399f1061(T0* C)
{
T1 t1;
T0* l1 = 0;
T399f1979(C);
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a87), ((T399*)(C))->a208));
if (t1) {
t1 = ((((T399*)(C))->a209)==(EIF_VOID));
if (t1) {
((T399*)(C))->a210 = T171c3();
((T399*)(C))->a208 = (T6)(GE_int32(10));
((T399*)(C))->a209 = (T171f1(GE_void(((T399*)(C))->a210), ((T399*)(C))->a208));
} else {
((T399*)(C))->a208 = ((T6)((((T399*)(C))->a208)+((T6)(GE_int32(10)))));
((T399*)(C))->a209 = (T171f2(GE_void(((T399*)(C))->a210), ((T399*)(C))->a209, ((T399*)(C))->a208));
}
}
T171f4(GE_void(((T399*)(C))->a210), ((T399*)(C))->a209, l1, ((T399*)(C))->a87);
}
}
/* ET_EIFFEL_PARSER.set_class_providers */
void T399f1979(T0* C)
{
T1 t1;
T6 t2;
T0* t3;
T0* l1 = 0;
T0* l2 = 0;
t1 = (T399f918(C));
if (t1) {
l2 = ((T399*)(C))->a68;
t1 = ((l2)!=(EIF_VOID));
if (t1) {
t2 = (((T864*)(GE_void(((T399*)(C))->a16)))->a1);
l1 = T864c38(t2);
T75f249(GE_void(l2), l1);
T864f41(GE_void(((T399*)(C))->a16));
while (1) {
t1 = (T864f20(GE_void(((T399*)(C))->a16)));
if (t1) {
break;
}
t3 = (T864f18(GE_void(((T399*)(C))->a16)));
T864f42(GE_void(l1), t3);
T864f43(GE_void(((T399*)(C))->a16));
}
}
}
T864f40(GE_void(((T399*)(C))->a16));
}
/* DS_HASH_SET [ET_NAMED_CLASS].wipe_out */
void T864f40(T0* C)
{
T1 t1;
T864f51(C);
T864f48(C);
t1 = (T6f1(&(((T864*)(C))->a1), (T6)(GE_int32(0))));
if (t1) {
T864f52(C);
T864f53(C);
T864f54(C);
T864f55(C);
((T864*)(C))->a6 = (T6)(GE_int32(0));
((T864*)(C))->a7 = (T6)(GE_int32(0));
((T864*)(C))->a1 = (T6)(GE_int32(0));
}
((T864*)(C))->a8 = (T6)(GE_int32(0));
}
/* DS_HASH_SET [ET_NAMED_CLASS].slots_wipe_out */
void T864f55(T0* C)
{
T1 t1;
T6 l1 = 0;
l1 = ((T864*)(C))->a5;
while (1) {
t1 = ((T1)((l1)<((T6)(GE_int32(0)))));
if (t1) {
break;
}
((T132*)(GE_void(((T864*)(C))->a12)))->z2[l1] = ((T6)(GE_int32(0)));
l1 = ((T6)((l1)-((T6)(GE_int32(1)))));
}
}
/* DS_HASH_SET [ET_NAMED_CLASS].clashes_wipe_out */
void T864f54(T0* C)
{
T1 t1;
T6 l1 = 0;
l1 = ((T864*)(C))->a6;
while (1) {
t1 = ((T1)((l1)<((T6)(GE_int32(1)))));
if (t1) {
break;
}
((T132*)(GE_void(((T864*)(C))->a11)))->z2[l1] = ((T6)(GE_int32(0)));
l1 = ((T6)((l1)-((T6)(GE_int32(1)))));
}
}
/* DS_HASH_SET [ET_NAMED_CLASS].key_storage_wipe_out */
void T864f53(T0* C)
{
}
/* DS_HASH_SET [ET_NAMED_CLASS].item_storage_wipe_out */
void T864f52(T0* C)
{
T1 t1;
T6 l1 = 0;
T0* l2 = 0;
l1 = ((T864*)(C))->a6;
while (1) {
t1 = ((T1)((l1)<((T6)(GE_int32(1)))));
if (t1) {
break;
}
((T1489*)(GE_void(((T864*)(C))->a3)))->z2[l1] = (l2);
l1 = ((T6)((l1)-((T6)(GE_int32(1)))));
}
}
/* DS_HASH_SET [ET_NAMED_CLASS].move_all_cursors_after */
void T864f51(T0* C)
{
T1 t1;
T0* l1 = 0;
T0* l2 = 0;
l1 = ((T864*)(C))->a2;
while (1) {
t1 = ((l1)==(EIF_VOID));
if (t1) {
break;
}
T928f7(GE_void(l1), (T6)(GE_int32(-2)));
l2 = (((T928*)(GE_void(l1)))->a2);
T928f8(GE_void(l1), EIF_VOID);
l1 = l2;
}
}
/* DS_HASH_SET [ET_NAMED_CLASS].forth */
void T864f43(T0* C)
{
T864f62(C, ((T864*)(C))->a2);
}
/* DS_HASH_SET [ET_NAMED_CLASS].put_last */
void T864f42(T0* C, T0* a1)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
T864f48(C);
T864f57(C, a1);
t1 = (((((((T864*)(C))->a8) != ((T6)(GE_int32(0)))))));
if (t1) {
T864f58(C, a1, ((T864*)(C))->a8);
} else {
l1 = ((T6)((((T864*)(C))->a6)+((T6)(GE_int32(1)))));
t1 = (T6f1((&l1), ((T864*)(C))->a4));
if (t1) {
T864f59(C);
l1 = ((T6)((((T864*)(C))->a6)+((T6)(GE_int32(1)))));
}
l2 = ((T864*)(C))->a9;
t2 = (T864f19(C, l2));
T864f60(C, t2, l1);
T864f61(C, l1, l2);
T864f58(C, a1, l1);
((T864*)(C))->a6 = l1;
((T864*)(C))->a1 = ((T6)((((T864*)(C))->a1)+((T6)(GE_int32(1)))));
}
}
/* DS_HASH_SET [ET_NAMED_CLASS].compress */
void T864f59(T0* C)
{
T1 t1;
T6 t2;
T0* t3;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
T6 l4 = 0;
T0* l5 = 0;
T0* l6 = 0;
t1 = (((((((T864*)(C))->a6) != (((T864*)(C))->a1)))));
if (t1) {
T864f48(C);
l3 = ((T864*)(C))->a6;
l1 = (T6)(GE_int32(1));
while (1) {
t1 = (T6f1((&l1), l3));
if (t1) {
break;
}
t2 = (T864f26(C, l1));
t1 = (T6f1(&t2, (T6)(GE_int32(-1))));
if (t1) {
l2 = ((T6)((l2)+((T6)(GE_int32(1)))));
t1 = (((((l2) != (l1)))));
if (t1) {
t3 = (T864f36(C, l1));
T864f58(C, t3, l2);
t3 = (T864f32(C, l1));
T864f65(C, t3, l2);
T864f60(C, (T6)(GE_int32(0)), l2);
T864f66(C, l1, l2);
}
}
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l2 = ((T6)((l2)+((T6)(GE_int32(1)))));
while (1) {
t1 = (T6f1((&l2), l3));
if (t1) {
break;
}
T864f58(C, l5, l2);
T864f65(C, l6, l2);
l2 = ((T6)((l2)+((T6)(GE_int32(1)))));
}
T864f54(C);
T864f55(C);
l3 = ((T864*)(C))->a1;
l1 = (T6)(GE_int32(1));
while (1) {
t1 = (T6f1((&l1), l3));
if (t1) {
break;
}
t3 = (T864f32(C, l1));
l4 = (T864f33(C, t3));
t2 = (T864f19(C, l4));
T864f60(C, t2, l1);
T864f61(C, l1, l4);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
((T864*)(C))->a6 = l3;
((T864*)(C))->a8 = (T6)(GE_int32(0));
}
}
/* DS_HASH_SET [ET_NAMED_CLASS].move_all_cursors */
void T864f66(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T0* l1 = 0;
l1 = ((T864*)(C))->a2;
while (1) {
t1 = ((l1)==(EIF_VOID));
if (t1) {
break;
}
t2 = (((T928*)(GE_void(l1)))->a1);
t1 = (((((t2) == (a1)))));
if (t1) {
T928f7(GE_void(l1), a2);
}
l1 = (((T928*)(GE_void(l1)))->a2);
}
}
/* DS_HASH_SET [ET_NAMED_CLASS].key_storage_put */
void T864f65(T0* C, T0* a1, T6 a2)
{
}
/* DS_HASH_SET [ET_NAMED_CLASS].item_for_iteration */
T0* T864f18(T0* C)
{
T0* R = 0;
R = (T864f24(C, ((T864*)(C))->a2));
return R;
}
/* DS_HASH_SET [ET_NAMED_CLASS].after */
T1 T864f20(T0* C)
{
T1 R = 0;
R = (T864f21(C, ((T864*)(C))->a2));
return R;
}
/* DS_HASH_SET [ET_NAMED_CLASS].start */
void T864f41(T0* C)
{
T864f56(C, ((T864*)(C))->a2);
}
/* ET_CLASS.set_providers */
void T75f249(T0* C, T0* a1)
{
((T75*)(C))->a34 = a1;
}
/* DS_HASH_SET [ET_NAMED_CLASS].make */
T0* T864c38(T6 a1)
{
T0* C;
T6 t1;
T0* t2;
C = GE_new864(EIF_TRUE);
((T864*)(C))->a4 = a1;
t1 = ((T6)((a1)+((T6)(GE_int32(1)))));
T864f44(C, t1);
t1 = ((T6)((a1)+((T6)(GE_int32(1)))));
T864f45(C, t1);
t1 = ((T6)((a1)+((T6)(GE_int32(1)))));
T864f46(C, t1);
((T864*)(C))->a5 = (T864f23(C, a1));
t1 = ((T6)((((T864*)(C))->a5)+((T6)(GE_int32(1)))));
T864f47(C, t1);
((T864*)(C))->a6 = (T6)(GE_int32(0));
((T864*)(C))->a7 = (T6)(GE_int32(0));
((T864*)(C))->a8 = (T6)(GE_int32(0));
T864f48(C);
t2 = (T864f17(C));
T864f49(C, t2);
return C;
}
/* DS_HASH_SET [ET_NAMED_CLASS].set_internal_cursor */
void T864f49(T0* C, T0* a1)
{
((T864*)(C))->a2 = a1;
}
/* DS_HASH_SET [ET_NAMED_CLASS].make_slots */
void T864f47(T0* C, T6 a1)
{
T0* t1;
t1 = (T864f22(C));
((T864*)(C))->a12 = (T134f2(GE_void(t1), (T6)(GE_int32(0)), a1));
}
/* DS_HASH_SET [ET_NAMED_CLASS].make_clashes */
void T864f46(T0* C, T6 a1)
{
T0* t1;
t1 = (T864f22(C));
((T864*)(C))->a11 = (T134f2(GE_void(t1), (T6)(GE_int32(0)), a1));
}
/* DS_HASH_SET [ET_NAMED_CLASS].make_key_storage */
void T864f45(T0* C, T6 a1)
{
}
/* DS_HASH_SET [ET_NAMED_CLASS].make_item_storage */
void T864f44(T0* C, T6 a1)
{
T0* l1 = 0;
((T864*)(C))->a10 = T1491c3();
((T864*)(C))->a3 = (T1491f1(GE_void(((T864*)(C))->a10), l1, a1));
}
/* KL_SPECIAL_ROUTINES [ET_NAMED_CLASS].make_filled */
T0* T1491f1(T0* C, T0* a1, T6 a2)
{
T0* R = 0;
R = T1489c6(a1, a2);
return R;
}
/* SPECIAL [ET_NAMED_CLASS].make_filled */
T0* T1489c6(T0* a1, T6 a2)
{
T0* C;
T6 t1;
C = GE_new1489(a2, EIF_TRUE);
T1489f9(C, a2);
t1 = ((T6)((a2)-((T6)(GE_int32(1)))));
T1489f8(C, a1, (T6)(GE_int32(0)), t1);
return C;
}
/* SPECIAL [ET_NAMED_CLASS].make_empty */
void T1489f9(T0* C, T6 a1)
{
}
/* KL_SPECIAL_ROUTINES [ET_NAMED_CLASS].default_create */
T0* T1491c3(void)
{
T0* C;
C = GE_new1491(EIF_TRUE);
return C;
}
/* ET_EIFFEL_PARSER.yy_do_action_15 */
void T399f1060(T0* C)
{
T0* t1;
T0* t2;
T1 t3;
T0* l1 = 0;
l1 = (((T1147*)(GE_void(((T399*)(C))->a313)))->z2[((T399*)(C))->a131]);
t1 = (((T1152*)(GE_void(((T399*)(C))->a316)))->z2[((T399*)(C))->a187]);
t2 = (((T1153*)(GE_void(((T399*)(C))->a317)))->z2[((T399*)(C))->a191]);
T399f1978(C, l1, t1, t2);
t3 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t3) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(5)))));
((T399*)(C))->a166 = ((T6)((((T399*)(C))->a166)-((T6)(GE_int32(1)))));
((T399*)(C))->a187 = ((T6)((((T399*)(C))->a187)-((T6)(GE_int32(1)))));
((T399*)(C))->a191 = ((T6)((((T399*)(C))->a191)-((T6)(GE_int32(1)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(1)))));
T1150f6(GE_void(((T399*)(C))->a315), ((T399*)(C))->a313, l1, ((T399*)(C))->a131);
}
}
/* ET_EIFFEL_PARSER.set_class_to_inheritance_end */
void T399f1978(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T1 t2;
T0* t3;
T0* l1 = 0;
T0* l2 = 0;
t1 = ((a1)!=(EIF_VOID));
if (t1) {
t1 = ((a3)!=(EIF_VOID));
if (t1) {
t2 = (T465f7(GE_void(a3)));
t1 = ((T1)(!(t2)));
}
if (t1) {
t3 = (T465f9(GE_void(a3)));
l1 = (T461f10(GE_void(t3)));
l2 = (((T461*)(GE_void(l1)))->a7);
t1 = ((l2)!=(EIF_VOID));
if (t1) {
t2 = (T461f8(GE_void(l1)));
t1 = ((T1)(!(t2)));
}
if (t1) {
T461f12(GE_void(l1), EIF_VOID);
} else {
l2 = EIF_VOID;
}
}
}
T399f1977(C, a1, a2, a3, EIF_VOID, EIF_VOID, EIF_VOID, EIF_VOID, EIF_VOID, l2);
}
/* ET_EIFFEL_PARSER.set_class_to_end */
void T399f1977(T0* C, T0* a1, T0* a2, T0* a3, T0* a4, T0* a5, T0* a6, T0* a7, T0* a8, T0* a9)
{
T1 t1;
t1 = ((a1)!=(EIF_VOID));
if (t1) {
T75f262(GE_void(a1), a2);
T75f263(GE_void(a1), a3);
T75f264(GE_void(a1), a4);
T75f265(GE_void(a1), a5);
T75f266(GE_void(a1), a6);
T75f267(GE_void(a1), a7);
T75f268(GE_void(a1), a8);
t1 = ((a9)!=(EIF_VOID));
if (t1) {
T75f269(GE_void(a1), a9);
}
}
}
/* ET_CLASS.set_end_keyword */
void T75f269(T0* C, T0* a1)
{
((T75*)(C))->a18 = a1;
}
/* ET_CLASS.set_second_indexing */
void T75f268(T0* C, T0* a1)
{
((T75*)(C))->a41 = a1;
}
/* ET_CLASS.set_invariants */
void T75f267(T0* C, T0* a1)
{
((T75*)(C))->a32 = a1;
}
/* ET_CLASS.set_feature_clauses */
void T75f266(T0* C, T0* a1)
{
((T75*)(C))->a39 = a1;
}
/* ET_CLASS.set_convert_features */
void T75f265(T0* C, T0* a1)
{
((T75*)(C))->a38 = a1;
}
/* ET_CLASS.set_creators */
void T75f264(T0* C, T0* a1)
{
((T75*)(C))->a29 = a1;
}
/* ET_CLASS.set_parent_clause */
void T75f263(T0* C, T0* a1)
{
((T75*)(C))->a28 = a1;
}
/* ET_CLASS.set_obsolete_message */
void T75f262(T0* C, T0* a1)
{
((T75*)(C))->a42 = a1;
}
/* ET_PARENT.set_end_keyword */
void T461f12(T0* C, T0* a1)
{
((T461*)(C))->a7 = a1;
}
/* ET_PARENT_LIST.last */
T0* T465f9(T0* C)
{
T0* R = 0;
R = (((T930*)(GE_void(((T465*)(C))->a3)))->z2[(T6)(GE_int32(0))]);
return R;
}
/* ET_EIFFEL_PARSER.yy_do_action_14 */
void T399f1059(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T1 t5;
T0* l1 = 0;
l1 = (((T1147*)(GE_void(((T399*)(C))->a313)))->z2[((T399*)(C))->a131]);
t1 = (((T1152*)(GE_void(((T399*)(C))->a316)))->z2[((T399*)(C))->a187]);
t2 = (((T1153*)(GE_void(((T399*)(C))->a317)))->z2[((T399*)(C))->a191]);
t3 = (((T1149*)(GE_void(((T399*)(C))->a314)))->z2[((T399*)(C))->a168]);
t4 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T399f1977(C, l1, t1, t2, EIF_VOID, EIF_VOID, EIF_VOID, EIF_VOID, t3, t4);
t5 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t5) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(8)))));
((T399*)(C))->a166 = ((T6)((((T399*)(C))->a166)-((T6)(GE_int32(1)))));
((T399*)(C))->a187 = ((T6)((((T399*)(C))->a187)-((T6)(GE_int32(1)))));
((T399*)(C))->a191 = ((T6)((((T399*)(C))->a191)-((T6)(GE_int32(1)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(2)))));
T1150f6(GE_void(((T399*)(C))->a315), ((T399*)(C))->a313, l1, ((T399*)(C))->a131);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_13 */
void T399f1058(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (T399f901(C));
t2 = (T26x3010(GE_void(t1)));
t2 = ((T1)(!(t2)));
if (t2) {
T399f1976(C);
}
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a131 = ((T6)((((T399*)(C))->a131)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a131), ((T399*)(C))->a322));
if (t2) {
t2 = ((((T399*)(C))->a313)==(EIF_VOID));
if (t2) {
((T399*)(C))->a315 = T1150c5();
((T399*)(C))->a322 = (T6)(GE_int32(10));
((T399*)(C))->a313 = (T1150f1(GE_void(((T399*)(C))->a315), ((T399*)(C))->a322));
} else {
((T399*)(C))->a322 = ((T6)((((T399*)(C))->a322)+((T6)(GE_int32(10)))));
((T399*)(C))->a313 = (T1150f2(GE_void(((T399*)(C))->a315), ((T399*)(C))->a313, ((T399*)(C))->a322));
}
}
T1150f6(GE_void(((T399*)(C))->a315), ((T399*)(C))->a313, l1, ((T399*)(C))->a131);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_12 */
void T399f1057(T0* C)
{
T6 t1;
T0* t2;
T0* t3;
T1 t4;
T0* l1 = 0;
t1 = ((T6)((((T399*)(C))->a131)-((T6)(GE_int32(2)))));
l1 = (((T1147*)(GE_void(((T399*)(C))->a313)))->z2[t1]);
t2 = (((T1152*)(GE_void(((T399*)(C))->a316)))->z2[((T399*)(C))->a187]);
t3 = (((T1153*)(GE_void(((T399*)(C))->a317)))->z2[((T399*)(C))->a191]);
T399f1978(C, l1, t2, t3);
t1 = ((T6)((((T399*)(C))->a131)-((T6)(GE_int32(1)))));
t2 = (((T1147*)(GE_void(((T399*)(C))->a313)))->z2[t1]);
t4 = ((t2)!=(EIF_VOID));
if (t4) {
t1 = ((T6)((((T399*)(C))->a131)-((T6)(GE_int32(1)))));
t2 = (((T1147*)(GE_void(((T399*)(C))->a313)))->z2[t1]);
t3 = (((T1149*)(GE_void(((T399*)(C))->a314)))->z2[((T399*)(C))->a168]);
T75f261(GE_void(t2), t3);
}
t4 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t4) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(8)))));
((T399*)(C))->a131 = ((T6)((((T399*)(C))->a131)-((T6)(GE_int32(2)))));
((T399*)(C))->a166 = ((T6)((((T399*)(C))->a166)-((T6)(GE_int32(1)))));
((T399*)(C))->a187 = ((T6)((((T399*)(C))->a187)-((T6)(GE_int32(1)))));
((T399*)(C))->a191 = ((T6)((((T399*)(C))->a191)-((T6)(GE_int32(1)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)-((T6)(GE_int32(1)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(1)))));
T1150f6(GE_void(((T399*)(C))->a315), ((T399*)(C))->a313, l1, ((T399*)(C))->a131);
}
}
/* ET_CLASS.set_first_indexing */
void T75f261(T0* C, T0* a1)
{
((T75*)(C))->a40 = a1;
}
/* ET_EIFFEL_PARSER.yy_do_action_11 */
void T399f1056(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T0* t5;
T1 t6;
T0* l1 = 0;
l1 = (((T1147*)(GE_void(((T399*)(C))->a313)))->z2[((T399*)(C))->a131]);
t1 = (((T1152*)(GE_void(((T399*)(C))->a316)))->z2[((T399*)(C))->a187]);
t2 = (((T1153*)(GE_void(((T399*)(C))->a317)))->z2[((T399*)(C))->a191]);
t3 = (((T1159*)(GE_void(((T399*)(C))->a321)))->z2[((T399*)(C))->a176]);
t4 = (((T1149*)(GE_void(((T399*)(C))->a314)))->z2[((T399*)(C))->a168]);
t5 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T399f1977(C, l1, t1, t2, EIF_VOID, EIF_VOID, EIF_VOID, t3, t4, t5);
t6 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t6) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(9)))));
((T399*)(C))->a166 = ((T6)((((T399*)(C))->a166)-((T6)(GE_int32(1)))));
((T399*)(C))->a187 = ((T6)((((T399*)(C))->a187)-((T6)(GE_int32(1)))));
((T399*)(C))->a191 = ((T6)((((T399*)(C))->a191)-((T6)(GE_int32(1)))));
((T399*)(C))->a176 = ((T6)((((T399*)(C))->a176)-((T6)(GE_int32(1)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(2)))));
T1150f6(GE_void(((T399*)(C))->a315), ((T399*)(C))->a313, l1, ((T399*)(C))->a131);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_10 */
void T399f1055(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T0* t5;
T0* t6;
T1 t7;
T0* l1 = 0;
l1 = (((T1147*)(GE_void(((T399*)(C))->a313)))->z2[((T399*)(C))->a131]);
t1 = (((T1152*)(GE_void(((T399*)(C))->a316)))->z2[((T399*)(C))->a187]);
t2 = (((T1153*)(GE_void(((T399*)(C))->a317)))->z2[((T399*)(C))->a191]);
t3 = (((T1158*)(GE_void(((T399*)(C))->a320)))->z2[((T399*)(C))->a157]);
t4 = (((T1159*)(GE_void(((T399*)(C))->a321)))->z2[((T399*)(C))->a176]);
t5 = (((T1149*)(GE_void(((T399*)(C))->a314)))->z2[((T399*)(C))->a168]);
t6 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T399f1977(C, l1, t1, t2, EIF_VOID, EIF_VOID, t3, t4, t5, t6);
t7 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t7) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(10)))));
((T399*)(C))->a166 = ((T6)((((T399*)(C))->a166)-((T6)(GE_int32(1)))));
((T399*)(C))->a187 = ((T6)((((T399*)(C))->a187)-((T6)(GE_int32(1)))));
((T399*)(C))->a191 = ((T6)((((T399*)(C))->a191)-((T6)(GE_int32(1)))));
((T399*)(C))->a157 = ((T6)((((T399*)(C))->a157)-((T6)(GE_int32(1)))));
((T399*)(C))->a176 = ((T6)((((T399*)(C))->a176)-((T6)(GE_int32(1)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(2)))));
T1150f6(GE_void(((T399*)(C))->a315), ((T399*)(C))->a313, l1, ((T399*)(C))->a131);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_9 */
void T399f1054(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T0* t5;
T0* t6;
T0* t7;
T1 t8;
T0* l1 = 0;
l1 = (((T1147*)(GE_void(((T399*)(C))->a313)))->z2[((T399*)(C))->a131]);
t1 = (((T1152*)(GE_void(((T399*)(C))->a316)))->z2[((T399*)(C))->a187]);
t2 = (((T1153*)(GE_void(((T399*)(C))->a317)))->z2[((T399*)(C))->a191]);
t3 = (((T1156*)(GE_void(((T399*)(C))->a319)))->z2[((T399*)(C))->a143]);
t4 = (((T1158*)(GE_void(((T399*)(C))->a320)))->z2[((T399*)(C))->a157]);
t5 = (((T1159*)(GE_void(((T399*)(C))->a321)))->z2[((T399*)(C))->a176]);
t6 = (((T1149*)(GE_void(((T399*)(C))->a314)))->z2[((T399*)(C))->a168]);
t7 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T399f1977(C, l1, t1, t2, EIF_VOID, t3, t4, t5, t6, t7);
t8 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t8) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(11)))));
((T399*)(C))->a166 = ((T6)((((T399*)(C))->a166)-((T6)(GE_int32(1)))));
((T399*)(C))->a187 = ((T6)((((T399*)(C))->a187)-((T6)(GE_int32(1)))));
((T399*)(C))->a191 = ((T6)((((T399*)(C))->a191)-((T6)(GE_int32(1)))));
((T399*)(C))->a143 = ((T6)((((T399*)(C))->a143)-((T6)(GE_int32(1)))));
((T399*)(C))->a157 = ((T6)((((T399*)(C))->a157)-((T6)(GE_int32(1)))));
((T399*)(C))->a176 = ((T6)((((T399*)(C))->a176)-((T6)(GE_int32(1)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(2)))));
T1150f6(GE_void(((T399*)(C))->a315), ((T399*)(C))->a313, l1, ((T399*)(C))->a131);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_8 */
void T399f1053(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T0* t5;
T0* t6;
T0* t7;
T0* t8;
T1 t9;
T0* l1 = 0;
l1 = (((T1147*)(GE_void(((T399*)(C))->a313)))->z2[((T399*)(C))->a131]);
t1 = (((T1152*)(GE_void(((T399*)(C))->a316)))->z2[((T399*)(C))->a187]);
t2 = (((T1153*)(GE_void(((T399*)(C))->a317)))->z2[((T399*)(C))->a191]);
t3 = (((T1154*)(GE_void(((T399*)(C))->a318)))->z2[((T399*)(C))->a146]);
t4 = (((T1156*)(GE_void(((T399*)(C))->a319)))->z2[((T399*)(C))->a143]);
t5 = (((T1158*)(GE_void(((T399*)(C))->a320)))->z2[((T399*)(C))->a157]);
t6 = (((T1159*)(GE_void(((T399*)(C))->a321)))->z2[((T399*)(C))->a176]);
t7 = (((T1149*)(GE_void(((T399*)(C))->a314)))->z2[((T399*)(C))->a168]);
t8 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T399f1977(C, l1, t1, t2, t3, t4, t5, t6, t7, t8);
t9 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t9) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(12)))));
((T399*)(C))->a166 = ((T6)((((T399*)(C))->a166)-((T6)(GE_int32(1)))));
((T399*)(C))->a187 = ((T6)((((T399*)(C))->a187)-((T6)(GE_int32(1)))));
((T399*)(C))->a191 = ((T6)((((T399*)(C))->a191)-((T6)(GE_int32(1)))));
((T399*)(C))->a146 = ((T6)((((T399*)(C))->a146)-((T6)(GE_int32(1)))));
((T399*)(C))->a143 = ((T6)((((T399*)(C))->a143)-((T6)(GE_int32(1)))));
((T399*)(C))->a157 = ((T6)((((T399*)(C))->a157)-((T6)(GE_int32(1)))));
((T399*)(C))->a176 = ((T6)((((T399*)(C))->a176)-((T6)(GE_int32(1)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(2)))));
T1150f6(GE_void(((T399*)(C))->a315), ((T399*)(C))->a313, l1, ((T399*)(C))->a131);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_7 */
void T399f1052(T0* C)
{
T0* t1;
T0* t2;
T0* t3;
T0* t4;
T0* t5;
T0* t6;
T0* t7;
T0* t8;
T1 t9;
T0* l1 = 0;
l1 = (((T1147*)(GE_void(((T399*)(C))->a313)))->z2[((T399*)(C))->a131]);
t1 = (((T1152*)(GE_void(((T399*)(C))->a316)))->z2[((T399*)(C))->a187]);
t2 = (((T1153*)(GE_void(((T399*)(C))->a317)))->z2[((T399*)(C))->a191]);
t3 = (((T1154*)(GE_void(((T399*)(C))->a318)))->z2[((T399*)(C))->a146]);
t4 = (((T1156*)(GE_void(((T399*)(C))->a319)))->z2[((T399*)(C))->a143]);
t5 = (((T1158*)(GE_void(((T399*)(C))->a320)))->z2[((T399*)(C))->a157]);
t6 = (((T1159*)(GE_void(((T399*)(C))->a321)))->z2[((T399*)(C))->a176]);
t7 = (((T1149*)(GE_void(((T399*)(C))->a314)))->z2[((T399*)(C))->a168]);
t8 = (((T1071*)(GE_void(((T399*)(C))->a213)))->z2[((T399*)(C))->a88]);
T399f1977(C, l1, t1, t2, t3, t4, t5, t6, t7, t8);
t9 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t9) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(12)))));
((T399*)(C))->a166 = ((T6)((((T399*)(C))->a166)-((T6)(GE_int32(1)))));
((T399*)(C))->a187 = ((T6)((((T399*)(C))->a187)-((T6)(GE_int32(1)))));
((T399*)(C))->a191 = ((T6)((((T399*)(C))->a191)-((T6)(GE_int32(1)))));
((T399*)(C))->a146 = ((T6)((((T399*)(C))->a146)-((T6)(GE_int32(1)))));
((T399*)(C))->a143 = ((T6)((((T399*)(C))->a143)-((T6)(GE_int32(1)))));
((T399*)(C))->a157 = ((T6)((((T399*)(C))->a157)-((T6)(GE_int32(1)))));
((T399*)(C))->a176 = ((T6)((((T399*)(C))->a176)-((T6)(GE_int32(1)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)-((T6)(GE_int32(1)))));
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)-((T6)(GE_int32(1)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)-((T6)(GE_int32(2)))));
T1150f6(GE_void(((T399*)(C))->a315), ((T399*)(C))->a313, l1, ((T399*)(C))->a131);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_6 */
void T399f1051(T0* C)
{
T0* t1;
T1 t2;
T0* l1 = 0;
t1 = (T399f901(C));
t2 = (T26x3010(GE_void(t1)));
t2 = ((T1)(!(t2)));
if (t2) {
T399f1976(C);
}
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a87), ((T399*)(C))->a208));
if (t2) {
t2 = ((((T399*)(C))->a209)==(EIF_VOID));
if (t2) {
((T399*)(C))->a210 = T171c3();
((T399*)(C))->a208 = (T6)(GE_int32(10));
((T399*)(C))->a209 = (T171f1(GE_void(((T399*)(C))->a210), ((T399*)(C))->a208));
} else {
((T399*)(C))->a208 = ((T6)((((T399*)(C))->a208)+((T6)(GE_int32(10)))));
((T399*)(C))->a209 = (T171f2(GE_void(((T399*)(C))->a210), ((T399*)(C))->a209, ((T399*)(C))->a208));
}
}
T171f4(GE_void(((T399*)(C))->a210), ((T399*)(C))->a209, l1, ((T399*)(C))->a87);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_5 */
void T399f1050(T0* C)
{
T1 t1;
T0* l1 = 0;
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a131 = ((T6)((((T399*)(C))->a131)-((T6)(GE_int32(1)))));
T171f4(GE_void(((T399*)(C))->a210), ((T399*)(C))->a209, l1, ((T399*)(C))->a87);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_4 */
void T399f1049(T0* C)
{
T1 t1;
T0* l1 = 0;
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(0)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)+((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a87), ((T399*)(C))->a208));
if (t1) {
t1 = ((((T399*)(C))->a209)==(EIF_VOID));
if (t1) {
((T399*)(C))->a210 = T171c3();
((T399*)(C))->a208 = (T6)(GE_int32(10));
((T399*)(C))->a209 = (T171f1(GE_void(((T399*)(C))->a210), ((T399*)(C))->a208));
} else {
((T399*)(C))->a208 = ((T6)((((T399*)(C))->a208)+((T6)(GE_int32(10)))));
((T399*)(C))->a209 = (T171f2(GE_void(((T399*)(C))->a210), ((T399*)(C))->a209, ((T399*)(C))->a208));
}
}
T171f4(GE_void(((T399*)(C))->a210), ((T399*)(C))->a209, l1, ((T399*)(C))->a87);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_3 */
void T399f1048(T0* C)
{
T1 t1;
T0* t2;
T0* l1 = 0;
l1 = (((T1147*)(GE_void(((T399*)(C))->a313)))->z2[((T399*)(C))->a131]);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t2 = (((T1149*)(GE_void(((T399*)(C))->a314)))->z2[((T399*)(C))->a168]);
T75f261(GE_void(l1), t2);
}
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a168 = ((T6)((((T399*)(C))->a168)-((T6)(GE_int32(1)))));
T1150f6(GE_void(((T399*)(C))->a315), ((T399*)(C))->a313, l1, ((T399*)(C))->a131);
}
}
/* ET_EIFFEL_PARSER.yy_do_action_2 */
void T399f1047(T0* C)
{
T0* t1;
T1 t2;
T0* t3;
T0* l1 = 0;
t1 = (((T1147*)(GE_void(((T399*)(C))->a313)))->z2[((T399*)(C))->a131]);
t2 = ((t1)!=(EIF_VOID));
if (t2) {
t1 = (((T1147*)(GE_void(((T399*)(C))->a313)))->z2[((T399*)(C))->a131]);
t3 = (((T1090*)(GE_void(((T399*)(C))->a241)))->z2[((T399*)(C))->a95]);
T75f260(GE_void(t1), t3);
}
t2 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t2) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(2)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)+((T6)(GE_int32(1)))));
((T399*)(C))->a95 = ((T6)((((T399*)(C))->a95)-((T6)(GE_int32(1)))));
((T399*)(C))->a131 = ((T6)((((T399*)(C))->a131)-((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a87), ((T399*)(C))->a208));
if (t2) {
t2 = ((((T399*)(C))->a209)==(EIF_VOID));
if (t2) {
((T399*)(C))->a210 = T171c3();
((T399*)(C))->a208 = (T6)(GE_int32(10));
((T399*)(C))->a209 = (T171f1(GE_void(((T399*)(C))->a210), ((T399*)(C))->a208));
} else {
((T399*)(C))->a208 = ((T6)((((T399*)(C))->a208)+((T6)(GE_int32(10)))));
((T399*)(C))->a209 = (T171f2(GE_void(((T399*)(C))->a210), ((T399*)(C))->a209, ((T399*)(C))->a208));
}
}
T171f4(GE_void(((T399*)(C))->a210), ((T399*)(C))->a209, l1, ((T399*)(C))->a87);
}
}
/* ET_CLASS.set_leading_break */
void T75f260(T0* C, T0* a1)
{
((T75*)(C))->a43 = a1;
}
/* ET_EIFFEL_PARSER.yy_do_action_1 */
void T399f1046(T0* C)
{
T1 t1;
T0* l1 = 0;
t1 = (T6f12(&(((T399*)(C))->a55), (T6)(GE_int32(104))));
if (t1) {
((T399*)(C))->a63 = ((T6)((((T399*)(C))->a63)-((T6)(GE_int32(1)))));
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)+((T6)(GE_int32(1)))));
((T399*)(C))->a131 = ((T6)((((T399*)(C))->a131)-((T6)(GE_int32(1)))));
t1 = (T6f12(&(((T399*)(C))->a87), ((T399*)(C))->a208));
if (t1) {
t1 = ((((T399*)(C))->a209)==(EIF_VOID));
if (t1) {
((T399*)(C))->a210 = T171c3();
((T399*)(C))->a208 = (T6)(GE_int32(10));
((T399*)(C))->a209 = (T171f1(GE_void(((T399*)(C))->a210), ((T399*)(C))->a208));
} else {
((T399*)(C))->a208 = ((T6)((((T399*)(C))->a208)+((T6)(GE_int32(10)))));
((T399*)(C))->a209 = (T171f2(GE_void(((T399*)(C))->a210), ((T399*)(C))->a209, ((T399*)(C))->a208));
}
}
T171f4(GE_void(((T399*)(C))->a210), ((T399*)(C))->a209, l1, ((T399*)(C))->a87);
}
}
/* ET_EIFFEL_PARSER.yy_push_last_value */
void T399f1002(T0* C, T6 a1)
{
T6 t1;
T1 t2;
t1 = (((T132*)(GE_void(((T399*)(C))->a27)))->z2[a1]);
switch (t1) {
case (T6)(T6)(GE_int32(1)):
((T399*)(C))->a87 = ((T6)((((T399*)(C))->a87)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a87), ((T399*)(C))->a208));
if (t2) {
t2 = ((((T399*)(C))->a209)==(EIF_VOID));
if (t2) {
((T399*)(C))->a210 = T171c3();
((T399*)(C))->a208 = (T6)(GE_int32(10));
((T399*)(C))->a209 = (T171f1(GE_void(((T399*)(C))->a210), ((T399*)(C))->a208));
} else {
((T399*)(C))->a208 = ((T6)((((T399*)(C))->a208)+((T6)(GE_int32(10)))));
((T399*)(C))->a209 = (T171f2(GE_void(((T399*)(C))->a210), ((T399*)(C))->a209, ((T399*)(C))->a208));
}
}
T171f4(GE_void(((T399*)(C))->a210), ((T399*)(C))->a209, ((T399*)(C))->a211, ((T399*)(C))->a87);
break;
case (T6)(T6)(GE_int32(2)):
((T399*)(C))->a88 = ((T6)((((T399*)(C))->a88)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a88), ((T399*)(C))->a212));
if (t2) {
t2 = ((((T399*)(C))->a213)==(EIF_VOID));
if (t2) {
((T399*)(C))->a214 = T1072c3();
((T399*)(C))->a212 = (T6)(GE_int32(10));
((T399*)(C))->a213 = (T1072f1(GE_void(((T399*)(C))->a214), ((T399*)(C))->a212));
} else {
((T399*)(C))->a212 = ((T6)((((T399*)(C))->a212)+((T6)(GE_int32(10)))));
((T399*)(C))->a213 = (T1072f2(GE_void(((T399*)(C))->a214), ((T399*)(C))->a213, ((T399*)(C))->a212));
}
}
T1072f4(GE_void(((T399*)(C))->a214), ((T399*)(C))->a213, ((T399*)(C))->a215, ((T399*)(C))->a88);
break;
case (T6)(T6)(GE_int32(3)):
((T399*)(C))->a89 = ((T6)((((T399*)(C))->a89)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a89), ((T399*)(C))->a216));
if (t2) {
t2 = ((((T399*)(C))->a217)==(EIF_VOID));
if (t2) {
((T399*)(C))->a218 = T1075c3();
((T399*)(C))->a216 = (T6)(GE_int32(10));
((T399*)(C))->a217 = (T1075f1(GE_void(((T399*)(C))->a218), ((T399*)(C))->a216));
} else {
((T399*)(C))->a216 = ((T6)((((T399*)(C))->a216)+((T6)(GE_int32(10)))));
((T399*)(C))->a217 = (T1075f2(GE_void(((T399*)(C))->a218), ((T399*)(C))->a217, ((T399*)(C))->a216));
}
}
T1075f4(GE_void(((T399*)(C))->a218), ((T399*)(C))->a217, ((T399*)(C))->a219, ((T399*)(C))->a89);
break;
case (T6)(T6)(GE_int32(4)):
((T399*)(C))->a90 = ((T6)((((T399*)(C))->a90)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a90), ((T399*)(C))->a220));
if (t2) {
t2 = ((((T399*)(C))->a221)==(EIF_VOID));
if (t2) {
((T399*)(C))->a222 = T1078c3();
((T399*)(C))->a220 = (T6)(GE_int32(10));
((T399*)(C))->a221 = (T1078f1(GE_void(((T399*)(C))->a222), ((T399*)(C))->a220));
} else {
((T399*)(C))->a220 = ((T6)((((T399*)(C))->a220)+((T6)(GE_int32(10)))));
((T399*)(C))->a221 = (T1078f2(GE_void(((T399*)(C))->a222), ((T399*)(C))->a221, ((T399*)(C))->a220));
}
}
T1078f4(GE_void(((T399*)(C))->a222), ((T399*)(C))->a221, ((T399*)(C))->a223, ((T399*)(C))->a90);
break;
case (T6)(T6)(GE_int32(5)):
((T399*)(C))->a91 = ((T6)((((T399*)(C))->a91)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a91), ((T399*)(C))->a224));
if (t2) {
t2 = ((((T399*)(C))->a225)==(EIF_VOID));
if (t2) {
((T399*)(C))->a226 = T1080c3();
((T399*)(C))->a224 = (T6)(GE_int32(10));
((T399*)(C))->a225 = (T1080f1(GE_void(((T399*)(C))->a226), ((T399*)(C))->a224));
} else {
((T399*)(C))->a224 = ((T6)((((T399*)(C))->a224)+((T6)(GE_int32(10)))));
((T399*)(C))->a225 = (T1080f2(GE_void(((T399*)(C))->a226), ((T399*)(C))->a225, ((T399*)(C))->a224));
}
}
T1080f4(GE_void(((T399*)(C))->a226), ((T399*)(C))->a225, ((T399*)(C))->a227, ((T399*)(C))->a91);
break;
case (T6)(T6)(GE_int32(6)):
((T399*)(C))->a92 = ((T6)((((T399*)(C))->a92)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a92), ((T399*)(C))->a228));
if (t2) {
t2 = ((((T399*)(C))->a229)==(EIF_VOID));
if (t2) {
((T399*)(C))->a230 = T1082c3();
((T399*)(C))->a228 = (T6)(GE_int32(10));
((T399*)(C))->a229 = (T1082f1(GE_void(((T399*)(C))->a230), ((T399*)(C))->a228));
} else {
((T399*)(C))->a228 = ((T6)((((T399*)(C))->a228)+((T6)(GE_int32(10)))));
((T399*)(C))->a229 = (T1082f2(GE_void(((T399*)(C))->a230), ((T399*)(C))->a229, ((T399*)(C))->a228));
}
}
T1082f4(GE_void(((T399*)(C))->a230), ((T399*)(C))->a229, ((T399*)(C))->a231, ((T399*)(C))->a92);
break;
case (T6)(T6)(GE_int32(7)):
((T399*)(C))->a93 = ((T6)((((T399*)(C))->a93)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a93), ((T399*)(C))->a232));
if (t2) {
t2 = ((((T399*)(C))->a233)==(EIF_VOID));
if (t2) {
((T399*)(C))->a234 = T1085c3();
((T399*)(C))->a232 = (T6)(GE_int32(10));
((T399*)(C))->a233 = (T1085f1(GE_void(((T399*)(C))->a234), ((T399*)(C))->a232));
} else {
((T399*)(C))->a232 = ((T6)((((T399*)(C))->a232)+((T6)(GE_int32(10)))));
((T399*)(C))->a233 = (T1085f2(GE_void(((T399*)(C))->a234), ((T399*)(C))->a233, ((T399*)(C))->a232));
}
}
T1085f4(GE_void(((T399*)(C))->a234), ((T399*)(C))->a233, ((T399*)(C))->a235, ((T399*)(C))->a93);
break;
case (T6)(T6)(GE_int32(8)):
((T399*)(C))->a94 = ((T6)((((T399*)(C))->a94)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a94), ((T399*)(C))->a236));
if (t2) {
t2 = ((((T399*)(C))->a237)==(EIF_VOID));
if (t2) {
((T399*)(C))->a238 = T1088c3();
((T399*)(C))->a236 = (T6)(GE_int32(10));
((T399*)(C))->a237 = (T1088f1(GE_void(((T399*)(C))->a238), ((T399*)(C))->a236));
} else {
((T399*)(C))->a236 = ((T6)((((T399*)(C))->a236)+((T6)(GE_int32(10)))));
((T399*)(C))->a237 = (T1088f2(GE_void(((T399*)(C))->a238), ((T399*)(C))->a237, ((T399*)(C))->a236));
}
}
T1088f4(GE_void(((T399*)(C))->a238), ((T399*)(C))->a237, ((T399*)(C))->a239, ((T399*)(C))->a94);
break;
case (T6)(T6)(GE_int32(9)):
((T399*)(C))->a95 = ((T6)((((T399*)(C))->a95)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a95), ((T399*)(C))->a240));
if (t2) {
t2 = ((((T399*)(C))->a241)==(EIF_VOID));
if (t2) {
((T399*)(C))->a242 = T1091c3();
((T399*)(C))->a240 = (T6)(GE_int32(10));
((T399*)(C))->a241 = (T1091f1(GE_void(((T399*)(C))->a242), ((T399*)(C))->a240));
} else {
((T399*)(C))->a240 = ((T6)((((T399*)(C))->a240)+((T6)(GE_int32(10)))));
((T399*)(C))->a241 = (T1091f2(GE_void(((T399*)(C))->a242), ((T399*)(C))->a241, ((T399*)(C))->a240));
}
}
T1091f4(GE_void(((T399*)(C))->a242), ((T399*)(C))->a241, ((T399*)(C))->a243, ((T399*)(C))->a95);
break;
case (T6)(T6)(GE_int32(10)):
((T399*)(C))->a96 = ((T6)((((T399*)(C))->a96)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a96), ((T399*)(C))->a244));
if (t2) {
t2 = ((((T399*)(C))->a245)==(EIF_VOID));
if (t2) {
((T399*)(C))->a246 = T1094c3();
((T399*)(C))->a244 = (T6)(GE_int32(10));
((T399*)(C))->a245 = (T1094f1(GE_void(((T399*)(C))->a246), ((T399*)(C))->a244));
} else {
((T399*)(C))->a244 = ((T6)((((T399*)(C))->a244)+((T6)(GE_int32(10)))));
((T399*)(C))->a245 = (T1094f2(GE_void(((T399*)(C))->a246), ((T399*)(C))->a245, ((T399*)(C))->a244));
}
}
T1094f4(GE_void(((T399*)(C))->a246), ((T399*)(C))->a245, ((T399*)(C))->a247, ((T399*)(C))->a96);
break;
case (T6)(T6)(GE_int32(11)):
((T399*)(C))->a97 = ((T6)((((T399*)(C))->a97)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a97), ((T399*)(C))->a248));
if (t2) {
t2 = ((((T399*)(C))->a249)==(EIF_VOID));
if (t2) {
((T399*)(C))->a250 = T1096c3();
((T399*)(C))->a248 = (T6)(GE_int32(10));
((T399*)(C))->a249 = (T1096f1(GE_void(((T399*)(C))->a250), ((T399*)(C))->a248));
} else {
((T399*)(C))->a248 = ((T6)((((T399*)(C))->a248)+((T6)(GE_int32(10)))));
((T399*)(C))->a249 = (T1096f2(GE_void(((T399*)(C))->a250), ((T399*)(C))->a249, ((T399*)(C))->a248));
}
}
T1096f4(GE_void(((T399*)(C))->a250), ((T399*)(C))->a249, ((T399*)(C))->a251, ((T399*)(C))->a97);
break;
case (T6)(T6)(GE_int32(12)):
((T399*)(C))->a98 = ((T6)((((T399*)(C))->a98)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a98), ((T399*)(C))->a252));
if (t2) {
t2 = ((((T399*)(C))->a253)==(EIF_VOID));
if (t2) {
((T399*)(C))->a254 = T1099c3();
((T399*)(C))->a252 = (T6)(GE_int32(10));
((T399*)(C))->a253 = (T1099f1(GE_void(((T399*)(C))->a254), ((T399*)(C))->a252));
} else {
((T399*)(C))->a252 = ((T6)((((T399*)(C))->a252)+((T6)(GE_int32(10)))));
((T399*)(C))->a253 = (T1099f2(GE_void(((T399*)(C))->a254), ((T399*)(C))->a253, ((T399*)(C))->a252));
}
}
T1099f4(GE_void(((T399*)(C))->a254), ((T399*)(C))->a253, ((T399*)(C))->a255, ((T399*)(C))->a98);
break;
case (T6)(T6)(GE_int32(13)):
((T399*)(C))->a99 = ((T6)((((T399*)(C))->a99)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a99), ((T399*)(C))->a256));
if (t2) {
t2 = ((((T399*)(C))->a257)==(EIF_VOID));
if (t2) {
((T399*)(C))->a258 = T173c5();
((T399*)(C))->a256 = (T6)(GE_int32(10));
((T399*)(C))->a257 = (T173f1(GE_void(((T399*)(C))->a258), ((T399*)(C))->a256));
} else {
((T399*)(C))->a256 = ((T6)((((T399*)(C))->a256)+((T6)(GE_int32(10)))));
((T399*)(C))->a257 = (T173f2(GE_void(((T399*)(C))->a258), ((T399*)(C))->a257, ((T399*)(C))->a256));
}
}
T173f6(GE_void(((T399*)(C))->a258), ((T399*)(C))->a257, ((T399*)(C))->a259, ((T399*)(C))->a99);
break;
case (T6)(T6)(GE_int32(14)):
((T399*)(C))->a100 = ((T6)((((T399*)(C))->a100)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a100), ((T399*)(C))->a260));
if (t2) {
t2 = ((((T399*)(C))->a261)==(EIF_VOID));
if (t2) {
((T399*)(C))->a262 = T1102c3();
((T399*)(C))->a260 = (T6)(GE_int32(10));
((T399*)(C))->a261 = (T1102f1(GE_void(((T399*)(C))->a262), ((T399*)(C))->a260));
} else {
((T399*)(C))->a260 = ((T6)((((T399*)(C))->a260)+((T6)(GE_int32(10)))));
((T399*)(C))->a261 = (T1102f2(GE_void(((T399*)(C))->a262), ((T399*)(C))->a261, ((T399*)(C))->a260));
}
}
T1102f4(GE_void(((T399*)(C))->a262), ((T399*)(C))->a261, ((T399*)(C))->a263, ((T399*)(C))->a100);
break;
case (T6)(T6)(GE_int32(15)):
((T399*)(C))->a101 = ((T6)((((T399*)(C))->a101)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a101), ((T399*)(C))->a264));
if (t2) {
t2 = ((((T399*)(C))->a265)==(EIF_VOID));
if (t2) {
((T399*)(C))->a266 = T1105c3();
((T399*)(C))->a264 = (T6)(GE_int32(10));
((T399*)(C))->a265 = (T1105f1(GE_void(((T399*)(C))->a266), ((T399*)(C))->a264));
} else {
((T399*)(C))->a264 = ((T6)((((T399*)(C))->a264)+((T6)(GE_int32(10)))));
((T399*)(C))->a265 = (T1105f2(GE_void(((T399*)(C))->a266), ((T399*)(C))->a265, ((T399*)(C))->a264));
}
}
T1105f4(GE_void(((T399*)(C))->a266), ((T399*)(C))->a265, ((T399*)(C))->a267, ((T399*)(C))->a101);
break;
case (T6)(T6)(GE_int32(16)):
((T399*)(C))->a102 = ((T6)((((T399*)(C))->a102)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a102), ((T399*)(C))->a268));
if (t2) {
t2 = ((((T399*)(C))->a269)==(EIF_VOID));
if (t2) {
((T399*)(C))->a270 = T1107c3();
((T399*)(C))->a268 = (T6)(GE_int32(10));
((T399*)(C))->a269 = (T1107f1(GE_void(((T399*)(C))->a270), ((T399*)(C))->a268));
} else {
((T399*)(C))->a268 = ((T6)((((T399*)(C))->a268)+((T6)(GE_int32(10)))));
((T399*)(C))->a269 = (T1107f2(GE_void(((T399*)(C))->a270), ((T399*)(C))->a269, ((T399*)(C))->a268));
}
}
T1107f4(GE_void(((T399*)(C))->a270), ((T399*)(C))->a269, ((T399*)(C))->a271, ((T399*)(C))->a102);
break;
case (T6)(T6)(GE_int32(17)):
((T399*)(C))->a103 = ((T6)((((T399*)(C))->a103)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a103), ((T399*)(C))->a272));
if (t2) {
t2 = ((((T399*)(C))->a273)==(EIF_VOID));
if (t2) {
((T399*)(C))->a274 = T1110c3();
((T399*)(C))->a272 = (T6)(GE_int32(10));
((T399*)(C))->a273 = (T1110f1(GE_void(((T399*)(C))->a274), ((T399*)(C))->a272));
} else {
((T399*)(C))->a272 = ((T6)((((T399*)(C))->a272)+((T6)(GE_int32(10)))));
((T399*)(C))->a273 = (T1110f2(GE_void(((T399*)(C))->a274), ((T399*)(C))->a273, ((T399*)(C))->a272));
}
}
T1110f4(GE_void(((T399*)(C))->a274), ((T399*)(C))->a273, ((T399*)(C))->a275, ((T399*)(C))->a103);
break;
case (T6)(T6)(GE_int32(18)):
((T399*)(C))->a104 = ((T6)((((T399*)(C))->a104)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a104), ((T399*)(C))->a276));
if (t2) {
t2 = ((((T399*)(C))->a277)==(EIF_VOID));
if (t2) {
((T399*)(C))->a278 = T1112c3();
((T399*)(C))->a276 = (T6)(GE_int32(10));
((T399*)(C))->a277 = (T1112f1(GE_void(((T399*)(C))->a278), ((T399*)(C))->a276));
} else {
((T399*)(C))->a276 = ((T6)((((T399*)(C))->a276)+((T6)(GE_int32(10)))));
((T399*)(C))->a277 = (T1112f2(GE_void(((T399*)(C))->a278), ((T399*)(C))->a277, ((T399*)(C))->a276));
}
}
T1112f4(GE_void(((T399*)(C))->a278), ((T399*)(C))->a277, ((T399*)(C))->a279, ((T399*)(C))->a104);
break;
case (T6)(T6)(GE_int32(19)):
((T399*)(C))->a105 = ((T6)((((T399*)(C))->a105)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a105), ((T399*)(C))->a280));
if (t2) {
t2 = ((((T399*)(C))->a281)==(EIF_VOID));
if (t2) {
((T399*)(C))->a282 = T1115c3();
((T399*)(C))->a280 = (T6)(GE_int32(10));
((T399*)(C))->a281 = (T1115f1(GE_void(((T399*)(C))->a282), ((T399*)(C))->a280));
} else {
((T399*)(C))->a280 = ((T6)((((T399*)(C))->a280)+((T6)(GE_int32(10)))));
((T399*)(C))->a281 = (T1115f2(GE_void(((T399*)(C))->a282), ((T399*)(C))->a281, ((T399*)(C))->a280));
}
}
T1115f4(GE_void(((T399*)(C))->a282), ((T399*)(C))->a281, ((T399*)(C))->a283, ((T399*)(C))->a105);
break;
case (T6)(T6)(GE_int32(20)):
((T399*)(C))->a106 = ((T6)((((T399*)(C))->a106)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a106), ((T399*)(C))->a284));
if (t2) {
t2 = ((((T399*)(C))->a285)==(EIF_VOID));
if (t2) {
((T399*)(C))->a286 = T1118c3();
((T399*)(C))->a284 = (T6)(GE_int32(10));
((T399*)(C))->a285 = (T1118f1(GE_void(((T399*)(C))->a286), ((T399*)(C))->a284));
} else {
((T399*)(C))->a284 = ((T6)((((T399*)(C))->a284)+((T6)(GE_int32(10)))));
((T399*)(C))->a285 = (T1118f2(GE_void(((T399*)(C))->a286), ((T399*)(C))->a285, ((T399*)(C))->a284));
}
}
T1118f4(GE_void(((T399*)(C))->a286), ((T399*)(C))->a285, ((T399*)(C))->a287, ((T399*)(C))->a106);
break;
case (T6)(T6)(GE_int32(21)):
((T399*)(C))->a107 = ((T6)((((T399*)(C))->a107)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a107), ((T399*)(C))->a288));
if (t2) {
t2 = ((((T399*)(C))->a289)==(EIF_VOID));
if (t2) {
((T399*)(C))->a290 = T1121c3();
((T399*)(C))->a288 = (T6)(GE_int32(10));
((T399*)(C))->a289 = (T1121f1(GE_void(((T399*)(C))->a290), ((T399*)(C))->a288));
} else {
((T399*)(C))->a288 = ((T6)((((T399*)(C))->a288)+((T6)(GE_int32(10)))));
((T399*)(C))->a289 = (T1121f2(GE_void(((T399*)(C))->a290), ((T399*)(C))->a289, ((T399*)(C))->a288));
}
}
T1121f4(GE_void(((T399*)(C))->a290), ((T399*)(C))->a289, ((T399*)(C))->a291, ((T399*)(C))->a107);
break;
case (T6)(T6)(GE_int32(22)):
((T399*)(C))->a108 = ((T6)((((T399*)(C))->a108)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a108), ((T399*)(C))->a292));
if (t2) {
t2 = ((((T399*)(C))->a293)==(EIF_VOID));
if (t2) {
((T399*)(C))->a294 = T1124c3();
((T399*)(C))->a292 = (T6)(GE_int32(10));
((T399*)(C))->a293 = (T1124f1(GE_void(((T399*)(C))->a294), ((T399*)(C))->a292));
} else {
((T399*)(C))->a292 = ((T6)((((T399*)(C))->a292)+((T6)(GE_int32(10)))));
((T399*)(C))->a293 = (T1124f2(GE_void(((T399*)(C))->a294), ((T399*)(C))->a293, ((T399*)(C))->a292));
}
}
T1124f4(GE_void(((T399*)(C))->a294), ((T399*)(C))->a293, ((T399*)(C))->a295, ((T399*)(C))->a108);
break;
case (T6)(T6)(GE_int32(23)):
((T399*)(C))->a109 = ((T6)((((T399*)(C))->a109)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a109), ((T399*)(C))->a296));
if (t2) {
t2 = ((((T399*)(C))->a297)==(EIF_VOID));
if (t2) {
((T399*)(C))->a298 = T1126c3();
((T399*)(C))->a296 = (T6)(GE_int32(10));
((T399*)(C))->a297 = (T1126f1(GE_void(((T399*)(C))->a298), ((T399*)(C))->a296));
} else {
((T399*)(C))->a296 = ((T6)((((T399*)(C))->a296)+((T6)(GE_int32(10)))));
((T399*)(C))->a297 = (T1126f2(GE_void(((T399*)(C))->a298), ((T399*)(C))->a297, ((T399*)(C))->a296));
}
}
T1126f4(GE_void(((T399*)(C))->a298), ((T399*)(C))->a297, ((T399*)(C))->a299, ((T399*)(C))->a109);
break;
case (T6)(T6)(GE_int32(24)):
((T399*)(C))->a110 = ((T6)((((T399*)(C))->a110)+((T6)(GE_int32(1)))));
t2 = (T6f12(&(((T399*)(C))->a110), ((T399*)(C))->a300));
if (t2) {
t2 = ((((T399*)(C))->a301)==(EIF_VOID));
if (t2) {
((T399*)(C))->a302 = T1129c3();
((T399*)(C))->a300 = (T6)(GE_int32(10));
((T399*)(C))->a301 = (T1129f1(GE_void(((T399*)(C))->a302), ((T399*)(C))->a300));
} else {
((T399*)(C))->a300 = ((T6)((((T399*)(C))->a300)+((T6)(GE_int32(10)))));
((T399*)(C))->a301 = (T1129f2(GE_void(((T399*)(C))->a302), ((T399*)(C))->a301, ((T399*)(C))->a300));
}
}
T1129f4(GE_void(((T399*)(C))->a302), ((T399*)(C))->a301, ((T399*)(C))->a303, ((T399*)(C))->a110);
break;
default:
T399f1000(C);
break;
}
}
/* KL_SPECIAL_ROUTINES [ET_QUESTION_MARK_SYMBOL].force */
void T1129f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1128*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1128*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1128*)(GE_void(a1)))->a1);
T1128f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_QUESTION_MARK_SYMBOL].fill_with */
void T1128f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1128*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1128*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1128f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_QUESTION_MARK_SYMBOL].extend */
void T1128f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1128*)(C))->a1;
((T1128*)(C))->a1 = t1 + 1 ;
((T1128*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_QUESTION_MARK_SYMBOL].resize */
T0* T1129f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1128*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1128f3(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_QUESTION_MARK_SYMBOL].aliased_resized_area */
T0* T1128f3(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1128*)(C))->a2;
if (a1 > t1) {
R = GE_new1128(a1, EIF_FALSE);
*(T1128*)(R) = *(T1128*)(C);
memcpy(((T1128*)(R))->z2,((T1128*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1128*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1128*)(R))->a1;
if (t1 > a1) {
((T1128*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1128*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1128*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_QUESTION_MARK_SYMBOL].make */
T0* T1129f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1659c4();
R = (((T1659*)(GE_void(l1)))->a1);
R = (T1128f3(GE_void(R), a1));
return R;
}
/* ARRAY [ET_QUESTION_MARK_SYMBOL].make_empty */
T0* T1659c4(void)
{
T0* C;
C = GE_new1659(EIF_TRUE);
((T1659*)(C))->a2 = (T6)(GE_int32(1));
((T1659*)(C))->a3 = (T6)(GE_int32(0));
T1659f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_QUESTION_MARK_SYMBOL].make_empty_area */
void T1659f5(T0* C, T6 a1)
{
((T1659*)(C))->a1 = T1128c6(a1);
}
/* SPECIAL [ET_QUESTION_MARK_SYMBOL].make_empty */
T0* T1128c6(T6 a1)
{
T0* C;
C = GE_new1128(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_QUESTION_MARK_SYMBOL].default_create */
T0* T1129c3(void)
{
T0* C;
C = GE_new1129(EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_BRACKET_SYMBOL].force */
void T1126f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1125*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1125*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1125*)(GE_void(a1)))->a1);
T1125f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_BRACKET_SYMBOL].fill_with */
void T1125f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1125*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1125*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1125f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_BRACKET_SYMBOL].extend */
void T1125f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1125*)(C))->a1;
((T1125*)(C))->a1 = t1 + 1 ;
((T1125*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_BRACKET_SYMBOL].resize */
T0* T1126f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1125*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1125f3(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_BRACKET_SYMBOL].aliased_resized_area */
T0* T1125f3(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1125*)(C))->a2;
if (a1 > t1) {
R = GE_new1125(a1, EIF_FALSE);
*(T1125*)(R) = *(T1125*)(C);
memcpy(((T1125*)(R))->z2,((T1125*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1125*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1125*)(R))->a1;
if (t1 > a1) {
((T1125*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1125*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1125*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_BRACKET_SYMBOL].make */
T0* T1126f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1658c4();
R = (((T1658*)(GE_void(l1)))->a1);
R = (T1125f3(GE_void(R), a1));
return R;
}
/* ARRAY [ET_BRACKET_SYMBOL].make_empty */
T0* T1658c4(void)
{
T0* C;
C = GE_new1658(EIF_TRUE);
((T1658*)(C))->a2 = (T6)(GE_int32(1));
((T1658*)(C))->a3 = (T6)(GE_int32(0));
T1658f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_BRACKET_SYMBOL].make_empty_area */
void T1658f5(T0* C, T6 a1)
{
((T1658*)(C))->a1 = T1125c6(a1);
}
/* SPECIAL [ET_BRACKET_SYMBOL].make_empty */
T0* T1125c6(T6 a1)
{
T0* C;
C = GE_new1125(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_BRACKET_SYMBOL].default_create */
T0* T1126c3(void)
{
T0* C;
C = GE_new1126(EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_VOID].force */
void T1121f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1120*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1120*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1120*)(GE_void(a1)))->a1);
T1120f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_VOID].fill_with */
void T1120f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1120*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1120*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1120f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_VOID].extend */
void T1120f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1120*)(C))->a1;
((T1120*)(C))->a1 = t1 + 1 ;
((T1120*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_VOID].resize */
T0* T1121f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1120*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1120f3(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_VOID].aliased_resized_area */
T0* T1120f3(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1120*)(C))->a2;
if (a1 > t1) {
R = GE_new1120(a1, EIF_FALSE);
*(T1120*)(R) = *(T1120*)(C);
memcpy(((T1120*)(R))->z2,((T1120*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1120*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1120*)(R))->a1;
if (t1 > a1) {
((T1120*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1120*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1120*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_VOID].make */
T0* T1121f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1656c4();
R = (((T1656*)(GE_void(l1)))->a1);
R = (T1120f3(GE_void(R), a1));
return R;
}
/* ARRAY [ET_VOID].make_empty */
T0* T1656c4(void)
{
T0* C;
C = GE_new1656(EIF_TRUE);
((T1656*)(C))->a2 = (T6)(GE_int32(1));
((T1656*)(C))->a3 = (T6)(GE_int32(0));
T1656f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_VOID].make_empty_area */
void T1656f5(T0* C, T6 a1)
{
((T1656*)(C))->a1 = T1120c6(a1);
}
/* SPECIAL [ET_VOID].make_empty */
T0* T1120c6(T6 a1)
{
T0* C;
C = GE_new1120(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_VOID].default_create */
T0* T1121c3(void)
{
T0* C;
C = GE_new1121(EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_SYMBOL_OPERATOR].force */
void T1118f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1117*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1117*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1117*)(GE_void(a1)))->a1);
T1117f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_SYMBOL_OPERATOR].fill_with */
void T1117f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1117*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1117*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1117f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_SYMBOL_OPERATOR].extend */
void T1117f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1117*)(C))->a1;
((T1117*)(C))->a1 = t1 + 1 ;
((T1117*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_SYMBOL_OPERATOR].resize */
T0* T1118f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1117*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1117f3(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_SYMBOL_OPERATOR].aliased_resized_area */
T0* T1117f3(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1117*)(C))->a2;
if (a1 > t1) {
R = GE_new1117(a1, EIF_FALSE);
*(T1117*)(R) = *(T1117*)(C);
memcpy(((T1117*)(R))->z2,((T1117*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1117*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1117*)(R))->a1;
if (t1 > a1) {
((T1117*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1117*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1117*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_SYMBOL_OPERATOR].make */
T0* T1118f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1655c4();
R = (((T1655*)(GE_void(l1)))->a1);
R = (T1117f3(GE_void(R), a1));
return R;
}
/* ARRAY [ET_SYMBOL_OPERATOR].make_empty */
T0* T1655c4(void)
{
T0* C;
C = GE_new1655(EIF_TRUE);
((T1655*)(C))->a2 = (T6)(GE_int32(1));
((T1655*)(C))->a3 = (T6)(GE_int32(0));
T1655f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_SYMBOL_OPERATOR].make_empty_area */
void T1655f5(T0* C, T6 a1)
{
((T1655*)(C))->a1 = T1117c6(a1);
}
/* SPECIAL [ET_SYMBOL_OPERATOR].make_empty */
T0* T1117c6(T6 a1)
{
T0* C;
C = GE_new1117(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_SYMBOL_OPERATOR].default_create */
T0* T1118c3(void)
{
T0* C;
C = GE_new1118(EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_RETRY_INSTRUCTION].force */
void T1115f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1114*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1114*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1114*)(GE_void(a1)))->a1);
T1114f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_RETRY_INSTRUCTION].fill_with */
void T1114f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1114*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1114*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1114f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_RETRY_INSTRUCTION].extend */
void T1114f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1114*)(C))->a1;
((T1114*)(C))->a1 = t1 + 1 ;
((T1114*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_RETRY_INSTRUCTION].resize */
T0* T1115f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1114*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1114f3(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_RETRY_INSTRUCTION].aliased_resized_area */
T0* T1114f3(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1114*)(C))->a2;
if (a1 > t1) {
R = GE_new1114(a1, EIF_FALSE);
*(T1114*)(R) = *(T1114*)(C);
memcpy(((T1114*)(R))->z2,((T1114*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1114*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1114*)(R))->a1;
if (t1 > a1) {
((T1114*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1114*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1114*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_RETRY_INSTRUCTION].make */
T0* T1115f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1654c4();
R = (((T1654*)(GE_void(l1)))->a1);
R = (T1114f3(GE_void(R), a1));
return R;
}
/* ARRAY [ET_RETRY_INSTRUCTION].make_empty */
T0* T1654c4(void)
{
T0* C;
C = GE_new1654(EIF_TRUE);
((T1654*)(C))->a2 = (T6)(GE_int32(1));
((T1654*)(C))->a3 = (T6)(GE_int32(0));
T1654f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_RETRY_INSTRUCTION].make_empty_area */
void T1654f5(T0* C, T6 a1)
{
((T1654*)(C))->a1 = T1114c6(a1);
}
/* SPECIAL [ET_RETRY_INSTRUCTION].make_empty */
T0* T1114c6(T6 a1)
{
T0* C;
C = GE_new1114(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_RETRY_INSTRUCTION].default_create */
T0* T1115c3(void)
{
T0* C;
C = GE_new1115(EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_RESULT].force */
void T1112f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1111*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1111*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1111*)(GE_void(a1)))->a1);
T1111f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_RESULT].fill_with */
void T1111f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1111*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1111*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1111f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_RESULT].extend */
void T1111f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1111*)(C))->a1;
((T1111*)(C))->a1 = t1 + 1 ;
((T1111*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_RESULT].resize */
T0* T1112f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1111*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1111f3(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_RESULT].aliased_resized_area */
T0* T1111f3(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1111*)(C))->a2;
if (a1 > t1) {
R = GE_new1111(a1, EIF_FALSE);
*(T1111*)(R) = *(T1111*)(C);
memcpy(((T1111*)(R))->z2,((T1111*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1111*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1111*)(R))->a1;
if (t1 > a1) {
((T1111*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1111*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1111*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_RESULT].make */
T0* T1112f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1653c4();
R = (((T1653*)(GE_void(l1)))->a1);
R = (T1111f3(GE_void(R), a1));
return R;
}
/* ARRAY [ET_RESULT].make_empty */
T0* T1653c4(void)
{
T0* C;
C = GE_new1653(EIF_TRUE);
((T1653*)(C))->a2 = (T6)(GE_int32(1));
((T1653*)(C))->a3 = (T6)(GE_int32(0));
T1653f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_RESULT].make_empty_area */
void T1653f5(T0* C, T6 a1)
{
((T1653*)(C))->a1 = T1111c6(a1);
}
/* SPECIAL [ET_RESULT].make_empty */
T0* T1111c6(T6 a1)
{
T0* C;
C = GE_new1111(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_RESULT].default_create */
T0* T1112c3(void)
{
T0* C;
C = GE_new1112(EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_REAL_CONSTANT].resize */
T0* T1110f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1109*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1109f3(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_REAL_CONSTANT].aliased_resized_area */
T0* T1109f3(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1109*)(C))->a2;
if (a1 > t1) {
R = GE_new1109(a1, EIF_FALSE);
*(T1109*)(R) = *(T1109*)(C);
memcpy(((T1109*)(R))->z2,((T1109*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1109*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1109*)(R))->a1;
if (t1 > a1) {
((T1109*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1109*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1109*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_REAL_CONSTANT].make */
T0* T1110f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1652c4();
R = (((T1652*)(GE_void(l1)))->a1);
R = (T1109f3(GE_void(R), a1));
return R;
}
/* ARRAY [ET_REAL_CONSTANT].make_empty */
T0* T1652c4(void)
{
T0* C;
C = GE_new1652(EIF_TRUE);
((T1652*)(C))->a2 = (T6)(GE_int32(1));
((T1652*)(C))->a3 = (T6)(GE_int32(0));
T1652f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_REAL_CONSTANT].make_empty_area */
void T1652f5(T0* C, T6 a1)
{
((T1652*)(C))->a1 = T1109c6(a1);
}
/* SPECIAL [ET_REAL_CONSTANT].make_empty */
T0* T1109c6(T6 a1)
{
T0* C;
C = GE_new1109(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_REAL_CONSTANT].default_create */
T0* T1110c3(void)
{
T0* C;
C = GE_new1110(EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_KEYWORD_OPERATOR].force */
void T1105f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1104*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1104*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1104*)(GE_void(a1)))->a1);
T1104f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_KEYWORD_OPERATOR].fill_with */
void T1104f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1104*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1104*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1104f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_KEYWORD_OPERATOR].extend */
void T1104f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1104*)(C))->a1;
((T1104*)(C))->a1 = t1 + 1 ;
((T1104*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_KEYWORD_OPERATOR].resize */
T0* T1105f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1104*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1104f3(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_KEYWORD_OPERATOR].aliased_resized_area */
T0* T1104f3(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1104*)(C))->a2;
if (a1 > t1) {
R = GE_new1104(a1, EIF_FALSE);
*(T1104*)(R) = *(T1104*)(C);
memcpy(((T1104*)(R))->z2,((T1104*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1104*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1104*)(R))->a1;
if (t1 > a1) {
((T1104*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1104*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1104*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_KEYWORD_OPERATOR].make */
T0* T1105f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1650c4();
R = (((T1650*)(GE_void(l1)))->a1);
R = (T1104f3(GE_void(R), a1));
return R;
}
/* ARRAY [ET_KEYWORD_OPERATOR].make_empty */
T0* T1650c4(void)
{
T0* C;
C = GE_new1650(EIF_TRUE);
((T1650*)(C))->a2 = (T6)(GE_int32(1));
((T1650*)(C))->a3 = (T6)(GE_int32(0));
T1650f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_KEYWORD_OPERATOR].make_empty_area */
void T1650f5(T0* C, T6 a1)
{
((T1650*)(C))->a1 = T1104c6(a1);
}
/* SPECIAL [ET_KEYWORD_OPERATOR].make_empty */
T0* T1104c6(T6 a1)
{
T0* C;
C = GE_new1104(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_KEYWORD_OPERATOR].default_create */
T0* T1105c3(void)
{
T0* C;
C = GE_new1105(EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_INTEGER_CONSTANT].resize */
T0* T1102f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1101*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1101f3(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_INTEGER_CONSTANT].aliased_resized_area */
T0* T1101f3(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1101*)(C))->a2;
if (a1 > t1) {
R = GE_new1101(a1, EIF_FALSE);
*(T1101*)(R) = *(T1101*)(C);
memcpy(((T1101*)(R))->z2,((T1101*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1101*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1101*)(R))->a1;
if (t1 > a1) {
((T1101*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1101*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1101*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_INTEGER_CONSTANT].make */
T0* T1102f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1649c4();
R = (((T1649*)(GE_void(l1)))->a1);
R = (T1101f3(GE_void(R), a1));
return R;
}
/* ARRAY [ET_INTEGER_CONSTANT].make_empty */
T0* T1649c4(void)
{
T0* C;
C = GE_new1649(EIF_TRUE);
((T1649*)(C))->a2 = (T6)(GE_int32(1));
((T1649*)(C))->a3 = (T6)(GE_int32(0));
T1649f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_INTEGER_CONSTANT].make_empty_area */
void T1649f5(T0* C, T6 a1)
{
((T1649*)(C))->a1 = T1101c6(a1);
}
/* SPECIAL [ET_INTEGER_CONSTANT].make_empty */
T0* T1101c6(T6 a1)
{
T0* C;
C = GE_new1101(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_INTEGER_CONSTANT].default_create */
T0* T1102c3(void)
{
T0* C;
C = GE_new1102(EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_FREE_OPERATOR].force */
void T1099f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1098*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1098*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1098*)(GE_void(a1)))->a1);
T1098f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_FREE_OPERATOR].fill_with */
void T1098f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1098*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1098*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1098f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_FREE_OPERATOR].extend */
void T1098f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1098*)(C))->a1;
((T1098*)(C))->a1 = t1 + 1 ;
((T1098*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_FREE_OPERATOR].resize */
T0* T1099f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1098*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1098f3(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_FREE_OPERATOR].aliased_resized_area */
T0* T1098f3(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1098*)(C))->a2;
if (a1 > t1) {
R = GE_new1098(a1, EIF_FALSE);
*(T1098*)(R) = *(T1098*)(C);
memcpy(((T1098*)(R))->z2,((T1098*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1098*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1098*)(R))->a1;
if (t1 > a1) {
((T1098*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1098*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1098*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_FREE_OPERATOR].make */
T0* T1099f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1648c4();
R = (((T1648*)(GE_void(l1)))->a1);
R = (T1098f3(GE_void(R), a1));
return R;
}
/* ARRAY [ET_FREE_OPERATOR].make_empty */
T0* T1648c4(void)
{
T0* C;
C = GE_new1648(EIF_TRUE);
((T1648*)(C))->a2 = (T6)(GE_int32(1));
((T1648*)(C))->a3 = (T6)(GE_int32(0));
T1648f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_FREE_OPERATOR].make_empty_area */
void T1648f5(T0* C, T6 a1)
{
((T1648*)(C))->a1 = T1098c6(a1);
}
/* SPECIAL [ET_FREE_OPERATOR].make_empty */
T0* T1098c6(T6 a1)
{
T0* C;
C = GE_new1098(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_FREE_OPERATOR].default_create */
T0* T1099c3(void)
{
T0* C;
C = GE_new1099(EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_CURRENT].force */
void T1096f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1095*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1095*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1095*)(GE_void(a1)))->a1);
T1095f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_CURRENT].fill_with */
void T1095f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1095*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1095*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1095f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_CURRENT].extend */
void T1095f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1095*)(C))->a1;
((T1095*)(C))->a1 = t1 + 1 ;
((T1095*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_CURRENT].resize */
T0* T1096f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1095*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1095f3(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_CURRENT].aliased_resized_area */
T0* T1095f3(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1095*)(C))->a2;
if (a1 > t1) {
R = GE_new1095(a1, EIF_FALSE);
*(T1095*)(R) = *(T1095*)(C);
memcpy(((T1095*)(R))->z2,((T1095*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1095*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1095*)(R))->a1;
if (t1 > a1) {
((T1095*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1095*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1095*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_CURRENT].make */
T0* T1096f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1647c4();
R = (((T1647*)(GE_void(l1)))->a1);
R = (T1095f3(GE_void(R), a1));
return R;
}
/* ARRAY [ET_CURRENT].make_empty */
T0* T1647c4(void)
{
T0* C;
C = GE_new1647(EIF_TRUE);
((T1647*)(C))->a2 = (T6)(GE_int32(1));
((T1647*)(C))->a3 = (T6)(GE_int32(0));
T1647f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_CURRENT].make_empty_area */
void T1647f5(T0* C, T6 a1)
{
((T1647*)(C))->a1 = T1095c6(a1);
}
/* SPECIAL [ET_CURRENT].make_empty */
T0* T1095c6(T6 a1)
{
T0* C;
C = GE_new1095(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_CURRENT].default_create */
T0* T1096c3(void)
{
T0* C;
C = GE_new1096(EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_BREAK].force */
void T1091f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1090*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1090*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1090*)(GE_void(a1)))->a1);
T1090f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_BREAK].fill_with */
void T1090f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1090*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1090*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1090f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_BREAK].extend */
void T1090f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1090*)(C))->a1;
((T1090*)(C))->a1 = t1 + 1 ;
((T1090*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_BREAK].resize */
T0* T1091f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1090*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1090f3(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_BREAK].aliased_resized_area */
T0* T1090f3(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1090*)(C))->a2;
if (a1 > t1) {
R = GE_new1090(a1, EIF_FALSE);
*(T1090*)(R) = *(T1090*)(C);
memcpy(((T1090*)(R))->z2,((T1090*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1090*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1090*)(R))->a1;
if (t1 > a1) {
((T1090*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1090*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1090*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_BREAK].make */
T0* T1091f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1645c4();
R = (((T1645*)(GE_void(l1)))->a1);
R = (T1090f3(GE_void(R), a1));
return R;
}
/* ARRAY [ET_BREAK].make_empty */
T0* T1645c4(void)
{
T0* C;
C = GE_new1645(EIF_TRUE);
((T1645*)(C))->a2 = (T6)(GE_int32(1));
((T1645*)(C))->a3 = (T6)(GE_int32(0));
T1645f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_BREAK].make_empty_area */
void T1645f5(T0* C, T6 a1)
{
((T1645*)(C))->a1 = T1090c6(a1);
}
/* SPECIAL [ET_BREAK].make_empty */
T0* T1090c6(T6 a1)
{
T0* C;
C = GE_new1090(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_BREAK].default_create */
T0* T1091c3(void)
{
T0* C;
C = GE_new1091(EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_BOOLEAN_CONSTANT].resize */
T0* T1088f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1087*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1087f3(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_BOOLEAN_CONSTANT].aliased_resized_area */
T0* T1087f3(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1087*)(C))->a2;
if (a1 > t1) {
R = GE_new1087(a1, EIF_FALSE);
*(T1087*)(R) = *(T1087*)(C);
memcpy(((T1087*)(R))->z2,((T1087*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1087*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1087*)(R))->a1;
if (t1 > a1) {
((T1087*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1087*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1087*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_BOOLEAN_CONSTANT].make */
T0* T1088f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1644c4();
R = (((T1644*)(GE_void(l1)))->a1);
R = (T1087f3(GE_void(R), a1));
return R;
}
/* ARRAY [ET_BOOLEAN_CONSTANT].make_empty */
T0* T1644c4(void)
{
T0* C;
C = GE_new1644(EIF_TRUE);
((T1644*)(C))->a2 = (T6)(GE_int32(1));
((T1644*)(C))->a3 = (T6)(GE_int32(0));
T1644f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_BOOLEAN_CONSTANT].make_empty_area */
void T1644f5(T0* C, T6 a1)
{
((T1644*)(C))->a1 = T1087c6(a1);
}
/* SPECIAL [ET_BOOLEAN_CONSTANT].make_empty */
T0* T1087c6(T6 a1)
{
T0* C;
C = GE_new1087(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_BOOLEAN_CONSTANT].default_create */
T0* T1088c3(void)
{
T0* C;
C = GE_new1088(EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_BIT_CONSTANT].force */
void T1085f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1084*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1084*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1084*)(GE_void(a1)))->a1);
T1084f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_BIT_CONSTANT].fill_with */
void T1084f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1084*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1084*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1084f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_BIT_CONSTANT].extend */
void T1084f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1084*)(C))->a1;
((T1084*)(C))->a1 = t1 + 1 ;
((T1084*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_BIT_CONSTANT].resize */
T0* T1085f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1084*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1084f3(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_BIT_CONSTANT].aliased_resized_area */
T0* T1084f3(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1084*)(C))->a2;
if (a1 > t1) {
R = GE_new1084(a1, EIF_FALSE);
*(T1084*)(R) = *(T1084*)(C);
memcpy(((T1084*)(R))->z2,((T1084*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1084*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1084*)(R))->a1;
if (t1 > a1) {
((T1084*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1084*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1084*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_BIT_CONSTANT].make */
T0* T1085f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1643c4();
R = (((T1643*)(GE_void(l1)))->a1);
R = (T1084f3(GE_void(R), a1));
return R;
}
/* ARRAY [ET_BIT_CONSTANT].make_empty */
T0* T1643c4(void)
{
T0* C;
C = GE_new1643(EIF_TRUE);
((T1643*)(C))->a2 = (T6)(GE_int32(1));
((T1643*)(C))->a3 = (T6)(GE_int32(0));
T1643f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_BIT_CONSTANT].make_empty_area */
void T1643f5(T0* C, T6 a1)
{
((T1643*)(C))->a1 = T1084c6(a1);
}
/* SPECIAL [ET_BIT_CONSTANT].make_empty */
T0* T1084c6(T6 a1)
{
T0* C;
C = GE_new1084(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_BIT_CONSTANT].default_create */
T0* T1085c3(void)
{
T0* C;
C = GE_new1085(EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_POSITION].force */
void T1082f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1081*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1081*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1081*)(GE_void(a1)))->a1);
T1081f7(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_POSITION].fill_with */
void T1081f7(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1081*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1081*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1081f8(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_POSITION].extend */
void T1081f8(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1081*)(C))->a1;
((T1081*)(C))->a1 = t1 + 1 ;
((T1081*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_POSITION].resize */
T0* T1082f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1081*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1081f3(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_POSITION].aliased_resized_area */
T0* T1081f3(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1081*)(C))->a2;
if (a1 > t1) {
R = GE_new1081(a1, EIF_FALSE);
*(T1081*)(R) = *(T1081*)(C);
memcpy(((T1081*)(R))->z2,((T1081*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1081*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1081*)(R))->a1;
if (t1 > a1) {
((T1081*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1081*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1081*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_POSITION].make */
T0* T1082f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1642c4();
R = (((T1642*)(GE_void(l1)))->a1);
R = (T1081f3(GE_void(R), a1));
return R;
}
/* ARRAY [ET_POSITION].make_empty */
T0* T1642c4(void)
{
T0* C;
C = GE_new1642(EIF_TRUE);
((T1642*)(C))->a2 = (T6)(GE_int32(1));
((T1642*)(C))->a3 = (T6)(GE_int32(0));
T1642f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_POSITION].make_empty_area */
void T1642f5(T0* C, T6 a1)
{
((T1642*)(C))->a1 = T1081c5(a1);
}
/* SPECIAL [ET_POSITION].make_empty */
T0* T1081c5(T6 a1)
{
T0* C;
C = GE_new1081(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_POSITION].default_create */
T0* T1082c3(void)
{
T0* C;
C = GE_new1082(EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_SYMBOL].make */
T0* T1080f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1641c4();
R = (((T1641*)(GE_void(l1)))->a1);
R = (T1079f3(GE_void(R), a1));
return R;
}
/* ARRAY [ET_SYMBOL].make_empty */
T0* T1641c4(void)
{
T0* C;
C = GE_new1641(EIF_TRUE);
((T1641*)(C))->a2 = (T6)(GE_int32(1));
((T1641*)(C))->a3 = (T6)(GE_int32(0));
T1641f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_SYMBOL].make_empty_area */
void T1641f5(T0* C, T6 a1)
{
((T1641*)(C))->a1 = T1079c6(a1);
}
/* SPECIAL [ET_SYMBOL].make_empty */
T0* T1079c6(T6 a1)
{
T0* C;
C = GE_new1079(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_SYMBOL].default_create */
T0* T1080c3(void)
{
T0* C;
C = GE_new1080(EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_PRECURSOR_KEYWORD].force */
void T1078f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1077*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1077*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1077*)(GE_void(a1)))->a1);
T1077f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_PRECURSOR_KEYWORD].fill_with */
void T1077f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1077*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1077*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1077f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_PRECURSOR_KEYWORD].extend */
void T1077f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1077*)(C))->a1;
((T1077*)(C))->a1 = t1 + 1 ;
((T1077*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_PRECURSOR_KEYWORD].resize */
T0* T1078f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1077*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1077f3(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_PRECURSOR_KEYWORD].aliased_resized_area */
T0* T1077f3(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1077*)(C))->a2;
if (a1 > t1) {
R = GE_new1077(a1, EIF_FALSE);
*(T1077*)(R) = *(T1077*)(C);
memcpy(((T1077*)(R))->z2,((T1077*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1077*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1077*)(R))->a1;
if (t1 > a1) {
((T1077*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1077*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1077*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_PRECURSOR_KEYWORD].make */
T0* T1078f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1640c4();
R = (((T1640*)(GE_void(l1)))->a1);
R = (T1077f3(GE_void(R), a1));
return R;
}
/* ARRAY [ET_PRECURSOR_KEYWORD].make_empty */
T0* T1640c4(void)
{
T0* C;
C = GE_new1640(EIF_TRUE);
((T1640*)(C))->a2 = (T6)(GE_int32(1));
((T1640*)(C))->a3 = (T6)(GE_int32(0));
T1640f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_PRECURSOR_KEYWORD].make_empty_area */
void T1640f5(T0* C, T6 a1)
{
((T1640*)(C))->a1 = T1077c6(a1);
}
/* SPECIAL [ET_PRECURSOR_KEYWORD].make_empty */
T0* T1077c6(T6 a1)
{
T0* C;
C = GE_new1077(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_PRECURSOR_KEYWORD].default_create */
T0* T1078c3(void)
{
T0* C;
C = GE_new1078(EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_AGENT_KEYWORD].force */
void T1075f4(T0* C, T0* a1, T0* a2, T6 a3)
{
T6 t1;
T1 t2;
t1 = (((T1074*)(GE_void(a1)))->a1);
t2 = ((T1)((a3)<(t1)));
if (t2) {
((T1074*)(GE_void(a1)))->z2[a3] = (a2);
} else {
t1 = (((T1074*)(GE_void(a1)))->a1);
T1074f8(GE_void(a1), a2, t1, a3);
}
}
/* SPECIAL [ET_AGENT_KEYWORD].fill_with */
void T1074f8(T0* C, T0* a1, T6 a2, T6 a3)
{
T6 t1;
T1 t2;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
l1 = a2;
t1 = ((T6)((a3)+((T6)(GE_int32(1)))));
l3 = (T6f15(&(((T1074*)(C))->a1), t1));
l2 = l3;
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
((T1074*)(C))->z2[l1] = (a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
l1 = l3;
l2 = ((T6)((a3)+((T6)(GE_int32(1)))));
while (1) {
t2 = (((((l1) == (l2)))));
if (t2) {
break;
}
T1074f9(C, a1);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* SPECIAL [ET_AGENT_KEYWORD].extend */
void T1074f9(T0* C, T0* a1)
{
T6 t1;
t1 = ((T1074*)(C))->a1;
((T1074*)(C))->a1 = t1 + 1 ;
((T1074*)(C))->z2[t1] = a1;
}
/* KL_SPECIAL_ROUTINES [ET_AGENT_KEYWORD].resize */
T0* T1075f2(T0* C, T0* a1, T6 a2)
{
T6 t1;
T1 t2;
T0* R = 0;
t1 = (((T1074*)(GE_void(a1)))->a2);
t2 = (T6f1(&a2, t1));
if (t2) {
R = (T1074f3(GE_void(a1), a2));
} else {
R = a1;
}
return R;
}
/* SPECIAL [ET_AGENT_KEYWORD].aliased_resized_area */
T0* T1074f3(T0* C, T6 a1)
{
T0* R = 0;
T6 t1;
t1 = ((T1074*)(C))->a2;
if (a1 > t1) {
R = GE_new1074(a1, EIF_FALSE);
*(T1074*)(R) = *(T1074*)(C);
memcpy(((T1074*)(R))->z2,((T1074*)(C))->z2,t1*sizeof(T0*));
#ifndef GE_alloc_cleared
memset(((T1074*)(R))->z2+t1,0,(a1-t1)*sizeof(T0*));
#endif
} else {
R = C;
t1 = ((T1074*)(R))->a1;
if (t1 > a1) {
((T1074*)(R))->a1 = a1;
#ifndef GE_alloc_cleared
memset(((T1074*)(R))->z2+a1,0,(t1-a1)*sizeof(T0*));
#endif
}
}
((T1074*)(R))->a2 = a1;
return R;
}
/* KL_SPECIAL_ROUTINES [ET_AGENT_KEYWORD].make */
T0* T1075f1(T0* C, T6 a1)
{
T0* R = 0;
T0* l1 = 0;
l1 = T1639c4();
R = (((T1639*)(GE_void(l1)))->a1);
R = (T1074f3(GE_void(R), a1));
return R;
}
/* ARRAY [ET_AGENT_KEYWORD].make_empty */
T0* T1639c4(void)
{
T0* C;
C = GE_new1639(EIF_TRUE);
((T1639*)(C))->a2 = (T6)(GE_int32(1));
((T1639*)(C))->a3 = (T6)(GE_int32(0));
T1639f5(C, (T6)(GE_int32(0)));
return C;
}
/* ARRAY [ET_AGENT_KEYWORD].make_empty_area */
void T1639f5(T0* C, T6 a1)
{
((T1639*)(C))->a1 = T1074c6(a1);
}
/* SPECIAL [ET_AGENT_KEYWORD].make_empty */
T0* T1074c6(T6 a1)
{
T0* C;
C = GE_new1074(a1, EIF_TRUE);
return C;
}
/* KL_SPECIAL_ROUTINES [ET_AGENT_KEYWORD].default_create */
T0* T1075c3(void)
{
T0* C;
C = GE_new1075(EIF_TRUE);
return C;
}
/* ET_EIFFEL_PARSER.accept */
void T399f1001(T0* C)
{
((T399*)(C))->a55 = (T6)(GE_int32(101));
}
/* ET_EIFFEL_PARSER.yy_do_error_action */
void T399f999(T0* C, T6 a1)
{
T1 t1;
t1 = (T6f13(&a1, (T6)(GE_int32(199))));
if (t1) {
T399f1015(C, a1);
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(399))));
if (t1) {
T399f1016(C, a1);
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(599))));
if (t1) {
T399f1017(C, a1);
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(799))));
if (t1) {
T399f1018(C, a1);
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(999))));
if (t1) {
T399f1019(C, a1);
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(1199))));
if (t1) {
T399f1020(C, a1);
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(1399))));
if (t1) {
T399f1021(C, a1);
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(1599))));
if (t1) {
T399f1022(C, a1);
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(1799))));
if (t1) {
T399f1023(C, a1);
} else {
T399f1024(C, GE_ms8("parse error", 11));
}
}
}
}
}
}
}
}
}
}
/* ET_EIFFEL_PARSER.report_error */
void T399f1024(T0* C, T0* a1)
{
T0* t1;
t1 = (T399f671(C));
T399f1031(C, t1);
}
/* ET_EIFFEL_PARSER.yy_do_error_action_1600_1799 */
void T399f1023(T0* C, T6 a1)
{
switch (a1) {
case (T6)(T6)(GE_int32(1755)):
T399f1045(C);
break;
default:
T399f1024(C, GE_ms8("parse error", 11));
break;
}
}
/* ET_EIFFEL_PARSER.report_eof_expected_error */
void T399f1045(T0* C)
{
T399f1024(C, GE_ms8("parse error", 11));
}
/* ET_EIFFEL_PARSER.yy_do_error_action_1400_1599 */
void T399f1022(T0* C, T6 a1)
{
switch (a1) {
default:
T399f1024(C, GE_ms8("parse error", 11));
break;
}
}
/* ET_EIFFEL_PARSER.yy_do_error_action_1200_1399 */
void T399f1021(T0* C, T6 a1)
{
switch (a1) {
default:
T399f1024(C, GE_ms8("parse error", 11));
break;
}
}
/* ET_EIFFEL_PARSER.yy_do_error_action_1000_1199 */
void T399f1020(T0* C, T6 a1)
{
switch (a1) {
default:
T399f1024(C, GE_ms8("parse error", 11));
break;
}
}
/* ET_EIFFEL_PARSER.yy_do_error_action_800_999 */
void T399f1019(T0* C, T6 a1)
{
switch (a1) {
default:
T399f1024(C, GE_ms8("parse error", 11));
break;
}
}
/* ET_EIFFEL_PARSER.yy_do_error_action_600_799 */
void T399f1018(T0* C, T6 a1)
{
switch (a1) {
default:
T399f1024(C, GE_ms8("parse error", 11));
break;
}
}
/* ET_EIFFEL_PARSER.yy_do_error_action_400_599 */
void T399f1017(T0* C, T6 a1)
{
switch (a1) {
default:
T399f1024(C, GE_ms8("parse error", 11));
break;
}
}
/* ET_EIFFEL_PARSER.yy_do_error_action_200_399 */
void T399f1016(T0* C, T6 a1)
{
switch (a1) {
default:
T399f1024(C, GE_ms8("parse error", 11));
break;
}
}
/* ET_EIFFEL_PARSER.yy_do_error_action_0_199 */
void T399f1015(T0* C, T6 a1)
{
switch (a1) {
default:
T399f1024(C, GE_ms8("parse error", 11));
break;
}
}
/* ET_EIFFEL_PARSER.read_token */
void T399f998(T0* C)
{
T1 t1;
T0* t2;
T2 t3;
T6 t4;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
T6 l4 = 0;
T6 l5 = 0;
T6 l6 = 0;
T6 l7 = 0;
T6 l8 = 0;
T1 l9 = 0;
T6 l10 = 0;
T6 l11 = 0;
T6 l12 = 0;
T1 l13 = 0;
T0* l14 = 0;
((T399*)(C))->a67 = (T6)(GE_int32(-2));
l7 = (T6)(GE_int32(1));
while (1) {
t1 = (((((((T399*)(C))->a67) != ((T6)(GE_int32(-2)))))));
if (t1) {
break;
}
switch (l7) {
case (T6)(T6)(GE_int32(1)):
if (((T399*)(C))->a76) {
((T399*)(C))->a77 = ((T6)((((T399*)(C))->a42)-(((T399*)(C))->a43)));
((T399*)(C))->a76 = EIF_FALSE;
} else {
((T399*)(C))->a77 = (T6)(GE_int32(0));
((T399*)(C))->a38 = ((T399*)(C))->a35;
((T399*)(C))->a39 = ((T399*)(C))->a36;
((T399*)(C))->a40 = ((T399*)(C))->a37;
}
l1 = ((T399*)(C))->a42;
l2 = l1;
t1 = (((((T0*)(GE_void(((T399*)(C))->a23)))->id==167)?((T167*)(((T399*)(C))->a23))->a6:((T166*)(((T399*)(C))->a23))->a6));
if (t1) {
l3 = ((T6)((((T399*)(C))->a34)+((T6)(GE_int32(1)))));
} else {
l3 = ((T399*)(C))->a34;
}
if (EIF_TRUE) {
t2 = (T399f634(C));
T134f7(GE_void(t2), ((T399*)(C))->a41, l3, (T6)(GE_int32(0)));
((T399*)(C))->a81 = (T6)(GE_int32(1));
}
l7 = (T6)(GE_int32(2));
break;
case (T6)(T6)(GE_int32(2)):
l14 = ((T399*)(C))->a53;
l13 = EIF_FALSE;
while (1) {
if (l13) {
break;
}
t1 = ((((T399*)(C))->a48)!=(EIF_VOID));
if (t1) {
t1 = ((l14)!=(EIF_VOID));
if (t1) {
t3 = (((T15*)(GE_void(l14)))->z2[l1]);
t4 = ((T6)(t3));
l8 = (((T132*)(GE_void(((T399*)(C))->a48)))->z2[t4]);
} else {
t3 = (T842f3(GE_void(((T399*)(C))->a52), l1));
t4 = ((T6)(t3));
l8 = (((T132*)(GE_void(((T399*)(C))->a48)))->z2[t4]);
}
} else {
t1 = ((l14)!=(EIF_VOID));
if (t1) {
t3 = (((T15*)(GE_void(l14)))->z2[l1]);
l8 = ((T6)(t3));
} else {
t3 = (T842f3(GE_void(((T399*)(C))->a52), l1));
l8 = ((T6)(t3));
}
}
t1 = EIF_TRUE;
t1 = ((T1)(!(t1)));
if (t1) {
t4 = (((T132*)(GE_void(((T399*)(C))->a50)))->z2[l3]);
t1 = (((((t4) != ((T6)(GE_int32(0)))))));
}
if (t1) {
((T399*)(C))->a78 = l3;
((T399*)(C))->a79 = l1;
}
while (1) {
t4 = (((T132*)(GE_void(((T399*)(C))->a46)))->z2[l3]);
t4 = ((T6)((t4)+(l8)));
t4 = (((T132*)(GE_void(((T399*)(C))->a45)))->z2[t4]);
t1 = (((((t4) == (l3)))));
if (t1) {
break;
}
l3 = (((T132*)(GE_void(((T399*)(C))->a47)))->z2[l3]);
t1 = ((((T399*)(C))->a49)!=(EIF_VOID));
if (t1) {
t1 = (T6f12((&l3), (T6)(GE_int32(424))));
}
if (t1) {
l8 = (((T132*)(GE_void(((T399*)(C))->a49)))->z2[l8]);
}
}
t4 = (((T132*)(GE_void(((T399*)(C))->a46)))->z2[l3]);
t4 = ((T6)((t4)+(l8)));
l3 = (((T132*)(GE_void(((T399*)(C))->a44)))->z2[t4]);
if (EIF_TRUE) {
t2 = (T399f634(C));
T134f7(GE_void(t2), ((T399*)(C))->a41, l3, ((T399*)(C))->a81);
((T399*)(C))->a81 = ((T6)((((T399*)(C))->a81)+((T6)(GE_int32(1)))));
}
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
l13 = (((((l3) == ((T6)(GE_int32(423)))))));
}
t1 = EIF_TRUE;
t1 = ((T1)(!(t1)));
if (t1) {
l1 = ((T399*)(C))->a79;
l3 = ((T399*)(C))->a78;
}
l7 = (T6)(GE_int32(3));
break;
case (T6)(T6)(GE_int32(3)):
t1 = EIF_TRUE;
t1 = ((T1)(!(t1)));
if (t1) {
l6 = (((T132*)(GE_void(((T399*)(C))->a50)))->z2[l3]);
l7 = (T6)(GE_int32(4));
} else {
((T399*)(C))->a81 = ((T6)((((T399*)(C))->a81)-((T6)(GE_int32(1)))));
l3 = (((T132*)(GE_void(((T399*)(C))->a41)))->z2[((T399*)(C))->a81]);
((T399*)(C))->a83 = (((T132*)(GE_void(((T399*)(C))->a50)))->z2[l3]);
l7 = (T6)(GE_int32(5));
}
break;
case (T6)(T6)(GE_int32(5)):
l9 = EIF_FALSE;
while (1) {
if (l9) {
break;
}
t1 = (((((((T399*)(C))->a83) != ((T6)(GE_int32(0)))))));
if (t1) {
t4 = ((T6)((l3)+((T6)(GE_int32(1)))));
t4 = (((T132*)(GE_void(((T399*)(C))->a50)))->z2[t4]);
t1 = ((T1)((((T399*)(C))->a83)<(t4)));
}
if (t1) {
l6 = (((T132*)(GE_void(((T399*)(C))->a51)))->z2[((T399*)(C))->a83]);
if (EIF_TRUE) {
t4 = (T6)(GE_int32(129));
t4 = ((T6)(-(t4)));
t1 = ((T1)((l6)<(t4)));
if (!(t1)) {
t1 = (((((((T399*)(C))->a84) != ((T6)(GE_int32(0)))))));
}
if (t1) {
t1 = (((((l6) == (((T399*)(C))->a84)))));
if (t1) {
((T399*)(C))->a84 = (T6)(GE_int32(0));
t4 = ((T6)(-(l6)));
l6 = ((T6)((t4)-((T6)(GE_int32(129)))));
l9 = EIF_TRUE;
} else {
((T399*)(C))->a83 = ((T6)((((T399*)(C))->a83)+((T6)(GE_int32(1)))));
}
} else {
t1 = ((T1)((l6)<((T6)(GE_int32(0)))));
if (t1) {
((T399*)(C))->a84 = ((T6)((l6)-((T6)(GE_int32(129)))));
if (EIF_FALSE) {
((T399*)(C))->a82 = l1;
((T399*)(C))->a86 = ((T399*)(C))->a81;
((T399*)(C))->a85 = ((T399*)(C))->a83;
}
((T399*)(C))->a83 = ((T6)((((T399*)(C))->a83)+((T6)(GE_int32(1)))));
} else {
((T399*)(C))->a82 = l1;
((T399*)(C))->a86 = ((T399*)(C))->a81;
((T399*)(C))->a85 = ((T399*)(C))->a83;
l9 = EIF_TRUE;
}
}
} else {
((T399*)(C))->a82 = l1;
l9 = EIF_TRUE;
}
} else {
l1 = ((T6)((l1)-((T6)(GE_int32(1)))));
((T399*)(C))->a81 = ((T6)((((T399*)(C))->a81)-((T6)(GE_int32(1)))));
l3 = (((T132*)(GE_void(((T399*)(C))->a41)))->z2[((T399*)(C))->a81]);
((T399*)(C))->a83 = (((T132*)(GE_void(((T399*)(C))->a50)))->z2[l3]);
}
}
l10 = ((T399*)(C))->a35;
l11 = ((T399*)(C))->a36;
l12 = ((T399*)(C))->a37;
l7 = (T6)(GE_int32(4));
break;
case (T6)(T6)(GE_int32(4)):
l2 = ((T6)((l2)-(((T399*)(C))->a77)));
((T399*)(C))->a43 = l2;
((T399*)(C))->a42 = l1;
l7 = (T6)(GE_int32(1));
t1 = (((((l6) == ((T6)(GE_int32(0)))))));
if (t1) {
t1 = EIF_TRUE;
t1 = ((T1)(!(t1)));
if (t1) {
l1 = ((T399*)(C))->a79;
l2 = ((T6)((l2)+(((T399*)(C))->a77)));
l3 = ((T399*)(C))->a78;
l7 = (T6)(GE_int32(3));
} else {
((T399*)(C))->a67 = (T6)(GE_int32(-1));
T399f1011(C, GE_ms8("fatal scanner internal error: no action found", 45));
}
} else {
t1 = (((((l6) == ((T6)(GE_int32(130)))))));
if (t1) {
t4 = ((T6)((l1)-(l2)));
l5 = ((T6)((t4)-((T6)(GE_int32(1)))));
t4 = (((((T0*)(GE_void(((T399*)(C))->a23)))->id==167)?((T167*)(((T399*)(C))->a23))->a7:((T166*)(((T399*)(C))->a23))->a7));
t4 = ((T6)((t4)+((T6)(GE_int32(1)))));
t1 = (T6f13(&(((T399*)(C))->a42), t4));
if (t1) {
((T399*)(C))->a42 = ((T6)((l2)+(l5)));
l3 = (T399f651(C));
l4 = (T399f652(C, l3));
l2 = ((T6)((l2)+(((T399*)(C))->a77)));
t1 = (((((l4) != ((T6)(GE_int32(0)))))));
if (t1) {
l1 = ((T6)((((T399*)(C))->a42)+((T6)(GE_int32(1)))));
((T399*)(C))->a42 = l1;
l3 = l4;
l7 = (T6)(GE_int32(2));
} else {
if (EIF_TRUE) {
l1 = ((T399*)(C))->a42;
((T399*)(C))->a81 = ((T6)((((T399*)(C))->a81)-((T6)(GE_int32(1)))));
} else {
l1 = ((T399*)(C))->a79;
l3 = ((T399*)(C))->a78;
}
l7 = (T6)(GE_int32(3));
}
} else {
((T399*)(C))->a42 = ((T6)((((T399*)(C))->a42)-((T6)(GE_int32(1)))));
T399f1012(C);
t1 = (((((T0*)(GE_void(((T399*)(C))->a23)))->id==167)?((T167*)(((T399*)(C))->a23))->a8:((T166*)(((T399*)(C))->a23))->a8));
if (t1) {
l3 = (T399f651(C));
l1 = ((T399*)(C))->a42;
l2 = ((T6)((((T399*)(C))->a43)+(((T399*)(C))->a77)));
l7 = (T6)(GE_int32(2));
} else {
t4 = ((T6)((((T399*)(C))->a42)-(((T399*)(C))->a43)));
t4 = ((T6)((t4)-(((T399*)(C))->a77)));
t1 = (((((t4) != ((T6)(GE_int32(0)))))));
if (t1) {
l3 = (T399f651(C));
l1 = ((T399*)(C))->a42;
l2 = ((T6)((((T399*)(C))->a43)+(((T399*)(C))->a77)));
l7 = (T6)(GE_int32(3));
} else {
t1 = (T399f653(C));
if (t1) {
l2 = ((T399*)(C))->a43;
l1 = ((T399*)(C))->a42;
t4 = ((T6)((((T399*)(C))->a34)-((T6)(GE_int32(1)))));
t4 = ((T6)((t4)/((T6)(GE_int32(2)))));
T399f1013(C, t4);
}
}
}
}
} else {
T399f1014(C, l6);
if (((T399*)(C))->a80) {
((T399*)(C))->a80 = EIF_FALSE;
((T399*)(C))->a35 = l10;
((T399*)(C))->a36 = l11;
((T399*)(C))->a37 = l12;
l1 = ((T399*)(C))->a82;
if (EIF_TRUE) {
((T399*)(C))->a83 = ((T399*)(C))->a85;
((T399*)(C))->a81 = ((T399*)(C))->a86;
t4 = ((T6)((((T399*)(C))->a81)-((T6)(GE_int32(1)))));
l3 = (((T132*)(GE_void(((T399*)(C))->a41)))->z2[t4]);
}
((T399*)(C))->a83 = ((T6)((((T399*)(C))->a83)+((T6)(GE_int32(1)))));
l7 = (T6)(GE_int32(5));
}
}
}
break;
default:
GE_raise(9);
break;
}
}
}
/* ET_EIFFEL_PARSER.yy_execute_action */
void T399f1014(T0* C, T6 a1)
{
T1 t1;
T2 t2;
T2 t3;
T0* t4;
T6 t5;
T0* t6;
T6 t7;
T6 t8;
t1 = (T6f13(&a1, (T6)(GE_int32(65))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(33))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(17))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(9))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(5))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(3))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(2))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(1)))))));
if (t1) {
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(3)))));
} else {
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(1)))));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t2 = (T399f679(C, (T6)(GE_int32(1))));
T399f1036(C, t2);
}
} else {
T399f1037(C);
((T399*)(C))->a18 = (T6)(GE_int32(1));
((T399*)(C))->a308 = (T399f680(C));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t2 = (T399f679(C, (T6)(GE_int32(1))));
T399f1036(C, t2);
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(4)))))));
if (t1) {
T399f1037(C);
((T399*)(C))->a18 = (T6)(GE_int32(1));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T399f680(C));
t2 = (T399f679(C, (T6)(GE_int32(1))));
T399f1036(C, t2);
} else {
T399f1037(C);
((T399*)(C))->a18 = (T6)(GE_int32(1));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T399f680(C));
T399f1036(C, (T2)('-'));
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(7))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(6)))))));
if (t1) {
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(2)))));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t2 = (T399f679(C, (T6)(GE_int32(1))));
t3 = (T399f679(C, (T6)(GE_int32(2))));
T399f1038(C, t2, t3);
} else {
T399f1037(C);
((T399*)(C))->a18 = (T6)(GE_int32(2));
((T399*)(C))->a308 = (T399f680(C));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t2 = (T399f679(C, (T6)(GE_int32(1))));
t3 = (T399f679(C, (T6)(GE_int32(2))));
T399f1038(C, t2, t3);
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(8)))))));
if (t1) {
T399f1037(C);
((T399*)(C))->a18 = (T6)(GE_int32(2));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T399f680(C));
t2 = (T399f679(C, (T6)(GE_int32(1))));
t3 = (T399f679(C, (T6)(GE_int32(2))));
T399f1038(C, t2, t3);
} else {
((T399*)(C))->a42 = ((T6)((((T399*)(C))->a42)-((T6)(GE_int32(1)))));
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(4)))));
((T399*)(C))->a67 = (T6)(GE_int32(289));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T6)(GE_int32(4));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a215 = (T362f2(GE_void(t4), C));
}
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(13))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(11))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(10)))))));
if (t1) {
((T399*)(C))->a42 = ((T6)((((T399*)(C))->a42)-((T6)(GE_int32(1)))));
T399f1037(C);
((T399*)(C))->a67 = (T6)(GE_int32(289));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T6)(GE_int32(4));
((T399*)(C))->a18 = (T6)(GE_int32(4));
((T399*)(C))->a308 = (T399f680(C));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a215 = (T362f2(GE_void(t4), C));
} else {
((T399*)(C))->a42 = ((T6)((((T399*)(C))->a42)-((T6)(GE_int32(1)))));
T399f1037(C);
((T399*)(C))->a67 = (T6)(GE_int32(289));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T6)(GE_int32(4));
((T399*)(C))->a18 = (T6)(GE_int32(4));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T399f680(C));
t4 = (T399f682(C));
((T399*)(C))->a215 = (T362f2(GE_void(t4), C));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(12)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t5 = (T399f680(C));
T399f1039(C, t5);
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a312 = (T6)(GE_int32(1));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(15))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(14)))))));
if (t1) {
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(1)))));
((T399*)(C))->a67 = (T6)(GE_int32(330));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a255 = (T362f3(GE_void(t4), C));
} else {
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(2)))));
((T399*)(C))->a67 = (T6)(GE_int32(330));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a255 = (T362f3(GE_void(t4), C));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(16)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(330));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a255 = (T362f3(GE_void(t4), C));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(330));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a255 = (T362f3(GE_void(t4), C));
}
}
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(25))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(21))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(19))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(18)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(330));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a255 = (T362f3(GE_void(t4), C));
} else {
((T399*)(C))->a42 = ((T6)((((T399*)(C))->a42)-((T6)(GE_int32(1)))));
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(1)))));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(2));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(20)))))));
if (t1) {
((T399*)(C))->a42 = ((T6)((((T399*)(C))->a42)-((T6)(GE_int32(1)))));
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(2)))));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(2));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
((T399*)(C))->a42 = ((T6)((((T399*)(C))->a42)-((T6)(GE_int32(1)))));
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(2));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(23))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(22)))))));
if (t1) {
((T399*)(C))->a42 = ((T6)((((T399*)(C))->a42)-((T6)(GE_int32(1)))));
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(2));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
((T399*)(C))->a42 = ((T6)((((T399*)(C))->a42)-((T6)(GE_int32(1)))));
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(2));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(24)))))));
if (t1) {
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(3)))));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t2 = (T399f679(C, (T6)(GE_int32(2))));
T399f1041(C, t2);
} else {
T399f1037(C);
((T399*)(C))->a18 = (T6)(GE_int32(3));
((T399*)(C))->a308 = (T399f680(C));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t2 = (T399f679(C, (T6)(GE_int32(2))));
T399f1041(C, t2);
}
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(29))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(27))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(26)))))));
if (t1) {
T399f1037(C);
((T399*)(C))->a18 = (T6)(GE_int32(3));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T399f680(C));
t2 = (T399f679(C, (T6)(GE_int32(2))));
T399f1041(C, t2);
} else {
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(4)))));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t2 = (T399f679(C, (T6)(GE_int32(3))));
T399f1042(C, t2);
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(28)))))));
if (t1) {
T399f1037(C);
((T399*)(C))->a18 = (T6)(GE_int32(4));
((T399*)(C))->a308 = (T399f680(C));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t2 = (T399f679(C, (T6)(GE_int32(3))));
T399f1042(C, t2);
} else {
T399f1037(C);
((T399*)(C))->a18 = (T6)(GE_int32(4));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T399f680(C));
t2 = (T399f679(C, (T6)(GE_int32(3))));
T399f1042(C, t2);
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(31))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(30)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(328));
((T399*)(C))->a19 = (T6)(GE_int32(4));
t5 = (T399f680(C));
((T399*)(C))->a72 = ((T6)((t5)-((T6)(GE_int32(2)))));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a247 = (T362f4(GE_void(t4), C));
} else {
((T399*)(C))->a42 = ((T6)((((T399*)(C))->a42)-((T6)(GE_int32(1)))));
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(4));
((T399*)(C))->a72 = ((T6)((((T399*)(C))->a18)-((T6)(GE_int32(2)))));
((T399*)(C))->a312 = (T6)(GE_int32(3));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(32)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
t5 = (T399f680(C));
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+(t5)));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f209(t4, ((T399*)(C))->a20, t6);
} else {
T29f208(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a231 = (T399f671(C));
t5 = (T399f680(C));
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-(t5)));
((T399*)(C))->a67 = (T6)(GE_int32(370));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
t5 = (T399f680(C));
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+(t5)));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f210(t4, ((T399*)(C))->a20, t6);
} else {
T29f209(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a231 = (T399f671(C));
t5 = (T399f680(C));
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-(t5)));
((T399*)(C))->a67 = (T6)(GE_int32(370));
}
}
}
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(49))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(41))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(37))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(35))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(34)))))));
if (t1) {
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(3)))));
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+((T6)(GE_int32(3)))));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f211(t4, ((T399*)(C))->a20, t6);
} else {
T29f210(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a231 = (T399f671(C));
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-((T6)(GE_int32(3)))));
((T399*)(C))->a67 = (T6)(GE_int32(370));
} else {
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(2)))));
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+((T6)(GE_int32(1)))));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f212(t4, ((T399*)(C))->a20, t6);
} else {
T29f211(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a231 = (T399f671(C));
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-((T6)(GE_int32(1)))));
((T399*)(C))->a67 = (T6)(GE_int32(370));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(36)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
t5 = (T399f680(C));
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+(t5)));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f213(t4, ((T399*)(C))->a20, t6);
} else {
T29f212(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a231 = (T399f671(C));
t5 = (T399f680(C));
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-(t5)));
((T399*)(C))->a67 = (T6)(GE_int32(370));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(359));
((T399*)(C))->a19 = (T6)(GE_int32(2));
t5 = (T399f680(C));
((T399*)(C))->a72 = ((T6)((t5)-((T6)(GE_int32(1)))));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a271 = (T362f5(GE_void(t4), C));
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(39))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(38)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(2));
((T399*)(C))->a72 = ((T6)((((T399*)(C))->a18)-((T6)(GE_int32(1)))));
((T399*)(C))->a312 = (T6)(GE_int32(13));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t5 = (T399f680(C));
T399f1043(C, t5);
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(40)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a312 = (T6)(GE_int32(12));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
t5 = (T399f680(C));
t5 = ((T6)((t5)-((T6)(GE_int32(1)))));
((T399*)(C))->a73 = (T399f695(C, (T6)(GE_int32(2)), t5));
T399f1034(C, (T6)(GE_int32(4)));
}
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(45))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(43))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(42)))))));
if (t1) {
((T399*)(C))->a35 = ((T6)((((T399*)(C))->a35)+((T6)(GE_int32(1)))));
((T399*)(C))->a36 = (T6)(GE_int32(1));
((T399*)(C))->a74 = (T399f697(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T6)(GE_int32(0));
T399f1034(C, (T6)(GE_int32(5)));
} else {
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(1)))));
((T399*)(C))->a67 = (T6)(GE_int32(371));
((T399*)(C))->a231 = (T399f671(C));
t4 = (T399f671(C));
T399f1031(C, t4);
T399f1034(C, (T6)(GE_int32(0)));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(44)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
t5 = ((T6)((((T399*)(C))->a72)+((T6)(GE_int32(1)))));
t7 = (T399f680(C));
t7 = ((T6)((t7)-((T6)(GE_int32(1)))));
t1 = (T399f699(C, t5, t7));
if (t1) {
((T399*)(C))->a67 = (T6)(GE_int32(361));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
t5 = ((T6)((((T399*)(C))->a72)+((T6)(GE_int32(1)))));
t7 = (T399f680(C));
t8 = (((((T0*)(GE_void(((T399*)(C))->a73)))->id==17)?((T17*)(((T399*)(C))->a73))->a2:((T835*)(((T399*)(C))->a73))->a1));
t7 = ((T6)((t7)-(t8)));
t7 = ((T6)((t7)-((T6)(GE_int32(2)))));
t6 = (T399f695(C, t5, t7));
((T399*)(C))->a271 = (T362f6(GE_void(t4), ((T399*)(C))->a73, ((T399*)(C))->a74, t6, EIF_FALSE, C));
((T399*)(C))->a73 = EIF_VOID;
((T399*)(C))->a74 = EIF_VOID;
T399f1034(C, (T6)(GE_int32(0)));
} else {
T399f1040(C);
T399f1034(C, (T6)(GE_int32(6)));
}
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
t5 = ((T6)((((T399*)(C))->a72)+((T6)(GE_int32(1)))));
t7 = (T399f680(C));
t7 = ((T6)((t7)-((T6)(GE_int32(1)))));
t1 = (T399f699(C, t5, t7));
if (t1) {
t5 = ((T6)((((T399*)(C))->a72)+((T6)(GE_int32(1)))));
t7 = (T399f680(C));
t8 = (((((T0*)(GE_void(((T399*)(C))->a73)))->id==17)?((T17*)(((T399*)(C))->a73))->a2:((T835*)(((T399*)(C))->a73))->a1));
t7 = ((T6)((t7)-(t8)));
t7 = ((T6)((t7)-((T6)(GE_int32(2)))));
((T399*)(C))->a75 = (T399f695(C, t5, t7));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a312 = (T6)(GE_int32(15));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
T399f1040(C);
T399f1034(C, (T6)(GE_int32(6)));
}
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(47))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(46)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(6)));
} else {
((T399*)(C))->a35 = ((T6)((((T399*)(C))->a35)+((T6)(GE_int32(1)))));
((T399*)(C))->a36 = (T6)(GE_int32(1));
T399f1040(C);
t5 = (T399f680(C));
((T399*)(C))->a72 = ((T6)((t5)-((T6)(GE_int32(2)))));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(48)))))));
if (t1) {
((T399*)(C))->a35 = ((T6)((((T399*)(C))->a35)+((T6)(GE_int32(1)))));
((T399*)(C))->a36 = (T6)(GE_int32(1));
T399f1040(C);
t5 = (T399f680(C));
((T399*)(C))->a72 = ((T6)((t5)-((T6)(GE_int32(1)))));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(371));
((T399*)(C))->a231 = (T399f671(C));
t4 = (T399f671(C));
T399f1031(C, t4);
T399f1034(C, (T6)(GE_int32(0)));
}
}
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(57))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(53))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(51))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(50)))))));
if (t1) {
((T399*)(C))->a35 = ((T6)((((T399*)(C))->a35)+((T6)(GE_int32(1)))));
((T399*)(C))->a36 = (T6)(GE_int32(1));
T399f1040(C);
t5 = (T399f680(C));
((T399*)(C))->a72 = ((T6)((t5)-((T6)(GE_int32(2)))));
T399f1034(C, (T6)(GE_int32(5)));
} else {
((T399*)(C))->a35 = ((T6)((((T399*)(C))->a35)+((T6)(GE_int32(1)))));
((T399*)(C))->a36 = (T6)(GE_int32(1));
T399f1040(C);
t5 = (T399f680(C));
((T399*)(C))->a72 = ((T6)((t5)-((T6)(GE_int32(1)))));
T399f1034(C, (T6)(GE_int32(5)));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(52)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(371));
((T399*)(C))->a231 = (T399f671(C));
t4 = (T399f671(C));
T399f1031(C, t4);
T399f1034(C, (T6)(GE_int32(0)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
t5 = (T399f680(C));
t5 = ((T6)((t5)-((T6)(GE_int32(1)))));
((T399*)(C))->a73 = (T399f695(C, (T6)(GE_int32(2)), t5));
T399f1034(C, (T6)(GE_int32(7)));
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(55))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(54)))))));
if (t1) {
((T399*)(C))->a35 = ((T6)((((T399*)(C))->a35)+((T6)(GE_int32(1)))));
((T399*)(C))->a36 = (T6)(GE_int32(1));
((T399*)(C))->a74 = (T399f697(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T6)(GE_int32(0));
T399f1034(C, (T6)(GE_int32(8)));
} else {
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(1)))));
((T399*)(C))->a67 = (T6)(GE_int32(371));
((T399*)(C))->a231 = (T399f671(C));
t4 = (T399f671(C));
T399f1031(C, t4);
T399f1034(C, (T6)(GE_int32(0)));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(56)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
t5 = ((T6)((((T399*)(C))->a72)+((T6)(GE_int32(1)))));
t7 = (T399f680(C));
t7 = ((T6)((t7)-((T6)(GE_int32(1)))));
t1 = (T399f699(C, t5, t7));
if (t1) {
((T399*)(C))->a67 = (T6)(GE_int32(361));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
t5 = ((T6)((((T399*)(C))->a72)+((T6)(GE_int32(1)))));
t7 = (T399f680(C));
t8 = (((((T0*)(GE_void(((T399*)(C))->a73)))->id==17)?((T17*)(((T399*)(C))->a73))->a2:((T835*)(((T399*)(C))->a73))->a1));
t7 = ((T6)((t7)-(t8)));
t7 = ((T6)((t7)-((T6)(GE_int32(2)))));
t6 = (T399f695(C, t5, t7));
((T399*)(C))->a271 = (T362f6(GE_void(t4), ((T399*)(C))->a73, ((T399*)(C))->a74, t6, EIF_TRUE, C));
((T399*)(C))->a73 = EIF_VOID;
((T399*)(C))->a74 = EIF_VOID;
T399f1034(C, (T6)(GE_int32(0)));
} else {
T399f1040(C);
T399f1034(C, (T6)(GE_int32(9)));
}
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
t5 = ((T6)((((T399*)(C))->a72)+((T6)(GE_int32(1)))));
t7 = (T399f680(C));
t7 = ((T6)((t7)-((T6)(GE_int32(1)))));
t1 = (T399f699(C, t5, t7));
if (t1) {
t5 = ((T6)((((T399*)(C))->a72)+((T6)(GE_int32(1)))));
t7 = (T399f680(C));
t8 = (((((T0*)(GE_void(((T399*)(C))->a73)))->id==17)?((T17*)(((T399*)(C))->a73))->a2:((T835*)(((T399*)(C))->a73))->a1));
t7 = ((T6)((t7)-(t8)));
t7 = ((T6)((t7)-((T6)(GE_int32(2)))));
((T399*)(C))->a75 = (T399f695(C, t5, t7));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a312 = (T6)(GE_int32(16));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
T399f1040(C);
T399f1034(C, (T6)(GE_int32(9)));
}
}
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(61))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(59))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(58)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(9)));
} else {
((T399*)(C))->a35 = ((T6)((((T399*)(C))->a35)+((T6)(GE_int32(1)))));
((T399*)(C))->a36 = (T6)(GE_int32(1));
T399f1040(C);
t5 = (T399f680(C));
((T399*)(C))->a72 = ((T6)((t5)-((T6)(GE_int32(2)))));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(60)))))));
if (t1) {
((T399*)(C))->a35 = ((T6)((((T399*)(C))->a35)+((T6)(GE_int32(1)))));
((T399*)(C))->a36 = (T6)(GE_int32(1));
T399f1040(C);
t5 = (T399f680(C));
((T399*)(C))->a72 = ((T6)((t5)-((T6)(GE_int32(1)))));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(371));
((T399*)(C))->a231 = (T399f671(C));
t4 = (T399f671(C));
T399f1031(C, t4);
T399f1034(C, (T6)(GE_int32(0)));
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(63))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(62)))))));
if (t1) {
((T399*)(C))->a35 = ((T6)((((T399*)(C))->a35)+((T6)(GE_int32(1)))));
((T399*)(C))->a36 = (T6)(GE_int32(1));
T399f1040(C);
t5 = (T399f680(C));
((T399*)(C))->a72 = ((T6)((t5)-((T6)(GE_int32(2)))));
T399f1034(C, (T6)(GE_int32(8)));
} else {
((T399*)(C))->a35 = ((T6)((((T399*)(C))->a35)+((T6)(GE_int32(1)))));
((T399*)(C))->a36 = (T6)(GE_int32(1));
T399f1040(C);
t5 = (T399f680(C));
((T399*)(C))->a72 = ((T6)((t5)-((T6)(GE_int32(1)))));
T399f1034(C, (T6)(GE_int32(8)));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(64)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(371));
((T399*)(C))->a231 = (T399f671(C));
t4 = (T399f671(C));
T399f1031(C, t4);
T399f1034(C, (T6)(GE_int32(0)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(361));
((T399*)(C))->a19 = (T6)(GE_int32(2));
t5 = (T399f680(C));
((T399*)(C))->a72 = ((T6)((t5)-((T6)(GE_int32(1)))));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a271 = (T362f7(GE_void(t4), C));
}
}
}
}
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(97))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(81))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(73))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(69))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(67))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(66)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(2));
((T399*)(C))->a72 = ((T6)((((T399*)(C))->a18)-((T6)(GE_int32(1)))));
((T399*)(C))->a312 = (T6)(GE_int32(14));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a311 = ((T399*)(C))->a38;
((T399*)(C))->a310 = ((T399*)(C))->a39;
T399f1040(C);
T399f1034(C, (T6)(GE_int32(2)));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(68)))))));
if (t1) {
((T399*)(C))->a35 = ((T6)((((T399*)(C))->a35)+((T6)(GE_int32(1)))));
((T399*)(C))->a36 = (T6)(GE_int32(1));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(3)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1040(C);
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(71))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(70)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a39 = ((T399*)(C))->a36;
((T399*)(C))->a38 = ((T399*)(C))->a35;
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f214(t4, ((T399*)(C))->a20, t6);
} else {
T29f213(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a231 = (T399f671(C));
((T399*)(C))->a39 = ((T399*)(C))->a310;
((T399*)(C))->a38 = ((T399*)(C))->a311;
((T399*)(C))->a67 = (T6)(GE_int32(371));
T399f1034(C, (T6)(GE_int32(0)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a39 = ((T399*)(C))->a36;
((T399*)(C))->a38 = ((T399*)(C))->a35;
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f215(t4, ((T399*)(C))->a20, t6);
} else {
T29f214(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a231 = (T399f671(C));
((T399*)(C))->a39 = ((T399*)(C))->a310;
((T399*)(C))->a38 = ((T399*)(C))->a311;
((T399*)(C))->a67 = (T6)(GE_int32(371));
T399f1034(C, (T6)(GE_int32(0)));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(72)))))));
if (t1) {
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(2)))));
((T399*)(C))->a39 = ((T399*)(C))->a36;
((T399*)(C))->a38 = ((T399*)(C))->a35;
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f216(t4, ((T399*)(C))->a20, t6);
} else {
T29f215(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a231 = (T399f671(C));
((T399*)(C))->a39 = ((T399*)(C))->a310;
((T399*)(C))->a38 = ((T399*)(C))->a311;
((T399*)(C))->a67 = (T6)(GE_int32(371));
T399f1034(C, (T6)(GE_int32(0)));
} else {
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(2)))));
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a36)-((T6)(GE_int32(1)))));
((T399*)(C))->a38 = ((T399*)(C))->a35;
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f217(t4, ((T399*)(C))->a20, t6);
} else {
T29f216(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a39 = ((T399*)(C))->a310;
((T399*)(C))->a38 = ((T399*)(C))->a311;
T399f1040(C);
}
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(77))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(75))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(74)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1040(C);
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(361));
((T399*)(C))->a19 = (T6)(GE_int32(2));
t5 = (T399f680(C));
((T399*)(C))->a72 = ((T6)((t5)-((T6)(GE_int32(1)))));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a271 = (T362f7(GE_void(t4), C));
T399f1034(C, (T6)(GE_int32(0)));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(76)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(2));
((T399*)(C))->a72 = ((T6)((((T399*)(C))->a18)-((T6)(GE_int32(1)))));
((T399*)(C))->a312 = (T6)(GE_int32(14));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(2)))));
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a36)-((T6)(GE_int32(1)))));
((T399*)(C))->a38 = ((T399*)(C))->a35;
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f218(t4, ((T399*)(C))->a20, t6);
} else {
T29f217(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a39 = ((T399*)(C))->a310;
((T399*)(C))->a38 = ((T399*)(C))->a311;
T399f1040(C);
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(79))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(78)))))));
if (t1) {
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(1)))));
((T399*)(C))->a39 = ((T399*)(C))->a36;
((T399*)(C))->a38 = ((T399*)(C))->a35;
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f218(t4, ((T399*)(C))->a20, t6);
} else {
T29f217(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a231 = (T399f671(C));
((T399*)(C))->a39 = ((T399*)(C))->a310;
((T399*)(C))->a38 = ((T399*)(C))->a311;
((T399*)(C))->a67 = (T6)(GE_int32(371));
T399f1034(C, (T6)(GE_int32(0)));
} else {
((T399*)(C))->a35 = ((T6)((((T399*)(C))->a35)+((T6)(GE_int32(1)))));
((T399*)(C))->a36 = (T6)(GE_int32(1));
((T399*)(C))->a39 = (T6)(GE_int32(1));
((T399*)(C))->a38 = ((T399*)(C))->a35;
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f219(t4, ((T399*)(C))->a20, t6);
} else {
T29f218(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a231 = (T399f671(C));
((T399*)(C))->a39 = ((T399*)(C))->a310;
((T399*)(C))->a38 = ((T399*)(C))->a311;
((T399*)(C))->a67 = (T6)(GE_int32(371));
T399f1034(C, (T6)(GE_int32(0)));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(80)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(2)));
} else {
((T399*)(C))->a35 = ((T6)((((T399*)(C))->a35)+((T6)(GE_int32(1)))));
((T399*)(C))->a36 = (T6)(GE_int32(1));
((T399*)(C))->a39 = (T6)(GE_int32(1));
((T399*)(C))->a38 = ((T6)((((T399*)(C))->a35)-((T6)(GE_int32(1)))));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f220(t4, ((T399*)(C))->a20, t6);
} else {
T29f219(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a39 = ((T399*)(C))->a310;
((T399*)(C))->a38 = ((T399*)(C))->a311;
T399f1040(C);
}
}
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(89))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(85))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(83))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(82)))))));
if (t1) {
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(1)))));
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a36)-((T6)(GE_int32(1)))));
((T399*)(C))->a38 = ((T399*)(C))->a35;
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f208(t4, ((T399*)(C))->a20, t6);
} else {
T29f207(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a231 = (T399f671(C));
((T399*)(C))->a39 = ((T399*)(C))->a310;
((T399*)(C))->a38 = ((T399*)(C))->a311;
((T399*)(C))->a67 = (T6)(GE_int32(371));
T399f1034(C, (T6)(GE_int32(0)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(324));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a235 = (T362f8(GE_void(t4), C));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(84)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(11));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(334));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a263 = (T362f9(GE_void(t4), C));
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(87))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(86)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(4));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(334));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a263 = (T362f10(GE_void(t4), C));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(88)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(5));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f221(t4, ((T399*)(C))->a20, t6);
} else {
T29f220(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a67 = (T6)(GE_int32(334));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a263 = (T362f10(GE_void(t4), C));
}
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(93))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(91))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(90)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f221(t4, ((T399*)(C))->a20, t6);
} else {
T29f220(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(5));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f222(t4, ((T399*)(C))->a20, t6);
} else {
T29f221(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a67 = (T6)(GE_int32(334));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a263 = (T362f10(GE_void(t4), C));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(92)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f222(t4, ((T399*)(C))->a20, t6);
} else {
T29f221(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(5));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(334));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a263 = (T362f11(GE_void(t4), C));
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(95))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(94)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(6));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f221(t4, ((T399*)(C))->a20, t6);
} else {
T29f220(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a67 = (T6)(GE_int32(334));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a263 = (T362f11(GE_void(t4), C));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(96)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f221(t4, ((T399*)(C))->a20, t6);
} else {
T29f220(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(6));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f222(t4, ((T399*)(C))->a20, t6);
} else {
T29f221(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a67 = (T6)(GE_int32(334));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a263 = (T362f11(GE_void(t4), C));
}
}
}
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(113))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(105))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(101))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(99))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(98)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f222(t4, ((T399*)(C))->a20, t6);
} else {
T29f221(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(6));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(334));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a263 = (T362f12(GE_void(t4), C));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(100)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(7));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f221(t4, ((T399*)(C))->a20, t6);
} else {
T29f220(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a67 = (T6)(GE_int32(334));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a263 = (T362f12(GE_void(t4), C));
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(103))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(102)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f221(t4, ((T399*)(C))->a20, t6);
} else {
T29f220(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(7));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f222(t4, ((T399*)(C))->a20, t6);
} else {
T29f221(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a67 = (T6)(GE_int32(334));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a263 = (T362f12(GE_void(t4), C));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(104)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f222(t4, ((T399*)(C))->a20, t6);
} else {
T29f221(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(7));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(334));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a263 = (T362f13(GE_void(t4), C));
}
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(109))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(107))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(106)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(8));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f221(t4, ((T399*)(C))->a20, t6);
} else {
T29f220(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a67 = (T6)(GE_int32(334));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a263 = (T362f13(GE_void(t4), C));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(108)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f221(t4, ((T399*)(C))->a20, t6);
} else {
T29f220(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(8));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f222(t4, ((T399*)(C))->a20, t6);
} else {
T29f221(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a67 = (T6)(GE_int32(334));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a263 = (T362f13(GE_void(t4), C));
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(111))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(110)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
T399f1035(C);
t4 = (T399f895(C));
t6 = (T399f671(C));
if (((T0*)(GE_void(t4)))->id==70) {
T70f222(t4, ((T399*)(C))->a20, t6);
} else {
T29f221(t4, ((T399*)(C))->a20, t6);
}
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(8));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(9));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(112)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(9));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(9));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
}
}
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(121))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(117))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(115))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(114)))))));
if (t1) {
((T399*)(C))->a42 = ((T6)((((T399*)(C))->a42)-((T6)(GE_int32(1)))));
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(362));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a275 = (T362f14(GE_void(t4), C));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(362));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a275 = (T362f14(GE_void(t4), C));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(116)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(362));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a275 = (T362f14(GE_void(t4), C));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(10));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(119))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(118)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(10));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a18 = (T399f680(C));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = ((T399*)(C))->a18;
((T399*)(C))->a312 = (T6)(GE_int32(10));
T399f1040(C);
T399f1034(C, (T6)(GE_int32(1)));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(120)))))));
if (t1) {
((T399*)(C))->a42 = ((T6)((((T399*)(C))->a42)-((T6)(GE_int32(1)))));
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(362));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a275 = (T362f15(GE_void(t4), C));
} else {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(362));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a275 = (T362f15(GE_void(t4), C));
}
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(125))));
if (t1) {
t1 = (T6f13(&a1, (T6)(GE_int32(123))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(122)))))));
if (t1) {
t5 = ((T6)((((T399*)(C))->a36)+(((T399*)(C))->a42)));
t5 = ((T6)((t5)-(((T399*)(C))->a43)));
((T399*)(C))->a36 = ((T6)((t5)-(((T399*)(C))->a77)));
((T399*)(C))->a67 = (T6)(GE_int32(362));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T399f680(C));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a275 = (T362f15(GE_void(t4), C));
} else {
T399f1037(C);
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T6)(GE_int32(0));
((T399*)(C))->a18 = (T6)(GE_int32(0));
((T399*)(C))->a308 = (T399f680(C));
((T399*)(C))->a309 = (T6)(GE_int32(0));
t4 = (T399f682(C));
((T399*)(C))->a243 = (T362f16(GE_void(t4), C));
((T399*)(C))->a67 = (T6)(GE_int32(327));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(124)))))));
if (t1) {
T399f1037(C);
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T6)(GE_int32(0));
((T399*)(C))->a18 = (T6)(GE_int32(0));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T399f680(C));
t4 = (T399f682(C));
((T399*)(C))->a243 = (T362f17(GE_void(t4), C));
((T399*)(C))->a67 = (T6)(GE_int32(327));
} else {
T399f1037(C);
((T399*)(C))->a308 = (T399f680(C));
((T399*)(C))->a309 = (T6)(GE_int32(0));
T399f1033(C);
T399f1034(C, (T6)(GE_int32(0)));
}
}
} else {
t1 = (T6f13(&a1, (T6)(GE_int32(127))));
if (t1) {
t1 = (((((a1) == ((T6)(GE_int32(126)))))));
if (t1) {
T399f1037(C);
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T399f680(C));
T399f1033(C);
T399f1034(C, (T6)(GE_int32(0)));
} else {
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(1)))));
T399f1044(C, (T6)(GE_int32(0)));
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
T399f1033(C);
T399f1034(C, (T6)(GE_int32(0)));
}
} else {
t1 = (((((a1) == ((T6)(GE_int32(128)))))));
if (t1) {
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+((T6)(GE_int32(1)))));
((T399*)(C))->a67 = (T6)(GE_int32(323));
((T399*)(C))->a231 = (T399f671(C));
} else {
T399f1037(C);
((T399*)(C))->a67 = (T6)(GE_int32(-1));
T399f1011(C, GE_ms8("scanner jammed", 14));
}
}
}
}
}
}
}
}
/* ET_EIFFEL_PARSER.less */
void T399f1044(T0* C, T6 a1)
{
T1 t1;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
if (EIF_TRUE) {
l2 = ((T6)((((T399*)(C))->a43)+(a1)));
l1 = ((T6)((((T399*)(C))->a42)-(l2)));
((T399*)(C))->a42 = l2;
t1 = ((T1)((l1)<(((T399*)(C))->a36)));
if (t1) {
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)-(l1)));
} else {
l3 = ((T399*)(C))->a77;
((T399*)(C))->a77 = (T6)(GE_int32(0));
((T399*)(C))->a35 = ((T399*)(C))->a38;
((T399*)(C))->a36 = ((T399*)(C))->a39;
T399f1037(C);
((T399*)(C))->a77 = l3;
}
} else {
((T399*)(C))->a42 = ((T6)((((T399*)(C))->a43)+(a1)));
}
((T399*)(C))->a37 = ((T6)((((T399*)(C))->a40)+(a1)));
}
/* ET_EIFFEL_PARSER.process_break */
void T399f1033(T0* C)
{
T0* t1;
switch (((T399*)(C))->a312) {
case (T6)(T6)(GE_int32(1)):
T399f1039(C, ((T399*)(C))->a18);
break;
case (T6)(T6)(GE_int32(2)):
((T399*)(C))->a67 = (T6)(GE_int32(330));
t1 = (T399f682(C));
((T399*)(C))->a255 = (T362f3(GE_void(t1), C));
break;
case (T6)(T6)(GE_int32(3)):
((T399*)(C))->a67 = (T6)(GE_int32(328));
t1 = (T399f682(C));
((T399*)(C))->a247 = (T362f4(GE_void(t1), C));
break;
case (T6)(T6)(GE_int32(4)):
((T399*)(C))->a67 = (T6)(GE_int32(334));
t1 = (T399f682(C));
((T399*)(C))->a263 = (T362f9(GE_void(t1), C));
break;
case (T6)(T6)(GE_int32(5)):
((T399*)(C))->a67 = (T6)(GE_int32(334));
t1 = (T399f682(C));
((T399*)(C))->a263 = (T362f10(GE_void(t1), C));
break;
case (T6)(T6)(GE_int32(6)):
((T399*)(C))->a67 = (T6)(GE_int32(334));
t1 = (T399f682(C));
((T399*)(C))->a263 = (T362f11(GE_void(t1), C));
break;
case (T6)(T6)(GE_int32(7)):
((T399*)(C))->a67 = (T6)(GE_int32(334));
t1 = (T399f682(C));
((T399*)(C))->a263 = (T362f12(GE_void(t1), C));
break;
case (T6)(T6)(GE_int32(8)):
((T399*)(C))->a67 = (T6)(GE_int32(334));
t1 = (T399f682(C));
((T399*)(C))->a263 = (T362f13(GE_void(t1), C));
break;
case (T6)(T6)(GE_int32(9)):
((T399*)(C))->a67 = (T6)(GE_int32(362));
t1 = (T399f682(C));
((T399*)(C))->a275 = (T362f14(GE_void(t1), C));
break;
case (T6)(T6)(GE_int32(10)):
((T399*)(C))->a67 = (T6)(GE_int32(362));
t1 = (T399f682(C));
((T399*)(C))->a275 = (T362f15(GE_void(t1), C));
break;
case (T6)(T6)(GE_int32(11)):
((T399*)(C))->a67 = (T6)(GE_int32(324));
t1 = (T399f682(C));
((T399*)(C))->a235 = (T362f8(GE_void(t1), C));
break;
case (T6)(T6)(GE_int32(12)):
T399f1043(C, ((T399*)(C))->a18);
break;
case (T6)(T6)(GE_int32(13)):
((T399*)(C))->a67 = (T6)(GE_int32(359));
t1 = (T399f682(C));
((T399*)(C))->a271 = (T362f5(GE_void(t1), C));
break;
case (T6)(T6)(GE_int32(14)):
((T399*)(C))->a67 = (T6)(GE_int32(361));
t1 = (T399f682(C));
((T399*)(C))->a271 = (T362f7(GE_void(t1), C));
break;
case (T6)(T6)(GE_int32(15)):
((T399*)(C))->a67 = (T6)(GE_int32(361));
t1 = (T399f682(C));
((T399*)(C))->a271 = (T362f6(GE_void(t1), ((T399*)(C))->a73, ((T399*)(C))->a74, ((T399*)(C))->a75, EIF_FALSE, C));
((T399*)(C))->a73 = EIF_VOID;
((T399*)(C))->a74 = EIF_VOID;
((T399*)(C))->a75 = EIF_VOID;
break;
case (T6)(T6)(GE_int32(16)):
((T399*)(C))->a67 = (T6)(GE_int32(361));
t1 = (T399f682(C));
((T399*)(C))->a271 = (T362f6(GE_void(t1), ((T399*)(C))->a73, ((T399*)(C))->a74, ((T399*)(C))->a75, EIF_TRUE, C));
((T399*)(C))->a73 = EIF_VOID;
((T399*)(C))->a74 = EIF_VOID;
((T399*)(C))->a75 = EIF_VOID;
break;
default:
((T399*)(C))->a67 = (T6)(GE_int32(323));
((T399*)(C))->a231 = (T399f671(C));
break;
}
}
/* ET_AST_FACTORY.new_comment */
T0* T362f17(T0* C, T0* a1)
{
T0* R = 0;
return R;
}
/* ET_AST_FACTORY.new_break */
T0* T362f16(T0* C, T0* a1)
{
T0* R = 0;
return R;
}
/* ET_AST_FACTORY.new_underscored_real_constant */
T0* T362f15(T0* C, T0* a1)
{
T0* t1;
T6 t2;
T6 t3;
T0* R = 0;
t1 = (T399f935(a1));
R = T1141c35(t1);
t2 = (((T399*)(a1))->a38);
t3 = (((T399*)(a1))->a39);
T1141f36(GE_void(R), t2, t3);
return R;
}
/* ET_UNDERSCORED_REAL_CONSTANT.set_position */
void T1141f36(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1141*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_UNDERSCORED_REAL_CONSTANT.make */
T0* T1141c35(T0* a1)
{
T0* C;
C = GE_new1141(EIF_TRUE);
((T1141*)(C))->a1 = a1;
T1141f37(C);
return C;
}
/* ET_UNDERSCORED_REAL_CONSTANT.make_leaf */
void T1141f37(T0* C)
{
((T1141*)(C))->a2 = (T6)(GE_int32(0));
}
/* ET_EIFFEL_PARSER.last_literal */
T0* T399f935(T0* C)
{
T0* R = 0;
R = (T399f695(C, ((T399*)(C))->a19, ((T399*)(C))->a72));
return R;
}
/* ET_AST_FACTORY.new_regular_real_constant */
T0* T362f14(T0* C, T0* a1)
{
T0* t1;
T6 t2;
T6 t3;
T0* R = 0;
t1 = (T399f935(a1));
R = T1140c35(t1);
t2 = (((T399*)(a1))->a38);
t3 = (((T399*)(a1))->a39);
T1140f36(GE_void(R), t2, t3);
return R;
}
/* ET_REGULAR_REAL_CONSTANT.set_position */
void T1140f36(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1140*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_REGULAR_REAL_CONSTANT.make */
T0* T1140c35(T0* a1)
{
T0* C;
C = GE_new1140(EIF_TRUE);
((T1140*)(C))->a1 = a1;
T1140f37(C);
return C;
}
/* ET_REGULAR_REAL_CONSTANT.make_leaf */
void T1140f37(T0* C)
{
((T1140*)(C))->a2 = (T6)(GE_int32(0));
}
/* ET_AST_FACTORY.new_binary_integer_constant */
T0* T362f13(T0* C, T0* a1)
{
T0* t1;
T6 t2;
T6 t3;
T0* R = 0;
t1 = (T399f935(a1));
R = T1139c66(t1);
t2 = (((T399*)(a1))->a38);
t3 = (((T399*)(a1))->a39);
T1139f67(GE_void(R), t2, t3);
return R;
}
/* ET_BINARY_INTEGER_CONSTANT.set_position */
void T1139f67(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1139*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_BINARY_INTEGER_CONSTANT.make */
T0* T1139c66(T0* a1)
{
T0* C;
C = GE_new1139(EIF_TRUE);
((T1139*)(C))->a1 = a1;
T1139f68(C);
T1139f69(C);
return C;
}
/* ET_BINARY_INTEGER_CONSTANT.compute_value */
void T1139f69(T0* C)
{
T2 t1;
T11 t2;
T1 t3;
T10 t4;
T1 t5;
T11 l1 = 0;
T11 l2 = 0;
T6 l3 = 0;
T6 l4 = 0;
T11 l5 = 0;
T11 l6 = 0;
T10 l7 = 0;
T2 l8 = 0;
t1 = (T2)('0');
l7 = (T2f4(&t1));
t2 = ((T11)(GE_nat64(18446744073709551615)));
l5 = ((T11)((t2)/((T11)(GE_nat64(2)))));
t2 = ((T11)(GE_nat64(18446744073709551615)));
l6 = ((T11)((t2)%((T11)(GE_nat64(2)))));
((T1139*)(C))->a3 = EIF_FALSE;
l4 = (((((T0*)(GE_void(((T1139*)(C))->a1)))->id==17)?((T17*)(((T1139*)(C))->a1))->a2:((T835*)(((T1139*)(C))->a1))->a1));
l3 = (T6)(GE_int32(3));
while (1) {
t3 = (T6f1((&l3), l4));
if (t3) {
break;
}
l8 = (((((T0*)(GE_void(((T1139*)(C))->a1)))->id==17)?T17f10(((T1139*)(C))->a1, l3):T835f9(((T1139*)(C))->a1, l3)));
t3 = (((((l8) != ((T2)('_'))))));
if (t3) {
t4 = (T2f4((&l8)));
t4 = ((T10)((t4)-(l7)));
l2 = (T10f22(&t4));
t3 = ((T1)((l1)<(l5)));
if (!(t3)) {
t5 = (((((l1) == (l5)))));
if (t5) {
t3 = (T11f1((&l2), l6));
} else {
t3 = EIF_FALSE;
}
}
if (t3) {
t2 = ((T11)((T6)(GE_int32(2))));
t2 = ((T11)((t2)*(l1)));
l1 = ((T11)((t2)+(l2)));
} else {
((T1139*)(C))->a3 = EIF_TRUE;
l3 = ((T6)((l4)+((T6)(GE_int32(1)))));
}
}
l3 = ((T6)((l3)+((T6)(GE_int32(1)))));
}
((T1139*)(C))->a4 = l1;
}
/* ET_BINARY_INTEGER_CONSTANT.make_leaf */
void T1139f68(T0* C)
{
((T1139*)(C))->a2 = (T6)(GE_int32(0));
}
/* ET_AST_FACTORY.new_octal_integer_constant */
T0* T362f12(T0* C, T0* a1)
{
T0* t1;
T6 t2;
T6 t3;
T0* R = 0;
t1 = (T399f935(a1));
R = T1138c66(t1);
t2 = (((T399*)(a1))->a38);
t3 = (((T399*)(a1))->a39);
T1138f67(GE_void(R), t2, t3);
return R;
}
/* ET_OCTAL_INTEGER_CONSTANT.set_position */
void T1138f67(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1138*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_OCTAL_INTEGER_CONSTANT.make */
T0* T1138c66(T0* a1)
{
T0* C;
C = GE_new1138(EIF_TRUE);
((T1138*)(C))->a1 = a1;
T1138f68(C);
T1138f69(C);
return C;
}
/* ET_OCTAL_INTEGER_CONSTANT.compute_value */
void T1138f69(T0* C)
{
T2 t1;
T11 t2;
T1 t3;
T10 t4;
T1 t5;
T11 l1 = 0;
T11 l2 = 0;
T6 l3 = 0;
T6 l4 = 0;
T11 l5 = 0;
T11 l6 = 0;
T10 l7 = 0;
T2 l8 = 0;
t1 = (T2)('0');
l7 = (T2f4(&t1));
t2 = ((T11)(GE_nat64(18446744073709551615)));
l5 = ((T11)((t2)/((T11)(GE_nat64(8)))));
t2 = ((T11)(GE_nat64(18446744073709551615)));
l6 = ((T11)((t2)%((T11)(GE_nat64(8)))));
((T1138*)(C))->a3 = EIF_FALSE;
l4 = (((((T0*)(GE_void(((T1138*)(C))->a1)))->id==17)?((T17*)(((T1138*)(C))->a1))->a2:((T835*)(((T1138*)(C))->a1))->a1));
l3 = (T6)(GE_int32(3));
while (1) {
t3 = (T6f1((&l3), l4));
if (t3) {
break;
}
l8 = (((((T0*)(GE_void(((T1138*)(C))->a1)))->id==17)?T17f10(((T1138*)(C))->a1, l3):T835f9(((T1138*)(C))->a1, l3)));
t3 = (((((l8) != ((T2)('_'))))));
if (t3) {
t4 = (T2f4((&l8)));
t4 = ((T10)((t4)-(l7)));
l2 = (T10f22(&t4));
t3 = ((T1)((l1)<(l5)));
if (!(t3)) {
t5 = (((((l1) == (l5)))));
if (t5) {
t3 = (T11f1((&l2), l6));
} else {
t3 = EIF_FALSE;
}
}
if (t3) {
t2 = ((T11)((T6)(GE_int32(8))));
t2 = ((T11)((t2)*(l1)));
l1 = ((T11)((t2)+(l2)));
} else {
((T1138*)(C))->a3 = EIF_TRUE;
l3 = ((T6)((l4)+((T6)(GE_int32(1)))));
}
}
l3 = ((T6)((l3)+((T6)(GE_int32(1)))));
}
((T1138*)(C))->a4 = l1;
}
/* ET_OCTAL_INTEGER_CONSTANT.make_leaf */
void T1138f68(T0* C)
{
((T1138*)(C))->a2 = (T6)(GE_int32(0));
}
/* ET_AST_FACTORY.new_hexadecimal_integer_constant */
T0* T362f11(T0* C, T0* a1)
{
T0* t1;
T6 t2;
T6 t3;
T0* R = 0;
t1 = (T399f935(a1));
R = T1137c66(t1);
t2 = (((T399*)(a1))->a38);
t3 = (((T399*)(a1))->a39);
T1137f67(GE_void(R), t2, t3);
return R;
}
/* ET_HEXADECIMAL_INTEGER_CONSTANT.set_position */
void T1137f67(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1137*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_HEXADECIMAL_INTEGER_CONSTANT.make */
T0* T1137c66(T0* a1)
{
T0* C;
C = GE_new1137(EIF_TRUE);
((T1137*)(C))->a1 = a1;
T1137f68(C);
T1137f69(C);
return C;
}
/* ET_HEXADECIMAL_INTEGER_CONSTANT.compute_value */
void T1137f69(T0* C)
{
T11 t1;
T1 t2;
T1 t3;
T11 l1 = 0;
T11 l2 = 0;
T6 l3 = 0;
T6 l4 = 0;
T11 l5 = 0;
T11 l6 = 0;
T2 l7 = 0;
t1 = ((T11)(GE_nat64(18446744073709551615)));
l5 = ((T11)((t1)/((T11)(GE_nat64(16)))));
t1 = ((T11)(GE_nat64(18446744073709551615)));
l6 = ((T11)((t1)%((T11)(GE_nat64(16)))));
((T1137*)(C))->a3 = EIF_FALSE;
l4 = (((((T0*)(GE_void(((T1137*)(C))->a1)))->id==17)?((T17*)(((T1137*)(C))->a1))->a2:((T835*)(((T1137*)(C))->a1))->a1));
l3 = (T6)(GE_int32(3));
while (1) {
t2 = (T6f1((&l3), l4));
if (t2) {
break;
}
l7 = (((((T0*)(GE_void(((T1137*)(C))->a1)))->id==17)?T17f10(((T1137*)(C))->a1, l3):T835f9(((T1137*)(C))->a1, l3)));
t2 = (((((l7) != ((T2)('_'))))));
if (t2) {
switch (l7) {
case (T2)(T2)('0'):
l2 = (T11)(GE_nat64(0));
break;
case (T2)(T2)('1'):
l2 = (T11)(GE_nat64(1));
break;
case (T2)(T2)('2'):
l2 = (T11)(GE_nat64(2));
break;
case (T2)(T2)('3'):
l2 = (T11)(GE_nat64(3));
break;
case (T2)(T2)('4'):
l2 = (T11)(GE_nat64(4));
break;
case (T2)(T2)('5'):
l2 = (T11)(GE_nat64(5));
break;
case (T2)(T2)('6'):
l2 = (T11)(GE_nat64(6));
break;
case (T2)(T2)('7'):
l2 = (T11)(GE_nat64(7));
break;
case (T2)(T2)('8'):
l2 = (T11)(GE_nat64(8));
break;
case (T2)(T2)('9'):
l2 = (T11)(GE_nat64(9));
break;
case (T2)(T2)('a'):
case (T2)(T2)('A'):
l2 = (T11)(GE_nat64(10));
break;
case (T2)(T2)('b'):
case (T2)(T2)('B'):
l2 = (T11)(GE_nat64(11));
break;
case (T2)(T2)('c'):
case (T2)(T2)('C'):
l2 = (T11)(GE_nat64(12));
break;
case (T2)(T2)('d'):
case (T2)(T2)('D'):
l2 = (T11)(GE_nat64(13));
break;
case (T2)(T2)('e'):
case (T2)(T2)('E'):
l2 = (T11)(GE_nat64(14));
break;
case (T2)(T2)('f'):
case (T2)(T2)('F'):
l2 = (T11)(GE_nat64(15));
break;
default:
GE_raise(9);
break;
}
t2 = ((T1)((l1)<(l5)));
if (!(t2)) {
t3 = (((((l1) == (l5)))));
if (t3) {
t2 = (T11f1((&l2), l6));
} else {
t2 = EIF_FALSE;
}
}
if (t2) {
t1 = ((T11)((T6)(GE_int32(16))));
t1 = ((T11)((t1)*(l1)));
l1 = ((T11)((t1)+(l2)));
} else {
((T1137*)(C))->a3 = EIF_TRUE;
l3 = ((T6)((l4)+((T6)(GE_int32(1)))));
}
}
l3 = ((T6)((l3)+((T6)(GE_int32(1)))));
}
((T1137*)(C))->a4 = l1;
}
/* ET_HEXADECIMAL_INTEGER_CONSTANT.make_leaf */
void T1137f68(T0* C)
{
((T1137*)(C))->a2 = (T6)(GE_int32(0));
}
/* ET_ERROR_HANDLER.report_silu_error */
void T29f221(T0* C, T0* a1, T0* a2)
{
T29f222(C, a1, a2);
}
/* ET_NULL_ERROR_HANDLER.report_silu_error */
void T70f222(T0* C, T0* a1, T0* a2)
{
T70f223(C, a1, a2);
}
/* ET_ERROR_HANDLER.report_sifu_error */
void T29f220(T0* C, T0* a1, T0* a2)
{
T29f222(C, a1, a2);
}
/* ET_NULL_ERROR_HANDLER.report_sifu_error */
void T70f221(T0* C, T0* a1, T0* a2)
{
T70f223(C, a1, a2);
}
/* ET_AST_FACTORY.new_underscored_integer_constant */
T0* T362f10(T0* C, T0* a1)
{
T0* t1;
T6 t2;
T6 t3;
T0* R = 0;
t1 = (T399f935(a1));
R = T1136c66(t1);
t2 = (((T399*)(a1))->a38);
t3 = (((T399*)(a1))->a39);
T1136f67(GE_void(R), t2, t3);
return R;
}
/* ET_UNDERSCORED_INTEGER_CONSTANT.set_position */
void T1136f67(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1136*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_UNDERSCORED_INTEGER_CONSTANT.make */
T0* T1136c66(T0* a1)
{
T0* C;
C = GE_new1136(EIF_TRUE);
((T1136*)(C))->a1 = a1;
T1136f68(C);
T1136f69(C);
return C;
}
/* ET_UNDERSCORED_INTEGER_CONSTANT.compute_value */
void T1136f69(T0* C)
{
T2 t1;
T11 t2;
T1 t3;
T10 t4;
T1 t5;
T11 l1 = 0;
T11 l2 = 0;
T6 l3 = 0;
T6 l4 = 0;
T11 l5 = 0;
T11 l6 = 0;
T10 l7 = 0;
T2 l8 = 0;
t1 = (T2)('0');
l7 = (T2f4(&t1));
t2 = ((T11)(GE_nat64(18446744073709551615)));
l5 = ((T11)((t2)/((T11)(GE_nat64(10)))));
t2 = ((T11)(GE_nat64(18446744073709551615)));
l6 = ((T11)((t2)%((T11)(GE_nat64(10)))));
((T1136*)(C))->a3 = EIF_FALSE;
l4 = (((((T0*)(GE_void(((T1136*)(C))->a1)))->id==17)?((T17*)(((T1136*)(C))->a1))->a2:((T835*)(((T1136*)(C))->a1))->a1));
l3 = (T6)(GE_int32(1));
while (1) {
t3 = (T6f1((&l3), l4));
if (t3) {
break;
}
l8 = (((((T0*)(GE_void(((T1136*)(C))->a1)))->id==17)?T17f10(((T1136*)(C))->a1, l3):T835f9(((T1136*)(C))->a1, l3)));
t3 = (((((l8) != ((T2)('_'))))));
if (t3) {
t4 = (T2f4((&l8)));
t4 = ((T10)((t4)-(l7)));
l2 = (T10f22(&t4));
t3 = ((T1)((l1)<(l5)));
if (!(t3)) {
t5 = (((((l1) == (l5)))));
if (t5) {
t3 = (T11f1((&l2), l6));
} else {
t3 = EIF_FALSE;
}
}
if (t3) {
t2 = ((T11)((T6)(GE_int32(10))));
t2 = ((T11)((t2)*(l1)));
l1 = ((T11)((t2)+(l2)));
} else {
((T1136*)(C))->a3 = EIF_TRUE;
l3 = ((T6)((l4)+((T6)(GE_int32(1)))));
}
}
l3 = ((T6)((l3)+((T6)(GE_int32(1)))));
}
((T1136*)(C))->a4 = l1;
}
/* ET_UNDERSCORED_INTEGER_CONSTANT.make_leaf */
void T1136f68(T0* C)
{
((T1136*)(C))->a2 = (T6)(GE_int32(0));
}
/* ET_AST_FACTORY.new_regular_integer_constant */
T0* T362f9(T0* C, T0* a1)
{
T0* t1;
T6 t2;
T6 t3;
T0* R = 0;
t1 = (T399f935(a1));
R = T1135c66(t1);
t2 = (((T399*)(a1))->a38);
t3 = (((T399*)(a1))->a39);
T1135f67(GE_void(R), t2, t3);
return R;
}
/* ET_REGULAR_INTEGER_CONSTANT.set_position */
void T1135f67(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1135*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_REGULAR_INTEGER_CONSTANT.make */
T0* T1135c66(T0* a1)
{
T0* C;
C = GE_new1135(EIF_TRUE);
((T1135*)(C))->a1 = a1;
T1135f68(C);
T1135f69(C);
return C;
}
/* ET_REGULAR_INTEGER_CONSTANT.compute_value */
void T1135f69(T0* C)
{
T2 t1;
T11 t2;
T1 t3;
T10 t4;
T1 t5;
T11 l1 = 0;
T11 l2 = 0;
T6 l3 = 0;
T6 l4 = 0;
T11 l5 = 0;
T11 l6 = 0;
T10 l7 = 0;
t1 = (T2)('0');
l7 = (T2f4(&t1));
t2 = ((T11)(GE_nat64(18446744073709551615)));
l5 = ((T11)((t2)/((T11)(GE_nat64(10)))));
t2 = ((T11)(GE_nat64(18446744073709551615)));
l6 = ((T11)((t2)%((T11)(GE_nat64(10)))));
((T1135*)(C))->a3 = EIF_FALSE;
l4 = (((((T0*)(GE_void(((T1135*)(C))->a1)))->id==17)?((T17*)(((T1135*)(C))->a1))->a2:((T835*)(((T1135*)(C))->a1))->a1));
l3 = (T6)(GE_int32(1));
while (1) {
t3 = (T6f1((&l3), l4));
if (t3) {
break;
}
t1 = (((((T0*)(GE_void(((T1135*)(C))->a1)))->id==17)?T17f10(((T1135*)(C))->a1, l3):T835f9(((T1135*)(C))->a1, l3)));
t4 = (T2f4(&t1));
t4 = ((T10)((t4)-(l7)));
l2 = (T10f22(&t4));
t3 = ((T1)((l1)<(l5)));
if (!(t3)) {
t5 = (((((l1) == (l5)))));
if (t5) {
t3 = (T11f1((&l2), l6));
} else {
t3 = EIF_FALSE;
}
}
if (t3) {
t2 = ((T11)((T6)(GE_int32(10))));
t2 = ((T11)((t2)*(l1)));
l1 = ((T11)((t2)+(l2)));
} else {
((T1135*)(C))->a3 = EIF_TRUE;
l3 = ((T6)((l4)+((T6)(GE_int32(1)))));
}
l3 = ((T6)((l3)+((T6)(GE_int32(1)))));
}
((T1135*)(C))->a4 = l1;
}
/* ET_REGULAR_INTEGER_CONSTANT.make_leaf */
void T1135f68(T0* C)
{
((T1135*)(C))->a2 = (T6)(GE_int32(0));
}
/* ET_AST_FACTORY.new_bit_constant */
T0* T362f8(T0* C, T0* a1)
{
T0* t1;
T6 t2;
T6 t3;
T0* R = 0;
t1 = (T399f935(a1));
R = T1083c31(t1);
t2 = (((T399*)(a1))->a38);
t3 = (((T399*)(a1))->a39);
T1083f32(GE_void(R), t2, t3);
return R;
}
/* ET_BIT_CONSTANT.set_position */
void T1083f32(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1083*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_BIT_CONSTANT.make */
T0* T1083c31(T0* a1)
{
T0* C;
C = GE_new1083(EIF_TRUE);
((T1083*)(C))->a1 = a1;
T1083f33(C);
return C;
}
/* ET_BIT_CONSTANT.make_leaf */
void T1083f33(T0* C)
{
((T1083*)(C))->a2 = (T6)(GE_int32(0));
}
/* ET_ERROR_HANDLER.report_ssnp_error */
void T29f207(T0* C, T0* a1, T0* a2)
{
T29f222(C, a1, a2);
}
/* ET_NULL_ERROR_HANDLER.report_ssnp_error */
void T70f208(T0* C, T0* a1, T0* a2)
{
T70f223(C, a1, a2);
}
/* ET_ERROR_HANDLER.report_ssel_error */
void T29f219(T0* C, T0* a1, T0* a2)
{
T29f222(C, a1, a2);
}
/* ET_NULL_ERROR_HANDLER.report_ssel_error */
void T70f220(T0* C, T0* a1, T0* a2)
{
T70f223(C, a1, a2);
}
/* ET_ERROR_HANDLER.report_ssnl_error */
void T29f218(T0* C, T0* a1, T0* a2)
{
T29f222(C, a1, a2);
}
/* ET_NULL_ERROR_HANDLER.report_ssnl_error */
void T70f219(T0* C, T0* a1, T0* a2)
{
T70f223(C, a1, a2);
}
/* ET_ERROR_HANDLER.report_sssc_error */
void T29f217(T0* C, T0* a1, T0* a2)
{
T29f222(C, a1, a2);
}
/* ET_NULL_ERROR_HANDLER.report_sssc_error */
void T70f218(T0* C, T0* a1, T0* a2)
{
T70f223(C, a1, a2);
}
/* ET_ERROR_HANDLER.report_sscu_error */
void T29f216(T0* C, T0* a1, T0* a2)
{
T29f222(C, a1, a2);
}
/* ET_NULL_ERROR_HANDLER.report_sscu_error */
void T70f217(T0* C, T0* a1, T0* a2)
{
T70f223(C, a1, a2);
}
/* ET_ERROR_HANDLER.report_ssac_error */
void T29f215(T0* C, T0* a1, T0* a2)
{
T29f222(C, a1, a2);
}
/* ET_NULL_ERROR_HANDLER.report_ssac_error */
void T70f216(T0* C, T0* a1, T0* a2)
{
T70f223(C, a1, a2);
}
/* ET_ERROR_HANDLER.report_ssas_error */
void T29f214(T0* C, T0* a1, T0* a2)
{
T29f222(C, a1, a2);
}
/* ET_NULL_ERROR_HANDLER.report_ssas_error */
void T70f215(T0* C, T0* a1, T0* a2)
{
T70f223(C, a1, a2);
}
/* ET_ERROR_HANDLER.report_ssao_error */
void T29f213(T0* C, T0* a1, T0* a2)
{
T29f222(C, a1, a2);
}
/* ET_NULL_ERROR_HANDLER.report_ssao_error */
void T70f214(T0* C, T0* a1, T0* a2)
{
T70f223(C, a1, a2);
}
/* ET_AST_FACTORY.new_special_manifest_string */
T0* T362f7(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = (T399f938(a1));
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1134f37(GE_void(R), t1, t2);
return R;
}
/* ET_SPECIAL_MANIFEST_STRING.set_position */
void T1134f37(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1134*)(C))->a3 = ((T6)((t2)+(l2)));
}
/* ET_EIFFEL_PARSER.last_special_manifest_string */
T0* T399f938(T0* C)
{
T1 t1;
T6 t2;
T6 t3;
T0* t4;
T2 t5;
T0* R = 0;
T0* l1 = 0;
T0* l2 = 0;
T6 l3 = 0;
T6 l4 = 0;
T2 l5 = 0;
T6 l6 = 0;
l1 = (T399f935(C));
l4 = (((((T0*)(GE_void(l1)))->id==17)?((T17*)(l1))->a2:((T835*)(l1))->a1));
l2 = T17c45(l4);
l3 = (T6)(GE_int32(1));
while (1) {
t1 = (T6f1((&l3), l4));
if (t1) {
break;
}
l5 = (((((T0*)(GE_void(l1)))->id==17)?T17f10(l1, l3):T835f9(l1, l3)));
t1 = (((((l5) == ((T2)('\045'))))));
if (t1) {
l3 = ((T6)((l3)+((T6)(GE_int32(1)))));
l5 = (((((T0*)(GE_void(l1)))->id==17)?T17f10(l1, l3):T835f9(l1, l3)));
switch (l5) {
case (T2)(T2)('N'):
T17f47(GE_void(l2), (T2)('\n'));
break;
case (T2)(T2)('T'):
T17f47(GE_void(l2), (T2)('\t'));
break;
case (T2)(T2)('U'):
T17f47(GE_void(l2), (T2)('\000'));
break;
case (T2)(T2)('R'):
T17f47(GE_void(l2), (T2)('\r'));
break;
case (T2)(T2)('A'):
T17f47(GE_void(l2), (T2)('@'));
break;
case (T2)(T2)('B'):
T17f47(GE_void(l2), (T2)('\010'));
break;
case (T2)(T2)('C'):
T17f47(GE_void(l2), (T2)('^'));
break;
case (T2)(T2)('D'):
T17f47(GE_void(l2), (T2)('$'));
break;
case (T2)(T2)('F'):
T17f47(GE_void(l2), (T2)('\014'));
break;
case (T2)(T2)('H'):
T17f47(GE_void(l2), (T2)('\\'));
break;
case (T2)(T2)('L'):
T17f47(GE_void(l2), (T2)('~'));
break;
case (T2)(T2)('Q'):
T17f47(GE_void(l2), (T2)('`'));
break;
case (T2)(T2)('S'):
T17f47(GE_void(l2), (T2)('#'));
break;
case (T2)(T2)('V'):
T17f47(GE_void(l2), (T2)('|'));
break;
case (T2)(T2)('\045'):
T17f47(GE_void(l2), (T2)('\045'));
break;
case (T2)(T2)('\''):
T17f47(GE_void(l2), (T2)('\''));
break;
case (T2)(T2)('\"'):
T17f47(GE_void(l2), (T2)('\"'));
break;
case (T2)(T2)('('):
T17f47(GE_void(l2), (T2)('['));
break;
case (T2)(T2)(')'):
T17f47(GE_void(l2), (T2)(']'));
break;
case (T2)(T2)('<'):
T17f47(GE_void(l2), (T2)('{'));
break;
case (T2)(T2)('>'):
T17f47(GE_void(l2), (T2)('}'));
break;
case (T2)(T2)('/'):
l3 = ((T6)((l3)+((T6)(GE_int32(1)))));
l5 = (((((T0*)(GE_void(l1)))->id==17)?T17f10(l1, l3):T835f9(l1, l3)));
l6 = (T6)(GE_int32(0));
while (1) {
t1 = (((((l5) == ((T2)('/'))))));
if (t1) {
break;
}
t2 = ((T6)((l6)*((T6)(GE_int32(10)))));
t3 = ((T6)(l5));
t2 = ((T6)((t2)+(t3)));
l6 = ((T6)((t2)-((T6)(GE_int32(48)))));
l3 = ((T6)((l3)+((T6)(GE_int32(1)))));
l5 = (((((T0*)(GE_void(l1)))->id==17)?T17f10(l1, l3):T835f9(l1, l3)));
}
t4 = (T399f941(C));
t5 = (T192f1(GE_void(t4), l6));
T17f47(GE_void(l2), t5);
break;
case (T2)(T2)('\n'):
case (T2)(T2)('\r'):
case (T2)(T2)(' '):
case (T2)(T2)('\t'):
l3 = ((T6)((l3)+((T6)(GE_int32(1)))));
while (1) {
t5 = (((((T0*)(GE_void(l1)))->id==17)?T17f10(l1, l3):T835f9(l1, l3)));
t1 = (((((t5) == ((T2)('\045'))))));
if (t1) {
break;
}
l3 = ((T6)((l3)+((T6)(GE_int32(1)))));
}
break;
case (T2)(T2)('n'):
T17f47(GE_void(l2), (T2)('\n'));
break;
case (T2)(T2)('t'):
T17f47(GE_void(l2), (T2)('\t'));
break;
case (T2)(T2)('u'):
T17f47(GE_void(l2), (T2)('\000'));
break;
case (T2)(T2)('r'):
T17f47(GE_void(l2), (T2)('\r'));
break;
case (T2)(T2)('a'):
T17f47(GE_void(l2), (T2)('@'));
break;
case (T2)(T2)('b'):
T17f47(GE_void(l2), (T2)('\010'));
break;
case (T2)(T2)('c'):
T17f47(GE_void(l2), (T2)('^'));
break;
case (T2)(T2)('d'):
T17f47(GE_void(l2), (T2)('$'));
break;
case (T2)(T2)('f'):
T17f47(GE_void(l2), (T2)('\014'));
break;
case (T2)(T2)('h'):
T17f47(GE_void(l2), (T2)('\\'));
break;
case (T2)(T2)('l'):
T17f47(GE_void(l2), (T2)('~'));
break;
case (T2)(T2)('q'):
T17f47(GE_void(l2), (T2)('`'));
break;
case (T2)(T2)('s'):
T17f47(GE_void(l2), (T2)('#'));
break;
case (T2)(T2)('v'):
T17f47(GE_void(l2), (T2)('|'));
break;
default:
T17f47(GE_void(l2), l5);
break;
}
l3 = ((T6)((l3)+((T6)(GE_int32(1)))));
} else {
T17f47(GE_void(l2), l5);
l3 = ((T6)((l3)+((T6)(GE_int32(1)))));
}
}
R = T1134c36(l1, l2);
return R;
}
/* ET_SPECIAL_MANIFEST_STRING.make */
T0* T1134c36(T0* a1, T0* a2)
{
T0* C;
C = GE_new1134(EIF_TRUE);
((T1134*)(C))->a1 = a1;
((T1134*)(C))->a2 = a2;
T1134f38(C);
return C;
}
/* ET_SPECIAL_MANIFEST_STRING.make_leaf */
void T1134f38(T0* C)
{
((T1134*)(C))->a3 = (T6)(GE_int32(0));
}
/* ET_EIFFEL_PARSER.integer_ */
T0* T399f941(T0* C)
{
T0* R = 0;
if (ge231os3436) {
return ge231ov3436;
} else {
ge231os3436 = '\1';
ge231ov3436 = R;
}
R = T192c5();
ge231ov3436 = R;
return R;
}
/* ET_AST_FACTORY.new_verbatim_string */
T0* T362f6(T0* C, T0* a1, T0* a2, T0* a3, T1 a4, T0* a5)
{
T6 t1;
T6 t2;
T0* R = 0;
R = (T399f937(a5, a1, a2, a3, a4));
t1 = (((T399*)(a5))->a38);
t2 = (((T399*)(a5))->a39);
T1133f41(GE_void(R), t1, t2);
return R;
}
/* ET_VERBATIM_STRING.set_position */
void T1133f41(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1133*)(C))->a7 = ((T6)((t2)+(l2)));
}
/* ET_EIFFEL_PARSER.last_verbatim_string */
T0* T399f937(T0* C, T0* a1, T0* a2, T0* a3, T1 a4)
{
T1 t1;
T2 t2;
T6 t3;
T0* R = 0;
T0* l1 = 0;
T0* l2 = 0;
T6 l3 = 0;
T6 l4 = 0;
T2 l5 = 0;
T6 l6 = 0;
T6 l7 = 0;
T6 l8 = 0;
T1 l9 = 0;
l1 = (T399f935(C));
t1 = (((((T0*)(GE_void(l1)))->id==17)?T17f12(l1):T835f48(l1)));
if (t1) {
l2 = l1;
} else {
if (a4) {
l8 = (((((T0*)(GE_void(l1)))->id==17)?((T17*)(l1))->a2:((T835*)(l1))->a1));
l3 = (T6)(GE_int32(-1));
l6 = (T6)(GE_int32(1));
while (1) {
t1 = (T6f1((&l6), l8));
if (t1) {
break;
}
l5 = (((((T0*)(GE_void(l1)))->id==17)?T17f10(l1, l6):T835f9(l1, l6)));
t1 = (((((l5) == ((T2)(' '))))));
if (!(t1)) {
t1 = (((((l5) == ((T2)('\t'))))));
}
if (t1) {
t1 = (((((l3) != ((T6)(GE_int32(-1)))))));
if (t1) {
t1 = (T6f13((&l7), l3));
if (t1) {
t2 = (((((T0*)(GE_void(l1)))->id==17)?T17f10(l1, l7):T835f9(l1, l7)));
t1 = (((((l5) == (t2)))));
}
if (t1) {
l7 = ((T6)((l7)+((T6)(GE_int32(1)))));
} else {
l3 = ((T6)((l7)-((T6)(GE_int32(1)))));
while (1) {
t1 = (T6f1((&l6), l8));
if (!(t1)) {
t2 = (((((T0*)(GE_void(l1)))->id==17)?T17f10(l1, l6):T835f9(l1, l6)));
t1 = (((((t2) == ((T2)('\n'))))));
}
if (t1) {
break;
}
l6 = ((T6)((l6)+((T6)(GE_int32(1)))));
}
l4 = ((T6)((l4)+((T6)(GE_int32(1)))));
l7 = (T6)(GE_int32(1));
}
}
} else {
t1 = (((((l3) == ((T6)(GE_int32(-1)))))));
if (t1) {
l3 = ((T6)((l6)-((T6)(GE_int32(1)))));
} else {
l3 = ((T6)((l7)-((T6)(GE_int32(1)))));
}
while (1) {
t1 = (T6f1((&l6), l8));
if (!(t1)) {
t2 = (((((T0*)(GE_void(l1)))->id==17)?T17f10(l1, l6):T835f9(l1, l6)));
t1 = (((((t2) == ((T2)('\n'))))));
}
if (t1) {
break;
}
l6 = ((T6)((l6)+((T6)(GE_int32(1)))));
}
l4 = ((T6)((l4)+((T6)(GE_int32(1)))));
l7 = (T6)(GE_int32(1));
}
l6 = ((T6)((l6)+((T6)(GE_int32(1)))));
}
t1 = (T6f1((&l3), (T6)(GE_int32(0))));
if (t1) {
t3 = ((T6)((l4)*(l3)));
t3 = ((T6)((l8)-(t3)));
l2 = T17c45(t3);
l6 = (T6)(GE_int32(1));
while (1) {
t1 = (T6f1((&l6), l8));
if (t1) {
break;
}
l6 = ((T6)((l6)+(l3)));
l9 = EIF_FALSE;
while (1) {
if (!(l9)) {
t1 = (T6f1((&l6), l8));
} else {
t1 = EIF_TRUE;
}
if (t1) {
break;
}
l5 = (((((T0*)(GE_void(l1)))->id==17)?T17f10(l1, l6):T835f9(l1, l6)));
if (((T0*)(GE_void(l2)))->id==17) {
T17f47(l2, l5);
} else {
T835f68(l2, l5);
}
t1 = (((((l5) == ((T2)('\n'))))));
if (t1) {
l9 = EIF_TRUE;
}
l6 = ((T6)((l6)+((T6)(GE_int32(1)))));
}
}
} else {
l2 = l1;
}
} else {
l2 = l1;
}
}
R = T1133c40(l1, l2, a1, a2, a3, a4);
return R;
}
/* ET_VERBATIM_STRING.make */
T0* T1133c40(T0* a1, T0* a2, T0* a3, T0* a4, T0* a5, T1 a6)
{
T0* C;
C = GE_new1133(EIF_TRUE);
((T1133*)(C))->a1 = a1;
((T1133*)(C))->a2 = a2;
((T1133*)(C))->a3 = a3;
((T1133*)(C))->a4 = a4;
((T1133*)(C))->a5 = a5;
((T1133*)(C))->a6 = a6;
T1133f42(C);
return C;
}
/* ET_VERBATIM_STRING.make_leaf */
void T1133f42(T0* C)
{
((T1133*)(C))->a7 = (T6)(GE_int32(0));
}
/* ET_EIFFEL_PARSER.is_verbatim_string_closer */
T1 T399f699(T0* C, T6 a1, T6 a2)
{
T6 t1;
T1 t2;
T2 t3;
T2 t4;
T1 R = 0;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
T6 l4 = 0;
T6 l5 = 0;
T2 l6 = 0;
l4 = (((((T0*)(GE_void(((T399*)(C))->a73)))->id==17)?((T17*)(((T399*)(C))->a73))->a2:((T835*)(((T399*)(C))->a73))->a1));
t1 = ((T6)((a2)-(a1)));
l5 = ((T6)((t1)+((T6)(GE_int32(1)))));
t2 = (T6f1((&l5), l4));
if (t2) {
t1 = ((T6)((a1)+(l5)));
t1 = ((T6)((t1)-(l4)));
l3 = ((T6)((t1)-((T6)(GE_int32(1)))));
l6 = (T399f679(C, l3));
t2 = (((((l6) == ((T2)(']'))))));
if (!(t2)) {
t2 = (((((l6) == ((T2)('}'))))));
}
if (t2) {
R = EIF_TRUE;
l2 = ((T6)((l3)+((T6)(GE_int32(1)))));
l1 = (T6)(GE_int32(1));
while (1) {
t2 = (T6f1((&l1), l4));
if (t2) {
break;
}
t3 = (((((T0*)(GE_void(((T399*)(C))->a73)))->id==17)?T17f10(((T399*)(C))->a73, l1):T835f9(((T399*)(C))->a73, l1)));
t4 = (T399f679(C, l2));
t2 = (((((t3) == (t4)))));
if (t2) {
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
l2 = ((T6)((l2)+((T6)(GE_int32(1)))));
} else {
R = EIF_FALSE;
l1 = ((T6)((l4)+((T6)(GE_int32(1)))));
}
}
if (R) {
l2 = a1;
while (1) {
t2 = (((((l2) == (l3)))));
if (t2) {
break;
}
t3 = (T399f679(C, l2));
switch (t3) {
case (T2)(T2)(' '):
case (T2)(T2)('\t'):
case (T2)(T2)('\r'):
case (T2)(T2)('\n'):
l2 = ((T6)((l2)+((T6)(GE_int32(1)))));
break;
default:
R = EIF_FALSE;
l2 = l3;
break;
}
}
}
}
}
return R;
}
/* ET_EIFFEL_PARSER.text */
T0* T399f697(T0* C)
{
T0* t1;
T1 t2;
T6 t3;
T0* R = 0;
T0* l1 = 0;
l1 = (T399f920(C));
t1 = (T399f921(C));
T27f20(GE_void(t1), l1);
T399f2005(C, l1);
t1 = (T399f922(C));
T379f39(GE_void(t1), l1);
t1 = (T399f922(C));
t2 = (T379f28(GE_void(t1)));
if (t2) {
t1 = (T399f922(C));
R = (T379f35(GE_void(t1)));
} else {
t3 = (((T17*)(GE_void(l1)))->a2);
R = T17c45(t3);
if (((T0*)(GE_void(R)))->id==17) {
T17f50(R, l1);
} else {
T835f67(R, l1);
}
t1 = (T399f922(C));
T379f55(GE_void(t1), (T6)(GE_int32(-1)), R);
}
return R;
}
/* DS_HASH_TABLE [INTEGER_32, STRING_8].force_new */
void T379f55(T0* C, T6 a1, T0* a2)
{
T1 t1;
T6 t2;
T6 t3;
T6 l1 = 0;
T6 l2 = 0;
T379f44(C);
t1 = (((((((T379*)(C))->a8) == (((T379*)(C))->a18)))));
if (t1) {
t2 = ((T6)((((T379*)(C))->a8)+((T6)(GE_int32(1)))));
t2 = (T379f36(C, t2));
T379f56(C, t2);
}
l1 = ((T379*)(C))->a6;
t1 = (((((l1) == ((T6)(GE_int32(0)))))));
if (t1) {
((T379*)(C))->a7 = ((T6)((((T379*)(C))->a7)+((T6)(GE_int32(1)))));
l1 = ((T379*)(C))->a7;
} else {
t2 = (T6)(GE_int32(-1));
t3 = (T379f24(C, l1));
((T379*)(C))->a6 = ((T6)((t2)-(t3)));
}
l2 = (T379f25(C, a2));
t2 = (T379f26(C, l2));
T379f45(C, t2, l1);
T379f46(C, l1, l2);
T379f47(C, a1, l1);
T379f48(C, a2, l1);
((T379*)(C))->a8 = ((T6)((((T379*)(C))->a8)+((T6)(GE_int32(1)))));
}
/* DS_HASH_TABLE [INTEGER_32, STRING_8].resize */
void T379f56(T0* C, T6 a1)
{
T6 t1;
T1 t2;
T0* t3;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
T379f44(C);
l1 = (T379f29(C, a1));
t1 = ((T6)((l1)+((T6)(GE_int32(1)))));
T379f57(C, t1);
l2 = ((T379*)(C))->a9;
while (1) {
t2 = ((T1)((l2)<((T6)(GE_int32(0)))));
if (t2) {
break;
}
T379f46(C, (T6)(GE_int32(0)), l2);
l2 = ((T6)((l2)-((T6)(GE_int32(1)))));
}
((T379*)(C))->a9 = l1;
l2 = ((T379*)(C))->a7;
while (1) {
t2 = ((T1)((l2)<((T6)(GE_int32(1)))));
if (t2) {
break;
}
t1 = (T379f24(C, l2));
t2 = (T6f1(&t1, (T6)(GE_int32(-1))));
if (t2) {
t3 = (T379f21(C, l2));
l3 = (T379f25(C, t3));
t1 = (T379f26(C, l3));
T379f45(C, t1, l2);
T379f46(C, l2, l3);
}
l2 = ((T6)((l2)-((T6)(GE_int32(1)))));
}
t1 = ((T6)((a1)+((T6)(GE_int32(1)))));
T379f58(C, t1);
t1 = ((T6)((a1)+((T6)(GE_int32(1)))));
T379f59(C, t1);
t1 = ((T6)((a1)+((T6)(GE_int32(1)))));
T379f60(C, t1);
((T379*)(C))->a18 = a1;
((T379*)(C))->a2 = (T6)(GE_int32(0));
}
/* DS_HASH_TABLE [INTEGER_32, STRING_8].clashes_resize */
void T379f60(T0* C, T6 a1)
{
T0* t1;
t1 = (T379f31(C));
((T379*)(C))->a13 = (T134f1(GE_void(t1), ((T379*)(C))->a13, (T6)(GE_int32(0)), a1));
}
/* DS_HASH_TABLE [INTEGER_32, STRING_8].key_storage_resize */
void T379f59(T0* C, T6 a1)
{
T0* l1 = 0;
((T379*)(C))->a17 = (T131f1(GE_void(((T379*)(C))->a16), ((T379*)(C))->a17, l1, a1));
}
/* DS_HASH_TABLE [INTEGER_32, STRING_8].item_storage_resize */
void T379f58(T0* C, T6 a1)
{
T6 l1 = 0;
((T379*)(C))->a3 = (T134f1(GE_void(((T379*)(C))->a15), ((T379*)(C))->a3, l1, a1));
}
/* DS_HASH_TABLE [INTEGER_32, STRING_8].slots_resize */
void T379f57(T0* C, T6 a1)
{
T0* t1;
t1 = (T379f31(C));
((T379*)(C))->a14 = (T134f1(GE_void(t1), ((T379*)(C))->a14, (T6)(GE_int32(0)), a1));
}
/* DS_HASH_TABLE [INTEGER_32, STRING_8].new_capacity */
T6 T379f36(T0* C, T6 a1)
{
T6 t1;
T6 R = 0;
t1 = (T6)(GE_int32(2));
R = ((T6)((t1)*(a1)));
return R;
}
/* DS_HASH_TABLE [INTEGER_32, STRING_8].found_key */
T0* T379f35(T0* C)
{
T0* R = 0;
R = (T379f21(C, ((T379*)(C))->a1));
return R;
}
/* ET_EIFFEL_PARSER.strings */
unsigned char ge1026os21945 = '\0';
T0* ge1026ov21945;
T0* T399f922(T0* C)
{
T0* t1;
T0* R = 0;
if (ge1026os21945) {
return ge1026ov21945;
} else {
ge1026os21945 = '\1';
ge1026ov21945 = R;
}
R = T379c38((T6)(GE_int32(100000)));
ge1026ov21945 = R;
t1 = (T399f934(C));
T379f40(GE_void(R), t1);
t1 = (T399f604(C));
t1 = (ge808ov11386);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11387);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11388);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11389);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11390);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11391);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11392);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11393);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11394);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11395);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11396);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11397);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11398);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11399);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11400);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11401);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11402);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11403);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11404);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11405);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11447);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11448);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11449);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11013);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11014);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11015);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11016);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11017);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11018);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11019);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11020);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11022);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11021);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11023);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11024);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11025);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11026);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11027);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11028);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11029);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11030);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11031);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11032);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11033);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11034);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11035);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11036);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11037);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11038);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11039);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11040);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11041);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11042);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11043);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11044);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11045);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11046);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11047);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11048);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11049);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11050);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11051);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11052);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11053);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11054);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11055);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11056);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11057);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11058);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11059);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11060);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11061);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11062);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11063);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11068);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11069);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11070);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11071);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11064);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11065);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11066);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11067);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11072);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11073);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11074);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11075);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11076);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11077);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11078);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11079);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11080);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11082);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11081);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11083);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11084);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11085);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11086);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11087);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11088);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11089);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11090);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11091);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11092);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11093);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11094);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11095);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11096);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11097);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11098);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11099);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11100);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11101);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11102);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11103);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11104);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11105);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11106);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11107);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11108);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11109);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11110);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11111);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11112);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11113);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11114);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11115);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11116);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11117);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11118);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11119);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11120);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11121);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11122);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11123);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11124);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11125);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11126);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11127);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11128);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11129);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11130);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11131);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11132);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11133);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11134);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11135);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11136);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11137);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11138);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11139);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11140);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11141);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11142);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11143);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11144);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11145);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11146);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11147);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11148);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11149);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11150);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11151);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11152);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11153);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11154);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11155);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11156);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11157);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11158);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11159);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11160);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11161);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11162);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11163);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11164);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11165);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11166);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11167);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11168);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11169);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11170);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11171);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11172);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11173);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11174);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11175);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11176);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11177);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11178);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11179);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11180);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11181);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11182);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11183);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11184);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11185);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11186);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11187);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11188);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11189);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11190);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11191);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11192);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11193);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11194);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11195);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11196);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11197);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11198);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11199);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11200);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11201);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11202);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11203);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11204);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11205);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11206);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11207);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11208);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11209);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11210);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11211);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11212);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11213);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11214);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11215);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11216);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11217);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11218);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11219);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11220);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11221);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11222);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11223);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11224);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11225);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11226);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11227);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11228);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11229);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11230);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11231);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11232);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11233);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11234);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11235);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11236);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11237);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11238);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11239);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11240);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11241);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11242);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11243);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11244);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11245);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11246);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11247);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11248);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11249);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11250);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11251);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11252);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11253);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11254);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11255);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11256);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11257);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11258);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11259);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11260);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11261);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11262);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11263);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11264);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11265);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11266);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11267);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11268);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11269);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11270);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11272);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11273);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11274);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11275);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11276);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11277);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11278);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11279);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11280);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11281);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11282);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11283);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11284);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11285);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11286);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11287);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11288);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11289);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11290);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11291);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11292);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11293);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11294);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11295);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11296);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11297);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11298);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11299);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11300);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11301);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11302);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11303);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11304);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11305);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11306);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11307);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11308);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11309);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11310);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11311);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11312);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11313);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11315);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11316);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11317);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11318);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11319);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11320);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11321);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11322);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11323);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11324);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11325);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11326);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11327);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11328);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11329);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11330);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11331);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11332);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11333);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11334);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11335);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11336);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11350);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11351);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11352);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11353);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11354);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11355);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11356);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11357);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11358);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11359);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11360);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11361);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11362);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11363);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11364);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11365);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11366);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11367);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11368);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11369);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11370);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11371);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11372);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11373);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11375);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11376);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11377);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11378);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11379);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11380);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11381);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11382);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11383);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T399f604(C));
t1 = (ge808ov11384);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
return R;
}
/* ET_EIFFEL_PARSER.string_equality_tester */
T0* T399f934(T0* C)
{
T0* R = 0;
if (ge235os4105) {
return ge235ov4105;
} else {
ge235os4105 = '\1';
ge235ov4105 = R;
}
R = T103c2();
ge235ov4105 = R;
return R;
}
/* ET_EIFFEL_PARSER.append_text_to_string */
void T399f2005(T0* C, T0* a1)
{
T1 t1;
T6 t2;
t1 = ((T1)((((T399*)(C))->a43)<(((T399*)(C))->a42)));
if (t1) {
t2 = ((T6)((((T399*)(C))->a42)-((T6)(GE_int32(1)))));
T842f14(GE_void(((T399*)(C))->a52), ((T399*)(C))->a43, t2, a1);
}
}
/* KL_CHARACTER_BUFFER.append_substring_to_string */
void T842f14(T0* C, T6 a1, T6 a2, T0* a3)
{
T1 t1;
T6 t2;
T0* t3;
T6 t4;
T6 t5;
T2 t6;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
T6 l4 = 0;
t1 = (T6f13(&a1, a2));
if (t1) {
t2 = ((T6)((a2)-(a1)));
l2 = ((T6)((t2)+((T6)(GE_int32(1)))));
l3 = (((T17*)(GE_void(a3)))->a2);
l4 = ((T6)((l3)+(l2)));
t2 = (T17f4(GE_void(a3)));
t1 = (T6f1((&l4), t2));
if (t1) {
T17f48(GE_void(a3), l4);
}
t3 = (T842f7(C));
t1 = (T93f1(GE_void(t3), a3, ge241ov15391));
if (t1) {
T17f62(GE_void(a3), l4);
t2 = ((T6)((a1)+((T6)(GE_int32(1)))));
t4 = ((T6)((a2)+((T6)(GE_int32(1)))));
t5 = ((T6)((l3)+((T6)(GE_int32(1)))));
T17f77(GE_void(a3), ((T842*)(C))->a2, t2, t4, t5);
} else {
l1 = a1;
while (1) {
t1 = (T6f1((&l1), a2));
if (t1) {
break;
}
t6 = (((T15*)(GE_void(((T842*)(C))->a1)))->z2[l1]);
T17f47(GE_void(a3), t6);
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
}
}
/* KL_CHARACTER_BUFFER.any_ */
T0* T842f7(T0* C)
{
T0* R = 0;
if (ge226os2039) {
return ge226ov2039;
} else {
ge226os2039 = '\1';
ge226ov2039 = R;
}
R = T93c4();
ge226ov2039 = R;
return R;
}
/* ET_EIFFEL_PARSER.string_ */
T0* T399f921(T0* C)
{
T0* R = 0;
if (ge233os1922) {
return ge233ov1922;
} else {
ge233os1922 = '\1';
ge233ov1922 = R;
}
R = T27c19();
ge233ov1922 = R;
return R;
}
/* ET_EIFFEL_PARSER.string_buffer */
unsigned char ge1026os21946 = '\0';
T0* ge1026ov21946;
T0* T399f920(T0* C)
{
T0* R = 0;
if (ge1026os21946) {
return ge1026ov21946;
} else {
ge1026os21946 = '\1';
ge1026ov21946 = R;
}
R = T17c45((T6)(GE_int32(30)));
ge1026ov21946 = R;
return R;
}
/* ET_EIFFEL_PARSER.text_substring */
T0* T399f695(T0* C, T6 a1, T6 a2)
{
T0* t1;
T1 t2;
T6 t3;
T0* R = 0;
T0* l1 = 0;
l1 = (T399f920(C));
t1 = (T399f921(C));
T27f20(GE_void(t1), l1);
T399f2004(C, a1, a2, l1);
t1 = (T399f922(C));
T379f39(GE_void(t1), l1);
t1 = (T399f922(C));
t2 = (T379f28(GE_void(t1)));
if (t2) {
t1 = (T399f922(C));
R = (T379f35(GE_void(t1)));
} else {
t3 = (((T17*)(GE_void(l1)))->a2);
R = T17c45(t3);
if (((T0*)(GE_void(R)))->id==17) {
T17f50(R, l1);
} else {
T835f67(R, l1);
}
t1 = (T399f922(C));
T379f55(GE_void(t1), (T6)(GE_int32(-1)), R);
}
return R;
}
/* ET_EIFFEL_PARSER.append_text_substring_to_string */
void T399f2004(T0* C, T6 a1, T6 a2, T0* a3)
{
T1 t1;
T6 t2;
T6 t3;
t1 = (T6f13(&a1, a2));
if (t1) {
t2 = ((T6)((((T399*)(C))->a43)+(a1)));
t2 = ((T6)((t2)-((T6)(GE_int32(1)))));
t3 = ((T6)((((T399*)(C))->a43)+(a2)));
t3 = ((T6)((t3)-((T6)(GE_int32(1)))));
T842f14(GE_void(((T399*)(C))->a52), t2, t3, a3);
}
}
/* ET_EIFFEL_PARSER.process_regular_manifest_string */
void T399f1043(T0* C, T6 a1)
{
T2 t1;
T0* t2;
((T399*)(C))->a67 = (T6)(GE_int32(361));
switch (a1) {
case (T6)(T6)(GE_int32(3)):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('+'):
((T399*)(C))->a67 = (T6)(GE_int32(340));
break;
case (T2)(T2)('-'):
((T399*)(C))->a67 = (T6)(GE_int32(341));
break;
case (T2)(T2)('*'):
((T399*)(C))->a67 = (T6)(GE_int32(342));
break;
case (T2)(T2)('/'):
((T399*)(C))->a67 = (T6)(GE_int32(343));
break;
case (T2)(T2)('^'):
((T399*)(C))->a67 = (T6)(GE_int32(346));
break;
case (T2)(T2)('<'):
((T399*)(C))->a67 = (T6)(GE_int32(347));
break;
case (T2)(T2)('>'):
((T399*)(C))->a67 = (T6)(GE_int32(349));
break;
default:
break;
}
break;
case (T6)(T6)(GE_int32(4)):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('['):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)(']'):
((T399*)(C))->a67 = (T6)(GE_int32(357));
break;
default:
break;
}
break;
case (T2)(T2)('.'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('.'):
((T399*)(C))->a67 = (T6)(GE_int32(356));
break;
default:
break;
}
break;
case (T2)(T2)('/'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('/'):
((T399*)(C))->a67 = (T6)(GE_int32(344));
break;
default:
break;
}
break;
case (T2)(T2)('\\'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('\\'):
((T399*)(C))->a67 = (T6)(GE_int32(345));
break;
default:
break;
}
break;
case (T2)(T2)('<'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('='):
((T399*)(C))->a67 = (T6)(GE_int32(348));
break;
default:
break;
}
break;
case (T2)(T2)('>'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('='):
((T399*)(C))->a67 = (T6)(GE_int32(350));
break;
default:
break;
}
break;
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
((T399*)(C))->a67 = (T6)(GE_int32(352));
break;
default:
break;
}
break;
default:
break;
}
break;
case (T6)(T6)(GE_int32(5)):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('d'):
case (T2)(T2)('D'):
((T399*)(C))->a67 = (T6)(GE_int32(351));
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
((T399*)(C))->a67 = (T6)(GE_int32(360));
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('x'):
case (T2)(T2)('X'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
((T399*)(C))->a67 = (T6)(GE_int32(353));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T6)(T6)(GE_int32(9)):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)(' '):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('l'):
case (T2)(T2)('L'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('s'):
case (T2)(T2)('S'):
t1 = (T399f679(C, (T6)(GE_int32(8))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
((T399*)(C))->a67 = (T6)(GE_int32(355));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('m'):
case (T2)(T2)('M'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('p'):
case (T2)(T2)('P'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('l'):
case (T2)(T2)('L'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(8))));
switch (t1) {
case (T2)(T2)('s'):
case (T2)(T2)('S'):
((T399*)(C))->a67 = (T6)(GE_int32(358));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T6)(T6)(GE_int32(10)):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('d'):
case (T2)(T2)('D'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)(' '):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('h'):
case (T2)(T2)('H'):
t1 = (T399f679(C, (T6)(GE_int32(8))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(9))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
((T399*)(C))->a67 = (T6)(GE_int32(354));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
((T399*)(C))->a19 = (T6)(GE_int32(2));
((T399*)(C))->a72 = ((T6)((a1)-((T6)(GE_int32(1)))));
t2 = (T399f682(C));
((T399*)(C))->a271 = (T362f5(GE_void(t2), C));
}
/* ET_AST_FACTORY.new_regular_manifest_string */
T0* T362f5(T0* C, T0* a1)
{
T0* t1;
T6 t2;
T6 t3;
T0* R = 0;
t1 = (T399f935(a1));
R = T827c35(t1);
t2 = (((T399*)(a1))->a38);
t3 = (((T399*)(a1))->a39);
T827f37(GE_void(R), t2, t3);
return R;
}
/* ET_REGULAR_MANIFEST_STRING.set_position */
void T827f37(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T827*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_REGULAR_MANIFEST_STRING.make */
T0* T827c35(T0* a1)
{
T0* C;
C = GE_new827(EIF_TRUE);
((T827*)(C))->a1 = a1;
T827f36(C);
return C;
}
/* ET_REGULAR_MANIFEST_STRING.make_leaf */
void T827f36(T0* C)
{
((T827*)(C))->a2 = (T6)(GE_int32(0));
}
/* ET_ERROR_HANDLER.report_sceq_error */
void T29f212(T0* C, T0* a1, T0* a2)
{
T29f222(C, a1, a2);
}
/* ET_NULL_ERROR_HANDLER.report_sceq_error */
void T70f213(T0* C, T0* a1, T0* a2)
{
T70f223(C, a1, a2);
}
/* ET_ERROR_HANDLER.report_scqq_error */
void T29f211(T0* C, T0* a1, T0* a2)
{
T29f222(C, a1, a2);
}
/* ET_NULL_ERROR_HANDLER.report_scqq_error */
void T70f212(T0* C, T0* a1, T0* a2)
{
T70f223(C, a1, a2);
}
/* ET_ERROR_HANDLER.report_scac_error */
void T29f210(T0* C, T0* a1, T0* a2)
{
T29f222(C, a1, a2);
}
/* ET_NULL_ERROR_HANDLER.report_scac_error */
void T70f211(T0* C, T0* a1, T0* a2)
{
T70f223(C, a1, a2);
}
/* ET_ERROR_HANDLER.report_scas_error */
void T29f209(T0* C, T0* a1, T0* a2)
{
T29f222(C, a1, a2);
}
/* ET_NULL_ERROR_HANDLER.report_scas_error */
void T70f210(T0* C, T0* a1, T0* a2)
{
T70f223(C, a1, a2);
}
/* ET_ERROR_HANDLER.report_scao_error */
void T29f208(T0* C, T0* a1, T0* a2)
{
T29f222(C, a1, a2);
}
/* ET_NULL_ERROR_HANDLER.report_scao_error */
void T70f209(T0* C, T0* a1, T0* a2)
{
T70f223(C, a1, a2);
}
/* ET_AST_FACTORY.new_c3_character_constant */
T0* T362f4(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = (T399f936(a1));
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1132f39(GE_void(R), t1, t2);
return R;
}
/* ET_C3_CHARACTER_CONSTANT.set_position */
void T1132f39(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1132*)(C))->a3 = ((T6)((t2)+(l2)));
}
/* ET_EIFFEL_PARSER.last_c3_character_constant */
T0* T399f936(T0* C)
{
T1 t1;
T10 t2;
T10 t3;
T6 t4;
T0* R = 0;
T0* l1 = 0;
T3 l2 = 0;
T6 l3 = 0;
T6 l4 = 0;
T2 l5 = 0;
T10 l6 = 0;
l1 = (T399f935(C));
t1 = (((((T0*)(GE_void(l1)))->id==17)?T17f13(l1, GE_ms8("0x", 2)):T835f62(l1, GE_ms8("0x", 2))));
if (t1) {
l4 = (((((T0*)(GE_void(l1)))->id==17)?((T17*)(l1))->a2:((T835*)(l1))->a1));
l3 = (T6)(GE_int32(3));
while (1) {
t1 = (T6f1((&l3), l4));
if (t1) {
break;
}
l5 = (((((T0*)(GE_void(l1)))->id==17)?T17f10(l1, l3):T835f9(l1, l3)));
l6 = ((T10)((l6)*((T10)(GE_nat32(16)))));
switch (l5) {
case (T2)(T2)('0'):
break;
case (T2)(T2)('1'):
l6 = ((T10)((l6)+((T10)(GE_nat32(1)))));
break;
case (T2)(T2)('2'):
l6 = ((T10)((l6)+((T10)(GE_nat32(2)))));
break;
case (T2)(T2)('3'):
l6 = ((T10)((l6)+((T10)(GE_nat32(3)))));
break;
case (T2)(T2)('4'):
l6 = ((T10)((l6)+((T10)(GE_nat32(4)))));
break;
case (T2)(T2)('5'):
l6 = ((T10)((l6)+((T10)(GE_nat32(5)))));
break;
case (T2)(T2)('6'):
l6 = ((T10)((l6)+((T10)(GE_nat32(6)))));
break;
case (T2)(T2)('7'):
l6 = ((T10)((l6)+((T10)(GE_nat32(7)))));
break;
case (T2)(T2)('8'):
l6 = ((T10)((l6)+((T10)(GE_nat32(8)))));
break;
case (T2)(T2)('9'):
l6 = ((T10)((l6)+((T10)(GE_nat32(9)))));
break;
case (T2)(T2)('a'):
case (T2)(T2)('A'):
l6 = ((T10)((l6)+((T10)(GE_nat32(10)))));
break;
case (T2)(T2)('b'):
case (T2)(T2)('B'):
l6 = ((T10)((l6)+((T10)(GE_nat32(11)))));
break;
case (T2)(T2)('c'):
case (T2)(T2)('C'):
l6 = ((T10)((l6)+((T10)(GE_nat32(12)))));
break;
case (T2)(T2)('d'):
case (T2)(T2)('D'):
l6 = ((T10)((l6)+((T10)(GE_nat32(13)))));
break;
case (T2)(T2)('e'):
case (T2)(T2)('E'):
l6 = ((T10)((l6)+((T10)(GE_nat32(14)))));
break;
case (T2)(T2)('f'):
case (T2)(T2)('F'):
l6 = ((T10)((l6)+((T10)(GE_nat32(15)))));
break;
default:
GE_raise(9);
break;
}
l3 = ((T6)((l3)+((T6)(GE_int32(1)))));
}
} else {
l4 = (((((T0*)(GE_void(l1)))->id==17)?((T17*)(l1))->a2:((T835*)(l1))->a1));
l3 = (T6)(GE_int32(1));
while (1) {
t1 = (T6f1((&l3), l4));
if (t1) {
break;
}
l5 = (((((T0*)(GE_void(l1)))->id==17)?T17f10(l1, l3):T835f9(l1, l3)));
t2 = ((T10)((l6)*((T10)(GE_nat32(10)))));
t3 = (T2f4((&l5)));
t2 = ((T10)((t2)+(t3)));
t4 = (T6)(GE_int32(48));
t3 = (T6f17(&t4));
l6 = ((T10)((t2)-(t3)));
l3 = ((T6)((l3)+((T6)(GE_int32(1)))));
}
l2 = ((T3)(l6));
}
l2 = ((T3)(l6));
R = T1132c38(l1, l2);
return R;
}
/* ET_C3_CHARACTER_CONSTANT.make */
T0* T1132c38(T0* a1, T3 a2)
{
T0* C;
C = GE_new1132(EIF_TRUE);
((T1132*)(C))->a1 = a1;
((T1132*)(C))->a2 = a2;
T1132f40(C);
return C;
}
/* ET_C3_CHARACTER_CONSTANT.make_leaf */
void T1132f40(T0* C)
{
((T1132*)(C))->a3 = (T6)(GE_int32(0));
}
/* UC_UTF8_STRING.starts_with */
T1 T835f62(T0* C, T0* a1)
{
T1 t1;
T6 t2;
T2 t3;
T2 t4;
T1 R = 0;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
T0* l4 = 0;
T0* l5 = 0;
t1 = (EIF_FALSE);
if (t1) {
R = EIF_TRUE;
} else {
l1 = (((T17*)(a1))->a2);
t1 = (T6f13((&l1), ((T835*)(C))->a1));
if (t1) {
l4 = ((T835*)(C))->a2;
l5 = (((T17*)(a1))->a1);
t2 = (T835f17(C));
l2 = ((T6)((t2)+(l1)));
t2 = (T17f18(a1));
l1 = ((T6)((t2)+((T6)(GE_int32(1)))));
l3 = (T17f15(a1));
R = EIF_TRUE;
while (1) {
t1 = (((((l1) == (l3)))));
if (t1) {
break;
}
l1 = ((T6)((l1)-((T6)(GE_int32(1)))));
l2 = ((T6)((l2)-((T6)(GE_int32(1)))));
t3 = (((T15*)(GE_void(l4)))->z2[l2]);
t4 = (((T15*)(GE_void(l5)))->z2[l1]);
t1 = (((((t3) != (t4)))));
if (t1) {
R = EIF_FALSE;
l1 = l3;
}
}
}
}
return R;
}
/* ET_EIFFEL_PARSER.process_c2_character_constant */
void T399f1042(T0* C, T2 a1)
{
T0* t1;
T0* t2;
T2 l1 = 0;
switch (a1) {
case (T2)(T2)('A'):
l1 = (T2)('@');
break;
case (T2)(T2)('B'):
l1 = (T2)('\010');
break;
case (T2)(T2)('C'):
l1 = (T2)('^');
break;
case (T2)(T2)('D'):
l1 = (T2)('$');
break;
case (T2)(T2)('F'):
l1 = (T2)('\014');
break;
case (T2)(T2)('H'):
l1 = (T2)('\\');
break;
case (T2)(T2)('L'):
l1 = (T2)('~');
break;
case (T2)(T2)('N'):
l1 = (T2)('\n');
break;
case (T2)(T2)('Q'):
l1 = (T2)('`');
break;
case (T2)(T2)('R'):
l1 = (T2)('\r');
break;
case (T2)(T2)('S'):
l1 = (T2)('#');
break;
case (T2)(T2)('T'):
l1 = (T2)('\t');
break;
case (T2)(T2)('U'):
l1 = (T2)('\000');
break;
case (T2)(T2)('V'):
l1 = (T2)('|');
break;
case (T2)(T2)('\045'):
l1 = (T2)('\045');
break;
case (T2)(T2)('\''):
l1 = (T2)('\'');
break;
case (T2)(T2)('\"'):
l1 = (T2)('\"');
break;
case (T2)(T2)('('):
l1 = (T2)('[');
break;
case (T2)(T2)(')'):
l1 = (T2)(']');
break;
case (T2)(T2)('<'):
l1 = (T2)('{');
break;
case (T2)(T2)('>'):
l1 = (T2)('}');
break;
case (T2)(T2)('a'):
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+((T6)(GE_int32(2)))));
T399f1035(C);
t1 = (T399f895(C));
t2 = (T399f671(C));
if (((T0*)(GE_void(t1)))->id==70) {
T70f225(t1, ((T399*)(C))->a20, t2);
} else {
T29f224(t1, ((T399*)(C))->a20, t2);
}
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-((T6)(GE_int32(2)))));
l1 = (T2)('@');
break;
case (T2)(T2)('b'):
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+((T6)(GE_int32(2)))));
T399f1035(C);
t1 = (T399f895(C));
t2 = (T399f671(C));
if (((T0*)(GE_void(t1)))->id==70) {
T70f225(t1, ((T399*)(C))->a20, t2);
} else {
T29f224(t1, ((T399*)(C))->a20, t2);
}
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-((T6)(GE_int32(2)))));
l1 = (T2)('\010');
break;
case (T2)(T2)('c'):
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+((T6)(GE_int32(2)))));
T399f1035(C);
t1 = (T399f895(C));
t2 = (T399f671(C));
if (((T0*)(GE_void(t1)))->id==70) {
T70f225(t1, ((T399*)(C))->a20, t2);
} else {
T29f224(t1, ((T399*)(C))->a20, t2);
}
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-((T6)(GE_int32(2)))));
l1 = (T2)('^');
break;
case (T2)(T2)('d'):
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+((T6)(GE_int32(2)))));
T399f1035(C);
t1 = (T399f895(C));
t2 = (T399f671(C));
if (((T0*)(GE_void(t1)))->id==70) {
T70f225(t1, ((T399*)(C))->a20, t2);
} else {
T29f224(t1, ((T399*)(C))->a20, t2);
}
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-((T6)(GE_int32(2)))));
l1 = (T2)('$');
break;
case (T2)(T2)('f'):
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+((T6)(GE_int32(2)))));
T399f1035(C);
t1 = (T399f895(C));
t2 = (T399f671(C));
if (((T0*)(GE_void(t1)))->id==70) {
T70f225(t1, ((T399*)(C))->a20, t2);
} else {
T29f224(t1, ((T399*)(C))->a20, t2);
}
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-((T6)(GE_int32(2)))));
l1 = (T2)('\014');
break;
case (T2)(T2)('h'):
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+((T6)(GE_int32(2)))));
T399f1035(C);
t1 = (T399f895(C));
t2 = (T399f671(C));
if (((T0*)(GE_void(t1)))->id==70) {
T70f225(t1, ((T399*)(C))->a20, t2);
} else {
T29f224(t1, ((T399*)(C))->a20, t2);
}
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-((T6)(GE_int32(2)))));
l1 = (T2)('\\');
break;
case (T2)(T2)('l'):
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+((T6)(GE_int32(2)))));
T399f1035(C);
t1 = (T399f895(C));
t2 = (T399f671(C));
if (((T0*)(GE_void(t1)))->id==70) {
T70f225(t1, ((T399*)(C))->a20, t2);
} else {
T29f224(t1, ((T399*)(C))->a20, t2);
}
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-((T6)(GE_int32(2)))));
l1 = (T2)('~');
break;
case (T2)(T2)('n'):
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+((T6)(GE_int32(2)))));
T399f1035(C);
t1 = (T399f895(C));
t2 = (T399f671(C));
if (((T0*)(GE_void(t1)))->id==70) {
T70f225(t1, ((T399*)(C))->a20, t2);
} else {
T29f224(t1, ((T399*)(C))->a20, t2);
}
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-((T6)(GE_int32(2)))));
l1 = (T2)('\n');
break;
case (T2)(T2)('q'):
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+((T6)(GE_int32(2)))));
T399f1035(C);
t1 = (T399f895(C));
t2 = (T399f671(C));
if (((T0*)(GE_void(t1)))->id==70) {
T70f225(t1, ((T399*)(C))->a20, t2);
} else {
T29f224(t1, ((T399*)(C))->a20, t2);
}
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-((T6)(GE_int32(2)))));
l1 = (T2)('`');
break;
case (T2)(T2)('r'):
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+((T6)(GE_int32(2)))));
T399f1035(C);
t1 = (T399f895(C));
t2 = (T399f671(C));
if (((T0*)(GE_void(t1)))->id==70) {
T70f225(t1, ((T399*)(C))->a20, t2);
} else {
T29f224(t1, ((T399*)(C))->a20, t2);
}
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-((T6)(GE_int32(2)))));
l1 = (T2)('\r');
break;
case (T2)(T2)('s'):
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+((T6)(GE_int32(2)))));
T399f1035(C);
t1 = (T399f895(C));
t2 = (T399f671(C));
if (((T0*)(GE_void(t1)))->id==70) {
T70f225(t1, ((T399*)(C))->a20, t2);
} else {
T29f224(t1, ((T399*)(C))->a20, t2);
}
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-((T6)(GE_int32(2)))));
l1 = (T2)('#');
break;
case (T2)(T2)('t'):
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+((T6)(GE_int32(2)))));
T399f1035(C);
t1 = (T399f895(C));
t2 = (T399f671(C));
if (((T0*)(GE_void(t1)))->id==70) {
T70f225(t1, ((T399*)(C))->a20, t2);
} else {
T29f224(t1, ((T399*)(C))->a20, t2);
}
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-((T6)(GE_int32(2)))));
l1 = (T2)('\t');
break;
case (T2)(T2)('u'):
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+((T6)(GE_int32(2)))));
T399f1035(C);
t1 = (T399f895(C));
t2 = (T399f671(C));
if (((T0*)(GE_void(t1)))->id==70) {
T70f225(t1, ((T399*)(C))->a20, t2);
} else {
T29f224(t1, ((T399*)(C))->a20, t2);
}
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-((T6)(GE_int32(2)))));
l1 = (T2)('\000');
break;
case (T2)(T2)('v'):
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+((T6)(GE_int32(2)))));
T399f1035(C);
t1 = (T399f895(C));
t2 = (T399f671(C));
if (((T0*)(GE_void(t1)))->id==70) {
T70f225(t1, ((T399*)(C))->a20, t2);
} else {
T29f224(t1, ((T399*)(C))->a20, t2);
}
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-((T6)(GE_int32(2)))));
l1 = (T2)('|');
break;
default:
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+((T6)(GE_int32(2)))));
T399f1035(C);
t1 = (T399f895(C));
t2 = (T399f671(C));
if (((T0*)(GE_void(t1)))->id==70) {
T70f226(t1, ((T399*)(C))->a20, t2);
} else {
T29f225(t1, ((T399*)(C))->a20, t2);
}
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-((T6)(GE_int32(2)))));
l1 = a1;
break;
}
((T399*)(C))->a19 = (T6)(GE_int32(3));
((T399*)(C))->a72 = (T6)(GE_int32(3));
((T399*)(C))->a67 = (T6)(GE_int32(328));
t1 = (T399f682(C));
((T399*)(C))->a247 = (T362f122(GE_void(t1), l1, C));
}
/* ET_AST_FACTORY.new_c2_character_constant */
T0* T362f122(T0* C, T2 a1, T0* a2)
{
T3 t1;
T6 t2;
T6 t3;
T0* R = 0;
t1 = ((T3)(a1));
R = T1146c37(t1);
t2 = (((T399*)(a2))->a38);
t3 = (((T399*)(a2))->a39);
T1146f38(GE_void(R), t2, t3);
return R;
}
/* ET_C2_CHARACTER_CONSTANT.set_position */
void T1146f38(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1146*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_C2_CHARACTER_CONSTANT.make */
T0* T1146c37(T3 a1)
{
T0* C;
C = GE_new1146(EIF_TRUE);
((T1146*)(C))->a1 = a1;
T1146f39(C);
return C;
}
/* ET_C2_CHARACTER_CONSTANT.make_leaf */
void T1146f39(T0* C)
{
((T1146*)(C))->a2 = (T6)(GE_int32(0));
}
/* ET_ERROR_HANDLER.report_scsc_error */
void T29f225(T0* C, T0* a1, T0* a2)
{
T29f222(C, a1, a2);
}
/* ET_NULL_ERROR_HANDLER.report_scsc_error */
void T70f226(T0* C, T0* a1, T0* a2)
{
T70f223(C, a1, a2);
}
/* ET_ERROR_HANDLER.report_sccu_error */
void T29f224(T0* C, T0* a1, T0* a2)
{
T29f222(C, a1, a2);
}
/* ET_NULL_ERROR_HANDLER.report_sccu_error */
void T70f225(T0* C, T0* a1, T0* a2)
{
T70f223(C, a1, a2);
}
/* ET_EIFFEL_PARSER.process_c1_character_constant */
void T399f1041(T0* C, T2 a1)
{
T1 t1;
T0* t2;
T0* t3;
t1 = (((((a1) == ((T2)('\''))))));
if (t1) {
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)+((T6)(GE_int32(1)))));
T399f1035(C);
t2 = (T399f895(C));
t3 = (T399f671(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f224(t2, ((T399*)(C))->a20, t3);
} else {
T29f223(t2, ((T399*)(C))->a20, t3);
}
((T399*)(C))->a39 = ((T6)((((T399*)(C))->a39)-((T6)(GE_int32(1)))));
}
((T399*)(C))->a19 = (T6)(GE_int32(2));
((T399*)(C))->a72 = (T6)(GE_int32(2));
((T399*)(C))->a67 = (T6)(GE_int32(328));
t2 = (T399f682(C));
((T399*)(C))->a247 = (T362f121(GE_void(t2), a1, C));
}
/* ET_AST_FACTORY.new_c1_character_constant */
T0* T362f121(T0* C, T2 a1, T0* a2)
{
T3 t1;
T6 t2;
T6 t3;
T0* R = 0;
t1 = ((T3)(a1));
R = T1145c37(t1);
t2 = (((T399*)(a2))->a38);
t3 = (((T399*)(a2))->a39);
T1145f38(GE_void(R), t2, t3);
return R;
}
/* ET_C1_CHARACTER_CONSTANT.set_position */
void T1145f38(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1145*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_C1_CHARACTER_CONSTANT.make */
T0* T1145c37(T3 a1)
{
T0* C;
C = GE_new1145(EIF_TRUE);
((T1145*)(C))->a1 = a1;
T1145f39(C);
return C;
}
/* ET_C1_CHARACTER_CONSTANT.make_leaf */
void T1145f39(T0* C)
{
((T1145*)(C))->a2 = (T6)(GE_int32(0));
}
/* ET_ERROR_HANDLER.report_sctq_error */
void T29f223(T0* C, T0* a1, T0* a2)
{
T29f222(C, a1, a2);
}
/* ET_NULL_ERROR_HANDLER.report_sctq_error */
void T70f224(T0* C, T0* a1, T0* a2)
{
T70f223(C, a1, a2);
}
/* ET_AST_FACTORY.new_free_operator */
T0* T362f3(T0* C, T0* a1)
{
T0* t1;
T6 t2;
T6 t3;
T0* R = 0;
t1 = (T399f935(a1));
R = T1097c46(t1);
t2 = (((T399*)(a1))->a38);
t3 = (((T399*)(a1))->a39);
T1097f47(GE_void(R), t2, t3);
return R;
}
/* ET_FREE_OPERATOR.set_position */
void T1097f47(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1097*)(C))->a3 = ((T6)((t2)+(l2)));
}
/* ET_FREE_OPERATOR.make_prefix */
T0* T1097c46(T0* a1)
{
T0* C;
T0* t1;
C = GE_new1097(EIF_TRUE);
t1 = (T1097f9(C));
((T1097*)(C))->a1 = ((T2)('^'));
T1097f48(C, a1);
t1 = (T1097f10(C));
((T1097*)(C))->a2 = (T27f16(GE_void(t1), a1));
return C;
}
/* ET_FREE_OPERATOR.string_ */
T0* T1097f10(T0* C)
{
T0* R = 0;
if (ge233os1922) {
return ge233ov1922;
} else {
ge233os1922 = '\1';
ge233ov1922 = R;
}
R = T27c19();
ge233ov1922 = R;
return R;
}
/* ET_FREE_OPERATOR.make_token */
void T1097f48(T0* C, T0* a1)
{
((T1097*)(C))->a4 = a1;
T1097f49(C);
}
/* ET_FREE_OPERATOR.make_leaf */
void T1097f49(T0* C)
{
((T1097*)(C))->a3 = (T6)(GE_int32(0));
}
/* ET_EIFFEL_PARSER.set_start_condition */
void T399f1034(T0* C, T6 a1)
{
T6 t1;
t1 = (T6)(GE_int32(2));
t1 = ((T6)((t1)*(a1)));
((T399*)(C))->a34 = ((T6)((t1)+((T6)(GE_int32(1)))));
}
/* ET_EIFFEL_PARSER.more */
void T399f1040(T0* C)
{
((T399*)(C))->a76 = EIF_TRUE;
}
/* ET_EIFFEL_PARSER.process_identifier */
void T399f1039(T0* C, T6 a1)
{
T2 t1;
T0* t2;
T1 t3;
((T399*)(C))->a67 = (T6)(GE_int32(331));
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = a1;
switch (a1) {
case (T6)(T6)(GE_int32(2)):
t1 = (T399f679(C, (T6)(GE_int32(1))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('s'):
case (T2)(T2)('S'):
((T399*)(C))->a67 = (T6)(GE_int32(260));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f52(GE_void(t2), C));
break;
default:
break;
}
break;
case (T2)(T2)('d'):
case (T2)(T2)('D'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('o'):
case (T2)(T2)('O'):
((T399*)(C))->a67 = (T6)(GE_int32(266));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f53(GE_void(t2), C));
break;
default:
break;
}
break;
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('f'):
case (T2)(T2)('F'):
((T399*)(C))->a67 = (T6)(GE_int32(276));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f54(GE_void(t2), C));
break;
case (T2)(T2)('s'):
case (T2)(T2)('S'):
((T399*)(C))->a67 = (T6)(GE_int32(282));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f55(GE_void(t2), C));
break;
default:
break;
}
break;
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
((T399*)(C))->a67 = (T6)(GE_int32(336));
t2 = (T399f682(C));
((T399*)(C))->a267 = (T362f56(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
case (T6)(T6)(GE_int32(3)):
t1 = (T399f679(C, (T6)(GE_int32(1))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('d'):
case (T2)(T2)('D'):
((T399*)(C))->a67 = (T6)(GE_int32(335));
t2 = (T399f682(C));
((T399*)(C))->a267 = (T362f57(GE_void(t2), C));
break;
default:
break;
}
break;
case (T2)(T2)('l'):
case (T2)(T2)('L'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('l'):
case (T2)(T2)('L'):
((T399*)(C))->a67 = (T6)(GE_int32(259));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f58(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('b'):
case (T2)(T2)('B'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
((T399*)(C))->a67 = (T6)(GE_int32(332));
t2 = (T399f682(C));
((T399*)(C))->a259 = (T362f59(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('d'):
case (T2)(T2)('D'):
((T399*)(C))->a67 = (T6)(GE_int32(269));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f60(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
((T399*)(C))->a67 = (T6)(GE_int32(338));
t2 = (T399f682(C));
((T399*)(C))->a267 = (T362f61(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('l'):
case (T2)(T2)('L'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('d'):
case (T2)(T2)('D'):
((T399*)(C))->a67 = (T6)(GE_int32(373));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f62(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('x'):
case (T2)(T2)('X'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
((T399*)(C))->a67 = (T6)(GE_int32(337));
t2 = (T399f682(C));
((T399*)(C))->a267 = (T362f63(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T6)(T6)(GE_int32(4)):
t1 = (T399f679(C, (T6)(GE_int32(1))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('l'):
case (T2)(T2)('L'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('s'):
case (T2)(T2)('S'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
((T399*)(C))->a67 = (T6)(GE_int32(267));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f64(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('f'):
case (T2)(T2)('F'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('m'):
case (T2)(T2)('M'):
((T399*)(C))->a67 = (T6)(GE_int32(274));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f65(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('l'):
case (T2)(T2)('L'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('k'):
case (T2)(T2)('K'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
((T399*)(C))->a67 = (T6)(GE_int32(283));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f66(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('p'):
case (T2)(T2)('P'):
((T399*)(C))->a67 = (T6)(GE_int32(285));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f67(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t3 = (T399f794(C));
if (t3) {
((T399*)(C))->a67 = (T6)(GE_int32(286));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f68(GE_void(t2), C));
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('c'):
case (T2)(T2)('C'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
((T399*)(C))->a67 = (T6)(GE_int32(288));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f2(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('s'):
case (T2)(T2)('S'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('m'):
case (T2)(T2)('M'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
((T399*)(C))->a67 = (T6)(GE_int32(314));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f69(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('t'):
case (T2)(T2)('T'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('h'):
case (T2)(T2)('H'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
((T399*)(C))->a67 = (T6)(GE_int32(298));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f70(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('u'):
case (T2)(T2)('U'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
((T399*)(C))->a67 = (T6)(GE_int32(326));
t2 = (T399f682(C));
((T399*)(C))->a239 = (T362f71(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('v'):
case (T2)(T2)('V'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('d'):
case (T2)(T2)('D'):
((T399*)(C))->a67 = (T6)(GE_int32(369));
t2 = (T399f682(C));
((T399*)(C))->a291 = (T362f72(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('w'):
case (T2)(T2)('W'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('h'):
case (T2)(T2)('H'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
((T399*)(C))->a67 = (T6)(GE_int32(297));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f73(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T6)(T6)(GE_int32(5)):
t1 = (T399f679(C, (T6)(GE_int32(1))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('g'):
case (T2)(T2)('G'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
((T399*)(C))->a67 = (T6)(GE_int32(315));
t2 = (T399f682(C));
((T399*)(C))->a219 = (T362f74(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('l'):
case (T2)(T2)('L'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('s'):
case (T2)(T2)('S'):
((T399*)(C))->a67 = (T6)(GE_int32(258));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f75(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('c'):
case (T2)(T2)('C'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('h'):
case (T2)(T2)('H'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('c'):
case (T2)(T2)('C'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('k'):
case (T2)(T2)('K'):
((T399*)(C))->a67 = (T6)(GE_int32(261));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f76(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('l'):
case (T2)(T2)('L'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('s'):
case (T2)(T2)('S'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('s'):
case (T2)(T2)('S'):
((T399*)(C))->a67 = (T6)(GE_int32(262));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f77(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('d'):
case (T2)(T2)('D'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('b'):
case (T2)(T2)('B'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('u'):
case (T2)(T2)('U'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('g'):
case (T2)(T2)('G'):
((T399*)(C))->a67 = (T6)(GE_int32(265));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f78(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('f'):
case (T2)(T2)('F'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('l'):
case (T2)(T2)('L'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('s'):
case (T2)(T2)('S'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
((T399*)(C))->a67 = (T6)(GE_int32(325));
t2 = (T399f682(C));
((T399*)(C))->a239 = (T362f79(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('f'):
case (T2)(T2)('F'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('x'):
case (T2)(T2)('X'):
((T399*)(C))->a67 = (T6)(GE_int32(278));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f80(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('l'):
case (T2)(T2)('L'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('c'):
case (T2)(T2)('C'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('l'):
case (T2)(T2)('L'):
((T399*)(C))->a67 = (T6)(GE_int32(284));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f81(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('y'):
case (T2)(T2)('Y'):
((T399*)(C))->a67 = (T6)(GE_int32(364));
t2 = (T399f682(C));
((T399*)(C))->a283 = (T362f82(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('s'):
case (T2)(T2)('S'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('p'):
case (T2)(T2)('P'):
((T399*)(C))->a67 = (T6)(GE_int32(296));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f83(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('t'):
case (T2)(T2)('T'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('u'):
case (T2)(T2)('U'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('p'):
case (T2)(T2)('P'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('l'):
case (T2)(T2)('L'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
((T399*)(C))->a67 = (T6)(GE_int32(333));
t2 = (T399f682(C));
((T399*)(C))->a259 = (T362f59(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('u'):
case (T2)(T2)('U'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('l'):
case (T2)(T2)('L'):
((T399*)(C))->a67 = (T6)(GE_int32(301));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f84(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T6)(T6)(GE_int32(6)):
t1 = (T399f679(C, (T6)(GE_int32(1))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('c'):
case (T2)(T2)('C'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('s'):
case (T2)(T2)('S'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('s'):
case (T2)(T2)('S'):
((T399*)(C))->a67 = (T6)(GE_int32(313));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f85(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('s'):
case (T2)(T2)('S'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('s'):
case (T2)(T2)('S'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('g'):
case (T2)(T2)('G'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
((T399*)(C))->a67 = (T6)(GE_int32(312));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f86(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('c'):
case (T2)(T2)('C'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
((T399*)(C))->a67 = (T6)(GE_int32(263));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f87(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('l'):
case (T2)(T2)('L'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('s'):
case (T2)(T2)('S'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('f'):
case (T2)(T2)('F'):
((T399*)(C))->a67 = (T6)(GE_int32(268));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f88(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('s'):
case (T2)(T2)('S'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('u'):
case (T2)(T2)('U'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
((T399*)(C))->a67 = (T6)(GE_int32(270));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f89(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('x'):
case (T2)(T2)('X'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('p'):
case (T2)(T2)('P'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
((T399*)(C))->a67 = (T6)(GE_int32(271));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f90(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('f'):
case (T2)(T2)('F'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('z'):
case (T2)(T2)('Z'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
((T399*)(C))->a67 = (T6)(GE_int32(275));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f91(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('p'):
case (T2)(T2)('P'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('f'):
case (T2)(T2)('F'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('x'):
case (T2)(T2)('X'):
((T399*)(C))->a67 = (T6)(GE_int32(290));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f92(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('m'):
case (T2)(T2)('M'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
((T399*)(C))->a67 = (T6)(GE_int32(292));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f93(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('s'):
case (T2)(T2)('S'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('c'):
case (T2)(T2)('C'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('u'):
case (T2)(T2)('U'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
((T399*)(C))->a67 = (T6)(GE_int32(294));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f94(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('u'):
case (T2)(T2)('U'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('l'):
case (T2)(T2)('L'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
((T399*)(C))->a67 = (T6)(GE_int32(363));
t2 = (T399f682(C));
((T399*)(C))->a279 = (T362f95(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('s'):
case (T2)(T2)('S'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('l'):
case (T2)(T2)('L'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('c'):
case (T2)(T2)('C'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
((T399*)(C))->a67 = (T6)(GE_int32(295));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f96(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('u'):
case (T2)(T2)('U'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('q'):
case (T2)(T2)('Q'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('u'):
case (T2)(T2)('U'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
((T399*)(C))->a67 = (T6)(GE_int32(300));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f97(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T6)(T6)(GE_int32(7)):
t1 = (T399f679(C, (T6)(GE_int32(1))));
switch (t1) {
case (T2)(T2)('c'):
case (T2)(T2)('C'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('u'):
case (T2)(T2)('U'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
((T399*)(C))->a67 = (T6)(GE_int32(329));
t2 = (T399f682(C));
((T399*)(C))->a251 = (T362f98(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('v'):
case (T2)(T2)('V'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
((T399*)(C))->a67 = (T6)(GE_int32(310));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f99(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('f'):
case (T2)(T2)('F'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('u'):
case (T2)(T2)('U'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
((T399*)(C))->a67 = (T6)(GE_int32(273));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f100(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('m'):
case (T2)(T2)('M'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('p'):
case (T2)(T2)('P'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('l'):
case (T2)(T2)('L'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('s'):
case (T2)(T2)('S'):
((T399*)(C))->a67 = (T6)(GE_int32(339));
t2 = (T399f682(C));
((T399*)(C))->a267 = (T362f101(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('h'):
case (T2)(T2)('H'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
((T399*)(C))->a67 = (T6)(GE_int32(279));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f102(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('s'):
case (T2)(T2)('S'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('p'):
case (T2)(T2)('P'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('c'):
case (T2)(T2)('C'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
((T399*)(C))->a67 = (T6)(GE_int32(280));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f103(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('q'):
case (T2)(T2)('Q'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('u'):
case (T2)(T2)('U'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
((T399*)(C))->a67 = (T6)(GE_int32(293));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f104(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('v'):
case (T2)(T2)('V'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
((T399*)(C))->a67 = (T6)(GE_int32(302));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f105(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T6)(T6)(GE_int32(8)):
t1 = (T399f679(C, (T6)(GE_int32(1))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('c'):
case (T2)(T2)('C'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('h'):
case (T2)(T2)('H'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(8))));
switch (t1) {
case (T2)(T2)('d'):
case (T2)(T2)('D'):
t3 = (T399f838(C));
if (t3) {
((T399*)(C))->a67 = (T6)(GE_int32(307));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f106(GE_void(t2), C));
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('c'):
case (T2)(T2)('C'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(8))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
((T399*)(C))->a67 = (T6)(GE_int32(264));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f107(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('d'):
case (T2)(T2)('D'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('f'):
case (T2)(T2)('F'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(8))));
switch (t1) {
case (T2)(T2)('d'):
case (T2)(T2)('D'):
((T399*)(C))->a67 = (T6)(GE_int32(303));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f108(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('x'):
case (T2)(T2)('X'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('p'):
case (T2)(T2)('P'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('d'):
case (T2)(T2)('D'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(8))));
switch (t1) {
case (T2)(T2)('d'):
case (T2)(T2)('D'):
((T399*)(C))->a67 = (T6)(GE_int32(304));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f109(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('t'):
case (T2)(T2)('T'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(8))));
switch (t1) {
case (T2)(T2)('l'):
case (T2)(T2)('L'):
((T399*)(C))->a67 = (T6)(GE_int32(272));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f110(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('d'):
case (T2)(T2)('D'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('x'):
case (T2)(T2)('X'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(8))));
switch (t1) {
case (T2)(T2)('g'):
case (T2)(T2)('G'):
((T399*)(C))->a67 = (T6)(GE_int32(277));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f111(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('b'):
case (T2)(T2)('B'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('s'):
case (T2)(T2)('S'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('l'):
case (T2)(T2)('L'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
t1 = (T399f679(C, (T6)(GE_int32(8))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
((T399*)(C))->a67 = (T6)(GE_int32(287));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f112(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('d'):
case (T2)(T2)('D'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('f'):
case (T2)(T2)('F'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(8))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
((T399*)(C))->a67 = (T6)(GE_int32(291));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f113(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('s'):
case (T2)(T2)('S'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('p'):
case (T2)(T2)('P'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
t1 = (T399f679(C, (T6)(GE_int32(8))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
((T399*)(C))->a67 = (T6)(GE_int32(306));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f114(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('u'):
case (T2)(T2)('U'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('d'):
case (T2)(T2)('D'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('f'):
case (T2)(T2)('F'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(8))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
((T399*)(C))->a67 = (T6)(GE_int32(299));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f115(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T6)(T6)(GE_int32(9)):
t1 = (T399f679(C, (T6)(GE_int32(1))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('b'):
case (T2)(T2)('B'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('u'):
case (T2)(T2)('U'):
t1 = (T399f679(C, (T6)(GE_int32(8))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
t1 = (T399f679(C, (T6)(GE_int32(9))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t3 = (T399f851(C));
if (t3) {
((T399*)(C))->a67 = (T6)(GE_int32(309));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f116(GE_void(t2), C));
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('v'):
case (T2)(T2)('V'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('i'):
case (T2)(T2)('I'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(8))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(9))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
((T399*)(C))->a67 = (T6)(GE_int32(281));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f117(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('p'):
case (T2)(T2)('P'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('c'):
case (T2)(T2)('C'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('u'):
case (T2)(T2)('U'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('s'):
case (T2)(T2)('S'):
t1 = (T399f679(C, (T6)(GE_int32(8))));
switch (t1) {
case (T2)(T2)('o'):
case (T2)(T2)('O'):
t1 = (T399f679(C, (T6)(GE_int32(9))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
((T399*)(C))->a67 = (T6)(GE_int32(316));
t2 = (T399f682(C));
((T399*)(C))->a223 = (T362f118(GE_void(t2), C));
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('f'):
case (T2)(T2)('F'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('r'):
case (T2)(T2)('R'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('n'):
case (T2)(T2)('N'):
t1 = (T399f679(C, (T6)(GE_int32(8))));
switch (t1) {
case (T2)(T2)('c'):
case (T2)(T2)('C'):
t1 = (T399f679(C, (T6)(GE_int32(9))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t3 = (T399f857(C));
if (t3) {
((T399*)(C))->a67 = (T6)(GE_int32(305));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f119(GE_void(t2), C));
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
case (T6)(T6)(GE_int32(10)):
t1 = (T399f679(C, (T6)(GE_int32(1))));
switch (t1) {
case (T2)(T2)('d'):
case (T2)(T2)('D'):
t1 = (T399f679(C, (T6)(GE_int32(2))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t1 = (T399f679(C, (T6)(GE_int32(3))));
switch (t1) {
case (T2)(T2)('t'):
case (T2)(T2)('T'):
t1 = (T399f679(C, (T6)(GE_int32(4))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(5))));
switch (t1) {
case (T2)(T2)('c'):
case (T2)(T2)('C'):
t1 = (T399f679(C, (T6)(GE_int32(6))));
switch (t1) {
case (T2)(T2)('h'):
case (T2)(T2)('H'):
t1 = (T399f679(C, (T6)(GE_int32(7))));
switch (t1) {
case (T2)(T2)('a'):
case (T2)(T2)('A'):
t1 = (T399f679(C, (T6)(GE_int32(8))));
switch (t1) {
case (T2)(T2)('b'):
case (T2)(T2)('B'):
t1 = (T399f679(C, (T6)(GE_int32(9))));
switch (t1) {
case (T2)(T2)('l'):
case (T2)(T2)('L'):
t1 = (T399f679(C, (T6)(GE_int32(10))));
switch (t1) {
case (T2)(T2)('e'):
case (T2)(T2)('E'):
t3 = (T399f859(C));
if (t3) {
((T399*)(C))->a67 = (T6)(GE_int32(308));
t2 = (T399f682(C));
((T399*)(C))->a215 = (T362f120(GE_void(t2), C));
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
break;
default:
break;
}
t3 = (((((((T399*)(C))->a67) == ((T6)(GE_int32(331)))))));
if (t3) {
t2 = (T399f682(C));
((T399*)(C))->a259 = (T362f59(GE_void(t2), C));
}
}
/* ET_AST_FACTORY.new_detachable_keyword */
T0* T362f120(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T356c38();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T356f47(GE_void(R), t1, t2);
return R;
}
/* ET_KEYWORD.set_position */
void T356f47(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T356*)(C))->a3 = ((T6)((t2)+(l2)));
}
/* ET_EIFFEL_PARSER.use_detachable_keyword */
T1 T399f859(T0* C)
{
T0* t1;
T1 R = 0;
t1 = (T399f901(C));
R = (T26x3000(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_reference_keyword */
T0* T362f119(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T356c60();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T356f47(GE_void(R), t1, t2);
return R;
}
/* ET_KEYWORD.make_reference */
T0* T356c60(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)('/'));
t1 = (T356f19(C));
t1 = (ge808ov11318);
T356f39(C, t1);
return C;
}
/* ET_EIFFEL_PARSER.use_reference_keyword */
T1 T399f857(T0* C)
{
T0* t1;
T1 R = 0;
t1 = (T399f901(C));
R = (T26x3002(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_precursor_keyword */
T0* T362f118(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1076c18();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1076f19(GE_void(R), t1, t2);
return R;
}
/* ET_PRECURSOR_KEYWORD.set_position */
void T1076f19(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1076*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_AST_FACTORY.new_invariant_keyword */
T0* T362f117(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f592(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_attribute_keyword */
T0* T362f116(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f591(GE_void(t1)));
return R;
}
/* ET_EIFFEL_PARSER.use_attribute_keyword */
T1 T399f851(T0* C)
{
T1 t1;
T0* t2;
T1 R = 0;
t1 = (T354x14769(GE_void(((T399*)(C))->a21)));
if (t1) {
R = EIF_FALSE;
} else {
t2 = (T399f901(C));
R = (T26x2999(GE_void(t2)));
}
return R;
}
/* ET_AST_FACTORY.new_undefine_keyword */
T0* T362f115(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f590(GE_void(t1)));
return R;
}
/* ET_TOKEN_CONSTANTS.undefine_keyword */
unsigned char ge808os11007 = '\0';
T0* ge808ov11007;
T0* T74f590(T0* C)
{
T0* R = 0;
if (ge808os11007) {
return ge808ov11007;
} else {
ge808os11007 = '\1';
ge808ov11007 = R;
}
R = T356c92();
ge808ov11007 = R;
return R;
}
/* ET_KEYWORD.make_undefine */
T0* T356c92(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)(';'));
t1 = (T356f19(C));
t1 = (ge808ov11330);
T356f39(C, t1);
return C;
}
/* ET_AST_FACTORY.new_separate_keyword */
T0* T362f114(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T356c59();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T356f47(GE_void(R), t1, t2);
return R;
}
/* ET_KEYWORD.make_separate */
T0* T356c59(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)('6'));
t1 = (T356f19(C));
t1 = (ge808ov11325);
T356f39(C, t1);
return C;
}
/* ET_AST_FACTORY.new_redefine_keyword */
T0* T362f113(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f589(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_obsolete_keyword */
T0* T362f112(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f588(GE_void(t1)));
return R;
}
/* ET_TOKEN_CONSTANTS.obsolete_keyword */
unsigned char ge808os10987 = '\0';
T0* ge808ov10987;
T0* T74f588(T0* C)
{
T0* R = 0;
if (ge808os10987) {
return ge808ov10987;
} else {
ge808os10987 = '\1';
ge808ov10987 = R;
}
R = T356c90();
ge808ov10987 = R;
return R;
}
/* ET_KEYWORD.make_obsolete */
T0* T356c90(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)(')'));
t1 = (T356f19(C));
t1 = (ge808ov11310);
T356f39(C, t1);
return C;
}
/* ET_AST_FACTORY.new_indexing_keyword */
T0* T362f111(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f587(GE_void(t1)));
return R;
}
/* ET_TOKEN_CONSTANTS.indexing_keyword */
unsigned char ge808os10977 = '\0';
T0* ge808ov10977;
T0* T74f587(T0* C)
{
T0* R = 0;
if (ge808os10977) {
return ge808ov10977;
} else {
ge808os10977 = '\1';
ge808ov10977 = R;
}
R = T356c89();
ge808ov10977 = R;
return R;
}
/* ET_KEYWORD.make_indexing */
T0* T356c89(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)('\037'));
t1 = (T356f19(C));
t1 = (ge808ov11299);
T356f39(C, t1);
return C;
}
/* ET_AST_FACTORY.new_external_keyword */
T0* T362f110(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f586(GE_void(t1)));
return R;
}
/* ET_TOKEN_CONSTANTS.external_keyword */
unsigned char ge808os10972 = '\0';
T0* ge808ov10972;
T0* T74f586(T0* C)
{
T0* R = 0;
if (ge808os10972) {
return ge808ov10972;
} else {
ge808os10972 = '\1';
ge808ov10972 = R;
}
R = T356c88();
ge808ov10972 = R;
return R;
}
/* ET_KEYWORD.make_external */
T0* T356c88(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)('\031'));
t1 = (T356f19(C));
t1 = (ge808ov11292);
T356f39(C, t1);
return C;
}
/* ET_AST_FACTORY.new_expanded_keyword */
T0* T362f109(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T356c58();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T356f47(GE_void(R), t1, t2);
return R;
}
/* ET_KEYWORD.make_expanded */
T0* T356c58(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)('\027'));
t1 = (T356f19(C));
t1 = (ge808ov11290);
T356f39(C, t1);
return C;
}
/* ET_AST_FACTORY.new_deferred_keyword */
T0* T362f108(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f227(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_creation_keyword */
T0* T362f107(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f585(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_attached_keyword */
T0* T362f106(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T356c45();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T356f47(GE_void(R), t1, t2);
return R;
}
/* ET_EIFFEL_PARSER.use_attached_keyword */
T1 T399f838(T0* C)
{
T0* t1;
T1 R = 0;
t1 = (T399f901(C));
R = (T26x2998(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_variant_keyword */
T0* T362f105(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f584(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_require_keyword */
T0* T362f104(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T356c57();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T356f47(GE_void(R), t1, t2);
return R;
}
/* ET_AST_FACTORY.new_inspect_keyword */
T0* T362f103(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f583(GE_void(t1)));
return R;
}
/* ET_TOKEN_CONSTANTS.inspect_keyword */
unsigned char ge808os10980 = '\0';
T0* ge808ov10980;
T0* T74f583(T0* C)
{
T0* R = 0;
if (ge808os10980) {
return ge808ov10980;
} else {
ge808os10980 = '\1';
ge808ov10980 = R;
}
R = T356c85();
ge808ov10980 = R;
return R;
}
/* ET_KEYWORD.make_inspect */
T0* T356c85(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)('\"'));
t1 = (T356f19(C));
t1 = (ge808ov11302);
T356f39(C, t1);
return C;
}
/* ET_AST_FACTORY.new_inherit_keyword */
T0* T362f102(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f225(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_implies_keyword */
T0* T362f101(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1103c51();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1103f47(GE_void(R), t1, t2);
return R;
}
/* ET_KEYWORD_OPERATOR.set_position */
void T1103f47(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1103*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_KEYWORD_OPERATOR.make_implies */
T0* T1103c51(void)
{
T0* C;
T0* t1;
C = GE_new1103(EIF_TRUE);
t1 = (T1103f7(C));
((T1103*)(C))->a1 = ((T2)('H'));
t1 = (T1103f7(C));
t1 = (ge808ov11298);
T1103f52(C, t1);
return C;
}
/* ET_AST_FACTORY.new_feature_keyword */
T0* T362f100(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f582(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_convert_keyword */
T0* T362f99(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f581(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_current_keyword */
T0* T362f98(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T243c30();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T243f35(GE_void(R), t1, t2);
return R;
}
/* ET_CURRENT.set_position */
void T243f35(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T243*)(C))->a4 = ((T6)((t2)+(l2)));
}
/* ET_AST_FACTORY.new_unique_keyword */
T0* T362f97(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T356c56();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T356f47(GE_void(R), t1, t2);
return R;
}
/* ET_AST_FACTORY.new_select_keyword */
T0* T362f96(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f580(GE_void(t1)));
return R;
}
/* ET_TOKEN_CONSTANTS.select_keyword */
unsigned char ge808os11000 = '\0';
T0* ge808ov11000;
T0* T74f580(T0* C)
{
T0* R = 0;
if (ge808os11000) {
return ge808ov11000;
} else {
ge808os11000 = '\1';
ge808ov11000 = R;
}
R = T356c82();
ge808ov11000 = R;
return R;
}
/* ET_KEYWORD.make_select */
T0* T356c82(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)('5'));
t1 = (T356f19(C));
t1 = (ge808ov11324);
T356f39(C, t1);
return C;
}
/* ET_AST_FACTORY.new_result_keyword */
T0* T362f95(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T269c29();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T269f34(GE_void(R), t1, t2);
return R;
}
/* ET_RESULT.set_position */
void T269f34(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T269*)(C))->a4 = ((T6)((t2)+(l2)));
}
/* ET_AST_FACTORY.new_rescue_keyword */
T0* T362f94(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f579(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_rename_keyword */
T0* T362f93(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f578(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_prefix_keyword */
T0* T362f92(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f577(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_frozen_keyword */
T0* T362f91(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T356c55();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T356f47(GE_void(R), t1, t2);
return R;
}
/* ET_KEYWORD.make_frozen */
T0* T356c55(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)('\035'));
t1 = (T356f19(C));
t1 = (ge808ov11296);
T356f39(C, t1);
return C;
}
/* ET_AST_FACTORY.new_export_keyword */
T0* T362f90(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f576(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_ensure_keyword */
T0* T362f89(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T356c54();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T356f47(GE_void(R), t1, t2);
return R;
}
/* ET_AST_FACTORY.new_elseif_keyword */
T0* T362f88(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f575(GE_void(t1)));
return R;
}
/* ET_TOKEN_CONSTANTS.elseif_keyword */
unsigned char ge808os10967 = '\0';
T0* ge808ov10967;
T0* T74f575(T0* C)
{
T0* R = 0;
if (ge808os10967) {
return ge808ov10967;
} else {
ge808os10967 = '\1';
ge808ov10967 = R;
}
R = T356c77();
ge808ov10967 = R;
return R;
}
/* ET_KEYWORD.make_elseif */
T0* T356c77(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)('\024'));
t1 = (T356f19(C));
t1 = (ge808ov11287);
T356f39(C, t1);
return C;
}
/* ET_AST_FACTORY.new_create_keyword */
T0* T362f87(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f209(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_assign_keyword */
T0* T362f86(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f574(GE_void(t1)));
return R;
}
/* ET_TOKEN_CONSTANTS.assign_keyword */
unsigned char ge808os10952 = '\0';
T0* ge808ov10952;
T0* T74f574(T0* C)
{
T0* R = 0;
if (ge808os10952) {
return ge808ov10952;
} else {
ge808os10952 = '\1';
ge808ov10952 = R;
}
R = T356c76();
ge808ov10952 = R;
return R;
}
/* ET_KEYWORD.make_assign */
T0* T356c76(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)('\006'));
t1 = (T356f19(C));
t1 = (ge808ov11273);
T356f39(C, t1);
return C;
}
/* ET_AST_FACTORY.new_across_keyword */
T0* T362f85(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T356c53();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T356f47(GE_void(R), t1, t2);
return R;
}
/* ET_AST_FACTORY.new_until_keyword */
T0* T362f84(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f573(GE_void(t1)));
return R;
}
/* ET_TOKEN_CONSTANTS.until_keyword */
unsigned char ge808os11009 = '\0';
T0* ge808ov11009;
T0* T74f573(T0* C)
{
T0* R = 0;
if (ge808os11009) {
return ge808ov11009;
} else {
ge808os11009 = '\1';
ge808ov11009 = R;
}
R = T356c75();
ge808ov11009 = R;
return R;
}
/* ET_KEYWORD.make_until */
T0* T356c75(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)('='));
t1 = (T356f19(C));
t1 = (ge808ov11332);
T356f39(C, t1);
return C;
}
/* ET_AST_FACTORY.new_strip_keyword */
T0* T362f83(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T356c52();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T356f47(GE_void(R), t1, t2);
return R;
}
/* ET_AST_FACTORY.new_retry_keyword */
T0* T362f82(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1113c13();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1113f14(GE_void(R), t1, t2);
return R;
}
/* ET_RETRY_INSTRUCTION.set_position */
void T1113f14(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1113*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_RETRY_INSTRUCTION.make */
T0* T1113c13(void)
{
T0* C;
T0* t1;
C = GE_new1113(EIF_TRUE);
t1 = (T1113f7(C));
((T1113*)(C))->a1 = ((T2)('4'));
t1 = (T1113f7(C));
t1 = (ge808ov11323);
T1113f15(C, t1);
return C;
}
/* ET_RETRY_INSTRUCTION.make_token */
void T1113f15(T0* C, T0* a1)
{
((T1113*)(C))->a3 = a1;
T1113f16(C);
}
/* ET_RETRY_INSTRUCTION.make_leaf */
void T1113f16(T0* C)
{
((T1113*)(C))->a2 = (T6)(GE_int32(0));
}
/* ET_RETRY_INSTRUCTION.tokens */
T0* T1113f7(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_AST_FACTORY.new_local_keyword */
T0* T362f81(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f572(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_infix_keyword */
T0* T362f80(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f542(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_false_keyword */
T0* T362f79(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1144c33();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1144f34(GE_void(R), t1, t2);
return R;
}
/* ET_FALSE_CONSTANT.set_position */
void T1144f34(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1144*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_FALSE_CONSTANT.make */
T0* T1144c33(void)
{
T0* C;
T0* t1;
C = GE_new1144(EIF_TRUE);
t1 = (T1144f7(C));
((T1144*)(C))->a1 = ((T2)('\032'));
t1 = (T1144f7(C));
t1 = (ge808ov11260);
T1144f35(C, t1);
return C;
}
/* ET_FALSE_CONSTANT.make_token */
void T1144f35(T0* C, T0* a1)
{
((T1144*)(C))->a3 = a1;
T1144f36(C);
}
/* ET_FALSE_CONSTANT.make_leaf */
void T1144f36(T0* C)
{
((T1144*)(C))->a2 = (T6)(GE_int32(0));
}
/* ET_FALSE_CONSTANT.tokens */
T0* T1144f7(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_AST_FACTORY.new_debug_keyword */
T0* T362f78(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f571(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_class_keyword */
T0* T362f77(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f65(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_check_keyword */
T0* T362f76(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f570(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_alias_keyword */
T0* T362f75(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f569(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_agent_keyword */
T0* T362f74(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1073c13();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1073f14(GE_void(R), t1, t2);
return R;
}
/* ET_AGENT_KEYWORD.set_position */
void T1073f14(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1073*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_AST_FACTORY.new_when_keyword */
T0* T362f73(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f568(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_void_keyword */
T0* T362f72(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1119c28();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1119f29(GE_void(R), t1, t2);
return R;
}
/* ET_VOID.set_position */
void T1119f29(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1119*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_VOID.make */
T0* T1119c28(void)
{
T0* C;
T0* t1;
C = GE_new1119(EIF_TRUE);
t1 = (T1119f7(C));
((T1119*)(C))->a1 = ((T2)('?'));
t1 = (T1119f7(C));
t1 = (ge808ov11264);
T1119f30(C, t1);
return C;
}
/* ET_VOID.make_token */
void T1119f30(T0* C, T0* a1)
{
((T1119*)(C))->a3 = a1;
T1119f31(C);
}
/* ET_VOID.make_leaf */
void T1119f31(T0* C)
{
((T1119*)(C))->a2 = (T6)(GE_int32(0));
}
/* ET_VOID.tokens */
T0* T1119f7(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_AST_FACTORY.new_true_keyword */
T0* T362f71(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1143c33();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1143f34(GE_void(R), t1, t2);
return R;
}
/* ET_TRUE_CONSTANT.set_position */
void T1143f34(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1143*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_AST_FACTORY.new_then_keyword */
T0* T362f70(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f567(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_some_keyword */
T0* T362f69(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T356c51();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T356f47(GE_void(R), t1, t2);
return R;
}
/* ET_KEYWORD.make_some */
T0* T356c51(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)('7'));
t1 = (T356f19(C));
t1 = (ge808ov11326);
T356f39(C, t1);
return C;
}
/* ET_AST_FACTORY.new_note_keyword */
T0* T362f68(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f566(GE_void(t1)));
return R;
}
/* ET_TOKEN_CONSTANTS.note_keyword */
unsigned char ge808os10986 = '\0';
T0* ge808ov10986;
T0* T74f566(T0* C)
{
T0* R = 0;
if (ge808os10986) {
return ge808ov10986;
} else {
ge808os10986 = '\1';
ge808ov10986 = R;
}
R = T356c68();
ge808ov10986 = R;
return R;
}
/* ET_KEYWORD.make_note */
T0* T356c68(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)('('));
t1 = (T356f19(C));
t1 = (ge808ov11309);
T356f39(C, t1);
return C;
}
/* ET_EIFFEL_PARSER.use_note_keyword */
T1 T399f794(T0* C)
{
T1 t1;
T0* t2;
T1 R = 0;
t1 = (T354x14769(GE_void(((T399*)(C))->a21)));
if (t1) {
R = EIF_FALSE;
} else {
t2 = (T399f901(C));
R = (T26x3001(GE_void(t2)));
}
return R;
}
/* ET_AST_FACTORY.new_loop_keyword */
T0* T362f67(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f565(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_like_keyword */
T0* T362f66(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T356c50();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T356f47(GE_void(R), t1, t2);
return R;
}
/* ET_AST_FACTORY.new_from_keyword */
T0* T362f65(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f564(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_else_keyword */
T0* T362f64(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f563(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_xor_keyword */
T0* T362f63(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1103c50();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1103f47(GE_void(R), t1, t2);
return R;
}
/* ET_KEYWORD_OPERATOR.make_xor */
T0* T1103c50(void)
{
T0* C;
T0* t1;
C = GE_new1103(EIF_TRUE);
t1 = (T1103f7(C));
((T1103*)(C))->a1 = ((T2)('J'));
t1 = (T1103f7(C));
t1 = (ge808ov11336);
T1103f52(C, t1);
return C;
}
/* ET_AST_FACTORY.new_old_keyword */
T0* T362f62(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T356c49();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T356f47(GE_void(R), t1, t2);
return R;
}
/* ET_AST_FACTORY.new_not_keyword */
T0* T362f61(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1103c49();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1103f47(GE_void(R), t1, t2);
return R;
}
/* ET_KEYWORD_OPERATOR.make_not */
T0* T1103c49(void)
{
T0* C;
T0* t1;
C = GE_new1103(EIF_TRUE);
t1 = (T1103f7(C));
((T1103*)(C))->a1 = ((T2)('['));
t1 = (T1103f7(C));
t1 = (ge808ov11308);
T1103f52(C, t1);
return C;
}
/* ET_AST_FACTORY.new_end_keyword */
T0* T362f60(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f66(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_identifier */
T0* T362f59(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = (((((T0*)(a1))->id==399)?T399f939(a1):T397f128(a1)));
t1 = (((((T0*)(a1))->id==399)?((T399*)(a1))->a38:((T397*)(a1))->a11));
t2 = (((((T0*)(a1))->id==399)?((T399*)(a1))->a39:((T397*)(a1))->a12));
T143f109(GE_void(R), t1, t2);
return R;
}
/* ET_EIFFEL_PREPARSER.last_identifier */
T0* T397f128(T0* C)
{
T0* t1;
T1 t2;
T6 t3;
T0* R = 0;
T0* l1 = 0;
T0* l2 = 0;
T6 l3 = 0;
l1 = (T397f123(C));
t1 = (T397f124(C));
T27f20(GE_void(t1), l1);
T397f160(C, ((T397*)(C))->a3, ((T397*)(C))->a41, l1);
t1 = (T397f125(C));
T379f39(GE_void(t1), l1);
t1 = (T397f125(C));
t2 = (T379f28(GE_void(t1)));
if (t2) {
t1 = (T397f125(C));
l2 = (T379f35(GE_void(t1)));
t1 = (T397f125(C));
l3 = (T379f22(GE_void(t1)));
t2 = (T6f12((&l3), (T6)(GE_int32(0))));
if (t2) {
R = T143c114(l2, l3);
} else {
R = T143c104(l2);
t1 = (T397f125(C));
t3 = (((T143*)(GE_void(R)))->a6);
T379f61(GE_void(t1), t3);
}
} else {
t3 = (((T17*)(GE_void(l1)))->a2);
l2 = T17c45(t3);
if (((T0*)(GE_void(l2)))->id==17) {
T17f50(l2, l1);
} else {
T835f67(l2, l1);
}
R = T143c104(l2);
t1 = (T397f125(C));
t3 = (((T143*)(GE_void(R)))->a6);
T379f55(GE_void(t1), t3, l2);
}
return R;
}
/* DS_HASH_TABLE [INTEGER_32, STRING_8].replace_found_item */
void T379f61(T0* C, T6 a1)
{
T379f47(C, a1, ((T379*)(C))->a1);
}
/* ET_EIFFEL_PREPARSER.strings */
T0* T397f125(T0* C)
{
T0* t1;
T0* R = 0;
if (ge1026os21945) {
return ge1026ov21945;
} else {
ge1026os21945 = '\1';
ge1026ov21945 = R;
}
R = T379c38((T6)(GE_int32(100000)));
ge1026ov21945 = R;
t1 = (T397f127(C));
T379f40(GE_void(R), t1);
t1 = (T397f68(C));
t1 = (ge808ov11386);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11387);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11388);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11389);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11390);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11391);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11392);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11393);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11394);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11395);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11396);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11397);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11398);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11399);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11400);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11401);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11402);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11403);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11404);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11405);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11447);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11448);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11449);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11013);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11014);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11015);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11016);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11017);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11018);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11019);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11020);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11022);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11021);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11023);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11024);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11025);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11026);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11027);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11028);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11029);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11030);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11031);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11032);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11033);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11034);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11035);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11036);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11037);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11038);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11039);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11040);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11041);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11042);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11043);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11044);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11045);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11046);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11047);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11048);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11049);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11050);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11051);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11052);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11053);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11054);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11055);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11056);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11057);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11058);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11059);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11060);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11061);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11062);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11063);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11068);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11069);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11070);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11071);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11064);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11065);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11066);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11067);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11072);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11073);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11074);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11075);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11076);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11077);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11078);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11079);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11080);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11082);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11081);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11083);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11084);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11085);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11086);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11087);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11088);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11089);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11090);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11091);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11092);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11093);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11094);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11095);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11096);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11097);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11098);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11099);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11100);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11101);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11102);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11103);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11104);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11105);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11106);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11107);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11108);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11109);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11110);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11111);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11112);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11113);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11114);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11115);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11116);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11117);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11118);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11119);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11120);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11121);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11122);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11123);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11124);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11125);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11126);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11127);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11128);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11129);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11130);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11131);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11132);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11133);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11134);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11135);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11136);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11137);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11138);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11139);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11140);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11141);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11142);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11143);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11144);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11145);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11146);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11147);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11148);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11149);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11150);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11151);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11152);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11153);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11154);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11155);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11156);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11157);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11158);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11159);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11160);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11161);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11162);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11163);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11164);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11165);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11166);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11167);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11168);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11169);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11170);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11171);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11172);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11173);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11174);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11175);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11176);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11177);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11178);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11179);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11180);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11181);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11182);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11183);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11184);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11185);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11186);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11187);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11188);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11189);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11190);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11191);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11192);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11193);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11194);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11195);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11196);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11197);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11198);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11199);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11200);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11201);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11202);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11203);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11204);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11205);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11206);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11207);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11208);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11209);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11210);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11211);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11212);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11213);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11214);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11215);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11216);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11217);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11218);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11219);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11220);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11221);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11222);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11223);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11224);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11225);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11226);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11227);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11228);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11229);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11230);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11231);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11232);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11233);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11234);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11235);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11236);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11237);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11238);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11239);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11240);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11241);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11242);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11243);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11244);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11245);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11246);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11247);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11248);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11249);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11250);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11251);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11252);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11253);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11254);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11255);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11256);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11257);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11258);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11259);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11260);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11261);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11262);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11263);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11264);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11265);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11266);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11267);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11268);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11269);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11270);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11272);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11273);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11274);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11275);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11276);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11277);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11278);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11279);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11280);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11281);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11282);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11283);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11284);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11285);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11286);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11287);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11288);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11289);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11290);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11291);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11292);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11293);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11294);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11295);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11296);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11297);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11298);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11299);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11300);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11301);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11302);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11303);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11304);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11305);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11306);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11307);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11308);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11309);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11310);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11311);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11312);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11313);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11315);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11316);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11317);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11318);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11319);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11320);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11321);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11322);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11323);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11324);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11325);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11326);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11327);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11328);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11329);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11330);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11331);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11332);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11333);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11334);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11335);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11336);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11350);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11351);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11352);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11353);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11354);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11355);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11356);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11357);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11358);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11359);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11360);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11361);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11362);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11363);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11364);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11365);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11366);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11367);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11368);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11369);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11370);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11371);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11372);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11373);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11375);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11376);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11377);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11378);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11379);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11380);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11381);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11382);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11383);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
t1 = (T397f68(C));
t1 = (ge808ov11384);
T379f55(GE_void(R), (T6)(GE_int32(-1)), t1);
return R;
}
/* ET_EIFFEL_PREPARSER.tokens */
T0* T397f68(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_EIFFEL_PREPARSER.string_equality_tester */
T0* T397f127(T0* C)
{
T0* R = 0;
if (ge235os4105) {
return ge235ov4105;
} else {
ge235os4105 = '\1';
ge235ov4105 = R;
}
R = T103c2();
ge235ov4105 = R;
return R;
}
/* ET_EIFFEL_PREPARSER.append_text_substring_to_string */
void T397f160(T0* C, T6 a1, T6 a2, T0* a3)
{
T1 t1;
T6 t2;
T6 t3;
t1 = (T6f13(&a1, a2));
if (t1) {
t2 = ((T6)((((T397*)(C))->a16)+(a1)));
t2 = ((T6)((t2)-((T6)(GE_int32(1)))));
t3 = ((T6)((((T397*)(C))->a16)+(a2)));
t3 = ((T6)((t3)-((T6)(GE_int32(1)))));
T842f14(GE_void(((T397*)(C))->a25), t2, t3, a3);
}
}
/* ET_EIFFEL_PREPARSER.string_ */
T0* T397f124(T0* C)
{
T0* R = 0;
if (ge233os1922) {
return ge233ov1922;
} else {
ge233os1922 = '\1';
ge233ov1922 = R;
}
R = T27c19();
ge233ov1922 = R;
return R;
}
/* ET_EIFFEL_PREPARSER.string_buffer */
T0* T397f123(T0* C)
{
T0* R = 0;
if (ge1026os21946) {
return ge1026ov21946;
} else {
ge1026os21946 = '\1';
ge1026ov21946 = R;
}
R = T17c45((T6)(GE_int32(30)));
ge1026ov21946 = R;
return R;
}
/* ET_EIFFEL_PARSER.last_identifier */
T0* T399f939(T0* C)
{
T0* t1;
T1 t2;
T6 t3;
T0* R = 0;
T0* l1 = 0;
T0* l2 = 0;
T6 l3 = 0;
l1 = (T399f920(C));
t1 = (T399f921(C));
T27f20(GE_void(t1), l1);
T399f2004(C, ((T399*)(C))->a19, ((T399*)(C))->a72, l1);
t1 = (T399f922(C));
T379f39(GE_void(t1), l1);
t1 = (T399f922(C));
t2 = (T379f28(GE_void(t1)));
if (t2) {
t1 = (T399f922(C));
l2 = (T379f35(GE_void(t1)));
t1 = (T399f922(C));
l3 = (T379f22(GE_void(t1)));
t2 = (T6f12((&l3), (T6)(GE_int32(0))));
if (t2) {
R = T143c114(l2, l3);
} else {
R = T143c104(l2);
t1 = (T399f922(C));
t3 = (((T143*)(GE_void(R)))->a6);
T379f61(GE_void(t1), t3);
}
} else {
t3 = (((T17*)(GE_void(l1)))->a2);
l2 = T17c45(t3);
if (((T0*)(GE_void(l2)))->id==17) {
T17f50(l2, l1);
} else {
T835f67(l2, l1);
}
R = T143c104(l2);
t1 = (T399f922(C));
t3 = (((T143*)(GE_void(R)))->a6);
T379f55(GE_void(t1), t3, l2);
}
return R;
}
/* ET_AST_FACTORY.new_all_keyword */
T0* T362f58(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T356c48();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T356f47(GE_void(R), t1, t2);
return R;
}
/* ET_AST_FACTORY.new_and_keyword */
T0* T362f57(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1103c48();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1103f47(GE_void(R), t1, t2);
return R;
}
/* ET_AST_FACTORY.new_or_keyword */
T0* T362f56(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1103c46();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1103f47(GE_void(R), t1, t2);
return R;
}
/* ET_AST_FACTORY.new_is_keyword */
T0* T362f55(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f562(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_if_keyword */
T0* T362f54(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f561(GE_void(t1)));
return R;
}
/* ET_TOKEN_CONSTANTS.if_keyword */
unsigned char ge808os10976 = '\0';
T0* ge808ov10976;
T0* T74f561(T0* C)
{
T0* R = 0;
if (ge808os10976) {
return ge808ov10976;
} else {
ge808os10976 = '\1';
ge808ov10976 = R;
}
R = T356c63();
ge808ov10976 = R;
return R;
}
/* ET_KEYWORD.make_if */
T0* T356c63(void)
{
T0* C;
T0* t1;
C = GE_new356(EIF_TRUE);
t1 = (T356f19(C));
((T356*)(C))->a2 = ((T2)('\036'));
t1 = (T356f19(C));
t1 = (ge808ov11297);
T356f39(C, t1);
return C;
}
/* ET_AST_FACTORY.new_do_keyword */
T0* T362f53(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f560(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_as_keyword */
T0* T362f52(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f559(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_once_keyword */
T0* T362f2(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T356c46();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T356f47(GE_void(R), t1, t2);
return R;
}
/* ET_EIFFEL_PARSER.process_two_char_symbol */
void T399f1038(T0* C, T2 a1, T2 a2)
{
T0* t1;
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T6)(GE_int32(2));
switch (a1) {
case (T2)(T2)('/'):
switch (a2) {
case (T2)(T2)('/'):
((T399*)(C))->a67 = (T6)(GE_int32(365));
t1 = (T399f682(C));
((T399*)(C))->a287 = (T362f40(GE_void(t1), C));
break;
case (T2)(T2)('='):
((T399*)(C))->a67 = (T6)(GE_int32(374));
t1 = (T399f682(C));
((T399*)(C))->a227 = (T362f41(GE_void(t1), C));
break;
case (T2)(T2)('~'):
((T399*)(C))->a67 = (T6)(GE_int32(375));
t1 = (T399f682(C));
((T399*)(C))->a227 = (T362f42(GE_void(t1), C));
break;
default:
((T399*)(C))->a67 = (T6)(GE_int32(323));
((T399*)(C))->a231 = (T399f671(C));
break;
}
break;
case (T2)(T2)('\\'):
((T399*)(C))->a67 = (T6)(GE_int32(368));
t1 = (T399f682(C));
((T399*)(C))->a287 = (T362f43(GE_void(t1), C));
break;
case (T2)(T2)('>'):
switch (a2) {
case (T2)(T2)('='):
((T399*)(C))->a67 = (T6)(GE_int32(366));
t1 = (T399f682(C));
((T399*)(C))->a287 = (T362f44(GE_void(t1), C));
break;
case (T2)(T2)('>'):
((T399*)(C))->a67 = (T6)(GE_int32(320));
t1 = (T399f682(C));
((T399*)(C))->a227 = (T362f45(GE_void(t1), C));
break;
default:
((T399*)(C))->a67 = (T6)(GE_int32(323));
((T399*)(C))->a231 = (T399f671(C));
break;
}
break;
case (T2)(T2)('<'):
switch (a2) {
case (T2)(T2)('='):
((T399*)(C))->a67 = (T6)(GE_int32(367));
t1 = (T399f682(C));
((T399*)(C))->a287 = (T362f46(GE_void(t1), C));
break;
case (T2)(T2)('<'):
((T399*)(C))->a67 = (T6)(GE_int32(319));
t1 = (T399f682(C));
((T399*)(C))->a227 = (T362f47(GE_void(t1), C));
break;
default:
((T399*)(C))->a67 = (T6)(GE_int32(323));
((T399*)(C))->a231 = (T399f671(C));
break;
}
break;
case (T2)(T2)('-'):
((T399*)(C))->a67 = (T6)(GE_int32(317));
t1 = (T399f682(C));
((T399*)(C))->a227 = (T362f48(GE_void(t1), C));
break;
case (T2)(T2)('.'):
((T399*)(C))->a67 = (T6)(GE_int32(318));
t1 = (T399f682(C));
((T399*)(C))->a227 = (T362f49(GE_void(t1), C));
break;
case (T2)(T2)(':'):
((T399*)(C))->a67 = (T6)(GE_int32(321));
t1 = (T399f682(C));
((T399*)(C))->a227 = (T362f50(GE_void(t1), C));
break;
case (T2)(T2)('?'):
((T399*)(C))->a67 = (T6)(GE_int32(322));
t1 = (T399f682(C));
((T399*)(C))->a227 = (T362f51(GE_void(t1), C));
break;
default:
((T399*)(C))->a67 = (T6)(GE_int32(323));
((T399*)(C))->a231 = (T399f671(C));
break;
}
}
/* ET_AST_FACTORY.new_assign_attempt_symbol */
T0* T362f51(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f558(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_assign_symbol */
T0* T362f50(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f557(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_dotdot_symbol */
T0* T362f49(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f556(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_arrow_symbol */
T0* T362f48(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f555(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_left_array_symbol */
T0* T362f47(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T304c85();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T304f79(GE_void(R), t1, t2);
return R;
}
/* ET_SYMBOL.set_position */
void T304f79(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T304*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_AST_FACTORY.new_le_symbol */
T0* T362f46(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1116c68();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1116f58(GE_void(R), t1, t2);
return R;
}
/* ET_SYMBOL_OPERATOR.set_position */
void T1116f58(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1116*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_SYMBOL_OPERATOR.make_le */
T0* T1116c68(void)
{
T0* C;
T0* t1;
C = GE_new1116(EIF_TRUE);
t1 = (T1116f7(C));
((T1116*)(C))->a1 = ((T2)('O'));
T1116f69(C);
return C;
}
/* ET_SYMBOL_OPERATOR.make_leaf */
void T1116f69(T0* C)
{
((T1116*)(C))->a2 = (T6)(GE_int32(0));
}
/* ET_AST_FACTORY.new_right_array_symbol */
T0* T362f45(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f554(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_ge_symbol */
T0* T362f44(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1116c67();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1116f58(GE_void(R), t1, t2);
return R;
}
/* ET_SYMBOL_OPERATOR.make_ge */
T0* T1116c67(void)
{
T0* C;
T0* t1;
C = GE_new1116(EIF_TRUE);
t1 = (T1116f7(C));
((T1116*)(C))->a1 = ((T2)('M'));
T1116f69(C);
return C;
}
/* ET_AST_FACTORY.new_mod_symbol */
T0* T362f43(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1116c66();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1116f58(GE_void(R), t1, t2);
return R;
}
/* ET_SYMBOL_OPERATOR.make_mod */
T0* T1116c66(void)
{
T0* C;
T0* t1;
C = GE_new1116(EIF_TRUE);
t1 = (T1116f7(C));
((T1116*)(C))->a1 = ((T2)('R'));
T1116f69(C);
return C;
}
/* ET_AST_FACTORY.new_not_tilde_symbol */
T0* T362f42(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T304c84();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T304f79(GE_void(R), t1, t2);
return R;
}
/* ET_SYMBOL.make_not_tilde */
T0* T304c84(void)
{
T0* C;
T0* t1;
C = GE_new304(EIF_TRUE);
t1 = (T304f3(C));
((T304*)(C))->a1 = ((T2)('t'));
T304f75(C);
return C;
}
/* ET_AST_FACTORY.new_not_equal_symbol */
T0* T362f41(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T304c83();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T304f79(GE_void(R), t1, t2);
return R;
}
/* ET_SYMBOL.make_not_equal */
T0* T304c83(void)
{
T0* C;
T0* t1;
C = GE_new304(EIF_TRUE);
t1 = (T304f3(C));
((T304*)(C))->a1 = ((T2)('s'));
T304f75(C);
return C;
}
/* ET_AST_FACTORY.new_div_symbol */
T0* T362f40(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1116c65();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1116f58(GE_void(R), t1, t2);
return R;
}
/* ET_SYMBOL_OPERATOR.make_div */
T0* T1116c65(void)
{
T0* C;
T0* t1;
C = GE_new1116(EIF_TRUE);
t1 = (T1116f7(C));
((T1116*)(C))->a1 = ((T2)('K'));
T1116f69(C);
return C;
}
/* ET_EIFFEL_PARSER.text_count */
T6 T399f680(T0* C)
{
T6 R = 0;
R = ((T6)((((T399*)(C))->a42)-(((T399*)(C))->a43)));
return R;
}
/* ET_EIFFEL_PARSER.yy_set_line_column */
void T399f1037(T0* C)
{
T1 t1;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
T6 l4 = 0;
T1 l5 = 0;
T2 l6 = 0;
T0* l7 = 0;
l7 = ((T399*)(C))->a53;
l1 = ((T6)((((T399*)(C))->a42)-((T6)(GE_int32(1)))));
l2 = ((T6)((((T399*)(C))->a43)+(((T399*)(C))->a77)));
while (1) {
t1 = ((T1)((l1)<(l2)));
if (!(t1)) {
t1 = (l5);
}
if (t1) {
break;
}
t1 = ((l7)!=(EIF_VOID));
if (t1) {
l6 = (((T15*)(GE_void(l7)))->z2[l1]);
} else {
l6 = (T842f3(GE_void(((T399*)(C))->a52), l1));
}
t1 = (((((l6) == ((T2)('\n'))))));
if (t1) {
l3 = ((T6)((l3)+((T6)(GE_int32(1)))));
l5 = EIF_TRUE;
} else {
l4 = ((T6)((l4)+((T6)(GE_int32(1)))));
}
l1 = ((T6)((l1)-((T6)(GE_int32(1)))));
}
while (1) {
t1 = ((T1)((l1)<(l2)));
if (t1) {
break;
}
t1 = ((l7)!=(EIF_VOID));
if (t1) {
l6 = (((T15*)(GE_void(l7)))->z2[l1]);
} else {
l6 = (T842f3(GE_void(((T399*)(C))->a52), l1));
}
t1 = (((((l6) == ((T2)('\n'))))));
if (t1) {
l3 = ((T6)((l3)+((T6)(GE_int32(1)))));
}
l1 = ((T6)((l1)-((T6)(GE_int32(1)))));
}
if (l5) {
((T399*)(C))->a35 = ((T6)((((T399*)(C))->a35)+(l3)));
((T399*)(C))->a36 = ((T6)((l4)+((T6)(GE_int32(1)))));
} else {
((T399*)(C))->a36 = ((T6)((((T399*)(C))->a36)+(l4)));
}
}
/* ET_EIFFEL_PARSER.process_one_char_symbol */
void T399f1036(T0* C, T2 a1)
{
T0* t1;
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T6)(GE_int32(1));
switch (a1) {
case (T2)(T2)('-'):
((T399*)(C))->a67 = (T6)(GE_int32(45));
t1 = (T399f682(C));
((T399*)(C))->a287 = (T362f18(GE_void(t1), C));
break;
case (T2)(T2)('+'):
((T399*)(C))->a67 = (T6)(GE_int32(43));
t1 = (T399f682(C));
((T399*)(C))->a287 = (T362f19(GE_void(t1), C));
break;
case (T2)(T2)('*'):
((T399*)(C))->a67 = (T6)(GE_int32(42));
t1 = (T399f682(C));
((T399*)(C))->a287 = (T362f20(GE_void(t1), C));
break;
case (T2)(T2)('/'):
((T399*)(C))->a67 = (T6)(GE_int32(47));
t1 = (T399f682(C));
((T399*)(C))->a287 = (T362f21(GE_void(t1), C));
break;
case (T2)(T2)('^'):
((T399*)(C))->a67 = (T6)(GE_int32(94));
t1 = (T399f682(C));
((T399*)(C))->a287 = (T362f22(GE_void(t1), C));
break;
case (T2)(T2)('='):
((T399*)(C))->a67 = (T6)(GE_int32(61));
t1 = (T399f682(C));
((T399*)(C))->a227 = (T362f23(GE_void(t1), C));
break;
case (T2)(T2)('>'):
((T399*)(C))->a67 = (T6)(GE_int32(62));
t1 = (T399f682(C));
((T399*)(C))->a287 = (T362f24(GE_void(t1), C));
break;
case (T2)(T2)('<'):
((T399*)(C))->a67 = (T6)(GE_int32(60));
t1 = (T399f682(C));
((T399*)(C))->a287 = (T362f25(GE_void(t1), C));
break;
case (T2)(T2)('.'):
((T399*)(C))->a67 = (T6)(GE_int32(46));
t1 = (T399f682(C));
((T399*)(C))->a227 = (T362f26(GE_void(t1), C));
break;
case (T2)(T2)(';'):
((T399*)(C))->a67 = (T6)(GE_int32(59));
t1 = (T399f682(C));
((T399*)(C))->a295 = (T362f27(GE_void(t1), C));
break;
case (T2)(T2)(','):
((T399*)(C))->a67 = (T6)(GE_int32(44));
t1 = (T399f682(C));
((T399*)(C))->a227 = (T362f28(GE_void(t1), C));
break;
case (T2)(T2)(':'):
((T399*)(C))->a67 = (T6)(GE_int32(58));
t1 = (T399f682(C));
((T399*)(C))->a227 = (T362f29(GE_void(t1), C));
break;
case (T2)(T2)('!'):
((T399*)(C))->a67 = (T6)(GE_int32(33));
t1 = (T399f682(C));
((T399*)(C))->a227 = (T362f30(GE_void(t1), C));
break;
case (T2)(T2)('?'):
((T399*)(C))->a67 = (T6)(GE_int32(63));
t1 = (T399f682(C));
((T399*)(C))->a303 = (T362f31(GE_void(t1), C));
break;
case (T2)(T2)('('):
((T399*)(C))->a67 = (T6)(GE_int32(40));
t1 = (T399f682(C));
((T399*)(C))->a227 = (T362f32(GE_void(t1), C));
break;
case (T2)(T2)(')'):
((T399*)(C))->a67 = (T6)(GE_int32(41));
t1 = (T399f682(C));
((T399*)(C))->a227 = (T362f33(GE_void(t1), C));
break;
case (T2)(T2)('{'):
((T399*)(C))->a67 = (T6)(GE_int32(123));
t1 = (T399f682(C));
((T399*)(C))->a227 = (T362f34(GE_void(t1), C));
break;
case (T2)(T2)('}'):
((T399*)(C))->a67 = (T6)(GE_int32(125));
t1 = (T399f682(C));
((T399*)(C))->a227 = (T362f35(GE_void(t1), C));
break;
case (T2)(T2)('['):
((T399*)(C))->a67 = (T6)(GE_int32(91));
t1 = (T399f682(C));
((T399*)(C))->a299 = (T362f36(GE_void(t1), C));
break;
case (T2)(T2)(']'):
((T399*)(C))->a67 = (T6)(GE_int32(93));
t1 = (T399f682(C));
((T399*)(C))->a227 = (T362f37(GE_void(t1), C));
break;
case (T2)(T2)('$'):
((T399*)(C))->a67 = (T6)(GE_int32(36));
t1 = (T399f682(C));
((T399*)(C))->a227 = (T362f38(GE_void(t1), C));
break;
case (T2)(T2)('~'):
((T399*)(C))->a67 = (T6)(GE_int32(126));
t1 = (T399f682(C));
((T399*)(C))->a227 = (T362f39(GE_void(t1), C));
break;
default:
((T399*)(C))->a67 = (T6)(GE_int32(323));
((T399*)(C))->a231 = (T399f671(C));
break;
}
}
/* ET_AST_FACTORY.new_tilde_symbol */
T0* T362f39(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T304c82();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T304f79(GE_void(R), t1, t2);
return R;
}
/* ET_SYMBOL.make_tilde */
T0* T304c82(void)
{
T0* C;
T0* t1;
C = GE_new304(EIF_TRUE);
t1 = (T304f3(C));
((T304*)(C))->a1 = ((T2)('{'));
T304f75(C);
return C;
}
/* ET_AST_FACTORY.new_dollar_symbol */
T0* T362f38(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T304c81();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T304f79(GE_void(R), t1, t2);
return R;
}
/* ET_AST_FACTORY.new_right_bracket_symbol */
T0* T362f37(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f202(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_left_bracket_symbol */
T0* T362f36(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T622c101();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T622f103(GE_void(R), t1, t2);
return R;
}
/* ET_BRACKET_SYMBOL.set_position */
void T622f103(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T622*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_AST_FACTORY.new_right_brace_symbol */
T0* T362f35(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f545(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_left_brace_symbol */
T0* T362f34(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f544(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_right_parenthesis_symbol */
T0* T362f33(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f206(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_left_parenthesis_symbol */
T0* T362f32(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f205(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_question_mark_symbol */
T0* T362f31(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1127c71();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1127f72(GE_void(R), t1, t2);
return R;
}
/* ET_QUESTION_MARK_SYMBOL.set_position */
void T1127f72(T0* C, T6 a1, T6 a2)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
t1 = (T6f1(&a1, (T6)(GE_int32(8388607))));
if (t1) {
l1 = (T6)(GE_int32(0));
} else {
l1 = a1;
}
t1 = (T6f1(&a2, (T6)(GE_int32(255))));
if (t1) {
l2 = (T6)(GE_int32(0));
} else {
l2 = a2;
}
t2 = (T6)(GE_int32(256));
t2 = ((T6)((t2)*(l1)));
((T1127*)(C))->a2 = ((T6)((t2)+(l2)));
}
/* ET_AST_FACTORY.new_bang_symbol */
T0* T362f30(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T304c80();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T304f79(GE_void(R), t1, t2);
return R;
}
/* ET_AST_FACTORY.new_colon_symbol */
T0* T362f29(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f553(GE_void(t1)));
return R;
}
/* ET_AST_FACTORY.new_comma_symbol */
T0* T362f28(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f552(GE_void(t1)));
return R;
}
/* ET_TOKEN_CONSTANTS.comma_symbol */
unsigned char ge808os10930 = '\0';
T0* ge808ov10930;
T0* T74f552(T0* C)
{
T0* R = 0;
if (ge808os10930) {
return ge808ov10930;
} else {
ge808os10930 = '\1';
ge808ov10930 = R;
}
R = T304c87();
ge808ov10930 = R;
return R;
}
/* ET_SYMBOL.make_comma */
T0* T304c87(void)
{
T0* C;
T0* t1;
C = GE_new304(EIF_TRUE);
t1 = (T304f3(C));
((T304*)(C))->a1 = ((T2)('j'));
T304f75(C);
return C;
}
/* ET_AST_FACTORY.new_semicolon_symbol */
T0* T362f27(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f551(GE_void(t1)));
return R;
}
/* ET_TOKEN_CONSTANTS.semicolon_symbol */
T0* T74f551(T0* C)
{
T0* R = 0;
R = T1122c4();
return R;
}
/* ET_SEMICOLON_SYMBOL.make */
T0* T1122c4(void)
{
T0* C;
T0* t1;
C = GE_new1122(EIF_TRUE);
t1 = (T1122f3(C));
((T1122*)(C))->a1 = ((T2)('z'));
T1122f5(C);
return C;
}
/* ET_SEMICOLON_SYMBOL.make_leaf */
void T1122f5(T0* C)
{
((T1122*)(C))->a2 = (T6)(GE_int32(0));
}
/* ET_SEMICOLON_SYMBOL.tokens */
T0* T1122f3(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_AST_FACTORY.new_dot_symbol */
T0* T362f26(T0* C, T0* a1)
{
T0* t1;
T0* R = 0;
t1 = (T362f353(C));
R = (T74f550(GE_void(t1)));
return R;
}
/* ET_TOKEN_CONSTANTS.dot_symbol */
unsigned char ge808os10932 = '\0';
T0* ge808ov10932;
T0* T74f550(T0* C)
{
T0* R = 0;
if (ge808os10932) {
return ge808ov10932;
} else {
ge808os10932 = '\1';
ge808ov10932 = R;
}
R = T304c86();
ge808ov10932 = R;
return R;
}
/* ET_SYMBOL.make_dot */
T0* T304c86(void)
{
T0* C;
T0* t1;
C = GE_new304(EIF_TRUE);
t1 = (T304f3(C));
((T304*)(C))->a1 = ((T2)('l'));
T304f75(C);
return C;
}
/* ET_AST_FACTORY.new_lt_symbol */
T0* T362f25(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1116c64();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1116f58(GE_void(R), t1, t2);
return R;
}
/* ET_SYMBOL_OPERATOR.make_lt */
T0* T1116c64(void)
{
T0* C;
T0* t1;
C = GE_new1116(EIF_TRUE);
t1 = (T1116f7(C));
((T1116*)(C))->a1 = ((T2)('P'));
T1116f69(C);
return C;
}
/* ET_AST_FACTORY.new_gt_symbol */
T0* T362f24(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1116c63();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1116f58(GE_void(R), t1, t2);
return R;
}
/* ET_SYMBOL_OPERATOR.make_gt */
T0* T1116c63(void)
{
T0* C;
T0* t1;
C = GE_new1116(EIF_TRUE);
t1 = (T1116f7(C));
((T1116*)(C))->a1 = ((T2)('N'));
T1116f69(C);
return C;
}
/* ET_AST_FACTORY.new_equal_symbol */
T0* T362f23(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T304c78();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T304f79(GE_void(R), t1, t2);
return R;
}
/* ET_SYMBOL.make_equal */
T0* T304c78(void)
{
T0* C;
T0* t1;
C = GE_new304(EIF_TRUE);
t1 = (T304f3(C));
((T304*)(C))->a1 = ((T2)('n'));
T304f75(C);
return C;
}
/* ET_AST_FACTORY.new_power_symbol */
T0* T362f22(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1116c62();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1116f58(GE_void(R), t1, t2);
return R;
}
/* ET_SYMBOL_OPERATOR.make_power */
T0* T1116c62(void)
{
T0* C;
T0* t1;
C = GE_new1116(EIF_TRUE);
t1 = (T1116f7(C));
((T1116*)(C))->a1 = ((T2)('T'));
T1116f69(C);
return C;
}
/* ET_AST_FACTORY.new_divide_symbol */
T0* T362f21(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1116c61();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1116f58(GE_void(R), t1, t2);
return R;
}
/* ET_SYMBOL_OPERATOR.make_divide */
T0* T1116c61(void)
{
T0* C;
T0* t1;
C = GE_new1116(EIF_TRUE);
t1 = (T1116f7(C));
((T1116*)(C))->a1 = ((T2)('L'));
T1116f69(C);
return C;
}
/* ET_AST_FACTORY.new_times_symbol */
T0* T362f20(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1116c60();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1116f58(GE_void(R), t1, t2);
return R;
}
/* ET_SYMBOL_OPERATOR.make_times */
T0* T1116c60(void)
{
T0* C;
T0* t1;
C = GE_new1116(EIF_TRUE);
t1 = (T1116f7(C));
((T1116*)(C))->a1 = ((T2)('U'));
T1116f69(C);
return C;
}
/* ET_AST_FACTORY.new_plus_symbol */
T0* T362f19(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1116c59();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1116f58(GE_void(R), t1, t2);
return R;
}
/* ET_SYMBOL_OPERATOR.make_plus */
T0* T1116c59(void)
{
T0* C;
T0* t1;
C = GE_new1116(EIF_TRUE);
t1 = (T1116f7(C));
((T1116*)(C))->a1 = ((T2)(']'));
T1116f69(C);
return C;
}
/* ET_AST_FACTORY.new_minus_symbol */
T0* T362f18(T0* C, T0* a1)
{
T6 t1;
T6 t2;
T0* R = 0;
R = T1116c57();
t1 = (((T399*)(a1))->a38);
t2 = (((T399*)(a1))->a39);
T1116f58(GE_void(R), t1, t2);
return R;
}
/* ET_SYMBOL_OPERATOR.make_minus */
T0* T1116c57(void)
{
T0* C;
T0* t1;
C = GE_new1116(EIF_TRUE);
t1 = (T1116f7(C));
((T1116*)(C))->a1 = ((T2)('\\'));
T1116f69(C);
return C;
}
/* ET_EIFFEL_PARSER.text_item */
T2 T399f679(T0* C, T6 a1)
{
T1 t1;
T6 t2;
T2 R = 0;
T0* l1 = 0;
l1 = ((T399*)(C))->a53;
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t2 = ((T6)((((T399*)(C))->a43)+(a1)));
t2 = ((T6)((t2)-((T6)(GE_int32(1)))));
R = (((T15*)(GE_void(l1)))->z2[t2]);
} else {
t2 = ((T6)((((T399*)(C))->a43)+(a1)));
t2 = ((T6)((t2)-((T6)(GE_int32(1)))));
R = (T842f3(GE_void(((T399*)(C))->a52), t2));
}
return R;
}
/* ET_EIFFEL_PARSER.yy_execute_eof_action */
void T399f1013(T0* C, T6 a1)
{
T0* t1;
T0* t2;
switch (a1) {
case (T6)(T6)(GE_int32(0)):
T399f1032(C);
break;
case (T6)(T6)(GE_int32(1)):
((T399*)(C))->a308 = (T6)(GE_int32(0));
((T399*)(C))->a309 = (T6)(GE_int32(0));
T399f1033(C);
T399f1034(C, (T6)(GE_int32(0)));
break;
case (T6)(T6)(GE_int32(2)):
((T399*)(C))->a39 = ((T399*)(C))->a36;
((T399*)(C))->a38 = ((T399*)(C))->a35;
T399f1035(C);
t1 = (T399f895(C));
t2 = (T399f671(C));
if (((T0*)(GE_void(t1)))->id==70) {
T70f207(t1, ((T399*)(C))->a20, t2);
} else {
T29f206(t1, ((T399*)(C))->a20, t2);
}
((T399*)(C))->a231 = (T399f671(C));
((T399*)(C))->a39 = ((T399*)(C))->a310;
((T399*)(C))->a38 = ((T399*)(C))->a311;
((T399*)(C))->a67 = (T6)(GE_int32(371));
T399f1034(C, (T6)(GE_int32(0)));
break;
case (T6)(T6)(GE_int32(3)):
((T399*)(C))->a39 = ((T399*)(C))->a36;
((T399*)(C))->a38 = ((T399*)(C))->a35;
T399f1035(C);
t1 = (T399f895(C));
t2 = (T399f671(C));
if (((T0*)(GE_void(t1)))->id==70) {
T70f208(t1, ((T399*)(C))->a20, t2);
} else {
T29f207(t1, ((T399*)(C))->a20, t2);
}
((T399*)(C))->a231 = (T399f671(C));
((T399*)(C))->a39 = ((T399*)(C))->a310;
((T399*)(C))->a38 = ((T399*)(C))->a311;
((T399*)(C))->a67 = (T6)(GE_int32(371));
T399f1034(C, (T6)(GE_int32(0)));
break;
case (T6)(T6)(GE_int32(4)):
((T399*)(C))->a67 = (T6)(GE_int32(371));
((T399*)(C))->a231 = (T399f671(C));
t1 = (T399f671(C));
T399f1031(C, t1);
T399f1034(C, (T6)(GE_int32(0)));
break;
case (T6)(T6)(GE_int32(5)):
((T399*)(C))->a67 = (T6)(GE_int32(371));
((T399*)(C))->a231 = (T399f671(C));
t1 = (T399f671(C));
T399f1031(C, t1);
T399f1034(C, (T6)(GE_int32(0)));
break;
case (T6)(T6)(GE_int32(6)):
((T399*)(C))->a67 = (T6)(GE_int32(371));
((T399*)(C))->a231 = (T399f671(C));
t1 = (T399f671(C));
T399f1031(C, t1);
T399f1034(C, (T6)(GE_int32(0)));
break;
case (T6)(T6)(GE_int32(7)):
((T399*)(C))->a67 = (T6)(GE_int32(371));
((T399*)(C))->a231 = (T399f671(C));
t1 = (T399f671(C));
T399f1031(C, t1);
T399f1034(C, (T6)(GE_int32(0)));
break;
case (T6)(T6)(GE_int32(8)):
((T399*)(C))->a67 = (T6)(GE_int32(371));
((T399*)(C))->a231 = (T399f671(C));
t1 = (T399f671(C));
T399f1031(C, t1);
T399f1034(C, (T6)(GE_int32(0)));
break;
case (T6)(T6)(GE_int32(9)):
((T399*)(C))->a67 = (T6)(GE_int32(371));
((T399*)(C))->a231 = (T399f671(C));
t1 = (T399f671(C));
T399f1031(C, t1);
T399f1034(C, (T6)(GE_int32(0)));
break;
default:
T399f1032(C);
break;
}
}
/* ET_ERROR_HANDLER.report_sseq_error */
void T29f206(T0* C, T0* a1, T0* a2)
{
T29f222(C, a1, a2);
}
/* ET_NULL_ERROR_HANDLER.report_sseq_error */
void T70f207(T0* C, T0* a1, T0* a2)
{
T70f223(C, a1, a2);
}
/* ET_EIFFEL_PARSER.terminate */
void T399f1032(T0* C)
{
((T399*)(C))->a67 = (T6)(GE_int32(0));
}
/* ET_EIFFEL_PARSER.wrap */
T1 T399f653(T0* C)
{
T1 R = 0;
R = EIF_TRUE;
return R;
}
/* ET_EIFFEL_PARSER.yy_refill_input_buffer */
void T399f1012(T0* C)
{
T0* t1;
T6 t2;
T6 l1 = 0;
if (((T0*)(GE_void(((T399*)(C))->a23)))->id==167) {
T167f13(((T399*)(C))->a23, ((T399*)(C))->a43);
} else {
T166f18(((T399*)(C))->a23, ((T399*)(C))->a43);
}
if (((T0*)(GE_void(((T399*)(C))->a23)))->id==167) {
T167f15(((T399*)(C))->a23);
} else {
T166f20(((T399*)(C))->a23);
}
t1 = (((((T0*)(GE_void(((T399*)(C))->a23)))->id==167)?((T167*)(((T399*)(C))->a23))->a1:((T166*)(((T399*)(C))->a23))->a1));
T399f956(C, t1);
l1 = (((((T0*)(GE_void(((T399*)(C))->a23)))->id==167)?((T167*)(((T399*)(C))->a23))->a2:((T166*)(((T399*)(C))->a23))->a2));
t2 = ((T6)((((T399*)(C))->a42)-(((T399*)(C))->a43)));
((T399*)(C))->a42 = ((T6)((t2)+(l1)));
((T399*)(C))->a43 = l1;
}
/* ET_EIFFEL_PARSER.yy_set_content */
void T399f956(T0* C, T0* a1)
{
T6 t1;
T1 t2;
T0* t3;
T6 l1 = 0;
((T399*)(C))->a52 = a1;
((T399*)(C))->a53 = (((T842*)(GE_void(a1)))->a1);
if (EIF_TRUE) {
t1 = (T842f4(GE_void(a1)));
l1 = ((T6)((t1)+((T6)(GE_int32(1)))));
t1 = (((T132*)(GE_void(((T399*)(C))->a41)))->a2);
t2 = ((T1)((t1)<(l1)));
if (t2) {
t3 = (T399f634(C));
((T399*)(C))->a41 = (T134f3(GE_void(t3), ((T399*)(C))->a41, l1));
}
}
}
/* ET_EIFFEL_PARSER.yy_null_trans_state */
T6 T399f652(T0* C, T6 a1)
{
T1 t1;
T6 t2;
T0* t3;
T6 R = 0;
T6 l1 = 0;
T1 l2 = 0;
t1 = EIF_TRUE;
t1 = ((T1)(!(t1)));
if (t1) {
t2 = (((T132*)(GE_void(((T399*)(C))->a50)))->z2[a1]);
t1 = (((((t2) != ((T6)(GE_int32(0)))))));
if (t1) {
((T399*)(C))->a78 = a1;
((T399*)(C))->a79 = ((T399*)(C))->a42;
}
}
R = a1;
l1 = (T6)(GE_int32(1));
while (1) {
t2 = (((T132*)(GE_void(((T399*)(C))->a46)))->z2[R]);
t2 = ((T6)((t2)+(l1)));
t2 = (((T132*)(GE_void(((T399*)(C))->a45)))->z2[t2]);
t1 = (((((t2) == (R)))));
if (t1) {
break;
}
R = (((T132*)(GE_void(((T399*)(C))->a47)))->z2[R]);
t1 = ((((T399*)(C))->a49)!=(EIF_VOID));
if (t1) {
t1 = (T6f12((&R), (T6)(GE_int32(424))));
}
if (t1) {
l1 = (((T132*)(GE_void(((T399*)(C))->a49)))->z2[l1]);
}
}
t2 = (((T132*)(GE_void(((T399*)(C))->a46)))->z2[R]);
t2 = ((T6)((t2)+(l1)));
R = (((T132*)(GE_void(((T399*)(C))->a44)))->z2[t2]);
if (EIF_TRUE) {
t3 = (T399f634(C));
T134f7(GE_void(t3), ((T399*)(C))->a41, R, ((T399*)(C))->a81);
((T399*)(C))->a81 = ((T6)((((T399*)(C))->a81)+((T6)(GE_int32(1)))));
}
l2 = (((((R) == ((T6)(GE_int32(423)))))));
if (l2) {
R = (T6)(GE_int32(0));
}
return R;
}
/* ET_EIFFEL_PARSER.yy_previous_state */
T6 T399f651(T0* C)
{
T1 t1;
T0* t2;
T2 t3;
T6 t4;
T6 R = 0;
T6 l1 = 0;
T6 l2 = 0;
T6 l3 = 0;
T0* l4 = 0;
t1 = (((((T0*)(GE_void(((T399*)(C))->a23)))->id==167)?((T167*)(((T399*)(C))->a23))->a6:((T166*)(((T399*)(C))->a23))->a6));
if (t1) {
R = ((T6)((((T399*)(C))->a34)+((T6)(GE_int32(1)))));
} else {
R = ((T399*)(C))->a34;
}
if (EIF_TRUE) {
t2 = (T399f634(C));
T134f7(GE_void(t2), ((T399*)(C))->a41, R, (T6)(GE_int32(0)));
((T399*)(C))->a81 = (T6)(GE_int32(1));
}
l4 = ((T399*)(C))->a53;
l1 = ((T6)((((T399*)(C))->a43)+(((T399*)(C))->a77)));
l2 = ((T399*)(C))->a42;
while (1) {
t1 = (T6f12((&l1), l2));
if (t1) {
break;
}
t1 = ((l4)!=(EIF_VOID));
if (t1) {
t3 = (((T15*)(GE_void(l4)))->z2[l1]);
l3 = ((T6)(t3));
} else {
t3 = (T842f3(GE_void(((T399*)(C))->a52), l1));
l3 = ((T6)(t3));
}
t1 = (((((l3) == ((T6)(GE_int32(0)))))));
if (t1) {
l3 = (T6)(GE_int32(1));
} else {
t1 = ((((T399*)(C))->a48)!=(EIF_VOID));
if (t1) {
l3 = (((T132*)(GE_void(((T399*)(C))->a48)))->z2[l3]);
}
}
t1 = EIF_TRUE;
t1 = ((T1)(!(t1)));
if (t1) {
t4 = (((T132*)(GE_void(((T399*)(C))->a50)))->z2[R]);
t1 = (((((t4) != ((T6)(GE_int32(0)))))));
if (t1) {
((T399*)(C))->a78 = R;
((T399*)(C))->a79 = l1;
}
}
while (1) {
t4 = (((T132*)(GE_void(((T399*)(C))->a46)))->z2[R]);
t4 = ((T6)((t4)+(l3)));
t4 = (((T132*)(GE_void(((T399*)(C))->a45)))->z2[t4]);
t1 = (((((t4) == (R)))));
if (t1) {
break;
}
R = (((T132*)(GE_void(((T399*)(C))->a47)))->z2[R]);
t1 = ((((T399*)(C))->a49)!=(EIF_VOID));
if (t1) {
t1 = (T6f12((&R), (T6)(GE_int32(424))));
}
if (t1) {
l3 = (((T132*)(GE_void(((T399*)(C))->a49)))->z2[l3]);
}
}
t4 = (((T132*)(GE_void(((T399*)(C))->a46)))->z2[R]);
t4 = ((T6)((t4)+(l3)));
R = (((T132*)(GE_void(((T399*)(C))->a44)))->z2[t4]);
if (EIF_TRUE) {
t2 = (T399f634(C));
T134f7(GE_void(t2), ((T399*)(C))->a41, R, ((T399*)(C))->a81);
((T399*)(C))->a81 = ((T6)((((T399*)(C))->a81)+((T6)(GE_int32(1)))));
}
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
return R;
}
/* ET_EIFFEL_PARSER.fatal_error */
void T399f1011(T0* C, T0* a1)
{
T0* t1;
t1 = (T399f671(C));
T399f1031(C, t1);
}
/* ET_EIFFEL_PARSER.special_integer_ */
T0* T399f634(T0* C)
{
T0* R = 0;
if (ge232os5405) {
return ge232ov5405;
} else {
ge232os5405 = '\1';
ge232ov5405 = R;
}
R = T134c6();
ge232ov5405 = R;
return R;
}
/* ET_EIFFEL_PARSER.yy_init_value_stacks */
void T399f997(T0* C)
{
((T399*)(C))->a87 = (T6)(GE_int32(-1));
((T399*)(C))->a88 = (T6)(GE_int32(-1));
((T399*)(C))->a89 = (T6)(GE_int32(-1));
((T399*)(C))->a90 = (T6)(GE_int32(-1));
((T399*)(C))->a91 = (T6)(GE_int32(-1));
((T399*)(C))->a92 = (T6)(GE_int32(-1));
((T399*)(C))->a93 = (T6)(GE_int32(-1));
((T399*)(C))->a94 = (T6)(GE_int32(-1));
((T399*)(C))->a95 = (T6)(GE_int32(-1));
((T399*)(C))->a96 = (T6)(GE_int32(-1));
((T399*)(C))->a97 = (T6)(GE_int32(-1));
((T399*)(C))->a98 = (T6)(GE_int32(-1));
((T399*)(C))->a99 = (T6)(GE_int32(-1));
((T399*)(C))->a100 = (T6)(GE_int32(-1));
((T399*)(C))->a101 = (T6)(GE_int32(-1));
((T399*)(C))->a102 = (T6)(GE_int32(-1));
((T399*)(C))->a103 = (T6)(GE_int32(-1));
((T399*)(C))->a104 = (T6)(GE_int32(-1));
((T399*)(C))->a105 = (T6)(GE_int32(-1));
((T399*)(C))->a106 = (T6)(GE_int32(-1));
((T399*)(C))->a107 = (T6)(GE_int32(-1));
((T399*)(C))->a108 = (T6)(GE_int32(-1));
((T399*)(C))->a109 = (T6)(GE_int32(-1));
((T399*)(C))->a110 = (T6)(GE_int32(-1));
((T399*)(C))->a111 = (T6)(GE_int32(-1));
((T399*)(C))->a112 = (T6)(GE_int32(-1));
((T399*)(C))->a113 = (T6)(GE_int32(-1));
((T399*)(C))->a114 = (T6)(GE_int32(-1));
((T399*)(C))->a115 = (T6)(GE_int32(-1));
((T399*)(C))->a116 = (T6)(GE_int32(-1));
((T399*)(C))->a117 = (T6)(GE_int32(-1));
((T399*)(C))->a118 = (T6)(GE_int32(-1));
((T399*)(C))->a119 = (T6)(GE_int32(-1));
((T399*)(C))->a120 = (T6)(GE_int32(-1));
((T399*)(C))->a121 = (T6)(GE_int32(-1));
((T399*)(C))->a122 = (T6)(GE_int32(-1));
((T399*)(C))->a123 = (T6)(GE_int32(-1));
((T399*)(C))->a124 = (T6)(GE_int32(-1));
((T399*)(C))->a125 = (T6)(GE_int32(-1));
((T399*)(C))->a126 = (T6)(GE_int32(-1));
((T399*)(C))->a127 = (T6)(GE_int32(-1));
((T399*)(C))->a128 = (T6)(GE_int32(-1));
((T399*)(C))->a129 = (T6)(GE_int32(-1));
((T399*)(C))->a130 = (T6)(GE_int32(-1));
((T399*)(C))->a131 = (T6)(GE_int32(-1));
((T399*)(C))->a132 = (T6)(GE_int32(-1));
((T399*)(C))->a133 = (T6)(GE_int32(-1));
((T399*)(C))->a134 = (T6)(GE_int32(-1));
((T399*)(C))->a135 = (T6)(GE_int32(-1));
((T399*)(C))->a136 = (T6)(GE_int32(-1));
((T399*)(C))->a137 = (T6)(GE_int32(-1));
((T399*)(C))->a138 = (T6)(GE_int32(-1));
((T399*)(C))->a139 = (T6)(GE_int32(-1));
((T399*)(C))->a140 = (T6)(GE_int32(-1));
((T399*)(C))->a141 = (T6)(GE_int32(-1));
((T399*)(C))->a142 = (T6)(GE_int32(-1));
((T399*)(C))->a143 = (T6)(GE_int32(-1));
((T399*)(C))->a144 = (T6)(GE_int32(-1));
((T399*)(C))->a145 = (T6)(GE_int32(-1));
((T399*)(C))->a146 = (T6)(GE_int32(-1));
((T399*)(C))->a147 = (T6)(GE_int32(-1));
((T399*)(C))->a148 = (T6)(GE_int32(-1));
((T399*)(C))->a149 = (T6)(GE_int32(-1));
((T399*)(C))->a150 = (T6)(GE_int32(-1));
((T399*)(C))->a151 = (T6)(GE_int32(-1));
((T399*)(C))->a152 = (T6)(GE_int32(-1));
((T399*)(C))->a153 = (T6)(GE_int32(-1));
((T399*)(C))->a154 = (T6)(GE_int32(-1));
((T399*)(C))->a155 = (T6)(GE_int32(-1));
((T399*)(C))->a156 = (T6)(GE_int32(-1));
((T399*)(C))->a157 = (T6)(GE_int32(-1));
((T399*)(C))->a158 = (T6)(GE_int32(-1));
((T399*)(C))->a159 = (T6)(GE_int32(-1));
((T399*)(C))->a160 = (T6)(GE_int32(-1));
((T399*)(C))->a161 = (T6)(GE_int32(-1));
((T399*)(C))->a162 = (T6)(GE_int32(-1));
((T399*)(C))->a163 = (T6)(GE_int32(-1));
((T399*)(C))->a164 = (T6)(GE_int32(-1));
((T399*)(C))->a165 = (T6)(GE_int32(-1));
((T399*)(C))->a166 = (T6)(GE_int32(-1));
((T399*)(C))->a167 = (T6)(GE_int32(-1));
((T399*)(C))->a168 = (T6)(GE_int32(-1));
((T399*)(C))->a169 = (T6)(GE_int32(-1));
((T399*)(C))->a170 = (T6)(GE_int32(-1));
((T399*)(C))->a171 = (T6)(GE_int32(-1));
((T399*)(C))->a172 = (T6)(GE_int32(-1));
((T399*)(C))->a173 = (T6)(GE_int32(-1));
((T399*)(C))->a174 = (T6)(GE_int32(-1));
((T399*)(C))->a175 = (T6)(GE_int32(-1));
((T399*)(C))->a176 = (T6)(GE_int32(-1));
((T399*)(C))->a177 = (T6)(GE_int32(-1));
((T399*)(C))->a178 = (T6)(GE_int32(-1));
((T399*)(C))->a179 = (T6)(GE_int32(-1));
((T399*)(C))->a180 = (T6)(GE_int32(-1));
((T399*)(C))->a181 = (T6)(GE_int32(-1));
((T399*)(C))->a182 = (T6)(GE_int32(-1));
((T399*)(C))->a183 = (T6)(GE_int32(-1));
((T399*)(C))->a184 = (T6)(GE_int32(-1));
((T399*)(C))->a185 = (T6)(GE_int32(-1));
((T399*)(C))->a186 = (T6)(GE_int32(-1));
((T399*)(C))->a187 = (T6)(GE_int32(-1));
((T399*)(C))->a188 = (T6)(GE_int32(-1));
((T399*)(C))->a189 = (T6)(GE_int32(-1));
((T399*)(C))->a190 = (T6)(GE_int32(-1));
((T399*)(C))->a191 = (T6)(GE_int32(-1));
((T399*)(C))->a192 = (T6)(GE_int32(-1));
((T399*)(C))->a193 = (T6)(GE_int32(-1));
((T399*)(C))->a194 = (T6)(GE_int32(-1));
((T399*)(C))->a195 = (T6)(GE_int32(-1));
((T399*)(C))->a196 = (T6)(GE_int32(-1));
((T399*)(C))->a197 = (T6)(GE_int32(-1));
((T399*)(C))->a198 = (T6)(GE_int32(-1));
((T399*)(C))->a199 = (T6)(GE_int32(-1));
((T399*)(C))->a200 = (T6)(GE_int32(-1));
((T399*)(C))->a201 = (T6)(GE_int32(-1));
((T399*)(C))->a202 = (T6)(GE_int32(-1));
((T399*)(C))->a203 = (T6)(GE_int32(-1));
((T399*)(C))->a204 = (T6)(GE_int32(-1));
((T399*)(C))->a205 = (T6)(GE_int32(-1));
((T399*)(C))->a206 = (T6)(GE_int32(-1));
((T399*)(C))->a207 = (T6)(GE_int32(-1));
}
/* ET_EIFFEL_PARSER.yy_clear_all */
void T399f1006(T0* C)
{
T399f1030(C);
}
/* ET_EIFFEL_PARSER.clear_all */
void T399f1030(T0* C)
{
T399f1975(C);
}
/* ET_EIFFEL_PARSER.clear_stacks */
void T399f1975(T0* C)
{
T399f2002(C);
}
/* ET_EIFFEL_PARSER.yy_clear_value_stacks */
void T399f2002(T0* C)
{
T1 t1;
T6 t2;
T0* l1 = 0;
T0* l2 = 0;
T0* l3 = 0;
T0* l4 = 0;
T0* l5 = 0;
T0* l6 = 0;
T0* l7 = 0;
T0* l8 = 0;
T0* l9 = 0;
T0* l10 = 0;
T0* l11 = 0;
T0* l12 = 0;
T0* l13 = 0;
T0* l14 = 0;
T0* l15 = 0;
T0* l16 = 0;
T0* l17 = 0;
T0* l18 = 0;
T0* l19 = 0;
T0* l20 = 0;
T0* l21 = 0;
T0* l22 = 0;
T0* l23 = 0;
T0* l24 = 0;
T0* l25 = 0;
T0* l26 = 0;
T0* l27 = 0;
T0* l28 = 0;
T0* l29 = 0;
T0* l30 = 0;
T0* l31 = 0;
T0* l32 = 0;
T0* l33 = 0;
T0* l34 = 0;
T0* l35 = 0;
T0* l36 = 0;
T0* l37 = 0;
T0* l38 = 0;
T0* l39 = 0;
T0* l40 = 0;
T0* l41 = 0;
T0* l42 = 0;
T0* l43 = 0;
T0* l44 = 0;
T0* l45 = 0;
T0* l46 = 0;
T0* l47 = 0;
T0* l48 = 0;
T0* l49 = 0;
T0* l50 = 0;
T0* l51 = 0;
T0* l52 = 0;
T0* l53 = 0;
T0* l54 = 0;
T0* l55 = 0;
T0* l56 = 0;
T0* l57 = 0;
T0* l58 = 0;
T0* l59 = 0;
T0* l60 = 0;
T0* l61 = 0;
T0* l62 = 0;
T0* l63 = 0;
T0* l64 = 0;
T0* l65 = 0;
T0* l66 = 0;
T0* l67 = 0;
T0* l68 = 0;
T0* l69 = 0;
T0* l70 = 0;
T0* l71 = 0;
T0* l72 = 0;
T0* l73 = 0;
T0* l74 = 0;
T0* l75 = 0;
T0* l76 = 0;
T0* l77 = 0;
T0* l78 = 0;
T0* l79 = 0;
T0* l80 = 0;
T0* l81 = 0;
T0* l82 = 0;
T0* l83 = 0;
T0* l84 = 0;
T0* l85 = 0;
T0* l86 = 0;
T0* l87 = 0;
T0* l88 = 0;
T0* l89 = 0;
T0* l90 = 0;
T0* l91 = 0;
T0* l92 = 0;
T0* l93 = 0;
T0* l94 = 0;
T0* l95 = 0;
T0* l96 = 0;
T0* l97 = 0;
T0* l98 = 0;
T0* l99 = 0;
T0* l100 = 0;
T0* l101 = 0;
T0* l102 = 0;
T0* l103 = 0;
T0* l104 = 0;
T0* l105 = 0;
T0* l106 = 0;
T0* l107 = 0;
T0* l108 = 0;
T0* l109 = 0;
T0* l110 = 0;
T0* l111 = 0;
T0* l112 = 0;
T0* l113 = 0;
T0* l114 = 0;
T0* l115 = 0;
T0* l116 = 0;
T0* l117 = 0;
T0* l118 = 0;
T0* l119 = 0;
T0* l120 = 0;
T0* l121 = 0;
t1 = ((((T399*)(C))->a209)!=(EIF_VOID));
if (t1) {
t2 = (T170f4(GE_void(((T399*)(C))->a209)));
T170f7(GE_void(((T399*)(C))->a209), l1, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a213)!=(EIF_VOID));
if (t1) {
t2 = (T1071f5(GE_void(((T399*)(C))->a213)));
T1071f8(GE_void(((T399*)(C))->a213), l2, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a217)!=(EIF_VOID));
if (t1) {
t2 = (T1074f5(GE_void(((T399*)(C))->a217)));
T1074f8(GE_void(((T399*)(C))->a217), l3, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a221)!=(EIF_VOID));
if (t1) {
t2 = (T1077f5(GE_void(((T399*)(C))->a221)));
T1077f8(GE_void(((T399*)(C))->a221), l4, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a225)!=(EIF_VOID));
if (t1) {
t2 = (T1079f5(GE_void(((T399*)(C))->a225)));
T1079f8(GE_void(((T399*)(C))->a225), l5, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a229)!=(EIF_VOID));
if (t1) {
t2 = (T1081f4(GE_void(((T399*)(C))->a229)));
T1081f7(GE_void(((T399*)(C))->a229), l6, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a233)!=(EIF_VOID));
if (t1) {
t2 = (T1084f5(GE_void(((T399*)(C))->a233)));
T1084f8(GE_void(((T399*)(C))->a233), l7, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a237)!=(EIF_VOID));
if (t1) {
t2 = (T1087f5(GE_void(((T399*)(C))->a237)));
T1087f8(GE_void(((T399*)(C))->a237), l8, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a241)!=(EIF_VOID));
if (t1) {
t2 = (T1090f5(GE_void(((T399*)(C))->a241)));
T1090f8(GE_void(((T399*)(C))->a241), l9, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a245)!=(EIF_VOID));
if (t1) {
t2 = (T1093f5(GE_void(((T399*)(C))->a245)));
T1093f8(GE_void(((T399*)(C))->a245), l10, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a249)!=(EIF_VOID));
if (t1) {
t2 = (T1095f5(GE_void(((T399*)(C))->a249)));
T1095f8(GE_void(((T399*)(C))->a249), l11, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a253)!=(EIF_VOID));
if (t1) {
t2 = (T1098f5(GE_void(((T399*)(C))->a253)));
T1098f8(GE_void(((T399*)(C))->a253), l12, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a257)!=(EIF_VOID));
if (t1) {
t2 = (T172f6(GE_void(((T399*)(C))->a257)));
T172f9(GE_void(((T399*)(C))->a257), l13, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a261)!=(EIF_VOID));
if (t1) {
t2 = (T1101f5(GE_void(((T399*)(C))->a261)));
T1101f8(GE_void(((T399*)(C))->a261), l14, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a265)!=(EIF_VOID));
if (t1) {
t2 = (T1104f5(GE_void(((T399*)(C))->a265)));
T1104f8(GE_void(((T399*)(C))->a265), l15, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a269)!=(EIF_VOID));
if (t1) {
t2 = (T1106f5(GE_void(((T399*)(C))->a269)));
T1106f8(GE_void(((T399*)(C))->a269), l16, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a273)!=(EIF_VOID));
if (t1) {
t2 = (T1109f5(GE_void(((T399*)(C))->a273)));
T1109f8(GE_void(((T399*)(C))->a273), l17, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a277)!=(EIF_VOID));
if (t1) {
t2 = (T1111f5(GE_void(((T399*)(C))->a277)));
T1111f8(GE_void(((T399*)(C))->a277), l18, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a281)!=(EIF_VOID));
if (t1) {
t2 = (T1114f5(GE_void(((T399*)(C))->a281)));
T1114f8(GE_void(((T399*)(C))->a281), l19, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a285)!=(EIF_VOID));
if (t1) {
t2 = (T1117f5(GE_void(((T399*)(C))->a285)));
T1117f8(GE_void(((T399*)(C))->a285), l20, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a289)!=(EIF_VOID));
if (t1) {
t2 = (T1120f5(GE_void(((T399*)(C))->a289)));
T1120f8(GE_void(((T399*)(C))->a289), l21, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a293)!=(EIF_VOID));
if (t1) {
t2 = (T1123f5(GE_void(((T399*)(C))->a293)));
T1123f8(GE_void(((T399*)(C))->a293), l22, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a297)!=(EIF_VOID));
if (t1) {
t2 = (T1125f5(GE_void(((T399*)(C))->a297)));
T1125f8(GE_void(((T399*)(C))->a297), l23, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a301)!=(EIF_VOID));
if (t1) {
t2 = (T1128f5(GE_void(((T399*)(C))->a301)));
T1128f8(GE_void(((T399*)(C))->a301), l24, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a566)!=(EIF_VOID));
if (t1) {
t2 = (T1405f5(GE_void(((T399*)(C))->a566)));
T1405f8(GE_void(((T399*)(C))->a566), l25, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a503)!=(EIF_VOID));
if (t1) {
t2 = (T1339f5(GE_void(((T399*)(C))->a503)));
T1339f8(GE_void(((T399*)(C))->a503), l26, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a509)!=(EIF_VOID));
if (t1) {
t2 = (T1348f5(GE_void(((T399*)(C))->a509)));
T1348f8(GE_void(((T399*)(C))->a509), l27, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a487)!=(EIF_VOID));
if (t1) {
t2 = (T624f5(GE_void(((T399*)(C))->a487)));
T624f8(GE_void(((T399*)(C))->a487), l28, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a366)!=(EIF_VOID));
if (t1) {
t2 = (T1211f5(GE_void(((T399*)(C))->a366)));
T1211f8(GE_void(((T399*)(C))->a366), l29, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a598)!=(EIF_VOID));
if (t1) {
t2 = (T1438f5(GE_void(((T399*)(C))->a598)));
T1438f8(GE_void(((T399*)(C))->a598), l30, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a599)!=(EIF_VOID));
if (t1) {
t2 = (T1440f5(GE_void(((T399*)(C))->a599)));
T1440f8(GE_void(((T399*)(C))->a599), l31, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a588)!=(EIF_VOID));
if (t1) {
t2 = (T1426f5(GE_void(((T399*)(C))->a588)));
T1426f8(GE_void(((T399*)(C))->a588), l32, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a591)!=(EIF_VOID));
if (t1) {
t2 = (T1428f5(GE_void(((T399*)(C))->a591)));
T1428f8(GE_void(((T399*)(C))->a591), l33, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a449)!=(EIF_VOID));
if (t1) {
t2 = (T1283f6(GE_void(((T399*)(C))->a449)));
T1283f9(GE_void(((T399*)(C))->a449), l34, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a430)!=(EIF_VOID));
if (t1) {
t2 = (T1260f5(GE_void(((T399*)(C))->a430)));
T1260f8(GE_void(((T399*)(C))->a430), l35, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a572)!=(EIF_VOID));
if (t1) {
t2 = (T1418f5(GE_void(((T399*)(C))->a572)));
T1418f8(GE_void(((T399*)(C))->a572), l36, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a499)!=(EIF_VOID));
if (t1) {
t2 = (T1328f5(GE_void(((T399*)(C))->a499)));
T1328f8(GE_void(((T399*)(C))->a499), l37, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a567)!=(EIF_VOID));
if (t1) {
t2 = (T1410f5(GE_void(((T399*)(C))->a567)));
T1410f8(GE_void(((T399*)(C))->a567), l38, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a497)!=(EIF_VOID));
if (t1) {
t2 = (T661f5(GE_void(((T399*)(C))->a497)));
T661f8(GE_void(((T399*)(C))->a497), l39, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a506)!=(EIF_VOID));
if (t1) {
t2 = (T1344f5(GE_void(((T399*)(C))->a506)));
T1344f8(GE_void(((T399*)(C))->a506), l40, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a531)!=(EIF_VOID));
if (t1) {
t2 = (T1369f5(GE_void(((T399*)(C))->a531)));
T1369f8(GE_void(((T399*)(C))->a531), l41, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a535)!=(EIF_VOID));
if (t1) {
t2 = (T1374f5(GE_void(((T399*)(C))->a535)));
T1374f8(GE_void(((T399*)(C))->a535), l42, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a532)!=(EIF_VOID));
if (t1) {
t2 = (T1371f5(GE_void(((T399*)(C))->a532)));
T1371f8(GE_void(((T399*)(C))->a532), l43, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a526)!=(EIF_VOID));
if (t1) {
t2 = (T1365f5(GE_void(((T399*)(C))->a526)));
T1365f8(GE_void(((T399*)(C))->a526), l44, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a313)!=(EIF_VOID));
if (t1) {
t2 = (T1147f6(GE_void(((T399*)(C))->a313)));
T1147f9(GE_void(((T399*)(C))->a313), l45, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a394)!=(EIF_VOID));
if (t1) {
t2 = (T932f5(GE_void(((T399*)(C))->a394)));
T932f8(GE_void(((T399*)(C))->a394), l46, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a386)!=(EIF_VOID));
if (t1) {
t2 = (T1227f5(GE_void(((T399*)(C))->a386)));
T1227f8(GE_void(((T399*)(C))->a386), l47, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a434)!=(EIF_VOID));
if (t1) {
t2 = (T1263f5(GE_void(((T399*)(C))->a434)));
T1263f8(GE_void(((T399*)(C))->a434), l48, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a504)!=(EIF_VOID));
if (t1) {
t2 = (T1340f5(GE_void(((T399*)(C))->a504)));
T1340f8(GE_void(((T399*)(C))->a504), l49, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a436)!=(EIF_VOID));
if (t1) {
t2 = (T672f6(GE_void(((T399*)(C))->a436)));
T672f9(GE_void(((T399*)(C))->a436), l50, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a359)!=(EIF_VOID));
if (t1) {
t2 = (T1205f5(GE_void(((T399*)(C))->a359)));
T1205f8(GE_void(((T399*)(C))->a359), l51, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a353)!=(EIF_VOID));
if (t1) {
t2 = (T1194f5(GE_void(((T399*)(C))->a353)));
T1194f8(GE_void(((T399*)(C))->a353), l52, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a349)!=(EIF_VOID));
if (t1) {
t2 = (T1189f5(GE_void(((T399*)(C))->a349)));
T1189f8(GE_void(((T399*)(C))->a349), l53, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a348)!=(EIF_VOID));
if (t1) {
t2 = (T1187f5(GE_void(((T399*)(C))->a348)));
T1187f8(GE_void(((T399*)(C))->a348), l54, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a408)!=(EIF_VOID));
if (t1) {
t2 = (T1243f5(GE_void(((T399*)(C))->a408)));
T1243f8(GE_void(((T399*)(C))->a408), l55, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a409)!=(EIF_VOID));
if (t1) {
t2 = (T1245f5(GE_void(((T399*)(C))->a409)));
T1245f8(GE_void(((T399*)(C))->a409), l56, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a319)!=(EIF_VOID));
if (t1) {
t2 = (T1156f5(GE_void(((T399*)(C))->a319)));
T1156f8(GE_void(((T399*)(C))->a319), l57, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a335)!=(EIF_VOID));
if (t1) {
t2 = (T1175f5(GE_void(((T399*)(C))->a335)));
T1175f8(GE_void(((T399*)(C))->a335), l58, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a403)!=(EIF_VOID));
if (t1) {
t2 = (T1239f5(GE_void(((T399*)(C))->a403)));
T1239f8(GE_void(((T399*)(C))->a403), l59, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a318)!=(EIF_VOID));
if (t1) {
t2 = (T1154f5(GE_void(((T399*)(C))->a318)));
T1154f8(GE_void(((T399*)(C))->a318), l60, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a505)!=(EIF_VOID));
if (t1) {
t2 = (T1342f5(GE_void(((T399*)(C))->a505)));
T1342f8(GE_void(((T399*)(C))->a505), l61, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a516)!=(EIF_VOID));
if (t1) {
t2 = (T1356f5(GE_void(((T399*)(C))->a516)));
T1356f8(GE_void(((T399*)(C))->a516), l62, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a514)!=(EIF_VOID));
if (t1) {
t2 = (T1353f5(GE_void(((T399*)(C))->a514)));
T1353f8(GE_void(((T399*)(C))->a514), l63, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a385)!=(EIF_VOID));
if (t1) {
t2 = (T1226f5(GE_void(((T399*)(C))->a385)));
T1226f8(GE_void(((T399*)(C))->a385), l64, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a371)!=(EIF_VOID));
if (t1) {
t2 = (T1215f5(GE_void(((T399*)(C))->a371)));
T1215f8(GE_void(((T399*)(C))->a371), l65, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a468)!=(EIF_VOID));
if (t1) {
t2 = (T632f5(GE_void(((T399*)(C))->a468)));
T632f8(GE_void(((T399*)(C))->a468), l66, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a561)!=(EIF_VOID));
if (t1) {
t2 = (T658f5(GE_void(((T399*)(C))->a561)));
T658f9(GE_void(((T399*)(C))->a561), l67, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a380)!=(EIF_VOID));
if (t1) {
t2 = (T1221f5(GE_void(((T399*)(C))->a380)));
T1221f8(GE_void(((T399*)(C))->a380), l68, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a439)!=(EIF_VOID));
if (t1) {
t2 = (T1273f5(GE_void(((T399*)(C))->a439)));
T1273f8(GE_void(((T399*)(C))->a439), l69, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a423)!=(EIF_VOID));
if (t1) {
t2 = (T1256f5(GE_void(((T399*)(C))->a423)));
T1256f8(GE_void(((T399*)(C))->a423), l70, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a320)!=(EIF_VOID));
if (t1) {
t2 = (T1158f5(GE_void(((T399*)(C))->a320)));
T1158f8(GE_void(((T399*)(C))->a320), l71, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a389)!=(EIF_VOID));
if (t1) {
t2 = (T1231f5(GE_void(((T399*)(C))->a389)));
T1231f8(GE_void(((T399*)(C))->a389), l72, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a379)!=(EIF_VOID));
if (t1) {
t2 = (T1220f6(GE_void(((T399*)(C))->a379)));
T1220f9(GE_void(((T399*)(C))->a379), l73, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a352)!=(EIF_VOID));
if (t1) {
t2 = (T1192f5(GE_void(((T399*)(C))->a352)));
T1192f8(GE_void(((T399*)(C))->a352), l74, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a455)!=(EIF_VOID));
if (t1) {
t2 = (T1290f5(GE_void(((T399*)(C))->a455)));
T1290f8(GE_void(((T399*)(C))->a455), l75, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a454)!=(EIF_VOID));
if (t1) {
t2 = (T1289f5(GE_void(((T399*)(C))->a454)));
T1289f8(GE_void(((T399*)(C))->a454), l76, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a437)!=(EIF_VOID));
if (t1) {
t2 = (T1266f5(GE_void(((T399*)(C))->a437)));
T1266f8(GE_void(((T399*)(C))->a437), l77, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a342)!=(EIF_VOID));
if (t1) {
t2 = (T1181f5(GE_void(((T399*)(C))->a342)));
T1181f9(GE_void(((T399*)(C))->a342), l78, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a343)!=(EIF_VOID));
if (t1) {
t2 = (T1183f5(GE_void(((T399*)(C))->a343)));
T1183f8(GE_void(((T399*)(C))->a343), l79, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a340)!=(EIF_VOID));
if (t1) {
t2 = (T1179f5(GE_void(((T399*)(C))->a340)));
T1179f8(GE_void(((T399*)(C))->a340), l80, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a501)!=(EIF_VOID));
if (t1) {
t2 = (T1333f5(GE_void(((T399*)(C))->a501)));
T1333f8(GE_void(((T399*)(C))->a501), l81, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a314)!=(EIF_VOID));
if (t1) {
t2 = (T1149f5(GE_void(((T399*)(C))->a314)));
T1149f8(GE_void(((T399*)(C))->a314), l82, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a325)!=(EIF_VOID));
if (t1) {
t2 = (T1162f5(GE_void(((T399*)(C))->a325)));
T1162f8(GE_void(((T399*)(C))->a325), l83, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a329)!=(EIF_VOID));
if (t1) {
t2 = (T1170f5(GE_void(((T399*)(C))->a329)));
T1170f8(GE_void(((T399*)(C))->a329), l84, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a332)!=(EIF_VOID));
if (t1) {
t2 = (T1173f5(GE_void(((T399*)(C))->a332)));
T1173f8(GE_void(((T399*)(C))->a332), l85, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a327)!=(EIF_VOID));
if (t1) {
t2 = (T1166f5(GE_void(((T399*)(C))->a327)));
T1166f8(GE_void(((T399*)(C))->a327), l86, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a568)!=(EIF_VOID));
if (t1) {
t2 = (T713f5(GE_void(((T399*)(C))->a568)));
T713f8(GE_void(((T399*)(C))->a568), l87, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a502)!=(EIF_VOID));
if (t1) {
t2 = (T1335f5(GE_void(((T399*)(C))->a502)));
T1335f8(GE_void(((T399*)(C))->a502), l88, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a495)!=(EIF_VOID));
if (t1) {
t2 = (T1324f5(GE_void(((T399*)(C))->a495)));
T1324f8(GE_void(((T399*)(C))->a495), l89, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a321)!=(EIF_VOID));
if (t1) {
t2 = (T1159f5(GE_void(((T399*)(C))->a321)));
T1159f8(GE_void(((T399*)(C))->a321), l90, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a372)!=(EIF_VOID));
if (t1) {
t2 = (T1216f5(GE_void(((T399*)(C))->a372)));
T1216f8(GE_void(((T399*)(C))->a372), l91, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a356)!=(EIF_VOID));
if (t1) {
t2 = (T1200f5(GE_void(((T399*)(C))->a356)));
T1200f8(GE_void(((T399*)(C))->a356), l92, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a463)!=(EIF_VOID));
if (t1) {
t2 = (T1298f5(GE_void(((T399*)(C))->a463)));
T1298f8(GE_void(((T399*)(C))->a463), l93, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a462)!=(EIF_VOID));
if (t1) {
t2 = (T1296f5(GE_void(((T399*)(C))->a462)));
T1296f8(GE_void(((T399*)(C))->a462), l94, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a433)!=(EIF_VOID));
if (t1) {
t2 = (T1262f5(GE_void(((T399*)(C))->a433)));
T1262f8(GE_void(((T399*)(C))->a433), l95, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a476)!=(EIF_VOID));
if (t1) {
t2 = (T1306f5(GE_void(((T399*)(C))->a476)));
T1306f8(GE_void(((T399*)(C))->a476), l96, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a569)!=(EIF_VOID));
if (t1) {
t2 = (T1413f5(GE_void(((T399*)(C))->a569)));
T1413f8(GE_void(((T399*)(C))->a569), l97, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a549)!=(EIF_VOID));
if (t1) {
t2 = (T1385f5(GE_void(((T399*)(C))->a549)));
T1385f8(GE_void(((T399*)(C))->a549), l98, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a438)!=(EIF_VOID));
if (t1) {
t2 = (T1268f5(GE_void(((T399*)(C))->a438)));
T1268f8(GE_void(((T399*)(C))->a438), l99, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a336)!=(EIF_VOID));
if (t1) {
t2 = (T1177f5(GE_void(((T399*)(C))->a336)));
T1177f8(GE_void(((T399*)(C))->a336), l100, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a316)!=(EIF_VOID));
if (t1) {
t2 = (T1152f5(GE_void(((T399*)(C))->a316)));
T1152f8(GE_void(((T399*)(C))->a316), l101, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a558)!=(EIF_VOID));
if (t1) {
t2 = (T1393f5(GE_void(((T399*)(C))->a558)));
T1393f8(GE_void(((T399*)(C))->a558), l102, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a368)!=(EIF_VOID));
if (t1) {
t2 = (T1212f5(GE_void(((T399*)(C))->a368)));
T1212f8(GE_void(((T399*)(C))->a368), l103, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a373)!=(EIF_VOID));
if (t1) {
t2 = (T930f5(GE_void(((T399*)(C))->a373)));
T930f8(GE_void(((T399*)(C))->a373), l104, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a317)!=(EIF_VOID));
if (t1) {
t2 = (T1153f5(GE_void(((T399*)(C))->a317)));
T1153f8(GE_void(((T399*)(C))->a317), l105, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a435)!=(EIF_VOID));
if (t1) {
t2 = (T1264f5(GE_void(((T399*)(C))->a435)));
T1264f8(GE_void(((T399*)(C))->a435), l106, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a432)!=(EIF_VOID));
if (t1) {
t2 = (T1261f5(GE_void(((T399*)(C))->a432)));
T1261f8(GE_void(((T399*)(C))->a432), l107, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a428)!=(EIF_VOID));
if (t1) {
t2 = (T716f5(GE_void(((T399*)(C))->a428)));
T716f9(GE_void(((T399*)(C))->a428), l108, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a492)!=(EIF_VOID));
if (t1) {
t2 = (T1319f5(GE_void(((T399*)(C))->a492)));
T1319f8(GE_void(((T399*)(C))->a492), l109, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a426)!=(EIF_VOID));
if (t1) {
t2 = (T722f5(GE_void(((T399*)(C))->a426)));
T722f9(GE_void(((T399*)(C))->a426), l110, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a378)!=(EIF_VOID));
if (t1) {
t2 = (T1219f5(GE_void(((T399*)(C))->a378)));
T1219f8(GE_void(((T399*)(C))->a378), l111, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a370)!=(EIF_VOID));
if (t1) {
t2 = (T1214f5(GE_void(((T399*)(C))->a370)));
T1214f8(GE_void(((T399*)(C))->a370), l112, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a540)!=(EIF_VOID));
if (t1) {
t2 = (T1379f5(GE_void(((T399*)(C))->a540)));
T1379f8(GE_void(((T399*)(C))->a540), l113, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a570)!=(EIF_VOID));
if (t1) {
t2 = (T1415f5(GE_void(((T399*)(C))->a570)));
T1415f8(GE_void(((T399*)(C))->a570), l114, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a417)!=(EIF_VOID));
if (t1) {
t2 = (T732f5(GE_void(((T399*)(C))->a417)));
T732f8(GE_void(((T399*)(C))->a417), l115, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a418)!=(EIF_VOID));
if (t1) {
t2 = (T1253f5(GE_void(((T399*)(C))->a418)));
T1253f8(GE_void(((T399*)(C))->a418), l116, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a412)!=(EIF_VOID));
if (t1) {
t2 = (T1247f5(GE_void(((T399*)(C))->a412)));
T1247f8(GE_void(((T399*)(C))->a412), l117, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a479)!=(EIF_VOID));
if (t1) {
t2 = (T1309f5(GE_void(((T399*)(C))->a479)));
T1309f8(GE_void(((T399*)(C))->a479), l118, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a525)!=(EIF_VOID));
if (t1) {
t2 = (T1363f5(GE_void(((T399*)(C))->a525)));
T1363f8(GE_void(((T399*)(C))->a525), l119, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a520)!=(EIF_VOID));
if (t1) {
t2 = (T1359f5(GE_void(((T399*)(C))->a520)));
T1359f8(GE_void(((T399*)(C))->a520), l120, (T6)(GE_int32(0)), t2);
}
t1 = ((((T399*)(C))->a500)!=(EIF_VOID));
if (t1) {
t2 = (T1329f5(GE_void(((T399*)(C))->a500)));
T1329f8(GE_void(((T399*)(C))->a500), l121, (T6)(GE_int32(0)), t2);
}
}
/* SPECIAL [ET_WRITABLE].upper */
T6 T1329f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1329*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_WHEN_PART_LIST].upper */
T6 T1359f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1359*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_WHEN_PART].upper */
T6 T1363f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1363*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_VARIANT].upper */
T6 T1309f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1309*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_TYPE_LIST].upper */
T6 T1247f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1247*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_TYPE_ITEM].upper */
T6 T1253f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1253*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_TYPE].upper */
T6 T732f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T732*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_STRIP_EXPRESSION].upper */
T6 T1415f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1415*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_STATIC_CALL_EXPRESSION].upper */
T6 T1379f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1379*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_RENAME_LIST].upper */
T6 T1214f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1214*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_RENAME_ITEM].upper */
T6 T1219f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1219*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_QUERY].upper */
T6 T722f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T722*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_QUALIFIED_LIKE_IDENTIFIER].upper */
T6 T1319f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1319*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_PROCEDURE].upper */
T6 T716f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T716*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_PRECONDITIONS].upper */
T6 T1261f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1261*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_POSTCONDITIONS].upper */
T6 T1264f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1264*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_PARENT_LIST].upper */
T6 T1153f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1153*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_PARENT_ITEM].upper */
T6 T930f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T930*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_PARENT].upper */
T6 T1212f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1212*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_PARENTHESIZED_EXPRESSION].upper */
T6 T1393f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1393*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_OBSOLETE].upper */
T6 T1152f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1152*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_MANIFEST_TUPLE].upper */
T6 T1177f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1177*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_MANIFEST_STRING_LIST].upper */
T6 T1268f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1268*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_MANIFEST_STRING_ITEM].upper */
T6 T1385f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1385*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_MANIFEST_ARRAY].upper */
T6 T1413f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1413*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_LOOP_INVARIANTS].upper */
T6 T1306f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1306*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_LOCAL_VARIABLE_LIST].upper */
T6 T1262f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1262*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_LOCAL_VARIABLE_ITEM].upper */
T6 T1296f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1296*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_LOCAL_VARIABLE].upper */
T6 T1298f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1298*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_LIKE_TYPE].upper */
T6 T1200f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1200*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_KEYWORD_FEATURE_NAME_LIST].upper */
T6 T1216f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1216*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_INVARIANTS].upper */
T6 T1159f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1159*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_INSTRUCTION].upper */
T6 T1324f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1324*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_INSPECT_INSTRUCTION].upper */
T6 T1335f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1335*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_INLINE_AGENT].upper */
T6 T713f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T713*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_INDEXING_TERM_LIST].upper */
T6 T1166f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1166*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_INDEXING_TERM_ITEM].upper */
T6 T1173f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1173*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_INDEXING_TERM].upper */
T6 T1170f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1170*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_INDEXING_ITEM].upper */
T6 T1162f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1162*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_INDEXING_LIST].upper */
T6 T1149f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1149*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_IF_INSTRUCTION].upper */
T6 T1333f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1333*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_FORMAL_PARAMETER_LIST].upper */
T6 T1179f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1179*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_FORMAL_PARAMETER_ITEM].upper */
T6 T1183f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1183*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_FORMAL_PARAMETER].upper */
T6 T1181f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1181*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_FORMAL_ARGUMENT_LIST].upper */
T6 T1266f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1266*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_FORMAL_ARGUMENT_ITEM].upper */
T6 T1289f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1289*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_FORMAL_ARGUMENT].upper */
T6 T1290f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1290*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_FEATURE_NAME_ITEM].upper */
T6 T1192f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1192*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_FEATURE_NAME].upper */
T6 T1220f6(T0* C)
{
T6 R = 0;
R = ((T6)((((T1220*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_FEATURE_EXPORT].upper */
T6 T1231f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1231*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_FEATURE_CLAUSE_LIST].upper */
T6 T1158f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1158*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_FEATURE_CLAUSE].upper */
T6 T1256f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1256*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_EXTERNAL_ALIAS].upper */
T6 T1273f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1273*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_EXTENDED_FEATURE_NAME].upper */
T6 T1221f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1221*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_EXPRESSION_ITEM].upper */
T6 T658f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T658*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_EXPRESSION].upper */
T6 T632f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T632*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_EXPORT_LIST].upper */
T6 T1215f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1215*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_EXPORT].upper */
T6 T1226f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1226*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_ELSEIF_PART_LIST].upper */
T6 T1353f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1353*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_ELSEIF_PART].upper */
T6 T1356f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1356*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_DEBUG_INSTRUCTION].upper */
T6 T1342f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1342*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CREATOR_LIST].upper */
T6 T1154f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1154*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CREATOR].upper */
T6 T1239f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1239*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CREATE_EXPRESSION].upper */
T6 T1175f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1175*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CONVERT_FEATURE_LIST].upper */
T6 T1156f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1156*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CONVERT_FEATURE_ITEM].upper */
T6 T1245f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1245*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CONVERT_FEATURE].upper */
T6 T1243f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1243*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CONSTRAINT_TYPE].upper */
T6 T1187f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1187*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CONSTRAINT_CREATOR].upper */
T6 T1189f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1189*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CONSTRAINT_ACTUAL_PARAMETER_LIST].upper */
T6 T1194f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1194*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CONSTRAINT_ACTUAL_PARAMETER_ITEM].upper */
T6 T1205f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1205*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CONSTANT].upper */
T6 T672f6(T0* C)
{
T6 R = 0;
R = ((T6)((((T672*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CONDITIONAL].upper */
T6 T1340f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1340*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_COMPOUND].upper */
T6 T1263f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1263*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CLIENTS].upper */
T6 T1227f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1227*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CLIENT_ITEM].upper */
T6 T932f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T932*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CLASS].upper */
T6 T1147f6(T0* C)
{
T6 R = 0;
R = ((T6)((((T1147*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CHOICE_LIST].upper */
T6 T1365f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1365*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CHOICE_ITEM].upper */
T6 T1371f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1371*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CHOICE_CONSTANT].upper */
T6 T1374f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1374*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CHOICE].upper */
T6 T1369f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1369*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CHECK_INSTRUCTION].upper */
T6 T1344f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1344*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CALL_EXPRESSION].upper */
T6 T661f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T661*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CALL_AGENT].upper */
T6 T1410f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1410*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_BRACKET_EXPRESSION].upper */
T6 T1328f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1328*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_BRACKET_ARGUMENT_LIST].upper */
T6 T1418f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1418*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_ASSIGNER].upper */
T6 T1260f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1260*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_ALIAS_NAME].upper */
T6 T1283f6(T0* C)
{
T6 R = 0;
R = ((T6)((((T1283*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_AGENT_TARGET].upper */
T6 T1428f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1428*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_AGENT_ARGUMENT_OPERAND_LIST].upper */
T6 T1426f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1426*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_AGENT_ARGUMENT_OPERAND_ITEM].upper */
T6 T1440f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1440*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_AGENT_ARGUMENT_OPERAND].upper */
T6 T1438f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1438*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_ACTUAL_PARAMETER_LIST].upper */
T6 T1211f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1211*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_ACTUAL_PARAMETER_ITEM].upper */
T6 T624f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T624*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_ACTUAL_ARGUMENT_LIST].upper */
T6 T1348f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1348*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_ACROSS_INSTRUCTION].upper */
T6 T1339f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1339*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_ACROSS_EXPRESSION].upper */
T6 T1405f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1405*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_QUESTION_MARK_SYMBOL].upper */
T6 T1128f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1128*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_BRACKET_SYMBOL].upper */
T6 T1125f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1125*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_SEMICOLON_SYMBOL].upper */
T6 T1123f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1123*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_VOID].upper */
T6 T1120f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1120*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_SYMBOL_OPERATOR].upper */
T6 T1117f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1117*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_RETRY_INSTRUCTION].upper */
T6 T1114f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1114*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_RESULT].upper */
T6 T1111f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1111*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_REAL_CONSTANT].upper */
T6 T1109f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1109*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_MANIFEST_STRING].upper */
T6 T1106f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1106*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_KEYWORD_OPERATOR].upper */
T6 T1104f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1104*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_INTEGER_CONSTANT].upper */
T6 T1101f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1101*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_FREE_OPERATOR].upper */
T6 T1098f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1098*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CURRENT].upper */
T6 T1095f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1095*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_CHARACTER_CONSTANT].upper */
T6 T1093f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1093*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_BREAK].upper */
T6 T1090f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1090*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_BOOLEAN_CONSTANT].upper */
T6 T1087f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1087*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_BIT_CONSTANT].upper */
T6 T1084f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1084*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_POSITION].upper */
T6 T1081f4(T0* C)
{
T6 R = 0;
R = ((T6)((((T1081*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_SYMBOL].upper */
T6 T1079f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1079*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_PRECURSOR_KEYWORD].upper */
T6 T1077f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1077*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_AGENT_KEYWORD].upper */
T6 T1074f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1074*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* SPECIAL [ET_KEYWORD].upper */
T6 T1071f5(T0* C)
{
T6 R = 0;
R = ((T6)((((T1071*)(C))->a1)-((T6)(GE_int32(1)))));
return R;
}
/* ET_EIFFEL_PARSER.abort */
void T399f1000(T0* C)
{
((T399*)(C))->a55 = (T6)(GE_int32(102));
}
/* ET_EIFFEL_PARSER.yy_load_input_buffer */
void T399f954(T0* C)
{
T0* t1;
t1 = (((((T0*)(GE_void(((T399*)(C))->a23)))->id==167)?((T167*)(((T399*)(C))->a23))->a1:((T166*)(((T399*)(C))->a23))->a1));
T399f956(C, t1);
((T399*)(C))->a42 = (((((T0*)(GE_void(((T399*)(C))->a23)))->id==167)?((T167*)(((T399*)(C))->a23))->a2:((T166*)(((T399*)(C))->a23))->a2));
((T399*)(C))->a43 = ((T399*)(C))->a42;
((T399*)(C))->a35 = (((((T0*)(GE_void(((T399*)(C))->a23)))->id==167)?((T167*)(((T399*)(C))->a23))->a3:((T166*)(((T399*)(C))->a23))->a3));
((T399*)(C))->a36 = (((((T0*)(GE_void(((T399*)(C))->a23)))->id==167)?((T167*)(((T399*)(C))->a23))->a4:((T166*)(((T399*)(C))->a23))->a4));
((T399*)(C))->a37 = (((((T0*)(GE_void(((T399*)(C))->a23)))->id==167)?((T167*)(((T399*)(C))->a23))->a5:((T166*)(((T399*)(C))->a23))->a5));
}
/* ET_EIFFEL_PARSER.reset */
void T399f993(T0* C)
{
T399f993p1(C);
T166f26(GE_void(((T399*)(C))->a1));
T870f10(GE_void(((T399*)(C))->a2));
T399f1007(C);
T399f1008(C);
T399f1009(C);
T399f1010(C);
T873f9(GE_void(((T399*)(C))->a5));
T874f9(GE_void(((T399*)(C))->a6));
T864f40(GE_void(((T399*)(C))->a16));
T877f14(GE_void(((T399*)(C))->a11));
T229f17(GE_void(((T399*)(C))->a12));
T336f20(GE_void(((T399*)(C))->a13));
T334f20(GE_void(((T399*)(C))->a14));
T878f12(GE_void(((T399*)(C))->a15));
((T399*)(C))->a68 = EIF_VOID;
((T399*)(C))->a69 = EIF_VOID;
((T399*)(C))->a70 = EIF_VOID;
((T399*)(C))->a71 = EIF_VOID;
}
/* DS_ARRAYED_STACK [ET_SYMBOL].wipe_out */
void T874f9(T0* C)
{
T874f12(C, (T6)(GE_int32(1)), ((T874*)(C))->a4);
((T874*)(C))->a4 = (T6)(GE_int32(0));
}
/* DS_ARRAYED_STACK [ET_KEYWORD].wipe_out */
void T873f9(T0* C)
{
T873f12(C, (T6)(GE_int32(1)), ((T873*)(C))->a4);
((T873*)(C))->a4 = (T6)(GE_int32(0));
}
/* DS_ARRAYED_STACK [INTEGER_32].wipe_out */
void T870f10(T0* C)
{
T870f14(C, (T6)(GE_int32(1)), ((T870*)(C))->a2);
((T870*)(C))->a2 = (T6)(GE_int32(0));
}
/* YY_FILE_BUFFER.set_end_of_file */
void T166f26(T0* C)
{
((T166*)(C))->a10 = EIF_TRUE;
}
/* ET_EIFFEL_PARSER.reset */
void T399f993p1(T0* C)
{
((T399*)(C))->a19 = (T6)(GE_int32(1));
((T399*)(C))->a72 = (T6)(GE_int32(0));
((T399*)(C))->a73 = EIF_VOID;
((T399*)(C))->a74 = EIF_VOID;
((T399*)(C))->a75 = EIF_VOID;
T399f993p0(C);
}
/* ET_EIFFEL_PARSER.reset */
void T399f993p0(T0* C)
{
((T399*)(C))->a34 = (T6)(GE_int32(1));
((T399*)(C))->a35 = (T6)(GE_int32(1));
((T399*)(C))->a36 = (T6)(GE_int32(1));
((T399*)(C))->a37 = (T6)(GE_int32(1));
((T399*)(C))->a38 = (T6)(GE_int32(1));
((T399*)(C))->a39 = (T6)(GE_int32(1));
((T399*)(C))->a40 = (T6)(GE_int32(1));
((T399*)(C))->a76 = EIF_FALSE;
((T399*)(C))->a77 = (T6)(GE_int32(0));
((T399*)(C))->a78 = (T6)(GE_int32(0));
((T399*)(C))->a79 = (T6)(GE_int32(0));
((T399*)(C))->a80 = EIF_FALSE;
((T399*)(C))->a81 = (T6)(GE_int32(0));
((T399*)(C))->a82 = (T6)(GE_int32(0));
((T399*)(C))->a83 = (T6)(GE_int32(0));
((T399*)(C))->a84 = (T6)(GE_int32(0));
((T399*)(C))->a85 = (T6)(GE_int32(0));
((T399*)(C))->a86 = (T6)(GE_int32(0));
}
/* KL_TEXT_INPUT_FILE.time_stamp */
T6 T22f42(T0* C)
{
GE_rescue r;
T1 t1;
T0* t2;
volatile T6 R = 0;
T1 l1 = 0;
if (GE_setjmp(r.jb) != 0) {
t1 = ((T1)(!((T1)l1)));
if (t1) {
l1 = EIF_TRUE;
goto GE_retry;
}
GE_raise(8);
}
GE_retry:
r.previous = GE_last_rescue;
GE_last_rescue = &r;
R = (T6)(GE_int32(-1));
t1 = ((T1)(!((T1)l1)));
if (t1) {
t2 = (T22f13(C));
t1 = ((t2)!=(ge259ov2079));
if (t1) {
t1 = (T22f15(C));
if (t1) {
R = (T22f43(C));
t1 = ((T1)(((T6)R)<((T6)(GE_int32(0)))));
if (t1) {
R = (T6)(GE_int32(-1));
}
}
}
}
GE_last_rescue = r.previous;
return R;
}
/* KL_TEXT_INPUT_FILE.date */
T6 T22f43(T0* C)
{
T0* t1;
T14 t2;
T6 R = 0;
t1 = (T22f23(C));
t2 = (((T87*)(GE_void(t1)))->a1);
R = (T22f44(C, t2));
return R;
}
/* KL_TEXT_INPUT_FILE.eif_file_date */
T6 T22f44(T0* C, T14 a1)
{
T6 R = 0;
R = (T6)(EIF_INTEGER )eif_file_date((EIF_FILENAME)a1);
return R;
}
/* ET_EIFFEL_PARSER.tmp_file */
T0* T399f897(T0* C)
{
T1 t1;
T0* R = 0;
R = (T399f928(C));
t1 = (T22f17(GE_void(R)));
t1 = ((T1)(!(t1)));
if (t1) {
R = T22c45(ge1026ov21979);
}
return R;
}
/* ET_EIFFEL_PARSER.shared_file */
unsigned char ge1026os21978 = '\0';
T0* ge1026ov21978;
T0* T399f928(T0* C)
{
T0* R = 0;
if (ge1026os21978) {
return ge1026ov21978;
} else {
ge1026os21978 = '\1';
ge1026ov21978 = R;
}
R = T22c45(ge1026ov21979);
ge1026ov21978 = R;
return R;
}
/* ET_CLASS.reset_after_preparsed */
void T75f228(T0* C)
{
T75f241(C);
T75f242(C);
T75f243(C);
T75f244(C);
T75f232(C);
}
/* ET_EIFFEL_PARSER.error_handler */
T0* T399f895(T0* C)
{
T0* t1;
T0* R = 0;
t1 = (T399f901(C));
R = (T26x2948(GE_void(t1)));
return R;
}
/* ET_EIFFEL_PARSER.set_fatal_error */
void T399f987(T0* C, T0* a1)
{
T75f208(GE_void(a1));
T75f209(GE_void(a1));
}
/* ET_IMPLEMENTATION_CHECKER.process_class */
void T396f20(T0* C, T0* a1)
{
T1 t1;
T0* t2;
T0* l1 = 0;
t1 = (T75f106(a1));
if (t1) {
T75f216(a1);
} else {
t1 = (T75f55(GE_void(((T396*)(C))->a8)));
t1 = ((T1)(!(t1)));
if (t1) {
t2 = (T396f11(C));
if (((T0*)(GE_void(t2)))->id==29) {
T29f175(t2);
} else {
T70f176(t2);
}
l1 = T396c14();
T396f15(GE_void(l1), ((T396*)(C))->a1);
T396f16(GE_void(l1), ((T396*)(C))->a2);
T396f21(GE_void(l1), ((T396*)(C))->a10);
T396f17(GE_void(l1), ((T396*)(C))->a3);
T396f20(GE_void(l1), a1);
} else {
t1 = (T75f55(a1));
if (t1) {
T396f22(C, a1);
t2 = (T396f11(C));
if (((T0*)(GE_void(t2)))->id==29) {
T29f175(t2);
} else {
T70f176(t2);
}
} else {
t1 = (T75f60(a1));
t1 = ((T1)(!(t1)));
if (t1) {
T396f22(C, a1);
} else {
T396f23(C, a1);
}
}
}
}
if (((T396*)(C))->a3) {
t2 = (((T75*)(a1))->a31);
t1 = ((t2)==(EIF_VOID));
} else {
t1 = EIF_FALSE;
}
if (t1) {
T75f225(a1, ((T396*)(C))->a9);
}
}
/* ET_CLASS.set_suppliers */
void T75f225(T0* C, T0* a1)
{
((T75*)(C))->a31 = a1;
}
/* ET_IMPLEMENTATION_CHECKER.internal_process_class */
void T396f23(T0* C, T0* a1)
{
T1 t1;
T0* t2;
T1 t3;
T6 t4;
T0* l1 = 0;
T0* l2 = 0;
T0* l3 = 0;
T1 l4 = 0;
T0* l5 = 0;
T0* l6 = 0;
T6 l7 = 0;
T6 l8 = 0;
l1 = ((T396*)(C))->a8;
((T396*)(C))->a8 = a1;
t1 = (((T75*)(GE_void(((T396*)(C))->a8)))->a10);
t1 = ((T1)(!(t1)));
if (t1) {
t2 = (T396f13(C));
t2 = (T26x3070(GE_void(t2)));
T75f219(GE_void(((T396*)(C))->a8), t2);
t1 = (((T75*)(GE_void(((T396*)(C))->a8)))->a8);
if (t1) {
t3 = (((T75*)(GE_void(((T396*)(C))->a8)))->a9);
t1 = ((T1)(!(t3)));
}
if (t1) {
T75f216(GE_void(((T396*)(C))->a8));
l2 = (T75f71(GE_void(((T396*)(C))->a8)));
t1 = ((l2)!=(EIF_VOID));
if (t1) {
l8 = (((T465*)(GE_void(l2)))->a2);
l7 = (T6)(GE_int32(1));
while (1) {
t1 = (T6f1((&l7), l8));
if (t1) {
break;
}
t2 = (T465f6(GE_void(l2), l7));
t2 = (((T461*)(GE_void(t2)))->a1);
l3 = (((((T0*)(GE_void(t2)))->id==73)?T73f16(t2):T214f6(t2)));
t1 = (T75f60(GE_void(l3)));
t1 = ((T1)(!(t1)));
if (t1) {
l4 = EIF_TRUE;
T396f22(C, ((T396*)(C))->a8);
} else {
T396f23(C, l3);
t1 = (((T75*)(GE_void(l3)))->a11);
if (t1) {
l4 = EIF_TRUE;
T396f22(C, ((T396*)(C))->a8);
}
}
l7 = ((T6)((l7)+((T6)(GE_int32(1)))));
}
}
t2 = (T396f11(C));
if (((T0*)(GE_void(t2)))->id==29) {
T29f192(t2, C, ((T396*)(C))->a8);
} else {
T70f193(t2, C, ((T396*)(C))->a8);
}
if (((T396*)(C))->a3) {
l5 = (((T867*)(GE_void(((T396*)(C))->a7)))->a1);
T867f6(GE_void(((T396*)(C))->a7), ((T396*)(C))->a8, l5);
}
T396f24(C, l4);
T396f25(C, l4);
t1 = ((l5)!=(EIF_VOID));
if (t1) {
t1 = (((T75*)(GE_void(((T396*)(C))->a8)))->a11);
t1 = ((T1)(!(t1)));
if (t1) {
t4 = (((T864*)(GE_void(l5)))->a1);
l6 = T864c38(t4);
T864f39(GE_void(l6), l5);
T75f225(GE_void(((T396*)(C))->a8), l6);
} else {
T75f225(GE_void(((T396*)(C))->a8), ((T396*)(C))->a9);
}
T864f40(GE_void(l5));
}
} else {
T396f22(C, ((T396*)(C))->a8);
}
}
((T396*)(C))->a8 = l1;
}
/* DS_HASH_SET [ET_NAMED_CLASS].extend */
void T864f39(T0* C, T0* a1)
{
T1 t1;
T0* t2;
T0* l1 = 0;
t1 = ((a1)!=(C));
if (t1) {
l1 = (T864f17(GE_void(a1)));
T928f9(GE_void(l1));
while (1) {
t1 = (T928f5(GE_void(l1)));
if (t1) {
break;
}
t2 = (T928f4(GE_void(l1)));
T864f50(C, t2);
T928f10(GE_void(l1));
}
}
}
/* DS_HASH_SET [ET_NAMED_CLASS].put */
void T864f50(T0* C, T0* a1)
{
T1 t1;
T6 t2;
T6 t3;
T6 l1 = 0;
T6 l2 = 0;
T864f48(C);
T864f57(C, a1);
t1 = (((((((T864*)(C))->a8) != ((T6)(GE_int32(0)))))));
if (t1) {
T864f58(C, a1, ((T864*)(C))->a8);
} else {
l1 = ((T864*)(C))->a7;
t1 = (((((l1) == ((T6)(GE_int32(0)))))));
if (t1) {
((T864*)(C))->a6 = ((T6)((((T864*)(C))->a6)+((T6)(GE_int32(1)))));
l1 = ((T864*)(C))->a6;
} else {
t2 = (T6)(GE_int32(-1));
t3 = (T864f26(C, l1));
((T864*)(C))->a7 = ((T6)((t2)-(t3)));
}
l2 = ((T864*)(C))->a9;
t2 = (T864f19(C, l2));
T864f60(C, t2, l1);
T864f61(C, l1, l2);
T864f58(C, a1, l1);
((T864*)(C))->a1 = ((T6)((((T864*)(C))->a1)+((T6)(GE_int32(1)))));
}
}
/* ET_IMPLEMENTATION_CHECKER.check_invariants_validity */
void T396f25(T0* C, T1 a1)
{
T1 t1;
T0* t2;
T0* l1 = 0;
T0* l2 = 0;
T0* l3 = 0;
T0* l4 = 0;
T6 l5 = 0;
T6 l6 = 0;
if (((T396*)(C))->a3) {
l4 = (((T328*)(GE_void(((T396*)(C))->a4)))->a27);
T328f62(GE_void(((T396*)(C))->a4), ((T396*)(C))->a7);
}
l1 = (((T75*)(GE_void(((T396*)(C))->a8)))->a32);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
T1065f29(GE_void(l1));
T328f63(GE_void(((T396*)(C))->a4), l1, ((T396*)(C))->a8);
t1 = (((T328*)(GE_void(((T396*)(C))->a4)))->a25);
if (t1) {
T396f22(C, ((T396*)(C))->a8);
}
}
if (((T396*)(C))->a3) {
T328f62(GE_void(((T396*)(C))->a4), l4);
}
if (((T396*)(C))->a1) {
t1 = ((T1)(!(a1)));
} else {
t1 = EIF_FALSE;
}
if (t1) {
l2 = (((T75*)(GE_void(((T396*)(C))->a8)))->a14);
l6 = (((T355*)(GE_void(l2)))->a1);
l5 = (T6)(GE_int32(1));
while (1) {
t1 = (T6f1((&l5), l6));
if (t1) {
break;
}
t2 = (T355f5(GE_void(l2), l5));
l3 = (((((T0*)(GE_void(t2)))->id==73)?T73f16(t2):T214f6(t2)));
l1 = (((T75*)(GE_void(l3)))->a32);
t1 = ((l1)!=(EIF_VOID));
if (t1) {
T328f63(GE_void(((T396*)(C))->a4), l1, l3);
t1 = (((T328*)(GE_void(((T396*)(C))->a4)))->a25);
if (t1) {
T396f22(C, ((T396*)(C))->a8);
}
}
l5 = ((T6)((l5)+((T6)(GE_int32(1)))));
}
}
}
/* ET_FEATURE_CHECKER.check_invariants_validity */
void T328f63(T0* C, T0* a1, T0* a2)
{
T1 t1;
T0* t2;
T1 t3;
T0* l1 = 0;
T0* l2 = 0;
T0* l3 = 0;
T0* l4 = 0;
T0* l5 = 0;
T1 l6 = 0;
T6 l7 = 0;
T6 l8 = 0;
T0* l9 = 0;
T0* l10 = 0;
T0* l11 = 0;
T0* l12 = 0;
T1 l13 = 0;
T0* l14 = 0;
T0* l15 = 0;
T6 l16 = 0;
((T328*)(C))->a25 = EIF_FALSE;
l14 = (((T1065*)(GE_void(a1)))->a1);
l15 = (T75f94(GE_void(a2)));
t1 = (T75f60(GE_void(l14)));
t1 = ((T1)(!(t1)));
if (t1) {
T328f59(C);
t2 = (T328f36(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f176(t2);
} else {
T29f175(t2);
}
} else {
t1 = (((T1065*)(GE_void(a1)))->a7);
if (t1) {
t1 = (((T1065*)(GE_void(a1)))->a8);
if (t1) {
T328f59(C);
}
} else {
t1 = ((l14)!=(l15));
if (!(t1)) {
t3 = (T75f82(GE_void(a2)));
t1 = ((T1)(!(t3)));
}
if (t1) {
T328f63(C, a1, l14);
}
}
}
t1 = ((T1)(!(((T328*)(C))->a25)));
if (t1) {
l2 = ((T328*)(C))->a5;
((T328*)(C))->a5 = a1;
l1 = ((T328*)(C))->a4;
((T328*)(C))->a4 = a1;
l5 = ((T328*)(C))->a3;
((T328*)(C))->a3 = a2;
l3 = ((T328*)(C))->a2;
((T328*)(C))->a2 = l15;
l4 = ((T328*)(C))->a6;
((T328*)(C))->a6 = l14;
l6 = ((T328*)(C))->a28;
((T328*)(C))->a28 = EIF_TRUE;
t2 = (T328f39(C));
t2 = (T26x3070(GE_void(t2)));
T75f219(GE_void(((T328*)(C))->a2), t2);
t1 = (((T75*)(GE_void(((T328*)(C))->a2)))->a8);
t1 = ((T1)(!(t1)));
if (!(t1)) {
t1 = (((T75*)(GE_void(((T328*)(C))->a2)))->a9);
}
if (t1) {
T328f59(C);
} else {
t2 = (T328f40(C));
l11 = (T216x3182(GE_void(t2)));
l10 = (T328f38(C, ((T328*)(C))->a3));
l16 = (T342f3(GE_void(((T328*)(C))->a17)));
l8 = (((T1065*)(GE_void(a1)))->a4);
l7 = (T6)(GE_int32(1));
while (1) {
t1 = (T6f1((&l7), l8));
if (t1) {
break;
}
t2 = (T1065f11(GE_void(a1), l7));
l9 = (T352x14671(GE_void(t2)));
t1 = ((l9)!=(EIF_VOID));
if (t1) {
if (!(l13)) {
l13 = (((T328*)(C))->a25);
} else {
l13 = EIF_TRUE;
}
T328f60(C, l9, l10, l11);
if (((T328*)(C))->a25) {
} else {
t1 = (T340f10(GE_void(l10), l11, ((T328*)(C))->a6));
t1 = ((T1)(!(t1)));
if (t1) {
T328f59(C);
l12 = (T340f11(GE_void(l10)));
t2 = (T328f36(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f192(t2, ((T328*)(C))->a2, ((T328*)(C))->a6, l9, l12);
} else {
T29f191(t2, ((T328*)(C))->a2, ((T328*)(C))->a6, l9, l12);
}
}
}
T340f57(GE_void(l10));
T343f9(GE_void(((T328*)(C))->a18), l9, ((T328*)(C))->a17, ((T328*)(C))->a6);
if (!(((T328*)(C))->a25)) {
((T328*)(C))->a25 = (((T343*)(GE_void(((T328*)(C))->a18)))->a1);
} else {
((T328*)(C))->a25 = EIF_TRUE;
}
t2 = (T328f43(C));
t1 = (T216x3276(GE_void(t2)));
if (t1) {
T347f4(GE_void(((T328*)(C))->a23), l9, ((T328*)(C))->a22);
}
}
l7 = ((T6)((l7)+((T6)(GE_int32(1)))));
}
T342f8(GE_void(((T328*)(C))->a17), l16);
T328f58(C, l10);
if (!(((T328*)(C))->a25)) {
((T328*)(C))->a25 = (l13);
} else {
((T328*)(C))->a25 = EIF_TRUE;
}
t1 = ((((T328*)(C))->a2)==(((T328*)(C))->a6));
if (t1) {
T1065f30(GE_void(a1));
if (((T328*)(C))->a25) {
T1065f31(GE_void(a1));
}
}
}
((T328*)(C))->a28 = l6;
T341f43(GE_void(((T328*)(C))->a16));
while (1) {
t1 = (T341f30(GE_void(((T328*)(C))->a16)));
if (t1) {
break;
}
t2 = (T341f27(GE_void(((T328*)(C))->a16)));
T328f58(C, t2);
T341f44(GE_void(((T328*)(C))->a16));
}
T341f45(GE_void(((T328*)(C))->a16));
T342f7(GE_void(((T328*)(C))->a17));
T344f44(GE_void(((T328*)(C))->a19));
while (1) {
t1 = (T344f30(GE_void(((T328*)(C))->a19)));
if (t1) {
break;
}
t2 = (T344f27(GE_void(((T328*)(C))->a19)));
T328f58(C, t2);
T344f45(GE_void(((T328*)(C))->a19));
}
T344f46(GE_void(((T328*)(C))->a19));
T345f7(GE_void(((T328*)(C))->a20));
T346f10(GE_void(((T328*)(C))->a22));
T346f10(GE_void(((T328*)(C))->a21));
((T328*)(C))->a2 = l3;
((T328*)(C))->a3 = l5;
((T328*)(C))->a6 = l4;
((T328*)(C))->a4 = l1;
((T328*)(C))->a5 = l2;
}
}
/* ET_INVARIANTS.set_validity_error */
void T1065f31(T0* C)
{
((T1065*)(C))->a8 = EIF_TRUE;
}
/* ET_INVARIANTS.set_validity_checked */
void T1065f30(T0* C)
{
((T1065*)(C))->a7 = EIF_TRUE;
}
/* ET_INVARIANTS.assertion */
T0* T1065f11(T0* C, T6 a1)
{
T0* t1;
T0* R = 0;
t1 = (T1065f12(C, a1));
R = (T1444x14673(GE_void(t1)));
return R;
}
/* ET_INVARIANTS.item */
T0* T1065f12(T0* C, T6 a1)
{
T6 t1;
T0* R = 0;
t1 = ((T6)((((T1065*)(C))->a4)-(a1)));
R = (((T1499*)(GE_void(((T1065*)(C))->a3)))->z2[t1]);
return R;
}
/* ET_INVARIANTS.reset_validity_checked */
void T1065f29(T0* C)
{
((T1065*)(C))->a8 = EIF_FALSE;
((T1065*)(C))->a7 = EIF_FALSE;
}
/* ET_FEATURE_CHECKER.set_supplier_handler */
void T328f62(T0* C, T0* a1)
{
((T328*)(C))->a27 = a1;
T331f16(GE_void(((T328*)(C))->a1), a1);
}
/* ET_TYPE_CHECKER.set_supplier_handler */
void T331f16(T0* C, T0* a1)
{
((T331*)(C))->a6 = a1;
}
/* ET_IMPLEMENTATION_CHECKER.check_features_validity */
void T396f24(T0* C, T1 a1)
{
T1 t1;
T0* l1 = 0;
T0* l2 = 0;
T0* l3 = 0;
T0* l4 = 0;
T0* l5 = 0;
T0* l6 = 0;
T0* l7 = 0;
T6 l8 = 0;
T6 l9 = 0;
if (((T396*)(C))->a3) {
l5 = (((T328*)(GE_void(((T396*)(C))->a4)))->a27);
T328f62(GE_void(((T396*)(C))->a4), ((T396*)(C))->a7);
}
l1 = (((T75*)(GE_void(((T396*)(C))->a8)))->a15);
l9 = (((T223*)(GE_void(l1)))->a2);
l8 = (T6)(GE_int32(1));
while (1) {
t1 = (T6f1((&l8), l9));
if (t1) {
break;
}
l2 = (T223f6(GE_void(l1), l8));
T208x16510(GE_void(l2));
l6 = (T208x16516(GE_void(l2)));
t1 = ((l6)!=(EIF_VOID));
if (t1) {
T349f19(GE_void(l6));
}
l7 = (T208x16517(GE_void(l2)));
t1 = ((l7)!=(EIF_VOID));
if (t1) {
T1064f19(GE_void(l7));
}
T396f26(C, l2, a1);
l8 = ((T6)((l8)+((T6)(GE_int32(1)))));
}
if (((T396*)(C))->a1) {
t1 = ((T1)(!(a1)));
} else {
t1 = EIF_FALSE;
}
if (t1) {
l8 = ((T6)((l9)+((T6)(GE_int32(1)))));
l9 = (((T223*)(GE_void(l1)))->a1);
while (1) {
t1 = (T6f1((&l8), l9));
if (t1) {
break;
}
l2 = (T223f6(GE_void(l1), l8));
T396f26(C, l2, a1);
l8 = ((T6)((l8)+((T6)(GE_int32(1)))));
}
}
l3 = (((T75*)(GE_void(((T396*)(C))->a8)))->a16);
l9 = (((T224*)(GE_void(l3)))->a2);
l8 = (T6)(GE_int32(1));
while (1) {
t1 = (T6f1((&l8), l9));
if (t1) {
break;
}
l4 = (T224f6(GE_void(l3), l8));
T207x16510(GE_void(l4));
l6 = (T207x16516(GE_void(l4)));
t1 = ((l6)!=(EIF_VOID));
if (t1) {
T349f19(GE_void(l6));
}
l7 = (T207x16517(GE_void(l4)));
t1 = ((l7)!=(EIF_VOID));
if (t1) {
T1064f19(GE_void(l7));
}
T396f27(C, l4, a1);
l8 = ((T6)((l8)+((T6)(GE_int32(1)))));
}
if (((T396*)(C))->a1) {
t1 = ((T1)(!(a1)));
} else {
t1 = EIF_FALSE;
}
if (t1) {
l8 = ((T6)((l9)+((T6)(GE_int32(1)))));
l9 = (((T224*)(GE_void(l3)))->a1);
while (1) {
t1 = (T6f1((&l8), l9));
if (t1) {
break;
}
l4 = (T224f6(GE_void(l3), l8));
T396f27(C, l4, a1);
l8 = ((T6)((l8)+((T6)(GE_int32(1)))));
}
}
if (((T396*)(C))->a3) {
T328f62(GE_void(((T396*)(C))->a4), l5);
}
}
/* ET_IMPLEMENTATION_CHECKER.check_procedure_validity */
void T396f27(T0* C, T0* a1, T1 a2)
{
T1 t1;
T0* t2;
if (((T396*)(C))->a1) {
t1 = ((T1)(!(a2)));
} else {
t1 = EIF_FALSE;
}
if (t1) {
T328f66(GE_void(((T396*)(C))->a4), ((T396*)(C))->a5);
}
T396f28(C, a1, a1, a2);
T328f65(GE_void(((T396*)(C))->a4), a1, ((T396*)(C))->a8);
T328f66(GE_void(((T396*)(C))->a4), EIF_VOID);
t1 = (((T328*)(GE_void(((T396*)(C))->a4)))->a25);
if (t1) {
T396f22(C, ((T396*)(C))->a8);
}
if (((T396*)(C))->a1) {
t1 = ((T1)(!(a2)));
} else {
t1 = EIF_FALSE;
}
if (t1) {
T865f38(GE_void(((T396*)(C))->a5));
while (1) {
t1 = (T865f18(GE_void(((T396*)(C))->a5)));
if (t1) {
break;
}
t2 = (T865f17(GE_void(((T396*)(C))->a5)));
T396f30(C, t2, a2);
T865f39(GE_void(((T396*)(C))->a5));
}
T865f40(GE_void(((T396*)(C))->a5));
}
}
/* DS_HASH_SET [ET_PROCEDURE].wipe_out */
void T865f40(T0* C)
{
T1 t1;
T865f49(C);
T865f45(C);
t1 = (T6f1(&(((T865*)(C))->a8), (T6)(GE_int32(0))));
if (t1) {
T865f50(C);
T865f51(C);
T865f52(C);
T865f53(C);
((T865*)(C))->a5 = (T6)(GE_int32(0));
((T865*)(C))->a6 = (T6)(GE_int32(0));
((T865*)(C))->a8 = (T6)(GE_int32(0));
}
((T865*)(C))->a7 = (T6)(GE_int32(0));
}
/* DS_HASH_SET [ET_PROCEDURE].slots_wipe_out */
void T865f53(T0* C)
{
T1 t1;
T6 l1 = 0;
l1 = ((T865*)(C))->a4;
while (1) {
t1 = ((T1)((l1)<((T6)(GE_int32(0)))));
if (t1) {
break;
}
((T132*)(GE_void(((T865*)(C))->a11)))->z2[l1] = ((T6)(GE_int32(0)));
l1 = ((T6)((l1)-((T6)(GE_int32(1)))));
}
}
/* DS_HASH_SET [ET_PROCEDURE].clashes_wipe_out */
void T865f52(T0* C)
{
T1 t1;
T6 l1 = 0;
l1 = ((T865*)(C))->a5;
while (1) {
t1 = ((T1)((l1)<((T6)(GE_int32(1)))));
if (t1) {
break;
}
((T132*)(GE_void(((T865*)(C))->a10)))->z2[l1] = ((T6)(GE_int32(0)));
l1 = ((T6)((l1)-((T6)(GE_int32(1)))));
}
}
/* DS_HASH_SET [ET_PROCEDURE].key_storage_wipe_out */
void T865f51(T0* C)
{
}
/* DS_HASH_SET [ET_PROCEDURE].item_storage_wipe_out */
void T865f50(T0* C)
{
T1 t1;
T6 l1 = 0;
T0* l2 = 0;
l1 = ((T865*)(C))->a5;
while (1) {
t1 = ((T1)((l1)<((T6)(GE_int32(1)))));
if (t1) {
break;
}
((T716*)(GE_void(((T865*)(C))->a2)))->z2[l1] = (l2);
l1 = ((T6)((l1)-((T6)(GE_int32(1)))));
}
}
/* DS_HASH_SET [ET_PROCEDURE].unset_found_item */
void T865f45(T0* C)
{
((T865*)(C))->a12 = (T6)(GE_int32(0));
}
/* DS_HASH_SET [ET_PROCEDURE].move_all_cursors_after */
void T865f49(T0* C)
{
T1 t1;
T0* l1 = 0;
T0* l2 = 0;
l1 = ((T865*)(C))->a1;
while (1) {
t1 = ((l1)==(EIF_VOID));
if (t1) {
break;
}
T1493f5(GE_void(l1), (T6)(GE_int32(-2)));
l2 = (((T1493*)(GE_void(l1)))->a2);
T1493f6(GE_void(l1), EIF_VOID);
l1 = l2;
}
}
/* DS_HASH_SET_CURSOR [ET_PROCEDURE].set_next_cursor */
void T1493f6(T0* C, T0* a1)
{
((T1493*)(C))->a2 = a1;
}
/* DS_HASH_SET_CURSOR [ET_PROCEDURE].set_position */
void T1493f5(T0* C, T6 a1)
{
((T1493*)(C))->a1 = a1;
}
/* DS_HASH_SET [ET_PROCEDURE].forth */
void T865f39(T0* C)
{
T865f48(C, ((T865*)(C))->a1);
}
/* DS_HASH_SET [ET_PROCEDURE].cursor_forth */
void T865f48(T0* C, T0* a1)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
T1 l3 = 0;
T6 l4 = 0;
l4 = (((T1493*)(GE_void(a1)))->a1);
t1 = (((((l4) == ((T6)(GE_int32(-1)))))));
if (t1) {
l3 = EIF_TRUE;
l1 = (T6)(GE_int32(0));
} else {
l3 = EIF_FALSE;
l1 = ((T6)((l4)+((T6)(GE_int32(1)))));
}
l2 = ((T865*)(C))->a5;
while (1) {
t1 = (T6f1((&l1), l2));
if (!(t1)) {
t2 = (T865f25(C, l1));
t1 = (T6f1(&t2, (T6)(GE_int32(-1))));
}
if (t1) {
break;
}
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
t1 = (T6f1((&l1), l2));
if (t1) {
T1493f5(GE_void(a1), (T6)(GE_int32(-2)));
t1 = ((T1)(!(l3)));
if (t1) {
T865f54(C, a1);
}
} else {
T1493f5(GE_void(a1), l1);
if (l3) {
T865f55(C, a1);
}
}
}
/* DS_HASH_SET [ET_PROCEDURE].add_traversing_cursor */
void T865f55(T0* C, T0* a1)
{
T1 t1;
T0* t2;
t1 = ((a1)!=(((T865*)(C))->a1));
if (t1) {
t2 = (((T1493*)(GE_void(((T865*)(C))->a1)))->a2);
T1493f6(GE_void(a1), t2);
T1493f6(GE_void(((T865*)(C))->a1), a1);
}
}
/* DS_HASH_SET [ET_PROCEDURE].remove_traversing_cursor */
void T865f54(T0* C, T0* a1)
{
T1 t1;
T0* t2;
T0* l1 = 0;
T0* l2 = 0;
t1 = ((a1)!=(((T865*)(C))->a1));
if (t1) {
l2 = ((T865*)(C))->a1;
l1 = (((T1493*)(GE_void(l2)))->a2);
while (1) {
t1 = ((l1)==(a1));
if (!(t1)) {
t1 = ((l1)==(EIF_VOID));
}
if (t1) {
break;
}
l2 = l1;
l1 = (((T1493*)(GE_void(l1)))->a2);
}
t1 = ((l1)==(a1));
if (t1) {
t2 = (((T1493*)(GE_void(a1)))->a2);
T1493f6(GE_void(l2), t2);
T1493f6(GE_void(a1), EIF_VOID);
}
}
}
/* DS_HASH_SET [ET_PROCEDURE].clashes_item */
T6 T865f25(T0* C, T6 a1)
{
T6 R = 0;
R = (((T132*)(GE_void(((T865*)(C))->a10)))->z2[a1]);
return R;
}
/* ET_IMPLEMENTATION_CHECKER.check_precursor_procedure_validity */
void T396f30(T0* C, T0* a1, T1 a2)
{
T1 t1;
if (((T396*)(C))->a1) {
t1 = ((T1)(!(a2)));
} else {
t1 = EIF_FALSE;
}
if (t1) {
T328f66(GE_void(((T396*)(C))->a4), ((T396*)(C))->a5);
}
T328f68(GE_void(((T396*)(C))->a4), a1, ((T396*)(C))->a8);
T328f66(GE_void(((T396*)(C))->a4), EIF_VOID);
t1 = (((T328*)(GE_void(((T396*)(C))->a4)))->a25);
if (t1) {
T396f22(C, ((T396*)(C))->a8);
}
}
/* ET_FEATURE_CHECKER.check_precursor_feature_validity */
void T328f68(T0* C, T0* a1, T0* a2)
{
T1 l1 = 0;
l1 = ((T328*)(C))->a32;
((T328*)(C))->a32 = EIF_TRUE;
T328f65(C, a1, a2);
((T328*)(C))->a32 = l1;
}
/* DS_HASH_SET [ET_PROCEDURE].item_for_iteration */
T0* T865f17(T0* C)
{
T0* R = 0;
R = (T865f22(C, ((T865*)(C))->a1));
return R;
}
/* DS_HASH_SET [ET_PROCEDURE].cursor_item */
T0* T865f22(T0* C, T0* a1)
{
T6 t1;
T0* R = 0;
t1 = (((T1493*)(GE_void(a1)))->a1);
R = (T865f35(C, t1));
return R;
}
/* DS_HASH_SET [ET_PROCEDURE].item_storage_item */
T0* T865f35(T0* C, T6 a1)
{
T0* R = 0;
R = (((T716*)(GE_void(((T865*)(C))->a2)))->z2[a1]);
return R;
}
/* DS_HASH_SET [ET_PROCEDURE].after */
T1 T865f18(T0* C)
{
T1 R = 0;
R = (T865f19(C, ((T865*)(C))->a1));
return R;
}
/* DS_HASH_SET [ET_PROCEDURE].cursor_after */
T1 T865f19(T0* C, T0* a1)
{
T6 t1;
T1 R = 0;
t1 = (((T1493*)(GE_void(a1)))->a1);
R = (((((t1) == ((T6)(GE_int32(-2)))))));
return R;
}
/* DS_HASH_SET [ET_PROCEDURE].start */
void T865f38(T0* C)
{
T865f47(C, ((T865*)(C))->a1);
}
/* DS_HASH_SET [ET_PROCEDURE].cursor_start */
void T865f47(T0* C, T0* a1)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
T1 l3 = 0;
t1 = (T865f23(C));
if (t1) {
T1493f5(GE_void(a1), (T6)(GE_int32(-2)));
} else {
l3 = (T865f24(C, a1));
l1 = (T6)(GE_int32(1));
l2 = ((T865*)(C))->a5;
while (1) {
t1 = (T6f1((&l1), l2));
if (!(t1)) {
t2 = (T865f25(C, l1));
t1 = (T6f1(&t2, (T6)(GE_int32(-1))));
}
if (t1) {
break;
}
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
t1 = (T6f1((&l1), l2));
if (t1) {
T1493f5(GE_void(a1), (T6)(GE_int32(-2)));
t1 = ((T1)(!(l3)));
if (t1) {
T865f54(C, a1);
}
} else {
T1493f5(GE_void(a1), l1);
if (l3) {
T865f55(C, a1);
}
}
}
}
/* DS_HASH_SET [ET_PROCEDURE].cursor_off */
T1 T865f24(T0* C, T0* a1)
{
T6 t1;
T1 R = 0;
t1 = (((T1493*)(GE_void(a1)))->a1);
R = ((T1)((t1)<((T6)(GE_int32(0)))));
return R;
}
/* DS_HASH_SET [ET_PROCEDURE].is_empty */
T1 T865f23(T0* C)
{
T1 R = 0;
R = (((((((T865*)(C))->a8) == ((T6)(GE_int32(0)))))));
return R;
}
/* ET_FEATURE_CHECKER.check_feature_validity */
void T328f65(T0* C, T0* a1, T0* a2)
{
T1 t1;
T0* t2;
T1 t3;
T0* l1 = 0;
T0* l2 = 0;
T0* l3 = 0;
T0* l4 = 0;
T0* l5 = 0;
T0* l6 = 0;
T0* l7 = 0;
T0* l8 = 0;
T0* l9 = 0;
T1 l10 = 0;
((T328*)(C))->a25 = EIF_FALSE;
l6 = (T246x16520(GE_void(a1)));
l7 = (T246x16503(GE_void(a1)));
l8 = (T75f94(GE_void(a2)));
t1 = (T75f60(GE_void(l7)));
t1 = ((T1)(!(t1)));
if (t1) {
T328f59(C);
t2 = (T328f36(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f176(t2);
} else {
T29f175(t2);
}
} else {
t1 = (T246x16506(GE_void(l6)));
if (t1) {
t1 = (T246x16507(GE_void(l6)));
if (t1) {
T328f59(C);
}
} else {
t1 = ((l7)!=(l8));
if (!(t1)) {
t3 = (T75f82(GE_void(a2)));
t1 = ((T1)(!(t3)));
}
if (t1) {
T328f65(C, l6, l7);
}
}
}
t1 = ((T1)(!(((T328*)(C))->a25)));
if (t1) {
l2 = ((T328*)(C))->a5;
((T328*)(C))->a5 = l6;
l1 = ((T328*)(C))->a4;
((T328*)(C))->a4 = a1;
l3 = ((T328*)(C))->a2;
((T328*)(C))->a2 = l8;
l5 = ((T328*)(C))->a3;
((T328*)(C))->a3 = a2;
l4 = ((T328*)(C))->a6;
((T328*)(C))->a6 = l7;
t2 = (T328f39(C));
t2 = (T26x3070(GE_void(t2)));
T75f219(GE_void(((T328*)(C))->a2), t2);
t1 = (((T75*)(GE_void(((T328*)(C))->a2)))->a8);
t1 = ((T1)(!(t1)));
if (!(t1)) {
t1 = (((T75*)(GE_void(((T328*)(C))->a2)))->a9);
}
if (t1) {
T328f59(C);
} else {
t2 = (T328f43(C));
t1 = (T216x3276(GE_void(t2)));
if (t1) {
t1 = ((l8)==(l7));
if (t1) {
l9 = (T246x16516(GE_void(l6)));
t1 = ((l9)!=(EIF_VOID));
if (t1) {
t3 = (((T349*)(GE_void(l9)))->a2);
t1 = ((T1)(!(t3)));
}
if (t1) {
l10 = ((T328*)(C))->a25;
t2 = (T328f37(C));
T328f57(GE_void(t2), l9, l6, l6, l7);
((T328*)(C))->a25 = l10;
}
}
T328f69(C, a1);
}
T246x6907T0(GE_void(a1), C);
t1 = ((((T328*)(C))->a3)==(((T328*)(C))->a6));
if (t1) {
T246x16508(GE_void(a1));
if (((T328*)(C))->a25) {
T246x16509(GE_void(a1));
}
}
}
T341f43(GE_void(((T328*)(C))->a16));
while (1) {
t1 = (T341f30(GE_void(((T328*)(C))->a16)));
if (t1) {
break;
}
t2 = (T341f27(GE_void(((T328*)(C))->a16)));
T328f58(C, t2);
T341f44(GE_void(((T328*)(C))->a16));
}
T341f45(GE_void(((T328*)(C))->a16));
T342f7(GE_void(((T328*)(C))->a17));
T344f44(GE_void(((T328*)(C))->a19));
while (1) {
t1 = (T344f30(GE_void(((T328*)(C))->a19)));
if (t1) {
break;
}
t2 = (T344f27(GE_void(((T328*)(C))->a19)));
T328f58(C, t2);
T344f45(GE_void(((T328*)(C))->a19));
}
T344f46(GE_void(((T328*)(C))->a19));
T345f7(GE_void(((T328*)(C))->a20));
T346f10(GE_void(((T328*)(C))->a22));
T346f10(GE_void(((T328*)(C))->a21));
((T328*)(C))->a2 = l3;
((T328*)(C))->a3 = l5;
((T328*)(C))->a6 = l4;
((T328*)(C))->a4 = l1;
((T328*)(C))->a5 = l2;
}
}
/* ET_FEATURE_CHECKER.build_preconditions_attachment_scope */
void T328f69(T0* C, T0* a1)
{
T0* t1;
T1 t2;
T0* l1 = 0;
T0* l2 = 0;
T6 l3 = 0;
T0* l4 = 0;
l4 = T252c39((T6)(GE_int32(30)));
T328f70(C, a1, l4);
t1 = (T246x16516(GE_void(a1)));
t2 = ((t1)!=(EIF_VOID));
if (t2) {
T252f41(GE_void(l4), a1);
}
l3 = (((T252*)(GE_void(l4)))->a1);
t2 = (((((l3) == ((T6)(GE_int32(0)))))));
if (t2) {
} else {
t2 = (((((l3) == ((T6)(GE_int32(1)))))));
if (t2) {
t1 = (T252f27(GE_void(l4)));
t1 = (T246x16516(GE_void(t1)));
T328f71(C, t1);
} else {
l1 = ((T328*)(C))->a22;
((T328*)(C))->a22 = (T328f41(C));
T346f11(GE_void(((T328*)(C))->a22), l1);
l2 = (T328f41(C));
T252f42(GE_void(l4));
t1 = (T252f33(GE_void(l4)));
t1 = (T246x16516(GE_void(t1)));
T328f71(C, t1);
T346f11(GE_void(l2), ((T328*)(C))->a22);
while (1) {
t2 = (T252f37(GE_void(l4)));
if (t2) {
break;
}
T346f11(GE_void(((T328*)(C))->a22), l1);
t1 = (T252f33(GE_void(l4)));
t1 = (T246x16516(GE_void(t1)));
T328f71(C, t1);
T346f12(GE_void(l2), ((T328*)(C))->a22);
T252f43(GE_void(l4));
}
T328f72(C, ((T328*)(C))->a22);
((T328*)(C))->a22 = l1;
t1 = (T252f33(GE_void(l4)));
t1 = (T246x16516(GE_void(t1)));
T328f71(C, t1);
T346f12(GE_void(((T328*)(C))->a22), l2);
T328f72(C, l2);
}
}
}
/* ET_FEATURE_CHECKER.free_attachment_scope */
void T328f72(T0* C, T0* a1)
{
T348f13(GE_void(((T328*)(C))->a24), a1);
}
/* ET_FEATURE_CHECKER.new_attachment_scope */
T0* T328f41(T0* C)
{
T1 t1;
T0* R = 0;
t1 = (T348f10(GE_void(((T328*)(C))->a24)));
if (t1) {
R = T346c9();
} else {
R = (T348f6(GE_void(((T328*)(C))->a24)));
T348f14(GE_void(((T328*)(C))->a24));
}
return R;
}
/* ET_FEATURE_CHECKER.build_assertions_attachment_scope */
void T328f71(T0* C, T0* a1)
{
T1 t1;
T0* t2;
T6 l1 = 0;
T6 l2 = 0;
T0* l3 = 0;
l2 = (((T349*)(GE_void(a1)))->a1);
l1 = (T6)(GE_int32(1));
while (1) {
t1 = (T6f1((&l1), l2));
if (t1) {
break;
}
t2 = (T349f7(GE_void(a1), l1));
l3 = (T352x14671(GE_void(t2)));
t1 = ((l3)!=(EIF_VOID));
if (t1) {
T347f4(GE_void(((T328*)(C))->a23), l3, ((T328*)(C))->a22);
}
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
/* ET_FEATURE_CHECKER.add_precursors_with_preconditions_recursive */
void T328f70(T0* C, T0* a1, T0* a2)
{
T1 t1;
T0* t2;
T0* l1 = 0;
T0* l2 = 0;
T6 l3 = 0;
T6 l4 = 0;
l1 = (T246x16502(GE_void(a1)));
t1 = ((l1)!=(EIF_VOID));
if (t1) {
T328f70(C, l1, a2);
t2 = (T246x16516(GE_void(l1)));
t1 = ((t2)!=(EIF_VOID));
if (t1) {
T252f41(GE_void(a2), l1);
}
l2 = (T246x16420(GE_void(a1)));
t1 = ((l2)!=(EIF_VOID));
if (t1) {
l3 = (T6)(GE_int32(1));
l4 = (((T351*)(GE_void(l2)))->a2);
while (1) {
t1 = (T6f1((&l3), l4));
if (t1) {
break;
}
l1 = (T351f3(GE_void(l2), l3));
t1 = ((l1)!=(EIF_VOID));
if (t1) {
T328f70(C, l1, a2);
t2 = (T246x16516(GE_void(l1)));
t1 = ((t2)!=(EIF_VOID));
if (t1) {
T252f41(GE_void(a2), l1);
}
}
l3 = ((T6)((l3)+((T6)(GE_int32(1)))));
}
}
}
}
/* ET_FEATURE_CHECKER.feature_checker */
T0* T328f37(T0* C)
{
T0* R = 0;
R = C;
return R;
}
/* ET_IMPLEMENTATION_CHECKER.check_assertions_validity */
void T396f28(T0* C, T0* a1, T0* a2, T1 a3)
{
T1 t1;
T0* t2;
T0* l1 = 0;
T0* l2 = 0;
T0* l3 = 0;
T0* l4 = 0;
T0* l5 = 0;
T6 l6 = 0;
T6 l7 = 0;
l3 = (T246x16503(GE_void(a1)));
l1 = (T246x16516(GE_void(a1)));
t1 = ((l1)!=(EIF_VOID));
if (t1) {
T328f57(GE_void(((T396*)(C))->a4), l1, a1, a2, ((T396*)(C))->a8);
t1 = (((T328*)(GE_void(((T396*)(C))->a4)))->a25);
if (t1) {
T396f22(C, ((T396*)(C))->a8);
}
}
l2 = (T246x16517(GE_void(a1)));
t1 = ((l2)!=(EIF_VOID));
if (t1) {
T328f67(GE_void(((T396*)(C))->a4), l2, a1, a2, ((T396*)(C))->a8);
t1 = (((T328*)(GE_void(((T396*)(C))->a4)))->a25);
if (t1) {
T396f22(C, ((T396*)(C))->a8);
}
}
if (!(((T396*)(C))->a2)) {
t1 = (((T396*)(C))->a1);
} else {
t1 = EIF_TRUE;
}
if (t1) {
t1 = ((T1)(!(a3)));
}
if (t1) {
l4 = (T246x16502(GE_void(a1)));
t1 = ((l4)!=(EIF_VOID));
if (t1) {
T396f28(C, l4, a2, a3);
l5 = (T246x16420(GE_void(a1)));
t1 = ((l5)!=(EIF_VOID));
if (t1) {
l7 = (((T351*)(GE_void(l5)))->a2);
l6 = (T6)(GE_int32(1));
while (1) {
t1 = (T6f1((&l6), l7));
if (t1) {
break;
}
t2 = (T351f3(GE_void(l5), l6));
T396f28(C, t2, a2, a3);
l6 = ((T6)((l6)+((T6)(GE_int32(1)))));
}
}
}
}
}
/* ET_FEATURE_CHECKER.check_postconditions_validity */
void T328f67(T0* C, T0* a1, T0* a2, T0* a3, T0* a4)
{
T1 t1;
T0* t2;
T1 t3;
T0* l1 = 0;
T0* l2 = 0;
T0* l3 = 0;
T0* l4 = 0;
T0* l5 = 0;
T1 l6 = 0;
T0* l7 = 0;
T6 l8 = 0;
T6 l9 = 0;
T0* l10 = 0;
T0* l11 = 0;
T0* l12 = 0;
T1 l13 = 0;
T0* l14 = 0;
T0* l15 = 0;
T0* l16 = 0;
T6 l17 = 0;
T0* l18 = 0;
T1 l19 = 0;
((T328*)(C))->a25 = EIF_FALSE;
l14 = (T246x16520(GE_void(a2)));
l15 = (T246x16503(GE_void(a2)));
l16 = (T75f94(GE_void(a4)));
t1 = (T75f60(GE_void(l15)));
t1 = ((T1)(!(t1)));
if (t1) {
T328f59(C);
t2 = (T328f36(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f176(t2);
} else {
T29f175(t2);
}
} else {
t1 = (((T1064*)(GE_void(a1)))->a5);
if (t1) {
t1 = (((T1064*)(GE_void(a1)))->a6);
if (t1) {
T328f59(C);
}
} else {
t1 = ((l15)!=(l16));
if (!(t1)) {
t3 = (T75f82(GE_void(a4)));
t1 = ((T1)(!(t3)));
}
if (t1) {
T328f67(C, a1, l14, l14, l15);
}
}
}
t1 = ((T1)(!(((T328*)(C))->a25)));
if (t1) {
l2 = ((T328*)(C))->a5;
((T328*)(C))->a5 = l14;
l1 = ((T328*)(C))->a4;
((T328*)(C))->a4 = a3;
l5 = ((T328*)(C))->a3;
((T328*)(C))->a3 = a4;
l3 = ((T328*)(C))->a2;
((T328*)(C))->a2 = l16;
l4 = ((T328*)(C))->a6;
((T328*)(C))->a6 = l15;
l6 = ((T328*)(C))->a31;
((T328*)(C))->a31 = EIF_TRUE;
t2 = (T328f39(C));
t2 = (T26x3070(GE_void(t2)));
T75f219(GE_void(((T328*)(C))->a2), t2);
t1 = (((T75*)(GE_void(((T328*)(C))->a2)))->a8);
t1 = ((T1)(!(t1)));
if (!(t1)) {
t1 = (((T75*)(GE_void(((T328*)(C))->a2)))->a9);
}
if (t1) {
T328f59(C);
} else {
t2 = (T328f43(C));
t1 = (T216x3276(GE_void(t2)));
if (t1) {
t1 = ((l16)==(l15));
if (t1) {
l18 = (T246x16516(GE_void(l14)));
t1 = ((l18)!=(EIF_VOID));
if (t1) {
t3 = (((T349*)(GE_void(l18)))->a2);
t1 = ((T1)(!(t3)));
}
if (t1) {
l19 = ((T328*)(C))->a25;
t2 = (T328f37(C));
T328f57(GE_void(t2), l18, l14, l14, l15);
((T328*)(C))->a25 = l19;
}
}
T328f69(C, l14);
}
t2 = (T328f40(C));
l11 = (T216x3182(GE_void(t2)));
l7 = (T328f38(C, ((T328*)(C))->a3));
l17 = (T342f3(GE_void(((T328*)(C))->a17)));
l9 = (((T1064*)(GE_void(a1)))->a2);
l8 = (T6)(GE_int32(1));
while (1) {
t1 = (T6f1((&l8), l9));
if (t1) {
break;
}
t2 = (T1064f9(GE_void(a1), l8));
l10 = (T352x14671(GE_void(t2)));
t1 = ((l10)!=(EIF_VOID));
if (t1) {
if (!(l13)) {
l13 = (((T328*)(C))->a25);
} else {
l13 = EIF_TRUE;
}
T328f60(C, l10, l7, l11);
if (((T328*)(C))->a25) {
} else {
t1 = (T340f10(GE_void(l7), l11, ((T328*)(C))->a6));
t1 = ((T1)(!(t1)));
if (t1) {
T328f59(C);
l12 = (T340f11(GE_void(l7)));
t2 = (T328f36(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f192(t2, ((T328*)(C))->a2, ((T328*)(C))->a6, l10, l12);
} else {
T29f191(t2, ((T328*)(C))->a2, ((T328*)(C))->a6, l10, l12);
}
}
}
T340f57(GE_void(l7));
T343f9(GE_void(((T328*)(C))->a18), l10, ((T328*)(C))->a17, ((T328*)(C))->a6);
if (!(((T328*)(C))->a25)) {
((T328*)(C))->a25 = (((T343*)(GE_void(((T328*)(C))->a18)))->a1);
} else {
((T328*)(C))->a25 = EIF_TRUE;
}
t2 = (T328f43(C));
t1 = (T216x3276(GE_void(t2)));
if (t1) {
T347f4(GE_void(((T328*)(C))->a23), l10, ((T328*)(C))->a22);
}
}
l8 = ((T6)((l8)+((T6)(GE_int32(1)))));
}
T342f8(GE_void(((T328*)(C))->a17), l17);
T328f58(C, l7);
if (!(((T328*)(C))->a25)) {
((T328*)(C))->a25 = (l13);
} else {
((T328*)(C))->a25 = EIF_TRUE;
}
t1 = ((((T328*)(C))->a3)==(((T328*)(C))->a6));
if (t1) {
T1064f20(GE_void(a1));
if (((T328*)(C))->a25) {
T1064f21(GE_void(a1));
}
}
}
((T328*)(C))->a31 = l6;
T341f43(GE_void(((T328*)(C))->a16));
while (1) {
t1 = (T341f30(GE_void(((T328*)(C))->a16)));
if (t1) {
break;
}
t2 = (T341f27(GE_void(((T328*)(C))->a16)));
T328f58(C, t2);
T341f44(GE_void(((T328*)(C))->a16));
}
T341f45(GE_void(((T328*)(C))->a16));
T342f7(GE_void(((T328*)(C))->a17));
T344f44(GE_void(((T328*)(C))->a19));
while (1) {
t1 = (T344f30(GE_void(((T328*)(C))->a19)));
if (t1) {
break;
}
t2 = (T344f27(GE_void(((T328*)(C))->a19)));
T328f58(C, t2);
T344f45(GE_void(((T328*)(C))->a19));
}
T344f46(GE_void(((T328*)(C))->a19));
T345f7(GE_void(((T328*)(C))->a20));
T346f10(GE_void(((T328*)(C))->a22));
T346f10(GE_void(((T328*)(C))->a21));
((T328*)(C))->a2 = l3;
((T328*)(C))->a3 = l5;
((T328*)(C))->a6 = l4;
((T328*)(C))->a4 = l1;
((T328*)(C))->a5 = l2;
}
}
/* ET_POSTCONDITIONS.set_validity_error */
void T1064f21(T0* C)
{
((T1064*)(C))->a6 = EIF_TRUE;
}
/* ET_POSTCONDITIONS.set_validity_checked */
void T1064f20(T0* C)
{
((T1064*)(C))->a5 = EIF_TRUE;
}
/* ET_POSTCONDITIONS.assertion */
T0* T1064f9(T0* C, T6 a1)
{
T0* t1;
T0* R = 0;
t1 = (T1064f12(C, a1));
R = (T1444x14673(GE_void(t1)));
return R;
}
/* ET_POSTCONDITIONS.item */
T0* T1064f12(T0* C, T6 a1)
{
T6 t1;
T0* R = 0;
t1 = ((T6)((((T1064*)(C))->a2)-(a1)));
R = (((T1499*)(GE_void(((T1064*)(C))->a3)))->z2[t1]);
return R;
}
/* ET_FEATURE_CHECKER.set_precursor_procedures */
void T328f66(T0* C, T0* a1)
{
((T328*)(C))->a30 = a1;
}
/* ET_IMPLEMENTATION_CHECKER.check_query_validity */
void T396f26(T0* C, T0* a1, T1 a2)
{
T1 t1;
T0* t2;
if (((T396*)(C))->a1) {
t1 = ((T1)(!(a2)));
} else {
t1 = EIF_FALSE;
}
if (t1) {
T328f64(GE_void(((T396*)(C))->a4), ((T396*)(C))->a6);
}
T396f28(C, a1, a1, a2);
T328f65(GE_void(((T396*)(C))->a4), a1, ((T396*)(C))->a8);
T328f64(GE_void(((T396*)(C))->a4), EIF_VOID);
t1 = (((T328*)(GE_void(((T396*)(C))->a4)))->a25);
if (t1) {
T396f22(C, ((T396*)(C))->a8);
}
if (((T396*)(C))->a1) {
t1 = ((T1)(!(a2)));
} else {
t1 = EIF_FALSE;
}
if (t1) {
T866f38(GE_void(((T396*)(C))->a6));
while (1) {
t1 = (T866f18(GE_void(((T396*)(C))->a6)));
if (t1) {
break;
}
t2 = (T866f17(GE_void(((T396*)(C))->a6)));
T396f29(C, t2, a2);
T866f39(GE_void(((T396*)(C))->a6));
}
T866f40(GE_void(((T396*)(C))->a6));
}
}
/* DS_HASH_SET [ET_QUERY].wipe_out */
void T866f40(T0* C)
{
T1 t1;
T866f49(C);
T866f45(C);
t1 = (T6f1(&(((T866*)(C))->a8), (T6)(GE_int32(0))));
if (t1) {
T866f50(C);
T866f51(C);
T866f52(C);
T866f53(C);
((T866*)(C))->a5 = (T6)(GE_int32(0));
((T866*)(C))->a6 = (T6)(GE_int32(0));
((T866*)(C))->a8 = (T6)(GE_int32(0));
}
((T866*)(C))->a7 = (T6)(GE_int32(0));
}
/* DS_HASH_SET [ET_QUERY].slots_wipe_out */
void T866f53(T0* C)
{
T1 t1;
T6 l1 = 0;
l1 = ((T866*)(C))->a4;
while (1) {
t1 = ((T1)((l1)<((T6)(GE_int32(0)))));
if (t1) {
break;
}
((T132*)(GE_void(((T866*)(C))->a11)))->z2[l1] = ((T6)(GE_int32(0)));
l1 = ((T6)((l1)-((T6)(GE_int32(1)))));
}
}
/* DS_HASH_SET [ET_QUERY].clashes_wipe_out */
void T866f52(T0* C)
{
T1 t1;
T6 l1 = 0;
l1 = ((T866*)(C))->a5;
while (1) {
t1 = ((T1)((l1)<((T6)(GE_int32(1)))));
if (t1) {
break;
}
((T132*)(GE_void(((T866*)(C))->a10)))->z2[l1] = ((T6)(GE_int32(0)));
l1 = ((T6)((l1)-((T6)(GE_int32(1)))));
}
}
/* DS_HASH_SET [ET_QUERY].key_storage_wipe_out */
void T866f51(T0* C)
{
}
/* DS_HASH_SET [ET_QUERY].item_storage_wipe_out */
void T866f50(T0* C)
{
T1 t1;
T6 l1 = 0;
T0* l2 = 0;
l1 = ((T866*)(C))->a5;
while (1) {
t1 = ((T1)((l1)<((T6)(GE_int32(1)))));
if (t1) {
break;
}
((T722*)(GE_void(((T866*)(C))->a2)))->z2[l1] = (l2);
l1 = ((T6)((l1)-((T6)(GE_int32(1)))));
}
}
/* DS_HASH_SET [ET_QUERY].unset_found_item */
void T866f45(T0* C)
{
((T866*)(C))->a12 = (T6)(GE_int32(0));
}
/* DS_HASH_SET [ET_QUERY].move_all_cursors_after */
void T866f49(T0* C)
{
T1 t1;
T0* l1 = 0;
T0* l2 = 0;
l1 = ((T866*)(C))->a1;
while (1) {
t1 = ((l1)==(EIF_VOID));
if (t1) {
break;
}
T1494f5(GE_void(l1), (T6)(GE_int32(-2)));
l2 = (((T1494*)(GE_void(l1)))->a2);
T1494f6(GE_void(l1), EIF_VOID);
l1 = l2;
}
}
/* DS_HASH_SET_CURSOR [ET_QUERY].set_next_cursor */
void T1494f6(T0* C, T0* a1)
{
((T1494*)(C))->a2 = a1;
}
/* DS_HASH_SET_CURSOR [ET_QUERY].set_position */
void T1494f5(T0* C, T6 a1)
{
((T1494*)(C))->a1 = a1;
}
/* DS_HASH_SET [ET_QUERY].forth */
void T866f39(T0* C)
{
T866f48(C, ((T866*)(C))->a1);
}
/* DS_HASH_SET [ET_QUERY].cursor_forth */
void T866f48(T0* C, T0* a1)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
T1 l3 = 0;
T6 l4 = 0;
l4 = (((T1494*)(GE_void(a1)))->a1);
t1 = (((((l4) == ((T6)(GE_int32(-1)))))));
if (t1) {
l3 = EIF_TRUE;
l1 = (T6)(GE_int32(0));
} else {
l3 = EIF_FALSE;
l1 = ((T6)((l4)+((T6)(GE_int32(1)))));
}
l2 = ((T866*)(C))->a5;
while (1) {
t1 = (T6f1((&l1), l2));
if (!(t1)) {
t2 = (T866f25(C, l1));
t1 = (T6f1(&t2, (T6)(GE_int32(-1))));
}
if (t1) {
break;
}
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
t1 = (T6f1((&l1), l2));
if (t1) {
T1494f5(GE_void(a1), (T6)(GE_int32(-2)));
t1 = ((T1)(!(l3)));
if (t1) {
T866f54(C, a1);
}
} else {
T1494f5(GE_void(a1), l1);
if (l3) {
T866f55(C, a1);
}
}
}
/* DS_HASH_SET [ET_QUERY].add_traversing_cursor */
void T866f55(T0* C, T0* a1)
{
T1 t1;
T0* t2;
t1 = ((a1)!=(((T866*)(C))->a1));
if (t1) {
t2 = (((T1494*)(GE_void(((T866*)(C))->a1)))->a2);
T1494f6(GE_void(a1), t2);
T1494f6(GE_void(((T866*)(C))->a1), a1);
}
}
/* DS_HASH_SET [ET_QUERY].remove_traversing_cursor */
void T866f54(T0* C, T0* a1)
{
T1 t1;
T0* t2;
T0* l1 = 0;
T0* l2 = 0;
t1 = ((a1)!=(((T866*)(C))->a1));
if (t1) {
l2 = ((T866*)(C))->a1;
l1 = (((T1494*)(GE_void(l2)))->a2);
while (1) {
t1 = ((l1)==(a1));
if (!(t1)) {
t1 = ((l1)==(EIF_VOID));
}
if (t1) {
break;
}
l2 = l1;
l1 = (((T1494*)(GE_void(l1)))->a2);
}
t1 = ((l1)==(a1));
if (t1) {
t2 = (((T1494*)(GE_void(a1)))->a2);
T1494f6(GE_void(l2), t2);
T1494f6(GE_void(a1), EIF_VOID);
}
}
}
/* DS_HASH_SET [ET_QUERY].clashes_item */
T6 T866f25(T0* C, T6 a1)
{
T6 R = 0;
R = (((T132*)(GE_void(((T866*)(C))->a10)))->z2[a1]);
return R;
}
/* ET_IMPLEMENTATION_CHECKER.check_precursor_query_validity */
void T396f29(T0* C, T0* a1, T1 a2)
{
T1 t1;
if (((T396*)(C))->a1) {
t1 = ((T1)(!(a2)));
} else {
t1 = EIF_FALSE;
}
if (t1) {
T328f64(GE_void(((T396*)(C))->a4), ((T396*)(C))->a6);
}
T328f68(GE_void(((T396*)(C))->a4), a1, ((T396*)(C))->a8);
T328f64(GE_void(((T396*)(C))->a4), EIF_VOID);
t1 = (((T328*)(GE_void(((T396*)(C))->a4)))->a25);
if (t1) {
T396f22(C, ((T396*)(C))->a8);
}
}
/* DS_HASH_SET [ET_QUERY].item_for_iteration */
T0* T866f17(T0* C)
{
T0* R = 0;
R = (T866f22(C, ((T866*)(C))->a1));
return R;
}
/* DS_HASH_SET [ET_QUERY].cursor_item */
T0* T866f22(T0* C, T0* a1)
{
T6 t1;
T0* R = 0;
t1 = (((T1494*)(GE_void(a1)))->a1);
R = (T866f35(C, t1));
return R;
}
/* DS_HASH_SET [ET_QUERY].item_storage_item */
T0* T866f35(T0* C, T6 a1)
{
T0* R = 0;
R = (((T722*)(GE_void(((T866*)(C))->a2)))->z2[a1]);
return R;
}
/* DS_HASH_SET [ET_QUERY].after */
T1 T866f18(T0* C)
{
T1 R = 0;
R = (T866f19(C, ((T866*)(C))->a1));
return R;
}
/* DS_HASH_SET [ET_QUERY].cursor_after */
T1 T866f19(T0* C, T0* a1)
{
T6 t1;
T1 R = 0;
t1 = (((T1494*)(GE_void(a1)))->a1);
R = (((((t1) == ((T6)(GE_int32(-2)))))));
return R;
}
/* DS_HASH_SET [ET_QUERY].start */
void T866f38(T0* C)
{
T866f47(C, ((T866*)(C))->a1);
}
/* DS_HASH_SET [ET_QUERY].cursor_start */
void T866f47(T0* C, T0* a1)
{
T1 t1;
T6 t2;
T6 l1 = 0;
T6 l2 = 0;
T1 l3 = 0;
t1 = (T866f23(C));
if (t1) {
T1494f5(GE_void(a1), (T6)(GE_int32(-2)));
} else {
l3 = (T866f24(C, a1));
l1 = (T6)(GE_int32(1));
l2 = ((T866*)(C))->a5;
while (1) {
t1 = (T6f1((&l1), l2));
if (!(t1)) {
t2 = (T866f25(C, l1));
t1 = (T6f1(&t2, (T6)(GE_int32(-1))));
}
if (t1) {
break;
}
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
t1 = (T6f1((&l1), l2));
if (t1) {
T1494f5(GE_void(a1), (T6)(GE_int32(-2)));
t1 = ((T1)(!(l3)));
if (t1) {
T866f54(C, a1);
}
} else {
T1494f5(GE_void(a1), l1);
if (l3) {
T866f55(C, a1);
}
}
}
}
/* DS_HASH_SET [ET_QUERY].cursor_off */
T1 T866f24(T0* C, T0* a1)
{
T6 t1;
T1 R = 0;
t1 = (((T1494*)(GE_void(a1)))->a1);
R = ((T1)((t1)<((T6)(GE_int32(0)))));
return R;
}
/* DS_HASH_SET [ET_QUERY].is_empty */
T1 T866f23(T0* C)
{
T1 R = 0;
R = (((((((T866*)(C))->a8) == ((T6)(GE_int32(0)))))));
return R;
}
/* ET_FEATURE_CHECKER.set_precursor_queries */
void T328f64(T0* C, T0* a1)
{
((T328*)(C))->a29 = a1;
}
/* ET_SUPPLIER_BUILDER.set */
void T867f6(T0* C, T0* a1, T0* a2)
{
((T867*)(C))->a2 = a1;
((T867*)(C))->a1 = a2;
}
/* ET_IMPLEMENTATION_CHECKER.current_system */
T0* T396f13(T0* C)
{
T0* R = 0;
R = (T75f61(GE_void(((T396*)(C))->a8)));
return R;
}
/* ET_IMPLEMENTATION_CHECKER.set_fatal_error */
void T396f22(T0* C, T0* a1)
{
T75f216(GE_void(a1));
T75f217(GE_void(a1));
}
/* ET_IMPLEMENTATION_CHECKER.set_suppliers_enabled */
void T396f17(T0* C, T1 a1)
{
((T396*)(C))->a3 = a1;
}
/* ET_IMPLEMENTATION_CHECKER.set_short_mode */
void T396f21(T0* C, T1 a1)
{
((T396*)(C))->a10 = a1;
}
/* ET_IMPLEMENTATION_CHECKER.set_flat_dbc_mode */
void T396f16(T0* C, T1 a1)
{
((T396*)(C))->a2 = a1;
}
/* ET_IMPLEMENTATION_CHECKER.set_flat_mode */
void T396f15(T0* C, T1 a1)
{
((T396*)(C))->a1 = a1;
}
/* ET_IMPLEMENTATION_CHECKER.make */
T0* T396c14(void)
{
T0* C;
T0* l1 = 0;
C = GE_new396(EIF_TRUE);
l1 = T328c56();
T396f18(C, l1);
return C;
}
/* ET_IMPLEMENTATION_CHECKER.make_with_feature_checker */
void T396f18(T0* C, T0* a1)
{
T0* l1 = 0;
T396f19(C);
((T396*)(C))->a4 = a1;
((T396*)(C))->a5 = T865c37((T6)(GE_int32(10)));
((T396*)(C))->a6 = T866c37((T6)(GE_int32(10)));
l1 = T864c38((T6)(GE_int32(10000)));
((T396*)(C))->a7 = T867c5();
T867f6(GE_void(((T396*)(C))->a7), ((T396*)(C))->a8, l1);
((T396*)(C))->a9 = T864c38((T6)(GE_int32(0)));
}
/* ET_SUPPLIER_BUILDER.make */
T0* T867c5(void)
{
T0* C;
T0* t1;
C = GE_new867(EIF_TRUE);
t1 = (T867f3(C));
((T867*)(C))->a2 = (T74f1(GE_void(t1)));
((T867*)(C))->a1 = (T867f4(C));
return C;
}
/* ET_SUPPLIER_BUILDER.dummy_suppliers */
unsigned char ge945os29727 = '\0';
T0* ge945ov29727;
T0* T867f4(T0* C)
{
T0* R = 0;
if (ge945os29727) {
return ge945ov29727;
} else {
ge945os29727 = '\1';
ge945ov29727 = R;
}
R = T864c38((T6)(GE_int32(0)));
ge945ov29727 = R;
return R;
}
/* ET_SUPPLIER_BUILDER.tokens */
T0* T867f3(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* DS_HASH_SET [ET_QUERY].make */
T0* T866c37(T6 a1)
{
T0* C;
T6 t1;
T0* t2;
C = GE_new866(EIF_TRUE);
((T866*)(C))->a3 = a1;
t1 = ((T6)((a1)+((T6)(GE_int32(1)))));
T866f41(C, t1);
t1 = ((T6)((a1)+((T6)(GE_int32(1)))));
T866f42(C, t1);
t1 = ((T6)((a1)+((T6)(GE_int32(1)))));
T866f43(C, t1);
((T866*)(C))->a4 = (T866f21(C, a1));
t1 = ((T6)((((T866*)(C))->a4)+((T6)(GE_int32(1)))));
T866f44(C, t1);
((T866*)(C))->a5 = (T6)(GE_int32(0));
((T866*)(C))->a6 = (T6)(GE_int32(0));
((T866*)(C))->a7 = (T6)(GE_int32(0));
T866f45(C);
t2 = (T866f36(C));
T866f46(C, t2);
return C;
}
/* DS_HASH_SET [ET_QUERY].set_internal_cursor */
void T866f46(T0* C, T0* a1)
{
((T866*)(C))->a1 = a1;
}
/* DS_HASH_SET [ET_QUERY].new_cursor */
T0* T866f36(T0* C)
{
T0* R = 0;
R = T1494c4(C);
return R;
}
/* DS_HASH_SET_CURSOR [ET_QUERY].make */
T0* T1494c4(T0* a1)
{
T0* C;
C = GE_new1494(EIF_TRUE);
((T1494*)(C))->a3 = a1;
((T1494*)(C))->a1 = ((T6)(GE_int32(-1)));
return C;
}
/* DS_HASH_SET [ET_QUERY].make_slots */
void T866f44(T0* C, T6 a1)
{
T0* t1;
t1 = (T866f20(C));
((T866*)(C))->a11 = (T134f2(GE_void(t1), (T6)(GE_int32(0)), a1));
}
/* DS_HASH_SET [ET_QUERY].special_integer_ */
T0* T866f20(T0* C)
{
T0* R = 0;
if (ge232os5405) {
return ge232ov5405;
} else {
ge232os5405 = '\1';
ge232ov5405 = R;
}
R = T134c6();
ge232ov5405 = R;
return R;
}
/* DS_HASH_SET [ET_QUERY].new_modulus */
T6 T866f21(T0* C, T6 a1)
{
T6 t1;
T6 R = 0;
t1 = ((T6)((a1)+((T6)(GE_int32(1)))));
t1 = ((T6)((t1)*((T6)(GE_int32(3)))));
R = ((T6)((t1)/((T6)(GE_int32(2)))));
return R;
}
/* DS_HASH_SET [ET_QUERY].make_clashes */
void T866f43(T0* C, T6 a1)
{
T0* t1;
t1 = (T866f20(C));
((T866*)(C))->a10 = (T134f2(GE_void(t1), (T6)(GE_int32(0)), a1));
}
/* DS_HASH_SET [ET_QUERY].make_key_storage */
void T866f42(T0* C, T6 a1)
{
}
/* DS_HASH_SET [ET_QUERY].make_item_storage */
void T866f41(T0* C, T6 a1)
{
T0* l1 = 0;
((T866*)(C))->a9 = T721c5();
((T866*)(C))->a2 = (T721f3(GE_void(((T866*)(C))->a9), l1, a1));
}
/* KL_SPECIAL_ROUTINES [ET_QUERY].make_filled */
T0* T721f3(T0* C, T0* a1, T6 a2)
{
T0* R = 0;
R = T722c10(a1, a2);
return R;
}
/* SPECIAL [ET_QUERY].make_filled */
T0* T722c10(T0* a1, T6 a2)
{
T0* C;
T6 t1;
C = GE_new722(a2, EIF_TRUE);
T722f7(C, a2);
t1 = ((T6)((a2)-((T6)(GE_int32(1)))));
T722f9(C, a1, (T6)(GE_int32(0)), t1);
return C;
}
/* DS_HASH_SET [ET_PROCEDURE].make */
T0* T865c37(T6 a1)
{
T0* C;
T6 t1;
T0* t2;
C = GE_new865(EIF_TRUE);
((T865*)(C))->a3 = a1;
t1 = ((T6)((a1)+((T6)(GE_int32(1)))));
T865f41(C, t1);
t1 = ((T6)((a1)+((T6)(GE_int32(1)))));
T865f42(C, t1);
t1 = ((T6)((a1)+((T6)(GE_int32(1)))));
T865f43(C, t1);
((T865*)(C))->a4 = (T865f21(C, a1));
t1 = ((T6)((((T865*)(C))->a4)+((T6)(GE_int32(1)))));
T865f44(C, t1);
((T865*)(C))->a5 = (T6)(GE_int32(0));
((T865*)(C))->a6 = (T6)(GE_int32(0));
((T865*)(C))->a7 = (T6)(GE_int32(0));
T865f45(C);
t2 = (T865f36(C));
T865f46(C, t2);
return C;
}
/* DS_HASH_SET [ET_PROCEDURE].set_internal_cursor */
void T865f46(T0* C, T0* a1)
{
((T865*)(C))->a1 = a1;
}
/* DS_HASH_SET [ET_PROCEDURE].new_cursor */
T0* T865f36(T0* C)
{
T0* R = 0;
R = T1493c4(C);
return R;
}
/* DS_HASH_SET_CURSOR [ET_PROCEDURE].make */
T0* T1493c4(T0* a1)
{
T0* C;
C = GE_new1493(EIF_TRUE);
((T1493*)(C))->a3 = a1;
((T1493*)(C))->a1 = ((T6)(GE_int32(-1)));
return C;
}
/* DS_HASH_SET [ET_PROCEDURE].make_slots */
void T865f44(T0* C, T6 a1)
{
T0* t1;
t1 = (T865f20(C));
((T865*)(C))->a11 = (T134f2(GE_void(t1), (T6)(GE_int32(0)), a1));
}
/* DS_HASH_SET [ET_PROCEDURE].special_integer_ */
T0* T865f20(T0* C)
{
T0* R = 0;
if (ge232os5405) {
return ge232ov5405;
} else {
ge232os5405 = '\1';
ge232ov5405 = R;
}
R = T134c6();
ge232ov5405 = R;
return R;
}
/* DS_HASH_SET [ET_PROCEDURE].new_modulus */
T6 T865f21(T0* C, T6 a1)
{
T6 t1;
T6 R = 0;
t1 = ((T6)((a1)+((T6)(GE_int32(1)))));
t1 = ((T6)((t1)*((T6)(GE_int32(3)))));
R = ((T6)((t1)/((T6)(GE_int32(2)))));
return R;
}
/* DS_HASH_SET [ET_PROCEDURE].make_clashes */
void T865f43(T0* C, T6 a1)
{
T0* t1;
t1 = (T865f20(C));
((T865*)(C))->a10 = (T134f2(GE_void(t1), (T6)(GE_int32(0)), a1));
}
/* DS_HASH_SET [ET_PROCEDURE].make_key_storage */
void T865f42(T0* C, T6 a1)
{
}
/* DS_HASH_SET [ET_PROCEDURE].make_item_storage */
void T865f41(T0* C, T6 a1)
{
T0* l1 = 0;
((T865*)(C))->a9 = T715c5();
((T865*)(C))->a2 = (T715f3(GE_void(((T865*)(C))->a9), l1, a1));
}
/* KL_SPECIAL_ROUTINES [ET_PROCEDURE].make_filled */
T0* T715f3(T0* C, T0* a1, T6 a2)
{
T0* R = 0;
R = T716c10(a1, a2);
return R;
}
/* SPECIAL [ET_PROCEDURE].make_filled */
T0* T716c10(T0* a1, T6 a2)
{
T0* C;
T6 t1;
C = GE_new716(a2, EIF_TRUE);
T716f7(C, a2);
t1 = ((T6)((a2)-((T6)(GE_int32(1)))));
T716f9(C, a1, (T6)(GE_int32(0)), t1);
return C;
}
/* ET_IMPLEMENTATION_CHECKER.make_class_processor */
void T396f19(T0* C)
{
T0* t1;
t1 = (T396f12(C));
((T396*)(C))->a8 = (T74f1(GE_void(t1)));
}
/* ET_IMPLEMENTATION_CHECKER.tokens */
T0* T396f12(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_IMPLEMENTATION_CHECKER.error_handler */
T0* T396f11(T0* C)
{
T0* t1;
T0* R = 0;
t1 = (T396f13(C));
R = (T26x2948(GE_void(t1)));
return R;
}
/* ET_AST_NULL_PROCESSOR.process_class */
void T389f2(T0* C, T0* a1)
{
}
/* ET_TYPE_CHECKER.process_class */
void T331f20(T0* C, T0* a1)
{
T331f22(C, a1);
}
/* ET_PRECURSOR_CHECKER.process_identifier */
void T899f24(T0* C, T0* a1)
{
}
/* ET_ATTACHMENT_SCOPE_BUILDER.process_identifier */
void T347f45(T0* C, T0* a1)
{
}
/* ET_OBJECT_TEST_SCOPE_BUILDER.process_identifier */
void T343f50(T0* C, T0* a1)
{
}
/* ET_FEATURE_CHECKER.process_identifier */
void T328f163(T0* C, T0* a1)
{
T1 t1;
t1 = (T143f24(a1));
if (t1) {
T328f215(C, a1, ((T328*)(C))->a14);
} else {
t1 = (T143f26(a1));
if (t1) {
T328f216(C, a1, ((T328*)(C))->a14);
} else {
t1 = (T143f17(a1));
if (t1) {
T328f217(C, a1, ((T328*)(C))->a14);
} else {
t1 = (T143f27(a1));
if (t1) {
T328f218(C, a1, ((T328*)(C))->a14);
} else {
t1 = (T143f30(a1));
if (t1) {
T328f219(C, a1);
} else {
T328f220(C, a1, ((T328*)(C))->a14);
}
}
}
}
}
}
/* ET_FEATURE_CHECKER.check_unqualified_call_expression_validity */
void T328f220(T0* C, T0* a1, T0* a2)
{
T1 t1;
T0* t2;
T0* m1 = 0;
T0* t3;
T0* m2 = 0;
T6 t4;
T0* m3 = 0;
T0* m4 = 0;
T0* l1 = 0;
T0* l2 = 0;
T0* l3 = 0;
T0* l4 = 0;
T0* l5 = 0;
T6 l6 = 0;
T0* l7 = 0;
T0* l8 = 0;
T1 l9 = 0;
T0* l10 = 0;
T0* l11 = 0;
((T328*)(C))->a25 = EIF_FALSE;
T328f109(C);
l1 = (((((T0*)(a1))->id==143)?T143f77(a1):T248f7(a1)));
l2 = (((((T0*)(a1))->id==143)?T143f87(a1):((T248*)(a1))->a4));
l6 = (T272x14597(GE_void(l1)));
t1 = (((((l6) == ((T6)(GE_int32(0)))))));
if (t1) {
t1 = ((((T328*)(C))->a6)!=(((T328*)(C))->a2));
if (t1) {
T328f59(C);
t1 = (T328f47(C, ((T328*)(C))->a5));
t1 = ((T1)(!(t1)));
if (t1) {
t2 = (T328f36(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f176(t2);
} else {
T29f175(t2);
}
}
} else {
t2 = (T328f39(C));
t2 = (T26x3070(GE_void(t2)));
T75f219(GE_void(((T328*)(C))->a2), t2);
t1 = (((T75*)(GE_void(((T328*)(C))->a2)))->a8);
t1 = ((T1)(!(t1)));
if (!(t1)) {
t1 = (((T75*)(GE_void(((T328*)(C))->a2)))->a9);
}
if (t1) {
T328f59(C);
} else {
l3 = (T75f79(GE_void(((T328*)(C))->a2), l1));
t1 = ((l3)!=(EIF_VOID));
if (t1) {
l6 = (T208x16493(GE_void(l3)));
T272x14598T6(GE_void(l1), l6);
} else {
l4 = (T75f78(GE_void(((T328*)(C))->a2), l1));
t1 = ((l4)!=(EIF_VOID));
if (t1) {
T328f59(C);
t2 = (T328f36(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f403(t2, ((T328*)(C))->a2, l1, l4);
} else {
T29f402(t2, ((T328*)(C))->a2, l1, l4);
}
} else {
t1 = T328f220ot1(l1, &m1);
if (t1) {
t2 = (T328f46(C));
l7 = (T710x16514(GE_void(t2)));
t1 = ((l7)!=(EIF_VOID));
if (t1) {
l6 = (T293f10(GE_void(l7), m1));
t1 = (((((l6) != ((T6)(GE_int32(0)))))));
if (t1) {
t1 = ((l2)!=(EIF_VOID));
if (t1) {
T328f59(C);
t1 = ((((T328*)(C))->a33)!=(EIF_VOID));
if (t1) {
t2 = (T328f36(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f394(t2, ((T328*)(C))->a2, m1, ((T328*)(C))->a33);
} else {
T29f393(t2, ((T328*)(C))->a2, m1, ((T328*)(C))->a33);
}
} else {
t1 = (T332x16500(GE_void(((T328*)(C))->a5)));
if (t1) {
t2 = (T328f36(C));
t3 = (T332x16511(GE_void(((T328*)(C))->a5)));
if (((T0*)(GE_void(t2)))->id==70) {
T70f395(t2, ((T328*)(C))->a2, m1, t3);
} else {
T29f394(t2, ((T328*)(C))->a2, m1, t3);
}
} else {
t2 = (T328f36(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f176(t2);
} else {
T29f175(t2);
}
}
}
}
T143f112(m1, EIF_TRUE);
t1 = ((T1)(!(((T328*)(C))->a25)));
if (t1) {
T143f106(m1, l6);
t2 = (T328f39(C));
t2 = (T26x3176(GE_void(t2)));
T328f60(C, m1, a2, t2);
T143f106(m1, (T6)(GE_int32(0)));
}
t1 = ((T1)(!(((T328*)(C))->a25)));
if (t1) {
T328f59(C);
t2 = (T328f36(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f176(t2);
} else {
T29f175(t2);
}
}
}
}
t1 = (((((l6) == ((T6)(GE_int32(0)))))));
if (t1) {
t2 = (T328f46(C));
l8 = (T710x16515(GE_void(t2)));
t1 = ((l8)!=(EIF_VOID));
if (t1) {
l6 = (T289f8(GE_void(l8), m1));
t1 = (((((l6) != ((T6)(GE_int32(0)))))));
if (t1) {
t1 = ((l2)!=(EIF_VOID));
if (t1) {
T328f59(C);
t1 = ((((T328*)(C))->a33)!=(EIF_VOID));
if (t1) {
t2 = (T328f36(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f398(t2, ((T328*)(C))->a2, m1, ((T328*)(C))->a33);
} else {
T29f397(t2, ((T328*)(C))->a2, m1, ((T328*)(C))->a33);
}
} else {
t1 = (T332x16500(GE_void(((T328*)(C))->a5)));
if (t1) {
t2 = (T328f36(C));
t3 = (T332x16511(GE_void(((T328*)(C))->a5)));
if (((T0*)(GE_void(t2)))->id==70) {
T70f399(t2, ((T328*)(C))->a2, m1, t3);
} else {
T29f398(t2, ((T328*)(C))->a2, m1, t3);
}
} else {
t2 = (T328f36(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f176(t2);
} else {
T29f175(t2);
}
}
}
}
T143f116(m1, EIF_TRUE);
t1 = ((T1)(!(((T328*)(C))->a25)));
if (t1) {
T143f106(m1, l6);
t2 = (T328f39(C));
t2 = (T26x3176(GE_void(t2)));
T328f60(C, m1, a2, t2);
T143f106(m1, (T6)(GE_int32(0)));
}
t1 = ((T1)(!(((T328*)(C))->a25)));
if (t1) {
T328f59(C);
t2 = (T328f36(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f176(t2);
} else {
T29f175(t2);
}
}
}
}
}
}
t1 = (((((l6) == ((T6)(GE_int32(0)))))));
if (t1) {
T328f59(C);
t2 = (T328f36(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f402(t2, ((T328*)(C))->a2, l1);
} else {
T29f401(t2, ((T328*)(C))->a2, l1);
}
}
}
}
}
}
}
t1 = ((T1)(!(((T328*)(C))->a25)));
if (t1) {
t1 = ((l3)==(EIF_VOID));
if (t1) {
t2 = (T328f39(C));
t2 = (T26x3070(GE_void(t2)));
T75f219(GE_void(((T328*)(C))->a2), t2);
t1 = (((T75*)(GE_void(((T328*)(C))->a2)))->a8);
t1 = ((T1)(!(t1)));
if (!(t1)) {
t1 = (((T75*)(GE_void(((T328*)(C))->a2)))->a9);
}
if (t1) {
T328f59(C);
} else {
l3 = (T75f120(GE_void(((T328*)(C))->a2), l6));
t1 = ((l3)==(EIF_VOID));
if (t1) {
T328f59(C);
t2 = (T328f36(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f176(t2);
} else {
T29f175(t2);
}
}
}
}
t1 = ((l3)!=(EIF_VOID));
if (t1) {
T328f273(C, l1, l3);
l9 = ((T328*)(C))->a25;
T328f241(C, l2, a2, l1, l3, EIF_VOID);
if (((T328*)(C))->a25) {
l9 = EIF_TRUE;
}
if (l9) {
T328f59(C);
}
t1 = ((T1)(!(((T328*)(C))->a25)));
if (t1) {
l5 = (T208x16491(GE_void(l3)));
t1 = T328f220ot2(l5, &m2);
if (t1) {
t1 = (T1315f56(m2));
}
if (t1) {
t1 = ((l2)!=(EIF_VOID));
if (t1) {
t4 = (((T244*)(GE_void(l2)))->a1);
t1 = (((((t4) == ((T6)(GE_int32(1)))))));
}
if (t1) {
l11 = (T328f38(C, ((T328*)(C))->a3));
t2 = (T208x16492(GE_void(l3)));
t2 = (T293f7(GE_void(t2), (T6)(GE_int32(1))));
t2 = (((((T0*)(GE_void(t2)))->id==299)?T299f4(t2):T1861f4(t2)));
T340f54(GE_void(l11), t2);
T340f57(GE_void(a2));
l10 = (T244f6(GE_void(l2), (T6)(GE_int32(1))));
T328f60(C, l10, a2, l11);
T328f58(C, l11);
t1 = ((T1)(!(((T328*)(C))->a25)));
if (t1) {
t1 = T328f220ot3(l10, &m3);
if (t1) {
t2 = (T1988x37020(m3));
t1 = T328f220ot4(t2, &m4);
if (t1) {
T340f53(GE_void(a2), ((T328*)(C))->a3);
t2 = (((T469*)(m4))->a3);
T340f54(GE_void(a2), t2);
}
}
T328f275(C, a1, l3);
}
} else {
T328f275(C, a1, l3);
T340f54(GE_void(a2), l5);
}
} else {
T328f275(C, a1, l3);
T340f54(GE_void(a2), l5);
}
}
}
}
}
T1 T328f220ot1(T0* a1, T0** a2)
{
if ((a1)==EIF_VOID) {
return EIF_FALSE;
} else {
switch (((T0*)(a1))->id) {
case 143:
*a2 = a1;
return EIF_TRUE;
default:
return EIF_FALSE;
}
}
}
T1 T328f220ot2(T0* a1, T0** a2)
{
if ((a1)==EIF_VOID) {
return EIF_FALSE;
} else {
switch (((T0*)(a1))->id) {
case 1315:
*a2 = a1;
return EIF_TRUE;
default:
return EIF_FALSE;
}
}
}
T1 T328f220ot3(T0* a1, T0** a2)
{
if ((a1)==EIF_VOID) {
return EIF_FALSE;
} else {
switch (((T0*)(a1))->id) {
case 2105:
case 2106:
case 2107:
*a2 = a1;
return EIF_TRUE;
default:
return EIF_FALSE;
}
}
}
T1 T328f220ot4(T0* a1, T0** a2)
{
if ((a1)==EIF_VOID) {
return EIF_FALSE;
} else {
switch (((T0*)(a1))->id) {
case 469:
*a2 = a1;
return EIF_TRUE;
default:
return EIF_FALSE;
}
}
}
/* ET_FEATURE_CHECKER.report_unqualified_call_expression */
void T328f275(T0* C, T0* a1, T0* a2)
{
}
/* ET_FEATURE_CHECKER.check_actual_arguments_validity */
void T328f241(T0* C, T0* a1, T0* a2, T0* a3, T0* a4, T0* a5)
{
T1 t1;
T1 t2;
T0* t3;
T0* t4;
T6 t5;
T6 t6;
T0* m1 = 0;
T0* m2 = 0;
T0* l1 = 0;
T0* l2 = 0;
T0* l3 = 0;
T0* l4 = 0;
T6 l5 = 0;
T6 l6 = 0;
T0* l7 = 0;
T0* l8 = 0;
T0* l9 = 0;
T0* l10 = 0;
T0* l11 = 0;
T1 l12 = 0;
T1 l13 = 0;
T1 l14 = 0;
T1 l15 = 0;
((T328*)(C))->a25 = EIF_FALSE;
l3 = (T246x16492(GE_void(a4)));
t1 = ((a1)==(EIF_VOID));
if (!(t1)) {
t1 = (T311x14676(GE_void(a1)));
}
if (t1) {
t1 = ((l3)!=(EIF_VOID));
if (t1) {
t2 = (T293f8(GE_void(l3)));
t1 = ((T1)(!(t2)));
}
if (t1) {
T328f59(C);
t1 = ((((T328*)(C))->a2)==(((T328*)(C))->a6));
if (t1) {
t1 = ((a5)!=(EIF_VOID));
if (t1) {
t1 = (T272x14633(GE_void(a3)));
if (t1) {
t3 = (T328f36(C));
t4 = (T272x14635(GE_void(a3)));
if (((T0*)(GE_void(t3)))->id==70) {
T70f414(t3, ((T328*)(C))->a2, t4, a4, a5);
} else {
T29f413(t3, ((T328*)(C))->a2, t4, a4, a5);
}
} else {
t3 = (T328f36(C));
if (((T0*)(GE_void(t3)))->id==70) {
T70f377(t3, ((T328*)(C))->a2, a3, a4, a5);
} else {
T29f376(t3, ((T328*)(C))->a2, a3, a4, a5);
}
}
} else {
t3 = (T328f36(C));
if (((T0*)(GE_void(t3)))->id==70) {
T70f415(t3, ((T328*)(C))->a2, a3, a4);
} else {
T29f414(t3, ((T328*)(C))->a2, a3, a4);
}
}
} else {
t1 = (T328f47(C, ((T328*)(C))->a5));
t1 = ((T1)(!(t1)));
if (t1) {
t3 = (T328f36(C));
if (((T0*)(GE_void(t3)))->id==70) {
T70f176(t3);
} else {
T29f175(t3);
}
}
}
}
} else {
t1 = ((l3)==(EIF_VOID));
if (!(t1)) {
t5 = (((T293*)(GE_void(l3)))->a1);
t6 = (T311x14679(GE_void(a1)));
t1 = (((((t5) != (t6)))));
}
if (t1) {
T328f59(C);
t1 = ((((T328*)(C))->a2)==(((T328*)(C))->a6));
if (t1) {
t1 = ((a5)!=(EIF_VOID));
if (t1) {
t1 = (T272x14633(GE_void(a3)));
if (t1) {
t3 = (T328f36(C));
t4 = (T272x14635(GE_void(a3)));
if (((T0*)(GE_void(t3)))->id==70) {
T70f414(t3, ((T328*)(C))->a2, t4, a4, a5);
} else {
T29f413(t3, ((T328*)(C))->a2, t4, a4, a5);
}
} else {
t3 = (T328f36(C));
if (((T0*)(GE_void(t3)))->id==70) {
T70f377(t3, ((T328*)(C))->a2, a3, a4, a5);
} else {
T29f376(t3, ((T328*)(C))->a2, a3, a4, a5);
}
}
} else {
t3 = (T328f36(C));
if (((T0*)(GE_void(t3)))->id==70) {
T70f415(t3, ((T328*)(C))->a2, a3, a4);
} else {
T29f414(t3, ((T328*)(C))->a2, a3, a4);
}
}
} else {
t1 = (T328f47(C, ((T328*)(C))->a5));
t1 = ((T1)(!(t1)));
if (t1) {
t3 = (T328f36(C));
if (((T0*)(GE_void(t3)))->id==70) {
T70f176(t3);
} else {
T29f175(t3);
}
}
}
} else {
l11 = (T328f38(C, ((T328*)(C))->a3));
l10 = a2;
t1 = T328f241ot1(a1, &m1);
if (t1) {
l2 = m1;
}
l6 = (T311x14679(GE_void(a1)));
l5 = (T6)(GE_int32(1));
while (1) {
t1 = (T6f1((&l5), l6));
if (t1) {
break;
}
l1 = (T311x14678T6(GE_void(a1), l5));
l4 = (T293f7(GE_void(l3), l5));
t3 = (((((T0*)(GE_void(l4)))->id==299)?T299f4(l4):T1861f4(l4)));
T340f54(GE_void(l10), t3);
T328f60(C, l1, l11, l10);
if (((T328*)(C))->a25) {
l12 = EIF_TRUE;
} else {
t3 = (T328f43(C));
t1 = (T216x3276(GE_void(t3)));
if (t1) {
l13 = (T340f44(GE_void(l10)));
l14 = (T340f40(GE_void(l11)));
t1 = ((T1)(!(l13)));
if (t1) {
t1 = ((T1)(!(l14)));
}
if (t1) {
t1 = (T328f48(C, l1));
if (t1) {
l15 = EIF_TRUE;
t3 = (T328f44(C));
t3 = (T74f1193(GE_void(t3)));
T340f54(GE_void(l11), t3);
}
}
}
t1 = (T340f43(GE_void(l11), l10));
t1 = ((T1)(!(t1)));
if (t1) {
l9 = EIF_VOID;
t1 = ((l2)!=(EIF_VOID));
if (t1) {
l9 = (T328f49(C, l1, l11, l10));
}
if (((T328*)(C))->a25) {
l12 = EIF_TRUE;
} else {
t1 = ((l9)!=(EIF_VOID));
if (t1) {
t3 = (((((T0*)(GE_void(l2)))->id==244)?T244f5(l2, l5):T1417f9(l2, l5)));
t1 = EIF_FALSE;
if (t1) {
(m2, l9);
} else {
if (((T0*)(GE_void(l2)))->id==244) {
T244f17(l2, l9, l5);
} else {
T1417f14(l2, l9, l5);
}
}
} else {
t3 = (T328f39(C));
t1 = (T26x3051(GE_void(t3)));
if (t1) {
t1 = ((((T328*)(C))->a2)!=(((T328*)(C))->a6));
}
if (t1) {
t2 = (T75f122(GE_void(((T328*)(C))->a2)));
if (!(t2)) {
t1 = (T75f86(GE_void(((T328*)(C))->a2)));
} else {
t1 = EIF_TRUE;
}
}
if (t1) {
} else {
t3 = (T328f43(C));
t1 = (T216x3276(GE_void(t3)));
if (t1) {
if (l15) {
T340f55(GE_void(l11));
}
}
l12 = EIF_TRUE;
T328f59(C);
l7 = (T340f11(GE_void(l11)));
l8 = (T340f11(GE_void(l10)));
t1 = ((a5)!=(EIF_VOID));
if (t1) {
t1 = (T272x14633(GE_void(a3)));
if (t1) {
t3 = (T328f36(C));
t4 = (T272x14635(GE_void(a3)));
if (((T0*)(GE_void(t3)))->id==70) {
T70f416(t3, ((T328*)(C))->a2, ((T328*)(C))->a6, t4, a4, a5, l5, l7, l8);
} else {
T29f415(t3, ((T328*)(C))->a2, ((T328*)(C))->a6, t4, a4, a5, l5, l7, l8);
}
} else {
t3 = (T328f36(C));
if (((T0*)(GE_void(t3)))->id==70) {
T70f376(t3, ((T328*)(C))->a2, ((T328*)(C))->a6, a3, a4, a5, l5, l7, l8);
} else {
T29f375(t3, ((T328*)(C))->a2, ((T328*)(C))->a6, a3, a4, a5, l5, l7, l8);
}
}
} else {
t3 = (T328f36(C));
if (((T0*)(GE_void(t3)))->id==70) {
T70f417(t3, ((T328*)(C))->a2, ((T328*)(C))->a6, a3, a4, l5, l7, l8);
} else {
T29f416(t3, ((T328*)(C))->a2, ((T328*)(C))->a6, a3, a4, l5, l7, l8);
}
}
}
}
}
}
}
T340f55(GE_void(l10));
T340f57(GE_void(l11));
l5 = ((T6)((l5)+((T6)(GE_int32(1)))));
}
T328f58(C, l11);
if (l12) {
T328f59(C);
}
}
}
}
T1 T328f241ot1(T0* a1, T0** a2)
{
if ((a1)==EIF_VOID) {
return EIF_FALSE;
} else {
switch (((T0*)(a1))->id) {
case 244:
case 1417:
*a2 = a1;
return EIF_TRUE;
default:
return EIF_FALSE;
}
}
}
/* ET_ERROR_HANDLER.report_vuar2b_error */
void T29f416(T0* C, T0* a1, T0* a2, T0* a3, T0* a4, T6 a5, T0* a6, T0* a7)
{
T1 t1;
T0* l1 = 0;
t1 = (T29f120(C, a1));
if (t1) {
l1 = T495c906(a1, a2, a3, a4, a5, a6, a7);
T29f184(C, l1);
}
}
/* ET_VALIDITY_ERROR.make_vuar2b */
T0* T495c906(T0* a1, T0* a2, T0* a3, T0* a4, T6 a5, T0* a6, T0* a7)
{
T0* C;
T0* t1;
T6 t2;
C = GE_new495(EIF_TRUE);
((T495*)(C))->a5 = a1;
((T495*)(C))->a6 = a2;
((T495*)(C))->a7 = (T272x6898(GE_void(a3)));
((T495*)(C))->a8 = (T495f15(C, ge1014ov27342));
((T495*)(C))->a9 = ge1014ov27080;
((T495*)(C))->a3 = (T495f19(C, ge1014ov26914));
((T495*)(C))->a4 = T101c11(ge178ov4496, (T6)(GE_int32(1)), (T6)(GE_int32(11)));
T101f12(GE_void(((T495*)(C))->a4), ((T495*)(C))->a9, (T6)(GE_int32(1)));
t1 = (T495f21(C));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(2)));
t2 = (T148x11747(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(3)));
t2 = (T148x11748(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(4)));
t1 = (T75f49(GE_void(((T495*)(C))->a5)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(5)));
t1 = (T75f49(GE_void(((T495*)(C))->a6)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(6)));
t1 = (T272x14596(GE_void(a3)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(7)));
t1 = (T246x16408(GE_void(a4)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(8)));
t1 = (T6f3(&a5));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(9)));
t1 = (T704x6892(GE_void(a6)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(10)));
t1 = (T704x6892(GE_void(a7)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(11)));
T495f713(C, EIF_TRUE);
return C;
}
/* ET_ERROR_HANDLER.reportable_vuar2_error */
T1 T29f120(T0* C, T0* a1)
{
T1 R = 0;
R = EIF_TRUE;
return R;
}
/* ET_NULL_ERROR_HANDLER.report_vuar2b_error */
void T70f417(T0* C, T0* a1, T0* a2, T0* a3, T0* a4, T6 a5, T0* a6, T0* a7)
{
T1 t1;
T0* l1 = 0;
t1 = (T70f121(C, a1));
if (t1) {
l1 = T495c906(a1, a2, a3, a4, a5, a6, a7);
T70f184(C, l1);
}
}
/* ET_NULL_ERROR_HANDLER.reportable_vuar2_error */
T1 T70f121(T0* C, T0* a1)
{
T1 R = 0;
R = EIF_FALSE;
return R;
}
/* ET_ERROR_HANDLER.report_vuar2a_error */
void T29f375(T0* C, T0* a1, T0* a2, T0* a3, T0* a4, T0* a5, T6 a6, T0* a7, T0* a8)
{
T1 t1;
T0* l1 = 0;
t1 = (T29f120(C, a1));
if (t1) {
l1 = T495c865(a1, a2, a3, a4, a5, a6, a7, a8);
T29f184(C, l1);
}
}
/* ET_VALIDITY_ERROR.make_vuar2a */
T0* T495c865(T0* a1, T0* a2, T0* a3, T0* a4, T0* a5, T6 a6, T0* a7, T0* a8)
{
T0* C;
T0* t1;
T6 t2;
C = GE_new495(EIF_TRUE);
((T495*)(C))->a5 = a1;
((T495*)(C))->a6 = a2;
((T495*)(C))->a7 = (T272x6898(GE_void(a3)));
((T495*)(C))->a8 = (T495f15(C, ge1014ov27341));
((T495*)(C))->a9 = ge1014ov27080;
((T495*)(C))->a3 = (T495f19(C, ge1014ov26913));
((T495*)(C))->a4 = T101c11(ge178ov4496, (T6)(GE_int32(1)), (T6)(GE_int32(12)));
T101f12(GE_void(((T495*)(C))->a4), ((T495*)(C))->a9, (T6)(GE_int32(1)));
t1 = (T495f21(C));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(2)));
t2 = (T148x11747(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(3)));
t2 = (T148x11748(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(4)));
t1 = (T75f49(GE_void(((T495*)(C))->a5)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(5)));
t1 = (T75f49(GE_void(((T495*)(C))->a6)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(6)));
t1 = (T272x14596(GE_void(a3)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(7)));
t1 = (T246x16408(GE_void(a4)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(8)));
t1 = (T75f49(GE_void(a5)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(9)));
t1 = (T6f3(&a6));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(10)));
t1 = (T704x6892(GE_void(a7)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(11)));
t1 = (T704x6892(GE_void(a8)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(12)));
T495f713(C, EIF_TRUE);
return C;
}
/* ET_NULL_ERROR_HANDLER.report_vuar2a_error */
void T70f376(T0* C, T0* a1, T0* a2, T0* a3, T0* a4, T0* a5, T6 a6, T0* a7, T0* a8)
{
T1 t1;
T0* l1 = 0;
t1 = (T70f121(C, a1));
if (t1) {
l1 = T495c865(a1, a2, a3, a4, a5, a6, a7, a8);
T70f184(C, l1);
}
}
/* ET_ERROR_HANDLER.report_vdpr4b_error */
void T29f415(T0* C, T0* a1, T0* a2, T0* a3, T0* a4, T0* a5, T6 a6, T0* a7, T0* a8)
{
T1 t1;
T0* l1 = 0;
t1 = (T29f136(C, a1));
if (t1) {
l1 = T495c905(a1, a2, a3, a4, a5, a6, a7, a8);
T29f184(C, l1);
}
}
/* ET_VALIDITY_ERROR.make_vdpr4b */
T0* T495c905(T0* a1, T0* a2, T0* a3, T0* a4, T0* a5, T6 a6, T0* a7, T0* a8)
{
T0* C;
T0* t1;
T6 t2;
C = GE_new495(EIF_TRUE);
((T495*)(C))->a5 = a1;
((T495*)(C))->a6 = a2;
((T495*)(C))->a7 = (T1076f9(GE_void(a3)));
((T495*)(C))->a8 = (T495f15(C, ge1014ov27150));
((T495*)(C))->a9 = ge1014ov26986;
((T495*)(C))->a3 = (T495f19(C, ge1014ov26722));
((T495*)(C))->a4 = T101c11(ge178ov4496, (T6)(GE_int32(1)), (T6)(GE_int32(11)));
T101f12(GE_void(((T495*)(C))->a4), ((T495*)(C))->a9, (T6)(GE_int32(1)));
t1 = (T495f21(C));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(2)));
t2 = (T148x11747(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(3)));
t2 = (T148x11748(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(4)));
t1 = (T75f49(GE_void(((T495*)(C))->a5)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(5)));
t1 = (T75f49(GE_void(((T495*)(C))->a6)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(6)));
t1 = (T246x16408(GE_void(a4)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(7)));
t1 = (T75f49(GE_void(a5)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(8)));
t1 = (T6f3(&a6));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(9)));
t1 = (T704x6892(GE_void(a7)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(10)));
t1 = (T704x6892(GE_void(a8)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(11)));
T495f713(C, EIF_TRUE);
return C;
}
/* ET_ERROR_HANDLER.reportable_vdpr4_error */
T1 T29f136(T0* C, T0* a1)
{
T1 R = 0;
R = EIF_TRUE;
return R;
}
/* ET_NULL_ERROR_HANDLER.report_vdpr4b_error */
void T70f416(T0* C, T0* a1, T0* a2, T0* a3, T0* a4, T0* a5, T6 a6, T0* a7, T0* a8)
{
T1 t1;
T0* l1 = 0;
t1 = (T70f137(C, a1));
if (t1) {
l1 = T495c905(a1, a2, a3, a4, a5, a6, a7, a8);
T70f184(C, l1);
}
}
/* ET_NULL_ERROR_HANDLER.reportable_vdpr4_error */
T1 T70f137(T0* C, T0* a1)
{
T1 R = 0;
R = EIF_FALSE;
return R;
}
/* ET_NESTED_TYPE_CONTEXT.remove_last */
void T340f55(T0* C)
{
T1 t1;
T0* t2;
T6 t3;
t1 = (((((((T340*)(C))->a2) == ((T6)(GE_int32(1)))))));
if (t1) {
t2 = (T340f5(C));
t3 = ((T6)((((T340*)(C))->a2)+((T6)(GE_int32(1)))));
T731f5(GE_void(t2), ((T340*)(C))->a3, (T6)(GE_int32(0)), t3);
} else {
t2 = (T340f5(C));
t3 = ((T6)((((T340*)(C))->a2)+((T6)(GE_int32(1)))));
T731f5(GE_void(t2), ((T340*)(C))->a3, ((T340*)(C))->a2, t3);
}
((T340*)(C))->a2 = ((T6)((((T340*)(C))->a2)-((T6)(GE_int32(1)))));
}
/* ET_CLASS.is_basic */
T1 T75f122(T0* C)
{
T0* t1;
T1 R = 0;
t1 = (T75f62(C));
R = (T357f34(GE_void(t1), ((T75*)(C))->a21));
return R;
}
/* ET_CLASS_CODES.is_basic */
T1 T357f34(T0* C, T8 a1)
{
T8 t1;
T1 t2;
T1 R = 0;
t1 = (T8)(GE_nat8(1));
t2 = (T8f5(&t1, a1));
if (t2) {
R = (T8f5(&a1, (T8)(GE_nat8(51))));
} else {
R = EIF_FALSE;
}
return R;
}
/* ET_BRACKET_ARGUMENT_LIST.put */
void T1417f14(T0* C, T0* a1, T6 a2)
{
T6 t1;
t1 = ((T6)((((T1417*)(C))->a3)-(a2)));
((T658*)(GE_void(((T1417*)(C))->a4)))->z2[t1] = (a1);
}
/* ET_ACTUAL_ARGUMENT_LIST.put */
void T244f17(T0* C, T0* a1, T6 a2)
{
T6 t1;
t1 = ((T6)((((T244*)(C))->a1)-(a2)));
((T658*)(GE_void(((T244*)(C))->a2)))->z2[t1] = (a1);
}
/* ET_BRACKET_ARGUMENT_LIST.item */
T0* T1417f9(T0* C, T6 a1)
{
T6 t1;
T0* R = 0;
t1 = ((T6)((((T1417*)(C))->a3)-(a1)));
R = (((T658*)(GE_void(((T1417*)(C))->a4)))->z2[t1]);
return R;
}
/* ET_ACTUAL_ARGUMENT_LIST.item */
T0* T244f5(T0* C, T6 a1)
{
T6 t1;
T0* R = 0;
t1 = ((T6)((((T244*)(C))->a1)-(a1)));
R = (((T658*)(GE_void(((T244*)(C))->a2)))->z2[t1]);
return R;
}
/* ET_FEATURE_CHECKER.convert_expression */
T0* T328f49(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* t2;
T6 t3;
T0* R = 0;
T0* l1 = 0;
T0* l2 = 0;
T0* l3 = 0;
T0* l4 = 0;
T0* l5 = 0;
T0* l6 = 0;
T0* l7 = 0;
T0* l8 = 0;
((T328*)(C))->a25 = EIF_FALSE;
t1 = ((((T328*)(C))->a2)==(((T328*)(C))->a6));
if (t1) {
t2 = (T328f44(C));
t2 = (T74f1193(GE_void(t2)));
T340f54(GE_void(a2), t2);
t2 = (T328f44(C));
t2 = (T74f1193(GE_void(t2)));
T340f54(GE_void(a3), t2);
l1 = (T331f13(GE_void(((T328*)(C))->a1), a2, a3));
t1 = ((l1)==(EIF_VOID));
if (t1) {
t2 = (T328f43(C));
l1 = (T242x14667T0T0T0(GE_void(a1), a2, a3, t2));
}
t1 = ((l1)!=(EIF_VOID));
if (t1) {
t1 = (T1242x26191(GE_void(l1)));
if (t1) {
l2 = (T340f18(GE_void(a3)));
t2 = (T328f39(C));
t2 = (T26x3069(GE_void(t2)));
T75f219(GE_void(l2), t2);
t1 = (((T75*)(GE_void(l2)))->a6);
t1 = ((T1)(!(t1)));
if (!(t1)) {
t1 = (((T75*)(GE_void(l2)))->a7);
}
if (t1) {
T328f59(C);
} else {
l6 = (T340f11(GE_void(a3)));
l4 = T2106c21(l6, l1, a1);
t2 = (T1242x26193(GE_void(l1)));
t3 = (T206x14597(GE_void(t2)));
l7 = (T75f121(GE_void(l2), t3));
t1 = ((l7)!=(EIF_VOID));
if (t1) {
T328f310(C, l4, l6, l7);
R = l4;
} else {
T328f59(C);
t2 = (T328f36(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f176(t2);
} else {
T29f175(t2);
}
}
}
} else {
t1 = (T1242x26192(GE_void(l1)));
if (t1) {
l2 = (T340f18(GE_void(a2)));
t2 = (T328f39(C));
t2 = (T26x3069(GE_void(t2)));
T75f219(GE_void(l2), t2);
t1 = (((T75*)(GE_void(l2)))->a6);
t1 = ((T1)(!(t1)));
if (!(t1)) {
t1 = (((T75*)(GE_void(l2)))->a7);
}
if (t1) {
T328f59(C);
} else {
l5 = T2107c21(a1, l1);
t2 = (T1242x26193(GE_void(l1)));
t3 = (T206x14597(GE_void(t2)));
l8 = (T75f120(GE_void(l2), t3));
t1 = ((l8)!=(EIF_VOID));
if (t1) {
T328f253(C, l5, a2, l8);
R = l5;
} else {
T328f59(C);
t2 = (T328f36(C));
if (((T0*)(GE_void(t2)))->id==70) {
T70f176(t2);
} else {
T29f175(t2);
}
}
}
} else {
l6 = (T340f11(GE_void(a3)));
l3 = T2105c17(l6, l1, a1);
T328f332(C, l3, l6);
R = l3;
}
}
}
T340f55(GE_void(a2));
T340f55(GE_void(a3));
}
return R;
}
/* ET_FEATURE_CHECKER.report_builtin_conversion */
void T328f332(T0* C, T0* a1, T0* a2)
{
}
/* ET_CONVERT_BUILTIN_EXPRESSION.make */
T0* T2105c17(T0* a1, T0* a2, T0* a3)
{
T0* C;
C = GE_new2105(EIF_TRUE);
((T2105*)(C))->a4 = a1;
((T2105*)(C))->a3 = a2;
((T2105*)(C))->a2 = a3;
return C;
}
/* ET_FEATURE_CHECKER.report_qualified_call_expression */
void T328f253(T0* C, T0* a1, T0* a2, T0* a3)
{
}
/* ET_CONVERT_TO_EXPRESSION.make */
T0* T2107c21(T0* a1, T0* a2)
{
T0* C;
C = GE_new2107(EIF_TRUE);
((T2107*)(C))->a2 = a1;
((T2107*)(C))->a3 = a2;
return C;
}
/* ET_FEATURE_CHECKER.report_creation_expression */
void T328f310(T0* C, T0* a1, T0* a2, T0* a3)
{
}
/* ET_CONVERT_FROM_EXPRESSION.make */
T0* T2106c21(T0* a1, T0* a2, T0* a3)
{
T0* C;
C = GE_new2106(EIF_TRUE);
((T2106*)(C))->a4 = a1;
((T2106*)(C))->a3 = a2;
((T2106*)(C))->a2 = a3;
return C;
}
/* ET_TYPE_CHECKER.convert_feature */
T0* T331f13(T0* C, T0* a1, T0* a2)
{
T1 t1;
T0* t2;
T0* R = 0;
T0* l1 = 0;
T0* l2 = 0;
T0* l3 = 0;
l1 = (T340f18(GE_void(a1)));
t1 = (T75f60(GE_void(l1)));
if (t1) {
t2 = (T75f61(GE_void(l1)));
t2 = (T26x3064(GE_void(t2)));
T75f219(GE_void(l1), t2);
}
R = (T75f195(GE_void(l1), a2, a1));
t1 = ((R)==(EIF_VOID));
if (t1) {
l2 = (T340f18(GE_void(a2)));
t1 = (T75f60(GE_void(l2)));
if (t1) {
t2 = (T75f61(GE_void(l2)));
t2 = (T26x3064(GE_void(t2)));
T75f219(GE_void(l2), t2);
}
R = (T75f196(GE_void(l2), a1, a2));
}
t1 = ((R)==(EIF_VOID));
if (t1) {
l3 = (T340f11(GE_void(a1)));
t1 = (T75f60(GE_void(l2)));
if (t1) {
t1 = (T75f59(GE_void(l2)));
}
if (t1) {
t1 = (T75f58(GE_void(l2)));
}
if (t1) {
R = T469c6(l3);
}
}
return R;
}
/* ET_CLASS.convert_from_feature */
T0* T75f196(T0* C, T0* a1, T0* a2)
{
T1 t1;
T0* t2;
T0* t3;
T0* t4;
T0* R = 0;
T6 l1 = 0;
T6 l2 = 0;
T0* l3 = 0;
T0* l4 = 0;
t1 = ((((T75*)(C))->a38)!=(EIF_VOID));
if (t1) {
t2 = (T75f53(C));
l4 = (T74f636(GE_void(t2)));
l2 = (((T1155*)(GE_void(((T75*)(C))->a38)))->a2);
l1 = (T6)(GE_int32(1));
while (1) {
t1 = (T6f1((&l1), l2));
if (t1) {
break;
}
l3 = (T1155f6(GE_void(((T75*)(C))->a38), l1));
t1 = (((((T0*)(GE_void(l3)))->id==1248)?T1248f7(l3):EIF_TRUE));
if (t1) {
t2 = (((((T0*)(GE_void(l3)))->id==1248)?((T1248*)(l3))->a2:((T1250*)(l3))->a2));
t3 = (T75f53(C));
t3 = (T74f1196(GE_void(t3)));
t4 = (T75f53(C));
t4 = (T74f1196(GE_void(t4)));
t1 = (T935f7(GE_void(t2), l4, t3, a1, t4, a2));
if (t1) {
R = l3;
l1 = ((T6)((l2)+((T6)(GE_int32(1)))));
}
}
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
return R;
}
/* ET_BRACED_TYPE_LIST.has_named_type_with_type_marks */
T1 T935f7(T0* C, T0* a1, T0* a2, T0* a3, T0* a4, T0* a5)
{
T1 t1;
T0* t2;
T1 R = 0;
T6 l1 = 0;
T6 l2 = 0;
l2 = ((T6)((((T935*)(C))->a3)-((T6)(GE_int32(1)))));
l1 = (T6)(GE_int32(0));
while (1) {
t1 = (T6f1((&l1), l2));
if (t1) {
break;
}
t2 = (((T1253*)(GE_void(((T935*)(C))->a4)))->z2[l1]);
t2 = (T1252x6897(GE_void(t2)));
t1 = (T210x6861T0T0T0T0T0(GE_void(t2), a1, a2, a3, a4, a5));
if (t1) {
R = EIF_TRUE;
l1 = ((T6)((l2)+((T6)(GE_int32(1)))));
} else {
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
return R;
}
/* ET_TOKEN_CONSTANTS.attached_separate_type_mark */
unsigned char ge808os10904 = '\0';
T0* ge808ov10904;
T0* T74f1196(T0* C)
{
T0* t1;
T0* t2;
T0* R = 0;
if (ge808os10904) {
return ge808ov10904;
} else {
ge808os10904 = '\1';
ge808ov10904 = R;
}
t1 = (T74f543(C));
t2 = (T74f1198(C));
R = T1197c18(t1, t2);
ge808ov10904 = R;
return R;
}
/* ET_TOKEN_CONSTANTS.separate_keyword */
unsigned char ge808os11001 = '\0';
T0* ge808ov11001;
T0* T74f1198(T0* C)
{
T0* R = 0;
if (ge808os11001) {
return ge808ov11001;
} else {
ge808os11001 = '\1';
ge808ov11001 = R;
}
R = T356c59();
ge808ov11001 = R;
return R;
}
/* ET_TOKEN_CONSTANTS.identity_type */
unsigned char ge808os10903 = '\0';
T0* ge808ov10903;
T0* T74f636(T0* C)
{
T0* R = 0;
if (ge808os10903) {
return ge808ov10903;
} else {
ge808os10903 = '\1';
ge808ov10903 = R;
}
R = T1317c74(EIF_VOID);
ge808ov10903 = R;
return R;
}
/* ET_CLASS.convert_to_feature */
T0* T75f195(T0* C, T0* a1, T0* a2)
{
T1 t1;
T0* t2;
T0* t3;
T0* t4;
T0* R = 0;
T6 l1 = 0;
T6 l2 = 0;
T0* l3 = 0;
T0* l4 = 0;
t1 = ((((T75*)(C))->a38)!=(EIF_VOID));
if (t1) {
t2 = (T75f53(C));
l4 = (T74f636(GE_void(t2)));
l2 = (((T1155*)(GE_void(((T75*)(C))->a38)))->a2);
l1 = (T6)(GE_int32(1));
while (1) {
t1 = (T6f1((&l1), l2));
if (t1) {
break;
}
l3 = (T1155f6(GE_void(((T75*)(C))->a38), l1));
t1 = (((((T0*)(GE_void(l3)))->id==1248)?EIF_TRUE:T1250f7(l3)));
if (t1) {
t2 = (((((T0*)(GE_void(l3)))->id==1248)?((T1248*)(l3))->a2:((T1250*)(l3))->a2));
t3 = (T75f53(C));
t3 = (T74f1196(GE_void(t3)));
t4 = (T75f53(C));
t4 = (T74f1196(GE_void(t4)));
t1 = (T935f7(GE_void(t2), l4, t3, a1, t4, a2));
if (t1) {
R = l3;
l1 = ((T6)((l2)+((T6)(GE_int32(1)))));
}
}
l1 = ((T6)((l1)+((T6)(GE_int32(1)))));
}
}
return R;
}
/* ET_NESTED_TYPE_CONTEXT.conforms_to_context */
T1 T340f43(T0* C, T0* a1)
{
T1 R = 0;
R = (T340f46(C, EIF_VOID, a1, EIF_VOID));
return R;
}
/* ET_NESTED_TYPE_CONTEXT.conforms_to_context_with_type_marks */
T1 T340f46(T0* C, T0* a1, T0* a2, T0* a3)
{
T0* t1;
T1 R = 0;
t1 = (T340f49(C));
t1 = (T74f636(GE_void(t1)));
R = (T340f21(C, t1, a1, a2, a3));
return R;
}
/* ET_NESTED_TYPE_CONTEXT.tokens */
T0* T340f49(T0* C)
{
T0* R = 0;
if (ge801os1957) {
return ge801ov1957;
} else {
ge801os1957 = '\1';
ge801ov1957 = R;
}
R = T74c1199();
ge801ov1957 = R;
return R;
}
/* ET_TOKEN_CONSTANTS.attached_like_current */
unsigned char ge808os10902 = '\0';
T0* ge808ov10902;
T0* T74f1193(T0* C)
{
T0* t1;
T0* R = 0;
if (ge808os10902) {
return ge808ov10902;
} else {
ge808os10902 = '\1';
ge808ov10902 = R;
}
t1 = (T74f543(C));
R = T1317c74(t1);
ge808ov10902 = R;
return R;
}
/* ET_FEATURE_CHECKER.is_entity_attached */
T1 T328f48(T0* C, T0* a1)
{
T1 t1;
T0* m1 = 0;
T6 t2;
T1 R = 0;
T0* l1 = 0;
T0* l2 = 0;
l1 = (T242x14661(GE_void(a1)));
t1 = T328f48ot1(l1);
if (t1) {
R = (T346f6(GE_void(((T328*)(C))->a22)));
} else {
t1 = T328f48ot2(l1, &m1);
if (t1) {
t1 = (T143f26(m1));
if (t1) {
R = (T346f8(GE_void(((T328*)(C))->a22), m1));
} else {
t1 = (T143f24(m1));
if (t1) {
R = (T346f8(GE_void(((T328*)(C))->a22), m1));
} else {
t2 = (((T143*)(m1))->a1);
l2 = (T75f120(GE_void(((T328*)(C))->a2), t2));
t1 = ((l2)!=(EIF_VOID));
if (t1) {
t1 = (T208x16437(GE_void(l2)));
}
if (t1) {
R = (T346f8(GE_void(((T328*)(C))->a22), m1));
}
}
}
}
}
return R;
}
T1 T328f48ot1(T0* a1)
{
if ((a1)==EIF_VOID) {
return EIF_FALSE;
} else {
switch (((T0*)(a1))->id) {
case 269:
return EIF_TRUE;
default:
return EIF_FALSE;
}
}
}
T1 T328f48ot2(T0* a1, T0** a2)
{
if ((a1)==EIF_VOID) {
return EIF_FALSE;
} else {
switch (((T0*)(a1))->id) {
case 143:
*a2 = a1;
return EIF_TRUE;
default:
return EIF_FALSE;
}
}
}
/* ET_ATTACHMENT_SCOPE.has_name */
T1 T346f8(T0* C, T0* a1)
{
T1 t1;
T6 t2;
T1 R = 0;
t1 = (T143f26(GE_void(a1)));
if (t1) {
t2 = (((T143*)(GE_void(a1)))->a1);
R = (T136f25(GE_void(((T346*)(C))->a1), t2));
} else {
t1 = (T143f24(GE_void(a1)));
if (t1) {
t2 = (((T143*)(GE_void(a1)))->a1);
R = (T136f25(GE_void(((T346*)(C))->a2), t2));
} else {
t2 = (((T143*)(GE_void(a1)))->a1);
R = (T136f25(GE_void(((T346*)(C))->a3), t2));
}
}
return R;
}
/* ET_ATTACHMENT_SCOPE.has_result */
T1 T346f6(T0* C)
{
T1 R = 0;
R = ((T346*)(C))->a4;
return R;
}
/* ET_NESTED_TYPE_CONTEXT.is_type_attached */
T1 T340f40(T0* C)
{
T1 R = 0;
R = (T340f33(C, EIF_VOID));
return R;
}
/* ET_NESTED_TYPE_CONTEXT.is_type_detachable */
T1 T340f44(T0* C)
{
T1 R = 0;
R = (T340f31(C, EIF_VOID));
return R;
}
/* ET_ERROR_HANDLER.report_vuar1b_error */
void T29f414(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* l1 = 0;
t1 = (T29f121(C, a1));
if (t1) {
l1 = T495c904(a1, a2, a3);
T29f184(C, l1);
}
}
/* ET_VALIDITY_ERROR.make_vuar1b */
T0* T495c904(T0* a1, T0* a2, T0* a3)
{
T0* C;
T0* t1;
T6 t2;
C = GE_new495(EIF_TRUE);
((T495*)(C))->a5 = a1;
((T495*)(C))->a6 = a1;
((T495*)(C))->a7 = (T272x6898(GE_void(a2)));
((T495*)(C))->a8 = (T495f15(C, ge1014ov27339));
((T495*)(C))->a9 = ge1014ov27079;
((T495*)(C))->a3 = (T495f19(C, ge1014ov26911));
((T495*)(C))->a4 = T101c11(ge178ov4496, (T6)(GE_int32(1)), (T6)(GE_int32(8)));
T101f12(GE_void(((T495*)(C))->a4), ((T495*)(C))->a9, (T6)(GE_int32(1)));
t1 = (T495f21(C));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(2)));
t2 = (T148x11747(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(3)));
t2 = (T148x11748(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(4)));
t1 = (T75f49(GE_void(((T495*)(C))->a5)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(5)));
t1 = (T75f49(GE_void(((T495*)(C))->a6)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(6)));
t1 = (T272x14596(GE_void(a2)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(7)));
t1 = (T246x16408(GE_void(a3)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(8)));
T495f713(C, EIF_TRUE);
return C;
}
/* ET_ERROR_HANDLER.reportable_vuar1_error */
T1 T29f121(T0* C, T0* a1)
{
T1 R = 0;
R = EIF_TRUE;
return R;
}
/* ET_NULL_ERROR_HANDLER.report_vuar1b_error */
void T70f415(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* l1 = 0;
t1 = (T70f122(C, a1));
if (t1) {
l1 = T495c904(a1, a2, a3);
T70f184(C, l1);
}
}
/* ET_NULL_ERROR_HANDLER.reportable_vuar1_error */
T1 T70f122(T0* C, T0* a1)
{
T1 R = 0;
R = EIF_FALSE;
return R;
}
/* ET_ERROR_HANDLER.report_vuar1a_error */
void T29f376(T0* C, T0* a1, T0* a2, T0* a3, T0* a4)
{
T1 t1;
T0* l1 = 0;
t1 = (T29f121(C, a1));
if (t1) {
l1 = T495c866(a1, a2, a3, a4);
T29f184(C, l1);
}
}
/* ET_VALIDITY_ERROR.make_vuar1a */
T0* T495c866(T0* a1, T0* a2, T0* a3, T0* a4)
{
T0* C;
T0* t1;
T6 t2;
C = GE_new495(EIF_TRUE);
((T495*)(C))->a5 = a1;
((T495*)(C))->a6 = a1;
((T495*)(C))->a7 = (T272x6898(GE_void(a2)));
((T495*)(C))->a8 = (T495f15(C, ge1014ov27338));
((T495*)(C))->a9 = ge1014ov27079;
((T495*)(C))->a3 = (T495f19(C, ge1014ov26910));
((T495*)(C))->a4 = T101c11(ge178ov4496, (T6)(GE_int32(1)), (T6)(GE_int32(9)));
T101f12(GE_void(((T495*)(C))->a4), ((T495*)(C))->a9, (T6)(GE_int32(1)));
t1 = (T495f21(C));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(2)));
t2 = (T148x11747(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(3)));
t2 = (T148x11748(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(4)));
t1 = (T75f49(GE_void(((T495*)(C))->a5)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(5)));
t1 = (T75f49(GE_void(((T495*)(C))->a6)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(6)));
t1 = (T272x14596(GE_void(a2)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(7)));
t1 = (T246x16408(GE_void(a3)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(8)));
t1 = (T75f49(GE_void(a4)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(9)));
T495f713(C, EIF_TRUE);
return C;
}
/* ET_NULL_ERROR_HANDLER.report_vuar1a_error */
void T70f377(T0* C, T0* a1, T0* a2, T0* a3, T0* a4)
{
T1 t1;
T0* l1 = 0;
t1 = (T70f122(C, a1));
if (t1) {
l1 = T495c866(a1, a2, a3, a4);
T70f184(C, l1);
}
}
/* ET_ERROR_HANDLER.report_vdpr4a_error */
void T29f413(T0* C, T0* a1, T0* a2, T0* a3, T0* a4)
{
T1 t1;
T0* l1 = 0;
t1 = (T29f136(C, a1));
if (t1) {
l1 = T495c903(a1, a2, a3, a4);
T29f184(C, l1);
}
}
/* ET_VALIDITY_ERROR.make_vdpr4a */
T0* T495c903(T0* a1, T0* a2, T0* a3, T0* a4)
{
T0* C;
T0* t1;
T6 t2;
C = GE_new495(EIF_TRUE);
((T495*)(C))->a5 = a1;
((T495*)(C))->a6 = a1;
((T495*)(C))->a7 = (T1076f9(GE_void(a2)));
((T495*)(C))->a8 = (T495f15(C, ge1014ov27149));
((T495*)(C))->a9 = ge1014ov26985;
((T495*)(C))->a3 = (T495f19(C, ge1014ov26721));
((T495*)(C))->a4 = T101c11(ge178ov4496, (T6)(GE_int32(1)), (T6)(GE_int32(8)));
T101f12(GE_void(((T495*)(C))->a4), ((T495*)(C))->a9, (T6)(GE_int32(1)));
t1 = (T495f21(C));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(2)));
t2 = (T148x11747(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(3)));
t2 = (T148x11748(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(4)));
t1 = (T75f49(GE_void(((T495*)(C))->a5)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(5)));
t1 = (T75f49(GE_void(((T495*)(C))->a6)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(6)));
t1 = (T246x16408(GE_void(a3)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(7)));
t1 = (T75f49(GE_void(a4)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(8)));
T495f713(C, EIF_TRUE);
return C;
}
/* ET_NULL_ERROR_HANDLER.report_vdpr4a_error */
void T70f414(T0* C, T0* a1, T0* a2, T0* a3, T0* a4)
{
T1 t1;
T0* l1 = 0;
t1 = (T70f137(C, a1));
if (t1) {
l1 = T495c903(a1, a2, a3, a4);
T70f184(C, l1);
}
}
/* ET_FEATURE_CHECKER.check_unqualified_vape_validity */
void T328f273(T0* C, T0* a1, T0* a2)
{
T1 t1;
T0* t2;
T0* t3;
T0* l1 = 0;
T0* l2 = 0;
T0* l3 = 0;
T0* l4 = 0;
T6 l5 = 0;
T6 l6 = 0;
((T328*)(C))->a25 = EIF_FALSE;
if (((T328*)(C))->a26) {
t1 = (T332x16500(GE_void(((T328*)(C))->a4)));
} else {
t1 = EIF_FALSE;
}
if (t1) {
l1 = (T246x16505(GE_void(a2)));
l2 = (T332x16505(GE_void(((T328*)(C))->a4)));
l6 = (((((T0*)(GE_void(l2)))->id==467)?((T467*)(l2))->a1:((T1069*)(l2))->a3));
l5 = (T6)(GE_int32(1));
while (1) {
t1 = (T6f1((&l5), l6));
if (t1) {
break;
}
l3 = (((((T0*)(GE_void(l2)))->id==467)?T467f7(l2, l5):T1069f10(l2, l5)));
l4 = (T460f3(GE_void(l3)));
t1 = (T75f106(GE_void(l4)));
if (t1) {
} else {
t1 = (T246x16453T0(GE_void(a2), l4));
if (t1) {
} else {
t2 = (T328f43(C));
t2 = (T216x3175(GE_void(t2)));
t2 = (T73f16(GE_void(t2)));
t1 = (((((T0*)(GE_void(l1)))->id==467)?T467f4(l1, t2):T1069f8(l1, t2)));
if (t1) {
} else {
T328f59(C);
t2 = (T328f36(C));
t3 = (T332x16511(GE_void(((T328*)(C))->a4)));
if (((T0*)(GE_void(t2)))->id==70) {
T70f441(t2, ((T328*)(C))->a2, ((T328*)(C))->a6, a1, a2, t3, l3);
} else {
T29f440(t2, ((T328*)(C))->a2, ((T328*)(C))->a6, a1, a2, t3, l3);
}
}
}
}
l5 = ((T6)((l5)+((T6)(GE_int32(1)))));
}
}
}
/* ET_ERROR_HANDLER.report_vape0a_error */
void T29f440(T0* C, T0* a1, T0* a2, T0* a3, T0* a4, T0* a5, T0* a6)
{
T1 t1;
T0* l1 = 0;
t1 = (T29f135(C, a1));
if (t1) {
l1 = T495c930(a1, a2, a3, a4, a5, a6);
T29f184(C, l1);
}
}
/* ET_VALIDITY_ERROR.make_vape0a */
T0* T495c930(T0* a1, T0* a2, T0* a3, T0* a4, T0* a5, T0* a6)
{
T0* C;
T0* t1;
T6 t2;
C = GE_new495(EIF_TRUE);
((T495*)(C))->a5 = a1;
((T495*)(C))->a6 = a2;
((T495*)(C))->a7 = (T272x6898(GE_void(a3)));
((T495*)(C))->a8 = (T495f15(C, ge1014ov27118));
((T495*)(C))->a9 = ge1014ov26971;
((T495*)(C))->a3 = (T495f19(C, ge1014ov26690));
((T495*)(C))->a4 = T101c11(ge178ov4496, (T6)(GE_int32(1)), (T6)(GE_int32(10)));
T101f12(GE_void(((T495*)(C))->a4), ((T495*)(C))->a9, (T6)(GE_int32(1)));
t1 = (T495f21(C));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(2)));
t2 = (T148x11747(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(3)));
t2 = (T148x11748(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(4)));
t1 = (T75f49(GE_void(((T495*)(C))->a5)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(5)));
t1 = (T75f49(GE_void(((T495*)(C))->a6)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(6)));
t1 = (T272x14596(GE_void(a3)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(7)));
t1 = (T246x16408(GE_void(a4)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(8)));
t1 = (T246x16408(GE_void(a5)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(9)));
t1 = (((T460*)(GE_void(a6)))->a1);
t1 = (T143f7(GE_void(t1)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(10)));
T495f713(C, EIF_TRUE);
return C;
}
/* ET_ERROR_HANDLER.reportable_vape_error */
T1 T29f135(T0* C, T0* a1)
{
T1 R = 0;
R = EIF_TRUE;
return R;
}
/* ET_NULL_ERROR_HANDLER.report_vape0a_error */
void T70f441(T0* C, T0* a1, T0* a2, T0* a3, T0* a4, T0* a5, T0* a6)
{
T1 t1;
T0* l1 = 0;
t1 = (T70f136(C, a1));
if (t1) {
l1 = T495c930(a1, a2, a3, a4, a5, a6);
T70f184(C, l1);
}
}
/* ET_NULL_ERROR_HANDLER.reportable_vape_error */
T1 T70f136(T0* C, T0* a1)
{
T1 R = 0;
R = EIF_FALSE;
return R;
}
/* ET_ERROR_HANDLER.report_vuex1a_error */
void T29f401(T0* C, T0* a1, T0* a2)
{
T1 t1;
T0* l1 = 0;
t1 = (T29f133(C, a1));
if (t1) {
l1 = T495c891(a1, a2);
T29f184(C, l1);
}
}
/* ET_VALIDITY_ERROR.make_vuex1a */
T0* T495c891(T0* a1, T0* a2)
{
T0* C;
T0* t1;
T6 t2;
C = GE_new495(EIF_TRUE);
((T495*)(C))->a5 = a1;
((T495*)(C))->a6 = a1;
((T495*)(C))->a7 = (T272x6898(GE_void(a2)));
((T495*)(C))->a8 = (T495f15(C, ge1014ov27344));
((T495*)(C))->a9 = ge1014ov27082;
((T495*)(C))->a3 = (T495f19(C, ge1014ov26916));
((T495*)(C))->a4 = T101c11(ge178ov4496, (T6)(GE_int32(1)), (T6)(GE_int32(7)));
T101f12(GE_void(((T495*)(C))->a4), ((T495*)(C))->a9, (T6)(GE_int32(1)));
t1 = (T495f21(C));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(2)));
t2 = (T148x11747(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(3)));
t2 = (T148x11748(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(4)));
t1 = (T75f49(GE_void(((T495*)(C))->a5)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(5)));
t1 = (T75f49(GE_void(((T495*)(C))->a6)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(6)));
t1 = (T272x14596(GE_void(a2)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(7)));
T495f713(C, EIF_TRUE);
return C;
}
/* ET_ERROR_HANDLER.reportable_vuex1_error */
T1 T29f133(T0* C, T0* a1)
{
T1 R = 0;
R = EIF_TRUE;
return R;
}
/* ET_NULL_ERROR_HANDLER.report_vuex1a_error */
void T70f402(T0* C, T0* a1, T0* a2)
{
T1 t1;
T0* l1 = 0;
t1 = (T70f134(C, a1));
if (t1) {
l1 = T495c891(a1, a2);
T70f184(C, l1);
}
}
/* ET_NULL_ERROR_HANDLER.reportable_vuex1_error */
T1 T70f134(T0* C, T0* a1)
{
T1 R = 0;
R = EIF_FALSE;
return R;
}
/* ET_ERROR_HANDLER.report_gvual0a_error */
void T29f398(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* l1 = 0;
t1 = (T29f131(C, a1));
if (t1) {
l1 = T495c888(a1, a2, a3);
T29f184(C, l1);
}
}
/* ET_VALIDITY_ERROR.make_gvual0a */
T0* T495c888(T0* a1, T0* a2, T0* a3)
{
T0* C;
T0* t1;
T6 t2;
C = GE_new495(EIF_TRUE);
((T495*)(C))->a5 = a1;
((T495*)(C))->a6 = a1;
((T495*)(C))->a7 = (T143f22(GE_void(a2)));
((T495*)(C))->a8 = (T495f15(C, ge1014ov27390));
((T495*)(C))->a9 = ge1014ov27111;
((T495*)(C))->a3 = (T495f19(C, ge1014ov26962));
((T495*)(C))->a4 = T101c11(ge178ov4496, (T6)(GE_int32(1)), (T6)(GE_int32(8)));
T101f12(GE_void(((T495*)(C))->a4), ((T495*)(C))->a9, (T6)(GE_int32(1)));
t1 = (T495f21(C));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(2)));
t2 = (T148x11747(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(3)));
t2 = (T148x11748(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(4)));
t1 = (T75f49(GE_void(((T495*)(C))->a5)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(5)));
t1 = (T75f49(GE_void(((T495*)(C))->a6)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(6)));
t1 = (T143f43(GE_void(a2)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(7)));
t1 = (T246x16408(GE_void(a3)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(8)));
T495f713(C, EIF_TRUE);
return C;
}
/* ET_ERROR_HANDLER.reportable_gvual_error */
T1 T29f131(T0* C, T0* a1)
{
T1 R = 0;
R = EIF_TRUE;
return R;
}
/* ET_NULL_ERROR_HANDLER.report_gvual0a_error */
void T70f399(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* l1 = 0;
t1 = (T70f132(C, a1));
if (t1) {
l1 = T495c888(a1, a2, a3);
T70f184(C, l1);
}
}
/* ET_NULL_ERROR_HANDLER.reportable_gvual_error */
T1 T70f132(T0* C, T0* a1)
{
T1 R = 0;
R = EIF_FALSE;
return R;
}
/* ET_ERROR_HANDLER.report_gvual0b_error */
void T29f397(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* l1 = 0;
t1 = (T29f131(C, a1));
if (t1) {
l1 = T495c887(a1, a2, a3);
T29f184(C, l1);
}
}
/* ET_VALIDITY_ERROR.make_gvual0b */
T0* T495c887(T0* a1, T0* a2, T0* a3)
{
T0* C;
T0* t1;
T6 t2;
C = GE_new495(EIF_TRUE);
((T495*)(C))->a5 = a1;
((T495*)(C))->a6 = a1;
((T495*)(C))->a7 = (T143f22(GE_void(a2)));
((T495*)(C))->a8 = (T495f15(C, ge1014ov27391));
((T495*)(C))->a9 = ge1014ov27111;
((T495*)(C))->a3 = (T495f19(C, ge1014ov26963));
((T495*)(C))->a4 = T101c11(ge178ov4496, (T6)(GE_int32(1)), (T6)(GE_int32(7)));
T101f12(GE_void(((T495*)(C))->a4), ((T495*)(C))->a9, (T6)(GE_int32(1)));
t1 = (T495f21(C));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(2)));
t2 = (T148x11747(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(3)));
t2 = (T148x11748(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(4)));
t1 = (T75f49(GE_void(((T495*)(C))->a5)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(5)));
t1 = (T75f49(GE_void(((T495*)(C))->a6)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(6)));
t1 = (T143f43(GE_void(a2)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(7)));
T495f713(C, EIF_TRUE);
return C;
}
/* ET_NULL_ERROR_HANDLER.report_gvual0b_error */
void T70f398(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* l1 = 0;
t1 = (T70f132(C, a1));
if (t1) {
l1 = T495c887(a1, a2, a3);
T70f184(C, l1);
}
}
/* ET_ERROR_HANDLER.report_gvuaa0a_error */
void T29f394(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* l1 = 0;
t1 = (T29f129(C, a1));
if (t1) {
l1 = T495c884(a1, a2, a3);
T29f184(C, l1);
}
}
/* ET_VALIDITY_ERROR.make_gvuaa0a */
T0* T495c884(T0* a1, T0* a2, T0* a3)
{
T0* C;
T0* t1;
T6 t2;
C = GE_new495(EIF_TRUE);
((T495*)(C))->a5 = a1;
((T495*)(C))->a6 = a1;
((T495*)(C))->a7 = (T143f22(GE_void(a2)));
((T495*)(C))->a8 = (T495f15(C, ge1014ov27388));
((T495*)(C))->a9 = ge1014ov27110;
((T495*)(C))->a3 = (T495f19(C, ge1014ov26960));
((T495*)(C))->a4 = T101c11(ge178ov4496, (T6)(GE_int32(1)), (T6)(GE_int32(8)));
T101f12(GE_void(((T495*)(C))->a4), ((T495*)(C))->a9, (T6)(GE_int32(1)));
t1 = (T495f21(C));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(2)));
t2 = (T148x11747(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(3)));
t2 = (T148x11748(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(4)));
t1 = (T75f49(GE_void(((T495*)(C))->a5)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(5)));
t1 = (T75f49(GE_void(((T495*)(C))->a6)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(6)));
t1 = (T143f43(GE_void(a2)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(7)));
t1 = (T246x16408(GE_void(a3)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(8)));
T495f713(C, EIF_TRUE);
return C;
}
/* ET_ERROR_HANDLER.reportable_gvuaa_error */
T1 T29f129(T0* C, T0* a1)
{
T1 R = 0;
R = EIF_TRUE;
return R;
}
/* ET_NULL_ERROR_HANDLER.report_gvuaa0a_error */
void T70f395(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* l1 = 0;
t1 = (T70f130(C, a1));
if (t1) {
l1 = T495c884(a1, a2, a3);
T70f184(C, l1);
}
}
/* ET_NULL_ERROR_HANDLER.reportable_gvuaa_error */
T1 T70f130(T0* C, T0* a1)
{
T1 R = 0;
R = EIF_FALSE;
return R;
}
/* ET_ERROR_HANDLER.report_gvuaa0b_error */
void T29f393(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* l1 = 0;
t1 = (T29f129(C, a1));
if (t1) {
l1 = T495c883(a1, a2, a3);
T29f184(C, l1);
}
}
/* ET_VALIDITY_ERROR.make_gvuaa0b */
T0* T495c883(T0* a1, T0* a2, T0* a3)
{
T0* C;
T0* t1;
T6 t2;
C = GE_new495(EIF_TRUE);
((T495*)(C))->a5 = a1;
((T495*)(C))->a6 = a1;
((T495*)(C))->a7 = (T143f22(GE_void(a2)));
((T495*)(C))->a8 = (T495f15(C, ge1014ov27389));
((T495*)(C))->a9 = ge1014ov27110;
((T495*)(C))->a3 = (T495f19(C, ge1014ov26961));
((T495*)(C))->a4 = T101c11(ge178ov4496, (T6)(GE_int32(1)), (T6)(GE_int32(7)));
T101f12(GE_void(((T495*)(C))->a4), ((T495*)(C))->a9, (T6)(GE_int32(1)));
t1 = (T495f21(C));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(2)));
t2 = (T148x11747(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(3)));
t2 = (T148x11748(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(4)));
t1 = (T75f49(GE_void(((T495*)(C))->a5)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(5)));
t1 = (T75f49(GE_void(((T495*)(C))->a6)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(6)));
t1 = (T143f43(GE_void(a2)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(7)));
T495f713(C, EIF_TRUE);
return C;
}
/* ET_NULL_ERROR_HANDLER.report_gvuaa0b_error */
void T70f394(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* l1 = 0;
t1 = (T70f130(C, a1));
if (t1) {
l1 = T495c883(a1, a2, a3);
T70f184(C, l1);
}
}
/* ET_FEATURE_CHECKER.current_closure_impl */
T0* T328f46(T0* C)
{
T1 t1;
T0* R = 0;
t1 = ((((T328*)(C))->a33)!=(EIF_VOID));
if (t1) {
R = ((T328*)(C))->a33;
} else {
R = ((T328*)(C))->a5;
}
return R;
}
/* ET_ERROR_HANDLER.report_vkcn2c_error */
void T29f402(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* l1 = 0;
t1 = (T29f111(C, a1));
if (t1) {
l1 = T495c892(a1, a2, a3);
T29f184(C, l1);
}
}
/* ET_VALIDITY_ERROR.make_vkcn2c */
T0* T495c892(T0* a1, T0* a2, T0* a3)
{
T0* C;
T0* t1;
T6 t2;
C = GE_new495(EIF_TRUE);
((T495*)(C))->a5 = a1;
((T495*)(C))->a6 = a1;
((T495*)(C))->a7 = (T272x6898(GE_void(a2)));
((T495*)(C))->a8 = (T495f15(C, ge1014ov27256));
((T495*)(C))->a9 = ge1014ov27035;
((T495*)(C))->a3 = (T495f19(C, ge1014ov26828));
((T495*)(C))->a4 = T101c11(ge178ov4496, (T6)(GE_int32(1)), (T6)(GE_int32(8)));
T101f12(GE_void(((T495*)(C))->a4), ((T495*)(C))->a9, (T6)(GE_int32(1)));
t1 = (T495f21(C));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(2)));
t2 = (T148x11747(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(3)));
t2 = (T148x11748(GE_void(((T495*)(C))->a7)));
t1 = (T6f3(&t2));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(4)));
t1 = (T75f49(GE_void(((T495*)(C))->a5)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(5)));
t1 = (T75f49(GE_void(((T495*)(C))->a6)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(6)));
t1 = (T272x14596(GE_void(a2)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(7)));
t1 = (T246x16408(GE_void(a3)));
T101f12(GE_void(((T495*)(C))->a4), t1, (T6)(GE_int32(8)));
T495f713(C, EIF_TRUE);
return C;
}
/* ET_ERROR_HANDLER.reportable_vkcn2_error */
T1 T29f111(T0* C, T0* a1)
{
T1 R = 0;
R = EIF_TRUE;
return R;
}
/* ET_NULL_ERROR_HANDLER.report_vkcn2c_error */
void T70f403(T0* C, T0* a1, T0* a2, T0* a3)
{
T1 t1;
T0* l1 = 0;
t1 = (T70f112(C, a1));
if (t1) {
l1 = T495c892(a1, a2, a3);
T70f184(C, l1);
}
}
#ifdef __cplusplus
}
#endif
|
aspan/cloudhopper-commons | ch-sxmp/src/main/java/com/cloudhopper/sxmp/TextEncoding.java | package com.cloudhopper.sxmp;
/*
* #%L
* ch-sxmp
* %%
* Copyright (C) 2012 - 2013 Cloudhopper by Twitter
* %%
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
* #L%
*/
/**
* Enumeration of all text encodings supported by the SXMP protocol.
*
* @author joelauer
*/
public enum TextEncoding {
ISO_8859_1 ("ISO-8859-1"),
UTF_8 ("UTF-8");
private final String charset;
TextEncoding(final String charset) {
this.charset = charset;
}
public String getCharset() {
return this.charset;
}
public static TextEncoding valueOfCharset(final String charset) {
for (TextEncoding e : TextEncoding.values()) {
if (e.charset.equalsIgnoreCase(charset)) {
return e;
}
}
return null;
}
}
|
siweilxy/openjdkstudy | src/hotspot/share/gc/g1/g1CollectorState.hpp | <reponame>siweilxy/openjdkstudy
/*
* Copyright (c) 2015, 2019, Oracle and/or its affiliates. All rights reserved.
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* This code is free software; you can redistribute it and/or modify it
* under the terms of the GNU General Public License version 2 only, as
* published by the Free Software Foundation.
*
* This code is distributed in the hope that it will be useful, but WITHOUT
* ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or
* FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
* version 2 for more details (a copy is included in the LICENSE file that
* accompanied this code).
*
* You should have received a copy of the GNU General Public License version
* 2 along with this work; if not, write to the Free Software Foundation,
* Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA.
*
* Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA
* or visit www.oracle.com if you need additional information or have any
* questions.
*
*/
#ifndef SHARE_GC_G1_G1COLLECTORSTATE_HPP
#define SHARE_GC_G1_G1COLLECTORSTATE_HPP
#include "gc/g1/g1YCTypes.hpp"
#include "utilities/globalDefinitions.hpp"
// State of the G1 collection.
class G1CollectorState {
// Indicates whether we are in the phase where we do partial gcs that only contain
// the young generation. Not set while _in_full_gc is set.
bool _in_young_only_phase;
// Indicates whether we are in the last young gc before the mixed gc phase. This GC
// is required to keep pause time requirements.
bool _in_young_gc_before_mixed;
// If _initiate_conc_mark_if_possible is set at the beginning of a
// pause, it is a suggestion that the pause should start a marking
// cycle by doing the initial-mark work. However, it is possible
// that the concurrent marking thread is still finishing up the
// previous marking cycle (e.g., clearing the next marking
// bitmap). If that is the case we cannot start a new cycle and
// we'll have to wait for the concurrent marking thread to finish
// what it is doing. In this case we will postpone the marking cycle
// initiation decision for the next pause. When we eventually decide
// to start a cycle, we will set _in_initial_mark_gc which
// will stay true until the end of the initial-mark pause doing the
// initial-mark work.
volatile bool _in_initial_mark_gc;
// At the end of a pause we check the heap occupancy and we decide
// whether we will start a marking cycle during the next pause. If
// we decide that we want to do that, set this parameter. This parameter will
// stay set until the beginning of a subsequent pause (not necessarily
// the next one) when we decide that we will indeed start a marking cycle and
// do the initial-mark work.
volatile bool _initiate_conc_mark_if_possible;
// Marking or rebuilding remembered set work is in progress. Set from the end
// of the initial mark pause to the end of the Cleanup pause.
bool _mark_or_rebuild_in_progress;
// The next bitmap is currently being cleared or about to be cleared. TAMS and bitmap
// may be out of sync.
bool _clearing_next_bitmap;
// Set during a full gc pause.
bool _in_full_gc;
public:
G1CollectorState() :
_in_young_only_phase(true),
_in_young_gc_before_mixed(false),
_in_initial_mark_gc(false),
_initiate_conc_mark_if_possible(false),
_mark_or_rebuild_in_progress(false),
_clearing_next_bitmap(false),
_in_full_gc(false) { }
// Phase setters
void set_in_young_only_phase(bool v) { _in_young_only_phase = v; }
// Pause setters
void set_in_young_gc_before_mixed(bool v) { _in_young_gc_before_mixed = v; }
void set_in_initial_mark_gc(bool v) { _in_initial_mark_gc = v; }
void set_in_full_gc(bool v) { _in_full_gc = v; }
void set_initiate_conc_mark_if_possible(bool v) { _initiate_conc_mark_if_possible = v; }
void set_mark_or_rebuild_in_progress(bool v) { _mark_or_rebuild_in_progress = v; }
void set_clearing_next_bitmap(bool v) { _clearing_next_bitmap = v; }
// Phase getters
bool in_young_only_phase() const { return _in_young_only_phase && !_in_full_gc; }
bool in_mixed_phase() const { return !in_young_only_phase() && !_in_full_gc; }
// Specific pauses
bool in_young_gc_before_mixed() const { return _in_young_gc_before_mixed; }
bool in_full_gc() const { return _in_full_gc; }
bool in_initial_mark_gc() const { return _in_initial_mark_gc; }
bool initiate_conc_mark_if_possible() const { return _initiate_conc_mark_if_possible; }
bool mark_or_rebuild_in_progress() const { return _mark_or_rebuild_in_progress; }
bool clearing_next_bitmap() const { return _clearing_next_bitmap; }
G1YCType yc_type() const {
if (in_initial_mark_gc()) {
return InitialMark;
} else if (mark_or_rebuild_in_progress()) {
return DuringMarkOrRebuild;
} else if (in_young_only_phase()) {
return Normal;
} else {
return Mixed;
}
}
};
#endif // SHARE_GC_G1_G1COLLECTORSTATE_HPP
|
s603273854/openxds | common-utils/src/main/java/org/openhealthtools/common/utils/ConnectionUtil.java | <reponame>s603273854/openxds<gh_stars>10-100
/**
* Copyright (c) 2009-2010 Misys Open Source Solutions (MOSS) and others
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or
* implied. See the License for the specific language governing
* permissions and limitations under the License.
*
* Contributors:
* Misys Open Source Solutions - initial API and implementation
* -
*/
package org.openhealthtools.common.utils;
import org.apache.commons.httpclient.protocol.Protocol;
import org.openhealthtools.openexchange.actorconfig.net.IConnectionDescription;
import org.openhealthtools.openexchange.actorconfig.net.SecureConnectionDescription;
import org.openhealthtools.openexchange.actorconfig.net.SecureSocketFactory;
/**
* The helper class to manipulate IConnectionDescription objects to
* get the web services url and transport protocol etc.
*
* @author <a href="mailto:<EMAIL>"><NAME></a>
*/
public class ConnectionUtil {
/**
* Assembles a web service end point based on the given <code>ConnectionDescription</code>
*
* @param connection the ConnectionDescription
* @return the URL string of the web service
*/
public static String getTransactionEndpoint(IConnectionDescription connection) {
if (connection == null)
return null;
String host = connection.getHostname();
if (host == null)
host = "localhost";
int port = connection.getPort();
boolean isSecure = connection.isSecure();
String url = "http://";
if(isSecure) {
url="https://";
}
String path = connection.getUrlPath();
if (!path.startsWith("/"))
path = "/" + path;
url+= host + ":" + port + connection.getUrlPath();
return url;
}
/**
* Creates a customized protocol, e.g. https. This protocol can be used
* to replaced the default protocol used by Axis2.
*
* @param connection the ConnectionDescription
* @return a Protocol object. Null is returned if no customization is needed,
* and a default protocol is supposed to be used.
*/
public static Protocol getProtocol(IConnectionDescription connection) {
Protocol protocol = null;
if (connection.isSecure()) {
protocol = new Protocol("https", new SecureSocketFactory((SecureConnectionDescription)connection), connection.getPort());
}
return protocol;
}
}
|
ismail4040/DeepLeanirngJazz | music21/musedata/__init__.py | # -*- coding: utf-8 -*-
#-------------------------------------------------------------------------------
# Name: musedata/__init__.py
# Purpose: parses Walter Hewlett's MuseData format
#
# Authors: <NAME>
# <NAME>
#
# Copyright: Copyright © 2010, 2014 <NAME> and the music21 Project
# License: LGPL or BSD, see license.txt
#-------------------------------------------------------------------------------
'''
**N.B. in Dec. 2014 MuseData access was removed from music21 because the rights conflicted with
access computationally from music21. This module is retained for anyone who has such access,
however it is completely untested now and errors cannot and will not be fixed.**
Objects and resources for processing MuseData.
MuseData conversion from a file or URL to a :class:`~music21.stream.Stream` is available through
the music21 converter module's :func:`~music21.converter.parse` function.
>>> #_DOCS_SHOW from music21 import *
>>> #_DOCS_SHOW abcScore = converter.parse('d:/data/musedata/myScore.stage2')
Low level MuseData conversion is facilitated by the objects in this module and
:func:`music21.musedata.translate.museDataToStreamScore`.
'''
import unittest
import os
import pathlib
from music21 import exceptions21
from music21.musedata import base40
from music21.musedata import translate
from music21 import common
from music21 import environment
_MOD = 'musedata'
environLocal = environment.Environment(_MOD)
# for implementation
# see http://www.ccarh.org/publications/books/beyondmidi/online/musedata/
# and http://www.ccarh.org/publications/books/beyondmidi/online/musedata/record-organization/
#-------------------------------------------------------------------------------
class MuseDataException(exceptions21.Music21Exception):
pass
#-------------------------------------------------------------------------------
class MuseDataRecord:
'''
Object for extracting data from a Note or other related record, or a
single line of musedata data.
'''
def __init__(self, src='', parent=None):
#environLocal.printDebug(['creating MuseDataRecord'])
self.src = src # src here is one line of text
self.parent = parent
if self.parent != None:
# form measure, then part
self.stage = self.parent.parent.stage
else:
self.stage = None
# store frequently used values
self._cache = {}
def isRest(self):
'''Return a boolean if this record is a rest.
>>> mdr = musedata.MuseDataRecord('D4 1 s d ]]')
>>> mdr.isRest()
False
>>> mdr = musedata.MuseDataRecord('measure 1 A')
>>> mdr.isRest()
False
'''
if self.src and self.src[0] == 'r':
return True
return False
def isTied(self):
'''Return a boolean if this record is tied.
>>> mdr = musedata.MuseDataRecord('D4 8- h d -')
>>> mdr.isTied()
True
>>> mdr = musedata.MuseDataRecord('C4 1 s u [[')
>>> mdr.isTied()
False
'''
if self.stage == 1:
if len(self.src) > 7 and self.src[7] == '-':
return True
return False
else:
if len(self.src) > 8 and self.src[8] == '-':
return True
return False
def isNote(self):
if self.src and self.src[0] in 'ABCDEFG':
return True
return False
def isChord(self):
'''
Chords are specified as additional note records following a main chord tone.
The blank space defines this as chord tone.
'''
# second character must be a pitch definition
if len(self.src) > 1 and self.src[0] == ' ' and self.src[1] in 'ABCDEFG':
return True
return False
def isCueOrGrace(self):
if self.src and self.src[0] in 'cg':
return True
return False
def isBack(self):
'''
>>> mdr = musedata.MuseDataRecord('back 4')
>>> mdr.isBack()
True
'''
if len(self.src) >= 4 and self.src[0:4] == 'back':
return True
return False
def _getPitchParameters(self):
'''
>>> mdr = musedata.MuseDataRecord('Ef4 1 s d ==')
>>> mdr.isNote()
True
>>> mdr._getPitchParameters()
'E-4'
>>> mdr = musedata.MuseDataRecord('F#4 1 s # d ==')
>>> mdr.isNote()
True
>>> mdr._getPitchParameters()
'F#4'
'''
if self.isNote():
data = self.src[0:].split()[0]
elif self.isCueOrGrace() or self.isChord():
data = self.src[1:].split()[0]
else:
raise MuseDataException('cannot get pitch parameters from this kind of record')
pStr = [data[0]] # first element will be A...G
if '#' in data:
pStr.append('#')
elif '##' in data:
pStr.append('##')
elif 'f' in data:
pStr.append('-')
elif 'ff' in data:
pStr.append('--')
# probably a faster way to do this
numbers, junk = common.getNumFromStr(data)
pStr.append(numbers)
#environLocal.printDebug(['pitch parameters', ''.join(pStr), 'src', self.src])
return ''.join(pStr)
def _getAccidentalObject(self):
'''Return a music21 Accidental object for the representation.
>>> mdr = musedata.MuseDataRecord('Ef4 1 s d ==')
>>> mdr._getAccidentalObject()
>>> mdr = musedata.MuseDataRecord('F#4 1 s # d ==')
>>> mdr._getAccidentalObject()
<accidental sharp>
>>> mdr._getAccidentalObject().displayStatus == True
True
>>> mdr = musedata.MuseDataRecord('F#4 1 s ')
>>> mdr._getAccidentalObject() is None
True
'''
# this is not called by stage 1
from music21 import pitch
if len(self.src) <= 18:
return None
data = self.src[18]
acc = None
if data == '#':
acc = pitch.Accidental('sharp')
elif data == 'n':
acc = pitch.Accidental('natural')
elif data == 'f':
acc = pitch.Accidental('flat')
elif data == 'x':
acc = pitch.Accidental('double-sharp')
elif data == 'X':
# this is sharp sharp, cannot distinguish
acc = pitch.Accidental('double-sharp')
elif data == '&':
acc = pitch.Accidental('double-flat')
elif data == 'S':
# natural sharp; cannot yet do
acc = pitch.Accidental('sharp')
elif data == 'F':
# natural flat; cannot yet do
acc = pitch.Accidental('flat')
# if no match or ' ', return None
if acc != None:
# not sure what the expectation is here: could be 'normal'
# 'unless-repeated'
acc.displayType = 'always'
acc.displayStatus = True
return acc
def getPitchObject(self):
'''
Get the Pitch object defined by this record. This may be a note, chord, or grace pitch.
>>> mdr = musedata.MuseDataRecord('Ef4 1 s d ==')
>>> p = mdr.getPitchObject()
>>> p.nameWithOctave
'E-4'
>>> mdr = musedata.MuseDataRecord('F#4 1 s # d ==')
>>> p = mdr.getPitchObject()
>>> p.nameWithOctave
'F#4'
>>> p.accidental.displayStatus
True
Double sharps were giving octave problems.
>>> mdr = musedata.MuseDataRecord('F##5 2 e x d')
>>> p = mdr.getPitchObject()
>>> p.nameWithOctave
'F##5'
'''
from music21 import pitch
pp = self._getPitchParameters()
p = pitch.Pitch(pp)
if self.stage == 1:
# no accidental information stored; have to just use pitch given
return p
else:
# bypass using property, as that sets pitch space value as needing
# update, and pitch space value should be correct
acc = self._getAccidentalObject()
# only set if not None, as otherwise default accidental will already
# be created
if p.accidental is not None:
# set display to hidden, as explicit display accidentals
# are given with an acc parameter
p.accidental.displayStatus = False
if acc is not None:
p._accidental = self._getAccidentalObject()
if p.accidental is not None and self.hasCautionaryAccidental():
p.accidental.displayStatus = True
#environLocal.printDebug(['p', p])
return p
def getQuarterLength(self, divisionsPerQuarterNote=None):
'''
Gets the quarterLength of the note given the prevailing divisionsPerQuarterNote
Here there is one division:
>>> mdr = musedata.MuseDataRecord('Ef4 1 s d ==')
>>> mdr.getQuarterLength(4)
0.25
>>> mdr.getQuarterLength(8)
0.125
>>> mdr = musedata.MuseDataRecord('Ef4 6 s d ==')
>>> mdr.getQuarterLength(4)
1.5
>>> mdr = musedata.MuseDataRecord('back 4')
>>> mdr.getQuarterLength(4)
1.0
'''
if self.stage == 1:
divisions = int(self.src[5:7])
else:
divisions = int(self.src[5:8])
shouldBeBlank = self.src[4:5]
if shouldBeBlank != ' ':
try:
divHundreds = int(shouldBeBlank)
divisions += 100 * divHundreds
print("Error in parsing: " + self.src +
"\n Column 5 must be blank. Parsing as a part of the divisions")
except ValueError:
raise MuseDataException(
"Error in parsing: " + self.src + "\n Column 5 must be blank.")
# the parent is the measure, and the parent of that is the part
if self.parent != None:
dpq = self.parent.parent.getDivisionsPerQuarterNote()
elif divisionsPerQuarterNote != None:
dpq = divisionsPerQuarterNote
else:
raise MuseDataException('cannot access parent container of this record ' +
'to obtain divisions per quarter')
return divisions / float(dpq)
def getDots(self):
if self.stage == 1:
return None
else:
if len(self.src) > 17:
if self.src[17] == '.':
return 1
if self.src[17] == ':':
return 2
return 0
# def getType(self):
# # TODO: column 17 self.src[16] defines the graphic note type
# # this may or may not align with derived quarter length
# if self.stage == 1:
# return None
# else:
# if len(self.src) == 0:
# return None
# data = self.src[16]
# return data
def getLyrics(self):
'''Return lyrics as a list.
>>> mdr = musedata.MuseDataRecord('D4 2 e u con-')
>>> mdr.stage = 2
>>> mdr.getLyrics()
['con-']
'''
data = None
if self.stage == 1:
return None
else:
#print self.src, len(self.src)
if len(self.src) < 44:
return None
raw = self.src[43:]
# | used to delimit multiple versus
data = [x.strip() for x in raw.split('|')]
return data
def getBeams(self):
'''Return complete span of characters defining beams.
>>> mdr = musedata.MuseDataRecord('E2 1 s u =')
>>> mdr.getBeams()
'='
>>> mdr = musedata.MuseDataRecord('E2 1 s u ]\')
>>> mdr.getBeams()
']\'
>>> mdr = musedata.MuseDataRecord('E2 4 q u')
>>> mdr.getBeams() is None
True
'''
if self.stage == 1:
return None
else:
data = self.src[25:31] # def as cols 26 to 31 inclusive
if data == '':
return None
# on trim trailing white space, not leading
return data.rstrip()
# TODO: need to get slurs from this indication:
# (), {}, []
def _getAdditionalNotations(self):
'''Return an articulation object or None
>>> mdr = musedata.MuseDataRecord('C4 12 e u [ .p')
>>> mdr._getAdditionalNotations()
'.p'
>>> mdr = musedata.MuseDataRecord('C4 12 e u = .')
>>> mdr._getAdditionalNotations()
'.'
>>> mdr = musedata.MuseDataRecord('G4 24 q u (')
>>> mdr._getAdditionalNotations()
'('
'''
# these are cached b/c they are requested for many operations
try:
return self._cache['_getAdditionalNotations']
except KeyError:
pass
if len(self.src) < 31:
data = None
else:
# accumulate chars 32-43, index 31, 42
data = []
i = 31
while (i <= 42 and i < len(self.src)):
data.append(self.src[i])
i += 1
data = ''.join(data).strip()
self._cache['_getAdditionalNotations'] = data
return data
def getArticulationObjects(self):
'''Return a list of 0 or more music21 Articulation objects
>>> mdr = musedata.MuseDataRecord('C4 12 e u [ .p')
>>> mdr.getArticulationObjects()
[<music21.articulations.Staccato>]
>>> mdr = musedata.MuseDataRecord('C4 12 e u [ .p>')
>>> mdr.getArticulationObjects()
[<music21.articulations.Staccato>, <music21.articulations.Accent>]
'''
from music21 import articulations
post = []
data = self._getAdditionalNotations()
if data is None:
return post
for char in data:
if 'A' == char:
# vertical accent up
post.append(articulations.StrongAccent())
elif 'V' == char:
# vertical accent down
post.append(articulations.StrongAccent())
elif '>' == char:
# horizontal accents; normal
post.append(articulations.Accent())
elif '.' == char:
post.append(articulations.Staccato())
elif '_' == char:
post.append(articulations.Tenuto())
elif '=' == char:
post.append(articulations.DetachedLegato())
elif 'i' == char:
post.append(articulations.Spiccato())
elif ',' == char:
post.append(articulations.BreathMark())
return post
def getExpressionObjects(self):
'''Return a list of 0 or more music21 Articulation objects
>>> mdr = musedata.MuseDataRecord('C4 12 e u [ t')
>>> mdr.getExpressionObjects()
[<music21.expressions.Trill>]
>>> mdr = musedata.MuseDataRecord('C4 12 e u [ .p>F')
>>> mdr.getExpressionObjects()
[<music21.expressions.Fermata>]
'''
from music21 import expressions
post = []
data = self._getAdditionalNotations()
if data is None:
return post
for char in data:
if 'F' == char:
# upright fermata
post.append(expressions.Fermata())
elif 'E' == char:
# inverted Fermata
post.append(expressions.Fermata())
elif 't' == char: # trill
post.append(expressions.Trill())
elif 'r' == char:
post.append(expressions.Turn())
elif 'M' == char:
post.append(expressions.Mordent())
return post
def getDynamicObjects(self):
'''Return a list of 0 or more music21 Dynamic objects
>>> mdr = musedata.MuseDataRecord('C5 12 e u ff')
>>> mdr.getDynamicObjects()
[<music21.dynamics.Dynamic ff >]
>>> mdr = musedata.MuseDataRecord('E4 48 h u (pp')
>>> mdr.getDynamicObjects()
[<music21.dynamics.Dynamic pp >]
'''
from music21 import dynamics
post = []
data = self._getAdditionalNotations()
if data is None:
return post
# find targets from largest to smallest
targets = ['ppp', 'fff',
'pp', 'ff', 'fp', 'mp', 'mf',
'p', 'f', 'm', 'Z', 'Zp', 'R']
for t in targets:
pos = data.find(t)
if pos < 0:
continue
# remove from data to avoid double hits
data = data[:pos] + data[pos + len(t):]
# those that can be directedly created
if t in ['ppp', 'fff', 'pp', 'ff', 'p', 'f', 'mp', 'mf', 'fp']:
post.append(dynamics.Dynamic(t))
elif t == 'm':
post.append(dynamics.Dynamic('mp'))
elif t == 'Z': # sfz
post.append(dynamics.Dynamic('sf'))
elif t == 'Zp': # sfp
post.append(dynamics.Dynamic('sf'))
elif t == 'R': # rfz
post.append(dynamics.Dynamic('sf'))
#environLocal.printDebug(['got dynamics', post])
return post
def hasCautionaryAccidental(self):
'''
Return a boolean if this note has a cautionary accidental.
>>> mdr = musedata.MuseDataRecord('F5 3 t n d ==[ (+')
>>> mdr.hasCautionaryAccidental()
True
>>> mdr = musedata.MuseDataRecord('C4 12 e u [')
>>> mdr.hasCautionaryAccidental()
False
'''
data = self._getAdditionalNotations()
if data is None:
return False
if '+' in data:
return True
return False
#-------------------------------------------------------------------------------
class MuseDataRecordIterator:
'''
Create MuseDataRecord objects on demand, in order
'''
def __init__(self, src, parent):
self.src = src # the lost of all record lines
self.index = 0
self.parent = parent
def __iter__(self):
return self
def __next__(self):
if self.index >= len(self.src):
raise StopIteration
# add one b/c end is inclusive
mdr = MuseDataRecord(self.src[self.index], self.parent)
self.index += 1
return mdr
next = __next__ #py2
#-------------------------------------------------------------------------------
class MuseDataMeasure:
'''
A MuseDataMeasure is an abstraction of the data contained within a measure definitions.
This needs to be an object to gracefully handle the following cases.
Some Measures do not have any notes, for example, and the end of encoding where a
final bar line is defined. Some measures do not have numbers or barlin definitions,
such as pickup notes. Some measures define barline characteristics.
Backup and forward presumably only is contained within a measure.
'''
def __init__(self, src=None, parent=None):
if src is None:
src = []
#environLocal.printDebug(['creating MuseDataMeasure'])
self.src = src # a list of character lines for this measure
# store reference to parent Part
self.parent = parent
if self.parent != None:
# form measure, then part
self.stage = self.parent.stage
else:
self.stage = None
def __repr__(self):
return '<music21.musedata.MuseDataPart size=%s>' % (len(self.src))
def getBarObject(self):
'''
Return a configured music21 bar object. This can be used with the current
Measure or applied to a previous Measure.
'''
# get bar objects
from music21 import bar
data = self.src[0].strip() # get first line
# not all measure first-lines begin w/ measures, such as pickups
if data[0] != 'm': # a normal data record
data = 'measure'
dataBar = data[1:7]
#environLocal.printDebug(['getBarObject: dataBar', dataBar])
if dataBar == 'easure': # regular
blStyle = 'regular'
elif dataBar == 'dotted':
blStyle = 'dotted'
elif dataBar == 'double':
blStyle = 'light-light'
elif dataBar in ['heavy1', 'heavy']:
blStyle = 'heavy'
elif dataBar == 'heavy2':
blStyle = 'light-heavy'
elif dataBar == 'heavy3':
blStyle = 'heavy-light'
elif dataBar in ['heavy4', 'heave4']:
blStyle = 'heavy-heavy'
else:
raise MuseDataException('cannot process bar data definition: %s', dataBar)
bl = bar.Barline(blStyle)
# numerous flags might be stored at the end of line
# some flags include A for segno, ~ for wavy line continuation
if len(data) > 16 and data[16:].strip() != '':
dataFlag = data[16:].strip()
if ':|' in dataFlag:
unused_repeatForm = None # can be first, second
bl = bar.Repeat(direction='end')
bl.style = blStyle
elif '|:' in dataFlag:
unused_repeatForm = None # can be first, second
bl = bar.Repeat(direction='start')
bl.style = blStyle
return bl
def getMeasureObject(self):
'''Return a configured music21 :class:`~music21.stream.Measure`.
'''
from music21 import stream
data = self.src[0].strip() # get first line
# not all measure first-lines begin w/ measures, such as pickups
if data[0] != 'm': # a normal data record
data = 'measure'
# see if there is a measure number
mNumber = '1'
if len(data) >= 9 and data[8:].strip() != '':
mNumber, junk = common.getNumFromStr(data)
m = stream.Measure()
# assume that this definition refers to this bar; this is not
# always the case
m.leftBarline = self.getBarObject()
#m.rightBarline = None
if mNumber != '':
m.number = int(mNumber)
return m
def hasNotes(self):
'''
Return True of if this Measure has Notes
'''
for line in self.src:
if line and line[0] in 'ABCDEFGrgc':
return True
return False
def hasVoices(self):
'''Return True of if this Measure defines one or more 'back' indication.
Note: this does not instantiate MuseDataRecord instances.
'''
for line in self.src:
if line and line.startswith('back'):
return True
return False
def __iter__(self):
'''
Iterating over this part returns MuseDataMeasure objects
'''
return MuseDataRecordIterator(self.src, self)
def getRecords(self):
'''Return a lost of all records stored in this measure as MuseDataRecord.
'''
return [mdr for mdr in self]
#-------------------------------------------------------------------------------
class MuseDataMeasureIterator:
'''Create MuseDataMeasure objects on demand, in order
'''
def __init__(self, src, boundaries, parent):
self.src = src # the lost of all record lines
self.boundaries = boundaries # pairs of all boundaries
self.index = 0
self.parent = parent
def __iter__(self):
return self
def __next__(self):
if self.index >= len(self.boundaries):
raise StopIteration
start, end = self.boundaries[self.index]
# add one b/c end is inclusive
mdm = MuseDataMeasure(self.src[start:end + 1], self.parent)
self.index += 1
return mdm
next = __next__ # py2
#-------------------------------------------------------------------------------
class MuseDataPart:
'''A MuseData part is defined by collection of lines
'''
def __init__(self, src=None, stage=None):
if src is None:
src = []
#environLocal.printDebug(['creating MuseDataPart'])
self.src = src # a list of character lines for this part
# a list of start, end indicies for each defined measure
self._measureBoundaries = []
self._divisionsPerQuarter = None # store
# set to None until called the first time, then return stored value
self._divisionsPerQuarterNote = None
self.stage = stage
if self.stage is None and self.src:
self.stage = self._determineStage()
if self.stage == 1:
self.src = self._scrubStage1(self.src)
#environLocal.printDebug(['MuseDataPart: stage:', self.stage])
def __repr__(self):
return '<music21.musedata.MuseDataPart>'
def _determineStage(self):
'''
Determine the stage of this file. This is done by looking for an
attributes record starting with a $; if not found, it is stage 1. if it is found
it is stage 2.
'''
for i in range(len(self.src)):
if self.src[i].startswith('$'):
return 2
return 1
def _scrubStage1(self, src):
'''
Some stage1 files start with a leading line of space.
This needs to be removed, as each line matters. Provide a list of character lines.
'''
if len(src) <= 1:
raise MuseDataException('cannot scrub empty source')
check = True
post = []
# remove all spaces found in leading lines
for l in src:
if check:
if l.strip() == '':
continue
else:
check = False
post.append(l)
return post
def _getDigitsFollowingTag(self, line, tag):
'''
>>> mdp = musedata.MuseDataPart()
>>> mdp._getDigitsFollowingTag('junk WK#:2345', 'WK#:')
'2345'
>>> mdp._getDigitsFollowingTag('junk WK#: 2345 junk', 'WK#:')
'2345'
>>> mdp._getDigitsFollowingTag('$ K:-3 Q:4 T:3/4 C:22', 'Q:')
'4'
>>> mdp._getDigitsFollowingTag('$ K:-3 Q:4 T:3/4 C:22', 'T:')
'3/4'
>>> mdp._getDigitsFollowingTag('$ K:-3 Q:4', 'T:')
''
'''
post = []
if tag in line:
i = line.find(tag) + len(tag)
while i < len(line):
if line[i].isdigit():
post.append(line[i])
elif line[i].isspace():
pass
elif line[i] in '-/': # chars to permit
post.append(line[i])
else: # anything other than space ends gather
break
i += 1
return ''.join(post)
def _getAlphasFollowingTag(self, line, tag, keepSpace=False,
keepCase=False):
'''
>>> mdp = musedata.MuseDataPart()
>>> mdp._getAlphasFollowingTag('Group memberships: sound, score', 'Group memberships:')
'sound,score'
'''
if not keepCase:
line = line.lower()
tag = tag.lower()
post = []
if tag in line:
i = line.find(tag) + len(tag)
while i < len(line):
if line[i].isalpha():
post.append(line[i])
elif line[i].isspace() and not keepSpace:
pass
elif line[i].isspace() and keepSpace:
post.append(line[i])
elif line[i] in ',': # chars to permit
post.append(line[i])
else: # anything other than space ends gather
break
i += 1
return ''.join(post)
def getWorkNumber(self):
'''
Returns a String not an int, representing an opus number
>>> fp1 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.getParts()[0].getWorkNumber()
'581'
'''
if self.stage == 1:
# seems to be the first half of the second line
# may have a comma
# seems to
data = self.src[1][0:6].strip()
if ',' in data:
data = data.split(',')[1] # get what follows comma
return data
else:
return self._getDigitsFollowingTag(self.src[4], 'WK#:')
def getMovementNumber(self):
'''
Returns a string, not an int.
>>> fp1 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.getParts()[0].getMovementNumber()
'3'
'''
if self.stage == 1:
# get the header number: not sure what this is for now
return self.src[1][6:].strip()
else:
return self._getDigitsFollowingTag(self.src[4], 'MV#:')
def getDirective(self):
'''
The directive field is generally used to store tempo indications.
This indication, however, is frequently not provided.
>>> fp1 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.getParts()[0].getDirective() is None
True
'''
if self.stage == 1:
# nothing seems to be defined in stage 1
return None
else:
line = self._getAttributesRecord()
alphas = self._getAlphasFollowingTag(line, 'D:', keepSpace=True,
keepCase=True)
if alphas == '':
return None
else:
return alphas.strip()
def getSource(self):
'''
>>> fp1 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.getParts()[0].getSource()
'Breitkopf & H...rtel, Vol. 13'
'''
if self.stage == 1:
# get the header number: not sure what this is for now
data = []
for line in [self.src[2], self.src[3], self.src[4]]:
data.append(line.strip())
# there may be other info packed into this data to strip
return ''.join(data)
else:
return self.src[5]
def getWorkTitle(self):
'''
For stage 1 just gets the catalogue number
>>> fp1 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.getParts()[0].getWorkTitle()
'Clarinet Quintet'
'''
if self.stage == 1:
# this does not seem defined for stage 1, so taking catalog number
return self.src[0].strip()
else:
return self.src[6]
def getMovementTitle(self):
'''
>>> fp1 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.getParts()[0].getMovementTitle()
'Trio II'
'''
if self.stage == 1:
return None
else:
return self.src[7]
def getPartName(self):
'''
>>> fp1 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.getParts()[0].getPartName()
'Clarinet in A'
'''
if self.stage == 1:
return None
else:
return self.src[8].strip()
def getGroupMemberships(self):
'''
>>> fp1 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.getParts()[0].getGroupMemberships()
['sound', 'score']
'''
if self.stage == 1:
return []
else:
raw = self._getAlphasFollowingTag(self.src[10],
'group memberships:')
post = []
for entry in raw.split(','):
if entry.strip() != '':
post.append(entry.strip())
return post
def getGroupMembershipsTotal(self, membership='score'):
'''
>>> fp1 = str(common.getSourceFilePath() /'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.getParts()[0].getGroupMembershipsTotal()
5
'''
if self.stage == 1:
# first value is total number
return int(self.src[5].split(' ')[0])
else:
i = 11 # start with index 11, move to line tt starts with $
raw = None
while not self.src[i].startswith('$'):
line = self.src[i]
if line.startswith(membership):
raw = self._getDigitsFollowingTag(line, 'of')
break
i += 1
if raw is None:
return None
else:
return int(raw)
def getGroupMembershipNumber(self, membership='score'):
'''
>>> fp1 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.getParts()[0].getGroupMembershipNumber()
1
'''
if self.stage == 1:
# second value is this works part number
return self.src[5].split(' ')[1]
else:
i = 11 # start with index 11, move to line tt starts with $
raw = None
while not self.src[i].startswith('$'):
line = self.src[i]
if line.startswith(membership):
raw = self._getDigitsFollowingTag(line, 'part')
break
i += 1
if raw is None:
return None
else:
return int(raw)
def _getAttributesRecord(self):
'''
The attributes record is not in a fixed position,
but is the first line that starts with a $.
>>> fp1 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.getParts()[0]._getAttributesRecord()
'$ K:0 Q:6 T:3/4 X:-11 C:4'
'''
if self.stage == 1:
# combine the two lines into one, all space separated
record = self.src[6].strip() + ' ' + self.src[7].strip()
#environLocal.printDebug(['got attributes record:', record])
return record
else:
i = 11 # start with index 11, move to line tt starts with $
while not self.src[i].startswith('$'):
i += 1
return self.src[i]
def _getKeyParameters(self):
'''
>>> fp1 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.getParts()[0]._getKeyParameters()
0
'''
line = self._getAttributesRecord()
if self.stage == 1:
return int(line.split(' ')[1])
else:
# '$ K:-3 Q:4 T:3/4 C:22', 'Q:'
return int(self._getDigitsFollowingTag(line, 'K:'))
def getKeySignature(self):
'''
>>> fp1 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.getParts()[0].getKeySignature()
<music21.key.KeySignature of no sharps or flats>
'''
from music21 import key
return key.KeySignature(self._getKeyParameters())
def _getTimeSignatureParameters(self):
'''
>>> fp1 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.getParts()[0]._getTimeSignatureParameters()
'3/4'
'''
line = self._getAttributesRecord()
if self.stage == 1:
n = int(line.split(' ')[4])
d = int(line.split(' ')[5])
else:
# '$ K:-3 Q:4 T:3/4 C:22', 'Q:'
n, d = self._getDigitsFollowingTag(line, 'T:').split('/')
n, d = int(n), int(d)
# usage of 1/1 is common and seems to need replacement to 4/4, or
# common time
if (n == 1 and d == 1) or d == 0:
return '4/4'
else:
return '%s/%s' % (n, d)
def getTimeSignatureObject(self):
'''
>>> fp1 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.getParts()[0].getTimeSignatureObject()
<music21.meter.TimeSignature 3/4>
'''
from music21 import meter
return meter.TimeSignature(self._getTimeSignatureParameters())
def _getNumberOfStaves(self):
'''
>>> fp1 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.getParts()[0]._getNumberOfStaves()
1
'''
if self.stage == 1:
# may always be 1
return 1
else:
line = self._getAttributesRecord()
# '$ K:-3 Q:4 T:3/4 C:22', 'Q:'
raw = self._getDigitsFollowingTag(line, 'S:')
if raw == '':
return 1 # default
else:
return int(raw)
def _getClefParameters(self):
'''
>>> fp1 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.getParts()[0]._getClefParameters()
['4']
'''
# clef may be givne as C: or Cn:, where n is the number for
# a staff, if multiple staves are included in this parts
line = self._getAttributesRecord()
if self.stage == 1:
# this seems to be the clef value, though numbers do not
# match that found in stage 2
data = line.split(' ')[8]
return [data]
else:
# '$ K:-3 Q:4 T:3/4 C:22', 'Q:'
# keep as string, as these are two-char codes
post = []
raw = self._getDigitsFollowingTag(line, 'C:')
if raw != '':
post.append(raw)
if raw == '':
# find max number of staffs
for i in range(1, self._getNumberOfStaves() + 1):
raw = self._getDigitsFollowingTag(line, 'C%s:' % i)
if raw != '':
post.append(raw)
return post
def getClefObject(self, voice=1):
'''Return a music21 clef object based on a two character clef definition.
>>> fp1 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.getParts()[0].getClefObject().sign
'G'
'''
if self.stage == 1:
return None # cannot yet determine
else:
# there may be more than one clef definition
charPair = self._getClefParameters()[voice - 1]
# convert to int and back to string to strip zeros
charPair = str(int(charPair))
from music21 import clef
if charPair == '5':
return clef.FrenchViolinClef()
elif charPair == '4': # line 4 is 2nd from bottom
return clef.TrebleClef()
elif charPair == '34': # 3 here is G 8vb
return clef.Treble8vbClef()
elif charPair == '64': # 6 here is G 8va
return clef.Treble8vaClef()
elif charPair == '3':
return clef.GSopranoClef()
elif charPair == '11':
return clef.CBaritoneClef()
elif charPair == '12':
return clef.TenorClef()
elif charPair == '13':
return clef.AltoClef()
elif charPair == '14':
return clef.MezzoSopranoClef()
elif charPair == '15': # 5 is lowest line
return clef.SopranoClef()
elif charPair == '22':
return clef.BassClef()
elif charPair == '23': # middle line:
return clef.FBaritoneClef()
elif charPair == '52': # 5 is transposed down f-clef
return clef.Bass8vbClef()
elif charPair == '82': # 8 is transposed up f-clef
return clef.Bass8vaClef()
else:
raise MuseDataException('cannot determine clef from:', charPair)
def _getTranspositionParameters(self):
'''
Get the transposition, if defined, from the Metadata header.
>>> fp1 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> fp2 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '02.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.addFile(fp2)
>>> mdw.getParts()[0]._getTranspositionParameters()
-11
>>> mdw.getParts()[1]._getTranspositionParameters() is None
True
'''
line = self._getAttributesRecord()
if self.stage == 1:
return None # not sure if or if, how, this is defined
else:
raw = self._getDigitsFollowingTag(line, 'X:')
if raw == '':
return None
else:
return int(raw)
def getTranspositionIntervalObject(self):
'''If this part defines a transposition, return a corresponding Interval object.
>>> fp1 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> fp2 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '02.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.addFile(fp2)
>>> mdw.getParts()[0].getTranspositionIntervalObject()
<music21.interval.Interval m-3>
'''
# transposition intervals are given in base40; must convert to intervals
args = self._getTranspositionParameters()
if args is None:
return None
else:
return base40.base40DeltaToInterval(args)
def getDivisionsPerQuarterNote(self):
'''
>>> fp1 = (common.getSourceFilePath() / 'musedata' / 'testPrimitive'
... / 'test01' / '01.md')
>>> mdw = musedata.MuseDataWork()
>>> mdw.addFile(fp1)
>>> mdw.getParts()[0].getDivisionsPerQuarterNote()
6
'''
if self._divisionsPerQuarterNote is None:
# set once the first time this is called
line = self._getAttributesRecord()
if self.stage == 1:
# this value is divisions per bar, not quarter here
data = int(line.split(' ')[2])
ts = self.getTimeSignatureObject()
# data here is divisions per bar; need to divide by ts
# quarter length
self._divisionsPerQuarterNote = data / ts.barDuration.quarterLength
#environLocal.printDebug(['stage1: self._divisionsPerQuarterNote',
# self._divisionsPerQuarterNote])
else:
# '$ K:-3 Q:4 T:3/4 C:22', 'Q:'
self._divisionsPerQuarterNote = int(
self._getDigitsFollowingTag(line, 'Q:'))
return self._divisionsPerQuarterNote
#---------------------------------------------------------------------------
# dealing with measures and notes
def _getMeasureBoundaryIndices(self, src=None):
'''
>>> mdp = musedata.MuseDataPart()
>>> mdp.stage is None
True
>>> mdp._getMeasureBoundaryIndices(['$', 'A', 'B', 'm', 'C', 'm', 'D'])
[(1, 2), (3, 4), (5, 6)]
>>> mdp._getMeasureBoundaryIndices(['$', 'm', 'B', 'C', 'm', 'D', 'E', 'm', 'F', 'D'])
[(1, 3), (4, 6), (7, 9)]
>>> mdp._getMeasureBoundaryIndices(['$', 'B', 'C', 'm', 'D', 'E'])
[(1, 2), (3, 5)]
'''
if src is None:
src = self.src
boundaries = []
mIndices = []
firstPostAttributesIndex = None
lastIndex = len(src) - 1
if self.stage == 1:
# pickup measures use measure 0 for stage 1
for i, line in enumerate(src):
if line.startswith('m'):
mIndices.append(i)
# always the measure definition found
firstPostAttributesIndex = mIndices[0]
else:
# first, get index positions
mAttributeRecordCount = 0 # store number of $ found
# all comment lines have already been stripped from the representaiton
for i, line in enumerate(src):
if line.startswith('$'):
mAttributeRecordCount += 1
continue
if mAttributeRecordCount > 0 and firstPostAttributesIndex is None:
firstPostAttributesIndex = i
# do not continue, as this may also be a measure start
if line.startswith('m'):
mIndices.append(i)
# second, match pairs
# if start of music is start of measure
startIterIndex = None
if mIndices[0] == firstPostAttributesIndex:
if len(mIndices) == 1:
boundaries.append((mIndices[0], lastIndex))
startIterIndex = None
else:
boundaries.append((mIndices[0], mIndices[1] - 1))
startIterIndex = 1
# if there is a pickup measure
else:
boundaries.append((firstPostAttributesIndex, mIndices[0] - 1))
startIterIndex = 0
if startIterIndex != None:
for i in range(startIterIndex, len(mIndices)):
# if the last
if i == len(mIndices) - 1:
boundaries.append((mIndices[i], lastIndex))
else:
boundaries.append((mIndices[i], mIndices[i + 1] - 1))
return boundaries
def update(self):
'''
After setting the source string, this method must be called to configure
the _measureNumberToLine method and set additional attributes.
'''
self._divisionsPerQuarter = self.getDivisionsPerQuarterNote()
self._measureBoundaries = self._getMeasureBoundaryIndices()
def __iter__(self):
'''
Iterating over this part returns MuseDataMeasure objects
'''
return MuseDataMeasureIterator(self.src, self._measureBoundaries, self)
def getMeasures(self):
'''Return a list of all measures stored in this part as MuseDataMeasure objects.
'''
return [mdm for mdm in self]
#-------------------------------------------------------------------------------
class MuseDataFile:
'''
A MuseDataFile file may describe one or more MuseDataPart;
a Score might need multiple files for complete definition.
A MuseDataFile object can be created from a string.
When read, one or more MuseDataPart objects are created and stored on self.parts.
'''
def __init__(self):
self.parts = [] # a lost of MuseDataPart objects
self.filename = None
self.file = None
def __repr__(self):
return '<music21.musedata.MuseDataFile>'
def open(self, fp):
#self.file = io.open(filename, encoding='utf-8')
if isinstance(fp, pathlib.Path):
fp = str(fp)
self.file = open(fp, 'rb')
self.filename = fp
def read(self):
# call readstr with source string from file
fileContents = self.file.read()
try:
fileContents = fileContents.decode('utf-8')
except UnicodeDecodeError:
fileContents = fileContents.decode('ISO-8859-1', 'ignore')
return self.readstr(fileContents)
def close(self):
self.file.close()
def readstr(self, input_str):
'''
Read a string, dividing it into individual parts.
'''
#environLocal.printDebug(['readstr()', 'len(str)', len(str)])
# need to split the string into individual parts, as more than
# one part might be defined
commentToggle = False
lines = []
srcLines = input_str.split('\n')
#lastLineIndex = len(srcLines) - 1
for i, line in enumerate(srcLines):
#environLocal.printDebug(['reading line', i, line])
# each part, or the entire file, will end with /END
if line.startswith('&'):
if commentToggle:
commentToggle = False
continue
else:
commentToggle = True
continue
if commentToggle:
continue # skip block comment lines
elif line and line[0] == '@':
continue
# stage 1 files use END, stage 2 uses /END
elif line.startswith('/END') or line.startswith('END'):
#environLocal.printDebug(['found last line', i, repr(line),
# 'length of lines', len(lines)])
# anticipate malformed files that have more than one END at END
if len(lines) <= 1:
lines = [] # clear storage
continue
mdp = MuseDataPart(lines)
# update sets measure boundaries, divisions
mdp.update()
self.parts.append(mdp)
lines = [] # clear storage
# mostly redundant; seems to follow /END; do not include
elif line.startswith('/eof'):
pass
else: # gather all else
lines.append(line)
#-------------------------------------------------------------------------------
class MuseDataWork:
'''A work might consist of one ore more files.
'''
def __init__(self):
self.files = [] # a list of one or more MuseDataFile objects
def addFile(self, fp):
'''
Open and read this file path or list of paths as MuseDataFile objects
and set self.files
'''
if isinstance(fp, pathlib.Path):
fpList = [str(fp)]
elif not common.isIterable(fp):
fpList = [fp]
else:
fpList = fp
for fpInner in fpList:
mdf = MuseDataFile()
#environLocal.printDebug('processing MuseData file: %s' % fp)
mdf.open(fpInner)
mdf.read() # process string and break into parts
mdf.close()
self.files.append(mdf)
def addString(self, input_str):
r'''
Add a string representation acting like a part file
>>> mdw = musedata.MuseDataWork()
>>> mdw.addString('WK#:581 MV#:3c\nBreitkopf & Hartel, Vol. 13\n' +
... 'Clarinet Quintet\n' +
... 'Trio II\n' +
... '$ K:0 Q:6 T:3/4 X:-11 C:4\n' +
... 'C5 3 e d [ (&0p\n' +
... 'E5 3 e d ]')
# TODO: Okay, so what? did we test this or demo anything?
'''
#environLocal.printDebug(['addString str', str])
# if str.strip() == '':
# raise MuseDataException('passed in empty string to add string')
if not common.isIterable(input_str):
strList = [input_str]
else:
strList = input_str
for thisString in strList:
mdf = MuseDataFile()
mdf.readstr(thisString) # process string and break into parts
self.files.append(mdf)
#---------------------------------------------------------------------------
def getParts(self):
'''
Get all parts contained in all files associated with this work.
A list of MuseDataPart objects that were created in a MuseDataFile.
'''
# TODO: may need to sort parts by group membership values and
# numbers
post = []
for mdf in self.files:
for mdp in mdf.parts:
post.append(mdp)
return post
#-------------------------------------------------------------------------------
class MuseDataDirectory:
'''
This class manages finding musedata files stored in a directory,
comparing file names and examining sub directories to determine which files are parts.
Once found, a MuseDataWork, or a list of paths, can be returned
A directory, or a list of file path stubs, such as that obtained within a zip file,
can both be provided.
'''
def __init__(self, dirOrList):
self.paths = []
self.groups = {} # use fp as key; store 'number'
self._prepareGroups(dirOrList)
def _prepareGroups(self, dirOrList):
#environLocal.printDebug(['_prepareGroups', dirOrList])
if isinstance(dirOrList, pathlib.Path):
dirOrList = str(dirOrList) # Py3.6 remove
allPaths = []
# these two were unusued variables.
#sep = '/'
#source = None # set where files are coming from
if common.isIterable(dirOrList):
# assume a flat list from a zip file
#sep = '/' # sep is always backslash for zip files
#source = 'zip'
allPaths = dirOrList
# for fp in dirOrList:
# if self.isMusedataFile(fp):
# self.paths.append(fp)
elif os.path.isdir(dirOrList):
#source = 'dir'
#sep = os.sep # sep os.sep
# first, get the contents of the dir and see if it has md files
for fn in os.listdir(dirOrList):
allPaths.append(os.path.join(dirOrList, fn))
# if not self.isMusedataFile(fn):
# continue
# numStr, nonNumStr = common.getNumFromStr(fn)
# # if we cannot get a number out of the file name
# if numStr == '':
# continue
# else:
# self.paths.append(os.path.join(dirOrList, fn))
else:
raise MuseDataException('cannot get files from the following entity', dirOrList)
for fp in allPaths:
unused_directory, fn = os.path.split(fp)
if not self.isMusedataFile(fn):
continue
numStr, nonNumStr = common.getNumFromStr(fn)
# if we cannot get a number out of the file name
if numStr == '':
continue
else:
self.paths.append(fp)
# on second pass, remove any score file if we have part files
# score files start with an s
popList = []
if len(self.paths) > 1:
for i, fp in enumerate(self.paths):
unused_directory, fn = os.path.split(fp)
# if it has a number and starts with s
numStr, nonNumStr = common.getNumFromStr(fn)
if numStr != '' and nonNumStr.startswith('s'):
popList.append(i)
popList.reverse()
for i in popList:
self.paths.pop(i)
else: # if only one file, use it
pass
#rawPaths = []
# for dirpath, dirnames, filenames in os.walk(dirOrList):
# stub, dirName = os.path.split(dirpath)
# if dirName.startswith('.'):
# continue
# for fn in filenames:
# if self.isMusedataFile(fn):
# rawPaths.append(os.path.join(dirpath, fn))
#stub, base = os.split(dirOrList)
# see if top level is directory
#environLocal.printDebug(['here', rawPaths])
# after gathering paths, may need to sort/get by groups
self.paths.sort()
#environLocal.printDebug(['self.paths', self.paths])
def isMusedataFile(self, fp):
# look for file extension; not often used
# cannot open file and look, as names from a zip archive are not
# directly openable
#environLocal.printDebug(['isMusedataFile: checking:', fp])
unused_dir, fn = os.path.split(fp)
if fp.endswith('.md'):
return True
elif fn.startswith('mchan'): # ignore midi declaration files
return False
# directories from a zip will end in '/', or os.sep
elif (fp.endswith('.py') or fp.endswith('/') or
fp.endswith(os.sep) or fn.startswith('.') or
fp.endswith('.svn-base')):
return False
return True
def getPaths(self, group=None):
'''Return sorted paths for a group, or None
'''
#environLocal.printDebug(['getPaths() called with self.paths', self.paths])
return self.paths
#-------------------------------------------------------------------------------
class Test(unittest.TestCase):
def runTest(self):
pass
# def testLoadFromString(self):
# from music21.musedata import testFiles
#
# mdw = MuseDataWork()
# mdw.addString(testFiles.bach_cantata5_mvmt3)
#
# mdpObjs = mdw.getParts()
# self.assertEqual(len(mdpObjs), 3)
# # first line of src strings
# self.assertEqual(mdpObjs[0].src[1],
# 'ID: {bach/bg/cant/0005/stage2/03/01} [KHM:1658122244]')
#
# self.assertEqual(mdpObjs[1].src[1],
# 'ID: {bach/bg/cant/0005/stage2/03/02} [KHM:1658122244]')
#
# self.assertEqual(mdpObjs[2].src[1],
# 'ID: {bach/bg/cant/0005/stage2/03/03} [KHM:1658122244]')
#
# for i in range(3):
# self.assertEqual(mdpObjs[i].getWorkNumber(), '5')
# self.assertEqual(mdpObjs[i].getMovementNumber(), '3')
# self.assertEqual(mdpObjs[i].getSource(), 'Bach Gesellschaft i')
# self.assertEqual(mdpObjs[i].getWorkTitle(), 'Wo soll ich fliehen hin')
# self.assertEqual(mdpObjs[i].getMovementTitle(), 'Aria')
#
#
# self.assertEqual(mdpObjs[0]._getKeyParameters(), -3)
# self.assertEqual(mdpObjs[0]._getTimeSignatureParameters(), '3/4')
# self.assertEqual(mdpObjs[0].getDivisionsPerQuarterNote(), 4)
def testLoadFromFile(self):
fp = str(common.getSourceFilePath() / 'musedata' / 'testPrimitive')
mdw = MuseDataWork()
dirLib = os.path.join(fp, 'test01')
for fn in ['01.md', '02.md', '03.md', '04.md', '05.md']:
fp = os.path.join(dirLib, fn)
#environLocal.printDebug([fp])
mdw.addFile(fp)
mdpObjs = mdw.getParts()
self.assertEqual(len(mdpObjs), 5)
# first line of src strings
self.assertEqual(mdpObjs[0].src[4], 'WK#:581 MV#:3c')
self.assertEqual(mdpObjs[0].src[12], 'score: part 1 of 5')
self.assertEqual(mdpObjs[1].src[4], 'WK#:581 MV#:3c')
self.assertEqual(mdpObjs[1].src[12], 'score: part 2 of 5')
self.assertEqual(mdpObjs[2].src[4], 'WK#:581 MV#:3c')
self.assertEqual(mdpObjs[2].src[12], 'score: part 3 of 5')
self.assertEqual(mdpObjs[3].src[4], 'WK#:581 MV#:3c')
self.assertEqual(mdpObjs[3].src[12], 'score: part 4 of 5')
self.assertEqual(mdpObjs[4].src[4], 'WK#:581 MV#:3c')
self.assertEqual(mdpObjs[4].src[12], 'score: part 5 of 5')
# all files have the same metadata
for i in range(4):
self.assertEqual(mdpObjs[i].getWorkNumber(), '581')
self.assertEqual(mdpObjs[i].getMovementNumber(), '3')
self.assertEqual(mdpObjs[i].getSource().startswith('Breitkopf'), True)
self.assertEqual(mdpObjs[i].getWorkTitle(), 'Clarinet Quintet')
self.assertEqual(mdpObjs[i].getMovementTitle(), 'Trio II')
self.assertEqual(mdpObjs[i].getGroupMemberships(), ['sound', 'score'])
self.assertEqual(mdpObjs[i].getGroupMembershipsTotal('score'), 5)
self.assertEqual(mdpObjs[i].getGroupMembershipsTotal('sound'), 5)
self.assertEqual(mdpObjs[0].getGroupMembershipNumber('score'), 1)
self.assertEqual(mdpObjs[0].getGroupMembershipNumber('sound'), 1)
self.assertEqual(mdpObjs[1].getGroupMembershipNumber('score'), 2)
self.assertEqual(mdpObjs[1].getGroupMembershipNumber('sound'), 2)
self.assertEqual(mdpObjs[2].getGroupMembershipNumber('score'), 3)
self.assertEqual(mdpObjs[2].getGroupMembershipNumber('sound'), 3)
self.assertEqual(mdpObjs[3].getGroupMembershipNumber('score'), 4)
self.assertEqual(mdpObjs[3].getGroupMembershipNumber('sound'), 4)
self.assertEqual(mdpObjs[4].getGroupMembershipNumber('score'), 5)
self.assertEqual(mdpObjs[4].getGroupMembershipNumber('sound'), 5)
self.assertEqual(mdpObjs[0]._getKeyParameters(), 0)
self.assertEqual(mdpObjs[0]._getTimeSignatureParameters(), '3/4')
self.assertEqual(mdpObjs[0].getDivisionsPerQuarterNote(), 6)
# def testIterateMeasuresFromString(self):
#
# from music21.musedata import testFiles
#
# mdw = MuseDataWork()
# mdw.addString(testFiles.bach_cantata5_mvmt3)
# mdpObjs = mdw.getParts()
# # can iterate over measures, creating them as iterating
# for m in mdpObjs[0]:
# self.assertEqual(isinstance(m, MuseDataMeasure), True)
#
# # iterate over measures to get notes
# for n in m:
# self.assertEqual(isinstance(n, MuseDataRecord), True)
#
# # cannot access them as in a list, however
# #self.assertEqual(mdpObjs[0][0], True)
#
# # try using stored objects
# measures = mdpObjs[0].getMeasures()
# self.assertEqual(isinstance(measures[0], MuseDataMeasure), True)
# self.assertEqual(len(measures), 106)
#
# records = measures[4].getRecords()
# self.assertEqual(isinstance(records[0], MuseDataRecord), True)
# self.assertEqual(len(records), 13)
def testMuseDataDirectory(self):
#from music21 import converter
#fp = os.path.join(common.getSourceFilePath(), 'musedata', 'testZip.zip')
fpDir = str(common.getSourceFilePath() / 'musedata' / 'testPrimitive' / 'test01')
unused_mdd = MuseDataDirectory(fpDir)
# from archive: note: this is a stage 1 file
#fpArchive = str(common.getSourceFilePath() / 'musedata' / 'testZip.zip')
#af = converter.ArchiveManager(fpArchive)
#unused_mdd = MuseDataDirectory(af.getNames())
# def testStage1A(self):
#
# from music21.musedata import testFiles
# mdw = MuseDataWork()
# mdw.addString(testFiles.bachContrapunctus1_part1)
# mdw.addString(testFiles.bachContrapunctus1_part2)
#
# mdpObjs = mdw.getParts()
#
# # all files have the same metadata
# for i in range(2):
# self.assertEqual(mdpObjs[i].getWorkNumber(), '1080')
# self.assertEqual(mdpObjs[i].getMovementNumber(), '1')
# self.assertEqual(mdpObjs[i].getSource(), 'Bach Gesellschaft xxv,1')
# self.assertEqual(mdpObjs[i].getGroupMembershipsTotal(), 4)
#
# self.assertEqual(mdpObjs[0]._getKeyParameters(), -1)
# self.assertEqual(mdpObjs[0]._getTimeSignatureParameters(), '2/2')
# self.assertEqual(mdpObjs[0].getDivisionsPerQuarterNote(), 4.0)
def testGetLyrics(self):
mdr = MuseDataRecord('D4 2 e u con-')
mdr.stage = 2
self.assertEqual(mdr.getLyrics(), ['con-'])
mdr = MuseDataRecord('F#4 2 e u a')
mdr.stage = 2
self.assertEqual(mdr.getLyrics(), ['a'])
mdr = MuseDataRecord('F#4 2 e u a | b')
mdr.stage = 2
self.assertEqual(mdr.getLyrics(), ['a', 'b'])
# def testMeasureNumberImport(self):
# from music21 import corpus
# s = corpus.parse('symphony94/02')
# for p in s.parts:
# match = []
# for m in p.getElementsByClass('Measure'):
# match.append(m.number)
# self.assertEqual(len(match), 156)
# # make sure there areno empty string
# self.assertEqual(match.count(''), 0)
#
# self.assertEqual(len(s.parts[-1].flat.notes), 287)
#-------------------------------------------------------------------------------
# define presented order in documentation
_DOC_ORDER = [MuseDataWork]
if __name__ == "__main__":
# sys.arg test options will be used in mainTest()
import music21
music21.mainTest(Test)
#------------------------------------------------------------------------------
# eof
|
mousedogpig/solr5.5.4 | lucene/expressions/src/java/org/apache/lucene/expressions/ScoreValueSource.java | /*
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.lucene.expressions;
import org.apache.lucene.index.LeafReaderContext;
import org.apache.lucene.queries.function.FunctionValues;
import org.apache.lucene.queries.function.ValueSource;
import org.apache.lucene.search.Scorer;
import java.io.IOException;
import java.util.Map;
/**
* A {@link ValueSource} which uses the {@link Scorer} passed through
* the context map by {@link ExpressionComparator}.
*/
@SuppressWarnings({"rawtypes"})
class ScoreValueSource extends ValueSource {
/**
* <code>context</code> must contain a key "scorer" which is a {@link Scorer}.
*/
@Override
public FunctionValues getValues(Map context, LeafReaderContext readerContext) throws IOException {
Scorer v = (Scorer) context.get("scorer");
if (v == null) {
throw new IllegalStateException("Expressions referencing the score can only be used for sorting");
}
return new ScoreFunctionValues(this, v);
}
@Override
public boolean equals(Object o) {
return o == this;
}
@Override
public int hashCode() {
return System.identityHashCode(this);
}
@Override
public String description() {
return "score()";
}
}
|
tomasbjerre/yet-another-kotlin-vs-java-comparison | src/main/java/classesiiiandiiiobjects/properties/p03variiiandiiival/UsingValAndInit.java | package classesiiiandiiiobjects.properties.p03variiiandiiival;
import kotlin.jvm.internal.DefaultConstructorMarker;
import kotlin.jvm.internal.Intrinsics;
import org.jetbrains.annotations.NotNull;
public final class UsingValAndInit {
@NotNull private final String name;
@NotNull
public final String getName() {
return this.name;
}
public UsingValAndInit(@NotNull String name) {
Intrinsics.checkParameterIsNotNull((Object) name, (String) "name");
this.name = name;
}
public /* synthetic */ UsingValAndInit(
String string, int n, DefaultConstructorMarker defaultConstructorMarker) {
if ((n & 1) != 0) {
string = "";
}
this(string);
}
public UsingValAndInit() {
this(null, 1, null);
}
}
|
OscarRodriguezPrieto/ProgQuery | ProgQuery/src/database/querys/services/TypeServicesWiggle.java | package database.querys.services;
import database.querys.cypherWrapper.Cardinalidad;
import database.querys.cypherWrapper.EdgeImpl;
import database.querys.cypherWrapper.MatchElement;
import database.querys.cypherWrapper.NodeVar;
import database.querys.cypherWrapper.RelationshipImpl;
import database.relations.RelationTypesWiggle;
public class TypeServicesWiggle {
public static MatchElement getSuperTypesOf(MatchElement type, MatchElement superType) {
return new RelationshipImpl(type, superType,
new EdgeImpl(Cardinalidad.MIN_TO_INF(0), RelationTypesWiggle.IS_SUBTYPE_OF));
}
public static MatchElement getSuperTypesOf(MatchElement type) {
return new RelationshipImpl(type, new NodeVar("superType"),
new EdgeImpl(Cardinalidad.MIN_TO_INF(0), RelationTypesWiggle.IS_SUBTYPE_OF));
}
}
|
MEDGRUPOGIT/med-components | dist/collection/components/@medgrupo/team/questoes/med-enunciado-discursiva/med-enunciado-discursiva.js | import { Component, Host, h, Prop, Event } from '@stencil/core';
export class MedEnunciadoDiscursiva {
imageRequest(imagem) {
this.medGalleryRequest.emit(imagem);
}
render() {
let imagens;
if (this.imagens) {
this.imagens = typeof this.imagens === 'string' ? JSON.parse(this.imagens) : this.imagens;
imagens = (h("ul", { class: 'list' }, this.imagens.map((imagem) => (h("li", { class: "list__item", onClick: () => this.imageRequest(imagem) },
h("img", { class: "list__image", src: imagem, alt: "" }))))));
}
return (h(Host, { "from-stencil": true },
h("span", { class: "number" }, "01 -"),
h("slot", null),
imagens));
}
static get is() { return "med-enunciado-discursiva"; }
static get encapsulation() { return "shadow"; }
static get originalStyleUrls() { return {
"$": ["med-enunciado-discursiva.scss"]
}; }
static get styleUrls() { return {
"$": ["med-enunciado-discursiva.css"]
}; }
static get properties() { return {
"imagens": {
"type": "string",
"mutable": true,
"complexType": {
"original": "string[] | string",
"resolved": "string | string[]",
"references": {}
},
"required": true,
"optional": false,
"docs": {
"tags": [],
"text": "TODO"
},
"attribute": "imagens",
"reflect": true
}
}; }
static get events() { return [{
"method": "medGalleryRequest",
"name": "medGalleryRequest",
"bubbles": true,
"cancelable": true,
"composed": true,
"docs": {
"tags": [],
"text": "TODO"
},
"complexType": {
"original": "string",
"resolved": "string",
"references": {}
}
}]; }
}
|
bulkin042/android_device_wileyfox_porridge | EngineerMode/src/com/mediatek/engineermode/nfc/NfcNativeCallClass.java | <reponame>bulkin042/android_device_wileyfox_porridge<gh_stars>1-10
/*
* To change this template, choose Tools | Templates
* and open the template in the editor.
*/
package com.mediatek.engineermode.nfc;
import com.mediatek.engineermode.Elog;
/**
*
* @author mtk80905
*/
public class NfcNativeCallClass {
public static final String TAG = "nfc";
public static final int MTK_NFC_DIS_NOTIF_DURATION = 500;
public static final int MIFARE4K_LEN = 16;
public static final int MIFARE1K_LEN = 4;
public static final int ISO15693_LEN = 4;
public static final int MIFARE1K_PAGE = 4;
public static final int UID_DATA_LEN = 8;
public static final int TAG_RAW_DATA_LEN = 256;
public static final int NDEF_DATA_LEN = 256; // Need to Check (1024)
public static final int RAW_COMM_DATA_LEN = 256;
public static final int NFC_HEADER_LENGTH = 8;
// Reader/card mode/Register_notification Bitmap
public static final int BM_MODE_MIFAREUL = 0;
public static final int BM_MODE_MIFARESTD = 1;
public static final int BM_MODE_ISO1443_4A = 2;
public static final int BM_MODE_ISO1443_4B = 3;
public static final int BM_MODE_JEWEL = 4;
public static final int BM_MODE_NFC = 5;
public static final int BM_MODE_FELICA = 6;
public static final int BM_MODE_ISO15693 = 7;
// secure element bitmap
public static final int BM_START_OF_TRANSACTION = 0;
public static final int BM_END_OF_TRANSACTION = 1;
public static final int BM_TRANSACTION = 2;
public static final int BM_RF_FIELD_ON = 3;
public static final int BM_RF_FIELD_OFF = 4;
public static final int BM_CONNECTIVITY = 5;
// Discovery notification bitmap
public static final int BM_DN_ISO1443_4A = 0;
public static final int BM_DN_ISO1443_4B = 1;
public static final int BM_DN_FELICA212 = 2;
public static final int BM_DN_FELICA424 = 3;
public static final int BM_DN_ISO15693 = 4;
public static final int BM_DN_NFC_ACTIVE = 5;
public static final int BM_DN_DISCARD_CE = 6;
public static final int BM_DN_DISABLE_P2P = 7;
// Magic number
private static final int NUM_4 = 4;
private static final int NUM_16 = 16;
private static final int NUM_15 = 15;
private static final int NUM_999 = 999;
private static final int NUM_888 = 888;
private static final int NUM_111 = 111;
private static final int NUM_222 = 222;
private static final int NUM_333 = 333;
/* Tag TYPE & card type */
public static final int TAG_TYPE_DEFAULT = 0;
public static final int TAG_TYPE_MIFARE_UL = 1;
public static final int TAG_TYPE_MIFARE_STD = 2;
public static final int TAG_TYPE_ISO1443_4A = 3;
public static final int TAG_TYPE_ISO1443_4B = 4;
public static final int TAG_TYPE_JEWWL = 5;
public static final int TAG_TYPE_NFC = 6;
public static final int TAG_TYPE_FELICA = 7;
public static final int TAG_TYPE_ISO15693 = 8;
public static final int TAG_TYPE_NDEF = 9;
static {
System.loadLibrary("em_nfc_jni");
}
/**
* init nfc driver
*
* @return 0: success, 1: failed
*/
public static native int initNfcDriver();
/**
* de Init nfc driver, when back to main view of em call this
*/
public static native void deinitNfcDriver();
/**
* send nfc setting request and get the rsp
*
* @param req
* : nfc setting req
* @return nfc setting rsp
*/
public static native nfc_setting_response getSettings(
nfc_setting_request req);
/**
* send nfc notify req and get the rsp
*
* @param req
* nfc notify req
* @return nfc notify rsp
*/
public static native nfc_reg_notif_response getRegisterNotif(
nfc_reg_notif_request req);
/**
* Set se req to chip and get the rsp
*
* @param req
* set se req
* @return set se rsp
*/
public static native nfc_se_set_response setSEOption(nfc_se_set_request req);
/**
* send discovery notify req and get the rsp fron the chip
*
* @param req
* discovery notify req
* @return discovery notify rsp
*/
public static native nfc_dis_notif_response getDiscoveryNotif(
nfc_dis_notif_request req);
/**
* send the tag read req and get the rsp
*
* @param req
* tag read req
* @return tag read rsp
*/
public static native nfc_tag_read_response readTag(nfc_tag_read_request req);
/**
* send nfc test req and get the rsp
*
* @param req
* nfc test req
* @return nfc test rsp
*/
public static native nfc_test_response testEntry(nfc_test_request req);
// ========================================================
// ====Define NFC Service Handler Return Setting/Bitmap ===
// ========================================================
// Settings
public static class nfc_setting_request {
public int nfc_enable; /*
* feature enable or disable , 0: disable,
* 1:enable
*/
public int debug_enable; /*
* debug enable or disable , 0: disable,
* 1:enable
*/
public int sw_protocol; /* SW protocol, 0: SW stack, 1: raw data mode */
public int get_capabilities; /*
* get chip capability 0: no request, 1:
* request
*/
public short[] test1 = new short[NUM_16];
public short[][] test2 = new short[NUM_4][NUM_4];
nfc_setting_request() {
test1[0] = NUM_999;
test1[NUM_15] = NUM_888;
test2[0][0] = NUM_111;
test2[1][0] = NUM_222;
test2[3][3] = NUM_333;
}
};
public static class nfc_setting_response {
public int status; /* return setting result */
public int nfc_enable; /* return feature enable or disable */
public int debug_enable; /* return debug enable or disable */
public int sw_protocol; /* return SW protocol, */
public int get_capabilities; /* return chip capability */
public int sw_ver; /* return software version */
public int hw_ver; /* return hardware version */
public int fw_ver; /* return firmware version */
public int reader_mode; /* return support format bitmap */
public int card_mode; /* return support format bitmap */
public short[] test1;
public short[][] test2;
};
// NFC Register Notification
public static class nfc_reg_notif_request {
public int reg_type; /* register notification bitmap */
};
public static class nfc_reg_notif_response {
public int status; /* return setting result,0 success, other: fail */
public int se; /*
* secure element detect, 0: no detect, 1: se typ1 , 2:
* se type 2
*/
public int se_status; /*
* secure element status, 0:off, 1:Virtual,
* 2:Wired
*/
public int se_type; /* secure element type, bitmap */
public int length; /* length of data */
public byte data[]; /* ascii data returned. */
};
// NFC Secure Element
public static class nfc_se_set_request {
public int set_SEtype; /* setting se type, 0:off, 1:Virtual, 2:Wired */
};
public static class nfc_se_set_response {
public int status; /* return setting result, 0:sucess */
};
// NFC Discovery Notification
public static class nfc_dis_notif_request {
public int dis_type; /* discovery notification bitmap */
public int duration; /* set duration,(unit:ms) */
};
public static class nfc_dis_notif_response {
public int status; /* return setting result, 0:sucess */
// public int which; /* tag or p2p was detected or nothing.*/
public Object target;
};
// NFC Tag Detected Response
public static class nfc_tag_det_response {
public int tag_type; /* return detected tag type */
public int card_type; /* card type, 1: Mifare classic 1K */
/* 2: Mifare classic 4K */
/* 3: NDEF */
public byte[] uid; /* card Uid */
public int sak; /* card sak */
public int atag; /* card atag */
public int appdata; /* card appdata */
public int maxdatarate; /* card maxdatarate */
/**
* print the member for debug
*/
public void printMember() {
String msg =
String
.format(
"tag_type %d, card_type %d, uid %s, sak %d, atag %d, appdata %d, maxdatarate %d",
tag_type, card_type, new String(uid), sak, atag,
appdata, maxdatarate);
Elog.i(TAG, msg);
}
};
// NFC Peer to Peer Detected Response
public static class nfc_p2p_det_response {
public int p2p_type; /* return detected tag type */
};
// NFC Peer to Peer Detected Response
public static class nfc_none_det_response {
public int dummy;
};
// NFC Peer to Peer communication
// public static class nfc_p2p_com_request {
//
// public int action; /* 1 : send, 2 receive */
//
// public int length; /* length of */
//
// public byte data[]; /* ascii data returned. */
//
// };
// public static class nfc_p2p_com_response {
//
// public int status; /* 0:success */
//
// public int length; /* length of */
//
// public byte data[]; /* ascii data returned. */
//
// };
// NFC raw data communication //not used
// public static class nfc_rd_com_request {
//
// public int action; /* 1:start test, 0:stop test */
//
// public int length; /* length of */
//
// public byte data[]; /* ascii data returned. */
//
// };
// public static class nfc_rd_com_response {
//
// public int status; /* Test result, 0:success */
//
// public int length; /* length of */
//
// public byte data[]; /* ascii data returned. */
//
// };
// /NFC test mode
public static class nfc_script_request {
public int type; /* Test type: currently, always set 1 */
public int action; /* Test action, 1: start test, 0:stop test */
};
public static class nfc_script_response {
public int result; /* Test result,0 :success */
};
// NFC test mode
public static class nfc_script_uid_request {
public int type; /* Test type: currently, always set 1 */
public int action; /* Test action, 1: start test, 0:stop test */
public int uid_type; /* 1: uid 4bytes, 2 : uid 7bytes */
public byte[] data = new byte[UID_DATA_LEN]; /* uid content */
};
public static class nfc_script_uid_response {
public int result; /* Test result, 0: success */
public int uid_type; /* 1: uid 4bytes, 2 : uid 7bytes */
public byte[] data; // = new short[UID_DATA_LEN]; /* uid content */
};
public static class nfc_tx_alwayson_request {
public int type; /* Test type: currently, always set 1 */
public int action; /* Test action, 1: start test, 0:stop test */
public byte modulation_type; /*
* 0:type A, 1:type B, 2:type F, 3:No
* Modulation
*/
public byte bitrate; /* 0:106kbps, 1:212kbps, 2:424kbps */
};
public static class nfc_card_emulation_request {
public int type; /* Test type: currently, always set 1 */
public int action; /* Test action, 1: start test, 0:stop test */
public short technology; /*
* bitmask: MifareUL=bit 0, MifareStd=bit1,
* ISO14443_4A=bit 2, ISO14443_4B=bit 3,
* Jewel=bit 4, Felica=bit 5, ISO15693=bit 6
*/
public short protocols; /*
* bitmask: Iso14443A=bit 0, Iso14443B=bit 1,
* Felica212=bit 2, Felica424=bit 3,
* Iso15693=bit 4
*/
};
public static class nfc_test_request {
public int which; // which test
public Object target; // test request. like nfc_tx_alwayson_request..
}
public static class nfc_test_response {
public Object target; // test request. like nfc_script_uid_response..
}
// NFC Tag Read Request
public static class nfc_tag_read_request {
public int read_type; /* which type want to read */
/* 1 for Mifare classic 1K */
/* 2 for Mifare classic 4K */
/* 3 for NDEF type */
public int address; /* for Mifare classic 1K used */
public int sector; /* for Mifare classic 4K used */
public int block; /* for Mifare classic 4K used */
};
// !!!NDEF type no parameter
// start NFC Tag Read Response
public static class nfc_tag_read_response {
public int status; /* return read status, 0 success */
public Object target; /*
* 1 : Mifare classic 1K ,2: Mifare classic 4K, 3:
* NDEF
*/
};
public static class nfc_tag_read_Mifare1K {
public int address; /* */
public short[] data; // = new short[MIFARE1K_LEN];
};
public static class nfc_tag_read_Mifare4K {
public int sector; /* */
public int block;
public short[] data; // = new short[MIFARE4K_LEN];
};
public static class nfc_tag_read_ndef {
public int ndef_type;
public int recordFlage;
public int recordId;
public int recordInfo;
public int length;
public short[] dataHex; // = new short[NDEF_DATA_LEN];
public char[] dataAscii; // = new short[NDEF_DATA_LEN];
};
// end NFC Tag Read Response
}
|
elenaborisova/Python-Advanced | 04. Tuples and Sets - Exercise/02_sets_of_elements.py | def get_set_elements(n):
elements = set()
for _ in range(n):
element = input()
elements.add(element)
return elements
def find_intersection_elements(first_set, second_set):
return first_set.intersection(second_set)
def print_result(intersection_elements):
print('\n'.join(intersection_elements))
first_set_length, second_set_length = list(map(int, input().split()))
first_set = get_set_elements(first_set_length)
second_set = get_set_elements(second_set_length)
print_result(find_intersection_elements(first_set, second_set)) |
CodingGarden/patreon-pledges-api | src/lib/validPronounChoices.js | module.exports = new Set([
'she',
'he',
'ze',
'they',
'co',
'none',
'xe',
'hy',
'it',
'one',
'em',
'\'em',
'yo',
]); |
aps337/unum-sdk | src/gdb/gdb-8.3/gdb/testsuite/gdb.cp/local-static.cc | #include "local-static.c"
|
lemmi25/sila2lib | sila_library/sila2lib/fdl_parser/metadata.py | <reponame>lemmi25/sila2lib<gh_stars>0
"""
__________________________________________________________________________________________________
:project: SiLA2_python
:details: Metadata element in a SiLA Feature Definition.
:file: metadata.py
:authors: <NAME>
:date: (creation) 20190820
:date: (last modification) 20190820
__________________________________________________________________________________________________
**Copyright**:
This file is provided "AS IS" with NO WARRANTY OF ANY KIND,
INCLUDING THE WARRANTIES OF DESIGN, MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE.
For further Information see LICENSE file that comes with this distribution.
__________________________________________________________________________________________________
"""
# import meta packages
from typing import Any
from typing import List
# import library packages
from .data_type_parameter import ParameterDataType
class Metadata:
"""
This class stores all information corresponding to **one** metadata element defined in the feature definition.
.. note:: This class was introduced for the SiLA standard staring at version 0.2.
"""
#: Identifier of the metadata elements
identifier: str
#: Display name property of the metadata
name: str
#: Metadata description
description: str
#: Reference to the xml-tree of the property
_tree: Any
#: The parameter defined for this metadata element
parameter: ParameterDataType
#: List of all defined execution errors (identifiers) that can occur during reading of this property (SiLA v0.2)
defined_execution_errors: List[str]
def __init__(self, xml_tree_element):
"""
Class initialiser
:param xml_tree_element: The contents of the <Property>-xml node
"""
self._tree = xml_tree_element
self.identifier = xml_tree_element.Identifier.text
self.name = xml_tree_element.DisplayName
self.description = xml_tree_element.Description
self.parameter = ParameterDataType(xml_tree_element=xml_tree_element)
# get all defined execution errors
self.defined_execution_errors = []
if hasattr(xml_tree_element, 'DefinedExecutionErrors'):
for defined_error in xml_tree_element.DefinedExecutionErrors.Identifier:
self.defined_execution_errors.append(defined_error.text)
|
TheRakeshPurohit/metro | packages/metro-cache/src/stores/HttpStore.js | /**
* Copyright (c) Meta Platforms, Inc. and affiliates.
*
* This source code is licensed under the MIT license found in the
* LICENSE file in the root directory of this source tree.
*
* @format
* @flow
*/
'use strict';
import type {Agent as HttpAgent} from 'http';
import type {Agent as HttpsAgent} from 'https';
const HttpError = require('./HttpError');
const NetworkError = require('./NetworkError');
const http = require('http');
const https = require('https');
const url = require('url');
const zlib = require('zlib');
export type Options = {
endpoint: string,
family?: 4 | 6,
timeout?: number,
key?: string | $ReadOnlyArray<string> | Buffer | $ReadOnlyArray<Buffer>,
cert?: string | $ReadOnlyArray<string> | Buffer | $ReadOnlyArray<Buffer>,
ca?: string | $ReadOnlyArray<string> | Buffer | $ReadOnlyArray<Buffer>,
};
const ZLIB_OPTIONS = {
level: 9,
};
const NULL_BYTE = 0x00;
const NULL_BYTE_BUFFER = Buffer.from([NULL_BYTE]);
class HttpStore<T> {
static HttpError: typeof HttpError = HttpError;
static NetworkError: typeof NetworkError = NetworkError;
_module: typeof http | typeof https;
_timeout: number;
_host: string;
_port: number;
_path: string;
_getAgent: HttpAgent | HttpsAgent;
_setAgent: HttpAgent | HttpsAgent;
constructor(options: Options) {
const uri = url.parse(options.endpoint);
const module = uri.protocol === 'http:' ? http : https;
const agentConfig: http$agentOptions = {
family: options.family,
keepAlive: true,
keepAliveMsecs: options.timeout || 5000,
maxSockets: 64,
maxFreeSockets: 64,
};
if (options.key != null) {
// $FlowFixMe `key` is missing in the Flow definition
agentConfig.key = options.key;
}
if (options.cert != null) {
// $FlowFixMe `cert` is missing in the Flow definition
agentConfig.cert = options.cert;
}
if (options.ca != null) {
// $FlowFixMe `ca` is missing in the Flow definition
agentConfig.ca = options.ca;
}
if (!uri.hostname || !uri.pathname) {
throw new TypeError('Invalid endpoint: ' + options.endpoint);
}
this._module = module;
this._timeout = options.timeout || 5000;
this._host = uri.hostname;
this._path = uri.pathname;
this._port = +uri.port;
this._getAgent = new module.Agent(agentConfig);
this._setAgent = new module.Agent(agentConfig);
}
get(key: Buffer): Promise<?T> {
return new Promise((resolve, reject) => {
const options = {
agent: this._getAgent,
host: this._host,
method: 'GET',
path: this._path + '/' + key.toString('hex'),
port: this._port,
timeout: this._timeout,
};
/* $FlowFixMe(>=0.101.0 site=react_native_fb) This comment suppresses an
* error found when Flow v0.101 was deployed. To see the error, delete
* this comment and run Flow. */
const req = this._module.request(options, res => {
const code = res.statusCode;
const data = [];
if (code === 404) {
res.resume();
resolve(null);
return;
} else if (code !== 200) {
res.resume();
reject(new HttpError('HTTP error: ' + code, code));
return;
}
const gunzipped = res.pipe(zlib.createGunzip());
gunzipped.on('data', chunk => {
data.push(chunk);
});
gunzipped.on('error', err => {
reject(err);
});
gunzipped.on('end', () => {
try {
const buffer = Buffer.concat(data);
if (buffer.length > 0 && buffer[0] === NULL_BYTE) {
resolve((buffer.slice(1): any));
} else {
resolve(JSON.parse(buffer.toString('utf8')));
}
} catch (err) {
reject(err);
}
});
res.on('error', err => gunzipped.emit('error', err));
});
req.on('error', err => {
reject(new NetworkError(err.message, err.code));
});
req.end();
});
}
set(key: Buffer, value: T): Promise<void> {
return new Promise((resolve, reject) => {
const gzip = zlib.createGzip(ZLIB_OPTIONS);
const options = {
agent: this._setAgent,
host: this._host,
method: 'PUT',
path: this._path + '/' + key.toString('hex'),
port: this._port,
timeout: this._timeout,
};
/* $FlowFixMe(>=0.101.0 site=react_native_fb) This comment suppresses an
* error found when Flow v0.101 was deployed. To see the error, delete
* this comment and run Flow. */
const req = this._module.request(options, res => {
const code = res.statusCode;
if (code < 200 || code > 299) {
res.resume();
reject(new HttpError('HTTP error: ' + code, code));
return;
}
res.on('error', err => {
reject(err);
});
res.on('end', () => {
resolve();
});
// Consume all the data from the response without processing it.
res.resume();
});
gzip.pipe(req);
if (value instanceof Buffer) {
gzip.write(NULL_BYTE_BUFFER);
gzip.end(value);
} else {
gzip.end(JSON.stringify(value) || 'null');
}
});
}
clear() {
// Not implemented.
}
}
module.exports = HttpStore;
|
rstreefland/ShortcutMessenger | src/main/java/uk/co/streefland/rhys/finalyearproject/message/Receiver.java | package uk.co.streefland.rhys.finalyearproject.message;
import java.io.IOException;
/**
* Interface that every Receiver should implement to ensure consistency
*/
public interface Receiver {
/**
* Handle incoming message
*
* @param communicationId Used for replies
* @param incoming The incoming message
* @throws IOException
*/
void receive(Message incoming, int communicationId) throws IOException;
/**
* If no reply is received in 2 seconds, the Server calls this method
*
* @param communicationId
* @throws IOException
*/
void timeout(int communicationId) throws IOException;
}
|
imranq2/SparkAutoMapper.FHIR | spark_auto_mapper_fhir/value_sets/intervention_codes.py | <reponame>imranq2/SparkAutoMapper.FHIR<filename>spark_auto_mapper_fhir/value_sets/intervention_codes.py
from __future__ import annotations
from spark_auto_mapper_fhir.fhir_types.uri import FhirUri
from spark_auto_mapper_fhir.value_sets.generic_type import GenericTypeCode
from spark_auto_mapper.type_definitions.defined_types import AutoMapperTextInputType
# This file is auto-generated by generate_classes so do not edit manually
# noinspection PyPep8Naming
class InterventionCodesCode(GenericTypeCode):
"""
InterventionCodes
From: http://hl7.org/fhir/intervention in valuesets.xml
This value set includes sample Intervention codes.
"""
def __init__(self, value: AutoMapperTextInputType):
super().__init__(value=value)
"""
http://hl7.org/fhir/intervention
"""
codeset: FhirUri = "http://hl7.org/fhir/intervention"
class InterventionCodesCodeValues:
"""
Unknown
From: http://hl7.org/fhir/intervention in valuesets.xml
"""
Unknown = InterventionCodesCode("unknown")
"""
Other
From: http://hl7.org/fhir/intervention in valuesets.xml
"""
Other = InterventionCodesCode("other")
|
olegvakulenko/BoofCV | main/boofcv-ip/src/main/java/boofcv/alg/color/impl/ImplColorRgb.java | /*
* Copyright (c) 2011-2019, <NAME>. All Rights Reserved.
*
* This file is part of BoofCV (http://boofcv.org).
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package boofcv.alg.color.impl;
import boofcv.struct.image.*;
//CONCURRENT_INLINE import boofcv.concurrency.BoofConcurrency;
/**
* @author <NAME>
*/
@SuppressWarnings("Duplicates")
public class ImplColorRgb {
public static void rgbToGray_Weighted_U8(Planar<GrayU8> rgb , GrayU8 gray ) {
GrayU8 R = rgb.getBand(0);
GrayU8 G = rgb.getBand(1);
GrayU8 B = rgb.getBand(2);
//CONCURRENT_BELOW BoofConcurrency.loopFor(0,rgb.height,row->{
for( int row = 0; row < rgb.height; row++ ) {
int indexRgb = rgb.startIndex + row*rgb.stride;
int indedGra = gray.startIndex + row*gray.stride;
int end = indexRgb + rgb.width;
for( ; indexRgb < end; indexRgb++ ) {
int r = R.data[indexRgb]&0xFF;
int g = G.data[indexRgb]&0xFF;
int b = B.data[indexRgb]&0xFF;
gray.data[indedGra++] = (byte)((299*r + 587*g + 114*b)/1000);
}
}
//CONCURRENT_ABOVE });
}
public static void rgbToGray_Weighted_F32(Planar<GrayF32> rgb , GrayF32 gray ) {
GrayF32 R = rgb.getBand(0);
GrayF32 G = rgb.getBand(1);
GrayF32 B = rgb.getBand(2);
//CONCURRENT_BELOW BoofConcurrency.loopFor(0,rgb.height,row->{
for( int row = 0; row < rgb.height; row++ ) {
int indexRgb = rgb.startIndex + row*rgb.stride;
int indedGra = gray.startIndex + row*gray.stride;
int end = indexRgb + rgb.width;
for( ; indexRgb < end; indexRgb++ ) {
float r = R.data[indexRgb];
float g = G.data[indexRgb];
float b = B.data[indexRgb];
gray.data[indedGra++] = 0.299f*r + 0.587f*g + 0.114f*b;
}
}
//CONCURRENT_ABOVE });
}
public static void rgbToGray_Weighted_F64(Planar<GrayF64> rgb , GrayF64 gray ) {
GrayF64 R = rgb.getBand(0);
GrayF64 G = rgb.getBand(1);
GrayF64 B = rgb.getBand(2);
//CONCURRENT_BELOW BoofConcurrency.loopFor(0,rgb.height,row->{
for( int row = 0; row < rgb.height; row++ ) {
int indexRgb = rgb.startIndex + row*rgb.stride;
int indedGra = gray.startIndex + row*gray.stride;
int end = indexRgb + rgb.width;
for( ; indexRgb < end; indexRgb++ ) {
double r = R.data[indexRgb];
double g = G.data[indexRgb];
double b = B.data[indexRgb];
gray.data[indedGra++] = 0.299*r + 0.587*g + 0.114*b;
}
}
//CONCURRENT_ABOVE });
}
public static void rgbToGray_Weighted(InterleavedU8 rgb , GrayU8 gray ) {
//CONCURRENT_BELOW BoofConcurrency.loopFor(0,rgb.height,row->{
for( int row = 0; row < rgb.height; row++ ) {
int indexRgb = rgb.startIndex + row*rgb.stride;
int indedGra = gray.startIndex + row*gray.stride;
int end = indedGra + rgb.width;
for( ; indedGra < end; indedGra++ ) {
int r = rgb.data[indexRgb++]&0xFF;
int g = rgb.data[indexRgb++]&0xFF;
int b = rgb.data[indexRgb++]&0xFF;
gray.data[indedGra] = (byte)((299*r + 587*g + 114*b)/1000);
}
}
//CONCURRENT_ABOVE });
}
public static void rgbToGray_Weighted(InterleavedF32 rgb , GrayF32 gray ) {
//CONCURRENT_BELOW BoofConcurrency.loopFor(0,rgb.height,row->{
for( int row = 0; row < rgb.height; row++ ) {
int indexRgb = rgb.startIndex + row*rgb.stride;
int indedGra = gray.startIndex + row*gray.stride;
int end = indedGra + rgb.width;
for( ; indedGra < end; indedGra++ ) {
float r = rgb.data[indexRgb++];
float g = rgb.data[indexRgb++];
float b = rgb.data[indexRgb++];
gray.data[indedGra] = 0.299f*r + 0.587f*g + 0.114f*b;
}
}
//CONCURRENT_ABOVE });
}
public static void rgbToGray_Weighted(InterleavedF64 rgb , GrayF64 gray ) {
//CONCURRENT_BELOW BoofConcurrency.loopFor(0,rgb.height,row->{
for( int row = 0; row < rgb.height; row++ ) {
int indexRgb = rgb.startIndex + row*rgb.stride;
int indedGra = gray.startIndex + row*gray.stride;
int end = indedGra + rgb.width;
for( ; indedGra < end; indedGra++ ) {
double r = rgb.data[indexRgb++];
double g = rgb.data[indexRgb++];
double b = rgb.data[indexRgb++];
gray.data[indedGra] = 0.299*r + 0.587*g + 0.114*b;
}
}
//CONCURRENT_ABOVE });
}
}
|
diogocapela/isep-lapr4 | georef/src/main/java/georef/strategies/sg05/SG05Google.java | <filename>georef/src/main/java/georef/strategies/sg05/SG05Google.java
package georef.strategies.sg05;
import com.google.gson.Gson;
import com.google.gson.GsonBuilder;
import com.google.maps.DirectionsApi;
import com.google.maps.GeoApiContext;
import com.google.maps.errors.ApiException;
import com.google.maps.model.DirectionsResult;
import com.google.maps.model.LatLng;
import com.google.maps.model.TravelMode;
import georef.Settings;
import georef.models.Location;
import georef.models.Route;
import org.json.simple.JSONArray;
import org.json.simple.JSONObject;
import org.json.simple.parser.JSONParser;
import org.json.simple.parser.ParseException;
public class SG05Google {
private final String WALKING_ = "Walking";
private final String DRIVING_ = "Driving";
////////////////////////////////// WITH ADDRESS
public Route getRouteBetweenLocations(String addressA, String addressB, String locomocao) {
// Validate input
TravelMode mode;
if (addressA == null || addressB == null || addressA.isEmpty() || addressB.isEmpty()) {
throw new IllegalArgumentException();
} else {
addressA = buildAddressURL(addressA);
addressB = buildAddressURL(addressB);
}
if (locomocao == null || locomocao.isEmpty()) {
mode = TravelMode.DRIVING;
} else if (locomocao.equalsIgnoreCase(WALKING_)) {
mode = TravelMode.WALKING;
} else {
mode = TravelMode.DRIVING;
}
try {
// Config API
GeoApiContext context = new GeoApiContext.Builder().disableRetries().apiKey(Settings.GOOGLE_API_KEY).build();
DirectionsResult result;
try {
result = DirectionsApi.newRequest(context).origin(addressA).destination(addressB).mode(mode).await();
Route route = getResult(result, locomocao);
return route;
} catch (NullPointerException ne) {
ne.printStackTrace();
return null;
} catch (ApiException apie) {
apie.getCause();
return null;
}
} catch (Exception e) {
e.printStackTrace();
return null;
}
}
private String buildAddressURL(String address) {
return address.replaceAll("[ ]", "%20");
}
/////////////////////////////////// WITH COORDINATES
public Route getRouteBetweenLocations(Double latA, Double longA, Double latB, Double longB, String locomocao) {
// Validate input
TravelMode mode;
LatLng latLongA;
LatLng latLongB;
if (latA == null || longA == null || latB == null || longB == null) {
throw new IllegalArgumentException();
} else {
latLongA = new LatLng(latA, longA);
latLongB = new LatLng(latB, longB);
}
if (locomocao == null || locomocao.isEmpty()) {
mode = TravelMode.DRIVING;
} else if (locomocao.equalsIgnoreCase(WALKING_)) {
mode = TravelMode.WALKING;
} else {
mode = TravelMode.DRIVING;
}
try {
// Config API
GeoApiContext context = new GeoApiContext.Builder().disableRetries().apiKey(Settings.GOOGLE_API_KEY).build();
DirectionsResult result;
try {
result = DirectionsApi.newRequest(context).origin(latLongA).destination(latLongB).mode(mode).await();
Route route = getResult(result, locomocao);
return route;
} catch (NullPointerException ne) {
ne.printStackTrace();
return null;
} catch (ApiException apie) {
System.out.println(apie.getMessage());
return null;
}
} catch (Exception e) {
e.printStackTrace();
return null;
}
}
private Route getResult(DirectionsResult result, String locomocao) {
try {
Gson gson = new GsonBuilder().setPrettyPrinting().create();
String jsonResponse = gson.toJson(result);
JSONParser jsonParser = new JSONParser();
JSONObject jsonObj = (JSONObject) jsonParser.parse(jsonResponse);
if (jsonObj == null) return null;
JSONArray routes = (JSONArray) jsonObj.get("routes");
if (routes.size() == 0) return null;
JSONObject infosBag = (JSONObject) routes.get(0);
if (infosBag == null) return null;
JSONArray legs = (JSONArray) infosBag.get("legs");
if (legs.size() == 0) return null;
JSONObject finalBag = (JSONObject) legs.get(0);
if (finalBag == null) return null;
// Time given in seconds
JSONObject timeBag = (JSONObject) finalBag.get("duration");
if (timeBag == null) return null;
Double time = Double.parseDouble(timeBag.get("inSeconds").toString());
// Distance given in meters -> dividir por 1000 para passar para km
JSONObject distanceBag = (JSONObject) finalBag.get("distance");
if (distanceBag == null) return null;
Double distance = Double.parseDouble(distanceBag.get("inMeters").toString());
// Locationn A
JSONObject startLocation = (JSONObject) finalBag.get("startLocation");
if (startLocation == null) return null;
Double latitudeA = Double.parseDouble(startLocation.get("lat").toString());
Double longitudeA = Double.parseDouble(startLocation.get("lng").toString());
// Location B
JSONObject endLocation = (JSONObject) finalBag.get("endLocation");
if (endLocation == null) return null;
Double latitudeB = Double.parseDouble(endLocation.get("lat").toString());
Double longitudeB = Double.parseDouble(endLocation.get("lng").toString());
// Route data
Location locationA = new Location(latitudeA, longitudeA);
Location locationB = new Location(latitudeB, longitudeB);
Route route = new Route(locationA, locationB, distance / 1000, time, locomocao);
return route;
} catch (ParseException pe) {
pe.printStackTrace();
return null;
}
}
}
|
EmilyOng/scratch-source | src/components/stage-selector/stage-selector.js | <reponame>EmilyOng/scratch-source<filename>src/components/stage-selector/stage-selector.js
'use strict';
Object.defineProperty(exports, "__esModule", {
value: true
});
var _extends = Object.assign || function (target) { for (var i = 1; i < arguments.length; i++) { var source = arguments[i]; for (var key in source) { if (Object.prototype.hasOwnProperty.call(source, key)) { target[key] = source[key]; } } } return target; };
var _classnames = require('classnames');
var _classnames2 = _interopRequireDefault(_classnames);
var _propTypes = require('prop-types');
var _propTypes2 = _interopRequireDefault(_propTypes);
var _react = require('react');
var _react2 = _interopRequireDefault(_react);
var _reactIntl = require('react-intl');
var _box = require('../box/box.js');
var _box2 = _interopRequireDefault(_box);
var _iconButton = require('../icon-button/icon-button.js');
var _iconButton2 = _interopRequireDefault(_iconButton);
var _costumeCanvas = require('../costume-canvas/costume-canvas.js');
var _costumeCanvas2 = _interopRequireDefault(_costumeCanvas);
var _stageSelector = require('./stage-selector.css');
var _stageSelector2 = _interopRequireDefault(_stageSelector);
var _iconBackdrop = require('./icon--backdrop.svg');
var _iconBackdrop2 = _interopRequireDefault(_iconBackdrop);
function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }
function _defineProperty(obj, key, value) { if (key in obj) { Object.defineProperty(obj, key, { value: value, enumerable: true, configurable: true, writable: true }); } else { obj[key] = value; } return obj; }
function _objectWithoutProperties(obj, keys) { var target = {}; for (var i in obj) { if (keys.indexOf(i) >= 0) continue; if (!Object.prototype.hasOwnProperty.call(obj, i)) continue; target[i] = obj[i]; } return target; }
var addBackdropMessage = _react2.default.createElement(_reactIntl.FormattedMessage, {
defaultMessage: 'Add Backdrop',
description: 'Button to add a backdrop in the target pane',
id: 'gui.stageSelector.targetPaneAddBackdrop'
});
var StageSelector = function StageSelector(props) {
var backdropCount = props.backdropCount,
selected = props.selected,
url = props.url,
onClick = props.onClick,
onNewBackdropClick = props.onNewBackdropClick,
componentProps = _objectWithoutProperties(props, ['backdropCount', 'selected', 'url', 'onClick', 'onNewBackdropClick']);
return _react2.default.createElement(
_box2.default,
_extends({
className: (0, _classnames2.default)(_stageSelector2.default.stageSelector, _defineProperty({}, _stageSelector2.default.isSelected, selected)),
onClick: onClick
}, componentProps),
_react2.default.createElement(
'div',
{ className: _stageSelector2.default.header },
_react2.default.createElement(
'div',
{ className: _stageSelector2.default.headerTitle },
'Stage'
)
),
url ? _react2.default.createElement(_costumeCanvas2.default, {
className: _stageSelector2.default.costumeCanvas,
height: 42,
url: url,
width: 56
}) : null,
_react2.default.createElement(
'div',
{ className: _stageSelector2.default.label },
_react2.default.createElement(_reactIntl.FormattedMessage, {
defaultMessage: 'Backdrops',
description: 'Label for the backdrops in the stage selector',
id: 'gui.stageSelector.backdrops'
})
),
_react2.default.createElement(
'div',
{ className: _stageSelector2.default.count },
backdropCount
),
_react2.default.createElement(_iconButton2.default, {
className: _stageSelector2.default.addButton,
img: _iconBackdrop2.default,
title: addBackdropMessage,
onClick: onNewBackdropClick
})
);
};
StageSelector.propTypes = {
backdropCount: _propTypes2.default.number.isRequired,
onClick: _propTypes2.default.func,
onNewBackdropClick: _propTypes2.default.func,
selected: _propTypes2.default.bool.isRequired,
url: _propTypes2.default.string
};
exports.default = StageSelector;
|
lhardt/PythonCourse | aula23.py | <reponame>lhardt/PythonCourse
try:
a = int(input('Digite um número\n>>>\t'))
except Exception as e:
print(f'Opa. {e.__class__}')
# Outros Excepts.
else:
print(f'a = {a}')
finally:
print('Deseja continuar?')
|
estigma88/coders-tower-code | inversion-of-control-putting-all-together/src/main/java/com/coderstower/blog/inversion_of_control_putting_all_together/main/MongoDBRepository.java | <filename>inversion-of-control-putting-all-together/src/main/java/com/coderstower/blog/inversion_of_control_putting_all_together/main/MongoDBRepository.java<gh_stars>1-10
package com.coderstower.blog.inversion_of_control_putting_all_together.main;
import com.coderstower.blog.inversion_of_control_putting_all_together.abstraction.Repository;
public class MongoDBRepository implements Repository {
}
|
nla/pandas4 | common/src/pandas/browser/BrowserPool.java | <filename>common/src/pandas/browser/BrowserPool.java
package pandas.browser;
import org.apache.commons.pool2.BasePooledObjectFactory;
import org.apache.commons.pool2.PooledObject;
import org.apache.commons.pool2.impl.DefaultEvictionPolicy;
import org.apache.commons.pool2.impl.DefaultPooledObject;
import org.apache.commons.pool2.impl.EvictionConfig;
import org.apache.commons.pool2.impl.GenericObjectPool;
import java.io.IOException;
import java.io.UncheckedIOException;
public class BrowserPool extends GenericObjectPool<Browser> {
long maxLifetime = 10L * 60L * 1000L; // kill browser after 10 minutes
public BrowserPool() {
super(new Factory());
setTestOnBorrow(true);
setTimeBetweenEvictionRunsMillis(30000);
setMinEvictableIdleTimeMillis(30000);
setEvictionPolicy(new DefaultEvictionPolicy<>() {
@Override
public boolean evict(EvictionConfig config, PooledObject<Browser> underTest, int idleCount) {
if (System.currentTimeMillis() - underTest.getCreateTime() > maxLifetime) {
return true;
}
return super.evict(config, underTest, idleCount);
}
});
}
private static class Factory extends BasePooledObjectFactory<Browser> {
@Override
public boolean validateObject(PooledObject<Browser> p) {
return p.getObject().alive();
}
@Override
public void destroyObject(PooledObject<Browser> p) {
p.getObject().close();
}
@Override
public Browser create() {
try {
return new Browser();
} catch (IOException e) {
throw new UncheckedIOException(e);
}
}
@Override
public PooledObject<Browser> wrap(Browser browser) {
return new DefaultPooledObject<>(browser);
}
}
}
|
frankmk3/deptVideo | front-end-react/src/util/SearchUtils.js | export function getFiltersAsQuery(filters) {
var query = '';
if (filters !== undefined) {
query = Object.keys(filters)
.filter(key => filters[key])
.filter(key => filters[key].length > 0)
.map(key => filters[key].map(item => key + ':' + item + '*').join(" OR "))
.join(" AND ");
}
return query;
} |
Nebukam/mkfont | app/js/data/ids-ext.js | <filename>app/js/data/ids-ext.js
'use strict';
const nkm = require(`@nkmjs/core`);
const ui = nkm.ui;
const inputs = nkm.uilib.inputs;
const ENUMS = require(`./enums`);
const UNICODE = require(`../unicode`);
/**
* @description TODO
* @class
* @hideconstructor
* @memberof ui.core
*/
class IDS_EXT {
constructor() { }
static infos = {};
//#region search
static SEARCH_ENABLED = 'searchEnabled';
static SEARCH_RESULTS = 'searchResults';
static SEARCH_TERM = 'search';
static ADD_COMPOSITION = 'addComp';
static MUST_EXISTS = 'mustExists';
static CASE_INSENSITIVE = 'broadSearch';
static FILTER_CATEGORY = 'categories';
static {
// Family properties
this.infos[this.SEARCH_ENABLED] = {
inputType: inputs.Boolean,
label: `Search`,
inputOptions: { placeholder: `...`, size: ui.FLAGS.SIZE_XS },
desc: `Enable filter within current glyph selection.\nSeparate terms with an empty space.\nNote : search can impact responsiveness.`
};
this.infos[this.SEARCH_TERM] = {
recompute: true,
inputType: inputs.Search,
label: `Search`,
inputOptions: { placeholder: `a b c square...`, changeOnInput: true, submitOnChange: true, },
desc: `Search for characters within Unicode.\nSeparate search terms with a space.`
};
this.infos[this.CASE_INSENSITIVE] = {
recompute: true,
inputType: inputs.Checkbox,
label: `Broad`,
inputOptions: { placeholder: `...`, size: ui.FLAGS.SIZE_XS },
desc: `Broad search doesn't care whether the case is uppercase or lowercase.`
};
this.infos[this.ADD_COMPOSITION] = {
recompute: true,
inputType: inputs.Checkbox,
label: `Relatives`,
inputOptions: { placeholder: `...`, size: ui.FLAGS.SIZE_XS },
desc: `Whether to include glyph relatives & decompositions to initial results.\ni.e, "é" will add ' and e to the results.`
};
this.infos[this.MUST_EXISTS] = {
recompute: true,
inputType: inputs.Checkbox,
label: `Exists`,
inputOptions: { placeholder: `...`, size: ui.FLAGS.SIZE_XS },
desc: `Show only glyphs existing within the font.`
};
}
//#endregion
//#region Import
static IMPORT_ASSIGN_MODE = 'import-assign-mode';
static IMPORT_OVERLAP_MODE = 'import-overlap-mode';
static IMPORT_PREFIX = 'import-prefix';
static IMPORT_SEPARATOR = 'import-sep';
static IMPORT_MARK_X = 'import-x';
static IMPORT_MARK_CAP = 'import-cap';
static IMPORT_MARK_COL = 'import-col';
static IMPORT_BLOCK = 'import-block';
static IMPORT_BLOCK_START = 'import-block-start';
static IMPORT_JUMP_OVER = 'import-jump-over';
static IMPORT_BIND_RESOURCE = 'import-bind';
static IMPORT_TEXT_AS_LAYERS = 'import-text-as-layers';
static {
this.infos[this.IMPORT_ASSIGN_MODE] = {
import: true,
enum: ENUMS.ASSIGN_IMPORT_MODE,
inputType: inputs.Select,
label: `Assignation`,
inputOptions: { catalog: ENUMS.ASSIGN_IMPORT_MODE, itemKey: nkm.com.IDS.VALUE, size: ui.FLAGS.SIZE_S },
desc: `How the imported file is associated to a Unicode value.`
};
this.infos[this.IMPORT_OVERLAP_MODE] = {
import: true,
enum: ENUMS.OVERLAP,
inputType: inputs.Select,
label: `Overlap`,
inputOptions: { catalog: ENUMS.OVERLAP, itemKey: nkm.com.IDS.VALUE, size: ui.FLAGS.SIZE_S },
desc: `How deal with glyphs that already exists.`
};
this.infos[this.IMPORT_BLOCK] = {
import: true,
enum: UNICODE.instance._blockCatalog,
inputType: inputs.Select,
label: `Reference block`,
inputOptions: { catalog: UNICODE.instance._blockCatalog, size: ui.FLAGS.SIZE_S },
desc: `UNICODE Block to work with (there's ${UNICODE.instance._blockCatalog.count} of them!)`
};
this.infos[this.IMPORT_BLOCK_START] = {
import: true,
enum: ENUMS.BLOCK_START_MODE,
inputType: inputs.Select,
label: `Start point`,
inputOptions: { catalog: ENUMS.BLOCK_START_MODE, itemKey: nkm.com.IDS.VALUE, size: ui.FLAGS.SIZE_S },
desc: `Where to start adding within the selected block`
};
this.infos[this.IMPORT_JUMP_OVER] = {
import: true,
inputType: inputs.Boolean,
label: `Search`,
inputOptions: { placeholder: `...`, size: ui.FLAGS.SIZE_XS },
};
this.infos[this.IMPORT_BIND_RESOURCE] = {
import: true,
inputType: inputs.Boolean,
label: `Bind imported files`,
inputOptions: { placeholder: `...`, size: ui.FLAGS.SIZE_XS },
desc: `Imported files will become bound to their glyphs.\nThis means that each time the files are updated outside the app, the glyph will be re-imported.\nNote that you remove that binding at any time.`,
};
this.infos[this.IMPORT_TEXT_AS_LAYERS] = {
import: true,
inputType: inputs.Boolean,
label: `Text as components`,
inputOptions: { placeholder: `...`, size: ui.FLAGS.SIZE_XS },
desc: `When enabled, text element within the SVG will create components named after that text' content.`,
};
this.infos[this.IMPORT_PREFIX] = {
import: true,
inputType: inputs.Text,
label: `Name prefix`,
desc: `Prefix used to check where the unicode definition starts in the filename.\nThe prefix and all characters before will be ignored.`
};
this.infos[this.IMPORT_SEPARATOR] = {
import: true,
inputType: inputs.Text,
label: `Separator`,
desc: `Separator character in filenames.\nUsed to separate unicode values\ni.e char_U+0000, char_U+0000_U+0000, char_l_i_g_a`
};
this.infos[this.IMPORT_MARK_X] = {
import: true,
inputType: inputs.Text,
label: `X hint`,
desc: `A string of text that, if found in the file name, will scale the glyph to X-Height instead of selected default.`
};
this.infos[this.IMPORT_MARK_CAP] = {
import: true,
inputType: inputs.Text,
label: `Cap hint`,
desc: `A string of text that, if found in the file name, will scale the glyph to Cap-Height instead of selected default.`
};
this.infos[this.IMPORT_MARK_COL] = {
import: true,
inputType: inputs.Color,
label: `Bounds color`,
desc: `Color used inside the imported SVG to 'mark' its special boundaries.\nSee online help for more about special boundaries.`
};
}
//#endregion
//#region Ligatures
static LIGA_TEXT = 'ligaSourceText';
static LIGA_MIN = 'ligaMin';
static LIGA_MAX = 'ligaMax';
static LIGA_MIN_OCCURENCE = 'ligaOccMin';
static LIGA_EACH_LINE = 'ligaEachLine';
static RANGE_MIXED = 0;
static RANGE_INLINE = 1;
static RANGE_PLAIN = 2;
static {
this.infos[this.LIGA_TEXT] = {
recompute: true,
inputType: inputs.Textarea,
label: `Broad`,
inputOptions: { rows: 15 },
};
this.infos[this.LIGA_MIN] = {
recompute: true,
inputType: inputs.NumberDrag,
label: `Min length`,
inputOptions: { size: ui.FLAGS.SIZE_XS, min: 2, max: 30 },
desc: `The minimum number of siblings to look for.`
};
this.infos[this.LIGA_MAX] = {
recompute: true,
inputType: inputs.NumberDrag,
label: `Max length`,
inputOptions: { size: ui.FLAGS.SIZE_XS, min: 3, max: 30 },
desc: `The maximum number of siblings to look for.`
};
this.infos[this.LIGA_MIN_OCCURENCE] = {
recompute: true,
inputType: inputs.NumberDrag,
label: `Min occurences`,
inputOptions: { size: ui.FLAGS.SIZE_XS, min: 1 },
desc: `Minimum amount of time a ligature candidate must've been found to be shown.`
};
this.infos[this.LIGA_EACH_LINE] = {
recompute: true,
inputType: inputs.Boolean,
label: `Each line is a ligature`,
inputOptions: { size: ui.FLAGS.SIZE_XS },
desc: `When enabled, each new line is considered as a valid ligature candidate.`
};
}
//#endregion
static GetInfos(p_id) {
return p_id in this.infos ? this.infos[p_id] : null;
}
}
module.exports = IDS_EXT; |
openvcx/openvcx | openvsx/include/capture/capture_appsp.h | /** <!--
*
* Copyright (C) 2014 OpenVCX <EMAIL>
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as
* published by the Free Software Foundation, either version 3 of the
* License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Affero General Public License for more details.
*
* You should have received a copy of the GNU Affero General Public License
* along with this program. If not, see <http://www.gnu.org/licenses/>.
*
* If you would like this software to be made available to you under an
* alternate license please email <EMAIL> for more information.
*
* -->
*/
#ifndef __CAPTURE_APPSP_H__
#define __CAPTURE_APPSP_H__
#include "capture.h"
#include "codecs/aac.h"
#include "formats/mp2pes.h"
#include "util/pktqueue.h"
typedef struct CAPTURE_CBDATA_SP_PCM {
int bytesPerHz;
} CAPTURE_CBDATA_SP_PCM_T;
typedef struct CAPTURE_CBDATA_SP_AMR {
int lastFrameType;
} CAPTURE_CBDATA_SP_AMR_T;
typedef struct CAPTURE_VP8_PARITITION {
unsigned int byteIdx;
} CAPTURE_VP8_PARTITION_T;
typedef struct CAPTURE_CBDATA_SP_VP8{
CAPTURE_VP8_PARTITION_T partitions[VP8_PARTITIONS_COUNT];
} CAPTURE_CBDATA_SP_VP8_T;
typedef struct CAPTURE_CBDATA_SP_H263 {
XC_CODEC_TYPE_T codecType;
H263_DESCR_T descr;
} CAPTURE_CBDATA_SP_H263_T;
#define CAPTURE_SP_FLAG_STREAM_STARTED 0x0001
#define CAPTURE_SP_FLAG_KEYFRAME 0x0002
#define CAPTURE_SP_FLAG_HAVEFRAGMENTSTART 0x0004
#define CAPTURE_SP_FLAG_INFRAGMENT 0x0008
#define CAPTURE_SP_FLAG_DAMAGEDFRAME 0x0010
#define CAPTURE_SP_FLAG_DROPFRAME 0x0020
#define CAPTURE_SP_FLAG_PREVLOST 0x0040
#define CAPTURE_SP_FLAG_H264_HAVESPS 0x0100
#define CAPTURE_SP_FLAG_H264_HAVEPPS 0x0200
//
// Callback context for each packet of a processed stream
//
typedef struct CAPTURE_CBDATA_SP {
uint16_t inuse;
FILE_STREAM_T stream1;
//
// For RTP, this is the prior received RTP sequence #
// For TCP, this is the prior received TCP sequence #
//
uint32_t lastPktSeq;
uint32_t islastPktLost;
uint32_t lastPktTs;
int frameHasError;
int spFlags;
CAPTURE_PKT_ACTION_DESCR_T *pCapAction;
const CAPTURE_STREAM_T *pStream;
CAPTURE_FBARRAY_T *pCaptureFbArray;
struct CAPTURE_CBDATA *pAllStreams;
union {
MPG4V_DESCR_T mpg4v;
RTMP_RECORD_T rtmp;
CAPTURE_CBDATA_SP_H263_T h263;
//CAP_CBDATA_SP_H264_T h264;
CAPTURE_CBDATA_SP_PCM_T pcm;
CAPTURE_CBDATA_SP_AMR_T amr;
CAPTURE_CBDATA_SP_VP8_T vp8;
} u;
} CAPTURE_CBDATA_SP_T;
#define CAPTURE_MAX_STREAMS 4
//
// Callback context for each new stream being added.
// The stream's pCbUserData pointer should become set to an available
// CAPTURE_CBDATA_SP_T available stream specific entry
//
typedef struct CAPTURE_CBDATA {
unsigned int maxStreams;
CAPTURE_CBDATA_SP_T sp[CAPTURE_MAX_STREAMS];
CAP_ASYNC_DESCR_T *pCfg; // Can optionally point back to CAP_ASYNC_DESCR... with purpose
// of referring back to STREAMER_CFG_T VID_ENCODER_FBREQUEST_T
const char *outDir;
int overWriteOutput;
} CAPTURE_CBDATA_T;
#endif // __CAPTURE_APPSP_H__
|
wahello/openshift-installer | terraform/aws/vendor/github.com/hashicorp/terraform-provider-aws/internal/service/securityhub/insight.go | <filename>terraform/aws/vendor/github.com/hashicorp/terraform-provider-aws/internal/service/securityhub/insight.go
package securityhub
import (
"context"
"fmt"
"log"
"strconv"
"github.com/aws/aws-sdk-go/aws"
"github.com/aws/aws-sdk-go/service/securityhub"
"github.com/hashicorp/aws-sdk-go-base/tfawserr"
"github.com/hashicorp/terraform-plugin-sdk/v2/diag"
"github.com/hashicorp/terraform-plugin-sdk/v2/helper/schema"
"github.com/hashicorp/terraform-plugin-sdk/v2/helper/validation"
"github.com/hashicorp/terraform-provider-aws/internal/conns"
"github.com/hashicorp/terraform-provider-aws/internal/verify"
)
func ResourceInsight() *schema.Resource {
return &schema.Resource{
CreateWithoutTimeout: resourceInsightCreate,
ReadWithoutTimeout: resourceInsightRead,
UpdateWithoutTimeout: resourceInsightUpdate,
DeleteWithoutTimeout: resourceInsightDelete,
Importer: &schema.ResourceImporter{
StateContext: schema.ImportStatePassthroughContext,
},
Schema: map[string]*schema.Schema{
"arn": {
Type: schema.TypeString,
Computed: true,
},
"filters": {
Type: schema.TypeList,
Required: true,
MaxItems: 1,
Elem: &schema.Resource{
Schema: map[string]*schema.Schema{
"aws_account_id": stringFilterSchema(),
"company_name": stringFilterSchema(),
"compliance_status": stringFilterSchema(),
"confidence": numberFilterSchema(),
"created_at": dateFilterSchema(),
"criticality": numberFilterSchema(),
"description": stringFilterSchema(),
"finding_provider_fields_confidence": numberFilterSchema(),
"finding_provider_fields_criticality": numberFilterSchema(),
"finding_provider_fields_related_findings_id": stringFilterSchema(),
"finding_provider_fields_related_findings_product_arn": stringFilterSchema(),
"finding_provider_fields_severity_label": stringFilterSchema(),
"finding_provider_fields_severity_original": stringFilterSchema(),
"finding_provider_fields_types": stringFilterSchema(),
"first_observed_at": dateFilterSchema(),
"generator_id": stringFilterSchema(),
"id": stringFilterSchema(),
"keyword": keywordFilterSchema(),
"last_observed_at": dateFilterSchema(),
"malware_name": stringFilterSchema(),
"malware_path": stringFilterSchema(),
"malware_state": stringFilterSchema(),
"malware_type": stringFilterSchema(),
"network_destination_domain": stringFilterSchema(),
"network_destination_ipv4": ipFilterSchema(),
"network_destination_ipv6": ipFilterSchema(),
"network_destination_port": numberFilterSchema(),
"network_direction": stringFilterSchema(),
"network_protocol": stringFilterSchema(),
"network_source_domain": stringFilterSchema(),
"network_source_ipv4": ipFilterSchema(),
"network_source_ipv6": ipFilterSchema(),
"network_source_mac": stringFilterSchema(),
"network_source_port": numberFilterSchema(),
"note_text": stringFilterSchema(),
"note_updated_at": dateFilterSchema(),
"note_updated_by": stringFilterSchema(),
"process_launched_at": dateFilterSchema(),
"process_name": stringFilterSchema(),
"process_parent_pid": numberFilterSchema(),
"process_path": stringFilterSchema(),
"process_pid": numberFilterSchema(),
"process_terminated_at": dateFilterSchema(),
"product_arn": stringFilterSchema(),
"product_fields": mapFilterSchema(),
"product_name": stringFilterSchema(),
"recommendation_text": stringFilterSchema(),
"record_state": stringFilterSchema(),
"related_findings_id": stringFilterSchema(),
"related_findings_product_arn": stringFilterSchema(),
"resource_aws_ec2_instance_iam_instance_profile_arn": stringFilterSchema(),
"resource_aws_ec2_instance_image_id": stringFilterSchema(),
"resource_aws_ec2_instance_ipv4_addresses": ipFilterSchema(),
"resource_aws_ec2_instance_ipv6_addresses": ipFilterSchema(),
"resource_aws_ec2_instance_key_name": stringFilterSchema(),
"resource_aws_ec2_instance_launched_at": dateFilterSchema(),
"resource_aws_ec2_instance_subnet_id": stringFilterSchema(),
"resource_aws_ec2_instance_type": stringFilterSchema(),
"resource_aws_ec2_instance_vpc_id": stringFilterSchema(),
"resource_aws_iam_access_key_created_at": dateFilterSchema(),
"resource_aws_iam_access_key_status": stringFilterSchema(),
"resource_aws_iam_access_key_user_name": stringFilterSchema(),
"resource_aws_s3_bucket_owner_id": stringFilterSchema(),
"resource_aws_s3_bucket_owner_name": stringFilterSchema(),
"resource_container_image_id": stringFilterSchema(),
"resource_container_image_name": stringFilterSchema(),
"resource_container_launched_at": dateFilterSchema(),
"resource_container_name": stringFilterSchema(),
"resource_details_other": mapFilterSchema(),
"resource_id": stringFilterSchema(),
"resource_partition": stringFilterSchema(),
"resource_region": stringFilterSchema(),
"resource_tags": mapFilterSchema(),
"resource_type": stringFilterSchema(),
"severity_label": stringFilterSchema(),
"source_url": stringFilterSchema(),
"threat_intel_indicator_category": stringFilterSchema(),
"threat_intel_indicator_last_observed_at": dateFilterSchema(),
"threat_intel_indicator_source": stringFilterSchema(),
"threat_intel_indicator_source_url": stringFilterSchema(),
"threat_intel_indicator_type": stringFilterSchema(),
"threat_intel_indicator_value": stringFilterSchema(),
"title": stringFilterSchema(),
"type": stringFilterSchema(),
"updated_at": dateFilterSchema(),
"user_defined_values": mapFilterSchema(),
"verification_state": stringFilterSchema(),
"workflow_status": workflowStatusSchema(),
},
},
},
"group_by_attribute": {
Type: schema.TypeString,
Required: true,
},
"name": {
Type: schema.TypeString,
Required: true,
},
},
}
}
func resourceInsightCreate(ctx context.Context, d *schema.ResourceData, meta interface{}) diag.Diagnostics {
conn := meta.(*conns.AWSClient).SecurityHubConn
name := d.Get("name").(string)
input := &securityhub.CreateInsightInput{
GroupByAttribute: aws.String(d.Get("group_by_attribute").(string)),
Name: aws.String(name),
}
if v, ok := d.GetOk("filters"); ok && len(v.([]interface{})) > 0 && v.([]interface{})[0] != nil {
input.Filters = expandSecurityHubSecurityFindingFilters(v.([]interface{}))
}
output, err := conn.CreateInsightWithContext(ctx, input)
if err != nil {
return diag.FromErr(fmt.Errorf("error creating Security Hub Insight (%s): %w", name, err))
}
if output == nil {
return diag.FromErr(fmt.Errorf("error creating Security Hub Insight (%s): empty output", name))
}
d.SetId(aws.StringValue(output.InsightArn))
return resourceInsightRead(ctx, d, meta)
}
func resourceInsightRead(ctx context.Context, d *schema.ResourceData, meta interface{}) diag.Diagnostics {
conn := meta.(*conns.AWSClient).SecurityHubConn
insight, err := FindInsight(ctx, conn, d.Id())
if !d.IsNewResource() && tfawserr.ErrCodeEquals(err, securityhub.ErrCodeResourceNotFoundException) {
log.Printf("[WARN] Security Hub Insight (%s) not found, removing from state", d.Id())
d.SetId("")
return nil
}
if err != nil {
return diag.FromErr(fmt.Errorf("error reading Security Hub Insight (%s): %w", d.Id(), err))
}
if insight == nil {
if d.IsNewResource() {
return diag.FromErr(fmt.Errorf("error reading Security Hub Insight (%s): empty output", d.Id()))
}
log.Printf("[WARN] Security Hub Insight (%s) not found, removing from state", d.Id())
d.SetId("")
return nil
}
d.Set("arn", insight.InsightArn)
if err := d.Set("filters", flattenSecurityHubSecurityFindingFilters(insight.Filters)); err != nil {
return diag.FromErr(fmt.Errorf("error setting filters: %w", err))
}
d.Set("group_by_attribute", insight.GroupByAttribute)
d.Set("name", insight.Name)
return nil
}
func resourceInsightUpdate(ctx context.Context, d *schema.ResourceData, meta interface{}) diag.Diagnostics {
conn := meta.(*conns.AWSClient).SecurityHubConn
input := &securityhub.UpdateInsightInput{
InsightArn: aws.String(d.Id()),
}
if d.HasChange("filters") {
input.Filters = expandSecurityHubSecurityFindingFilters(d.Get("filters").([]interface{}))
}
if d.HasChange("group_by_attribute") {
input.GroupByAttribute = aws.String(d.Get("group_by_attribute").(string))
}
if v, ok := d.GetOk("name"); ok {
input.Name = aws.String(v.(string))
}
_, err := conn.UpdateInsightWithContext(ctx, input)
if err != nil {
return diag.FromErr(fmt.Errorf("error updating Security Hub Insight (%s): %w", d.Id(), err))
}
return resourceInsightRead(ctx, d, meta)
}
func resourceInsightDelete(ctx context.Context, d *schema.ResourceData, meta interface{}) diag.Diagnostics {
conn := meta.(*conns.AWSClient).SecurityHubConn
input := &securityhub.DeleteInsightInput{
InsightArn: aws.String(d.Id()),
}
_, err := conn.DeleteInsightWithContext(ctx, input)
if err != nil {
if tfawserr.ErrCodeEquals(err, securityhub.ErrCodeResourceNotFoundException) {
return nil
}
return diag.FromErr(fmt.Errorf("error deleting Security Hub Insight (%s): %w", d.Id(), err))
}
return nil
}
func dateFilterSchema() *schema.Schema {
return &schema.Schema{
Type: schema.TypeSet,
Optional: true,
MaxItems: 20,
Elem: &schema.Resource{
Schema: map[string]*schema.Schema{
"date_range": {
Type: schema.TypeList,
Optional: true,
MaxItems: 1,
Elem: &schema.Resource{
Schema: map[string]*schema.Schema{
"unit": {
Type: schema.TypeString,
Required: true,
ValidateFunc: validation.StringInSlice(securityhub.DateRangeUnit_Values(), true),
},
"value": {
Type: schema.TypeInt,
Required: true,
},
},
},
},
"end": {
Type: schema.TypeString,
Optional: true,
},
"start": {
Type: schema.TypeString,
Optional: true,
},
},
},
}
}
func ipFilterSchema() *schema.Schema {
return &schema.Schema{
Type: schema.TypeSet,
Optional: true,
MaxItems: 20,
Elem: &schema.Resource{
Schema: map[string]*schema.Schema{
"cidr": {
Type: schema.TypeString,
Required: true,
ValidateFunc: verify.ValidCIDRNetworkAddress,
},
},
},
}
}
func keywordFilterSchema() *schema.Schema {
return &schema.Schema{
Type: schema.TypeSet,
Optional: true,
MaxItems: 20,
Elem: &schema.Resource{
Schema: map[string]*schema.Schema{
"value": {
Type: schema.TypeString,
Required: true,
},
},
},
}
}
func mapFilterSchema() *schema.Schema {
return &schema.Schema{
Type: schema.TypeSet,
Optional: true,
MaxItems: 20,
Elem: &schema.Resource{
Schema: map[string]*schema.Schema{
"comparison": {
Type: schema.TypeString,
Required: true,
ValidateFunc: validation.StringInSlice(securityhub.MapFilterComparison_Values(), false),
},
"key": {
Type: schema.TypeString,
Required: true,
},
"value": {
Type: schema.TypeString,
Required: true,
},
},
},
}
}
func numberFilterSchema() *schema.Schema {
return &schema.Schema{
Type: schema.TypeSet,
Optional: true,
MaxItems: 20,
Elem: &schema.Resource{
Schema: map[string]*schema.Schema{
"eq": {
Type: schema.TypeString,
Optional: true,
ValidateFunc: verify.ValidTypeStringNullableFloat,
},
"gte": {
Type: schema.TypeString,
Optional: true,
ValidateFunc: verify.ValidTypeStringNullableFloat,
},
"lte": {
Type: schema.TypeString,
Optional: true,
ValidateFunc: verify.ValidTypeStringNullableFloat,
},
},
},
}
}
func stringFilterSchema() *schema.Schema {
return &schema.Schema{
Type: schema.TypeSet,
Optional: true,
MaxItems: 20,
Elem: &schema.Resource{
Schema: map[string]*schema.Schema{
"comparison": {
Type: schema.TypeString,
Required: true,
ValidateFunc: validation.StringInSlice(securityhub.StringFilterComparison_Values(), false),
},
"value": {
Type: schema.TypeString,
Required: true,
},
},
},
}
}
func workflowStatusSchema() *schema.Schema {
s := stringFilterSchema()
s.Elem.(*schema.Resource).Schema["value"].ValidateFunc = validation.StringInSlice(securityhub.WorkflowStatus_Values(), false)
return s
}
func expandSecurityHubDateFilterDateRange(l []interface{}) *securityhub.DateRange {
if len(l) == 0 || l[0] == nil {
return nil
}
tfMap, ok := l[0].(map[string]interface{})
if !ok {
return nil
}
dr := &securityhub.DateRange{}
if v, ok := tfMap["unit"].(string); ok && v != "" {
dr.Unit = aws.String(v)
}
if v, ok := tfMap["value"].(int); ok {
dr.Value = aws.Int64(int64(v))
}
return dr
}
func expandSecurityHubDateFilters(l []interface{}) []*securityhub.DateFilter {
if len(l) == 0 || l[0] == nil {
return nil
}
var dateFilters []*securityhub.DateFilter
for _, item := range l {
tfMap, ok := item.(map[string]interface{})
if !ok {
continue
}
df := &securityhub.DateFilter{}
if v, ok := tfMap["date_range"].([]interface{}); ok && len(v) > 0 && v[0] != nil {
df.DateRange = expandSecurityHubDateFilterDateRange(v)
}
if v, ok := tfMap["end"].(string); ok && v != "" {
df.End = aws.String(v)
}
if v, ok := tfMap["start"].(string); ok && v != "" {
df.Start = aws.String(v)
}
dateFilters = append(dateFilters, df)
}
return dateFilters
}
func expandSecurityHubSecurityFindingFilters(l []interface{}) *securityhub.AwsSecurityFindingFilters {
if len(l) == 0 || l[0] == nil {
return nil
}
tfMap, ok := l[0].(map[string]interface{})
if !ok {
return nil
}
filters := &securityhub.AwsSecurityFindingFilters{}
if v, ok := tfMap["aws_account_id"].(*schema.Set); ok && v.Len() > 0 {
filters.AwsAccountId = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["company_name"].(*schema.Set); ok && v.Len() > 0 {
filters.CompanyName = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["compliance_status"].(*schema.Set); ok && v.Len() > 0 {
filters.ComplianceStatus = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["confidence"].(*schema.Set); ok && v.Len() > 0 {
filters.Confidence = expandSecurityHubNumberFilters(v.List())
}
if v, ok := tfMap["created_at"].(*schema.Set); ok && v.Len() > 0 {
filters.CreatedAt = expandSecurityHubDateFilters(v.List())
}
if v, ok := tfMap["criticality"].(*schema.Set); ok && v.Len() > 0 {
filters.Criticality = expandSecurityHubNumberFilters(v.List())
}
if v, ok := tfMap["description"].(*schema.Set); ok && v.Len() > 0 {
filters.Description = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["finding_provider_fields_confidence"].(*schema.Set); ok && v.Len() > 0 {
filters.FindingProviderFieldsConfidence = expandSecurityHubNumberFilters(v.List())
}
if v, ok := tfMap["finding_provider_fields_criticality"].(*schema.Set); ok && v.Len() > 0 {
filters.FindingProviderFieldsCriticality = expandSecurityHubNumberFilters(v.List())
}
if v, ok := tfMap["finding_provider_fields_related_findings_id"].(*schema.Set); ok && v.Len() > 0 {
filters.FindingProviderFieldsRelatedFindingsId = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["finding_provider_fields_related_findings_product_arn"].(*schema.Set); ok && v.Len() > 0 {
filters.FindingProviderFieldsRelatedFindingsProductArn = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["finding_provider_fields_severity_label"].(*schema.Set); ok && v.Len() > 0 {
filters.FindingProviderFieldsSeverityLabel = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["finding_provider_fields_severity_original"].(*schema.Set); ok && v.Len() > 0 {
filters.FindingProviderFieldsSeverityOriginal = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["finding_provider_fields_types"].(*schema.Set); ok && v.Len() > 0 {
filters.FindingProviderFieldsTypes = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["first_observed_at"].(*schema.Set); ok && v.Len() > 0 {
filters.FirstObservedAt = expandSecurityHubDateFilters(v.List())
}
if v, ok := tfMap["generator_id"].(*schema.Set); ok && v.Len() > 0 {
filters.GeneratorId = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["id"].(*schema.Set); ok && v.Len() > 0 {
filters.Id = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["keyword"].(*schema.Set); ok && v.Len() > 0 {
filters.Keyword = expandSecurityHubKeywordFilters(v.List())
}
if v, ok := tfMap["last_observed_at"].(*schema.Set); ok && v.Len() > 0 {
filters.LastObservedAt = expandSecurityHubDateFilters(v.List())
}
if v, ok := tfMap["malware_name"].(*schema.Set); ok && v.Len() > 0 {
filters.MalwareName = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["malware_path"].(*schema.Set); ok && v.Len() > 0 {
filters.MalwarePath = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["malware_state"].(*schema.Set); ok && v.Len() > 0 {
filters.MalwareState = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["malware_type"].(*schema.Set); ok && v.Len() > 0 {
filters.MalwareType = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["network_destination_domain"].(*schema.Set); ok && v.Len() > 0 {
filters.NetworkDestinationDomain = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["network_destination_ipv4"].(*schema.Set); ok && v.Len() > 0 {
filters.NetworkDestinationIpV4 = expandSecurityHubIpFilters(v.List())
}
if v, ok := tfMap["network_destination_ipv6"].(*schema.Set); ok && v.Len() > 0 {
filters.NetworkDestinationIpV6 = expandSecurityHubIpFilters(v.List())
}
if v, ok := tfMap["network_destination_port"].(*schema.Set); ok && v.Len() > 0 {
filters.NetworkDestinationPort = expandSecurityHubNumberFilters(v.List())
}
if v, ok := tfMap["network_direction"].(*schema.Set); ok && v.Len() > 0 {
filters.NetworkDirection = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["network_protocol"].(*schema.Set); ok && v.Len() > 0 {
filters.NetworkProtocol = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["network_source_domain"].(*schema.Set); ok && v.Len() > 0 {
filters.NetworkSourceDomain = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["network_source_ipv4"].(*schema.Set); ok && v.Len() > 0 {
filters.NetworkSourceIpV4 = expandSecurityHubIpFilters(v.List())
}
if v, ok := tfMap["network_source_ipv6"].(*schema.Set); ok && v.Len() > 0 {
filters.NetworkSourceIpV6 = expandSecurityHubIpFilters(v.List())
}
if v, ok := tfMap["network_source_mac"].(*schema.Set); ok && v.Len() > 0 {
filters.NetworkSourceMac = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["network_source_port"].(*schema.Set); ok && v.Len() > 0 {
filters.NetworkSourcePort = expandSecurityHubNumberFilters(v.List())
}
if v, ok := tfMap["note_text"].(*schema.Set); ok && v.Len() > 0 {
filters.NoteText = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["note_updated_at"].(*schema.Set); ok && v.Len() > 0 {
filters.NoteUpdatedAt = expandSecurityHubDateFilters(v.List())
}
if v, ok := tfMap["note_updated_by"].(*schema.Set); ok && v.Len() > 0 {
filters.NoteUpdatedBy = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["process_launched_at"].(*schema.Set); ok && v.Len() > 0 {
filters.ProcessLaunchedAt = expandSecurityHubDateFilters(v.List())
}
if v, ok := tfMap["process_name"].(*schema.Set); ok && v.Len() > 0 {
filters.ProcessName = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["process_parent_pid"].(*schema.Set); ok && v.Len() > 0 {
filters.ProcessParentPid = expandSecurityHubNumberFilters(v.List())
}
if v, ok := tfMap["process_path"].(*schema.Set); ok && v.Len() > 0 {
filters.ProcessPath = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["process_pid"].(*schema.Set); ok && v.Len() > 0 {
filters.ProcessPid = expandSecurityHubNumberFilters(v.List())
}
if v, ok := tfMap["process_terminated_at"].(*schema.Set); ok && v.Len() > 0 {
filters.ProcessTerminatedAt = expandSecurityHubDateFilters(v.List())
}
if v, ok := tfMap["product_arn"].(*schema.Set); ok && v.Len() > 0 {
filters.ProductArn = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["product_fields"].(*schema.Set); ok && v.Len() > 0 {
filters.ProductFields = expandSecurityHubMapFilters(v.List())
}
if v, ok := tfMap["product_name"].(*schema.Set); ok && v.Len() > 0 {
filters.ProductName = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["recommendation_text"].(*schema.Set); ok && v.Len() > 0 {
filters.RecommendationText = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["record_state"].(*schema.Set); ok && v.Len() > 0 {
filters.RecordState = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["related_findings_id"].(*schema.Set); ok && v.Len() > 0 {
filters.RelatedFindingsId = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["related_findings_product_arn"].(*schema.Set); ok && v.Len() > 0 {
filters.RelatedFindingsProductArn = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["resource_aws_ec2_instance_iam_instance_profile_arn"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceAwsEc2InstanceIamInstanceProfileArn = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["resource_aws_ec2_instance_image_id"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceAwsEc2InstanceImageId = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["resource_aws_ec2_instance_ipv4_addresses"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceAwsEc2InstanceIpV4Addresses = expandSecurityHubIpFilters(v.List())
}
if v, ok := tfMap["resource_aws_ec2_instance_ipv6_addresses"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceAwsEc2InstanceIpV6Addresses = expandSecurityHubIpFilters(v.List())
}
if v, ok := tfMap["resource_aws_ec2_instance_key_name"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceAwsEc2InstanceKeyName = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["resource_aws_ec2_instance_launched_at"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceAwsEc2InstanceLaunchedAt = expandSecurityHubDateFilters(v.List())
}
if v, ok := tfMap["resource_aws_ec2_instance_subnet_id"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceAwsEc2InstanceSubnetId = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["resource_aws_ec2_instance_type"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceAwsEc2InstanceType = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["resource_aws_ec2_instance_vpc_id"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceAwsEc2InstanceVpcId = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["resource_aws_iam_access_key_created_at"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceAwsIamAccessKeyCreatedAt = expandSecurityHubDateFilters(v.List())
}
if v, ok := tfMap["resource_aws_iam_access_key_status"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceAwsIamAccessKeyStatus = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["resource_aws_iam_access_key_user_name"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceAwsIamAccessKeyUserName = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["resource_aws_s3_bucket_owner_id"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceAwsS3BucketOwnerId = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["resource_aws_s3_bucket_owner_name"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceAwsS3BucketOwnerName = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["resource_container_image_id"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceContainerImageId = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["resource_container_image_name"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceContainerImageName = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["resource_container_launched_at"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceContainerLaunchedAt = expandSecurityHubDateFilters(v.List())
}
if v, ok := tfMap["resource_container_name"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceContainerName = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["resource_details_other"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceDetailsOther = expandSecurityHubMapFilters(v.List())
}
if v, ok := tfMap["resource_id"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceId = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["resource_partition"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourcePartition = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["resource_region"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceRegion = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["resource_tags"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceTags = expandSecurityHubMapFilters(v.List())
}
if v, ok := tfMap["resource_type"].(*schema.Set); ok && v.Len() > 0 {
filters.ResourceType = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["severity_label"].(*schema.Set); ok && v.Len() > 0 {
filters.SeverityLabel = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["source_url"].(*schema.Set); ok && v.Len() > 0 {
filters.SourceUrl = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["threat_intel_indicator_category"].(*schema.Set); ok && v.Len() > 0 {
filters.ThreatIntelIndicatorCategory = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["threat_intel_indicator_last_observed_at"].(*schema.Set); ok && v.Len() > 0 {
filters.ThreatIntelIndicatorLastObservedAt = expandSecurityHubDateFilters(v.List())
}
if v, ok := tfMap["threat_intel_indicator_source"].(*schema.Set); ok && v.Len() > 0 {
filters.ThreatIntelIndicatorSource = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["threat_intel_indicator_source_url"].(*schema.Set); ok && v.Len() > 0 {
filters.ThreatIntelIndicatorSourceUrl = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["threat_intel_indicator_type"].(*schema.Set); ok && v.Len() > 0 {
filters.ThreatIntelIndicatorType = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["threat_intel_indicator_value"].(*schema.Set); ok && v.Len() > 0 {
filters.ThreatIntelIndicatorValue = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["title"].(*schema.Set); ok && v.Len() > 0 {
filters.Title = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["type"].(*schema.Set); ok && v.Len() > 0 {
filters.Type = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["updated_at"].(*schema.Set); ok && v.Len() > 0 {
filters.UpdatedAt = expandSecurityHubDateFilters(v.List())
}
if v, ok := tfMap["user_defined_values"].(*schema.Set); ok && v.Len() > 0 {
filters.UserDefinedFields = expandSecurityHubMapFilters(v.List())
}
if v, ok := tfMap["verification_state"].(*schema.Set); ok && v.Len() > 0 {
filters.VerificationState = expandSecurityHubStringFilters(v.List())
}
if v, ok := tfMap["workflow_status"].(*schema.Set); ok && v.Len() > 0 {
filters.WorkflowStatus = expandSecurityHubStringFilters(v.List())
}
return filters
}
func expandSecurityHubIpFilters(l []interface{}) []*securityhub.IpFilter {
if len(l) == 0 || l[0] == nil {
return nil
}
var ipFilters []*securityhub.IpFilter
for _, item := range l {
tfMap, ok := item.(map[string]interface{})
if !ok {
continue
}
ipFilter := &securityhub.IpFilter{}
if v, ok := tfMap["cidr"].(string); ok && v != "" {
ipFilter.Cidr = aws.String(v)
}
ipFilters = append(ipFilters, ipFilter)
}
return ipFilters
}
func expandSecurityHubKeywordFilters(l []interface{}) []*securityhub.KeywordFilter {
if len(l) == 0 || l[0] == nil {
return nil
}
var keywordFilters []*securityhub.KeywordFilter
for _, item := range l {
tfMap, ok := item.(map[string]interface{})
if !ok {
continue
}
kf := &securityhub.KeywordFilter{}
if v, ok := tfMap["value"].(string); ok && v != "" {
kf.Value = aws.String(v)
}
keywordFilters = append(keywordFilters, kf)
}
return keywordFilters
}
func expandSecurityHubMapFilters(l []interface{}) []*securityhub.MapFilter {
if len(l) == 0 || l[0] == nil {
return nil
}
var mapFilters []*securityhub.MapFilter
for _, item := range l {
tfMap, ok := item.(map[string]interface{})
if !ok {
continue
}
mf := &securityhub.MapFilter{}
if v, ok := tfMap["comparison"].(string); ok && v != "" {
mf.Comparison = aws.String(v)
}
if v, ok := tfMap["key"].(string); ok && v != "" {
mf.Key = aws.String(v)
}
if v, ok := tfMap["value"].(string); ok && v != "" {
mf.Value = aws.String(v)
}
mapFilters = append(mapFilters, mf)
}
return mapFilters
}
func expandSecurityHubNumberFilters(l []interface{}) []*securityhub.NumberFilter {
if len(l) == 0 || l[0] == nil {
return nil
}
var numFilters []*securityhub.NumberFilter
for _, item := range l {
tfMap, ok := item.(map[string]interface{})
if !ok {
continue
}
nf := &securityhub.NumberFilter{}
if v, ok := tfMap["eq"].(string); ok && v != "" {
val, err := strconv.ParseFloat(v, 64)
if err == nil {
nf.Eq = aws.Float64(val)
}
}
if v, ok := tfMap["gte"].(string); ok && v != "" {
val, err := strconv.ParseFloat(v, 64)
if err == nil {
nf.Gte = aws.Float64(val)
}
}
if v, ok := tfMap["lte"].(string); ok && v != "" {
val, err := strconv.ParseFloat(v, 64)
if err == nil {
nf.Lte = aws.Float64(val)
}
}
numFilters = append(numFilters, nf)
}
return numFilters
}
func expandSecurityHubStringFilters(l []interface{}) []*securityhub.StringFilter {
if len(l) == 0 || l[0] == nil {
return nil
}
var stringFilters []*securityhub.StringFilter
for _, item := range l {
tfMap, ok := item.(map[string]interface{})
if !ok {
continue
}
sf := &securityhub.StringFilter{}
if v, ok := tfMap["comparison"].(string); ok && v != "" {
sf.Comparison = aws.String(v)
}
if v, ok := tfMap["value"].(string); ok && v != "" {
sf.Value = aws.String(v)
}
stringFilters = append(stringFilters, sf)
}
return stringFilters
}
func flattenSecurityHubDateFilterDateRange(dateRange *securityhub.DateRange) []interface{} {
if dateRange == nil {
return nil
}
m := map[string]interface{}{
"unit": aws.StringValue(dateRange.Unit),
"value": aws.Int64Value(dateRange.Value),
}
return []interface{}{m}
}
func flattenSecurityHubDateFilters(filters []*securityhub.DateFilter) []interface{} {
if len(filters) == 0 {
return nil
}
var dateFilters []interface{}
for _, filter := range filters {
if filter == nil {
continue
}
m := map[string]interface{}{
"date_range": flattenSecurityHubDateFilterDateRange(filter.DateRange),
"end": aws.StringValue(filter.End),
"start": aws.StringValue(filter.Start),
}
dateFilters = append(dateFilters, m)
}
return dateFilters
}
func flattenSecurityHubIpFilters(filters []*securityhub.IpFilter) []interface{} {
if len(filters) == 0 {
return nil
}
var ipFilters []interface{}
for _, filter := range filters {
if filter == nil {
continue
}
m := map[string]interface{}{
"cidr": aws.StringValue(filter.Cidr),
}
ipFilters = append(ipFilters, m)
}
return ipFilters
}
func flattenSecurityHubKeywordFilters(filters []*securityhub.KeywordFilter) []interface{} {
if len(filters) == 0 {
return nil
}
var keywordFilters []interface{}
for _, filter := range filters {
if filter == nil {
continue
}
m := map[string]interface{}{
"value": aws.StringValue(filter.Value),
}
keywordFilters = append(keywordFilters, m)
}
return keywordFilters
}
func flattenSecurityHubMapFilters(filters []*securityhub.MapFilter) []interface{} {
if len(filters) == 0 {
return nil
}
var mapFilters []interface{}
for _, filter := range filters {
if filter == nil {
continue
}
m := map[string]interface{}{
"comparison": aws.StringValue(filter.Comparison),
"key": aws.StringValue(filter.Key),
"value": aws.StringValue(filter.Value),
}
mapFilters = append(mapFilters, m)
}
return mapFilters
}
func flattenSecurityHubNumberFilters(filters []*securityhub.NumberFilter) []interface{} {
if len(filters) == 0 {
return nil
}
var numFilters []interface{}
for _, filter := range filters {
if filter == nil {
continue
}
m := map[string]interface{}{}
if filter.Eq != nil {
m["eq"] = strconv.FormatFloat(aws.Float64Value(filter.Eq), 'f', -1, 64)
}
if filter.Gte != nil {
m["gte"] = strconv.FormatFloat(aws.Float64Value(filter.Gte), 'f', -1, 64)
}
if filter.Lte != nil {
m["lte"] = strconv.FormatFloat(aws.Float64Value(filter.Lte), 'f', -1, 64)
}
numFilters = append(numFilters, m)
}
return numFilters
}
func flattenSecurityHubSecurityFindingFilters(filters *securityhub.AwsSecurityFindingFilters) []interface{} {
if filters == nil {
return nil
}
m := map[string]interface{}{
"aws_account_id": flattenSecurityHubStringFilters(filters.AwsAccountId),
"company_name": flattenSecurityHubStringFilters(filters.CompanyName),
"compliance_status": flattenSecurityHubStringFilters(filters.ComplianceStatus),
"confidence": flattenSecurityHubNumberFilters(filters.Confidence),
"created_at": flattenSecurityHubDateFilters(filters.CreatedAt),
"criticality": flattenSecurityHubNumberFilters(filters.Criticality),
"description": flattenSecurityHubStringFilters(filters.Description),
"finding_provider_fields_confidence": flattenSecurityHubNumberFilters(filters.FindingProviderFieldsConfidence),
"finding_provider_fields_criticality": flattenSecurityHubNumberFilters(filters.FindingProviderFieldsCriticality),
"finding_provider_fields_related_findings_id": flattenSecurityHubStringFilters(filters.FindingProviderFieldsRelatedFindingsId),
"finding_provider_fields_related_findings_product_arn": flattenSecurityHubStringFilters(filters.FindingProviderFieldsRelatedFindingsProductArn),
"finding_provider_fields_severity_label": flattenSecurityHubStringFilters(filters.FindingProviderFieldsSeverityLabel),
"finding_provider_fields_severity_original": flattenSecurityHubStringFilters(filters.FindingProviderFieldsSeverityOriginal),
"finding_provider_fields_types": flattenSecurityHubStringFilters(filters.FindingProviderFieldsTypes),
"first_observed_at": flattenSecurityHubDateFilters(filters.FirstObservedAt),
"generator_id": flattenSecurityHubStringFilters(filters.GeneratorId),
"id": flattenSecurityHubStringFilters(filters.Id),
"keyword": flattenSecurityHubKeywordFilters(filters.Keyword),
"last_observed_at": flattenSecurityHubDateFilters(filters.LastObservedAt),
"malware_name": flattenSecurityHubStringFilters(filters.MalwareName),
"malware_path": flattenSecurityHubStringFilters(filters.MalwarePath),
"malware_state": flattenSecurityHubStringFilters(filters.MalwareState),
"malware_type": flattenSecurityHubStringFilters(filters.MalwareType),
"network_destination_domain": flattenSecurityHubStringFilters(filters.NetworkDestinationDomain),
"network_destination_ipv4": flattenSecurityHubIpFilters(filters.NetworkDestinationIpV4),
"network_destination_ipv6": flattenSecurityHubIpFilters(filters.NetworkDestinationIpV6),
"network_destination_port": flattenSecurityHubNumberFilters(filters.NetworkDestinationPort),
"network_direction": flattenSecurityHubStringFilters(filters.NetworkDirection),
"network_protocol": flattenSecurityHubStringFilters(filters.NetworkProtocol),
"network_source_domain": flattenSecurityHubStringFilters(filters.NetworkSourceDomain),
"network_source_ipv4": flattenSecurityHubIpFilters(filters.NetworkSourceIpV4),
"network_source_ipv6": flattenSecurityHubIpFilters(filters.NetworkSourceIpV6),
"network_source_mac": flattenSecurityHubStringFilters(filters.NetworkSourceMac),
"network_source_port": flattenSecurityHubNumberFilters(filters.NetworkSourcePort),
"note_text": flattenSecurityHubStringFilters(filters.NoteText),
"note_updated_at": flattenSecurityHubDateFilters(filters.NoteUpdatedAt),
"note_updated_by": flattenSecurityHubStringFilters(filters.NoteUpdatedBy),
"process_launched_at": flattenSecurityHubDateFilters(filters.ProcessLaunchedAt),
"process_name": flattenSecurityHubStringFilters(filters.ProcessName),
"process_parent_pid": flattenSecurityHubNumberFilters(filters.ProcessParentPid),
"process_path": flattenSecurityHubStringFilters(filters.ProcessPath),
"process_pid": flattenSecurityHubNumberFilters(filters.ProcessPid),
"process_terminated_at": flattenSecurityHubDateFilters(filters.ProcessTerminatedAt),
"product_arn": flattenSecurityHubStringFilters(filters.ProductArn),
"product_fields": flattenSecurityHubMapFilters(filters.ProductFields),
"product_name": flattenSecurityHubStringFilters(filters.ProductName),
"recommendation_text": flattenSecurityHubStringFilters(filters.RecommendationText),
"record_state": flattenSecurityHubStringFilters(filters.RecordState),
"related_findings_id": flattenSecurityHubStringFilters(filters.RelatedFindingsId),
"related_findings_product_arn": flattenSecurityHubStringFilters(filters.RelatedFindingsProductArn),
"resource_aws_ec2_instance_iam_instance_profile_arn": flattenSecurityHubStringFilters(filters.ResourceAwsEc2InstanceIamInstanceProfileArn),
"resource_aws_ec2_instance_image_id": flattenSecurityHubStringFilters(filters.ResourceAwsEc2InstanceImageId),
"resource_aws_ec2_instance_ipv4_addresses": flattenSecurityHubIpFilters(filters.ResourceAwsEc2InstanceIpV4Addresses),
"resource_aws_ec2_instance_ipv6_addresses": flattenSecurityHubIpFilters(filters.ResourceAwsEc2InstanceIpV6Addresses),
"resource_aws_ec2_instance_key_name": flattenSecurityHubStringFilters(filters.ResourceAwsEc2InstanceKeyName),
"resource_aws_ec2_instance_launched_at": flattenSecurityHubDateFilters(filters.ResourceAwsEc2InstanceLaunchedAt),
"resource_aws_ec2_instance_subnet_id": flattenSecurityHubStringFilters(filters.ResourceAwsEc2InstanceSubnetId),
"resource_aws_ec2_instance_type": flattenSecurityHubStringFilters(filters.ResourceAwsEc2InstanceType),
"resource_aws_ec2_instance_vpc_id": flattenSecurityHubStringFilters(filters.ResourceAwsEc2InstanceVpcId),
"resource_aws_iam_access_key_created_at": flattenSecurityHubDateFilters(filters.ResourceAwsIamAccessKeyCreatedAt),
"resource_aws_iam_access_key_status": flattenSecurityHubStringFilters(filters.ResourceAwsIamAccessKeyStatus),
"resource_aws_iam_access_key_user_name": flattenSecurityHubStringFilters(filters.ResourceAwsIamAccessKeyUserName),
"resource_aws_s3_bucket_owner_id": flattenSecurityHubStringFilters(filters.ResourceAwsS3BucketOwnerId),
"resource_aws_s3_bucket_owner_name": flattenSecurityHubStringFilters(filters.ResourceAwsS3BucketOwnerName),
"resource_container_image_id": flattenSecurityHubStringFilters(filters.ResourceContainerImageId),
"resource_container_image_name": flattenSecurityHubStringFilters(filters.ResourceContainerImageName),
"resource_container_launched_at": flattenSecurityHubDateFilters(filters.ResourceContainerLaunchedAt),
"resource_container_name": flattenSecurityHubStringFilters(filters.ResourceContainerName),
"resource_details_other": flattenSecurityHubMapFilters(filters.ResourceDetailsOther),
"resource_id": flattenSecurityHubStringFilters(filters.ResourceId),
"resource_partition": flattenSecurityHubStringFilters(filters.ResourcePartition),
"resource_region": flattenSecurityHubStringFilters(filters.ResourceRegion),
"resource_tags": flattenSecurityHubMapFilters(filters.ResourceTags),
"resource_type": flattenSecurityHubStringFilters(filters.ResourceType),
"severity_label": flattenSecurityHubStringFilters(filters.SeverityLabel),
"source_url": flattenSecurityHubStringFilters(filters.ThreatIntelIndicatorSourceUrl),
"threat_intel_indicator_category": flattenSecurityHubStringFilters(filters.ThreatIntelIndicatorCategory),
"threat_intel_indicator_last_observed_at": flattenSecurityHubDateFilters(filters.ThreatIntelIndicatorLastObservedAt),
"threat_intel_indicator_source": flattenSecurityHubStringFilters(filters.ThreatIntelIndicatorSource),
"threat_intel_indicator_source_url": flattenSecurityHubStringFilters(filters.ThreatIntelIndicatorSourceUrl),
"threat_intel_indicator_type": flattenSecurityHubStringFilters(filters.ThreatIntelIndicatorType),
"threat_intel_indicator_value": flattenSecurityHubStringFilters(filters.ThreatIntelIndicatorValue),
"title": flattenSecurityHubStringFilters(filters.Title),
"type": flattenSecurityHubStringFilters(filters.Type),
"updated_at": flattenSecurityHubDateFilters(filters.UpdatedAt),
"user_defined_values": flattenSecurityHubMapFilters(filters.UserDefinedFields),
"verification_state": flattenSecurityHubStringFilters(filters.VerificationState),
"workflow_status": flattenSecurityHubStringFilters(filters.WorkflowStatus),
}
return []interface{}{m}
}
func flattenSecurityHubStringFilters(filters []*securityhub.StringFilter) []interface{} {
if len(filters) == 0 {
return nil
}
var stringFilters []interface{}
for _, filter := range filters {
if filter == nil {
continue
}
m := map[string]interface{}{
"comparison": aws.StringValue(filter.Comparison),
"value": aws.StringValue(filter.Value),
}
stringFilters = append(stringFilters, m)
}
return stringFilters
}
|
lucaswerner90/remora | microservices/client/src/redux/actions/types.js | export const UPDATE_USER_INFO = 'UPDATE_USER_INFO';
export const UPDATE_USER_PREFERENCES = 'UPDATE_USER_PREFERENCES';
export const UPDATE_USER_FAVORITE_COINS = 'UPDATE_USER_FAVORITE_COINS';
export const UPDATE_USER_NOTIFICATIONS = 'UPDATE_USER_NOTIFICATIONS';
export const UPDATE_USER_SELECTED_COIN = 'UPDATE_USER_SELECTED_COIN';
export const UPDATE_ALL_COINS = 'UPDATE_ALL_COINS';
export const UPDATE_SELECTED_COIN = 'UPDATE_SELECTED_COIN';
// DASHBOARD UI ACTIONS
export const HOVER_NOTIFICATION = 'HOVER_NOTIFICATION';
export const UPDATE_CHART_TIMELINE = 'UPDATE_SELECTED_TIMELINE';
export const UPDATE_LOADING_INFO = 'UPDATE_LOADING_INFO';
// SOCKET SELECTED COIN EVENTS
export const RESET_INFO = 'RESET_INFO';
export const UPDATE_SELECTED_PRICES_LIST = 'UPDATE_SELECTED_PRICES_LIST';
export const UPDATE_SELECTED_VOLUME_DIFFERENCE = 'UPDATE_SELECTED_VOLUME_DIFFERENCE';
export const UPDATE_SELECTED_PRICE = 'UPDATE_SELECTED_PRICE';
export const UPDATE_SELECTED_PRICE_CHANGE = 'UPDATE_SELECTED_PRICE_CHANGE';
export const UPDATE_SELECTED_ORDER = 'UPDATE_SELECTED_ORDER';
export const UPDATE_SELECTED_PREVIOUS_ORDER = 'UPDATE_SELECTED_PREVIOUS_ORDER';
export const UPDATE_SELECTED_COUNT_ORDER = 'UPDATE_SELECTED_COUNT_ORDER';
export const UPDATE_SELECTED_COIN_MACD_DIFFERENCE = 'UPDATE_SELECTED_COIN_MACD_DIFFERENCE';
// SOCKET SPECIFIC COIN EVENTS
export const UPDATE_SPECIFIC_COIN_PRICES_LIST = 'UPDATE_SPECIFIC_COIN_PRICES_LIST';
export const UPDATE_SPECIFIC_COIN_VOLUME_DIFFERENCE = 'UPDATE_SPECIFIC_COIN_VOLUME_DIFFERENCE';
export const UPDATE_SPECIFIC_COIN_PRICE = 'UPDATE_SPECIFIC_COIN_PRICE';
export const UPDATE_SPECIFIC_COIN_PRICE_CHANGE = 'UPDATE_SPECIFIC_COIN_PRICE_CHANGE';
export const UPDATE_SPECIFIC_COIN_ORDER = 'UPDATE_SPECIFIC_COIN_ORDER';
export const UPDATE_SPECIFIC_COIN_PREVIOUS_ORDER = 'UPDATE_SPECIFIC_COIN_PREVIOUS_ORDER';
export const UPDATE_SPECIFIC_COIN_COUNT_ORDER = 'UPDATE_SPECIFIC_COIN_COUNT_ORDER'; |
JustinDFuller/monorepo | packages/Javascript-Snippets/arrays.js | <filename>packages/Javascript-Snippets/arrays.js<gh_stars>0
var array = ['item1','item2'];
array.forEach( function(value, position, originalArray){
// loop over each element in the array
console.log(value + position + originalArray);
});
// logged -> item1, 0, ['item1','item2']
// logged -> item2, 1, ['item1','item2']
array.every( function( item ){ // is every item in array true for this function?
return ~item.indexOf('item');
});
// returns -> true since every item in array has 'item'
array.some( function( item ){ // are at least some items true?
return ~item.indexOf('1');
});
// returns -> true because at least one item has '1'
array.filter( function( item ){ // returns a new array of the items that return true
return ~item.indexOf('1');
});
// returns -> ['item1']
array.find( function( item ){ // finds the first item that returns true
return ~item.indexOf('2');
});
// returns -> 'item2'
array.map( function( item ){
return item + 1
});
|
Hyperpilotio/node-agent | pkg/collector/docker/config/config.go | <gh_stars>1-10
package config
// DockerVersion is a version of running docker server
var DockerVersion = []int{0, 0}
|
toeb/sine | src/application.qt.objectview/PropertyGroupTreeItem.cpp | <filename>src/application.qt.objectview/PropertyGroupTreeItem.cpp
#include "PropertyGroupTreeItem.h"
using namespace nspace;
using namespace std;
std::string PropertyGroupTreeItem::getDisplayName(){
return getGroupName();
}
std::string PropertyGroupTreeItem::getDisplayValue(){
return "";
}
std::string PropertyGroupTreeItem::getDescription(){
return "Group of Properties";
}
std::string PropertyGroupTreeItem::getDisplayHint(){
return "";
}
void PropertyGroupTreeItem::onObjectChanged(){
}
void PropertyGroupTreeItem:: doExpand(){
} |
Hacky-DH/pytorch | torch/csrc/distributed/rpc/torchscript_functions.h | <gh_stars>1000+
#pragma once
#include <ATen/core/ivalue.h>
#include <torch/csrc/autograd/profiler.h>
#include <torch/csrc/distributed/autograd/utils.h>
#include <torch/csrc/distributed/rpc/rref_context.h>
#include <torch/csrc/distributed/rpc/script_remote_call.h>
namespace torch {
namespace distributed {
namespace rpc {
// This function sends an rpc call to run torchscript function, currently the
// torchscript function could only be a user defined python function with
// "@torch.jit.script" annotation. The torchscript function could not be
// a class constructor, class method, instance method or a script module.
// dst: destination worker name
// qualifiedName: torchscript function qualified name string like
// "moduleName::torchscriptFunctionName", e.g,
// "dist_autograd_test::my_py_add"
// stack: a bag of IValue args passed to torchscriptFunctionName
// It returns c10::intrusive_ptr<ivalue::Future>
c10::intrusive_ptr<c10::ivalue::Future> TORCH_API rpcTorchscript(
const std::string& dstWorkerName,
const c10::QualifiedName& qualifiedName,
const c10::FunctionSchema& functionSchema,
std::vector<c10::IValue>& stack,
const float rpcTimeoutSeconds = torch::distributed::rpc::kUnsetRpcTimeout,
const bool isAsyncExecution = false);
c10::intrusive_ptr<RRef> TORCH_API remoteTorchscript(
const std::string& dstWorkerName,
const c10::QualifiedName& qualifiedName,
const c10::FunctionSchema& functionSchema,
std::vector<c10::IValue>& stack,
const float rpcTimeoutSeconds = torch::distributed::rpc::kUnsetRpcTimeout,
const bool isAsyncExecution = false);
} // namespace rpc
} // namespace distributed
} // namespace torch
|
creativeprogramming/chromium | chrome/browser/history/page_usage_data.cc | // Copyright (c) 2006-2008 The Chromium Authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include <algorithm>
#include "chrome/browser/history/page_usage_data.h"
//static
bool PageUsageData::Predicate(const PageUsageData* lhs,
const PageUsageData* rhs) {
return lhs->GetScore() > rhs->GetScore();
}
|
kevinintel/neural-compressor | neural_compressor/adaptor/ox_utils/onnxrt_mid.py | #!/usr/bin/env python
# coding: utf-8
#
# Copyright (c) 2021 Intel Corporation
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
# http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.
#
# -------------------------------------------------------------------------
# Copyright (c) Microsoft, Intel Corporation. All rights reserved.
# Licensed under the MIT License. See License.txt in the project root for
# license information.
# --------------------------------------------------------------------------
import copy
import logging
import numpy as np
import onnx
import onnxruntime
import onnx.numpy_helper as numpy_helper
from onnx import helper, TensorProto, shape_inference
from distutils.version import StrictVersion
from neural_compressor.model.onnx_model import ONNXModel
logger = logging.getLogger()
ONNX18_VERSION = StrictVersion("1.8.0")
class ONNXRTAugment:
'''augment input model to dump tensor or for calibration'''
def __init__(self, model_wrapper,
dataloader,
dump_op_types,
augmented_model_path,
black_nodes=[],
white_nodes=[],
iterations=[]):
'''
:param model: ONNX model to calibrate
:param dataloader: user implemented object to read in and preprocess calibration dataset
:param op_types: operator types to be calibrated and quantized, default = 'Conv,MatMul'
:param black_nodes: operator names that should not be quantized, default = ''
:param white_nodes: operator names that force to be quantized, default = ''
:param augmented_model_path: save augmented_model to this path
:param iterations: tensor of which iteration will be collected.
'''
self.model_wrapper = model_wrapper
self.model = model_wrapper.model
self.dataloader = dataloader
self.dump_op_types = dump_op_types
self.black_nodes = black_nodes
self.white_nodes = white_nodes
self.augmented_model = None
self.augmented_model_path = augmented_model_path
self.iterations = iterations
self.augment_nodes = []
self.dequantized_output = {}
self.already_quantized = 'DequantizeLinear' in \
[node.op_type for node in self.model.graph.node]
def augment_graph(self, activation_only=False, output_only=False):
'''
Adds nodes to all quantization_candidates op type nodes in
model and ensures their outputs are stored as part of the graph output
:param activation_only(bool): whether to dump activation tensor only
:param output_only(bool): whether to dump output_only
:return: augmented ONNX model
'''
self.dequantized_output.clear()
onnx_version = StrictVersion(onnx.__version__)
if onnx_version < ONNX18_VERSION:
logger.warning("Static quantization for NLP model is supported " \
"at onnx 1.8.0 and newer.")
model = copy.deepcopy(self.model)
model_nodes_names = [node.name for node in model.graph.node]
added_nodes = []
added_outputs = []
tensors_to_dump = set()
for augment_node_type in self.augment_nodes:
if augment_node_type not in ['ReduceMin', 'ReduceMax', 'DequantizeLinear']:
raise ValueError("Unexpected augment_node {} only ReduceMin/ReduceMax are " \
"supported".format(augment_node_type))
if self.already_quantized:
# mapping between fp32 node and int8 node
new_white_nodes = []
for white_node in self.white_nodes:
new_white_node = white_node + "_quant"
assert new_white_node in model_nodes_names, "no quantized {} in the " \
"graph".format(white_node)
new_white_nodes.append(new_white_node)
self.white_nodes = new_white_nodes
initializers = {i.name: i.data_type for i in model.graph.initializer}
for node in model.graph.node: # pylint: disable=no-member
should_be_dump = ((node.op_type in self.dump_op_types) and
(node.name not in self.black_nodes)) or \
(node.name in self.white_nodes)
if should_be_dump:
if not output_only and onnx_version < ONNX18_VERSION:
if node.op_type == "Attention":
if len(node.input) >= 3:
logger.debug("Indice input {} of attention node {} is integer."
.format(node.input[3:], node.name))
tensors_to_dump.update(node.input[:2])
else:
tensors_to_dump.update(node.input)
elif node.op_type == "Gather":
logger.debug("Indice input {} of gather node {} is integer."
.format(node.input[-1], node.name))
tensors_to_dump.update(node.input[:-1])
else:
tensors_to_dump.update(node.input)
elif not output_only and not onnx_version < ONNX18_VERSION:
tensors_to_dump.update(node.input)
else:
for input in node.input:
if input in initializers:
tensors_to_dump.add(input)
tensors_to_dump.update(node.output)
tensors_tmp = set()
if activation_only:
for tensor in tensors_to_dump:
if tensor not in initializers: # pylint: disable=no-member
tensors_tmp.add(tensor)
tensors_to_dump = tensors_tmp
value_info = shape_inference.infer_shapes(model).graph.value_info
value_info = {item.name: item.type.tensor_type.elem_type for item in value_info}
for input in model.graph.input:
value_info[input.name] = input.type.tensor_type.elem_type
for output in model.graph.output:
value_info[output.name] = output.type.tensor_type.elem_type
for tensor in tensors_to_dump:
if self.augment_nodes:
for augment_node_type in self.augment_nodes:
if augment_node_type in ['ReduceMin', 'ReduceMax']:
if tensor in initializers and initializers[tensor] != 1:
continue
if onnx_version >= ONNX18_VERSION and tensor in value_info \
and value_info[tensor] != 1:
continue
# dump tensor for calibration
augment_node_name = tensor + "_" + augment_node_type
augment_node = onnx.helper.make_node(augment_node_type, [tensor],
[augment_node_name],
augment_node_name,
keepdims=0)
added_nodes.append(augment_node)
added_outputs.append(helper.make_tensor_value_info(
augment_node.output[0], # pylint: disable=no-member
TensorProto.FLOAT, ())) # pylint: disable=no-member
else:
# insert DequantizeLinear node as output
augment_node_name = tensor + "_new_" + augment_node_type
scale, zero_point = self.model_wrapper.get_scale_zero(tensor)
if scale:
# the tensor is in INT8 dtype
nodes, output = self._dequantize(tensor, scale, zero_point)
added_nodes.extend(nodes)
added_outputs.append(helper.make_tensor_value_info(
output, # pylint: disable=no-member
TensorProto.FLOAT, ())) # pylint: disable=no-member
else:
# the tensor is in FP32 dtype
if tensor not in [t.name for t in model.graph.output]:
added_tensor = helper.ValueInfoProto()
added_tensor.name = tensor
added_outputs.append(added_tensor)
else:
if tensor not in [t.name for t in model.graph.output]:
added_tensor = helper.ValueInfoProto()
added_tensor.name = tensor
added_outputs.append(added_tensor)
if self.augment_nodes:
model.graph.node.extend(added_nodes) # pylint: disable=no-member
model.graph.output.extend(added_outputs) # pylint: disable=no-member
self.augmented_model = model
onnx.save(model, self.augmented_model_path)
def get_intermediate_outputs(self):
'''
Gather intermediate model outputs after running inference
:return: dictionary mapping: {node output tensor names: node output tensor }
'''
# conduct inference session and get intermediate outputs
session = onnxruntime.InferenceSession(self.augmented_model.SerializeToString(), None)
intermediate_outputs = []
len_inputs = len(session.get_inputs())
inputs_names = [session.get_inputs()[i].name for i in range(len_inputs)]
for idx, (inputs, labels) in enumerate(self.dataloader):
ort_inputs = {}
if len_inputs == 1:
ort_inputs.update({inputs_names[0]: inputs})
else:
assert len_inputs == len(inputs), \
'number of input tensors must align with graph inputs'
for i in range(len_inputs):
if not isinstance(inputs[i], np.ndarray):
ort_inputs.update({inputs_names[i]: np.array(inputs[i])})
else:
ort_inputs.update({inputs_names[i]: inputs[i]})
if self.iterations != []:
if idx > max(self.iterations):
break
if idx in self.iterations:
intermediate_outputs.append(session.run(None, ort_inputs))
else:
intermediate_outputs.append(session.run(None, ort_inputs))
node_output_names = [output.name if output.name not in self.dequantized_output \
else self.dequantized_output[output.name] \
for output in session.get_outputs()]
output_dicts_list = [
dict(zip(node_output_names, intermediate_output)) for intermediate_output in
intermediate_outputs
]
return node_output_names, output_dicts_list
def _dequantize(self, tensor, scale_tensor, zo_tensor):
''' helper function to dequantize tensor
'''
int_tensor = self.model_wrapper.get_initializer(tensor)
if int_tensor: # weight tensor
return self._dequantize_weight(tensor, scale_tensor, zo_tensor)
else:
return self._dequantize_activation(tensor, scale_tensor, zo_tensor)
def _dequantize_activation(self, activation_tensor_name, scale_tensor, zo_tensor):
''' helper funtion to dequantize activation'''
added_nodes, added_output = self._add_dequantize_node(activation_tensor_name, \
scale_tensor, zo_tensor)
self.dequantized_output[added_output] = activation_tensor_name
return added_nodes, added_output
def _dequantize_weight(self, weight_tensor_name, scale_tensor, zo_tensor):
''' helper function to dequantize weight'''
weight_tensor = self.model_wrapper.get_initializer(weight_tensor_name)
assert len(weight_tensor.dims) == 4, 'currently only support conv weight'
assert len(scale_tensor.dims) in [1, 2]
if weight_tensor.dims[0] == max(scale_tensor.dims):
logger.debug("conv weight {} is quantized with per channel granularity."
.format(weight_tensor_name))
added_nodes, added_output = self._add_dequantize_transpose_node(
weight_tensor_name, \
scale_tensor, zo_tensor)
else:
added_node, added_output = self._add_dequantize_node(weight_tensor_name,
scale_tensor,\
zo_tensor)
self.dequantized_output[added_output] = weight_tensor_name
return added_nodes, added_output
def _add_dequantize_node(self, tensor_name, scale_tensor, zo_tensor):
'''helper function to generate dequantize node'''
dequantize_node = onnx.helper.make_node(
'DequantizeLinear',
[tensor_name,
scale_tensor.name,
zo_tensor.name],
[tensor_name + '_output'],
name=tensor_name + '_DequantizeLinear')
return [dequantize_node], tensor_name + '_output'
def _add_dequantize_transpose_node(self, tensor_name, scale_tensor, zo_tensor):
''' conv weight is in OcIcHW, while dequantizelinear need IcOcHW '''
pre_transpose_node = onnx.helper.make_node(
'Transpose',
inputs=[tensor_name],
outputs=[tensor_name + '_transposed'],
perm=(1,0,2,3),
name=tensor_name + '_pre_transpose')
dequantize_node = onnx.helper.make_node(
'DequantizeLinear',
[tensor_name + '_transposed',
scale_tensor.name,
zo_tensor.name],
[tensor_name + '_DequantizeLinear'],
name=tensor_name + '_DequantizeLinear')
post_transpose_node = onnx.helper.make_node(
'Transpose',
inputs=[tensor_name + '_DequantizeLinear'],
outputs=[tensor_name + '_output'],
perm=(1,0,2,3),
name=tensor_name + '_post_transpose')
added_nodes = [pre_transpose_node, dequantize_node, post_transpose_node]
return added_nodes, tensor_name + '_output'
def _map_calibration(self, node_output_names, output_dicts_list, calib_mode='naive'):
model = self.model
num_model_outputs = len(model.graph.output)
merged_dict = {}
for d in output_dicts_list:
for k, v in d.items():
merged_dict.setdefault(k, []).append(v)
added_node_output_names = node_output_names[num_model_outputs:]
node_names = [added_node_output_names[i].rpartition('_')[0]
for i in range(0, len(added_node_output_names), 2)] # output names
# Characterizing distribution of a node's values across test data sets
clean_merged_dict = dict((i, merged_dict[i]) for i in merged_dict
if i != list(merged_dict.keys())[0])
if calib_mode == 'naive':
pairs = [
tuple([
float(min(clean_merged_dict[added_node_output_names[i]])),
float(max(clean_merged_dict[added_node_output_names[i + 1]]))
]) for i in range(0, len(added_node_output_names), 2)
]
else:
raise ValueError('Unknown value for calib_mode. \
Currently only naive mode is supported.')
final_dict = dict(zip(node_names, pairs))
return final_dict
def dump_calibration(self, calib_mode='naive'):
'''
Gather calibration params for quantization
parameter calib_mode: type 'naive' gives (ReduceMin, ReduceMax) pairs
for each augmented node across test data sets, where
the first element is a minimum of all ReduceMin values
and the second element is a maximum of all ReduceMax
values;
:return: dictionary mapping: {added node names: (ReduceMin, ReduceMax) pairs }
'''
self.augment_nodes = ["ReduceMin", "ReduceMax"]
self.augment_graph()
node_output_names, output_dicts_list = self.get_intermediate_outputs()
mapped_dict = self._map_calibration(node_output_names, output_dicts_list,
calib_mode=calib_mode)
return self.calculate_quantization_params(mapped_dict)
def calculate_quantization_params(self, quantization_thresholds):
'''
Given quantization thresholds, calculate the quantization params.
:param quantization_thresholds:
Dictionary specifying the min and max values for outputs of conv and matmul nodes.
The quantization_thresholds should be specified in the following format:
{
"param_name": [min, max]
}
example:
{
'Conv_3:0': [np.float32(0), np.float32(0.5)],
'Conv_4:0': [np.float32(1), np.float32(3.5)]
}
:return: Dictionary containing the zero point and
scale values for outputs of conv and matmul nodes.
The dictionary format is
{
"param_name": [zero_point, scale]
}
'''
if quantization_thresholds is None:
raise ValueError(
'quantization thresholds is required to calculate quantization \
params (zero point and scale)')
quantization_params = {}
model = self.model
input_name_to_nodes = self.model_wrapper.input_name_to_nodes
output_name_to_nodes = self.model_wrapper.output_name_to_node
for tensor_name in quantization_thresholds.keys():
child = None
if tensor_name in input_name_to_nodes:
children = input_name_to_nodes[tensor_name]
if len(children) == 1:
child = children[0]
parent = None
if tensor_name in output_name_to_nodes:
parent = output_name_to_nodes[tensor_name]
node_thresholds = quantization_thresholds[tensor_name]
node_params = calculate_scale_zeropoint(parent, child, node_thresholds[0],
node_thresholds[1])
quantization_params[tensor_name] = node_params
return quantization_params
def dump_tensor(self, activation=True, weight=False):
if "QuantizeLinear" in [node.op_type for node in self.model.graph.node]:
self.augment_nodes = ["DequantizeLinear"]
self.already_quantized = True
activation_only = not weight
self.augment_graph(activation_only=activation_only, output_only=True)
_, output_dicts_list = self.get_intermediate_outputs()
output_dicts = {}
for output_dicts_iter in output_dicts_list:
for output_name in output_dicts_iter:
if output_name not in output_dicts:
output_dicts[output_name] = []
output_dicts[output_name].append(output_dicts_iter[output_name])
iters = len(output_dicts_list)
map_node_activation = [{} for _ in range(iters)]
map_node_weight = {}
self.white_nodes = [node.replace('_quant', '') for node in self.white_nodes]
augmengted_wrapper = ONNXModel(self.augmented_model)
map_output = augmengted_wrapper.output_name_to_node
map_input = augmengted_wrapper.input_name_to_nodes
model_output_names = [t.name for t in self.model.graph.output]
model_initializer_names = [t.name for t in self.model.graph.initializer]
for tensor_name, tensors in output_dicts.items():
if tensor_name.endswith('_scale') or tensor_name.endswith('_zero_point'):
continue # don't dump scale and zero_point
if tensor_name in model_initializer_names:
nodes = [node for node in map_input[tensor_name] \
if node.name.replace('_quant', '') in self.white_nodes]
else:
nodes = [map_output[tensor_name]]
for node in nodes:
node_name = node.name.replace('_quant', '')
if tensor_name in model_output_names and node_name not in self.white_nodes:
continue
while node_name not in self.white_nodes:
node = augmengted_wrapper.get_parents(node, output_name_to_node=map_output)[0]
node_name = node.name.replace('_quant', '')
if node_name not in map_node_weight:
map_node_weight[node_name] = {}
if tensor_name not in model_initializer_names:
for i in range(iters):
map_node_activation[i][node_name] = \
{tensor_name.replace('_quantized', ''): tensors[i]}
else:
map_node_weight[node_name].update({tensor_name.replace('_quantized', ''): \
tensors[0]})
dumped_tensors_map = {}
if weight:
dumped_tensors_map.update({"weight": map_node_weight})
if activation:
dumped_tensors_map.update({"activation": map_node_activation})
return dumped_tensors_map
def calculate_scale_zeropoint(last_node, next_node, rmin, rmax):
'''
Given the source and destination node of tensor, \
return calculated zero point and scales.
:param last_node: the source of the tensor
:param next_node: the destination of the tensor
:param rmin: min threshold of the tensor
:param rmax: max threshold of the tensor
:return (List): zero_point and scale
'''
zp_and_scale = []
# adjust rmin and rmax such that 0 is included in the range. This is required
# to make sure zero can be uniquely represented.
rmin = min(rmin, 0)
rmax = max(rmax, 0)
if next_node:
if next_node.op_type == 'Relu':
if rmin < 0:
rmin = 0
if last_node:
if last_node.op_type in ['Conv', 'FusedConv']:
attrs = [attr for attr in last_node.attribute]
attrs_names = [attr.name for attr in last_node.attribute]
if 'activation' in attrs_names:
if attrs[attrs_names.index('activation')].s == b'Relu':
rmin = max(rmin, 0)
if attrs[attrs_names.index('activation')].s == b'Clip':
assert 'activation_params' in attrs_names, "the model contains no \
params for clip node \
{}".format(last_node)
clip_params = attrs[attrs_names.index('activation_params')].floats
rmin = min(rmin, clip_params[0], clip_params[1])
rmax = max(rmax, clip_params[0], clip_params[1])
scale = np.float32((rmax - rmin) / 255 if rmin != rmax else 1)
initial_zero_point = (0 - rmin) / scale
zero_point = np.uint8(round(max(0, min(255, initial_zero_point))))
zp_and_scale.append(zero_point)
zp_and_scale.append(scale)
return zp_and_scale
|
Darkhunter9/python | How Much Gold.py | <gh_stars>0
from fractions import Fraction
import numpy as np
METALS = ('gold', 'tin', 'iron', 'copper')
def checkio(alloys):
"""
Find proportion of gold
"""
p = np.zeros((len(alloys.keys())+1,4))
r = np.zeros(len(alloys.keys())+1)
n = 0
for i in alloys.keys():
metals = i.split('-')
for j in metals:
p[(n,METALS.index(j))] = 1.
r[n] = alloys[i]
n += 1
p[-1] = np.ones(4)
r[-1] = Fraction(1,1)
result = np.linalg.solve(p,r)
return Fraction(result[0]).limit_denominator(10000)
#These "asserts" using only for self-checking and not necessary for auto-testing
if __name__ == '__main__':
assert checkio({
'gold-tin': Fraction(1, 2),
'gold-iron': Fraction(1, 3),
'gold-copper': Fraction(1, 4),
}) == Fraction(1, 24), "1/24 of gold"
assert checkio({
'tin-iron': Fraction(1, 2),
'iron-copper': Fraction(1, 2),
'copper-tin': Fraction(1, 2),
}) == Fraction(1, 4), "quarter"
|
aliostad/deep-learning-lang-detection | data/test/js/470e853a365eaade71ce869ee578ba0a5fc5ccb7notebookService.js | <reponame>aliostad/deep-learning-lang-detection
define(
[
"module/ngModule",
"types/enums",
"service/crudService",
"service/jsonWebService"
],
function (ngModule, enums, CrudService) {
ngModule.service("notebookService",
[
"jsonWebService",
"notesPagesServiceUrl",
"notebookServiceUrl",
function (jsonWebService, notesPagesServiceUrl, notebookServiceUrl) {
var crudService = new CrudService(jsonWebService, notebookServiceUrl);
function getNotebooksAndPages(successCallback, failureCallback) {
jsonWebService.execute(notesPagesServiceUrl, enums.HttpMethod.GET, null, successCallback,
failureCallback, true);
}
return {
getNotebooksAndPages: getNotebooksAndPages,
createNotebook: crudService.create,
retrieveNotebook: crudService.retrieve,
updateNotebook: crudService.update,
removeNotebook: crudService.remove
};
}
]);
});
|
JoseZancanaro/CienciaDaComputacao | Data-structure/B-tree/main.cpp | <reponame>JoseZancanaro/CienciaDaComputacao<filename>Data-structure/B-tree/main.cpp
#include <iostream>
#include "arvoreB.hpp"
int main()
{
return 0;
}
|
JVacca12/FIRST | portafolio/serializers.py | # Django REST Framework
from rest_framework import serializers
# Model
from portafolio.models import Portafolio
class PortafolioModelSerializer(serializers.ModelSerializer):
"""Portafolio Model Serializer"""
class Meta:
"""Meta class."""
model = Portafolio
fields = (
'pk',
'fecha_inicio',
'fecha_fin',
'titulo',
'descripcion',
)
class PortafolioSerializer(serializers.Serializer):
user = serializers.HiddenField(default=serializers.CurrentUserDefault())
fecha_inicio = serializers.DateTimeField()
fecha_fin = serializers.DateTimeField()
titulo = serializers.CharField(max_length=120)
descripcion = serializers.CharField(max_length=500)
def create(self, data):
por= Portafolio.objects.create(**data)
return por |
rcboufleur/SORA | sora/occultation/fitting.py | import astropy.units as u
import numpy as np
from astropy.time import Time
from sora.config.decorators import deprecated_alias
__all__ = ['fit_ellipse']
@deprecated_alias(pos_angle='position_angle', dpos_angle='dposition_angle', log='verbose') # remove this line for v1.0
def fit_ellipse(*args, equatorial_radius, dequatorial_radius=0, center_f=0, dcenter_f=0, center_g=0,
dcenter_g=0, oblateness=0, doblateness=0, position_angle=0, dposition_angle=0,
loop=10000000, number_chi=10000, dchi_min=None, verbose=False, ellipse_error=0, sigma_result=1):
"""Fits an ellipse to given occultation using given parameters.
Parameters
----------
center_f : `int`, `float`, default=0
The coordinate in f of the ellipse center.
center_g : `int`, `float`, default=0
The coordinate in g of the ellipse center.
equatorial_radius : `int`, `float`
The Equatorial radius (semi-major axis) of the ellipse.
oblateness : `int`, `float`, default=0
The oblateness of the ellipse.
position_angle : `int`, `float`, default=0
The pole position angle of the ellipse in degrees.
Zero is in the North direction ('g-positive'). Positive clockwise.
dcenter_f : `int`, `float`
Interval for coordinate f of the ellipse center.
dcenter_g : `int`, `float`
Interval for coordinate g of the ellipse center.
dequatorial_radius `int`, `float`
Interval for the Equatorial radius (semi-major axis) of the ellipse.
doblateness : `int`, `float`
Interval for the oblateness of the ellipse
dposition_angle : `int`, `float`
Interval for the pole position angle of the ellipse in degrees.
loop : `int`, default=10000000
The number of ellipses to attempt fitting.
dchi_min : `int`, `float`
If given, it will only save ellipsis which chi square are smaller than
chi_min + dchi_min.
number_chi : `int`, default=10000
If dchi_min is given, the procedure is repeated until number_chi is
reached.
verbose : `bool`, default=False
If True, it prints information while fitting.
ellipse_error : `int`, `float`
Model uncertainty to be considered in the fit, in km.
sigma_result : `int`, `float`
Sigma value to be considered as result.
Returns
-------
chisquare : `sora.ChiSquare`
A ChiSquare object with all parameters.
Important
---------
Each occultation is added as the first argument(s) directly.
Mandatory input parameters: 'center_f', 'center_g', 'equatorial_radius',
'oblateness', and 'position_angle'.
Parameters fitting interval: 'dcenter_f', 'dcenter_g', 'dequatorial_radius',
'doblateness', and 'dposition_angle'. Default values are set to zero.
Search done between (value - dvalue) and (value + dvalue).
Examples
--------
To fit the ellipse to the chords of occ1 Occultation object:
>>> fit_ellipse(occ1, **kwargs)
To fit the ellipse to the chords of occ1 and occ2 Occultation objects together:
>>> fit_ellipse(occ1, occ2, **kwargs)
"""
from sora.extra import ChiSquare
from sora.config.visuals import progressbar_show
from astropy.coordinates import Angle
from .core import Occultation
v = {'dcenter_f': dcenter_f, 'dcenter_g': dcenter_g, 'doblateness': doblateness, 'dposition_angle': dposition_angle,
'dequatorial_radius': dequatorial_radius, 'ellipse_error': ellipse_error, 'sigma_result': sigma_result,
'dchi_min': dchi_min}
for key, item in v.items():
if item is not None and item < 0:
raise ValueError("{} must be a positive number.".format(key))
values = []
chord_name = []
if len(args) == 0:
raise ValueError('No occultation have been given as input.')
for occ in args:
if not isinstance(occ, Occultation):
raise TypeError('Given argument must be an Occultation object.')
for name, chord in occ.chords.items():
if chord.status() == 'positive':
if chord.is_able['immersion']:
f, g, vf, vg = chord.get_fg(time='immersion', vel=True)
err = np.linalg.norm([vf, vg])*chord.lightcurve.immersion_err
values.append([f, g, err])
chord_name.append(name + '_immersion')
if chord.is_able['emersion']:
f, g, vf, vg = chord.get_fg(time='emersion', vel=True)
err = np.linalg.norm([vf, vg])*chord.lightcurve.emersion_err
values.append([f, g, err])
chord_name.append(name + '_emersion')
controle_f0 = Time.now()
f0_chi = np.array([])
g0_chi = np.array([])
a_chi = np.array([])
obla_chi = np.array([])
posang_chi = np.array([])
chi2_best = np.array([])
while len(f0_chi) < number_chi:
progressbar_show(len(f0_chi), number_chi, prefix='Ellipse fit:')
chi2 = np.zeros(loop)
f0 = center_f + dcenter_f*(2*np.random.random(loop) - 1)
g0 = center_g + dcenter_g*(2*np.random.random(loop) - 1)
a = equatorial_radius + dequatorial_radius*(2*np.random.random(loop) - 1)
obla = oblateness + doblateness*(2*np.random.random(loop) - 1)
obla[obla < 0], obla[obla > 1] = 0, 1
phi_deg = position_angle + dposition_angle*(2*np.random.random(loop) - 1)
controle_f1 = Time.now()
for fi, gi, si in values:
b = a - a*obla
phi = phi_deg*(np.pi/180.0)
dfi = fi-f0
dgi = gi-g0
theta = np.arctan2(dgi, dfi)
ang = theta+phi
r_model = (a*b)/np.sqrt((a*np.sin(ang))**2 + (b*np.cos(ang))**2)
f_model = f0 + r_model*np.cos(theta)
g_model = g0 + r_model*np.sin(theta)
chi2 += ((fi - f_model)**2 + (gi - g_model)**2)/(si**2 + ellipse_error**2)
controle_f2 = Time.now()
if dchi_min is not None:
region = np.where(chi2 < chi2.min() + dchi_min)[0]
else:
region = np.arange(len(chi2))
chi2_best = np.append(chi2_best, chi2[region])
if verbose:
print('Elapsed time: {:.3f} seconds.'.format((controle_f2 - controle_f1).sec))
print(len(chi2[region]), len(chi2_best))
f0_chi = np.append(f0_chi, f0[region])
g0_chi = np.append(g0_chi, g0[region])
a_chi = np.append(a_chi, a[region])
obla_chi = np.append(obla_chi, obla[region])
posang_chi = np.append(posang_chi, phi_deg[region])
progressbar_show(number_chi, number_chi, prefix='Ellipse fit:')
chisquare = ChiSquare(chi2_best, len(values), center_f=f0_chi, center_g=g0_chi, equatorial_radius=a_chi,
oblateness=obla_chi, position_angle=posang_chi)
controle_f4 = Time.now()
if verbose:
print('Total elapsed time: {:.3f} seconds.'.format((controle_f4 - controle_f0).sec))
result_sigma = chisquare.get_nsigma(sigma=sigma_result)
a = result_sigma['equatorial_radius'][0]
f0 = result_sigma['center_f'][0]
g0 = result_sigma['center_g'][0]
obla = result_sigma['oblateness'][0]
phi_deg = result_sigma['position_angle'][0]
radial_dispersion = np.array([])
error_bar = np.array([])
position_angle_point = np.array([])
for fi, gi, si in values:
b = a - a*obla
phi = phi_deg*(np.pi/180.0)
dfi = fi-f0
dgi = gi-g0
r = np.sqrt(dfi**2 + dgi**2)
theta = np.arctan2(dgi, dfi)
ang = theta+phi
r_model = (a*b)/np.sqrt((a*np.sin(ang))**2 + (b*np.cos(ang))**2)
radial_dispersion = np.append(radial_dispersion, r - r_model)
error_bar = np.append(error_bar, si)
position_angle_point = np.append(position_angle_point, Angle(90*u.deg - theta*u.rad).wrap_at(360 * u.deg).degree)
for occ in args:
if isinstance(occ, Occultation):
occ.fitted_params = {i: result_sigma[i] for i in ['equatorial_radius', 'center_f', 'center_g',
'oblateness', 'position_angle']}
occ.chi2_params = {'chord_name': chord_name, 'radial_dispersion': radial_dispersion,
'position_angle': position_angle_point, 'radial_error': error_bar,
'chi2_min': chisquare.get_nsigma(sigma=sigma_result)['chi2_min'],
'nparam': chisquare.nparam, 'npts': chisquare.npts}
return chisquare
|
davidzchen/tajo | tajo-core/src/main/java/org/apache/tajo/engine/planner/physical/VectorizedSorter.java | /**
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.tajo.engine.planner.physical;
import org.apache.hadoop.util.IndexedSortable;
import org.apache.hadoop.util.QuickSort;
import org.apache.tajo.catalog.SortSpec;
import org.apache.tajo.exception.TajoRuntimeException;
import org.apache.tajo.exception.UnsupportedException;
import org.apache.tajo.storage.Tuple;
import java.util.Iterator;
/**
* Extract raw level values (primitive or String/byte[]) from each of key columns before sorting
* Uses indirection for efficient swapping
*/
public class VectorizedSorter extends ComparableVector implements IndexedSortable, TupleSorter {
private final int[] mappings; // index indirection
public VectorizedSorter(TupleList source, SortSpec[] sortKeys, int[] keyIndex) {
super(source.size(), sortKeys, keyIndex);
source.toArray(tuples); // wish it's array list
mappings = new int[tuples.length];
for (int i = 0; i < tuples.length; i++) {
for (int j = 0; j < keyIndex.length; j++) {
vectors[j].append(tuples[i], keyIndex[j]);
}
mappings[i] = i;
}
}
@Override
public int compare(int i1, int i2) {
return super.compare(mappings[i1], mappings[i2]);
}
@Override
public void swap(int i1, int i2) {
int v1 = mappings[i1];
mappings[i1] = mappings[i2];
mappings[i2] = v1;
}
@Override
public Iterable<Tuple> sort() {
new QuickSort().sort(this, 0, mappings.length);
return new Iterable<Tuple>() {
@Override
public Iterator<Tuple> iterator() {
return new Iterator<Tuple>() {
int index;
public boolean hasNext() { return index < mappings.length; }
public Tuple next() { return tuples[mappings[index++]]; }
public void remove() { throw new TajoRuntimeException(new UnsupportedException()); }
};
}
};
}
}
|
Ryugoron/point-groups | src/main/java/pointGroups/util/Transformer.java | package pointGroups.util;
import java.util.concurrent.Future;
/**
* An instance holds everything polymake needs for computation.
*
* @author Nadja, Simon
*/
public interface Transformer<E>
extends Future<E>
{
/**
* Generates a script.
*
* @return A script as String.
*/
public String toScript();
/**
* Sets the result string of an external calculation as the basis for a later
* transformation to an internal representation of the result.
*
* @param resultString Result of an external calculation, e.g. polymake.
*/
public void setResultString(String resultString);
}
|
dwintergruen/django-publications | publications/migrations/0007_auto_20200604_1648.py | <filename>publications/migrations/0007_auto_20200604_1648.py
# Generated by Django 3.0.5 on 2020-06-04 16:48
from django.db import migrations, models
import django.db.models.deletion
class Migration(migrations.Migration):
dependencies = [
('publications', '0006_auto_20200604_1529'),
]
operations = [
migrations.AddField(
model_name='attachment',
name='created_at',
field=models.DateTimeField(auto_now_add=True, null=True),
),
migrations.AddField(
model_name='attachment',
name='updated_at',
field=models.DateTimeField(auto_now=True, null=True),
),
migrations.AddField(
model_name='attachment',
name='zoterokey',
field=models.CharField(blank=True, max_length=30, null=True),
),
migrations.AddField(
model_name='imageattachment',
name='created_at',
field=models.DateTimeField(auto_now_add=True, null=True),
),
migrations.AddField(
model_name='imageattachment',
name='name',
field=models.CharField(blank=True, max_length=3000, null=True),
),
migrations.AddField(
model_name='imageattachment',
name='type',
field=models.ForeignKey(null=True, on_delete=django.db.models.deletion.SET_NULL, to='publications.AttachmentType'),
),
migrations.AddField(
model_name='imageattachment',
name='updated_at',
field=models.DateTimeField(auto_now=True, null=True),
),
migrations.AddField(
model_name='pdfattachment',
name='created_at',
field=models.DateTimeField(auto_now_add=True, null=True),
),
migrations.AddField(
model_name='pdfattachment',
name='name',
field=models.CharField(blank=True, max_length=3000, null=True),
),
migrations.AddField(
model_name='pdfattachment',
name='updated_at',
field=models.DateTimeField(auto_now=True, null=True),
),
migrations.AddField(
model_name='publication',
name='created_at',
field=models.DateTimeField(auto_now_add=True, null=True),
),
migrations.AddField(
model_name='publication',
name='updated_at',
field=models.DateTimeField(auto_now=True, null=True),
),
migrations.AddField(
model_name='urlattachment',
name='created_at',
field=models.DateTimeField(auto_now_add=True, null=True),
),
migrations.AddField(
model_name='urlattachment',
name='name',
field=models.CharField(blank=True, max_length=3000, null=True),
),
migrations.AddField(
model_name='urlattachment',
name='updated_at',
field=models.DateTimeField(auto_now=True, null=True),
),
]
|
delftdata/s-query | hazelcast-jet/extensions/hadoop/src/test/java/com/hazelcast/jet/hadoop/file/RawBytesFileFormatTest.java | <reponame>delftdata/s-query
/*
* Copyright 2020 Hazelcast Inc.
*
* Licensed under the Hazelcast Community License (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://hazelcast.com/hazelcast-community-license
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package com.hazelcast.jet.hadoop.file;
import com.hazelcast.jet.pipeline.file.FileFormat;
import com.hazelcast.jet.pipeline.file.FileSourceBuilder;
import com.hazelcast.jet.pipeline.file.FileSources;
import org.junit.Test;
import static java.nio.charset.StandardCharsets.UTF_8;
public class RawBytesFileFormatTest extends BaseFileFormatTest {
@Test
public void testRawFile() {
FileSourceBuilder<byte[]> source = FileSources.files(currentDir + "/src/test/resources")
.glob("raw.bin")
.format(FileFormat.bytes());
byte[] expectedBytes = "Raw contents of the file.".getBytes(UTF_8);
assertItemsInSource(source, expectedBytes);
}
@Test
public void shouldReadEmptyFile() throws Exception {
FileSourceBuilder<byte[]> source = FileSources.files(currentDir + "/src/test/resources")
.glob("file-empty.txt")
.format(FileFormat.bytes());
assertItemsInSource(source, new byte[0]);
}
}
|
coca-cola33/CloudFilm | app/src/main/java/me/jessyan/mvparms/demo/di/component/BookComponent.java | <reponame>coca-cola33/CloudFilm<filename>app/src/main/java/me/jessyan/mvparms/demo/di/component/BookComponent.java
package me.jessyan.mvparms.demo.di.component;
import com.jess.arms.di.scope.ActivityScope;
import dagger.Component;
import com.jess.arms.di.component.AppComponent;
import me.jessyan.mvparms.demo.di.module.BookModule;
import me.jessyan.mvparms.demo.mvp.ui.fragment.BookFragment;
@ActivityScope
@Component(modules = BookModule.class, dependencies = AppComponent.class)
public interface BookComponent {
void inject(BookFragment fragment);
} |
bbcyyb/missouri | src/model/role.py | <filename>src/model/role.py
# -*- coding: utf-8 -*-
from permission import Permission
from app import db
class Role(db.Model):
__tablename__ = 'roles'
id = db.Column(db.Integer, primary_key=True)
name = db.Column(db.String, nullable=True, unique=True)
default = db.Column(db.Boolean, default=False)
permissions = db.Column(db.Integer)
user = db.relationship('User', backref='itsrole')
@staticmethod
def insert_roles():
roles = {
'User': (Permission.FOLLOW |
Permission.COMMENT |
Permission.WRITE_ARTICLES, True),
'Moderare': (Permission.FOLLOW |
Permission.COMMENT |
Permission.WRITE_ARTICLES |
Permission.MODERATE_COMMENTS, False),
'Administrator': (Permission.ADMINISTRATOR, False)
}
for r in roles:
role = Role.query.filter_by(name=r).first()
if role is None:
role = Role(name=r)
role.permissions = roles[r][0]
role.default = roles[r][1]
db.session.add(role)
db.session.commit()
|
trabajooscarnavidad/trabajo | src/main/webapp/backup/MandarMail.java | <gh_stars>0
/*
* To change this license header, choose License Headers in Project Properties.
* To change this template file, choose Tools | Templates
* and open the template in the editor.
*/
package servicios;
import config.Configuration;
import java.util.Properties;
import java.util.logging.Level;
import java.util.logging.Logger;
import javax.mail.Message;
import javax.mail.MessagingException;
import javax.mail.Session;
import javax.mail.Transport;
import javax.mail.internet.AddressException;
import javax.mail.internet.InternetAddress;
import javax.mail.internet.MimeMessage;
import org.apache.commons.mail.Email;
import org.apache.commons.mail.EmailException;
import org.apache.commons.mail.SimpleEmail;
/**
*
* @author oscar
*/
public class MandarMail {
public void mandarMail(String to, String msg, String subject) {
try {
Email email = new SimpleEmail();
email.setHostName(Configuration.getInstance().getSmtpServer());
email.setSmtpPort(Integer.parseInt(Configuration.getInstance().getSmtpPort()));
email.setAuthentication(Configuration.getInstance().getMailFrom(), Configuration.getInstance().getMailPass());
//email.setSSLOnConnect(true);
email.setStartTLSEnabled(true);
email.setFrom("<EMAIL>");
email.setSubject(subject);
email.setMsg(msg);
email.addTo(to);
email.send();
} catch (EmailException ex) {
System.out.println(ex.getMessage());
Logger.getLogger(MandarMail.class.getName()).log(Level.SEVERE, null, ex);
}
}
public void generateAndSendEmail(String to, String msg,String subject) throws AddressException, MessagingException {
Properties mailServerProperties;
Session getMailSession;
MimeMessage generateMailMessage;
// Step1
mailServerProperties = System.getProperties();
mailServerProperties.put("mail.smtp.port", Integer.parseInt(Configuration.getInstance().getSmtpPort()));
mailServerProperties.put("mail.smtp.auth", "true");
mailServerProperties.put("mail.smtp.starttls.enable", "true");
System.out.println("Mail Server Properties have been setup successfully..");
// Step2
getMailSession = Session.getDefaultInstance(mailServerProperties, null);
generateMailMessage = new MimeMessage(getMailSession);
generateMailMessage.addRecipient(Message.RecipientType.TO, new InternetAddress(to));
generateMailMessage.setSubject(subject);
String emailBody = msg;
generateMailMessage.setContent(emailBody, "text/html");
// Step3
Transport transport = getMailSession.getTransport("smtp");
// Enter your correct gmail UserID and Password
// if you have 2FA enabled then provide App Specific Password
transport.connect(Configuration.getInstance().getSmtpServer(),
Configuration.getInstance().getMailFrom(),
Configuration.getInstance().getMailPass());
transport.sendMessage(generateMailMessage, generateMailMessage.getAllRecipients());
transport.close();
}
}
|
paullewallencom/android-978-1-7864-6464-4 | _src/Section 2/code-section_2_2/app/src/main/java/com/packt/madev/database/BigDecimalConverter.java | <reponame>paullewallencom/android-978-1-7864-6464-4<filename>_src/Section 2/code-section_2_2/app/src/main/java/com/packt/madev/database/BigDecimalConverter.java
package com.packt.madev.database;
import java.math.BigDecimal;
import io.objectbox.converter.PropertyConverter;
public class BigDecimalConverter implements PropertyConverter<BigDecimal, Long> {
@Override
public BigDecimal convertToEntityProperty(Long databaseValue) {
if (databaseValue == null) {
return null;
}
return new BigDecimal(databaseValue).scaleByPowerOfTen(-4);
}
@Override
public Long convertToDatabaseValue(BigDecimal entityProperty) {
if (entityProperty == null) {
return null;
}
return entityProperty.scaleByPowerOfTen(4).longValue();
}
}
|
Null-LLC/Echo | Inferno/Source/Drivers/PIT/PIT.hpp | <gh_stars>1-10
#pragma once
namespace PIT {
extern double TimeSinceBoot;
const unsigned long long BaseFrequency = 1193182;
void Sleepd(double seconds);
void Sleep(unsigned int seconds);
void SetDivisor(unsigned short NewDivisor);
unsigned long long GetFrequency();
void SetFrequency(unsigned long long NewFrequency);
void Tick();
} |
JimmyDdotEXE/jpl | src/value/Bool.cpp | #include "value/Bool.h"
Bool::Bool(){
literal = false;
value = false;
}
Bool::Bool(bool v){
literal = true;
value = v;
}
Bool::Bool(std::string s) : Cond("bool", s){
literal = false;
value = false;
}
bool Bool::isLiteral(){
return literal;
}
bool Bool::getValue(){
return value;
}
|
JonErikDSuero/design-system | css/src/scss/utilities/_colors.story.js | <filename>css/src/scss/utilities/_colors.story.js
/* global document */
import { storiesOf } from "@storybook/html";
storiesOf("Utilities|Color", module)
.add(
"Text",
() => `
<p class="nds-text--black">.nds-text--black</p>
<p class="nds-text--black-blue">.nds-text--black-blue</p>
<p class="nds-text--dark-blue">.nds-text--dark-blue</p>
<p class="nds-text--blue">.nds-text--blue</p>
<p class="nds-text--light-blue">.nds-text--light-blue</p>
<p class="nds-text--dark-grey">.nds-text--dark-grey</p>
<p class="nds-text--grey">.nds-text--grey</p>
<p class="nds-text--light-grey">.nds-text--light-grey</p>
<p class="nds-text--white-grey">.nds-text--white-grey</p>
<p class="nds-text--white">.nds-text--white</p>
<p class="nds-text--yellow">.nds-text--yellow</p>
<p class="nds-text--green">.nds-text--green</p>
<p class="nds-text--red">.nds-text--red</p>
`
)
.add(
"Background",
() => `
<p class="nds-padding--x2 nds-text--white nds-background--black">.nds-background--black</p>
<p class="nds-padding--x2 nds-text--white nds-background--black-blue">.nds-background--black-blue</p>
<p class="nds-padding--x2 nds-text--white nds-background--dark-blue">.nds-background--dark-blue</p>
<p class="nds-padding--x2 nds-background--blue">.nds-background--blue</p>
<p class="nds-padding--x2 nds-background--light-blue">.nds-background--light-blue</p>
<p class="nds-padding--x2 nds-text--white nds-background--dark-grey">.nds-background--dark-grey</p>
<p class="nds-padding--x2 nds-background--grey">.nds-background--grey</p>
<p class="nds-padding--x2 nds-background--light-grey">.nds-background--light-grey</p>
<p class="nds-padding--x2 nds-background--white-grey">.nds-background--white-grey</p>
<p class="nds-padding--x2 nds-background--white">.nds-background--white</p>
<p class="nds-padding--x2 nds-background--yellow">.nds-background--yellow</p>
<p class="nds-padding--x2 nds-text--white nds-background--green">.nds-background--green</p>
<p class="nds-padding--x2 nds-text--white nds-background--red">.nds-background--red</p>
`
);
|
GatsbyNewton/design-pattern | src/main/java/edu/wzm/action/strategy/template/Strategy.java | <filename>src/main/java/edu/wzm/action/strategy/template/Strategy.java
package edu.wzm.action.strategy.template;
public interface Strategy {
void algorithmStrategy();
}
|
Sorunome/matrix-media-repo | src/github.com/turt2live/matrix-media-repo/controllers/upload_controller/upload_controller.go | package upload_controller
import (
"context"
"io"
"os"
"strconv"
"github.com/pkg/errors"
"github.com/ryanuber/go-glob"
"github.com/sirupsen/logrus"
"github.com/turt2live/matrix-media-repo/common"
"github.com/turt2live/matrix-media-repo/common/config"
"github.com/turt2live/matrix-media-repo/storage"
"github.com/turt2live/matrix-media-repo/types"
"github.com/turt2live/matrix-media-repo/util"
)
const NoApplicableUploadUser = ""
func IsRequestTooLarge(contentLength int64, contentLengthHeader string) bool {
if config.Get().Uploads.MaxSizeBytes <= 0 {
return false
}
if contentLength >= 0 {
return contentLength > config.Get().Uploads.MaxSizeBytes
}
if contentLengthHeader != "" {
parsed, err := strconv.ParseInt(contentLengthHeader, 10, 64)
if err != nil {
logrus.Warn("Invalid content length header given; assuming too large. Value received: " + contentLengthHeader)
return true // Invalid header
}
return parsed > config.Get().Uploads.MaxSizeBytes
}
return false // We can only assume
}
func UploadMedia(contents io.ReadCloser, contentType string, filename string, userId string, origin string, ctx context.Context, log *logrus.Entry) (*types.Media, error) {
defer contents.Close()
var data io.Reader
if config.Get().Uploads.MaxSizeBytes > 0 {
data = io.LimitReader(contents, config.Get().Uploads.MaxSizeBytes)
} else {
data = contents
}
mediaId, err := util.GenerateRandomString(64)
if err != nil {
return nil, err
}
return StoreDirect(data, contentType, filename, userId, origin, mediaId, ctx, log)
}
func trackUploadAsLastAccess(ctx context.Context, log *logrus.Entry, media *types.Media) {
err := storage.GetDatabase().GetMetadataStore(ctx, log).UpsertLastAccess(media.Sha256Hash, util.NowMillis())
if err != nil {
logrus.Warn("Failed to upsert the last access time: ", err)
}
}
func IsAllowed(contentType string, reportedContentType string, userId string, log *logrus.Entry) (bool) {
allowed := false
userMatched := false
if userId != NoApplicableUploadUser {
for user, userExcl := range config.Get().Uploads.PerUserExclusions {
if glob.Glob(user, userId) {
if !userMatched {
log.Info("Per-user allowed types policy found for " + userId)
userMatched = true
}
for _, exclType := range userExcl {
if glob.Glob(exclType, contentType) {
allowed = true
log.Info("Content type " + contentType + " (reported as " + reportedContentType + ") is allowed due to a per-user policy for " + userId)
break
}
}
}
if allowed {
break
}
}
}
if !userMatched && !allowed {
log.Info("Checking general allowed types due to no matching per-user policy")
for _, allowedType := range config.Get().Uploads.AllowedTypes {
if glob.Glob(allowedType, contentType) {
allowed = true
break
}
}
if len(config.Get().Uploads.AllowedTypes) == 0 {
allowed = true
}
}
return allowed
}
func StoreDirect(contents io.Reader, contentType string, filename string, userId string, origin string, mediaId string, ctx context.Context, log *logrus.Entry) (*types.Media, error) {
datastore, location, err := storage.PersistFile(contents, ctx, log)
if err != nil {
return nil, err
}
fileLocation := datastore.ResolveFilePath(location)
fileMime, err := util.GetMimeType(fileLocation)
if err != nil {
log.Error("Error while checking content type of file: ", err.Error())
os.Remove(fileLocation) // delete temp file
return nil, err
}
allowed := IsAllowed(fileMime, contentType, userId, log)
if !allowed {
log.Warn("Content type " + fileMime + " (reported as " + contentType + ") is not allowed to be uploaded")
os.Remove(fileLocation) // delete temp file
return nil, common.ErrMediaNotAllowed
}
hash, err := storage.GetFileHash(fileLocation)
if err != nil {
os.Remove(fileLocation) // delete temp file
return nil, err
}
db := storage.GetDatabase().GetMediaStore(ctx, log)
records, err := db.GetByHash(hash)
if err != nil {
os.Remove(fileLocation) // delete temp file
return nil, err
}
if len(records) > 0 {
log.Info("Duplicate media for hash ", hash)
// If the user is a real user (ie: actually uploaded media), then we'll see if there's
// an exact duplicate that we can return. Otherwise we'll just pick the first record and
// clone that.
if userId != NoApplicableUploadUser {
for _, record := range records {
if record.UserId == userId && record.Origin == origin && record.ContentType == contentType {
log.Info("User has already uploaded this media before - returning unaltered media record")
os.Remove(fileLocation) // delete temp file
trackUploadAsLastAccess(ctx, log, record)
return record, nil
}
}
}
// We'll use the location from the first record
media := records[0]
media.Origin = origin
media.MediaId = mediaId
media.UserId = userId
media.UploadName = filename
media.ContentType = contentType
media.CreationTs = util.NowMillis()
err = db.Insert(media)
if err != nil {
os.Remove(fileLocation) // delete temp file
return nil, err
}
// If the media's file exists, we'll delete the temp file
// If the media's file doesn't exist, we'll move the temp file to where the media expects it to be
targetPath, err2 := storage.ResolveMediaLocation(ctx, log, media.DatastoreId, media.Location)
if err2 != nil {
return nil, err2
}
exists, err := util.FileExists(targetPath)
if err != nil || !exists {
// We'll assume an error means it doesn't exist
os.Rename(fileLocation, targetPath)
} else {
os.Remove(fileLocation)
}
trackUploadAsLastAccess(ctx, log, media)
return media, nil
}
// The media doesn't already exist - save it as new
fileSize, err := util.FileSize(fileLocation)
if err != nil {
os.Remove(fileLocation) // delete temp file
return nil, err
}
if fileSize <= 0 {
return nil, errors.New("file has no contents")
}
log.Info("Persisting new media record")
media := &types.Media{
Origin: origin,
MediaId: mediaId,
UploadName: filename,
ContentType: contentType,
UserId: userId,
Sha256Hash: hash,
SizeBytes: fileSize,
DatastoreId: datastore.DatastoreId,
Location: location,
CreationTs: util.NowMillis(),
}
err = db.Insert(media)
if err != nil {
os.Remove(fileLocation) // delete temp file
return nil, err
}
trackUploadAsLastAccess(ctx, log, media)
return media, nil
}
|
zenkovich/o2 | Editor/Sources/o2Editor/Core/UI/SpoilerWithHead.h | #pragma once
#include "o2/Scene/UI/Widgets/Spoiler.h"
using namespace o2;
namespace o2
{
class Button;
class Image;
}
namespace Editor
{
// -----------------------------------------------
// Editor properties spoiler with head and caption
// -----------------------------------------------
class SpoilerWithHead : public Spoiler
{
public:
Function<void()> onOptionsPressed; // Options button pressed event
Function<void()> onSavePressed; // Save button pressed event
public:
// Default constructor
SpoilerWithHead();
// Copy constructor
SpoilerWithHead(const SpoilerWithHead& other);
// Copy operator
SpoilerWithHead& operator=(const SpoilerWithHead& other);
// Returns icon
Image* GetIcon() const;
// Returns create menu category in editor
static String GetCreateMenuCategory();
IOBJECT(SpoilerWithHead);
private:
Button* mOptionsBtn = nullptr; // Component option button
Button* mSaveBtn = nullptr; // Save prototype button
Image* mIcon = nullptr; // Component icon
private:
// Initializes controls: options, save button and icon
void InitializeControls();
};
}
CLASS_BASES_META(Editor::SpoilerWithHead)
{
BASE_CLASS(o2::Spoiler);
}
END_META;
CLASS_FIELDS_META(Editor::SpoilerWithHead)
{
FIELD().NAME(onOptionsPressed).PUBLIC();
FIELD().NAME(onSavePressed).PUBLIC();
FIELD().DEFAULT_VALUE(nullptr).NAME(mOptionsBtn).PRIVATE();
FIELD().DEFAULT_VALUE(nullptr).NAME(mSaveBtn).PRIVATE();
FIELD().DEFAULT_VALUE(nullptr).NAME(mIcon).PRIVATE();
}
END_META;
CLASS_METHODS_META(Editor::SpoilerWithHead)
{
PUBLIC_FUNCTION(Image*, GetIcon);
PUBLIC_STATIC_FUNCTION(String, GetCreateMenuCategory);
PRIVATE_FUNCTION(void, InitializeControls);
}
END_META;
|
dkzhang/Robot2019 | chassisDriverForRobot/robotSinglePointMove/server/server_test.go | package server
import (
robotSinglePointMove "Robot2019/chassisDriverForRobot/robotSinglePointMove/grpc"
"testing"
)
func TestGenerateMoveCommand(t *testing.T) {
spi := &robotSinglePointMove.SinglePointInfo{
InfoMask: 16,
Marker: "R1x1",
LocationX: 1.1,
LocationY: 2.2,
LocationTheta: 3.3,
MaxContinuousRetries: 4,
DistanceTolerance: 5.5,
ThetaTolerance: 6.6,
}
cmd, uuid := GenerateMoveCommand(spi)
t.Logf("cmd=%s, uuid=%s", cmd, uuid)
}
func TestServer_Move(t *testing.T) {
s := Server{}
spi := &robotSinglePointMove.SinglePointInfo{
InfoMask: 16,
Marker: "charger",
//Marker: "R7x9",
LocationX: 1.1,
LocationY: 2.2,
LocationTheta: 3.3,
MaxContinuousRetries: 4,
DistanceTolerance: 5.5,
ThetaTolerance: 6.6,
}
r, err := s.MoveAndWaitForArrival(nil, spi)
if err != nil {
t.Errorf("MoveAndWaitForArrival error: %v", err)
} else {
t.Logf("MoveAndWaitForArrival response = %v", *r)
}
}
|
fredyw/leetcode | src/main/java/leetcode/Problem4.java | package leetcode;
import java.util.ArrayList;
import java.util.List;
/**
* https://leetcode.com/problems/median-of-two-sorted-arrays/
*/
public class Problem4 {
public double findMedianSortedArrays(int[] nums1, int[] nums2) {
int i = 0;
int j = 0;
int size = nums1.length + nums2.length;
boolean odd = true;
if (size % 2 == 0) {
odd = false;
}
int mid = (nums1.length + nums2.length) / 2;
if (!odd) {
mid--;
}
int k = 0;
boolean found = false;
List<Integer> vals = new ArrayList<>();
outer:
while (true) {
while (i < nums1.length && j < nums2.length && nums1[i] <= nums2[j]) {
if (k == mid) {
vals.add(nums1[i]);
if (odd || (!odd && vals.size() == 2)) {
found = true;
}
if (found) {
break outer;
}
mid++;
}
k++;
i++;
}
if (i == nums1.length) {
break;
}
while (i < nums1.length && j < nums2.length && nums1[i] > nums2[j]) {
if (k == mid) {
vals.add(nums2[j]);
if (odd || (!odd && vals.size() == 2)) {
found = true;
}
if (found) {
break outer;
}
mid++;
}
k++;
j++;
}
if (j == nums2.length) {
break;
}
}
if (!found) {
while (i < nums1.length) {
if (k == mid) {
vals.add(nums1[i]);
if (odd || (!odd && vals.size() == 2)) {
found = true;
}
if (found) {
break;
}
mid++;
}
k++;
i++;
}
}
if (!found) {
while (j < nums2.length) {
if (k == mid) {
vals.add(nums2[j]);
if (odd || (!odd && vals.size() == 2)) {
found = true;
}
if (found) {
break;
}
mid++;
}
k++;
j++;
}
}
if (odd) {
return vals.get(0);
}
return (vals.get(0) + vals.get(1)) / 2.0;
}
}
|
airtoxin/Semantic-UI-React | test/specs/lib/keyboardKey-test.js | import _ from 'lodash'
import { keyboardKey } from 'src/lib'
const _wrongReturn = (method, arg, ret) =>
`keyboardKey.${method}(${arg}) should return key name "${ret}"\n`
const wrongCode = (...args) => _wrongReturn('getCode', ...args)
const wrongName = (...args) => _wrongReturn('getName', ...args)
const missingPair = (key, val) => (
`keyboardKey is missing property "${key}" with value ${val}\n`
)
describe('keyboardKey', () => {
it('has a key/value for every value/key in codes', () => {
_.each(keyboardKey.codes, (name, code) => {
if (Array.isArray(name)) {
String(keyboardKey[name[0]]).should.equal(code, missingPair(name[0], code))
String(keyboardKey[name[1]]).should.equal(code, missingPair(name[1], code))
} else {
String(keyboardKey[name]).should.equal(code, missingPair(name, code))
}
})
})
describe('getCode', () => {
it('is a function', () => {
expect(keyboardKey.getCode).to.be.a('function')
})
it('returns the code for a given key name', () => {
keyboardKey.getCode('Enter').should.equal(13, wrongCode('Enter', 13))
})
it('handles all key names in codes', () => {
_.each(keyboardKey.codes, (name, code) => {
const _code = Number(code)
if (Array.isArray(name)) {
expect(keyboardKey.getCode(name[0])).to.equal(_code, wrongCode(name[0], code))
expect(keyboardKey.getCode(name[1])).to.equal(_code, wrongCode(name[1], code))
} else {
expect(keyboardKey.getCode(name)).to.equal(_code, wrongCode(name, code))
}
})
})
it('handles event like objects with `key` prop', () => {
_.each(keyboardKey.codes, (name, code) => {
const _code = Number(code)
if (Array.isArray(name)) {
const key0 = { key: name[0] }
const key1 = { key: name[1] }
keyboardKey.getCode(key0).should.equal(_code, wrongCode(key0, code))
keyboardKey.getCode(key1).should.equal(_code, wrongCode(key1, code))
} else {
const key = { key: name }
expect(keyboardKey.getCode(key)).to.equal(_code, wrongCode(key, code))
}
})
})
})
describe('getName', () => {
it('is a function', () => {
expect(keyboardKey.getName).to.be.a('function')
})
it('returns the code for a given key name', () => {
keyboardKey.getName(13).should.equal('Enter', wrongName(13, 'Enter'))
})
it('handles all codes', () => {
_.each(keyboardKey.codes, (name, code) => {
const keyName = keyboardKey.getName(code)
if (Array.isArray(name)) {
expect(keyName).to.equal(name[0], wrongName(code, name[0]))
} else {
expect(keyName).to.equal(name, wrongName(code, name))
}
})
})
it('handles event like object: { keyCode: code, shiftKey: false }`', () => {
_.each(keyboardKey.codes, (name, code) => {
const keyName = keyboardKey.getName({ keyCode: code, shiftKey: false })
if (Array.isArray(name)) {
expect(keyName).to.equal(name[0], wrongName(code, name[0]))
} else {
expect(keyName).to.equal(name, wrongName(code, name))
}
})
})
it('handles event like object: { keyCode: code, shiftKey: true }`', () => {
_.each(keyboardKey.codes, (name, code) => {
const keyName = keyboardKey.getName({ keyCode: code, shiftKey: true })
if (Array.isArray(name)) {
expect(keyName).to.equal(name[1], wrongName(code, name[1]))
} else {
expect(keyName).to.equal(name, wrongName(code, name))
}
})
})
it('handles event like object: { which: code, shiftKey: false }', () => {
_.each(keyboardKey.codes, (name, code) => {
const keyName = keyboardKey.getName({ which: code, shiftKey: false })
if (Array.isArray(name)) {
expect(keyName).to.equal(name[0], wrongName(code, name[0]))
} else {
expect(keyName).to.equal(name, wrongName(code, name))
}
})
})
it('handles event like object: { which: code, shiftKey: true }', () => {
_.each(keyboardKey.codes, (name, code) => {
const keyName = keyboardKey.getName({ which: code, shiftKey: true })
if (Array.isArray(name)) {
expect(keyName).to.equal(name[1], wrongName(code, name[1]))
} else {
expect(keyName).to.equal(name, wrongName(code, name))
}
})
})
})
})
|
rclsilver/manager | packages/manager/modules/web-paas/src/components/terminate/controller.js | import get from 'lodash/get';
export default class WebPaasTerminateCtrl {
/* @ngInject */
constructor($translate, WebPaas) {
this.$translate = $translate;
this.WebPaas = WebPaas;
}
$onInit() {
this.isDeleting = false;
}
terminate() {
this.isDeleting = true;
return this.WebPaas.terminateProject(this.projectId)
.then(() =>
this.goBack(
this.$translate.instant('web_paas_service_terminate_success'),
),
)
.catch((error) =>
this.goBack(
this.$translate.instant('web_paas_service_terminate_error', {
message: get(error, 'data.message'),
}),
'error',
),
);
}
}
|
turbanoff/jmc | core/org.openjdk.jmc.flightrecorder/src/main/java/org/openjdk/jmc/flightrecorder/internal/util/DataInputToolkit.java | /*
* Copyright (c) 2018, Oracle and/or its affiliates. All rights reserved.
*
* DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER.
*
* The contents of this file are subject to the terms of either the Universal Permissive License
* v 1.0 as shown at http://oss.oracle.com/licenses/upl
*
* or the following license:
*
* Redistribution and use in source and binary forms, with or without modification, are permitted
* provided that the following conditions are met:
*
* 1. Redistributions of source code must retain the above copyright notice, this list of conditions
* and the following disclaimer.
*
* 2. Redistributions in binary form must reproduce the above copyright notice, this list of
* conditions and the following disclaimer in the documentation and/or other materials provided with
* the distribution.
*
* 3. Neither the name of the copyright holder nor the names of its contributors may be used to
* endorse or promote products derived from this software without specific prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR
* IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND
* FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR
* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL
* DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
* DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
* WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY
* WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
*/
package org.openjdk.jmc.flightrecorder.internal.util;
public class DataInputToolkit {
public static final byte BYTE_SIZE = 1;
public static final byte BOOLEAN_SIZE = 1;
public static final byte SHORT_SIZE = 2;
public static final byte CHAR_SIZE = 2;
public static final byte INTEGER_SIZE = 4;
public static final byte LONG_SIZE = 8;
public static final byte FLOAT_SIZE = 4;
public static final byte DOUBLE_SIZE = 8;
public static int readUnsignedByte(byte[] bytes, int offset) {
return bytes[offset] & 0xFF;
}
public static byte readByte(byte[] bytes, int offset) {
return bytes[offset];
}
public static int readUnsignedShort(byte[] bytes, int offset) {
int ch1 = (bytes[offset] & 0xff);
int ch2 = (bytes[offset + 1] & 0xff);
return (ch1 << 8) + (ch2 << 0);
}
public static short readShort(byte[] bytes, int offset) {
return (short) readUnsignedShort(bytes, offset);
}
public static char readChar(byte[] bytes, int offset) {
return (char) readUnsignedShort(bytes, offset);
}
public static long readUnsignedInt(byte[] bytes, int index) {
return readInt(bytes, index) & 0xffffffffL;
}
public static int readInt(byte[] bytes, int index) {
int ch1 = (bytes[index] & 0xff);
int ch2 = (bytes[index + 1] & 0xff);
int ch3 = (bytes[index + 2] & 0xff);
int ch4 = (bytes[index + 3] & 0xff);
return ((ch1 << 24) + (ch2 << 16) + (ch3 << 8) + (ch4 << 0));
}
public static long readLong(byte[] bytes, int index) {
return (((long) bytes[index + 0] << 56) + ((long) (bytes[index + 1] & 255) << 48)
+ ((long) (bytes[index + 2] & 255) << 40) + ((long) (bytes[index + 3] & 255) << 32)
+ ((long) (bytes[index + 4] & 255) << 24) + ((bytes[index + 5] & 255) << 16)
+ ((bytes[index + 6] & 255) << 8) + ((bytes[index + 7] & 255) << 0));
}
public static float readFloat(byte[] bytes, int offset) {
return Float.intBitsToFloat(readInt(bytes, offset));
}
public static double readDouble(byte[] bytes, int offset) {
return Double.longBitsToDouble(readLong(bytes, offset));
}
public static boolean readBoolean(byte[] bytes, int offset) {
return bytes[offset] != 0;
}
}
|
stravant/bfbbdecomp | dwarf/SB/Core/p2/iEnv.cpp | typedef struct RpMaterial;
typedef struct xAnimTransition;
typedef struct xEnt;
typedef struct RpAtomic;
typedef struct xAnimTransitionList;
typedef struct RxHeap;
typedef struct RwLLLink;
typedef struct analog_data;
typedef struct RwMatrixTag;
typedef struct RpMaterialList;
typedef struct xScene;
typedef struct RwBBox;
typedef struct RwRGBA;
typedef struct RxPipelineNode;
typedef struct xShadowSimpleCache;
typedef struct xAnimState;
typedef struct xJSPNodeInfo;
typedef struct iEnv;
typedef struct RxPS2AllPipeData;
typedef struct xEntCollis;
typedef struct xBase;
typedef struct xQuat;
typedef struct rxNodePS2AllPvtData;
typedef struct xGroup;
typedef struct RwCamera;
typedef struct RxPipeline;
typedef struct RwTexCoords;
typedef struct RwV3d;
typedef struct RxPipelineNodeTopSortData;
typedef struct rxHeapBlockHeader;
typedef struct RwStreamCustom;
typedef struct xClumpCollBSPBranchNode;
typedef struct RpWorld;
typedef struct xGridBound;
typedef struct zCheckPoint;
typedef struct RwStream;
typedef struct zPlayerGlobals;
typedef struct xEntFrame;
typedef struct RxPipelineRequiresCluster;
typedef struct rxNodePS2AllMatPvtData;
typedef struct RpClump;
typedef struct RpGeometry;
typedef struct RpCollisionTriangle;
typedef struct _class_0;
typedef struct RwResEntry;
typedef struct RpWorldSector;
typedef struct xCollis;
typedef struct RpMeshHeader;
typedef struct zPlayerCarryInfo;
typedef struct xUpdateCullMgr;
typedef struct RwMeshCache;
typedef struct xAnimMultiFile;
typedef struct xSurface;
typedef struct xCamera;
typedef struct RpMorphTarget;
typedef struct xJSPHeader;
typedef struct zPlayerSettings;
typedef struct RpPolygon;
typedef struct xFFX;
typedef struct xVec4;
typedef struct xModelBucket;
typedef struct zEnt;
typedef struct xVec3;
typedef struct RwSurfaceProperties;
typedef struct RwFrame;
typedef struct xModelTag;
typedef struct rxHeapSuperBlockDescriptor;
typedef struct RpVertexNormal;
typedef struct iFogParams;
typedef struct rxReq;
typedef struct xUpdateCullEnt;
typedef struct xModelInstance;
typedef struct RwRaster;
typedef struct RwTexture;
typedef enum RxClusterValidityReq;
typedef struct rwPS2AllClusterInstanceInfo;
typedef struct xEntShadow;
typedef struct xLightKit;
typedef struct xClumpCollBSPTree;
typedef struct xLinkAsset;
typedef struct xMat4x3;
typedef struct RwStreamUnion;
typedef struct anim_coll_data;
typedef struct RpMesh;
typedef struct xAnimTable;
typedef enum RpMeshHeaderFlags;
typedef struct xBound;
typedef enum RxNodeDefEditable;
typedef struct _tagxRumble;
typedef struct xUpdateCullGroup;
typedef enum RxClusterValid;
typedef struct RpLightTie;
typedef enum RwStreamType;
typedef struct _zPortal;
typedef struct RpTriangle;
typedef struct rxHeapFreeBlock;
typedef struct xRot;
typedef struct RwChunkHeaderInfo;
typedef enum rxEmbeddedPacketState;
typedef struct xSphere;
typedef struct rwPS2AllFieldRec;
typedef struct xVec2;
typedef enum RwCameraProjection;
typedef struct xAnimMultiFileEntry;
typedef enum RxClusterForcePresent;
typedef struct xCylinder;
typedef struct xAnimActiveEffect;
typedef enum _tagPadState;
typedef struct RxNodeDefinition;
typedef struct xEntBoulder;
typedef struct _class_1;
typedef struct xEnv;
typedef struct xAnimFile;
typedef struct xBox;
typedef struct xGlobals;
typedef struct RxClusterDefinition;
typedef struct zEntHangable;
typedef enum RwStreamAccessType;
typedef struct RwSphere;
typedef struct xAnimSingle;
typedef struct _tagxPad;
typedef enum RpWorldRenderOrder;
typedef enum RxInstanceFlags;
typedef struct xAnimMultiFileBase;
typedef struct RwTexDictionary;
typedef struct xAnimEffect;
typedef struct xGroupAsset;
typedef struct _tagPadAnalog;
typedef struct RxOutputSpec;
typedef struct xEntAsset;
typedef struct zScene;
typedef struct _tagiPad;
typedef struct xMat3x3;
typedef struct RpSector;
typedef struct xPortalAsset;
typedef struct RwStreamMemory;
typedef struct RxClusterRef;
typedef struct rwPS2AllResEntryHeader;
typedef struct rwPS2AllResEntryFormat;
typedef struct zJumpParam;
typedef struct xAnimPlay;
typedef struct rwPS2AllClusterQuickInfo;
typedef struct RwObject;
typedef struct xModelPool;
typedef struct RxIoSpec;
typedef struct rpAtomicPS2AllLightData;
typedef struct RpLight;
typedef struct xMemPool;
typedef struct xQCData;
typedef struct RxNodeMethods;
typedef struct zPlatform;
typedef struct xClumpCollBSPVertInfo;
typedef struct RxPipelineCluster;
typedef struct xLightKitLight;
typedef struct _zEnv;
typedef struct RwFrustumPlane;
typedef struct zCutsceneMgr;
typedef struct RwStreamFile;
typedef struct xEntDrive;
typedef struct RwPlane;
typedef struct xClumpCollBSPTriangle;
typedef struct xEnvAsset;
typedef struct zAssetPickupTable;
typedef struct RxCluster;
typedef struct zGlobals;
typedef struct RxPipelineNodeParam;
typedef struct zGlobalSettings;
typedef struct RxPacket;
typedef struct zPlayerLassoInfo;
typedef enum RwFogType;
typedef struct RwRGBAReal;
typedef struct zLedgeGrabParams;
typedef struct _class_2;
typedef struct RwObjectHasFrame;
typedef struct RwLinkList;
typedef enum RwCullMode;
typedef enum _zPlayerWallJumpState;
typedef struct xShadowSimplePoly;
typedef struct RpInterpolator;
typedef struct RwV2d;
typedef struct xBBox;
typedef struct tri_data_0;
typedef struct xBaseAsset;
typedef struct zLasso;
typedef enum _tagRumbleType;
typedef enum _zPlayerType;
typedef struct tri_data_1;
typedef void(*type_0)(xEnt*, xScene*, float32);
typedef int32(*type_1)(void*, uint32);
typedef void(*type_4)(xEnt*, xVec3*);
typedef void(*type_5)(xEnt*, xScene*, float32, xEntCollis*);
typedef uint32(*type_6)(xAnimTransition*, xAnimSingle*, void*);
typedef void(*type_8)(xEnt*, xScene*, float32, xEntFrame*);
typedef xBase*(*type_10)(uint32);
typedef uint32(*type_11)(RxPipelineNode*, uint32, uint32, void*);
typedef void(*type_12)(xEnt*);
typedef int32(*type_13)(RxPipelineNode*, RxPipelineNodeParam*);
typedef int32(*type_14)(void*);
typedef int32(*type_17)(RxPS2AllPipeData*);
typedef int32(*type_18)(RxNodeDefinition*);
typedef uint32(*type_19)(void*, void*, uint32);
typedef int8*(*type_20)(xBase*);
typedef void(*type_21)(RxNodeDefinition*);
typedef uint32(*type_22)(xEnt*, xEnt*, xScene*, float32, xCollis*);
typedef int32(*type_23)(void*, void*, uint32);
typedef int32(*type_26)(RxPipelineNode*);
typedef void(*type_27)(xEnt*, xVec3*, xMat4x3*);
typedef int8*(*type_28)(uint32);
typedef void(*type_30)(xAnimPlay*, xAnimState*);
typedef RpClump*(*type_31)(RpClump*, void*);
typedef void(*type_32)(RxPipelineNode*);
typedef void(*type_33)(xAnimState*, xAnimSingle*, void*);
typedef void(*type_35)(RwResEntry*);
typedef int32(*type_36)(RxPipelineNode*, RxPipeline*);
typedef RwResEntry*(*type_37)(RxPS2AllPipeData*, RwResEntry**, uint32, void(*)(RwResEntry*));
typedef void(*type_38)(xAnimPlay*, xQuat*, xVec3*, int32);
typedef int32(*type_41)(RxPS2AllPipeData*, void**, uint32);
typedef int32(*type_47)(RxPS2AllPipeData*);
typedef void(*type_49)(void*);
typedef int32(*type_50)(RxPS2AllPipeData*);
typedef RpAtomic*(*type_55)(RpAtomic*);
typedef int32(*type_56)(RxPS2AllPipeData*);
typedef int32(*type_64)(RxPS2AllPipeData*, RwMatrixTag**);
typedef uint32(*type_66)(uint32, xAnimActiveEffect*, xAnimSingle*, void*);
typedef RpAtomic*(*type_70)(RpAtomic*, void*);
typedef RwResEntry*(*type_72)(RxPS2AllPipeData*, RwResEntry**, uint32, void(*)(RwResEntry*));
typedef int32(*type_76)(xBase*, xBase*, uint32, float32*, xBase*);
typedef int32(*type_82)(RxPS2AllPipeData*, void**, uint32);
typedef RwCamera*(*type_84)(RwCamera*);
typedef RpWorldSector*(*type_85)(RpWorldSector*);
typedef RwCamera*(*type_94)(RwCamera*);
typedef void(*type_95)(xMemPool*, void*);
typedef uint32(*type_97)(void*, void*);
typedef RpLight*(*type_103)(RpLight*, void*);
typedef RwObjectHasFrame*(*type_107)(RwObjectHasFrame*);
typedef uint32 type_2[15];
typedef uint16 type_3[3];
typedef uint32 type_7[15];
typedef RwFrustumPlane type_9[6];
typedef uint32 type_15[15];
typedef RwV3d type_16[8];
typedef analog_data type_24[2];
typedef rwPS2AllClusterQuickInfo type_25[12];
typedef rwPS2AllFieldRec type_29[12];
typedef int8 type_34[4];
typedef xVec3 type_39[4];
typedef RwTexCoords* type_40[8];
typedef uint8 type_42[2];
typedef xVec4 type_43[12];
typedef uint32 type_44[2];
typedef uint8 type_45[2];
typedef float32 type_46[6];
typedef uint8 type_48[3];
typedef float32 type_51[3];
typedef float32 type_52[4];
typedef uint16 type_53[3];
typedef float32 type_54[3];
typedef xCollis type_57[18];
typedef xModelTag type_58[2];
typedef float32 type_59[3];
typedef xVec3 type_60[5];
typedef float32 type_61[4];
typedef uint8 type_62[5];
typedef xEnt* type_63[111];
typedef uint32 type_65[4];
typedef uint8 type_67[1];
typedef float32 type_68[2];
typedef int8 type_69[128];
typedef int8 type_71[128][6];
typedef RwTexCoords* type_73[8];
typedef uint8 type_74[14];
typedef xModelTag type_75[4];
typedef uint32 type_77[4096];
typedef rwPS2AllClusterInstanceInfo type_78[12];
typedef int8 type_79[32];
typedef xModelInstance* type_80[14];
typedef uint32 type_81[12];
typedef RwV3d* type_83[3];
typedef uint32 type_86[72];
typedef uint8 type_87[2];
typedef int8 type_88[64];
typedef float32 type_89[2];
typedef uint8 type_90[2];
typedef uint8 type_91[4];
typedef xAnimMultiFileEntry type_92[1];
typedef xBase* type_93[72];
typedef float32 type_96[16];
typedef int8 type_98[32];
typedef uint8 type_99[22];
typedef int8 type_100[32];
typedef uint8 type_101[22];
typedef rwPS2AllFieldRec type_102[12];
typedef RxCluster type_104[1];
typedef RpLight* type_105[2];
typedef xVec3 type_106[60];
typedef xVec3 type_108[3];
typedef RwFrame* type_109[2];
typedef float32 type_110[22];
typedef void* type_111[8];
typedef RwResEntry* type_112[1];
typedef float32 type_113[22];
struct RpMaterial
{
RwTexture* texture;
RwRGBA color;
RxPipeline* pipeline;
RwSurfaceProperties surfaceProps;
int16 refCount;
int16 pad;
};
struct xAnimTransition
{
xAnimTransition* Next;
xAnimState* Dest;
uint32(*Conditional)(xAnimTransition*, xAnimSingle*, void*);
uint32(*Callback)(xAnimTransition*, xAnimSingle*, void*);
uint32 Flags;
uint32 UserFlags;
float32 SrcTime;
float32 DestTime;
uint16 Priority;
uint16 QueuePriority;
float32 BlendRecip;
uint16* BlendOffset;
};
struct xEnt : xBase
{
xEntAsset* asset;
uint16 idx;
uint16 num_updates;
uint8 flags;
uint8 miscflags;
uint8 subType;
uint8 pflags;
uint8 moreFlags;
uint8 isCulled;
uint8 driving_count;
uint8 num_ffx;
uint8 collType;
uint8 collLev;
uint8 chkby;
uint8 penby;
xModelInstance* model;
xModelInstance* collModel;
xModelInstance* camcollModel;
xLightKit* lightKit;
void(*update)(xEnt*, xScene*, float32);
void(*endUpdate)(xEnt*, xScene*, float32);
void(*bupdate)(xEnt*, xVec3*);
void(*move)(xEnt*, xScene*, float32, xEntFrame*);
void(*render)(xEnt*);
xEntFrame* frame;
xEntCollis* collis;
xGridBound gridb;
xBound bound;
void(*transl)(xEnt*, xVec3*, xMat4x3*);
xFFX* ffx;
xEnt* driver;
int32 driveMode;
xShadowSimpleCache* simpShadow;
xEntShadow* entShadow;
anim_coll_data* anim_coll;
void* user_data;
};
struct RpAtomic
{
RwObjectHasFrame object;
RwResEntry* repEntry;
RpGeometry* geometry;
RwSphere boundingSphere;
RwSphere worldBoundingSphere;
RpClump* clump;
RwLLLink inClumpLink;
RpAtomic*(*renderCallBack)(RpAtomic*);
RpInterpolator interpolator;
uint16 renderFrame;
uint16 pad;
RwLinkList llWorldSectorsInAtomic;
RxPipeline* pipeline;
};
struct xAnimTransitionList
{
xAnimTransitionList* Next;
xAnimTransition* T;
};
struct RxHeap
{
uint32 superBlockSize;
rxHeapSuperBlockDescriptor* head;
rxHeapBlockHeader* headBlock;
rxHeapFreeBlock* freeBlocks;
uint32 entriesAlloced;
uint32 entriesUsed;
int32 dirty;
};
struct RwLLLink
{
RwLLLink* next;
RwLLLink* prev;
};
struct analog_data
{
xVec2 offset;
xVec2 dir;
float32 mag;
float32 ang;
};
struct RwMatrixTag
{
RwV3d right;
uint32 flags;
RwV3d up;
uint32 pad1;
RwV3d at;
uint32 pad2;
RwV3d pos;
uint32 pad3;
};
struct RpMaterialList
{
RpMaterial** materials;
int32 numMaterials;
int32 space;
};
struct xScene
{
uint32 sceneID;
uint16 flags;
uint16 num_ents;
uint16 num_trigs;
uint16 num_stats;
uint16 num_dyns;
uint16 num_npcs;
uint16 num_act_ents;
uint16 num_nact_ents;
float32 gravity;
float32 drag;
float32 friction;
uint16 num_ents_allocd;
uint16 num_trigs_allocd;
uint16 num_stats_allocd;
uint16 num_dyns_allocd;
uint16 num_npcs_allocd;
xEnt** trigs;
xEnt** stats;
xEnt** dyns;
xEnt** npcs;
xEnt** act_ents;
xEnt** nact_ents;
xEnv* env;
xMemPool mempool;
xBase*(*resolvID)(uint32);
int8*(*base2Name)(xBase*);
int8*(*id2Name)(uint32);
};
struct RwBBox
{
RwV3d sup;
RwV3d inf;
};
struct RwRGBA
{
uint8 red;
uint8 green;
uint8 blue;
uint8 alpha;
};
struct RxPipelineNode
{
RxNodeDefinition* nodeDef;
uint32 numOutputs;
uint32* outputs;
RxPipelineCluster** slotClusterRefs;
uint32* slotsContinue;
void* privateData;
uint32* inputToClusterSlot;
RxPipelineNodeTopSortData* topSortData;
void* initializationData;
uint32 initializationDataSize;
};
struct xShadowSimpleCache
{
uint16 flags;
uint8 alpha;
uint8 pad;
uint32 collPriority;
xVec3 pos;
xVec3 at;
xEnt* castOnEnt;
xShadowSimplePoly poly;
float32 envHeight;
float32 shadowHeight;
uint32 raster;
float32 dydx;
float32 dydz;
xVec3 corner[4];
};
struct xAnimState
{
xAnimState* Next;
int8* Name;
uint32 ID;
uint32 Flags;
uint32 UserFlags;
float32 Speed;
xAnimFile* Data;
xAnimEffect* Effects;
xAnimTransitionList* Default;
xAnimTransitionList* List;
float32* BoneBlend;
float32* TimeSnap;
float32 FadeRecip;
uint16* FadeOffset;
void* CallbackData;
xAnimMultiFile* MultiFile;
void(*BeforeEnter)(xAnimPlay*, xAnimState*);
void(*StateCallback)(xAnimState*, xAnimSingle*, void*);
void(*BeforeAnimMatrices)(xAnimPlay*, xQuat*, xVec3*, int32);
};
struct xJSPNodeInfo
{
int32 originalMatIndex;
int32 nodeFlags;
};
struct iEnv
{
RpWorld* world;
RpWorld* collision;
RpWorld* fx;
RpWorld* camera;
xJSPHeader* jsp;
RpLight* light[2];
RwFrame* light_frame[2];
int32 memlvl;
};
struct RxPS2AllPipeData
{
rxNodePS2AllPvtData* objPvtData;
rxNodePS2AllMatPvtData* matPvtData;
void* sourceObject;
RpMeshHeader* meshHeader;
RwMeshCache* meshCache;
RxInstanceFlags objInstance;
uint32 objIdentifier;
float32 spExtra;
int32 numMorphTargets;
uint32 fastMorphing;
uint8 transType;
uint8 primType;
uint8 matModulate;
uint8 vu1CodeIndex;
RpMesh* mesh;
RwResEntry** cacheEntryRef;
RxInstanceFlags meshInstance;
uint32 meshIdentifier;
RwSurfaceProperties* surfProps;
RwTexture* texture;
RwRGBA matCol;
};
struct xEntCollis
{
uint8 chk;
uint8 pen;
uint8 env_sidx;
uint8 env_eidx;
uint8 npc_sidx;
uint8 npc_eidx;
uint8 dyn_sidx;
uint8 dyn_eidx;
uint8 stat_sidx;
uint8 stat_eidx;
uint8 idx;
xCollis colls[18];
void(*post)(xEnt*, xScene*, float32, xEntCollis*);
uint32(*depenq)(xEnt*, xEnt*, xScene*, float32, xCollis*);
};
struct xBase
{
uint32 id;
uint8 baseType;
uint8 linkCount;
uint16 baseFlags;
xLinkAsset* link;
int32(*eventFunc)(xBase*, xBase*, uint32, float32*, xBase*);
};
struct xQuat
{
xVec3 v;
float32 s;
};
struct rxNodePS2AllPvtData
{
};
struct xGroup : xBase
{
xGroupAsset* asset;
xBase** item;
uint32 last_index;
int32 flg_group;
};
struct RwCamera
{
RwObjectHasFrame object;
RwCameraProjection projectionType;
RwCamera*(*beginUpdate)(RwCamera*);
RwCamera*(*endUpdate)(RwCamera*);
RwMatrixTag viewMatrix;
RwRaster* frameBuffer;
RwRaster* zBuffer;
RwV2d viewWindow;
RwV2d recipViewWindow;
RwV2d viewOffset;
float32 nearPlane;
float32 farPlane;
float32 fogPlane;
float32 zScale;
float32 zShift;
RwFrustumPlane frustumPlanes[6];
RwBBox frustumBoundBox;
RwV3d frustumCorners[8];
};
struct RxPipeline
{
int32 locked;
uint32 numNodes;
RxPipelineNode* nodes;
uint32 packetNumClusterSlots;
rxEmbeddedPacketState embeddedPacketState;
RxPacket* embeddedPacket;
uint32 numInputRequirements;
RxPipelineRequiresCluster* inputRequirements;
void* superBlock;
uint32 superBlockSize;
uint32 entryPoint;
uint32 pluginId;
uint32 pluginData;
};
struct RwTexCoords
{
float32 u;
float32 v;
};
struct RwV3d
{
float32 x;
float32 y;
float32 z;
};
struct RxPipelineNodeTopSortData
{
uint32 numIns;
uint32 numInsVisited;
rxReq* req;
};
struct rxHeapBlockHeader
{
rxHeapBlockHeader* prev;
rxHeapBlockHeader* next;
uint32 size;
rxHeapFreeBlock* freeEntry;
uint32 pad[4];
};
struct RwStreamCustom
{
int32(*sfnclose)(void*);
uint32(*sfnread)(void*, void*, uint32);
int32(*sfnwrite)(void*, void*, uint32);
int32(*sfnskip)(void*, uint32);
void* data;
};
struct xClumpCollBSPBranchNode
{
uint32 leftInfo;
uint32 rightInfo;
float32 leftValue;
float32 rightValue;
};
struct RpWorld
{
RwObject object;
uint32 flags;
RpWorldRenderOrder renderOrder;
RpMaterialList matList;
RpSector* rootSector;
int32 numTexCoordSets;
int32 numClumpsInWorld;
RwLLLink* currentClumpLink;
RwLinkList clumpList;
RwLinkList lightList;
RwLinkList directionalLightList;
RwV3d worldOrigin;
RwBBox boundingBox;
RpWorldSector*(*renderCallBack)(RpWorldSector*);
RxPipeline* pipeline;
};
struct xGridBound
{
void* data;
uint16 gx;
uint16 gz;
uint8 ingrid;
uint8 oversize;
uint8 deleted;
uint8 gpad;
xGridBound** head;
xGridBound* next;
};
struct zCheckPoint
{
xVec3 pos;
float32 rot;
uint32 initCamID;
};
struct RwStream
{
RwStreamType type;
RwStreamAccessType accessType;
int32 position;
RwStreamUnion Type;
int32 rwOwned;
};
struct zPlayerGlobals
{
zEnt ent;
xEntShadow entShadow_embedded;
xShadowSimpleCache simpShadow_embedded;
zGlobalSettings g;
zPlayerSettings* s;
zPlayerSettings sb;
zPlayerSettings patrick;
zPlayerSettings sandy;
xModelInstance* model_spongebob;
xModelInstance* model_patrick;
xModelInstance* model_sandy;
uint32 Visible;
uint32 Health;
int32 Speed;
float32 SpeedMult;
int32 Sneak;
int32 Teeter;
float32 SlipFadeTimer;
int32 Slide;
float32 SlideTimer;
int32 Stepping;
int32 JumpState;
int32 LastJumpState;
float32 JumpTimer;
float32 LookAroundTimer;
uint32 LookAroundRand;
uint32 LastProjectile;
float32 DecelRun;
float32 DecelRunSpeed;
float32 HotsauceTimer;
float32 LeanLerp;
float32 ScareTimer;
xBase* ScareSource;
float32 CowerTimer;
float32 DamageTimer;
float32 SundaeTimer;
float32 ControlOffTimer;
float32 HelmetTimer;
uint32 WorldDisguise;
uint32 Bounced;
float32 FallDeathTimer;
float32 HeadbuttVel;
float32 HeadbuttTimer;
uint32 SpecialReceived;
xEnt* MountChimney;
float32 MountChimOldY;
uint32 MaxHealth;
uint32 DoMeleeCheck;
float32 VictoryTimer;
float32 BadGuyNearTimer;
float32 ForceSlipperyTimer;
float32 ForceSlipperyFriction;
float32 ShockRadius;
float32 ShockRadiusOld;
float32 Face_ScareTimer;
uint32 Face_ScareRandom;
uint32 Face_Event;
float32 Face_EventTimer;
float32 Face_PantTimer;
uint32 Face_AnimSpecific;
uint32 IdleRand;
float32 IdleMinorTimer;
float32 IdleMajorTimer;
float32 IdleSitTimer;
int32 Transparent;
zEnt* FireTarget;
uint32 ControlOff;
uint32 ControlOnEvent;
uint32 AutoMoveSpeed;
float32 AutoMoveDist;
xVec3 AutoMoveTarget;
xBase* AutoMoveObject;
zEnt* Diggable;
float32 DigTimer;
zPlayerCarryInfo carry;
zPlayerLassoInfo lassoInfo;
xModelTag BubbleWandTag[2];
xModelInstance* model_wand;
xEntBoulder* bubblebowl;
float32 bbowlInitVel;
zEntHangable* HangFound;
zEntHangable* HangEnt;
zEntHangable* HangEntLast;
xVec3 HangPivot;
xVec3 HangVel;
float32 HangLength;
xVec3 HangStartPos;
float32 HangStartLerp;
xModelTag HangPawTag[4];
float32 HangPawOffset;
float32 HangElapsed;
float32 Jump_CurrGravity;
float32 Jump_HoldTimer;
float32 Jump_ChangeTimer;
int32 Jump_CanDouble;
int32 Jump_CanFloat;
int32 Jump_SpringboardStart;
zPlatform* Jump_Springboard;
int32 CanJump;
int32 CanBubbleSpin;
int32 CanBubbleBounce;
int32 CanBubbleBash;
int32 IsJumping;
int32 IsDJumping;
int32 IsBubbleSpinning;
int32 IsBubbleBouncing;
int32 IsBubbleBashing;
int32 IsBubbleBowling;
int32 WasDJumping;
int32 IsCoptering;
_zPlayerWallJumpState WallJumpState;
int32 cheat_mode;
uint32 Inv_Shiny;
uint32 Inv_Spatula;
uint32 Inv_PatsSock[15];
uint32 Inv_PatsSock_Max[15];
uint32 Inv_PatsSock_CurrentLevel;
uint32 Inv_LevelPickups[15];
uint32 Inv_LevelPickups_CurrentLevel;
uint32 Inv_PatsSock_Total;
xModelTag BubbleTag;
xEntDrive drv;
xSurface* floor_surf;
xVec3 floor_norm;
int32 slope;
xCollis earc_coll;
xSphere head_sph;
xModelTag center_tag;
xModelTag head_tag;
uint32 TongueFlags[2];
xVec3 RootUp;
xVec3 RootUpTarget;
zCheckPoint cp;
uint32 SlideTrackSliding;
uint32 SlideTrackCount;
xEnt* SlideTrackEnt[111];
uint32 SlideNotGroundedSinceSlide;
xVec3 SlideTrackDir;
xVec3 SlideTrackVel;
float32 SlideTrackDecay;
float32 SlideTrackLean;
float32 SlideTrackLand;
uint8 sb_model_indices[14];
xModelInstance* sb_models[14];
uint32 currentPlayer;
xVec3 PredictRotate;
xVec3 PredictTranslate;
float32 PredictAngV;
xVec3 PredictCurrDir;
float32 PredictCurrVel;
float32 KnockBackTimer;
float32 KnockIntoAirTimer;
};
struct xEntFrame
{
xMat4x3 mat;
xMat4x3 oldmat;
xVec3 oldvel;
xRot oldrot;
xRot drot;
xRot rot;
xVec3 dpos;
xVec3 dvel;
xVec3 vel;
uint32 mode;
};
struct RxPipelineRequiresCluster
{
RxClusterDefinition* clusterDef;
RxClusterValidityReq rqdOrOpt;
uint32 slotIndex;
};
struct rxNodePS2AllMatPvtData
{
int32(*meshInstanceTestCB)(RxPS2AllPipeData*);
RwResEntry*(*resEntryAllocCB)(RxPS2AllPipeData*, RwResEntry**, uint32, void(*)(RwResEntry*));
int32(*instanceCB)(RxPS2AllPipeData*, void**, uint32);
int32(*bridgeCB)(RxPS2AllPipeData*);
int32(*postMeshCB)(RxPS2AllPipeData*);
int32 vifOffset;
void** vu1CodeArray;
uint32 codeArrayLength;
rwPS2AllClusterInstanceInfo clinfo[12];
uint32 cliIndex[12];
RpMeshHeaderFlags pipeType;
uint8 totallyOpaque;
uint8 numStripes;
uint8 sizeOnVU;
uint8 pad0;
rwPS2AllResEntryFormat strip;
rwPS2AllResEntryFormat list;
uint32 magicValue;
};
struct RpClump
{
RwObject object;
RwLinkList atomicList;
RwLinkList lightList;
RwLinkList cameraList;
RwLLLink inWorldLink;
RpClump*(*callback)(RpClump*, void*);
};
struct RpGeometry
{
RwObject object;
uint32 flags;
uint16 lockedSinceLastInst;
int16 refCount;
int32 numTriangles;
int32 numVertices;
int32 numMorphTargets;
int32 numTexCoordSets;
RpMaterialList matList;
RpTriangle* triangles;
RwRGBA* preLitLum;
RwTexCoords* texCoords[8];
RpMeshHeader* mesh;
RwResEntry* repEntry;
RpMorphTarget* morphTarget;
};
struct RpCollisionTriangle
{
RwV3d normal;
RwV3d point;
int32 index;
RwV3d* vertices[3];
};
struct _class_0
{
float32 t;
float32 u;
float32 v;
};
struct RwResEntry
{
RwLLLink link;
int32 size;
void* owner;
RwResEntry** ownerRef;
void(*destroyNotify)(RwResEntry*);
};
struct RpWorldSector
{
int32 type;
RpPolygon* polygons;
RwV3d* vertices;
RpVertexNormal* normals;
RwTexCoords* texCoords[8];
RwRGBA* preLitLum;
RwResEntry* repEntry;
RwLinkList collAtomicsInWorldSector;
RwLinkList noCollAtomicsInWorldSector;
RwLinkList lightsInWorldSector;
RwBBox boundingBox;
RwBBox tightBoundingBox;
RpMeshHeader* mesh;
RxPipeline* pipeline;
uint16 matListWindowBase;
uint16 numVertices;
uint16 numPolygons;
uint16 pad;
};
struct xCollis
{
uint32 flags;
uint32 oid;
void* optr;
xModelInstance* mptr;
float32 dist;
xVec3 norm;
xVec3 tohit;
xVec3 depen;
xVec3 hdng;
union
{
_class_0 tuv;
tri_data_1 tri;
};
};
struct RpMeshHeader
{
uint32 flags;
uint16 numMeshes;
uint16 serialNum;
uint32 totalIndicesInMesh;
uint32 firstMeshOffset;
};
struct zPlayerCarryInfo
{
xEnt* grabbed;
uint32 grabbedModelID;
xMat4x3 spin;
xEnt* throwTarget;
xEnt* flyingToTarget;
float32 minDist;
float32 maxDist;
float32 minHeight;
float32 maxHeight;
float32 maxCosAngle;
float32 throwMinDist;
float32 throwMaxDist;
float32 throwMinHeight;
float32 throwMaxHeight;
float32 throwMaxStack;
float32 throwMaxCosAngle;
float32 throwTargetRotRate;
float32 targetRot;
uint32 grabTarget;
xVec3 grabOffset;
float32 grabLerpMin;
float32 grabLerpMax;
float32 grabLerpLast;
uint32 grabYclear;
float32 throwGravity;
float32 throwHeight;
float32 throwDistance;
float32 fruitFloorDecayMin;
float32 fruitFloorDecayMax;
float32 fruitFloorBounce;
float32 fruitFloorFriction;
float32 fruitCeilingBounce;
float32 fruitWallBounce;
float32 fruitLifetime;
xEnt* patLauncher;
};
struct xUpdateCullMgr
{
uint32 entCount;
uint32 entActive;
void** ent;
xUpdateCullEnt** mgr;
uint32 mgrCount;
uint32 mgrCurr;
xUpdateCullEnt* mgrList;
uint32 grpCount;
xUpdateCullGroup* grpList;
void(*activateCB)(void*);
void(*deactivateCB)(void*);
};
struct RwMeshCache
{
uint32 lengthOfMeshesArray;
RwResEntry* meshes[1];
};
struct xAnimMultiFile : xAnimMultiFileBase
{
xAnimMultiFileEntry Files[1];
};
struct xSurface
{
};
struct xCamera : xBase
{
RwCamera* lo_cam;
xMat4x3 mat;
xMat4x3 omat;
xMat3x3 mbasis;
xBound bound;
xMat4x3* tgt_mat;
xMat4x3* tgt_omat;
xBound* tgt_bound;
xVec3 focus;
xScene* sc;
xVec3 tran_accum;
float32 fov;
uint32 flags;
float32 tmr;
float32 tm_acc;
float32 tm_dec;
float32 ltmr;
float32 ltm_acc;
float32 ltm_dec;
float32 dmin;
float32 dmax;
float32 dcur;
float32 dgoal;
float32 hmin;
float32 hmax;
float32 hcur;
float32 hgoal;
float32 pmin;
float32 pmax;
float32 pcur;
float32 pgoal;
float32 depv;
float32 hepv;
float32 pepv;
float32 orn_epv;
float32 yaw_epv;
float32 pitch_epv;
float32 roll_epv;
xQuat orn_cur;
xQuat orn_goal;
xQuat orn_diff;
float32 yaw_cur;
float32 yaw_goal;
float32 pitch_cur;
float32 pitch_goal;
float32 roll_cur;
float32 roll_goal;
float32 dct;
float32 dcd;
float32 dccv;
float32 dcsv;
float32 hct;
float32 hcd;
float32 hccv;
float32 hcsv;
float32 pct;
float32 pcd;
float32 pccv;
float32 pcsv;
float32 orn_ct;
float32 orn_cd;
float32 orn_ccv;
float32 orn_csv;
float32 yaw_ct;
float32 yaw_cd;
float32 yaw_ccv;
float32 yaw_csv;
float32 pitch_ct;
float32 pitch_cd;
float32 pitch_ccv;
float32 pitch_csv;
float32 roll_ct;
float32 roll_cd;
float32 roll_ccv;
float32 roll_csv;
xVec4 frustplane[12];
};
struct RpMorphTarget
{
RpGeometry* parentGeom;
RwSphere boundingSphere;
RwV3d* verts;
RwV3d* normals;
};
struct xJSPHeader
{
int8 idtag[4];
uint32 version;
uint32 jspNodeCount;
RpClump* clump;
xClumpCollBSPTree* colltree;
xJSPNodeInfo* jspNodeList;
};
struct zPlayerSettings
{
_zPlayerType pcType;
float32 MoveSpeed[6];
float32 AnimSneak[3];
float32 AnimWalk[3];
float32 AnimRun[3];
float32 JumpGravity;
float32 GravSmooth;
float32 FloatSpeed;
float32 ButtsmashSpeed;
zJumpParam Jump;
zJumpParam Bounce;
zJumpParam Spring;
zJumpParam Wall;
zJumpParam Double;
zJumpParam SlideDouble;
zJumpParam SlideJump;
float32 WallJumpVelocity;
zLedgeGrabParams ledge;
float32 spin_damp_xz;
float32 spin_damp_y;
uint8 talk_anims;
uint8 talk_filter_size;
uint8 talk_filter[4];
};
struct RpPolygon
{
uint16 matIndex;
uint16 vertIndex[3];
};
struct xFFX
{
};
struct xVec4
{
float32 x;
float32 y;
float32 z;
float32 w;
};
struct xModelBucket
{
RpAtomic* Data;
RpAtomic* OriginalData;
xModelInstance* List;
int32 ClipFlags;
uint32 PipeFlags;
};
struct zEnt : xEnt
{
xAnimTable* atbl;
};
struct xVec3
{
float32 x;
float32 y;
float32 z;
};
struct RwSurfaceProperties
{
float32 ambient;
float32 specular;
float32 diffuse;
};
struct RwFrame
{
RwObject object;
RwLLLink inDirtyListLink;
RwMatrixTag modelling;
RwMatrixTag ltm;
RwLinkList objectList;
RwFrame* child;
RwFrame* next;
RwFrame* root;
};
struct xModelTag
{
xVec3 v;
uint32 matidx;
float32 wt[4];
};
struct rxHeapSuperBlockDescriptor
{
void* start;
uint32 size;
rxHeapSuperBlockDescriptor* next;
};
struct RpVertexNormal
{
int8 x;
int8 y;
int8 z;
uint8 pad;
};
struct iFogParams
{
RwFogType type;
float32 start;
float32 stop;
float32 density;
RwRGBA fogcolor;
RwRGBA bgcolor;
uint8* table;
};
struct rxReq
{
};
struct xUpdateCullEnt
{
uint16 index;
int16 groupIndex;
uint32(*cb)(void*, void*);
void* cbdata;
xUpdateCullEnt* nextInGroup;
};
struct xModelInstance
{
xModelInstance* Next;
xModelInstance* Parent;
xModelPool* Pool;
xAnimPlay* Anim;
RpAtomic* Data;
uint32 PipeFlags;
float32 RedMultiplier;
float32 GreenMultiplier;
float32 BlueMultiplier;
float32 Alpha;
float32 FadeStart;
float32 FadeEnd;
xSurface* Surf;
xModelBucket** Bucket;
xModelInstance* BucketNext;
xLightKit* LightKit;
void* Object;
uint16 Flags;
uint8 BoneCount;
uint8 BoneIndex;
uint8* BoneRemap;
RwMatrixTag* Mat;
xVec3 Scale;
uint32 modelID;
uint32 shadowID;
RpAtomic* shadowmapAtomic;
_class_1 anim_coll;
};
struct RwRaster
{
RwRaster* parent;
uint8* cpPixels;
uint8* palette;
int32 width;
int32 height;
int32 depth;
int32 stride;
int16 nOffsetX;
int16 nOffsetY;
uint8 cType;
uint8 cFlags;
uint8 privateFlags;
uint8 cFormat;
uint8* originalPixels;
int32 originalWidth;
int32 originalHeight;
int32 originalStride;
};
struct RwTexture
{
RwRaster* raster;
RwTexDictionary* dict;
RwLLLink lInDictionary;
int8 name[32];
int8 mask[32];
uint32 filterAddressing;
int32 refCount;
};
enum RxClusterValidityReq
{
rxCLREQ_DONTWANT,
rxCLREQ_REQUIRED,
rxCLREQ_OPTIONAL,
rxCLUSTERVALIDITYREQFORCEENUMSIZEINT = 0x7fffffff
};
struct rwPS2AllClusterInstanceInfo
{
uint32 attrib;
uint32 stride;
};
struct xEntShadow
{
xVec3 pos;
xVec3 vec;
RpAtomic* shadowModel;
float32 dst_cast;
float32 radius[2];
};
struct xLightKit
{
uint32 tagID;
uint32 groupID;
uint32 lightCount;
xLightKitLight* lightList;
};
struct xClumpCollBSPTree
{
uint32 numBranchNodes;
xClumpCollBSPBranchNode* branchNodes;
uint32 numTriangles;
xClumpCollBSPTriangle* triangles;
};
struct xLinkAsset
{
uint16 srcEvent;
uint16 dstEvent;
uint32 dstAssetID;
float32 param[4];
uint32 paramWidgetAssetID;
uint32 chkAssetID;
};
struct xMat4x3 : xMat3x3
{
xVec3 pos;
uint32 pad3;
};
struct RwStreamUnion
{
union
{
RwStreamMemory memory;
RwStreamFile file;
RwStreamCustom custom;
};
};
struct anim_coll_data
{
};
struct RpMesh
{
uint16* indices;
uint32 numIndices;
RpMaterial* material;
};
struct xAnimTable
{
xAnimTable* Next;
int8* Name;
xAnimTransition* TransitionList;
xAnimState* StateList;
uint32 AnimIndex;
uint32 MorphIndex;
uint32 UserFlags;
};
enum RpMeshHeaderFlags
{
rpMESHHEADERTRISTRIP = 0x1,
rpMESHHEADERTRIFAN,
rpMESHHEADERLINELIST = 0x4,
rpMESHHEADERPOLYLINE = 0x8,
rpMESHHEADERPOINTLIST = 0x10,
rpMESHHEADERPRIMMASK = 0xff,
rpMESHHEADERUNINDEXED,
rpMESHHEADERFLAGSFORCEENUMSIZEINT = 0x7fffffff
};
struct xBound
{
xQCData qcd;
uint8 type;
uint8 pad[3];
union
{
xSphere sph;
xBBox box;
xCylinder cyl;
};
xMat4x3* mat;
};
enum RxNodeDefEditable
{
rxNODEDEFCONST,
rxNODEDEFEDITABLE,
rxNODEDEFEDITABLEFORCEENUMSIZEINT = 0x7fffffff
};
struct _tagxRumble
{
_tagRumbleType type;
float32 seconds;
_tagxRumble* next;
int16 active;
uint16 fxflags;
};
struct xUpdateCullGroup
{
uint32 active;
uint16 startIndex;
uint16 endIndex;
xGroup* groupObject;
};
enum RxClusterValid
{
rxCLVALID_NOCHANGE,
rxCLVALID_VALID,
rxCLVALID_INVALID,
rxCLUSTERVALIDFORCEENUMSIZEINT = 0x7fffffff
};
struct RpLightTie
{
RwLLLink lightInWorldSector;
RpLight* light;
RwLLLink WorldSectorInLight;
RpWorldSector* sect;
};
enum RwStreamType
{
rwNASTREAM,
rwSTREAMFILE,
rwSTREAMFILENAME,
rwSTREAMMEMORY,
rwSTREAMCUSTOM,
rwSTREAMTYPEFORCEENUMSIZEINT = 0x7fffffff
};
struct _zPortal : xBase
{
xPortalAsset* passet;
};
struct RpTriangle
{
uint16 vertIndex[3];
int16 matIndex;
};
struct rxHeapFreeBlock
{
uint32 size;
rxHeapBlockHeader* ptr;
};
struct xRot
{
xVec3 axis;
float32 angle;
};
struct RwChunkHeaderInfo
{
uint32 type;
uint32 length;
uint32 version;
uint32 buildNum;
int32 isComplex;
};
enum rxEmbeddedPacketState
{
rxPKST_PACKETLESS,
rxPKST_UNUSED,
rxPKST_INUSE,
rxPKST_PENDING,
rxEMBEDDEDPACKETSTATEFORCEENUMSIZEINT = 0x7fffffff
};
struct xSphere
{
xVec3 center;
float32 r;
};
struct rwPS2AllFieldRec
{
int32 numVerts;
int32 morphNumVerts;
int32 dataoffset;
int32 morphDataoffset;
int16 skip;
int16 morphSkip;
int16 reverse;
uint8 vuoffset;
uint8 pad[1];
};
struct xVec2
{
float32 x;
float32 y;
};
enum RwCameraProjection
{
rwNACAMERAPROJECTION,
rwPERSPECTIVE,
rwPARALLEL,
rwCAMERAPROJECTIONFORCEENUMSIZEINT = 0x7fffffff
};
struct xAnimMultiFileEntry
{
uint32 ID;
xAnimFile* File;
};
enum RxClusterForcePresent
{
rxCLALLOWABSENT,
rxCLFORCEPRESENT,
rxCLUSTERFORCEPRESENTFORCEENUMSIZEINT = 0x7fffffff
};
struct xCylinder
{
xVec3 center;
float32 r;
float32 h;
};
struct xAnimActiveEffect
{
xAnimEffect* Effect;
uint32 Handle;
};
enum _tagPadState
{
ePad_Disabled,
ePad_DisabledError,
ePad_Enabled,
ePad_Missing,
ePad_Total
};
struct RxNodeDefinition
{
int8* name;
RxNodeMethods nodeMethods;
RxIoSpec io;
uint32 pipelineNodePrivateDataSize;
RxNodeDefEditable editable;
int32 InputPipesCnt;
};
struct xEntBoulder
{
};
struct _class_1
{
xVec3* verts;
};
struct xEnv
{
iEnv* geom;
iEnv ienv;
xLightKit* lightKit;
};
struct xAnimFile
{
xAnimFile* Next;
int8* Name;
uint32 ID;
uint32 FileFlags;
float32 Duration;
float32 TimeOffset;
uint16 BoneCount;
uint8 NumAnims[2];
void** RawData;
};
struct xBox
{
xVec3 upper;
xVec3 lower;
};
struct xGlobals
{
xCamera camera;
_tagxPad* pad0;
_tagxPad* pad1;
_tagxPad* pad2;
_tagxPad* pad3;
int32 profile;
int8 profFunc[128][6];
xUpdateCullMgr* updateMgr;
int32 sceneFirst;
int8 sceneStart[32];
RpWorld* currWorld;
iFogParams fog;
iFogParams fogA;
iFogParams fogB;
long32 fog_t0;
long32 fog_t1;
int32 option_vibration;
uint32 QuarterSpeed;
float32 update_dt;
int32 useHIPHOP;
uint8 NoMusic;
int8 currentActivePad;
uint8 firstStartPressed;
uint32 minVSyncCnt;
uint8 dontShowPadMessageDuringLoadingOrCutScene;
uint8 autoSaveFeature;
};
struct RxClusterDefinition
{
int8* name;
uint32 defaultStride;
uint32 defaultAttributes;
int8* attributeSet;
};
struct zEntHangable
{
};
enum RwStreamAccessType
{
rwNASTREAMACCESS,
rwSTREAMREAD,
rwSTREAMWRITE,
rwSTREAMAPPEND,
rwSTREAMACCESSTYPEFORCEENUMSIZEINT = 0x7fffffff
};
struct RwSphere
{
RwV3d center;
float32 radius;
};
struct xAnimSingle
{
uint32 SingleFlags;
xAnimState* State;
float32 Time;
float32 CurrentSpeed;
float32 BilinearLerp[2];
xAnimEffect* Effect;
uint32 ActiveCount;
float32 LastTime;
xAnimActiveEffect* ActiveList;
xAnimPlay* Play;
xAnimTransition* Sync;
xAnimTransition* Tran;
xAnimSingle* Blend;
float32 BlendFactor;
uint32 pad;
};
struct _tagxPad
{
uint8 value[22];
uint8 last_value[22];
uint32 on;
uint32 pressed;
uint32 released;
_tagPadAnalog analog1;
_tagPadAnalog analog2;
_tagPadState state;
uint32 flags;
_tagxRumble rumble_head;
int16 port;
int16 slot;
_tagiPad context;
float32 al2d_timer;
float32 ar2d_timer;
float32 d_timer;
float32 up_tmr[22];
float32 down_tmr[22];
analog_data analog[2];
};
enum RpWorldRenderOrder
{
rpWORLDRENDERNARENDERORDER,
rpWORLDRENDERFRONT2BACK,
rpWORLDRENDERBACK2FRONT,
rpWORLDRENDERORDERFORCEENUMSIZEINT = 0x7fffffff
};
enum RxInstanceFlags
{
rxINSTANCENAINSTANCEFLAG,
rxINSTANCEDONTINSTANCE,
rxINSTANCEINPLACEINSTANCE,
rxINSTANCECONGRUENTINSTANCE = 0x4,
rxINSTANCEFULLINSTANCE = 0x8,
rxINSTANCETYPEMASK = 0xe,
rxINSTANCEXYZ = 0x10,
rxINSTANCENORMAL = 0x20,
rxINSTANCERGBA = 0x40,
rxINSTANCEUV = 0x80,
rxINSTANCEUV1 = 0x80,
rxINSTANCEUV2 = 0x100,
rxINSTANCEUV3 = 0x200,
rxINSTANCEUV4 = 0x400,
rxINSTANCEUV5 = 0x800,
rxINSTANCEUV6 = 0x1000,
rxINSTANCEUV7 = 0x2000,
rxINSTANCEUV8 = 0x4000,
rxINSTANCEUSER1 = 0x8000,
rxINSTANCEUSER2 = 0x10000,
rxINSTANCEUSER3 = 0x20000,
rxINSTANCEUSER4 = 0x40000,
rxINSTANCEALL = 0x7fff0,
rxINSTANCEMASK = 0x7ffff,
rxINSTANCEFORCEENUMSIZEINT = 0x7fffffff
};
struct xAnimMultiFileBase
{
uint32 Count;
};
struct RwTexDictionary
{
RwObject object;
RwLinkList texturesInDict;
RwLLLink lInInstance;
};
struct xAnimEffect
{
xAnimEffect* Next;
uint32 Flags;
float32 StartTime;
float32 EndTime;
uint32(*Callback)(uint32, xAnimActiveEffect*, xAnimSingle*, void*);
};
struct xGroupAsset : xBaseAsset
{
uint16 itemCount;
uint16 groupFlags;
};
struct _tagPadAnalog
{
int8 x;
int8 y;
};
struct RxOutputSpec
{
int8* name;
RxClusterValid* outputClusters;
RxClusterValid allOtherClusters;
};
struct xEntAsset : xBaseAsset
{
uint8 flags;
uint8 subtype;
uint8 pflags;
uint8 moreFlags;
uint8 pad;
uint32 surfaceID;
xVec3 ang;
xVec3 pos;
xVec3 scale;
float32 redMult;
float32 greenMult;
float32 blueMult;
float32 seeThru;
float32 seeThruSpeed;
uint32 modelInfoID;
uint32 animListID;
};
struct zScene : xScene
{
_zPortal* pendingPortal;
union
{
uint32 num_ents;
uint32 num_base;
};
union
{
xBase** base;
zEnt** ents;
};
uint32 num_update_base;
xBase** update_base;
uint32 baseCount[72];
xBase* baseList[72];
_zEnv* zen;
};
struct _tagiPad
{
int32 port;
};
struct xMat3x3
{
xVec3 right;
int32 flags;
xVec3 up;
uint32 pad1;
xVec3 at;
uint32 pad2;
};
struct RpSector
{
int32 type;
};
struct xPortalAsset : xBaseAsset
{
uint32 assetCameraID;
uint32 assetMarkerID;
float32 ang;
uint32 sceneID;
};
struct RwStreamMemory
{
uint32 position;
uint32 nSize;
uint8* memBlock;
};
struct RxClusterRef
{
RxClusterDefinition* clusterDef;
RxClusterForcePresent forcePresent;
uint32 reserved;
};
struct rwPS2AllResEntryHeader
{
int32 refCnt;
int32 clrCnt;
<unknown fundamental type (0xa510)>* data;
uint32 numVerts;
uint32 objIdentifier;
uint32 meshIdentifier;
int32 batchSize;
int32 numBatches;
int32 batchesPerTag;
int32 morphStart;
int32 morphFinish;
int32 morphNum;
rwPS2AllClusterQuickInfo clquickinfo[12];
rwPS2AllFieldRec fieldRec[12];
};
struct rwPS2AllResEntryFormat
{
uint8 batchRound;
uint8 stripReverse;
uint8 pad[2];
uint32 maxInputSize;
int32 batchSize;
int32 batchesPerTag;
int32 morphBatchSize;
int32 morphBatchesPerTag;
rwPS2AllFieldRec fieldRec[12];
};
struct zJumpParam
{
float32 PeakHeight;
float32 TimeGravChange;
float32 TimeHold;
float32 ImpulseVel;
};
struct xAnimPlay
{
xAnimPlay* Next;
uint16 NumSingle;
uint16 BoneCount;
xAnimSingle* Single;
void* Object;
xAnimTable* Table;
xMemPool* Pool;
xModelInstance* ModelInst;
void(*BeforeAnimMatrices)(xAnimPlay*, xQuat*, xVec3*, int32);
};
struct rwPS2AllClusterQuickInfo
{
<unknown fundamental type (0xa510)>* data;
uint32 stride;
};
struct RwObject
{
uint8 type;
uint8 subType;
uint8 flags;
uint8 privateFlags;
void* parent;
};
struct xModelPool
{
xModelPool* Next;
uint32 NumMatrices;
xModelInstance* List;
};
struct RxIoSpec
{
uint32 numClustersOfInterest;
RxClusterRef* clustersOfInterest;
RxClusterValidityReq* inputRequirements;
uint32 numOutputs;
RxOutputSpec* outputs;
};
struct rpAtomicPS2AllLightData
{
RwSurfaceProperties* surface;
RwMatrixTag invMat;
float32 invScale;
float32 recipInvScale;
};
struct RpLight
{
RwObjectHasFrame object;
float32 radius;
RwRGBAReal color;
float32 minusCosAngle;
RwLinkList WorldSectorsInLight;
RwLLLink inWorld;
uint16 lightFrame;
uint16 pad;
};
struct xMemPool
{
void* FreeList;
uint16 NextOffset;
uint16 Flags;
void* UsedList;
void(*InitCB)(xMemPool*, void*);
void* Buffer;
uint16 Size;
uint16 NumRealloc;
uint32 Total;
};
struct xQCData
{
int8 xmin;
int8 ymin;
int8 zmin;
int8 zmin_dup;
int8 xmax;
int8 ymax;
int8 zmax;
int8 zmax_dup;
xVec3 min;
xVec3 max;
};
struct RxNodeMethods
{
int32(*nodeBody)(RxPipelineNode*, RxPipelineNodeParam*);
int32(*nodeInit)(RxNodeDefinition*);
void(*nodeTerm)(RxNodeDefinition*);
int32(*pipelineNodeInit)(RxPipelineNode*);
void(*pipelineNodeTerm)(RxPipelineNode*);
int32(*pipelineNodeConfig)(RxPipelineNode*, RxPipeline*);
uint32(*configMsgHandler)(RxPipelineNode*, uint32, uint32, void*);
};
struct zPlatform
{
};
struct xClumpCollBSPVertInfo
{
uint16 atomIndex;
uint16 meshVertIndex;
};
struct RxPipelineCluster
{
RxClusterDefinition* clusterRef;
uint32 creationAttributes;
};
struct xLightKitLight
{
uint32 type;
RwRGBAReal color;
float32 matrix[16];
float32 radius;
float32 angle;
RpLight* platLight;
};
struct _zEnv : xBase
{
xEnvAsset* easset;
};
struct RwFrustumPlane
{
RwPlane plane;
uint8 closestX;
uint8 closestY;
uint8 closestZ;
uint8 pad;
};
struct zCutsceneMgr
{
};
struct RwStreamFile
{
union
{
void* fpFile;
void* constfpFile;
};
};
struct xEntDrive
{
uint32 flags;
float32 otm;
float32 otmr;
float32 os;
float32 tm;
float32 tmr;
float32 s;
xEnt* odriver;
xEnt* driver;
xEnt* driven;
xVec3 op;
xVec3 p;
xVec3 q;
float32 yaw;
xVec3 dloc;
tri_data_0 tri;
};
struct RwPlane
{
RwV3d normal;
float32 distance;
};
struct xClumpCollBSPTriangle
{
_class_2 v;
uint8 flags;
uint8 platData;
uint16 matIndex;
};
struct xEnvAsset : xBaseAsset
{
uint32 bspAssetID;
uint32 startCameraAssetID;
uint32 climateFlags;
float32 climateStrengthMin;
float32 climateStrengthMax;
uint32 bspLightKit;
uint32 objectLightKit;
float32 padF1;
uint32 bspCollisionAssetID;
uint32 bspFXAssetID;
uint32 bspCameraAssetID;
uint32 bspMapperID;
uint32 bspMapperCollisionID;
uint32 bspMapperFXID;
float32 loldHeight;
};
struct zAssetPickupTable
{
};
struct RxCluster
{
uint16 flags;
uint16 stride;
void* data;
void* currentData;
uint32 numAlloced;
uint32 numUsed;
RxPipelineCluster* clusterRef;
uint32 attributes;
};
struct zGlobals : xGlobals
{
zPlayerGlobals player;
zAssetPickupTable* pickupTable;
zCutsceneMgr* cmgr;
zScene* sceneCur;
zScene* scenePreload;
};
struct RxPipelineNodeParam
{
void* dataParam;
RxHeap* heap;
};
struct zGlobalSettings
{
uint16 AnalogMin;
uint16 AnalogMax;
float32 SundaeTime;
float32 SundaeMult;
uint32 InitialShinyCount;
uint32 InitialSpatulaCount;
int32 ShinyValuePurple;
int32 ShinyValueBlue;
int32 ShinyValueGreen;
int32 ShinyValueYellow;
int32 ShinyValueRed;
int32 ShinyValueCombo0;
int32 ShinyValueCombo1;
int32 ShinyValueCombo2;
int32 ShinyValueCombo3;
int32 ShinyValueCombo4;
int32 ShinyValueCombo5;
int32 ShinyValueCombo6;
int32 ShinyValueCombo7;
int32 ShinyValueCombo8;
int32 ShinyValueCombo9;
int32 ShinyValueCombo10;
int32 ShinyValueCombo11;
int32 ShinyValueCombo12;
int32 ShinyValueCombo13;
int32 ShinyValueCombo14;
int32 ShinyValueCombo15;
float32 ComboTimer;
uint32 Initial_Specials;
uint32 TakeDamage;
float32 DamageTimeHit;
float32 DamageTimeSurface;
float32 DamageTimeEGen;
float32 DamageSurfKnock;
float32 DamageGiveHealthKnock;
uint32 CheatSpongeball;
uint32 CheatPlayerSwitch;
uint32 CheatAlwaysPortal;
uint32 CheatFlyToggle;
uint32 DisableForceConversation;
float32 StartSlideAngle;
float32 StopSlideAngle;
float32 RotMatchMaxAngle;
float32 RotMatchMatchTime;
float32 RotMatchRelaxTime;
float32 Gravity;
float32 BBashTime;
float32 BBashHeight;
float32 BBashDelay;
float32 BBashCVTime;
float32 BBounceSpeed;
float32 BSpinMinFrame;
float32 BSpinMaxFrame;
float32 BSpinRadius;
float32 SandyMeleeMinFrame;
float32 SandyMeleeMaxFrame;
float32 SandyMeleeRadius;
float32 BubbleBowlTimeDelay;
float32 BubbleBowlLaunchPosLeft;
float32 BubbleBowlLaunchPosUp;
float32 BubbleBowlLaunchPosAt;
float32 BubbleBowlLaunchVelLeft;
float32 BubbleBowlLaunchVelUp;
float32 BubbleBowlLaunchVelAt;
float32 BubbleBowlPercentIncrease;
float32 BubbleBowlMinSpeed;
float32 BubbleBowlMinRecoverTime;
float32 SlideAccelVelMin;
float32 SlideAccelVelMax;
float32 SlideAccelStart;
float32 SlideAccelEnd;
float32 SlideAccelPlayerFwd;
float32 SlideAccelPlayerBack;
float32 SlideAccelPlayerSide;
float32 SlideVelMaxStart;
float32 SlideVelMaxEnd;
float32 SlideVelMaxIncTime;
float32 SlideVelMaxIncAccel;
float32 SlideAirHoldTime;
float32 SlideAirSlowTime;
float32 SlideAirDblHoldTime;
float32 SlideAirDblSlowTime;
float32 SlideVelDblBoost;
uint8 SlideApplyPhysics;
uint8 PowerUp[2];
uint8 InitialPowerUp[2];
};
struct RxPacket
{
uint16 flags;
uint16 numClusters;
RxPipeline* pipeline;
uint32* inputToClusterSlot;
uint32* slotsContinue;
RxPipelineCluster** slotClusterRefs;
RxCluster clusters[1];
};
struct zPlayerLassoInfo
{
xEnt* target;
float32 dist;
uint8 destroy;
uint8 targetGuide;
float32 lassoRot;
xEnt* swingTarget;
xEnt* releasedSwing;
float32 copterTime;
int32 canCopter;
zLasso lasso;
xAnimState* zeroAnim;
};
enum RwFogType
{
rwFOGTYPENAFOGTYPE,
rwFOGTYPELINEAR,
rwFOGTYPEEXPONENTIAL,
rwFOGTYPEEXPONENTIAL2,
rwFOGTYPEFORCEENUMSIZEINT = 0x7fffffff
};
struct RwRGBAReal
{
float32 red;
float32 green;
float32 blue;
float32 alpha;
};
struct zLedgeGrabParams
{
float32 animGrab;
float32 zdist;
xVec3 tranTable[60];
int32 tranCount;
xEnt* optr;
xMat4x3 omat;
float32 y0det;
float32 dydet;
float32 r0det;
float32 drdet;
float32 thdet;
float32 rtime;
float32 ttime;
float32 tmr;
xVec3 spos;
xVec3 epos;
xVec3 tpos;
int32 nrays;
int32 rrand;
float32 startrot;
float32 endrot;
};
struct _class_2
{
union
{
xClumpCollBSPVertInfo i;
RwV3d* p;
};
};
struct RwObjectHasFrame
{
RwObject object;
RwLLLink lFrame;
RwObjectHasFrame*(*sync)(RwObjectHasFrame*);
};
struct RwLinkList
{
RwLLLink link;
};
enum RwCullMode
{
rwCULLMODENACULLMODE,
rwCULLMODECULLNONE,
rwCULLMODECULLBACK,
rwCULLMODECULLFRONT,
rwCULLMODEFORCEENUMSIZEINT = 0x7fffffff
};
enum _zPlayerWallJumpState
{
k_WALLJUMP_NOT,
k_WALLJUMP_LAUNCH,
k_WALLJUMP_FLIGHT,
k_WALLJUMP_LAND
};
struct xShadowSimplePoly
{
xVec3 vert[3];
xVec3 norm;
};
struct RpInterpolator
{
int32 flags;
int16 startMorphTarget;
int16 endMorphTarget;
float32 time;
float32 recipTime;
float32 position;
};
struct RwV2d
{
float32 x;
float32 y;
};
struct xBBox
{
xVec3 center;
xBox box;
};
struct tri_data_0 : tri_data_1
{
xVec3 loc;
float32 yaw;
xCollis* coll;
};
struct xBaseAsset
{
uint32 id;
uint8 baseType;
uint8 linkCount;
uint16 baseFlags;
};
struct zLasso
{
uint32 flags;
float32 secsTotal;
float32 secsLeft;
float32 stRadius;
float32 tgRadius;
float32 crRadius;
xVec3 stCenter;
xVec3 tgCenter;
xVec3 crCenter;
xVec3 stNormal;
xVec3 tgNormal;
xVec3 crNormal;
xVec3 honda;
float32 stSlack;
float32 stSlackDist;
float32 tgSlack;
float32 tgSlackDist;
float32 crSlack;
float32 currDist;
float32 lastDist;
xVec3 lastRefs[5];
uint8 reindex[5];
xVec3 anchor;
xModelTag tag;
xModelInstance* model;
};
enum _tagRumbleType
{
eRumble_Off,
eRumble_Hi,
eRumble_VeryLightHi,
eRumble_VeryLight,
eRumble_LightHi,
eRumble_Light,
eRumble_MediumHi,
eRumble_Medium,
eRumble_HeavyHi,
eRumble_Heavy,
eRumble_VeryHeavyHi,
eRumble_VeryHeavy,
eRumble_Total,
eRumbleForceU32 = 0x7fffffff
};
enum _zPlayerType
{
ePlayer_SB,
ePlayer_Patrick,
ePlayer_Sandy,
ePlayer_MAXTYPES
};
struct tri_data_1
{
uint32 index;
float32 r;
float32 d;
};
int32 sBeginDrawFX;
int32 ps2AllFirstAtomic;
uint8 ps2AllClipType;
RxPipeline* ps2AllPipeOptimized;
RxPipeline* ps2AllMatPipeOptimized;
RpWorld* sPipeWorld;
RwCamera* sPipeCamera;
iEnv* lastEnv;
RwCamera* globalCamera;
zGlobals globals;
RpAtomic*(*SetPipelineCB)(RpAtomic*, void*);
int32(*RPS2AllObjectSetupCB)(RxPS2AllPipeData*, RwMatrixTag**);
int32(*PS2AllBridgeCB)(RxPS2AllPipeData*);
int32(*RpMeshPS2AllInstanceCallBack)(RxPS2AllPipeData*, void**, uint32);
RwResEntry*(*RpMeshPS2AllResEntryAllocCallBack)(RxPS2AllPipeData*, RwResEntry**, uint32, void(*)(RwResEntry*));
void* rwPDS_G3_Generic_VU1Transforms[8];
RxClusterDefinition RxClPS2normal;
RxClusterDefinition RxClPS2rgba;
RxClusterDefinition RxClPS2uv;
RxClusterDefinition RxClPS2xyz;
<unknown fundamental type (0xa510)>* _rwDMAPktPtr;
void* skyUploadedCode;
long32 skyTest_1;
long32 skyClamp_1;
long32 skyTex1_1;
uint32 skyUserSwitch1;
uint32 skyUserSwitch2;
RwCullMode gSkyCullState;
<unknown fundamental type (0xa510)> skyClipVect2;
<unknown fundamental type (0xa510)> skyClipVect1;
<unknown fundamental type (0xa510)> skyCClipVect2;
<unknown fundamental type (0xa510)> skyCClipVect1;
int32 skyTLClipperMode;
int32 skyTSClipperMode;
long32 skyPrim_State;
<unknown fundamental type (0xa510)> gifTag128;
int32 skyAlphaTex;
int32 skyVertexAlpha;
RwRaster* skyTextureRaster;
RpLight*(*_rpAtomicPS2AllDoApplyLight)(RpLight*, void*);
uint32 ourGlobals[4096];
uint32 _rwSkyLightQWordsWritten;
uint8 skyTransType;
int32 rwPip2GeometryOffset;
void iEnvEndRenderFX();
void iEnvRender(iEnv* env);
void JspPS2_ClumpRender(RpClump* clump, xJSPNodeInfo* nodeInfo);
void iEnvLightingBasics();
void iEnvDefaultLighting();
void iEnvFree(iEnv* env);
void iEnvLoad(iEnv* env, void* data, int32 dataType);
void iEnvStartup();
void iEnvSetBSP(iEnv* env, int32 envDataType, RpWorld* bsp);
RpAtomic* SetPipelineCB(RpAtomic* atomic, void* data);
int32 PS2AllOptimizedPipelinesCreate();
int32 PS2AllBridgeCB(RxPS2AllPipeData* ps2AllPipeData);
int32 RPS2AllObjectSetupCB(RxPS2AllPipeData* ps2AllPipeData, RwMatrixTag** transform);
// iEnvEndRenderFX__FP4iEnv
// Start address: 0x1a8000
void iEnvEndRenderFX()
{
// Line 1288, Address: 0x1a8000, Func Offset: 0
// Line 1291, Address: 0x1a8010, Func Offset: 0x10
// Line 1293, Address: 0x1a8034, Func Offset: 0x34
// Line 1294, Address: 0x1a803c, Func Offset: 0x3c
// Line 1295, Address: 0x1a8048, Func Offset: 0x48
// Line 1296, Address: 0x1a804c, Func Offset: 0x4c
// Line 1298, Address: 0x1a8050, Func Offset: 0x50
// Func End, Address: 0x1a8060, Func Offset: 0x60
}
// iEnvRender__FP4iEnv
// Start address: 0x1a8060
void iEnvRender(iEnv* env)
{
// Line 1215, Address: 0x1a8060, Func Offset: 0
// Line 1228, Address: 0x1a8070, Func Offset: 0x10
// Line 1232, Address: 0x1a807c, Func Offset: 0x1c
// Line 1234, Address: 0x1a8084, Func Offset: 0x24
// Line 1239, Address: 0x1a8090, Func Offset: 0x30
// Line 1240, Address: 0x1a8098, Func Offset: 0x38
// Line 1243, Address: 0x1a80a0, Func Offset: 0x40
// Line 1245, Address: 0x1a80a4, Func Offset: 0x44
// Func End, Address: 0x1a80b4, Func Offset: 0x54
}
// JspPS2_ClumpRender__FP7RpClumpP12xJSPNodeInfo
// Start address: 0x1a80c0
void JspPS2_ClumpRender(RpClump* clump, xJSPNodeInfo* nodeInfo)
{
int32 backcullon;
int32 zbufferon;
RwLLLink* cur;
RwLLLink* end;
RpAtomic* apAtom;
RwFrame* frame;
int32 insideFlag;
// Line 871, Address: 0x1a80c0, Func Offset: 0
// Line 876, Address: 0x1a80d8, Func Offset: 0x18
// Line 871, Address: 0x1a80dc, Func Offset: 0x1c
// Line 877, Address: 0x1a80e0, Func Offset: 0x20
// Line 871, Address: 0x1a80e4, Func Offset: 0x24
// Line 880, Address: 0x1a80ec, Func Offset: 0x2c
// Line 879, Address: 0x1a80f0, Func Offset: 0x30
// Line 883, Address: 0x1a80f4, Func Offset: 0x34
// Line 894, Address: 0x1a8100, Func Offset: 0x40
// Line 900, Address: 0x1a8110, Func Offset: 0x50
// Line 909, Address: 0x1a8114, Func Offset: 0x54
// Line 910, Address: 0x1a8124, Func Offset: 0x64
// Line 911, Address: 0x1a8128, Func Offset: 0x68
// Line 912, Address: 0x1a812c, Func Offset: 0x6c
// Line 913, Address: 0x1a8130, Func Offset: 0x70
// Line 914, Address: 0x1a8134, Func Offset: 0x74
// Line 915, Address: 0x1a8138, Func Offset: 0x78
// Line 916, Address: 0x1a813c, Func Offset: 0x7c
// Line 917, Address: 0x1a8140, Func Offset: 0x80
// Line 918, Address: 0x1a8144, Func Offset: 0x84
// Line 919, Address: 0x1a8148, Func Offset: 0x88
// Line 920, Address: 0x1a814c, Func Offset: 0x8c
// Line 921, Address: 0x1a8150, Func Offset: 0x90
// Line 922, Address: 0x1a8154, Func Offset: 0x94
// Line 923, Address: 0x1a8158, Func Offset: 0x98
// Line 924, Address: 0x1a815c, Func Offset: 0x9c
// Line 925, Address: 0x1a8160, Func Offset: 0xa0
// Line 927, Address: 0x1a8164, Func Offset: 0xa4
// Line 928, Address: 0x1a8168, Func Offset: 0xa8
// Line 929, Address: 0x1a816c, Func Offset: 0xac
// Line 930, Address: 0x1a8170, Func Offset: 0xb0
// Line 931, Address: 0x1a8174, Func Offset: 0xb4
// Line 932, Address: 0x1a8178, Func Offset: 0xb8
// Line 933, Address: 0x1a817c, Func Offset: 0xbc
// Line 934, Address: 0x1a8180, Func Offset: 0xc0
// Line 936, Address: 0x1a8184, Func Offset: 0xc4
// Line 937, Address: 0x1a8188, Func Offset: 0xc8
// Line 938, Address: 0x1a818c, Func Offset: 0xcc
// Line 939, Address: 0x1a8190, Func Offset: 0xd0
// Line 940, Address: 0x1a8194, Func Offset: 0xd4
// Line 941, Address: 0x1a8198, Func Offset: 0xd8
// Line 942, Address: 0x1a819c, Func Offset: 0xdc
// Line 943, Address: 0x1a81a0, Func Offset: 0xe0
// Line 945, Address: 0x1a81a4, Func Offset: 0xe4
// Line 946, Address: 0x1a81a8, Func Offset: 0xe8
// Line 947, Address: 0x1a81ac, Func Offset: 0xec
// Line 949, Address: 0x1a81b0, Func Offset: 0xf0
// Line 950, Address: 0x1a81b4, Func Offset: 0xf4
// Line 951, Address: 0x1a81b8, Func Offset: 0xf8
// Line 952, Address: 0x1a81bc, Func Offset: 0xfc
// Line 953, Address: 0x1a81c0, Func Offset: 0x100
// Line 954, Address: 0x1a81c4, Func Offset: 0x104
// Line 955, Address: 0x1a81c8, Func Offset: 0x108
// Line 957, Address: 0x1a81cc, Func Offset: 0x10c
// Line 959, Address: 0x1a81d4, Func Offset: 0x114
// Line 963, Address: 0x1a81dc, Func Offset: 0x11c
// Line 964, Address: 0x1a81e0, Func Offset: 0x120
// Line 965, Address: 0x1a81e4, Func Offset: 0x124
// Line 966, Address: 0x1a81e8, Func Offset: 0x128
// Line 967, Address: 0x1a81ec, Func Offset: 0x12c
// Line 968, Address: 0x1a81f0, Func Offset: 0x130
// Line 969, Address: 0x1a81f4, Func Offset: 0x134
// Line 970, Address: 0x1a81f8, Func Offset: 0x138
// Line 971, Address: 0x1a81fc, Func Offset: 0x13c
// Line 972, Address: 0x1a8200, Func Offset: 0x140
// Line 973, Address: 0x1a8204, Func Offset: 0x144
// Line 974, Address: 0x1a8208, Func Offset: 0x148
// Line 975, Address: 0x1a820c, Func Offset: 0x14c
// Line 976, Address: 0x1a8210, Func Offset: 0x150
// Line 1048, Address: 0x1a8214, Func Offset: 0x154
// Line 1049, Address: 0x1a821c, Func Offset: 0x15c
// Line 1052, Address: 0x1a8220, Func Offset: 0x160
// Line 1053, Address: 0x1a8228, Func Offset: 0x168
// Line 1056, Address: 0x1a822c, Func Offset: 0x16c
// Line 1065, Address: 0x1a8230, Func Offset: 0x170
// Line 1066, Address: 0x1a8238, Func Offset: 0x178
// Line 1072, Address: 0x1a8248, Func Offset: 0x188
// Line 1074, Address: 0x1a8254, Func Offset: 0x194
// Line 1075, Address: 0x1a8260, Func Offset: 0x1a0
// Line 1081, Address: 0x1a8270, Func Offset: 0x1b0
// Line 1083, Address: 0x1a827c, Func Offset: 0x1bc
// Line 1086, Address: 0x1a8280, Func Offset: 0x1c0
// Line 1087, Address: 0x1a8288, Func Offset: 0x1c8
// Line 1089, Address: 0x1a8298, Func Offset: 0x1d8
// Line 1091, Address: 0x1a82a4, Func Offset: 0x1e4
// Line 1092, Address: 0x1a82b0, Func Offset: 0x1f0
// Line 1093, Address: 0x1a82c0, Func Offset: 0x200
// Line 1094, Address: 0x1a82c4, Func Offset: 0x204
// Line 1099, Address: 0x1a82d0, Func Offset: 0x210
// Line 1100, Address: 0x1a82dc, Func Offset: 0x21c
// Line 1104, Address: 0x1a82e0, Func Offset: 0x220
// Line 1105, Address: 0x1a82e4, Func Offset: 0x224
// Line 1106, Address: 0x1a82e8, Func Offset: 0x228
// Line 1107, Address: 0x1a82f0, Func Offset: 0x230
// Func End, Address: 0x1a8314, Func Offset: 0x254
}
// iEnvLightingBasics__FP4iEnvP9xEnvAsset
// Start address: 0x1a8320
void iEnvLightingBasics()
{
// Line 865, Address: 0x1a8320, Func Offset: 0
// Func End, Address: 0x1a8328, Func Offset: 0x8
}
// iEnvDefaultLighting__FP4iEnv
// Start address: 0x1a8330
void iEnvDefaultLighting()
{
// Line 835, Address: 0x1a8330, Func Offset: 0
// Func End, Address: 0x1a8338, Func Offset: 0x8
}
// iEnvFree__FP4iEnv
// Start address: 0x1a8340
void iEnvFree(iEnv* env)
{
// Line 712, Address: 0x1a8340, Func Offset: 0
// Line 741, Address: 0x1a834c, Func Offset: 0xc
// Line 743, Address: 0x1a8354, Func Offset: 0x14
// Line 748, Address: 0x1a835c, Func Offset: 0x1c
// Line 750, Address: 0x1a8364, Func Offset: 0x24
// Line 754, Address: 0x1a836c, Func Offset: 0x2c
// Line 759, Address: 0x1a8374, Func Offset: 0x34
// Line 762, Address: 0x1a837c, Func Offset: 0x3c
// Line 766, Address: 0x1a8384, Func Offset: 0x44
// Line 771, Address: 0x1a838c, Func Offset: 0x4c
// Line 773, Address: 0x1a8390, Func Offset: 0x50
// Func End, Address: 0x1a83a0, Func Offset: 0x60
}
// iEnvLoad__FP4iEnvPCvUii
// Start address: 0x1a83a0
void iEnvLoad(iEnv* env, void* data, int32 dataType)
{
RpWorld* bsp;
xJSPHeader* jsp;
RwBBox tmpbbox;
// Line 641, Address: 0x1a83a0, Func Offset: 0
// Line 648, Address: 0x1a83a4, Func Offset: 0x4
// Line 641, Address: 0x1a83a8, Func Offset: 0x8
// Line 645, Address: 0x1a83ac, Func Offset: 0xc
// Line 641, Address: 0x1a83b0, Func Offset: 0x10
// Line 648, Address: 0x1a83c4, Func Offset: 0x24
// Line 654, Address: 0x1a83fc, Func Offset: 0x5c
// Line 658, Address: 0x1a8404, Func Offset: 0x64
// Line 660, Address: 0x1a841c, Func Offset: 0x7c
// Line 665, Address: 0x1a8428, Func Offset: 0x88
// Line 669, Address: 0x1a843c, Func Offset: 0x9c
// Line 670, Address: 0x1a8444, Func Offset: 0xa4
// Line 673, Address: 0x1a8450, Func Offset: 0xb0
// Line 674, Address: 0x1a8454, Func Offset: 0xb4
// Line 681, Address: 0x1a8470, Func Offset: 0xd0
// Line 684, Address: 0x1a847c, Func Offset: 0xdc
// Line 685, Address: 0x1a8488, Func Offset: 0xe8
// Line 686, Address: 0x1a8490, Func Offset: 0xf0
// Line 690, Address: 0x1a8494, Func Offset: 0xf4
// Line 693, Address: 0x1a84a0, Func Offset: 0x100
// Line 694, Address: 0x1a84a8, Func Offset: 0x108
// Line 695, Address: 0x1a84ac, Func Offset: 0x10c
// Line 698, Address: 0x1a84b0, Func Offset: 0x110
// Line 699, Address: 0x1a84bc, Func Offset: 0x11c
// Line 701, Address: 0x1a84c0, Func Offset: 0x120
// Line 703, Address: 0x1a84c8, Func Offset: 0x128
// Line 704, Address: 0x1a84d4, Func Offset: 0x134
// Line 705, Address: 0x1a84d8, Func Offset: 0x138
// Func End, Address: 0x1a84f0, Func Offset: 0x150
}
// iEnvStartup__Fv
// Start address: 0x1a84f0
void iEnvStartup()
{
// Line 607, Address: 0x1a84f0, Func Offset: 0
// Line 610, Address: 0x1a84f8, Func Offset: 0x8
// Line 611, Address: 0x1a8504, Func Offset: 0x14
// Line 613, Address: 0x1a850c, Func Offset: 0x1c
// Line 615, Address: 0x1a8510, Func Offset: 0x20
// Func End, Address: 0x1a851c, Func Offset: 0x2c
}
// iEnvSetBSP__FP4iEnviP7RpWorld
// Start address: 0x1a8520
void iEnvSetBSP(iEnv* env, int32 envDataType, RpWorld* bsp)
{
// Line 506, Address: 0x1a8520, Func Offset: 0
// Line 512, Address: 0x1a8528, Func Offset: 0x8
// Line 513, Address: 0x1a8530, Func Offset: 0x10
// Line 517, Address: 0x1a853c, Func Offset: 0x1c
// Line 518, Address: 0x1a8548, Func Offset: 0x28
// Line 522, Address: 0x1a8554, Func Offset: 0x34
// Line 523, Address: 0x1a8560, Func Offset: 0x40
// Line 526, Address: 0x1a856c, Func Offset: 0x4c
// Line 576, Address: 0x1a8570, Func Offset: 0x50
// Func End, Address: 0x1a8578, Func Offset: 0x58
}
// SetPipelineCB__FP8RpAtomicPv
// Start address: 0x1a8580
RpAtomic* SetPipelineCB(RpAtomic* atomic, void* data)
{
// Line 463, Address: 0x1a8580, Func Offset: 0
// Line 467, Address: 0x1a8594, Func Offset: 0x14
// Line 468, Address: 0x1a85a8, Func Offset: 0x28
// Line 469, Address: 0x1a85b0, Func Offset: 0x30
// Line 475, Address: 0x1a85b8, Func Offset: 0x38
// Line 488, Address: 0x1a85bc, Func Offset: 0x3c
// Line 489, Address: 0x1a85c0, Func Offset: 0x40
// Func End, Address: 0x1a85d4, Func Offset: 0x54
}
// PS2AllOptimizedPipelinesCreate__Fv
// Start address: 0x1a85e0
int32 PS2AllOptimizedPipelinesCreate()
{
RxPipeline* allMatPipe;
RxPipeline* allPipe;
RxNodeDefinition* ps2AllMat;
RxPipelineNode* plNode;
RxPipeline* lPipe;
RxPipeline* lPipe;
RxNodeDefinition* ps2All;
RxPipelineNode* plNode;
// Line 281, Address: 0x1a85e0, Func Offset: 0
// Line 289, Address: 0x1a85f0, Func Offset: 0x10
// Line 290, Address: 0x1a85f8, Func Offset: 0x18
// Line 296, Address: 0x1a8600, Func Offset: 0x20
// Line 298, Address: 0x1a8608, Func Offset: 0x28
// Line 301, Address: 0x1a8614, Func Offset: 0x34
// Line 306, Address: 0x1a8628, Func Offset: 0x48
// Line 301, Address: 0x1a862c, Func Offset: 0x4c
// Line 306, Address: 0x1a8630, Func Offset: 0x50
// Line 312, Address: 0x1a8644, Func Offset: 0x64
// Line 317, Address: 0x1a8658, Func Offset: 0x78
// Line 322, Address: 0x1a866c, Func Offset: 0x8c
// Line 327, Address: 0x1a8680, Func Offset: 0xa0
// Line 333, Address: 0x1a8694, Func Offset: 0xb4
// Line 338, Address: 0x1a86a8, Func Offset: 0xc8
// Line 340, Address: 0x1a86b4, Func Offset: 0xd4
// Line 342, Address: 0x1a86bc, Func Offset: 0xdc
// Line 347, Address: 0x1a86d0, Func Offset: 0xf0
// Line 351, Address: 0x1a86e0, Func Offset: 0x100
// Line 362, Address: 0x1a86f4, Func Offset: 0x114
// Line 365, Address: 0x1a8704, Func Offset: 0x124
// Line 370, Address: 0x1a8718, Func Offset: 0x138
// Line 375, Address: 0x1a872c, Func Offset: 0x14c
// Line 386, Address: 0x1a8740, Func Offset: 0x160
// Line 389, Address: 0x1a8748, Func Offset: 0x168
// Line 392, Address: 0x1a8750, Func Offset: 0x170
// Line 393, Address: 0x1a875c, Func Offset: 0x17c
// Line 397, Address: 0x1a8764, Func Offset: 0x184
// Line 399, Address: 0x1a8770, Func Offset: 0x190
// Line 401, Address: 0x1a8778, Func Offset: 0x198
// Line 405, Address: 0x1a8784, Func Offset: 0x1a4
// Line 410, Address: 0x1a879c, Func Offset: 0x1bc
// Line 412, Address: 0x1a87a8, Func Offset: 0x1c8
// Line 414, Address: 0x1a87b0, Func Offset: 0x1d0
// Line 424, Address: 0x1a87c8, Func Offset: 0x1e8
// Line 427, Address: 0x1a87dc, Func Offset: 0x1fc
// Line 433, Address: 0x1a87ec, Func Offset: 0x20c
// Line 436, Address: 0x1a87f8, Func Offset: 0x218
// Line 438, Address: 0x1a87fc, Func Offset: 0x21c
// Line 439, Address: 0x1a8804, Func Offset: 0x224
// Line 442, Address: 0x1a8808, Func Offset: 0x228
// Line 444, Address: 0x1a8810, Func Offset: 0x230
// Line 447, Address: 0x1a8818, Func Offset: 0x238
// Line 452, Address: 0x1a8820, Func Offset: 0x240
// Line 453, Address: 0x1a8828, Func Offset: 0x248
// Func End, Address: 0x1a8840, Func Offset: 0x260
}
// PS2AllBridgeCB__FP16RxPS2AllPipeData
// Start address: 0x1a8840
int32 PS2AllBridgeCB(RxPS2AllPipeData* ps2AllPipeData)
{
uint32 numInitialQW;
uint32 numExtraQW;
RwTexture* tex;
RwRaster* ras;
uint32 _itQW;
uint32 _xaQW;
ulong32 tmp;
<unknown fundamental type (0xa510)> ltmp;
<unknown fundamental type (0xa510)> ___ltmp;
RxPS2AllPipeData* _p2apd;
<unknown fundamental type (0xa510)> __ltmp;
ulong32 __tmp1;
uint32 __skySwitchFlag;
<unknown fundamental type (0xa510)> ___ltmp;
<unknown fundamental type (0xa510)> ___ltmp;
RxPS2AllPipeData* _p2apd;
rwPS2AllResEntryHeader* _p2rh;
ulong32 __tmp;
ulong32 __tmp1;
<unknown fundamental type (0xa510)> __ltmp;
<unknown fundamental type (0xa510)> ___ltmp;
uint32 stat;
RxPS2AllPipeData* _p2apd;
RxPS2AllPipeData* _p2apd;
RwTexture* _nwtx;
RwRaster* _nwrs;
uint32 cFormat;
int32 textureUploadSuccess;
uint32 _itQW;
uint32 _xaQW;
ulong32 tmp;
<unknown fundamental type (0xa510)> ltmp;
<unknown fundamental type (0xa510)> ___ltmp;
RxPS2AllPipeData* _p2apd;
<unknown fundamental type (0xa510)> __ltmp;
ulong32 __tmp1;
uint32 __prmTmp;
<unknown fundamental type (0xa510)> ___ltmp;
<unknown fundamental type (0xa510)> ___ltmp;
RxPS2AllPipeData* _p2apd;
<unknown fundamental type (0xa510)> __ltmp;
ulong32 __tmp1;
float32 __colScale;
<unknown fundamental type (0xa510)> ___ltmp;
RxPS2AllPipeData* _p2apd;
<unknown fundamental type (0xa510)> __ltmp;
ulong32 __tmp1;
<unknown fundamental type (0xa510)> ___ltmp;
RxPS2AllPipeData* _p2apd;
<unknown fundamental type (0xa510)> __ltmp;
ulong32 __tmp1;
uint32 __skySwitchFlag;
<unknown fundamental type (0xa510)> ___ltmp;
<unknown fundamental type (0xa510)> ___ltmp;
RxPS2AllPipeData* _p2apd;
ulong32 __tmp;
ulong32 __tmp1;
<unknown fundamental type (0xa510)> __ltmp;
<unknown fundamental type (0xa510)> ___ltmp;
<unknown fundamental type (0xa510)> ___ltmp;
<unknown fundamental type (0xa510)> ___ltmp;
<unknown fundamental type (0xa510)> ___ltmp;
<unknown fundamental type (0xa510)> ___ltmp;
<unknown fundamental type (0xa510)> ___ltmp;
<unknown fundamental type (0xa510)> ___ltmp;
<unknown fundamental type (0xa510)> ___ltmp;
RxPS2AllPipeData* _p2apd;
RxPS2AllPipeData* _p2apd;
void* _kohd;
ulong32 tmp;
<unknown fundamental type (0xa510)> ltmp;
<unknown fundamental type (0xa510)> ___ltmp;
RxPS2AllPipeData* _p2apd;
rwPS2AllResEntryHeader* _p2rh;
ulong32 __tmp;
ulong32 __tmp1;
<unknown fundamental type (0xa510)> __ltmp;
<unknown fundamental type (0xa510)> ___ltmp;
uint32 stat;
// Line 193, Address: 0x1a8840, Func Offset: 0
// Line 194, Address: 0x1a8844, Func Offset: 0x4
// Line 193, Address: 0x1a8848, Func Offset: 0x8
// Line 194, Address: 0x1a8858, Func Offset: 0x18
// Line 197, Address: 0x1a885c, Func Offset: 0x1c
// Line 198, Address: 0x1a8868, Func Offset: 0x28
// Line 199, Address: 0x1a886c, Func Offset: 0x2c
// Line 200, Address: 0x1a8874, Func Offset: 0x34
// Line 201, Address: 0x1a8878, Func Offset: 0x38
// Line 208, Address: 0x1a8884, Func Offset: 0x44
// Line 211, Address: 0x1a88c4, Func Offset: 0x84
// Line 213, Address: 0x1a89d4, Func Offset: 0x194
// Line 211, Address: 0x1a89e4, Func Offset: 0x1a4
// Line 213, Address: 0x1a8a00, Func Offset: 0x1c0
// Line 215, Address: 0x1a8a98, Func Offset: 0x258
// Line 224, Address: 0x1a8aa0, Func Offset: 0x260
// Line 226, Address: 0x1a8ab4, Func Offset: 0x274
// Line 229, Address: 0x1a8bd0, Func Offset: 0x390
// Line 234, Address: 0x1a8bd4, Func Offset: 0x394
// Line 235, Address: 0x1a8bd8, Func Offset: 0x398
// Line 245, Address: 0x1a8c1c, Func Offset: 0x3dc
// Line 250, Address: 0x1a8cf4, Func Offset: 0x4b4
// Line 245, Address: 0x1a8cf8, Func Offset: 0x4b8
// Line 250, Address: 0x1a8cfc, Func Offset: 0x4bc
// Line 245, Address: 0x1a8d00, Func Offset: 0x4c0
// Line 250, Address: 0x1a8d0c, Func Offset: 0x4cc
// Line 245, Address: 0x1a8d10, Func Offset: 0x4d0
// Line 250, Address: 0x1a8d14, Func Offset: 0x4d4
// Line 245, Address: 0x1a8d18, Func Offset: 0x4d8
// Line 250, Address: 0x1a8d1c, Func Offset: 0x4dc
// Line 245, Address: 0x1a8d20, Func Offset: 0x4e0
// Line 250, Address: 0x1a8d24, Func Offset: 0x4e4
// Line 245, Address: 0x1a8d28, Func Offset: 0x4e8
// Line 250, Address: 0x1a8d34, Func Offset: 0x4f4
// Line 245, Address: 0x1a8d38, Func Offset: 0x4f8
// Line 250, Address: 0x1a8d3c, Func Offset: 0x4fc
// Line 245, Address: 0x1a8d40, Func Offset: 0x500
// Line 250, Address: 0x1a8d44, Func Offset: 0x504
// Line 245, Address: 0x1a8d48, Func Offset: 0x508
// Line 250, Address: 0x1a8d58, Func Offset: 0x518
// Line 253, Address: 0x1a8da8, Func Offset: 0x568
// Line 256, Address: 0x1a8dec, Func Offset: 0x5ac
// Line 260, Address: 0x1a8f30, Func Offset: 0x6f0
// Line 263, Address: 0x1a9094, Func Offset: 0x854
// Line 265, Address: 0x1a90b4, Func Offset: 0x874
// Line 268, Address: 0x1a9110, Func Offset: 0x8d0
// Line 270, Address: 0x1a91c8, Func Offset: 0x988
// Line 271, Address: 0x1a91d0, Func Offset: 0x990
// Func End, Address: 0x1a91e8, Func Offset: 0x9a8
}
// RPS2AllObjectSetupCB__FP16RxPS2AllPipeDataPP11RwMatrixTag
// Start address: 0x1a91f0
int32 RPS2AllObjectSetupCB(RxPS2AllPipeData* ps2AllPipeData, RwMatrixTag** transform)
{
RpAtomic* atomic;
RpGeometry* geom;
RwMatrixTag* _viewMatrix;
RwMatrixTag* _mpLocalToWorld;
RpAtomic* _atmc;
RpGeometry* _gmty;
RwLLLink* cur;
RwLLLink* end;
RpMeshHeader* meshHeader;
rpAtomicPS2AllLightData lightingData;
RwMatrixTag* frameMat;
float32 temp;
RwLLLink* curLight;
RwLLLink* endLight;
RpLightTie* lightTie;
RwMatrixTag* matrixLight;
RwV3d* pos;
RwSphere* sphere;
float32 distanceCollision;
// Line 77, Address: 0x1a91f0, Func Offset: 0
// Line 81, Address: 0x1a921c, Func Offset: 0x2c
// Line 82, Address: 0x1a9220, Func Offset: 0x30
// Line 91, Address: 0x1a9224, Func Offset: 0x34
// Line 92, Address: 0x1a922c, Func Offset: 0x3c
// Line 113, Address: 0x1a927c, Func Offset: 0x8c
// Line 121, Address: 0x1a9280, Func Offset: 0x90
// Line 92, Address: 0x1a9284, Func Offset: 0x94
// Line 113, Address: 0x1a9288, Func Offset: 0x98
// Line 121, Address: 0x1a9294, Func Offset: 0xa4
// Line 123, Address: 0x1a92a0, Func Offset: 0xb0
// Line 127, Address: 0x1a92ac, Func Offset: 0xbc
// Line 140, Address: 0x1a92b0, Func Offset: 0xc0
// Line 141, Address: 0x1a92bc, Func Offset: 0xcc
// Line 142, Address: 0x1a92dc, Func Offset: 0xec
// Line 144, Address: 0x1a92e8, Func Offset: 0xf8
// Line 145, Address: 0x1a92ec, Func Offset: 0xfc
// Line 157, Address: 0x1a92f0, Func Offset: 0x100
// Line 158, Address: 0x1a92f8, Func Offset: 0x108
// Line 168, Address: 0x1a9308, Func Offset: 0x118
// Line 175, Address: 0x1a9314, Func Offset: 0x124
// Line 180, Address: 0x1a9320, Func Offset: 0x130
// Line 182, Address: 0x1a94f0, Func Offset: 0x300
// Line 183, Address: 0x1a94f8, Func Offset: 0x308
// Func End, Address: 0x1a9520, Func Offset: 0x330
}
|
lhzheng880828/VOIPCall | libmedia/src/main/java/org/jitsi/impl/neomedia/format/AudioMediaFormatImpl.java | /*
* Jitsi, the OpenSource Java VoIP and Instant Messaging client.
*
* Distributable under LGPL license.
* See terms of license at gnu.org.
*/
package org.jitsi.impl.neomedia.format;
import java.util.*;
import javax.media.*;
import javax.media.format.*;
import org.jitsi.service.neomedia.*;
import org.jitsi.service.neomedia.format.*;
/**
* Implements <tt>AudioMediaFormat</tt> for the JMF <tt>AudioFormat</tt>.
*
* @author <NAME>
*/
public class AudioMediaFormatImpl
extends MediaFormatImpl<AudioFormat>
implements AudioMediaFormat
{
/**
* Initializes a new <tt>AudioMediaFormatImpl</tt> instance which is to
* provide an implementation of <tt>AudioMediaFormat</tt> for a specific
* JMF <tt>AudioFormat</tt>.
*
* @param format the JMF <tt>AudioFormat</tt> the new instance is to wrap
* and provide an implementation of <tt>AudioMediaFormat</tt> for
*/
AudioMediaFormatImpl(AudioFormat format)
{
this(format, null, null);
}
/**
* Initializes a new <tt>AudioMediaFormatImpl</tt> instance which is to
* provide an implementation of <tt>AudioMediaFormat</tt> for a specific
* JMF <tt>AudioFormat</tt> and to have a specific set of format-specific
* parameters.
*
* @param format the JMF <tt>AudioFormat</tt> the new instance is to wrap
* and provide an implementation of <tt>AudioMediaFormat</tt> for
* @param formatParameters the set of format-specific parameters of the new
* instance
* @param advancedParameters the set of format-specific parameters of the new
* instance
*/
AudioMediaFormatImpl(
AudioFormat format,
Map<String, String> formatParameters,
Map<String, String> advancedParameters)
{
super(fixChannels(format), formatParameters, advancedParameters);
}
/**
* Initializes a new <tt>AudioMediaFormatImpl</tt> instance with the
* specified encoding and a single audio channel.
*
* @param encoding the encoding of the new <tt>AudioMediaFormatImpl</tt>
* instance
*/
public AudioMediaFormatImpl(String encoding)
{
this(new AudioFormat(encoding));
}
/**
* Initializes a new <tt>AudioMediaFormatImpl</tt> instance with the
* specified encoding and clock rate and a single audio channel.
*
* @param encoding the encoding of the new <tt>AudioMediaFormatImpl</tt>
* instance
* @param clockRate the clock (i.e. sample) rate of the new
* <tt>AudioMediaFormatImpl</tt> instance
*/
AudioMediaFormatImpl(String encoding, double clockRate)
{
this(encoding, clockRate, 1);
}
/**
* Initializes a new <tt>AudioMediaFormatImpl</tt> instance with the
* specified encoding, clock rate and number of audio channels.
*
* @param encoding the encoding of the new <tt>AudioMediaFormatImpl</tt>
* instance
* @param clockRate the clock (i.e. sample) rate of the new
* <tt>AudioMediaFormatImpl</tt> instance
* @param channels the number of available channels (1 for mono, 2 for
* stereo)
*/
AudioMediaFormatImpl(String encoding, double clockRate, int channels)
{
this(encoding, clockRate, channels, null, null);
}
/**
* Initializes a new <tt>AudioMediaFormatImpl</tt> instance with the
* specified encoding, clock rate and format parameters and a single audio
* channel.
*
* @param encoding the encoding of the new <tt>AudioMediaFormatImpl</tt>
* instance
* @param clockRate the clock (i.e. sample) rate of the new
* <tt>AudioMediaFormatImpl</tt> instance
* @param formatParameters any codec-specific parameters that have been
* received via SIP/SDP or XMPP/Jingle.
* @param advancedParameters set of advanced parameters that have been
* received by SIP/SDP or XMPP/Jingle
*/
AudioMediaFormatImpl(
String encoding,
double clockRate,
Map<String, String> formatParameters,
Map<String, String> advancedParameters)
{
this(encoding, clockRate, 1, formatParameters, advancedParameters);
}
/**
* Initializes a new <tt>AudioMediaFormatImpl</tt> instance with the
* specified encoding, clock rate, number of audio channels and format
* parameters.
*
* @param encoding the encoding of the new <tt>AudioMediaFormatImpl</tt>
* instance
* @param clockRate the clock (i.e. sample) rate of the new
* <tt>AudioMediaFormatImpl</tt> instance
* @param channels the number of available channels (1 for mono, 2 for
* stereo)
* @param formatParameters any codec-specific parameters that have been
* received via SIP/SDP or XMPP/Jingle
* @param advancedParameters any parameters that have been
* received via SIP/SDP or XMPP/Jingle
*/
AudioMediaFormatImpl(
String encoding,
double clockRate,
int channels,
Map<String, String> formatParameters,
Map<String, String> advancedParameters)
{
this(
new AudioFormat(
encoding,
clockRate,
AudioFormat.NOT_SPECIFIED,
channels),
formatParameters,
advancedParameters);
}
/**
* Gets an <tt>AudioFormat</tt> instance which matches a specific
* <tt>AudioFormat</tt> and has 1 channel if the specified
* <tt>AudioFormat</tt> has its number of channels not specified.
*
* @param format the <tt>AudioFormat</tt> to get a match of
* @return if the specified <tt>format</tt> has a specific number of
* channels, <tt>format</tt>; otherwise, a new <tt>AudioFormat</tt> instance
* which matches <tt>format</tt> and has 1 channel
*/
private static AudioFormat fixChannels(AudioFormat format)
{
if (Format.NOT_SPECIFIED == format.getChannels())
format
= (AudioFormat)
format
.intersects(
new AudioFormat(
format.getEncoding(),
format.getSampleRate(),
format.getSampleSizeInBits(),
1));
return format;
}
/**
* Gets the number of audio channels associated with this
* <tt>AudioMediaFormat</tt>.
*
* @return the number of audio channels associated with this
* <tt>AudioMediaFormat</tt>
* @see AudioMediaFormat#getChannels()
*/
public int getChannels()
{
int channels = format.getChannels();
return (Format.NOT_SPECIFIED == channels) ? 1 : channels;
}
/**
* Gets the clock rate associated with this <tt>MediaFormat</tt>.
*
* @return the clock rate associated with this <tt>MediaFormat</tt>
* @see MediaFormat#getClockRate()
*/
public double getClockRate()
{
return format.getSampleRate();
}
/**
* Gets the type of this <tt>MediaFormat</tt> which is
* {@link MediaType#AUDIO} for <tt>AudioMediaFormatImpl</tt> instances.
*
* @return the <tt>MediaType</tt> that this format represents and which is
* <tt>MediaType.AUDIO</tt> for <tt>AudioMediaFormatImpl</tt> instances
* @see MediaFormat#getMediaType()
*/
public final MediaType getMediaType()
{
return MediaType.AUDIO;
}
}
|
cerww/cpp_discord_cuteness | include/voice_state.h | <gh_stars>1-10
#pragma once
#include <nlohmann/json.hpp>
#include "snowflake.h"
#include "guild_member.h"
#include "../common/common/optional_from_json.h"
struct voice_state {
snowflake channel_id() const noexcept { return m_channel_id; }
snowflake user_id() const noexcept { return m_user_id; }
std::string_view session_id() const noexcept { return m_session_id; }
bool deaf() const noexcept { return m_deaf; }
bool mute() const noexcept { return m_mute; }
bool self_deaf() const noexcept { return m_self_deaf; }
bool self_mute() const noexcept { return m_self_mute; }
bool suppress() const noexcept { return m_suppress; }
const std::optional<guild_member>& member() const { return m_member; }
private:
snowflake m_channel_id;
snowflake m_user_id;
std::string m_session_id;
bool m_deaf = false;
bool m_mute = false;
bool m_self_deaf = false;
bool m_self_mute = false;
bool m_suppress = false;
std::optional<guild_member> m_member;
friend struct internal_shard;
friend void from_json(const nlohmann::json& json, voice_state& vs);
};
struct voice_state2 :voice_state {
snowflake guild_id() const noexcept { return m_guild_id; }
private:
snowflake m_guild_id;
friend void from_json(const nlohmann::json& json, voice_state2& vs);
};
inline void from_json(const nlohmann::json& json, voice_state& vs) {
vs.m_channel_id = json["channel_id"].get<snowflake>();
vs.m_user_id = json["user_id"].get<snowflake>();
vs.m_session_id = json["session_id"].get<std::string>();
vs.m_deaf = json["deaf"].get<bool>();
vs.m_mute = json["mute"].get<bool>();
vs.m_self_deaf = json["self_deaf"].get<bool>();
vs.m_self_mute = json["self_mute"].get<bool>();
vs.m_suppress = json["suppress"].get<bool>();
vs.m_member = json.value("member", std::optional<guild_member>());
}
inline void from_json(const nlohmann::json& json, voice_state2& vs) {
from_json(json, static_cast<voice_state&>(vs));
vs.m_guild_id = json["guild_id"].get<snowflake>();
}
struct voice_region {
std::string_view id() const noexcept { return m_id; }
std::string_view name() const noexcept { return m_name; }
bool vip() const noexcept { return m_vip; }
bool optimal() const noexcept { return m_optimal; }
bool depricated() const noexcept { return m_depricated; }
bool custom() const noexcept { return m_custom; }
private:
std::string m_id{};
std::string m_name{};
bool m_vip = false;
bool m_optimal = false;
bool m_depricated = false;
bool m_custom = false;
friend void from_json(const nlohmann::json&, voice_region&);
};
inline void from_json(const nlohmann::json& json, voice_region& r) {
r.m_id = json["id"].get<std::string>();
r.m_name = json["name"].get<std::string>();
r.m_vip = json["vip"].get<bool>();
r.m_optimal = json["optimal"].get<bool>();
r.m_depricated = json["depricated"].get<bool>();
r.m_custom = json["custom"].get<bool>();
}
|
dogfootman/cb-webtool | src/model/tumblebug/mcis/AutoAction.go | package mcis
type AutoAction struct {
ActionType string `json:"actionType"`
PlacementAlgo string `json:"placementAlgo"`
PostCommand McisCmdReq `json:"postCommand"`
Vm TbVmInfo `json:"vm"`
}
|
LaudateCorpus1/llvm-project | clang/test/Analysis/plist-html-macros.c | <reponame>LaudateCorpus1/llvm-project
// RUN: %clang_analyze_cc1 -analyzer-checker=core -verify %s
// (basic correctness check)
// RUN: rm -rf %t.dir
// RUN: mkdir -p %t.dir
//
// RUN: %clang_analyze_cc1 -o %t.dir/index.plist %s \
// RUN: -analyzer-checker=core -analyzer-output=plist-html
//
// RUN: ls %t.dir | grep '\.html' | count 1
// RUN: grep '\.html' %t.dir/index.plist | count 1
// This tests two things: that the two calls to null_deref below are coalesced
// into a single bug by both the plist and HTML diagnostics, and that the plist
// diagnostics have a reference to the HTML diagnostics. (It would be nice to
// check more carefully that the two actually match, but that's hard to write
// in a lit RUN line.)
#define CALL_FN(a) null_deref(a)
void null_deref(int *a) {
if (a)
return;
*a = 1; // expected-warning{{null}}
}
void test1(void) {
CALL_FN(0);
}
void test2(int *p) {
CALL_FN(p);
}
|
ZoeyCluff/franzbot | config/915959680080171018/faqs/permissions.js | <reponame>ZoeyCluff/franzbot
exports.answer = async client => ({
"title": `Can't find character config data? We need permissions!`,
"description": 'In Security and privacy in System preferences, grant XIV on Mac, \n'
+ 'permissions to your documents folder. This is what happens when you press \n'
+ "no on the dialogue asking for permissons",
"color": client.config.EMBED_NORMAL_COLOR,
"footer": {
"text": client.config.FRANZBOT_VERSION,
},
"image": {
"url": "https://i.imgur.com/Eq8LlVZ.png",
},
});
exports.info = {
name: "permissions",
category: "help",
aliases: [
"permissions",
"cantfindconfig",
],
};
|
muteria/mart | lib/operatorsClasses/PointerArithBinop_Base/PointerArithBinop_Base.h | <gh_stars>10-100
#ifndef __MART_GENMU_operatorClasses__PointerArithBinop_Base__
#define __MART_GENMU_operatorClasses__PointerArithBinop_Base__
/**
* -==== PointerArithBinop_Base.h
*
* MART Multi-Language LLVM Mutation Framework
*
* This file is distributed under the University of Illinois Open Source
* License. See LICENSE.TXT for details.
*
* \brief Generic abstract base class for all mutation operator that match
* and replace binary arithmetic operation.
* \details This abstract class define is extended from the Generic base
* class.
* \todo Frontend should make sure that the left had operand is the pointer
* and the right hand the integer
*/
#include "../GenericMuOpBase.h"
namespace mart {
class PointerArithBinop_Base : public GenericMuOpBase {
protected:
/**
* \brief This method is to be implemented by each numeric pointer arithmetic
* binary operation matching-mutating operator
* @return true if the parameter matches, else false.
*/
inline virtual bool checkIntPartConst(llvm::ConstantInt *constIndxVal) = 0;
inline virtual bool checkIntPartExp(llvm::Instruction *tmpI) = 0;
public:
bool matchIRs(MatchStmtIR const &toMatch, llvmMutationOp const &mutationOp,
unsigned pos, MatchUseful &MU, ModuleUserInfos const &MI) {
llvm::Value *val = toMatch.getIRAt(pos);
if (auto *gep = llvm::dyn_cast<llvm::GetElementPtrInst>(val)) {
// check the pointer displacement index (0)'s value
int indx;
llvm::Value *indxVal = checkIsPointerIndexingAndGet(gep, indx);
if (!indxVal)
return false;
if (llvm::ConstantInt *constIndxVal =
llvm::dyn_cast<llvm::ConstantInt>(indxVal)) {
if (!checkIntPartConst(constIndxVal))
return false;
} else { // it is a non constant
llvm::Value *tmpI = indxVal;
while (llvm::isa<llvm::CastInst>(tmpI))
tmpI = llvm::dyn_cast<llvm::User>(tmpI)->getOperand(0);
if (!checkIntPartExp(llvm::dyn_cast<llvm::Instruction>(tmpI)))
return false;
}
// Make sure the pointer is the right type. XXX: assumed that the
// mutation front end made sure that the pointer is the left hand oprd
// (for case where , PADD(c,p), PADD(@,p))
if (!checkCPTypeInIR(mutationOp.getCPType(0), gep->getPointerOperand()) ||
!checkCPTypeInIR(mutationOp.getCPType(1), indxVal))
return false;
MatchUseful *ptr_mu = MU.getNew();
ptr_mu->appendHLOprdsSource(pos, 0); // Pointer oprd
// Int oprd. We add 1 because here we pass the user oprd while indx had
// the Gep access index
ptr_mu->appendHLOprdsSource(pos, indx + 1);
ptr_mu->appendRelevantIRPos(pos);
ptr_mu->setHLReturningIRPos(pos);
}
return (MU.first() != MU.end());
}
void prepareCloneIRs(MatchStmtIR const &toMatch, unsigned pos,
MatchUseful const &MU,
llvmMutationOp::MutantReplacors const &repl,
DoReplaceUseful &DRU, ModuleUserInfos const &MI) {
DRU.toMatchMutant.setToCloneStmtIROf(toMatch, MI);
llvm::Value *indxVal = MU.getHLOperandSource(
1, DRU.toMatchMutant); // Integer oprd (secondly appended in matchIs)
int oldPos = MU.getRelevantIRPosOf(0);
int newPos = oldPos;
int indx = MU.getHLOperandSourceIndexInIR(1) - 1; // index according to Gep:
// Get the in IR index of
// the Integer HLOprd (1)
// then remove 1
// if (indx > 0)
// newPos++;
std::vector<llvm::Value *> extraIdx;
/// \brief as gep will be split to have one Gep that only have the relevant
/// index,
/// 'preGep' will be the split gep before, and 'postGep' the split gep after
llvm::GetElementPtrInst *preGep = nullptr, *postGep = nullptr;
llvm::IRBuilder<> builder(MI.getContext());
/// \brief indx is not the first, we can split before
if (indx > 0) {
llvm::GetElementPtrInst *curGI = llvm::dyn_cast<llvm::GetElementPtrInst>(
DRU.toMatchMutant.getIRAt(oldPos));
extraIdx.clear();
for (auto i = 0; i < indx; i++)
extraIdx.push_back(*(curGI->idx_begin() + i));
preGep = llvm::dyn_cast<llvm::GetElementPtrInst>(
builder.CreateInBoundsGEP(curGI->getPointerOperand(), extraIdx));
if (preGep) {
newPos++;
} else {
assert(llvm::isa<llvm::Constant>(curGI->getPointerOperand()) &&
"Newly created GEP (preGep) is NULL, but previous spointer oprd "
"is not constant. Please report bug");
}
}
/// \brief indx is not the last, we can split after
if (indx < llvm::dyn_cast<llvm::GetElementPtrInst>(
DRU.toMatchMutant.getIRAt(oldPos))
->getNumIndices() -
1) {
llvm::GetElementPtrInst *curGI = llvm::dyn_cast<llvm::GetElementPtrInst>(
DRU.toMatchMutant.getIRAt(oldPos));
extraIdx.clear();
for (auto i = indx + 1; i < llvm::dyn_cast<llvm::GetElementPtrInst>(
DRU.toMatchMutant.getIRAt(oldPos))
->getNumIndices();
i++)
extraIdx.push_back(*(curGI->idx_begin() + i));
postGep = llvm::dyn_cast<llvm::GetElementPtrInst>(
builder.CreateInBoundsGEP(curGI, extraIdx));
assert(postGep &&
"Newly created GEP (postGep) is NULL, please report bug");
std::vector<std::pair<llvm::User *, unsigned>> affectedUnO;
// set uses of the matched IR to corresponding OPRD
#if (LLVM_VERSION_MAJOR <= 3) && (LLVM_VERSION_MINOR < 5)
for (llvm::Value::use_iterator ui = curGI->use_begin(),
ue = curGI->use_end();
ui != ue; ++ui) {
auto &U = ui.getUse();
llvm::User *user = U.getUser();
affectedUnO.push_back(
std::pair<llvm::User *, unsigned>(user, ui.getOperandNo()));
#else
for (auto &U : llvm::dyn_cast<llvm::Instruction>(curGI)->uses()) {
llvm::User *user = U.getUser();
affectedUnO.push_back(
std::pair<llvm::User *, unsigned>(user, U.getOperandNo()));
#endif
}
for (auto &affected : affectedUnO)
if (affected.first != postGep) // && std::find(replacement.begin(),
// replacement.end(), affected.first) ==
// replacement.end()) //avoid 'use
// loop': a->b->a
affected.first->setOperand(affected.second, postGep);
}
if (postGep)
DRU.toMatchMutant.insertIRAt(oldPos + 1, postGep);
if (preGep)
DRU.toMatchMutant.insertIRAt(oldPos, preGep);
llvm::Value *ptroprd = nullptr, *valoprd = nullptr;
llvm::Value *tmpPtr =
preGep ? preGep : llvm::dyn_cast<llvm::GetElementPtrInst>(
DRU.toMatchMutant.getIRAt(newPos))
->getPointerOperand();
llvm::GetElementPtrInst *tmpGepVal =
postGep ? postGep : llvm::dyn_cast<llvm::GetElementPtrInst>(
DRU.toMatchMutant.getIRAt(newPos));
if (tmpPtr->getType() != tmpGepVal->getType()) {
/// probably 'tmpPtr' is an array or vector and 'tmpGepVal' is simple
/// pointer. ex: [3 x i32]* and i32*
/// This gep's pointer operand cannot be load, therefore this cannot match
/// cpPOINTER type and can't be replaced by p++,p--,...
/// safely create a gep to make the transformation and insert at newpos
extraIdx.clear();
extraIdx.push_back(llvm::ConstantInt::get(
llvm::Type::getIntNTy(
MI.getContext(),
MI.getDataLayout().getPointerTypeSizeInBits(tmpPtr->getType())),
0));
extraIdx.push_back(llvm::ConstantInt::get(
llvm::Type::getIntNTy(MI.getContext(),
MI.getDataLayout().getPointerTypeSizeInBits(
tmpGepVal->getType())),
0));
tmpPtr = builder.CreateInBoundsGEP(tmpPtr, extraIdx);
llvm::dyn_cast<llvm::User>(DRU.toMatchMutant.getIRAt(newPos))
->setOperand(0, tmpPtr);
if (!llvm::isa<llvm::Constant>(tmpPtr)) {
DRU.toMatchMutant.insertIRAt(newPos, tmpPtr);
newPos++;
}
}
if (repl.getOprdIndexList().size() == 2) {
ptroprd = tmpPtr;
if (!(valoprd =
createIfConst(indxVal->getType(), repl.getOprdIndexList()[1])))
valoprd = indxVal;
} else // size is 1
{
if (ptroprd = createIfConst(
indxVal->getType(),
repl.getOprdIndexList()[0])) { // The replacor should be
// CONST_VALUE_OF
ptroprd = builder.CreateIntToPtr(ptroprd, tmpPtr->getType());
if (!llvm::isa<llvm::Constant>(ptroprd))
DRU.toMatchMutant.insertIRAt(
newPos + 1,
ptroprd); // insert right after the instruction to remove
} else if (repl.getOprdIndexList()[0] == 1) // non pointer (integer)
{ // The replacor should be KEEP_ONE_OPRD
ptroprd = builder.CreateIntToPtr(indxVal, tmpPtr->getType());
if (!llvm::isa<llvm::Constant>(ptroprd))
DRU.toMatchMutant.insertIRAt(
newPos + 1,
ptroprd); // insert right after the instruction to remove
} else // pointer
{
ptroprd = tmpPtr;
}
}
DRU.posOfIRtoRemove.push_back(newPos);
DRU.appendHLOprds(ptroprd);
DRU.appendHLOprds(valoprd);
DRU.setOrigRelevantIRPos(MU.getRelevantIRPos());
DRU.setHLReturningIRPos(newPos);
}
}; // class PointerArithBinop_Base
} // namespace mart
#endif //__MART_GENMU_operatorClasses__PointerArithBinop_Base__
|
albertofinardi/FINFO_1 | 10_05/1.c | <reponame>albertofinardi/FINFO_1
/*
Scrivere un programma in C che chiede all'utente una sequenza di 10
numeri interi. Il programma controlla che non vi siano duplicati
all'interno della sequenza data e visualizza l'esito del test (1 se
non ci sono duplicati, 0 altrimenti).
*/
#include <stdio.h>
#define DIM 10
int main(){
int m[DIM], i, j, nodupl;
for(i=0; i<DIM; i++){
scanf("%d", &m[i]);
}
for(i=0, nodupl = 1; i<DIM && nodupl; i++){
for(j=0; j<i && nodupl; j++){
if(m[i]==m[j])
nodupl = 0;
}
}
printf("%d\n", nodupl);
return 0;
} |
csf-dev/agiil | Agiil.Web.Client/src/models/tickets/TicketComment.js | <reponame>csf-dev/agiil
//@flow
export default class TicketComment {
#id : number;
get id() { return this.#id; }
author : ?string;
createdTimestamp : ?string;
commentMarkup : ?string;
canEdit : bool;
canDelete : bool;
get editUrl() { return `Comment/Edit/${this.id}`; }
constructor(id : number) {
this.#id = id;
}
} |
AndersenLab/CAENDR | src/modules/site/base/views/auth/auth.py | import os
from logzero import logger
from datetime import datetime, timezone
from flask import (abort,
redirect,
url_for,
render_template,
session,
request,
make_response,
flash,
jsonify,
Blueprint)
from slugify import slugify
from base.forms import BasicLoginForm
from base.utils.auth import (get_jwt_identity,
jwt_required,
assign_access_refresh_tokens,
unset_jwt)
from caendr.models.datastore import User
from caendr.services.cloud.secret import get_secret
PASSWORD_PEPPER = get_secret('PASSWORD_PEPPER')
auth_bp = Blueprint('auth', __name__, template_folder='templates')
@auth_bp.route('/')
def auth():
return redirect(url_for('auth.choose_login'))
@auth_bp.route('/refresh', methods=['GET'])
@jwt_required(refresh=True)
def refresh():
''' Refreshing expired Access token '''
username = get_jwt_identity()
user = User(username)
if user._exists:
referrer = session.get('login_referrer', '/')
return assign_access_refresh_tokens(username, user.roles, referrer, refresh=False)
return abort(401)
@auth_bp.route("/login/select", methods=['GET'])
def choose_login(error=None):
# Relax scope for Google
referrer = session.get("login_referrer") or '/'
if 'login' in referrer:
session["login_referrer"] = '/'
else:
session["login_referrer"] = request.args.get('next')
os.environ['OAUTHLIB_RELAX_TOKEN_SCOPE'] = "true"
VARS = {'page_title': 'Choose Login'}
if error:
flash(error, 'danger')
return render_template('auth/select_login.html', **VARS)
@auth_bp.route("/login/basic", methods=["GET", "POST"])
def basic_login():
title = "Login"
logger.info(request.referrer)
disable_parent_breadcrumb = True
form = BasicLoginForm(request.form)
if request.method == 'POST' and form.validate():
username = slugify(request.form.get("username"))
password = request.form.get("password")
user = User(username)
if user._exists:
if user.check_password(password, <PASSWORD>):
user.set_properties(last_login=datetime.now(timezone.utc))
user.save()
referrer = session.get('login_referrer', '/') or '/'
if '/login/' in referrer:
referrer = '/'
flash('Logged In', 'success')
return assign_access_refresh_tokens(username, user.roles, referrer)
flash('Wrong username or password', 'error')
return redirect(request.referrer)
return render_template('auth/basic_login.html', **locals())
@auth_bp.route('/logout')
def logout():
""" Logs the user out. """
session.clear()
resp = unset_jwt()
flash("Successfully logged out", "success")
return resp
|
raychorn/svn_Flash_Builder_4 | @VyperLogixProjects/@workspace_fb46/as3gullinburstilibs/raw/wxChecksums-1.2.0/src/dlgMultiCheckConf.cpp | /*
* wxChecksums
* Copyright (C) 2003-2004 <NAME>
*
* This program is free software; you can redistribute it and/or
* modify it under the terms of the GNU General Public License
* as published by the Free Software Foundation; either version 2
* of the License, or (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program; if not, write to the Free Software
* Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA 02111-1307, USA.
*/
/**
* \file dlgMultiCheckConf.cpp
* Configuration dialog for checking multiple checksums' files.
*/
//---------------------------------------------------------------------------
// For compilers that support precompilation, includes "wx.h".
#include <wx/wxprec.h>
#ifdef __BORLANDC__
#pragma hdrstop
#endif
#ifndef WX_PRECOMP
// Include your minimal set of headers here, or wx.h
#include <wx/wx.h>
#endif
#include "dlgMultiCheckConf.hpp"
#include "fileutil.hpp"
#include "compat.hpp"
//---------------------------------------------------------------------------
/// The C++ standard namespace.
using namespace std;
IMPLEMENT_DYNAMIC_CLASS(dlgMultiCheckConf, dlgFilesSelector)
/**
* Creates a new dialog.
*/
dlgMultiCheckConf::dlgMultiCheckConf() : dlgFilesSelector()
{
}
//---------------------------------------------------------------------------
/**
* Creates a new dialog.
*
* @param parent Parent of the dialog.
*/
dlgMultiCheckConf::dlgMultiCheckConf(wxWindow* parent) :
dlgFilesSelector(parent)
{
}
//---------------------------------------------------------------------------
/**
* The class descructor.
*/
dlgMultiCheckConf::~dlgMultiCheckConf()
{
}
//---------------------------------------------------------------------------
/**
* Gets the root configuration key for parameters of this dialog.
*
* The returned string must be ended the a '<CODE>/</CODE>' character.
*
* @return The root configuration key for parameters of this dialog.
*/
wxString dlgMultiCheckConf::getRootConfigKey()
{
return wxT("GUI/MultiCheckConfigDlg/");
}
//---------------------------------------------------------------------------
/**
* Gets the string for the specified UI element.
*
* @param id Identifier of the wanted UI element.
* @return The string for the specified UI element and an empty string if the
* given UI element is invalid.
*/
wxString dlgMultiCheckConf::getUIString(UIStrings id)
{
wxString res;
switch (id)
{
case uiDialogTitle :
res = _("Check multiple checksums' files"); break;
case uiBtnOK :
res = _("&Check"); break;
case uiFraFilesList :
res = _("List of files to c&heck:"); break;
case uiFraSearchFiles :
res = _("Search &for some files to check:"); break;
case uiOpenDlgAddFiles :
res = _("Select the files to be checked"); break;
case uiOpenDlgAddList :
res = _("Add a list of checksums' files"); break;
case uiOpenDlgLoadList :
res = _("Load a list of checksums' files"); break;
case uiSaveDlgAddList :
res = _("Save a list of checksums' files"); break;
};
return res;
}
//---------------------------------------------------------------------------
/**
* Returns a set of filters for the "Add files" dialog.
*
* @return A set of filters for the "Add files" dialog.
*/
wxFileDialogFilterMaker dlgMultiCheckConf::getFiltersForAddFilesDialog()
{
return ::getFilterForKnownTypesOfChecksumsFiles();
}
//---------------------------------------------------------------------------
/*
BEGIN_EVENT_TABLE(dlgMultiCheckConf, dlgFilesSelector)
END_EVENT_TABLE()
*/
//---------------------------------------------------------------------------
|
vibhor1994/3D-Cube-Wireframe | output/Data.Distributive/index.js | <gh_stars>0
// Generated by purs version 0.11.6
"use strict";
var Control_Category = require("../Control.Category");
var Control_Semigroupoid = require("../Control.Semigroupoid");
var Data_Function = require("../Data.Function");
var Data_Functor = require("../Data.Functor");
var Data_Identity = require("../Data.Identity");
var Data_Newtype = require("../Data.Newtype");
var Prelude = require("../Prelude");
var Distributive = function (Functor0, collect, distribute) {
this.Functor0 = Functor0;
this.collect = collect;
this.distribute = distribute;
};
var distributiveIdentity = new Distributive(function () {
return Data_Identity.functorIdentity;
}, function (dictFunctor) {
return function (f) {
return function ($11) {
return Data_Identity.Identity(Data_Functor.map(dictFunctor)(function ($12) {
return Data_Newtype.unwrap(Data_Identity.newtypeIdentity)(f($12));
})($11));
};
};
}, function (dictFunctor) {
return function ($13) {
return Data_Identity.Identity(Data_Functor.map(dictFunctor)(Data_Newtype.unwrap(Data_Identity.newtypeIdentity))($13));
};
});
var distribute = function (dict) {
return dict.distribute;
};
var distributiveFunction = new Distributive(function () {
return Data_Functor.functorFn;
}, function (dictFunctor) {
return function (f) {
return function ($14) {
return distribute(distributiveFunction)(dictFunctor)(Data_Functor.map(dictFunctor)(f)($14));
};
};
}, function (dictFunctor) {
return function (a) {
return function (e) {
return Data_Functor.map(dictFunctor)(function (v) {
return v(e);
})(a);
};
};
});
var cotraverse = function (dictDistributive) {
return function (dictFunctor) {
return function (f) {
return function ($15) {
return Data_Functor.map(dictDistributive.Functor0())(f)(distribute(dictDistributive)(dictFunctor)($15));
};
};
};
};
var collectDefault = function (dictDistributive) {
return function (dictFunctor) {
return function (f) {
return function ($16) {
return distribute(dictDistributive)(dictFunctor)(Data_Functor.map(dictFunctor)(f)($16));
};
};
};
};
var collect = function (dict) {
return dict.collect;
};
var distributeDefault = function (dictDistributive) {
return function (dictFunctor) {
return collect(dictDistributive)(dictFunctor)(Control_Category.id(Control_Category.categoryFn));
};
};
module.exports = {
Distributive: Distributive,
collect: collect,
collectDefault: collectDefault,
cotraverse: cotraverse,
distribute: distribute,
distributeDefault: distributeDefault,
distributiveIdentity: distributiveIdentity,
distributiveFunction: distributiveFunction
};
|
qubka/signals | signal-slot-benchmarks/benchmark/cpp/benchmark_evl.cpp | <gh_stars>100-1000
#include "../hpp/benchmark_evl.hpp"
NOINLINE(void Evl::initialize())
{
// NOOP
}
NOINLINE(void Evl::validate_assert(std::size_t N))
{
return Benchmark<Signal, Evl>::validation_assert(N);
}
NOINLINE(double Evl::construction(std::size_t N, std::size_t limit))
{
return Benchmark<Signal, Evl>::construction(N, limit);
}
NOINLINE(double Evl::destruction(std::size_t N, std::size_t limit))
{
return Benchmark<Signal, Evl>::destruction(N, limit);
}
NOINLINE(double Evl::connection(std::size_t N, std::size_t limit))
{
return Benchmark<Signal, Evl>::connection(N, limit);
}
NOINLINE(double Evl::disconnect(std::size_t N, std::size_t limit))
{
return Benchmark<Signal, Evl>::disconnect(N, limit);
}
NOINLINE(double Evl::reconnect(std::size_t N, std::size_t limit))
{
return Benchmark<Signal, Evl>::reconnect(N, limit);
}
NOINLINE(double Evl::emission(std::size_t N, std::size_t limit))
{
return Benchmark<Signal, Evl>::emission(N, limit);
}
NOINLINE(double Evl::combined(std::size_t N, std::size_t limit))
{
return Benchmark<Signal, Evl>::combined(N, limit);
}
NOINLINE(double Evl::threaded(std::size_t N, std::size_t limit))
{
// NOT IMPLEMENTED FOR THIS LIB
return 0.0;
}
|
ucd-library/ucdlib-theme | test-app/pages/page-ucd-theme-slim-select.tpl.js | <filename>test-app/pages/page-ucd-theme-slim-select.tpl.js
import { html, css } from 'lit';
export function styles() {
const elementStyles = css`
:host {
display: block;
}
`;
return [elementStyles];
}
export function render() {
return html`
${this.pageTitle("Slim Select")}
${this.importPanel("brand/ucd-theme-slim-select/ucd-theme-slim-select.js")}
<p>The <code>ucd-theme-slim-select</code> component renders a stylized, searcheable select-like element.
It uses the <a href="https://slimselectjs.com/">Slim Select package</a>, which parses the select element you pass through:
</p>
${this.examplePanel(html`
<ucd-theme-slim-select>
<select multiple>
<optgroup label="Fruits">
<option>Apples</option>
<option>Bananas</option>
<option>Plums</option>
<option>Figs</option>
</optgroup>
<optgroup label="Vegetables">
<option>Peppers</option>
<option>Eggplant</option>
<option>Squash</option>
</optgroup>
</select>
</ucd-theme-slim-select>
`)}
<p>Here we rely on global styles for the label:</p>
${this.examplePanel(html`
<fieldset>
<div class="field-container">
<label for="selectpicker">Select</label>
<ucd-theme-slim-select>
<select multiple id="selectpicker">
<optgroup label="Fruits">
<option>Apples</option>
<option>Bananas</option>
<option>Plums</option>
<option>Figs</option>
</optgroup>
<optgroup label="Vegetables">
<option>Peppers</option>
<option>Eggplant</option>
<option>Squash</option>
</optgroup>
</select>
</ucd-theme-slim-select>
</div>
</fieldset>
`)}
<h2>Events</h2>
<p>A <code>change</code> event will fire when there is a change:</p>
${this.examplePanel(html`
<ucd-theme-slim-select @change="${(e) => console.log(e.detail)}">
<select multiple>
<optgroup label="Fruits">
<option>Apples</option>
<option>Bananas</option>
<option>Plums</option>
<option>Figs</option>
</optgroup>
<optgroup label="Vegetables">
<option>Peppers</option>
<option>Eggplant</option>
<option>Squash</option>
</optgroup>
</select>
</ucd-theme-slim-select>
`)}
`;} |
ey6es/witgap | src/cpp/server/script/Lexer.cpp | //
// $Id$
#include "script/Lexer.h"
Lexer::Lexer (const QString& expr, const QString& source) :
_expr(expr),
_source(source),
_idx(0),
_line(0),
_lineIdx(0)
{
}
/**
* Checks whether the specified character is a delimiter.
*/
static bool isDelimiter (QChar ch)
{
return ch.isSpace() || ch == ';' || ch == '#' || ch == '\"' ||
ch == '(' || ch == ')' || ch == '[' || ch == ']';
}
/**
* Creates the named character map.
*/
static QHash<QString, QChar> createNamedChars ()
{
QHash<QString, QChar> hash;
hash.insert("nul", 0x0);
hash.insert("alarm", 0x07);
hash.insert("backspace", 0x08);
hash.insert("tab", 0x09);
hash.insert("linefeed", 0x0A);
hash.insert("newline", 0x0A);
hash.insert("vtab", 0x0B);
hash.insert("page", 0x0C);
hash.insert("return", 0x0D);
hash.insert("esc", 0x1B);
hash.insert("space", 0x20);
hash.insert("delete", 0x7F);
return hash;
}
/**
* Returns a reference to the named character map.
*/
static const QHash<QString, QChar>& namedChars ()
{
static QHash<QString, QChar> namedChars = createNamedChars();
return namedChars;
}
int Lexer::nextLexeme ()
{
for (int nn = _expr.length(); _idx < nn; _idx++) {
QChar ch = _expr.at(_idx);
if (ch.isSpace()) {
if (ch == '\n') {
_line++;
_lineIdx = _idx + 1;
}
continue;
}
if (ch == ';') { // comment; ignore everything until the next line
for (_idx++; _idx < nn; _idx++) {
QChar ch = _expr.at(_idx);
if (ch == '\n') {
_line++;
_lineIdx = _idx + 1;
break;
}
}
continue;
}
_position = pos();
if (ch == '(' || ch == ')' || ch == '[' || ch == ']' || ch == '\'' || ch == '`') {
_idx++;
return ch.unicode();
}
if (ch == ',') {
_idx++;
if (_idx < nn && _expr.at(_idx) == '@') {
_idx++;
return UnquoteSplicing;
}
return ',';
}
if (ch == '\"') {
_string = "";
for (_idx++; _idx < nn; _idx++) {
QChar ch = _expr.at(_idx);
if (ch == '\\') {
if (++_idx == nn) {
break; // means the literal is unclosed
}
ch = _expr.at(_idx);
if (ch.isSpace()) { // continuation
for (; _idx < nn; _idx++) {
ch = _expr.at(_idx);
if (ch == '\n') {
_line++;
_lineIdx = _idx + 1;
break;
}
}
for (_idx++; _idx < nn; _idx++) {
ch = _expr.at(_idx);
if (!ch.isSpace() || ch == '\n') {
_idx--;
break;
}
}
continue;
}
switch (ch.unicode()) {
case '\"':
case '\\':
break;
case 'a':
ch = '\a';
break;
case 'b':
ch = '\b';
break;
case 't':
ch = '\t';
break;
case 'n':
ch = '\n';
break;
case 'v':
ch = '\v';
break;
case 'f':
ch = '\f';
break;
case 'r':
ch = '\r';
break;
case 'x': {
QString string;
for (_idx++; _idx < nn; _idx++) {
QChar ch = _expr.at(_idx);
if (ch == ';') {
break;
}
string.append(ch);
}
bool ok;
ch = string.toInt(&ok, 16);
if (!ok) {
throw ScriptError("Invalid character code.", pos());
}
break;
}
default:
throw ScriptError("Unrecognized escape.", pos());
}
} else if (ch == '\"') {
_idx++;
return String;
}
_string.append(ch);
}
throw ScriptError("Unclosed string literal.", _position);
}
if (ch == '#') {
if (_idx + 1 < nn) {
switch (_expr.at(_idx + 1).unicode()) {
case 't':
case 'T':
_boolValue = true;
_idx += 2;
return Boolean;
case 'f':
case 'F':
_boolValue = false;
_idx += 2;
return Boolean;
case '\\':
if (_idx + 2 < nn) {
QString string(_expr.at(_idx + 2));
for (_idx += 3; _idx < nn; _idx++) {
QChar ch = _expr.at(_idx);
if (isDelimiter(ch)) {
break;
}
string.append(ch);
}
if (string.size() == 1) {
_charValue = string.at(0);
return Char;
}
QHash<QString, QChar>::const_iterator it = namedChars().find(string);
if (it != namedChars().constEnd()) {
_charValue = it.value();
return Char;
}
if (string.at(0) != 'x') {
throw ScriptError("Unknown character.", _position);
}
bool ok;
_charValue = string.remove(0, 1).toInt(&ok, 16);
if (!ok) {
throw ScriptError("Invalid character value.", _position);
}
return Char;
}
break;
case '(':
_idx += 2;
return Vector;
case 'v':
if (_idx + 4 < nn && _expr.mid(_idx + 2, 3) == "u8(") {
_idx += 5;
return ByteVector;
}
break;
case '\'':
_idx += 2;
return Syntax;
case '`':
_idx += 2;
return Quasisyntax;
case ',':
if (_idx + 2 < nn && _expr.at(_idx + 2) == '@') {
_idx += 3;
return UnsyntaxSplicing;
}
_idx += 2;
return Unsyntax;
case '!':
if (_idx + 5 < nn && _expr.mid(_idx + 2, 4) == "r6rs") {
_idx += 6;
continue;
}
break;
case '|': {
int depth = 1;
for (_idx += 2; _idx < nn; _idx++) {
QChar ch = _expr.at(_idx);
switch (ch.unicode()) {
case '\n':
_line++;
_lineIdx = _idx + 1;
break;
case '#':
if (_idx + 1 < nn && _expr.at(_idx + 1) == '|') {
_idx++;
depth++;
}
break;
case '|':
if (_idx + 1 < nn && _expr.at(_idx + 1) == '#') {
_idx++;
if (--depth == 0) {
goto outerContinue;
}
}
break;
}
}
break;
}
case ';':
_idx += 2;
return Comment;
}
}
} else if (ch == '+' || ch == '-') {
if (_idx + 1 < nn) {
QChar nch = _expr.at(_idx + 1);
if (nch.isDigit() || nch == '.') {
return readNumber();
}
}
} else if (ch == '.') {
if (_idx + 1 < nn) {
QChar nch = _expr.at(_idx + 1);
if (nch.isDigit()) {
return readNumber();
}
}
} else if (ch.isDigit()) {
return readNumber();
}
// assume it to be an identifier; search for first non-identifier character or end
_string = "";
for (; _idx < nn; _idx++) {
QChar ch = _expr.at(_idx);
if (isDelimiter(ch)) {
break;
}
_string.append(ch);
}
return Identifier;
// allow nested loops to continue
outerContinue: ;
}
return NoLexeme;
}
Lexer::LexemeType Lexer::readNumber ()
{
// read until we reach a non-number character, noting if we see a decimal
QString nstr;
bool decimal = false;
for (int nn = _expr.length(); _idx < nn; _idx++) {
QChar ch = _expr.at(_idx);
if (ch == '.') {
nstr.append(ch);
decimal = true;
continue;
}
if (!(ch.isLetter() || ch.isDigit() || ch == '+' || ch == '-')) {
break;
}
nstr.append(ch);
}
bool valid;
if (decimal) {
_floatValue = nstr.toFloat(&valid);
if (!valid) {
throw ScriptError("Invalid float literal.", _position);
}
return Float;
} else {
_intValue = nstr.toInt(&valid, 0); // allow 0x### for hex, 0### for octal
if (!valid) {
throw ScriptError("Invalid integer literal.", _position);
}
return Integer;
}
}
|
m910q/Vale | Valestrom/Scout/src/net/verdagon/vale/scout/templex.scala | package net.verdagon.vale.scout
import net.verdagon.vale.{CodeLocationS, PackageCoordinate, RangeS, vassert, vcheck, vcurious, vimpl, vpass, vwat}
trait INameS
trait IImpreciseNameS
sealed trait IVarNameS extends INameS
trait IFunctionDeclarationNameS extends INameS {
def packageCoordinate: PackageCoordinate
def getImpreciseName: IImpreciseNameS
}
trait ICitizenDeclarationNameS extends INameS {
def range: RangeS
def packageCoordinate: PackageCoordinate
def getImpreciseName: IImpreciseNameS
}
case class FreeDeclarationNameS(codeLocationS: CodeLocationS) extends IFunctionDeclarationNameS {
val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash;
override def packageCoordinate: PackageCoordinate = codeLocationS.file.packageCoordinate
override def getImpreciseName: IImpreciseNameS = FreeImpreciseNameS()
}
case class FreeImpreciseNameS() extends IImpreciseNameS {
val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash;
}
case class LambdaDeclarationNameS(
// parentName: INameS,
codeLocation: CodeLocationS
) extends IFunctionDeclarationNameS {
val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash;
override def packageCoordinate: PackageCoordinate = codeLocation.file.packageCoordinate
override def getImpreciseName: LambdaImpreciseNameS = LambdaImpreciseNameS()
}
case class LambdaImpreciseNameS() extends IImpreciseNameS {
val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash;
}
case class FunctionNameS(name: String, codeLocation: CodeLocationS) extends IFunctionDeclarationNameS {
val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash;
override def packageCoordinate: PackageCoordinate = codeLocation.file.packageCoordinate
override def getImpreciseName: IImpreciseNameS = CodeNameS(name)
}
case class TopLevelCitizenDeclarationNameS(name: String, range: RangeS) extends ICitizenDeclarationNameS {
val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash;
vpass()
override def packageCoordinate: PackageCoordinate = range.file.packageCoordinate
override def getImpreciseName: IImpreciseNameS = CodeNameS(name)
}
case class LambdaStructDeclarationNameS(lambdaName: LambdaDeclarationNameS) extends INameS {
val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash
def getImpreciseName: LambdaStructImpreciseNameS = LambdaStructImpreciseNameS(lambdaName.getImpreciseName)
}
case class LambdaStructImpreciseNameS(lambdaName: LambdaImpreciseNameS) extends IImpreciseNameS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class ImplDeclarationNameS(codeLocation: CodeLocationS) extends INameS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class ExportAsNameS(codeLocation: CodeLocationS) extends INameS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class LetNameS(codeLocation: CodeLocationS) extends INameS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
//case class UnnamedLocalNameS(codeLocation: CodeLocationS) extends IVarNameS { override def hashCode(): Int = vcurious() }
case class ClosureParamNameS() extends IVarNameS with IImpreciseNameS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class MagicParamNameS(codeLocation: CodeLocationS) extends IVarNameS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class AnonymousSubstructTemplateNameS(interfaceName: TopLevelCitizenDeclarationNameS) extends ICitizenDeclarationNameS {
val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash;
vpass()
override def packageCoordinate: PackageCoordinate = interfaceName.packageCoordinate
override def getImpreciseName: IImpreciseNameS = AnonymousSubstructTemplateImpreciseNameS(interfaceName.getImpreciseName)
override def range: RangeS = interfaceName.range
}
case class AnonymousSubstructTemplateImpreciseNameS(interfaceImpreciseName: IImpreciseNameS) extends IImpreciseNameS {
val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash;
}
case class AnonymousSubstructConstructorTemplateImpreciseNameS(interfaceImpreciseName: IImpreciseNameS) extends IImpreciseNameS {
val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash;
}
case class AnonymousSubstructMemberNameS(index: Int) extends IVarNameS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class CodeVarNameS(name: String) extends IVarNameS {
vcheck(name != "set", "Can't name a variable 'set'")
vcheck(name != "mut", "Can't name a variable 'mut'")
}
case class ConstructingMemberNameS(name: String) extends IVarNameS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class IterableNameS(range: RangeS) extends IVarNameS with IImpreciseNameS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class IteratorNameS(range: RangeS) extends IVarNameS with IImpreciseNameS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class IterationOptionNameS(range: RangeS) extends IVarNameS with IImpreciseNameS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class WhileCondResultNameS(range: RangeS) extends IVarNameS with IImpreciseNameS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class RuneNameS(rune: IRuneS) extends INameS with IImpreciseNameS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
// We differentiate rune names from regular names, we scout out what's actually
// a rune so we can inform the templar. The templar wants to know so it can know
// how to handle this thing; if it's a name, we expect it to exist in the
// environment already, but if it's a rune we can assign something into it.
// Also, we might refer to a rune that was defined in our container's container's
// container, so asking "is this thing here a rune" involves looking at all our
// containers. That's much easier for the scout, so thats a nice bonus.
// We have all these subclasses instead of a string so we don't have to have
// prefixes and names like __implicit_0, __paramRune_0, etc.
// This extends INameS so we can use it as a lookup key in Templar's environments.
trait IRuneS
case class CodeRuneS(name: String) extends IRuneS {
vpass()
}
case class ImplDropCoordRuneS() extends IRuneS
case class ImplDropVoidRuneS() extends IRuneS
case class ImplicitRuneS(lid: LocationInDenizen) extends IRuneS {
vpass()
}
case class FreeOverrideStructTemplateRuneS() extends IRuneS
case class FreeOverrideStructRuneS() extends IRuneS
case class FreeOverrideInterfaceRuneS() extends IRuneS
case class LetImplicitRuneS(lid: LocationInDenizen) extends IRuneS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class MagicParamRuneS(lid: LocationInDenizen) extends IRuneS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class MemberRuneS(memberIndex: Int) extends IRuneS {
val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash;
}
// Used to type the templex handed to the size part of the static sized array expressions
case class ArraySizeImplicitRuneS() extends IRuneS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
// Used to type the templex handed to the mutability part of the static sized array expressions
case class ArrayMutabilityImplicitRuneS() extends IRuneS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
// Used to type the templex handed to the variability part of the static sized array expressions
case class ArrayVariabilityImplicitRuneS() extends IRuneS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class ReturnRuneS() extends IRuneS {
val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash;
vpass()
}
case class StructNameRuneS(structName: ICitizenDeclarationNameS) extends IRuneS {
val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash;
vpass()
}
// Vale has no notion of Self, it's just a convenient name for a first parameter.
case class SelfRuneS() extends IRuneS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class SelfOwnershipRuneS() extends IRuneS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class SelfPermissionRuneS() extends IRuneS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class SelfKindRuneS() extends IRuneS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class SelfKindTemplateRuneS() extends IRuneS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class CodeNameS(name: String) extends IImpreciseNameS {
val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash;
vpass()
vassert(name != "_")
}
// When we're calling a function, we're addressing an overload set, not a specific function.
// If we want a specific function, we use TopLevelDeclarationNameS.
case class GlobalFunctionFamilyNameS(name: String) extends INameS {
val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash;
}
// These are only made by the templar
case class ArgumentRuneS(argIndex: Int) extends IRuneS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class PatternInputRuneS(codeLoc: CodeLocationS) extends IRuneS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class ExplicitTemplateArgRuneS(index: Int) extends IRuneS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class AnonymousSubstructParentInterfaceTemplateRuneS() extends IRuneS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class AnonymousSubstructParentInterfaceRuneS() extends IRuneS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class AnonymousSubstructTemplateRuneS() extends IRuneS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class AnonymousSubstructRuneS() extends IRuneS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
case class AnonymousSubstructMemberRuneS(index: Int) extends IRuneS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
// Vale has no notion of Self, it's just a convenient name for a first parameter.
case class SelfNameS() extends IVarNameS with IImpreciseNameS { val hash = runtime.ScalaRunTime._hashCode(this); override def hashCode(): Int = hash; }
// A miscellaneous name, for when a name doesn't really make sense, like it's the only entry in the environment or something.
case class ArbitraryNameS() extends INameS with IImpreciseNameS
|
pjfanning/poi-ooxml-lite-build | src/main/java/org/openxmlformats/schemas/drawingml/x2006/chart/CTPageSetup.java | <reponame>pjfanning/poi-ooxml-lite-build<filename>src/main/java/org/openxmlformats/schemas/drawingml/x2006/chart/CTPageSetup.java<gh_stars>0
/*
* XML Type: CT_PageSetup
* Namespace: http://schemas.openxmlformats.org/drawingml/2006/chart
* Java type: org.openxmlformats.schemas.drawingml.x2006.chart.CTPageSetup
*
* Automatically generated - do not modify.
*/
package org.openxmlformats.schemas.drawingml.x2006.chart;
import org.apache.xmlbeans.impl.schema.ElementFactory;
import org.apache.xmlbeans.impl.schema.AbstractDocumentFactory;
import org.apache.xmlbeans.impl.schema.DocumentFactory;
import org.apache.xmlbeans.impl.schema.SimpleTypeFactory;
/**
* An XML CT_PageSetup(@http://schemas.openxmlformats.org/drawingml/2006/chart).
*
* This is a complex type.
*/
public interface CTPageSetup extends org.apache.xmlbeans.XmlObject {
DocumentFactory<org.openxmlformats.schemas.drawingml.x2006.chart.CTPageSetup> Factory = new DocumentFactory<>(org.apache.poi.schemas.ooxml.system.ooxml.TypeSystemHolder.typeSystem, "ctpagesetupdb38type");
org.apache.xmlbeans.SchemaType type = Factory.getType();
/**
* Gets the "paperSize" attribute
*/
long getPaperSize();
/**
* Gets (as xml) the "paperSize" attribute
*/
org.apache.xmlbeans.XmlUnsignedInt xgetPaperSize();
/**
* True if has "paperSize" attribute
*/
boolean isSetPaperSize();
/**
* Sets the "paperSize" attribute
*/
void setPaperSize(long paperSize);
/**
* Sets (as xml) the "paperSize" attribute
*/
void xsetPaperSize(org.apache.xmlbeans.XmlUnsignedInt paperSize);
/**
* Unsets the "paperSize" attribute
*/
void unsetPaperSize();
/**
* Gets the "paperHeight" attribute
*/
java.lang.String getPaperHeight();
/**
* Gets (as xml) the "paperHeight" attribute
*/
org.openxmlformats.schemas.officeDocument.x2006.sharedTypes.STPositiveUniversalMeasure xgetPaperHeight();
/**
* True if has "paperHeight" attribute
*/
boolean isSetPaperHeight();
/**
* Sets the "paperHeight" attribute
*/
void setPaperHeight(java.lang.String paperHeight);
/**
* Sets (as xml) the "paperHeight" attribute
*/
void xsetPaperHeight(org.openxmlformats.schemas.officeDocument.x2006.sharedTypes.STPositiveUniversalMeasure paperHeight);
/**
* Unsets the "paperHeight" attribute
*/
void unsetPaperHeight();
/**
* Gets the "paperWidth" attribute
*/
java.lang.String getPaperWidth();
/**
* Gets (as xml) the "paperWidth" attribute
*/
org.openxmlformats.schemas.officeDocument.x2006.sharedTypes.STPositiveUniversalMeasure xgetPaperWidth();
/**
* True if has "paperWidth" attribute
*/
boolean isSetPaperWidth();
/**
* Sets the "paperWidth" attribute
*/
void setPaperWidth(java.lang.String paperWidth);
/**
* Sets (as xml) the "paperWidth" attribute
*/
void xsetPaperWidth(org.openxmlformats.schemas.officeDocument.x2006.sharedTypes.STPositiveUniversalMeasure paperWidth);
/**
* Unsets the "paperWidth" attribute
*/
void unsetPaperWidth();
/**
* Gets the "firstPageNumber" attribute
*/
long getFirstPageNumber();
/**
* Gets (as xml) the "firstPageNumber" attribute
*/
org.apache.xmlbeans.XmlUnsignedInt xgetFirstPageNumber();
/**
* True if has "firstPageNumber" attribute
*/
boolean isSetFirstPageNumber();
/**
* Sets the "firstPageNumber" attribute
*/
void setFirstPageNumber(long firstPageNumber);
/**
* Sets (as xml) the "firstPageNumber" attribute
*/
void xsetFirstPageNumber(org.apache.xmlbeans.XmlUnsignedInt firstPageNumber);
/**
* Unsets the "firstPageNumber" attribute
*/
void unsetFirstPageNumber();
/**
* Gets the "orientation" attribute
*/
org.openxmlformats.schemas.drawingml.x2006.chart.STPageSetupOrientation.Enum getOrientation();
/**
* Gets (as xml) the "orientation" attribute
*/
org.openxmlformats.schemas.drawingml.x2006.chart.STPageSetupOrientation xgetOrientation();
/**
* True if has "orientation" attribute
*/
boolean isSetOrientation();
/**
* Sets the "orientation" attribute
*/
void setOrientation(org.openxmlformats.schemas.drawingml.x2006.chart.STPageSetupOrientation.Enum orientation);
/**
* Sets (as xml) the "orientation" attribute
*/
void xsetOrientation(org.openxmlformats.schemas.drawingml.x2006.chart.STPageSetupOrientation orientation);
/**
* Unsets the "orientation" attribute
*/
void unsetOrientation();
/**
* Gets the "blackAndWhite" attribute
*/
boolean getBlackAndWhite();
/**
* Gets (as xml) the "blackAndWhite" attribute
*/
org.apache.xmlbeans.XmlBoolean xgetBlackAndWhite();
/**
* True if has "blackAndWhite" attribute
*/
boolean isSetBlackAndWhite();
/**
* Sets the "blackAndWhite" attribute
*/
void setBlackAndWhite(boolean blackAndWhite);
/**
* Sets (as xml) the "blackAndWhite" attribute
*/
void xsetBlackAndWhite(org.apache.xmlbeans.XmlBoolean blackAndWhite);
/**
* Unsets the "blackAndWhite" attribute
*/
void unsetBlackAndWhite();
/**
* Gets the "draft" attribute
*/
boolean getDraft();
/**
* Gets (as xml) the "draft" attribute
*/
org.apache.xmlbeans.XmlBoolean xgetDraft();
/**
* True if has "draft" attribute
*/
boolean isSetDraft();
/**
* Sets the "draft" attribute
*/
void setDraft(boolean draft);
/**
* Sets (as xml) the "draft" attribute
*/
void xsetDraft(org.apache.xmlbeans.XmlBoolean draft);
/**
* Unsets the "draft" attribute
*/
void unsetDraft();
/**
* Gets the "useFirstPageNumber" attribute
*/
boolean getUseFirstPageNumber();
/**
* Gets (as xml) the "useFirstPageNumber" attribute
*/
org.apache.xmlbeans.XmlBoolean xgetUseFirstPageNumber();
/**
* True if has "useFirstPageNumber" attribute
*/
boolean isSetUseFirstPageNumber();
/**
* Sets the "useFirstPageNumber" attribute
*/
void setUseFirstPageNumber(boolean useFirstPageNumber);
/**
* Sets (as xml) the "useFirstPageNumber" attribute
*/
void xsetUseFirstPageNumber(org.apache.xmlbeans.XmlBoolean useFirstPageNumber);
/**
* Unsets the "useFirstPageNumber" attribute
*/
void unsetUseFirstPageNumber();
/**
* Gets the "horizontalDpi" attribute
*/
int getHorizontalDpi();
/**
* Gets (as xml) the "horizontalDpi" attribute
*/
org.apache.xmlbeans.XmlInt xgetHorizontalDpi();
/**
* True if has "horizontalDpi" attribute
*/
boolean isSetHorizontalDpi();
/**
* Sets the "horizontalDpi" attribute
*/
void setHorizontalDpi(int horizontalDpi);
/**
* Sets (as xml) the "horizontalDpi" attribute
*/
void xsetHorizontalDpi(org.apache.xmlbeans.XmlInt horizontalDpi);
/**
* Unsets the "horizontalDpi" attribute
*/
void unsetHorizontalDpi();
/**
* Gets the "verticalDpi" attribute
*/
int getVerticalDpi();
/**
* Gets (as xml) the "verticalDpi" attribute
*/
org.apache.xmlbeans.XmlInt xgetVerticalDpi();
/**
* True if has "verticalDpi" attribute
*/
boolean isSetVerticalDpi();
/**
* Sets the "verticalDpi" attribute
*/
void setVerticalDpi(int verticalDpi);
/**
* Sets (as xml) the "verticalDpi" attribute
*/
void xsetVerticalDpi(org.apache.xmlbeans.XmlInt verticalDpi);
/**
* Unsets the "verticalDpi" attribute
*/
void unsetVerticalDpi();
/**
* Gets the "copies" attribute
*/
long getCopies();
/**
* Gets (as xml) the "copies" attribute
*/
org.apache.xmlbeans.XmlUnsignedInt xgetCopies();
/**
* True if has "copies" attribute
*/
boolean isSetCopies();
/**
* Sets the "copies" attribute
*/
void setCopies(long copies);
/**
* Sets (as xml) the "copies" attribute
*/
void xsetCopies(org.apache.xmlbeans.XmlUnsignedInt copies);
/**
* Unsets the "copies" attribute
*/
void unsetCopies();
}
|
apwiede/nodemcu | docs/compMsg/search/typedefs_4.js | var searchData=
[
['encryptmsg_5ft',['encryptMsg_t',['../compMsgUtil_8h.html#a05ceee9376a25e5ed9731fa511576f39',1,'compMsgUtil.h']]]
];
|
NMDSdevopsServiceAdm/SopraSteria-SFC | server/models/services.js | <reponame>NMDSdevopsServiceAdm/SopraSteria-SFC
/* jshint indent: 2 */
module.exports = function (sequelize, DataTypes) {
const Services = sequelize.define(
'services',
{
id: {
type: DataTypes.INTEGER,
allowNull: false,
primaryKey: true,
autoIncrement: true,
},
name: {
type: DataTypes.TEXT,
allowNull: true,
},
category: {
type: DataTypes.TEXT,
allowNull: true,
},
iscqcregistered: {
type: DataTypes.BOOLEAN,
allowNull: true,
},
isMain: {
type: DataTypes.BOOLEAN,
allowNull: true,
field: 'ismain',
},
other: {
type: DataTypes.BOOLEAN,
allowNull: true,
default: false,
field: '"other"',
},
reportingID: {
type: DataTypes.INTEGER,
allowNull: false,
},
},
{
tableName: 'services',
schema: 'cqc',
createdAt: false,
updatedAt: false,
},
);
Services.findNameByID = function (id) {
return this.findOne({
where: {
id: id,
},
attributes: ['name'],
});
};
Services.associate = (models) => {
Services.belongsToMany(models.establishment, {
through: 'establishmentServices',
foreignKey: 'serviceId',
targetKey: 'id',
as: 'establishments',
});
Services.hasMany(models.establishment, {
foreignKey: 'MainServiceFKValue',
sourceKey: 'id',
as: 'establishmentsMainService',
});
Services.hasMany(models.benchmarks, {
foreignKey: 'MainServiceFK',
sourceKey: 'reportingID',
as: 'benchmarksData',
});
};
Services.careProvidingStaff = [
25, // seniorCareWorker,
10, //careWorker,
11, // communitySupport,
12, //employmentSupport,
3, //adviceGuidance,
29, //technician,
20, //otherCare,
16, // nurseAssistant
];
return Services;
};
|
daileyet/svm | code/src/main/java/com/openthinks/svm/web/controller/ProductlineController.java | <filename>code/src/main/java/com/openthinks/svm/web/controller/ProductlineController.java
package com.openthinks.svm.web.controller;
import javax.servlet.http.HttpServletRequest;
import javax.servlet.http.HttpServletResponse;
import org.springframework.beans.factory.annotation.Autowired;
import org.springframework.stereotype.Controller;
import org.springframework.web.bind.annotation.PathVariable;
import org.springframework.web.bind.annotation.PostMapping;
import org.springframework.web.bind.annotation.RequestMapping;
import org.springframework.web.bind.annotation.RequestParam;
import org.springframework.web.servlet.mvc.support.RedirectAttributes;
import com.openthinks.libs.utilities.json.JSONObject;
import com.openthinks.svm.core.model.BizMetaProductline;
import com.openthinks.svm.core.service.MetaService;
import com.openthinks.svm.web.controller.api.ProductlineAPI;
import com.openthinks.svm.web.support.util.ResponseJSON;
/**
* ClassName: ProductlineController <br>
* date: Apr 24, 2019 11:01:20 AM <br>
*
* @author <EMAIL>
* @since JDK 1.8
*/
@Controller
@RequestMapping("/productline")
public class ProductlineController {
@Autowired
MetaService metaService;
@Autowired
ProductlineAPI productlineAPI;
@RequestMapping
public String index() {
return "productline/index";
}
@RequestMapping("/index.html")
public String toIndex() {
return index();
}
@RequestMapping("/add")
public String toAdd(HttpServletRequest req) {
req.setAttribute("metaInfos", metaService.findAllMetaProjects());
return "productline/add";
}
@RequestMapping("/edit/{id}")
public String toEdit(@PathVariable("id") Long id, HttpServletRequest req,
HttpServletResponse resp, RedirectAttributes redirectAttributes) {
BizMetaProductline record = metaService.findMetaProductlineByPrimaryKey(id);
if (record == null) {
ResponseJSON respJson = new ResponseJSON();
respJson.error("车型记录不存在!");
redirectAttributes.addFlashAttribute("fmsg", respJson.getMessage());
redirectAttributes.addFlashAttribute("fmsgType", respJson.getResult());
return "redirect:/productline";
}
req.setAttribute("productlineInfo", record);
req.setAttribute("metaInfos", metaService.findAllMetaProjects());
return "productline/edit";
}
@PostMapping("/save")
public String save(BizMetaProductline record, RedirectAttributes redirectAttributes) {
ResponseJSON respJson = new ResponseJSON();
JSONObject resp = productlineAPI.save(record);
respJson = new ResponseJSON(resp);
redirectAttributes.addFlashAttribute("fmsg", respJson.getMessage());
redirectAttributes.addFlashAttribute("fmsgType", respJson.getResult());
return "redirect:/productline";
}
@RequestMapping("/del")
public String delSeq(@RequestParam(name = "id", required = true) Long id,
RedirectAttributes redirectAttributes) {
JSONObject resp = productlineAPI.delete(id);
ResponseJSON respJson = new ResponseJSON(resp);
redirectAttributes.addFlashAttribute("fmsg", respJson.getMessage());
redirectAttributes.addFlashAttribute("fmsgType", respJson.getResult());
return "redirect:/productline";
}
}
|
zkzong/java | javabasic/test-java/src/main/java/com/zkzong/test/ReadWrite.java | <reponame>zkzong/java<gh_stars>0
package com.zkzong.test;
import java.io.BufferedReader;
import java.io.BufferedWriter;
import java.io.File;
import java.io.FileInputStream;
import java.io.FileWriter;
import java.io.IOException;
import java.io.InputStreamReader;
/**
* Created by Zong on 2016/12/4.
*/
public class ReadWrite {
public static void main(String[] args) throws IOException {
BufferedReader br = new BufferedReader(new InputStreamReader(System.in));
BufferedWriter bw = new BufferedWriter(new FileWriter(new File("file.txt")));
// 写入文件
String input = null;
while (!(input = br.readLine()).equals("#")) {
bw.write(input);
bw.newLine();
}
bw.close();
br.close();
// 读出
br = new BufferedReader(new InputStreamReader(new FileInputStream("file.txt")));
String s = null;
while ((s = br.readLine()) != null) {
System.out.println(s);
}
br.close();
}
}
|
PlussivePulse/Prototype1.6.1_Build1_PrivateBETA | PlusaiCC_161B1_PG/src/ccc/interaction/global/webserviceScript/interact/searchHSRoster.java | package ccc.interaction.global.webserviceScript.interact;
import java.util.concurrent.TimeUnit;
import org.openqa.selenium.By;
import org.openqa.selenium.Keys;
import org.openqa.selenium.WebDriver;
import org.openqa.selenium.WebElement;
import org.openqa.selenium.support.ui.ExpectedConditions;
import org.openqa.selenium.support.ui.WebDriverWait;
public class searchHSRoster {
public static void search(WebDriver driver, String school) {
driver.manage().timeouts().pageLoadTimeout(30, TimeUnit.SECONDS);
driver.manage().timeouts().implicitlyWait(30, TimeUnit.SECONDS);
driver.get("https://www.athletic.net/");
WebElement searchButton = driver.findElement(By.className("ng-tns-c128-0"));
WebDriverWait wait = new WebDriverWait(driver, 30);
wait.until(ExpectedConditions.elementToBeClickable(searchButton));
driver.findElement(By.className("ng-tns-c128-0")).click();
WebElement searchBar = driver.findElement(By.xpath("//input[@type='text']"));
WebDriverWait wait2 = new WebDriverWait(driver, 30);
wait.until(ExpectedConditions.elementToBeClickable(searchBar));
driver.findElement(By.xpath("//input[@type='text']")).sendKeys(school);
driver.findElement(By.xpath("//input[@type='text']")).sendKeys(Keys.ENTER);;
}
}
|
civrot/ranger-clubhouse-web | app/serializers/setting.js | <reponame>civrot/ranger-clubhouse-web
import ApplicationSerializer from 'clubhouse/serializers/application';
export default class SettingSerializer extends ApplicationSerializer {
primaryKey = 'name';
}
|
remko/nanoc | lib/nanoc/base/views/item_rep_collection_view.rb | <filename>lib/nanoc/base/views/item_rep_collection_view.rb
module Nanoc
class ItemRepCollectionView < ::Nanoc::View
include Enumerable
class NoSuchItemRepError < ::Nanoc::Error
def initialize(rep_name)
super("No rep named #{rep_name.inspect} was found.")
end
end
# @api private
def initialize(item_reps, context)
super(context)
@item_reps = item_reps
end
# @api private
def unwrap
@item_reps
end
def to_ary
@item_reps.map { |ir| Nanoc::ItemRepView.new(ir, @context) }
end
# Calls the given block once for each item rep, passing that item rep as a parameter.
#
# @yieldparam [Nanoc::ItemRepView] item rep
#
# @yieldreturn [void]
#
# @return [self]
def each
@item_reps.each { |ir| yield Nanoc::ItemRepView.new(ir, @context) }
self
end
# @return [Integer]
def size
@item_reps.size
end
# Return the item rep with the given name, or nil if no item rep exists.
#
# @param [Symbol] rep_name
#
# @return [nil] if no item rep with the given name was found
#
# @return [Nanoc::ItemRepView] if an item rep with the given name was found
def [](rep_name)
res = @item_reps.find { |ir| ir.name == rep_name }
res && Nanoc::ItemRepView.new(res, @context)
end
# Return the item rep with the given name, or raises an exception if there
# is no rep with the given name.
#
# @param [Symbol] rep_name
#
# @return [Nanoc::ItemRepView]
#
# @raise if no rep was found
def fetch(rep_name)
res = @item_reps.find { |ir| ir.name == rep_name }
if res
Nanoc::ItemRepView.new(res, @context)
else
raise NoSuchItemRepError.new(rep_name)
end
end
end
end
|
zhuxlproject/arm-trusted-fireware | include/drivers/emmc.h | <filename>include/drivers/emmc.h
/*
* Copyright (c) 2016, ARM Limited and Contributors. All rights reserved.
*
* Redistribution and use in source and binary forms, with or without
* modification, are permitted provided that the following conditions are met:
*
* Redistributions of source code must retain the above copyright notice, this
* list of conditions and the following disclaimer.
*
* Redistributions in binary form must reproduce the above copyright notice,
* this list of conditions and the following disclaimer in the documentation
* and/or other materials provided with the distribution.
*
* Neither the name of ARM nor the names of its contributors may be used
* to endorse or promote products derived from this software without specific
* prior written permission.
*
* THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS"
* AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE
* ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE
* LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR
* CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF
* SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS
* INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN
* CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE)
* ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE
* POSSIBILITY OF SUCH DAMAGE.
*/
#ifndef __EMMC_H__
#define __EMMC_H__
#include <stdint.h>
#define EMMC_BLOCK_SIZE 512
#define EMMC_BLOCK_MASK (EMMC_BLOCK_SIZE - 1)
#define EMMC_BOOT_CLK_RATE (400 * 1000)
#define EMMC_CMD0 0
#define EMMC_CMD1 1
#define EMMC_CMD2 2
#define EMMC_CMD3 3
#define EMMC_CMD6 6
#define EMMC_CMD7 7
#define EMMC_CMD8 8
#define EMMC_CMD9 9
#define EMMC_CMD12 12
#define EMMC_CMD13 13
#define EMMC_CMD17 17
#define EMMC_CMD18 18
#define EMMC_CMD23 23
#define EMMC_CMD24 24
#define EMMC_CMD25 25
#define EMMC_CMD35 35
#define EMMC_CMD36 36
#define EMMC_CMD38 38
#define OCR_POWERUP (1 << 31)
#define OCR_BYTE_MODE (0 << 29)
#define OCR_SECTOR_MODE (2 << 29)
#define OCR_ACCESS_MODE_MASK (3 << 29)
#define OCR_VDD_MIN_2V7 (0x1ff << 15)
#define OCR_VDD_MIN_2V0 (0x7f << 8)
#define OCR_VDD_MIN_1V7 (1 << 7)
#define EMMC_RESPONSE_R1 1
#define EMMC_RESPONSE_R1B 1
#define EMMC_RESPONSE_R2 4
#define EMMC_RESPONSE_R3 1
#define EMMC_RESPONSE_R4 1
#define EMMC_RESPONSE_R5 1
#define EMMC_FIX_RCA 6 /* > 1 */
#define RCA_SHIFT_OFFSET 16
#define CMD_EXTCSD_PARTITION_CONFIG 179
#define CMD_EXTCSD_BUS_WIDTH 183
#define CMD_EXTCSD_HS_TIMING 185
#define PART_CFG_BOOT_PARTITION1_ENABLE (1 << 3)
#define PART_CFG_PARTITION1_ACCESS (1 << 0)
/* values in EXT CSD register */
#define EMMC_BUS_WIDTH_1 0
#define EMMC_BUS_WIDTH_4 1
#define EMMC_BUS_WIDTH_8 2
#define EMMC_BOOT_MODE_BACKWARD (0 << 3)
#define EMMC_BOOT_MODE_HS_TIMING (1 << 3)
#define EMMC_BOOT_MODE_DDR (2 << 3)
#define EXTCSD_SET_CMD (0 << 24)
#define EXTCSD_SET_BITS (1 << 24)
#define EXTCSD_CLR_BITS (2 << 24)
#define EXTCSD_WRITE_BYTES (3 << 24)
#define EXTCSD_CMD(x) (((x) & 0xff) << 16)
#define EXTCSD_VALUE(x) (((x) & 0xff) << 8)
#define STATUS_CURRENT_STATE(x) (((x) & 0xf) << 9)
#define STATUS_READY_FOR_DATA (1 << 8)
#define STATUS_SWITCH_ERROR (1 << 7)
#define EMMC_GET_STATE(x) (((x) >> 9) & 0xf)
#define EMMC_STATE_IDLE 0
#define EMMC_STATE_READY 1
#define EMMC_STATE_IDENT 2
#define EMMC_STATE_STBY 3
#define EMMC_STATE_TRAN 4
#define EMMC_STATE_DATA 5
#define EMMC_STATE_RCV 6
#define EMMC_STATE_PRG 7
#define EMMC_STATE_DIS 8
#define EMMC_STATE_BTST 9
#define EMMC_STATE_SLP 10
#define EMMC_FLAG_CMD23 (1 << 0)
typedef struct emmc_cmd {
unsigned int cmd_idx;
unsigned int cmd_arg;
unsigned int resp_type;
unsigned int resp_data[4];
} emmc_cmd_t;
typedef struct emmc_ops {
void (*init)(void);
int (*send_cmd)(emmc_cmd_t *cmd);
int (*set_ios)(int clk, int width);
int (*prepare)(int lba, uintptr_t buf, size_t size);
int (*read)(int lba, uintptr_t buf, size_t size);
int (*write)(int lba, const uintptr_t buf, size_t size);
} emmc_ops_t;
typedef struct emmc_csd {
unsigned int not_used: 1;
unsigned int crc: 7;
unsigned int ecc: 2;
unsigned int file_format: 2;
unsigned int tmp_write_protect: 1;
unsigned int perm_write_protect: 1;
unsigned int copy: 1;
unsigned int file_format_grp: 1;
unsigned int reserved_1: 5;
unsigned int write_bl_partial: 1;
unsigned int write_bl_len: 4;
unsigned int r2w_factor: 3;
unsigned int default_ecc: 2;
unsigned int wp_grp_enable: 1;
unsigned int wp_grp_size: 5;
unsigned int erase_grp_mult: 5;
unsigned int erase_grp_size: 5;
unsigned int c_size_mult: 3;
unsigned int vdd_w_curr_max: 3;
unsigned int vdd_w_curr_min: 3;
unsigned int vdd_r_curr_max: 3;
unsigned int vdd_r_curr_min: 3;
unsigned int c_size_low: 2;
unsigned int c_size_high: 10;
unsigned int reserved_2: 2;
unsigned int dsr_imp: 1;
unsigned int read_blk_misalign: 1;
unsigned int write_blk_misalign: 1;
unsigned int read_bl_partial: 1;
unsigned int read_bl_len: 4;
unsigned int ccc: 12;
unsigned int tran_speed: 8;
unsigned int nsac: 8;
unsigned int taac: 8;
unsigned int reserved_3: 2;
unsigned int spec_vers: 4;
unsigned int csd_structure: 2;
} emmc_csd_t;
size_t emmc_read_blocks(int lba, uintptr_t buf, size_t size);
size_t emmc_write_blocks(int lba, const uintptr_t buf, size_t size);
size_t emmc_erase_blocks(int lba, size_t size);
size_t emmc_rpmb_read_blocks(int lba, uintptr_t buf, size_t size);
size_t emmc_rpmb_write_blocks(int lba, const uintptr_t buf, size_t size);
size_t emmc_rpmb_erase_blocks(int lba, size_t size);
void emmc_init(const emmc_ops_t *ops, int clk, int bus_width,
unsigned int flags);
#endif /* __EMMC_H__ */
|
appztreme/JugendsommerOr | public/src/Lendings/lending.svc.js | <gh_stars>0
var app = angular.module('js');
app.service('LendingSvc', function($http) {
this.delete = function(lendId) {
return $http.delete('/api/lendings/' + lendId);
};
this.find = function() {
return $http.get('/api/lendings/');
};
this.findByUser = function(userId) {
return $http.get('/api/lendings/user/', { params: { userId: userId}});
};
this.findByDate = function(date) {
return $http.get('/api/lendings/date/', { params: { date: date}});
};
this.findByDateAndUser = function(date, userId) {
return $http.get('/api/lendings/dateAndUser/', { params: { date: date, userId: userId}})
};
this.getTypes = function() {
return $http.get('/api/resources/types');
};
this.create = function(lending) {
return $http.post('/api/lendings', lending);
};
});
|
CiscoDevNet/APIC-EM-Generic-Scripts- | apis/nb/clients/policy_analysis_client/models/NetworkElementInfo.py | <reponame>CiscoDevNet/APIC-EM-Generic-Scripts-<filename>apis/nb/clients/policy_analysis_client/models/NetworkElementInfo.py
#!/usr/bin/env python
#pylint: skip-file
# This source code is licensed under the Apache license found in the
# LICENSE file in the root directory of this project.
class NetworkElementInfo(object):
def __init__(self):
"""
Attributes:
swaggerTypes (dict): The key is attribute name and the value is attribute type.
attributeMap (dict): The key is attribute name and the value is json key in definition.
"""
self.swaggerTypes = {
'deviceStatistics': 'DeviceStatistics',
'perfMonCollectionFailureReason': 'str',
'deviceStatsCollection': 'str',
'deviceStatsCollectionFailureReason': 'str',
'detailedStatus': 'DetailedStatus',
'tunnels': 'list[str]',
'linkInformationSource': 'str',
'accuracyList': 'list[Accuracy]',
'perfMonCollection': 'str',
'perfMonitorStatistics': 'list[PerfMonitorStatistics]',
'name': 'str',
'id': 'str',
'type': 'str',
'role': 'str',
'egressInterface': 'InterfaceContainer',
'ingressInterface': 'InterfaceContainer',
'ip': 'str'
}
self.attributeMap = {
'deviceStatistics': 'deviceStatistics',
'perfMonCollectionFailureReason': 'perfMonCollectionFailureReason',
'deviceStatsCollection': 'deviceStatsCollection',
'deviceStatsCollectionFailureReason': 'deviceStatsCollectionFailureReason',
'detailedStatus': 'detailedStatus',
'tunnels': 'tunnels',
'linkInformationSource': 'linkInformationSource',
'accuracyList': 'accuracyList',
'perfMonCollection': 'perfMonCollection',
'perfMonitorStatistics': 'perfMonitorStatistics',
'name': 'name',
'id': 'id',
'type': 'type',
'role': 'role',
'egressInterface': 'egressInterface',
'ingressInterface': 'ingressInterface',
'ip': 'ip'
}
#Device statistics
self.deviceStatistics = None # DeviceStatistics
self.perfMonCollectionFailureReason = None # str
#A status value from [ INPROGRESS, SUCCESS, FAILED ]
self.deviceStatsCollection = None # str
self.deviceStatsCollectionFailureReason = None # str
self.detailedStatus = None # DetailedStatus
#Tunnels this network element is in
self.tunnels = None # list[str]
#The source of the link information to the next hop
self.linkInformationSource = None # str
self.accuracyList = None # list[Accuracy]
#A status value from [ INPROGRESS, SUCCESS, FAILED ]
self.perfMonCollection = None # str
#perf mon statistics on the device for give flow
self.perfMonitorStatistics = None # list[PerfMonitorStatistics]
#Network Device name
self.name = None # str
#Network Device ID
self.id = None # str
#Network Device Type(can be switch,router,wired host or wireless host)
self.type = None # str
#Role of device in network(can be access,core,distribution or border router)
self.role = None # str
#Egress interface of the network device
self.egressInterface = None # InterfaceContainer
#Ingress interface of the network device
self.ingressInterface = None # InterfaceContainer
#Network Device IP
self.ip = None # str
|
Corpus-2021/nakedobjects-4.0.0 | plugins/sql-persistor/src/main/java/org/nakedobjects/plugins/sql/objectstore/SqlOidGenerator.java | <reponame>Corpus-2021/nakedobjects-4.0.0
package org.nakedobjects.plugins.sql.objectstore;
import org.nakedobjects.metamodel.adapter.oid.Oid;
import org.nakedobjects.metamodel.commons.debug.DebugString;
import org.nakedobjects.metamodel.commons.ensure.Assert;
import org.nakedobjects.runtime.persistence.oidgenerator.OidGeneratorAbstract;
import org.nakedobjects.runtime.transaction.ObjectPersistenceException;
public class SqlOidGenerator extends OidGeneratorAbstract {
private long number;
private long transientNumber;
private final DatabaseConnectorPool connectionPool;
public SqlOidGenerator(final DatabaseConnectorPool connectionPool) {
this.connectionPool = connectionPool;
}
public void open() {
transientNumber = -9999999;
if (connectionPool != null) {
DatabaseConnector db = connectionPool.acquire();
try {
db.begin();
if (!db.hasTable("NO_SERIAL_ID")) {
db.update("create table NO_SERIAL_ID (NUMBER INTEGER)");
db.update("insert into NO_SERIAL_ID values (1)");
}
Results rs = db.select("select NUMBER from NO_SERIAL_ID");
rs.next();
number = rs.getLong("NUMBER");
rs.close();
db.commit();
} catch (ObjectPersistenceException e) {
db.rollback();
throw e;
} finally {
connectionPool.release(db);
}
}
}
public String name() {
return "Sql Oids";
}
public void close() {
if (connectionPool != null) {
DatabaseConnector db = connectionPool.acquire();
try {
db.begin();
if (db.update("update NO_SERIAL_ID set NUMBER = " + number) != 1) {
throw new SqlObjectStoreException("failed to update serial id table; no rows updated");
}
db.commit();
} catch (ObjectPersistenceException e) {
throw e;
} finally {
if (db != null) {
connectionPool.release(db);
}
}
}
}
public SqlOid createTransientOid(final Object object) {
String className = object.getClass().getName();
return SqlOid.createTransient(className, transientNumber++);
}
public void convertTransientToPersistentOid(final Oid oid) {
Assert.assertNotNull("No connection set up", connectionPool);
IntegerPrimaryKey primaryKey = new IntegerPrimaryKey((int) number++);
((SqlOid) oid).setId(primaryKey);
((SqlOid) oid).makePersistent();
}
public void convertPersistentToTransientOid(final Oid oid) {}
public void debugData(final DebugString debug) {
debug.appendln(this.toString());
debug.indent();
debug.appendln("id", number);
debug.appendln("transient id", transientNumber);
debug.unindent();
}
public String debugTitle() {
return "SQL OID Generator";
}
}
// Copyright (c) Naked Objects Group Ltd.
|
InsightsDev-dev/tajo | tajo-catalog/tajo-catalog-common/src/main/java/org/apache/tajo/DataTypeUtil.java | /**
* Licensed to the Apache Software Foundation (ASF) under one
* or more contributor license agreements. See the NOTICE file
* distributed with this work for additional information
* regarding copyright ownership. The ASF licenses this file
* to you under the Apache License, Version 2.0 (the
* "License"); you may not use this file except in compliance
* with the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.tajo;
import com.google.common.collect.Maps;
import org.apache.tajo.common.TajoDataTypes;
import org.apache.tajo.util.TUtil;
import java.util.Map;
import static org.apache.tajo.common.TajoDataTypes.Type.*;
import static org.apache.tajo.type.Type.*;
public class DataTypeUtil {
public static final Map<TajoDataTypes.Type, Map<TajoDataTypes.Type, Boolean>> FUNCTION_ACCEPTABLE_PARAM_MAP = Maps.newHashMap();
private static void putAcceptableType(TajoDataTypes.Type given, TajoDataTypes.Type define) {
TUtil.putToNestedMap(FUNCTION_ACCEPTABLE_PARAM_MAP, given, define, true);
}
static {
putAcceptableType(BOOLEAN, BOOLEAN);
putAcceptableType(INT1, INT1);
putAcceptableType(INT1, INT2);
putAcceptableType(INT1, INT4);
putAcceptableType(INT1, INT8);
putAcceptableType(INT1, FLOAT4);
putAcceptableType(INT1, FLOAT8);
putAcceptableType(INT2, INT2);
putAcceptableType(INT2, INT4);
putAcceptableType(INT2, INT8);
putAcceptableType(INT2, FLOAT4);
putAcceptableType(INT2, FLOAT8);
putAcceptableType(INT4, INT4);
putAcceptableType(INT4, INT8);
putAcceptableType(INT4, FLOAT4);
putAcceptableType(INT4, FLOAT8);
putAcceptableType(INT8, INT8);
putAcceptableType(INT8, FLOAT4);
putAcceptableType(INT8, FLOAT8);
putAcceptableType(FLOAT4, FLOAT4);
putAcceptableType(FLOAT4, FLOAT8);
putAcceptableType(FLOAT8, FLOAT8);
putAcceptableType(TIMESTAMP, TIMESTAMP);
putAcceptableType(TIME, TIME);
putAcceptableType(DATE, DATE);
putAcceptableType(TEXT, TEXT);
}
public static boolean isUpperCastable(TajoDataTypes.Type define, TajoDataTypes.Type given) {
if (given.equals(define)) {
return true;
}
return TUtil.containsInNestedMap(FUNCTION_ACCEPTABLE_PARAM_MAP, given, define);
}
/**
* This is verified by ExprsVerifier.checkArithmeticOperand().
*/
public static org.apache.tajo.type.Type determineType(org.apache.tajo.type.Type left,
org.apache.tajo.type.Type right) {
TajoDataTypes.Type rhsBaseType = right.kind();
switch (left.kind()) {
case INT1:
case INT2:
case INT4: {
switch(rhsBaseType) {
case INT1:
case INT2:
case INT4: return Int4;
case INT8: return Int8;
case FLOAT4: return Float4;
case FLOAT8: return Float8;
case DATE: return Date;
case INTERVAL: return Interval;
}
}
case INT8: {
switch(rhsBaseType) {
case INT1:
case INT2:
case INT4:
case INT8: return Int8;
case FLOAT4: return Float4;
case FLOAT8: return Float8;
case DATE: return Date;
case INTERVAL: return Interval;
}
}
case FLOAT4: {
switch(rhsBaseType) {
case INT1:
case INT2:
case INT4: return Float4;
case INT8: return Float4;
case FLOAT4: return Float4;
case FLOAT8: return Float8;
case INTERVAL: return Interval;
}
}
case FLOAT8: {
switch(rhsBaseType) {
case INT1:
case INT2:
case INT4:
case INT8:
case FLOAT4:
case FLOAT8: return Float8;
case INTERVAL: return Interval;
}
}
case DATE: {
switch(rhsBaseType) {
case INT2:
case INT4:
case INT8: return Date;
case INTERVAL:
case TIME: return Timestamp;
case DATE: return Int4;
}
}
case TIME: {
switch(rhsBaseType) {
case INTERVAL: return Time;
case TIME: return Interval;
case DATE: return Int4;
}
}
case TIMESTAMP: {
switch (rhsBaseType) {
case INTERVAL: return Timestamp;
case TIMESTAMP: return Interval;
}
}
case INTERVAL: {
switch (rhsBaseType) {
case INTERVAL:
case FLOAT4:
case FLOAT8: return Interval;
}
}
default: return left;
}
}
}
|
zhangkn/iOS14Header | System/Library/PrivateFrameworks/HomeKitDaemon.framework/HMDSiriSyncEvent.h | /*
* This header is generated by classdump-dyld 1.0
* on Sunday, September 27, 2020 at 11:51:55 AM Mountain Standard Time
* Operating System: Version 14.0 (Build 18A373)
* Image Source: /System/Library/PrivateFrameworks/HomeKitDaemon.framework/HomeKitDaemon
* classdump-dyld is licensed under GPLv3, Copyright © 2013-2016 by <NAME>.
*/
#import <HomeKitDaemon/HMDLogEvent.h>
#import <libobjc.A.dylib/HMDAWDLogEvent.h>
@class NSArray, NSString;
@interface HMDSiriSyncEvent : HMDLogEvent <HMDAWDLogEvent> {
unsigned long long _duration;
NSArray* _notificationReasons;
unsigned long long _lastSyncedConfigurationVersion;
unsigned long long _configurationVersion;
unsigned long long _serverConfigurationVersion;
}
@property (readonly) unsigned long long hash;
@property (readonly) Class superclass;
@property (copy,readonly) NSString * description;
@property (copy,readonly) NSString * debugDescription;
@property (nonatomic,readonly) unsigned long long duration; //@synthesize duration=_duration - In the implementation block
@property (nonatomic,readonly) NSArray * notificationReasons; //@synthesize notificationReasons=_notificationReasons - In the implementation block
@property (nonatomic,readonly) unsigned long long lastSyncedConfigurationVersion; //@synthesize lastSyncedConfigurationVersion=_lastSyncedConfigurationVersion - In the implementation block
@property (nonatomic,readonly) unsigned long long configurationVersion; //@synthesize configurationVersion=_configurationVersion - In the implementation block
@property (nonatomic,readonly) unsigned long long serverConfigurationVersion; //@synthesize serverConfigurationVersion=_serverConfigurationVersion - In the implementation block
+(void)initialize;
+(id)uuid;
+(id)syncRequestWithDuration:(unsigned long long)arg1 serverConfigurationVersion:(unsigned long long)arg2 configurationVersion:(unsigned long long)arg3 lastSyncedConfigurationVersion:(unsigned long long)arg4 notificationReasons:(id)arg5 ;
-(unsigned long long)duration;
-(unsigned long long)configurationVersion;
-(unsigned long long)lastSyncedConfigurationVersion;
-(unsigned)AWDMessageType;
-(id)metricForAWD;
-(id)initWithDuration:(unsigned long long)arg1 serverConfigurationVersion:(unsigned long long)arg2 configurationVersion:(unsigned long long)arg3 lastSyncedConfigurationVersion:(unsigned long long)arg4 notificationReasons:(id)arg5 ;
-(NSArray *)notificationReasons;
-(unsigned long long)serverConfigurationVersion;
@end
|
chrismattmann/solrcene | solr/src/java/org/apache/solr/handler/component/QueryComponent.java | /**
* Licensed to the Apache Software Foundation (ASF) under one or more
* contributor license agreements. See the NOTICE file distributed with
* this work for additional information regarding copyright ownership.
* The ASF licenses this file to You under the Apache License, Version 2.0
* (the "License"); you may not use this file except in compliance with
* the License. You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
package org.apache.solr.handler.component;
import org.apache.lucene.document.Field;
import org.apache.lucene.index.Term;
import org.apache.lucene.queryParser.ParseException;
import org.apache.lucene.search.FieldComparator;
import org.apache.lucene.search.Query;
import org.apache.lucene.search.Sort;
import org.apache.lucene.search.SortField;
import org.apache.lucene.util.BytesRef;
import org.apache.solr.common.SolrDocument;
import org.apache.solr.common.SolrDocumentList;
import org.apache.solr.common.SolrException;
import org.apache.solr.common.params.*;
import org.apache.solr.common.util.NamedList;
import org.apache.solr.common.util.StrUtils;
import org.apache.solr.request.SolrQueryRequest;
import org.apache.solr.response.SolrQueryResponse;
import org.apache.solr.schema.FieldType;
import org.apache.solr.schema.SchemaField;
import org.apache.solr.search.*;
import org.apache.solr.search.function.BoostedQuery;
import org.apache.solr.search.function.FunctionQuery;
import org.apache.solr.search.function.QueryValueSource;
import org.apache.solr.search.function.ValueSource;
import org.apache.solr.util.SolrPluginUtils;
import java.io.IOException;
import java.net.URL;
import java.util.*;
/**
* TODO!
*
* @version $Id: QueryComponent.java 987690 2010-08-21 02:36:09Z yonik $
* @since solr 1.3
*/
public class QueryComponent extends SearchComponent
{
public static final String COMPONENT_NAME = "query";
@Override
public void prepare(ResponseBuilder rb) throws IOException
{
SolrQueryRequest req = rb.req;
SolrParams params = req.getParams();
if (!params.getBool(COMPONENT_NAME, true)) {
return;
}
SolrQueryResponse rsp = rb.rsp;
// Set field flags
String fl = params.get(CommonParams.FL);
int fieldFlags = 0;
if (fl != null) {
fieldFlags |= SolrPluginUtils.setReturnFields(fl, rsp);
}
rb.setFieldFlags( fieldFlags );
String defType = params.get(QueryParsing.DEFTYPE,QParserPlugin.DEFAULT_QTYPE);
if (rb.getQueryString() == null) {
rb.setQueryString( params.get( CommonParams.Q ) );
}
try {
QParser parser = QParser.getParser(rb.getQueryString(), defType, req);
rb.setQuery( parser.getQuery() );
rb.setSortSpec( parser.getSort(true) );
rb.setQparser(parser);
String[] fqs = req.getParams().getParams(CommonParams.FQ);
if (fqs!=null && fqs.length!=0) {
List<Query> filters = rb.getFilters();
if (filters==null) {
filters = new ArrayList<Query>();
rb.setFilters( filters );
}
for (String fq : fqs) {
if (fq != null && fq.trim().length()!=0) {
QParser fqp = QParser.getParser(fq, null, req);
filters.add(fqp.getQuery());
}
}
}
} catch (ParseException e) {
throw new SolrException(SolrException.ErrorCode.BAD_REQUEST, e);
}
// TODO: temporary... this should go in a different component.
String shards = params.get(ShardParams.SHARDS);
if (shards != null) {
List<String> lst = StrUtils.splitSmart(shards, ",", true);
rb.shards = lst.toArray(new String[lst.size()]);
}
String shards_rows = params.get(ShardParams.SHARDS_ROWS);
if(shards_rows != null) {
rb.shards_rows = Integer.parseInt(shards_rows);
}
String shards_start = params.get(ShardParams.SHARDS_START);
if(shards_start != null) {
rb.shards_start = Integer.parseInt(shards_start);
}
}
/**
* Actually run the query
*/
@Override
public void process(ResponseBuilder rb) throws IOException
{
SolrQueryRequest req = rb.req;
SolrQueryResponse rsp = rb.rsp;
SolrParams params = req.getParams();
if (!params.getBool(COMPONENT_NAME, true)) {
return;
}
SolrIndexSearcher searcher = req.getSearcher();
if (rb.getQueryCommand().getOffset() < 0) {
throw new SolrException(SolrException.ErrorCode.BAD_REQUEST, "'start' parameter cannot be negative");
}
// -1 as flag if not set.
long timeAllowed = (long)params.getInt( CommonParams.TIME_ALLOWED, -1 );
// Optional: This could also be implemented by the top-level searcher sending
// a filter that lists the ids... that would be transparent to
// the request handler, but would be more expensive (and would preserve score
// too if desired).
String ids = params.get(ShardParams.IDS);
if (ids != null) {
SchemaField idField = req.getSchema().getUniqueKeyField();
List<String> idArr = StrUtils.splitSmart(ids, ",", true);
int[] luceneIds = new int[idArr.size()];
int docs = 0;
for (int i=0; i<idArr.size(); i++) {
int id = req.getSearcher().getFirstMatch(
new Term(idField.getName(), idField.getType().toInternal(idArr.get(i))));
if (id >= 0)
luceneIds[docs++] = id;
}
DocListAndSet res = new DocListAndSet();
res.docList = new DocSlice(0, docs, luceneIds, null, docs, 0);
if (rb.isNeedDocSet()) {
List<Query> queries = new ArrayList<Query>();
queries.add(rb.getQuery());
List<Query> filters = rb.getFilters();
if (filters != null) queries.addAll(filters);
res.docSet = searcher.getDocSet(queries);
}
rb.setResults(res);
rsp.add("response",rb.getResults().docList);
return;
}
SolrIndexSearcher.QueryCommand cmd = rb.getQueryCommand();
cmd.setTimeAllowed(timeAllowed);
SolrIndexSearcher.QueryResult result = new SolrIndexSearcher.QueryResult();
//
// grouping / field collapsing
//
boolean doGroup = params.getBool(GroupParams.GROUP, false);
if (doGroup) {
try {
cmd.groupCommands = new ArrayList<SolrIndexSearcher.GroupCommand>();
String[] fields = params.getParams(GroupParams.GROUP_FIELD);
String[] funcs = params.getParams(GroupParams.GROUP_FUNC);
String[] queries = params.getParams(GroupParams.GROUP_QUERY);
String groupSortStr = params.get(GroupParams.GROUP_SORT);
Sort groupSort = groupSortStr != null ? QueryParsing.parseSort(groupSortStr, req.getSchema()) : null;
int limitDefault = cmd.getLen(); // this is normally from "rows"
int docsPerGroupDefault = params.getInt(GroupParams.GROUP_LIMIT, 1);
// temporary: implement all group-by-field as group-by-func
if (funcs == null) {
funcs = fields;
} else if (fields != null) {
// catenate functions and fields
String[] both = new String[fields.length + funcs.length];
System.arraycopy(fields, 0, both, 0, fields.length);
System.arraycopy(funcs, 0, both, fields.length, funcs.length);
funcs = both;
}
if (funcs != null) {
for (String groupByStr : funcs) {
QParser parser = QParser.getParser(groupByStr, "func", rb.req);
Query q = parser.getQuery();
SolrIndexSearcher.GroupCommandFunc gc;
if (groupSort != null) {
SolrIndexSearcher.GroupSortCommand gcSort = new SolrIndexSearcher.GroupSortCommand();
gcSort.sort = groupSort;
gc = gcSort;
} else {
gc = new SolrIndexSearcher.GroupCommandFunc();
}
if (q instanceof FunctionQuery) {
gc.groupBy = ((FunctionQuery)q).getValueSource();
} else {
gc.groupBy = new QueryValueSource(q, 0.0f);
}
gc.key = groupByStr;
gc.groupLimit = limitDefault;
gc.docsPerGroup = docsPerGroupDefault;
cmd.groupCommands.add(gc);
}
}
if (cmd.groupCommands.size() == 0)
cmd.groupCommands = null;
if (cmd.groupCommands != null) {
searcher.search(result,cmd);
rsp.add("grouped", result.groupedResults);
return;
}
} catch (ParseException e) {
throw new SolrException(SolrException.ErrorCode.BAD_REQUEST, e);
}
}
// normal search result
searcher.search(result,cmd);
rb.setResult( result );
rsp.add("response",rb.getResults().docList);
rsp.getToLog().add("hits", rb.getResults().docList.matches());
doFieldSortValues(rb, searcher);
doPrefetch(rb);
}
protected void doFieldSortValues(ResponseBuilder rb, SolrIndexSearcher searcher) throws IOException
{
SolrQueryRequest req = rb.req;
SolrQueryResponse rsp = rb.rsp;
// The query cache doesn't currently store sort field values, and SolrIndexSearcher doesn't
// currently have an option to return sort field values. Because of this, we
// take the documents given and re-derive the sort values.
boolean fsv = req.getParams().getBool(ResponseBuilder.FIELD_SORT_VALUES,false);
if(fsv){
Sort sort = rb.getSortSpec().getSort();
SortField[] sortFields = sort==null ? new SortField[]{SortField.FIELD_SCORE} : sort.getSort();
NamedList sortVals = new NamedList(); // order is important for the sort fields
Field field = new Field("dummy", "", Field.Store.YES, Field.Index.NO); // a dummy Field
SolrIndexReader reader = searcher.getReader();
SolrIndexReader[] readers = reader.getLeafReaders();
SolrIndexReader subReader = reader;
if (readers.length==1) {
// if there is a single segment, use that subReader and avoid looking up each time
subReader = readers[0];
readers=null;
}
int[] offsets = reader.getLeafOffsets();
for (SortField sortField: sortFields) {
int type = sortField.getType();
if (type==SortField.SCORE || type==SortField.DOC) continue;
FieldComparator comparator = null;
FieldComparator comparators[] = (readers==null) ? null : new FieldComparator[readers.length];
String fieldname = sortField.getField();
FieldType ft = fieldname==null ? null : req.getSchema().getFieldTypeNoEx(fieldname);
DocList docList = rb.getResults().docList;
ArrayList<Object> vals = new ArrayList<Object>(docList.size());
DocIterator it = rb.getResults().docList.iterator();
int offset = 0;
int idx = 0;
while(it.hasNext()) {
int doc = it.nextDoc();
if (readers != null) {
idx = SolrIndexReader.readerIndex(doc, offsets);
subReader = readers[idx];
offset = offsets[idx];
comparator = comparators[idx];
}
if (comparator == null) {
comparator = sortField.getComparator(1,0);
comparator.setNextReader(subReader, offset);
if (comparators != null)
comparators[idx] = comparator;
}
doc -= offset; // adjust for what segment this is in
comparator.copy(0, doc);
Object val = comparator.value(0);
// Sortable float, double, int, long types all just use a string
// comparator. For these, we need to put the type into a readable
// format. One reason for this is that XML can't represent all
// string values (or even all unicode code points).
// indexedToReadable() should be a no-op and should
// thus be harmless anyway (for all current ways anyway)
if (val instanceof String) {
field.setValue((String)val);
val = ft.toObject(field);
}
// Must do the same conversion when sorting by a
// String field in Lucene, which returns the terms
// data as BytesRef:
if (val instanceof BytesRef) {
field.setValue(((BytesRef)val).utf8ToString());
val = ft.toObject(field);
}
vals.add(val);
}
sortVals.add(fieldname, vals);
}
rsp.add("sort_values", sortVals);
}
}
protected void doPrefetch(ResponseBuilder rb) throws IOException
{
SolrQueryRequest req = rb.req;
SolrQueryResponse rsp = rb.rsp;
//pre-fetch returned documents
if (!req.getParams().getBool(ShardParams.IS_SHARD,false) && rb.getResults().docList != null && rb.getResults().docList.size()<=50) {
// TODO: this may depend on the highlighter component (or other components?)
SolrPluginUtils.optimizePreFetchDocs(rb.getResults().docList, rb.getQuery(), req, rsp);
}
}
@Override
public int distributedProcess(ResponseBuilder rb) throws IOException {
if (rb.stage < ResponseBuilder.STAGE_PARSE_QUERY)
return ResponseBuilder.STAGE_PARSE_QUERY;
if (rb.stage == ResponseBuilder.STAGE_PARSE_QUERY) {
createDistributedIdf(rb);
return ResponseBuilder.STAGE_EXECUTE_QUERY;
}
if (rb.stage < ResponseBuilder.STAGE_EXECUTE_QUERY) return ResponseBuilder.STAGE_EXECUTE_QUERY;
if (rb.stage == ResponseBuilder.STAGE_EXECUTE_QUERY) {
createMainQuery(rb);
return ResponseBuilder.STAGE_GET_FIELDS;
}
if (rb.stage < ResponseBuilder.STAGE_GET_FIELDS) return ResponseBuilder.STAGE_GET_FIELDS;
if (rb.stage == ResponseBuilder.STAGE_GET_FIELDS) {
createRetrieveDocs(rb);
return ResponseBuilder.STAGE_DONE;
}
return ResponseBuilder.STAGE_DONE;
}
@Override
public void handleResponses(ResponseBuilder rb, ShardRequest sreq) {
if ((sreq.purpose & ShardRequest.PURPOSE_GET_TOP_IDS) != 0) {
mergeIds(rb, sreq);
}
if ((sreq.purpose & ShardRequest.PURPOSE_GET_FIELDS) != 0) {
returnFields(rb, sreq);
return;
}
}
@Override
public void finishStage(ResponseBuilder rb) {
if (rb.stage == ResponseBuilder.STAGE_GET_FIELDS) {
// We may not have been able to retrieve all the docs due to an
// index change. Remove any null documents.
for (Iterator<SolrDocument> iter = rb._responseDocs.iterator(); iter.hasNext();) {
if (iter.next() == null) {
iter.remove();
rb._responseDocs.setNumFound(rb._responseDocs.getNumFound()-1);
}
}
rb.rsp.add("response", rb._responseDocs);
}
}
private void createDistributedIdf(ResponseBuilder rb) {
// TODO
}
private void createMainQuery(ResponseBuilder rb) {
ShardRequest sreq = new ShardRequest();
sreq.purpose = ShardRequest.PURPOSE_GET_TOP_IDS;
sreq.params = new ModifiableSolrParams(rb.req.getParams());
// TODO: base on current params or original params?
// don't pass through any shards param
sreq.params.remove(ShardParams.SHARDS);
// set the start (offset) to 0 for each shard request so we can properly merge
// results from the start.
if(rb.shards_start > -1) {
// if the client set shards.start set this explicitly
sreq.params.set(CommonParams.START,rb.shards_start);
} else {
sreq.params.set(CommonParams.START, "0");
}
// TODO: should we even use the SortSpec? That's obtained from the QParser, and
// perhaps we shouldn't attempt to parse the query at this level?
// Alternate Idea: instead of specifying all these things at the upper level,
// we could just specify that this is a shard request.
if(rb.shards_rows > -1) {
// if the client set shards.rows set this explicity
sreq.params.set(CommonParams.ROWS,rb.shards_rows);
} else {
sreq.params.set(CommonParams.ROWS, rb.getSortSpec().getOffset() + rb.getSortSpec().getCount());
}
// in this first phase, request only the unique key field
// and any fields needed for merging.
sreq.params.set(ResponseBuilder.FIELD_SORT_VALUES,"true");
if ( (rb.getFieldFlags() & SolrIndexSearcher.GET_SCORES)!=0 || rb.getSortSpec().includesScore()) {
sreq.params.set(CommonParams.FL, rb.req.getSchema().getUniqueKeyField().getName() + ",score");
} else {
sreq.params.set(CommonParams.FL, rb.req.getSchema().getUniqueKeyField().getName());
}
rb.addRequest(this, sreq);
}
private void mergeIds(ResponseBuilder rb, ShardRequest sreq) {
SortSpec ss = rb.getSortSpec();
Sort sort = ss.getSort();
SortField[] sortFields = null;
if(sort != null) sortFields = sort.getSort();
else {
sortFields = new SortField[]{SortField.FIELD_SCORE};
}
SchemaField uniqueKeyField = rb.req.getSchema().getUniqueKeyField();
// id to shard mapping, to eliminate any accidental dups
HashMap<Object,String> uniqueDoc = new HashMap<Object,String>();
// Merge the docs via a priority queue so we don't have to sort *all* of the
// documents... we only need to order the top (rows+start)
ShardFieldSortedHitQueue queue;
queue = new ShardFieldSortedHitQueue(sortFields, ss.getOffset() + ss.getCount());
long numFound = 0;
Float maxScore=null;
for (ShardResponse srsp : sreq.responses) {
SolrDocumentList docs = (SolrDocumentList)srsp.getSolrResponse().getResponse().get("response");
// calculate global maxScore and numDocsFound
if (docs.getMaxScore() != null) {
maxScore = maxScore==null ? docs.getMaxScore() : Math.max(maxScore, docs.getMaxScore());
}
numFound += docs.getNumFound();
NamedList sortFieldValues = (NamedList)(srsp.getSolrResponse().getResponse().get("sort_values"));
// go through every doc in this response, construct a ShardDoc, and
// put it in the priority queue so it can be ordered.
for (int i=0; i<docs.size(); i++) {
SolrDocument doc = docs.get(i);
Object id = doc.getFieldValue(uniqueKeyField.getName());
String prevShard = uniqueDoc.put(id, srsp.getShard());
if (prevShard != null) {
// duplicate detected
numFound--;
// For now, just always use the first encountered since we can't currently
// remove the previous one added to the priority queue. If we switched
// to the Java5 PriorityQueue, this would be easier.
continue;
// make which duplicate is used deterministic based on shard
// if (prevShard.compareTo(srsp.shard) >= 0) {
// TODO: remove previous from priority queue
// continue;
// }
}
ShardDoc shardDoc = new ShardDoc();
shardDoc.id = id;
shardDoc.shard = srsp.getShard();
shardDoc.orderInShard = i;
Object scoreObj = doc.getFieldValue("score");
if (scoreObj != null) {
if (scoreObj instanceof String) {
shardDoc.score = Float.parseFloat((String)scoreObj);
} else {
shardDoc.score = (Float)scoreObj;
}
}
shardDoc.sortFieldValues = sortFieldValues;
queue.insertWithOverflow(shardDoc);
} // end for-each-doc-in-response
} // end for-each-response
// The queue now has 0 -> queuesize docs, where queuesize <= start + rows
// So we want to pop the last documents off the queue to get
// the docs offset -> queuesize
int resultSize = queue.size() - ss.getOffset();
resultSize = Math.max(0, resultSize); // there may not be any docs in range
Map<Object,ShardDoc> resultIds = new HashMap<Object,ShardDoc>();
for (int i=resultSize-1; i>=0; i--) {
ShardDoc shardDoc = (ShardDoc)queue.pop();
shardDoc.positionInResponse = i;
// Need the toString() for correlation with other lists that must
// be strings (like keys in highlighting, explain, etc)
resultIds.put(shardDoc.id.toString(), shardDoc);
}
SolrDocumentList responseDocs = new SolrDocumentList();
if (maxScore!=null) responseDocs.setMaxScore(maxScore);
responseDocs.setNumFound(numFound);
responseDocs.setStart(ss.getOffset());
// size appropriately
for (int i=0; i<resultSize; i++) responseDocs.add(null);
// save these results in a private area so we can access them
// again when retrieving stored fields.
// TODO: use ResponseBuilder (w/ comments) or the request context?
rb.resultIds = resultIds;
rb._responseDocs = responseDocs;
}
private void createRetrieveDocs(ResponseBuilder rb) {
// TODO: in a system with nTiers > 2, we could be passed "ids" here
// unless those requests always go to the final destination shard
// for each shard, collect the documents for that shard.
HashMap<String, Collection<ShardDoc>> shardMap = new HashMap<String,Collection<ShardDoc>>();
for (ShardDoc sdoc : rb.resultIds.values()) {
Collection<ShardDoc> shardDocs = shardMap.get(sdoc.shard);
if (shardDocs == null) {
shardDocs = new ArrayList<ShardDoc>();
shardMap.put(sdoc.shard, shardDocs);
}
shardDocs.add(sdoc);
}
SchemaField uniqueField = rb.req.getSchema().getUniqueKeyField();
// Now create a request for each shard to retrieve the stored fields
for (Collection<ShardDoc> shardDocs : shardMap.values()) {
ShardRequest sreq = new ShardRequest();
sreq.purpose = ShardRequest.PURPOSE_GET_FIELDS;
sreq.shards = new String[] {shardDocs.iterator().next().shard};
sreq.params = new ModifiableSolrParams();
// add original params
sreq.params.add( rb.req.getParams());
// no need for a sort, we already have order
sreq.params.remove(CommonParams.SORT);
// we already have the field sort values
sreq.params.remove(ResponseBuilder.FIELD_SORT_VALUES);
// make sure that the id is returned for correlation.
String fl = sreq.params.get(CommonParams.FL);
if (fl != null) {
fl = fl.trim();
// currently, "score" is synonymous with "*,score" so
// don't add "id" if the fl is empty or "score" or it would change the meaning.
if (fl.length()!=0 && !"score".equals(fl) && !"*".equals(fl)) {
sreq.params.set(CommonParams.FL, fl+','+uniqueField.getName());
}
}
ArrayList<String> ids = new ArrayList<String>(shardDocs.size());
for (ShardDoc shardDoc : shardDocs) {
// TODO: depending on the type, we may need more tha a simple toString()?
ids.add(shardDoc.id.toString());
}
sreq.params.add(ShardParams.IDS, StrUtils.join(ids, ','));
rb.addRequest(this, sreq);
}
}
private void returnFields(ResponseBuilder rb, ShardRequest sreq) {
// Keep in mind that this could also be a shard in a multi-tiered system.
// TODO: if a multi-tiered system, it seems like some requests
// could/should bypass middlemen (like retrieving stored fields)
// TODO: merge fsv to if requested
if ((sreq.purpose & ShardRequest.PURPOSE_GET_FIELDS) != 0) {
boolean returnScores = (rb.getFieldFlags() & SolrIndexSearcher.GET_SCORES) != 0;
assert(sreq.responses.size() == 1);
ShardResponse srsp = sreq.responses.get(0);
SolrDocumentList docs = (SolrDocumentList)srsp.getSolrResponse().getResponse().get("response");
String keyFieldName = rb.req.getSchema().getUniqueKeyField().getName();
for (SolrDocument doc : docs) {
Object id = doc.getFieldValue(keyFieldName);
ShardDoc sdoc = rb.resultIds.get(id.toString());
if (sdoc != null) {
if (returnScores && sdoc.score != null) {
doc.setField("score", sdoc.score);
}
rb._responseDocs.set(sdoc.positionInResponse, doc);
}
}
}
}
/////////////////////////////////////////////
/// SolrInfoMBean
////////////////////////////////////////////
@Override
public String getDescription() {
return "query";
}
@Override
public String getVersion() {
return "$Revision: 987690 $";
}
@Override
public String getSourceId() {
return "$Id: QueryComponent.java 987690 2010-08-21 02:36:09Z yonik $";
}
@Override
public String getSource() {
return "$URL: https://svn.apache.org/repos/asf/lucene/dev/trunk/solr/src/java/org/apache/solr/handler/component/QueryComponent.java $";
}
@Override
public URL[] getDocs() {
return null;
}
}
|
som-snytt/zinc | internal/zinc-persist/src/main/scala/sbt/internal/inc/text/InputWrapperStream.scala | /*
* Zinc - The incremental compiler for Scala.
* Copyright Lightbend, Inc. and <NAME>
*
* Licensed under Apache License 2.0
* (http://www.apache.org/licenses/LICENSE-2.0).
*
* See the NOTICE file distributed with this work for
* additional information regarding copyright ownership.
*/
package sbt.internal.inc.text
import sbinary.Input
final class InputWrapperStream(in: Input) extends java.io.InputStream {
def toInt(b: Byte) = if (b < 0) b + 256 else b.toInt
def read() =
try {
toInt(in.readByte)
} catch { case _: sbinary.EOF => -1 }
override def read(b: Array[Byte], off: Int, len: Int) = in.readTo(b, off, len)
}
|
nochkin/growl | Plugins/Displays/Animation & Transitions/Window Transitions/GrowlFadingWindowTransition.h | //
// GrowlFadingWindowTransition.h
// Growl
//
// Created by <NAME> on 27/07/05.
// Copyright 2005-2006 The Growl Project. All rights reserved.
//
#import <GrowlPlugins/GrowlWindowtransition.h>
@interface GrowlFadingWindowTransition : GrowlWindowTransition {
}
@end
|
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