rem stringlengths 0 477k | add stringlengths 0 313k | context stringlengths 6 599k |
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} | public void setDragMode(int mode) { if ((mode != LIVE_DRAG_MODE) && (mode != OUTLINE_DRAG_MODE)) throw new IllegalArgumentException("Drag mode not valid."); // FIXME: Unsupported mode. if (mode == OUTLINE_DRAG_MODE) { // throw new IllegalArgumentException("Outline drag modes are unsupported... | |
array = Array.newInstance(klass, INITIAL_SIZE); | GrowableArrayContext(String id, Class newClass) { setId(id); klass = newClass; } | |
if (!klass.isInstance(o)) throw new AssemblyException( new IllegalArgumentException( "Cannot add object " + o + " to array where the elements are of class " + klass)); | if (length == Array.getLength(array)) { Object tmp = Array.newInstance(klass, length * 2); System.arraycopy(array, 0, tmp, 0, length); array = tmp; } | public void addParameterObject(Object o) throws AssemblyException { if (!klass.isInstance(o)) throw new AssemblyException( new IllegalArgumentException( "Cannot add object " + o + " to array where the elements are o... |
list.add(o); | try { Array.set(array, length++, o); } catch(IllegalArgumentException iae) { throw new AssemblyException(iae); } | public void addParameterObject(Object o) throws AssemblyException { if (!klass.isInstance(o)) throw new AssemblyException( new IllegalArgumentException( "Cannot add object " + o + " to array where the elements are o... |
if (array == null) | if (length != Array.getLength(array)) | public Object endContext(Context outerContext) throws AssemblyException { if (array == null) { array = Array.newInstance(klass, list.size()); for (int i = 0; i < list.size(); i++) Array.set(array, i, list.get(i)); } return array; } |
array = Array.newInstance(klass, list.size()); for (int i = 0; i < list.size(); i++) Array.set(array, i, list.get(i)); | Object tmp = Array.newInstance(klass, length); System.arraycopy(array, 0, tmp, 0, length); array = tmp; | public Object endContext(Context outerContext) throws AssemblyException { if (array == null) { array = Array.newInstance(klass, list.size()); for (int i = 0; i < list.size(); i++) Array.set(array, i, list.get(i)); } return array; } |
if (array == null) return list.get(index); else | public Object get(int index) throws AssemblyException { if (array == null) return list.get(index); else return Array.get(array, index); } | |
if (array == null) { if (klass.isInstance(o)) list.add(index, o); else throw new AssemblyException( new IllegalArgumentException("Argument is not compatible to array component type.")); } else | try { | public void set(int index, Object o) throws AssemblyException { if (array == null) { if (klass.isInstance(o)) list.add(index, o); else throw new AssemblyException( new IllegalArgumentException("Argument is not compatible to arra... |
} catch(IllegalArgumentException iae) { throw new AssemblyException(iae); } | public void set(int index, Object o) throws AssemblyException { if (array == null) { if (klass.isInstance(o)) list.add(index, o); else throw new AssemblyException( new IllegalArgumentException("Argument is not compatible to arra... | |
super(SwingUtilities.getOwnerFrame()); | super(SwingUtilities.getOwnerFrame(null)); | public JWindow() { super(SwingUtilities.getOwnerFrame()); windowInit(); } |
return parent.getGraphics().create(location.x, location.y, size.width, size.height); | final int x = jComponent.getX(); final int y = jComponent.getY(); final int width = jComponent.getWidth(); final int height = jComponent.getHeight(); return parent.getGraphics().create(x, y, width, height); | public Graphics getGraphics() { log.debug("getGraphics"); final Component parent = component.getParent(); if (parent != null) { //System.out.println("creating graphics"); return parent.getGraphics().create(location.x, location.y, size.width, size.height); ... |
public void hide() { | public final void hide() { | public void hide() { setVisible(false); } |
public Dimension minimumSize() { | public final Dimension minimumSize() { | public Dimension minimumSize() { return jComponent.getMinimumSize(); } |
public Dimension preferredSize() { | public final Dimension preferredSize() { | public Dimension preferredSize() { return jComponent.getPreferredSize(); } |
public void print(Graphics g) { | public final void print(Graphics g) { | public void print(Graphics g) { jComponent.print(g); } |
public void repaint(long tm, int x, int y, int width, int height) { | public final void repaint(long tm, int x, int y, int width, int height) { | public void repaint(long tm, int x, int y, int width, int height) { jComponent.repaint(tm, x, y, width, height); paintAWTComponent(); } |
public void requestFocus() { | public final void requestFocus() { | public void requestFocus() { jComponent.requestFocus(); } |
public void reshape(int x, int y, int width, int height) { | public final void reshape(int x, int y, int width, int height) { | public void reshape(int x, int y, int width, int height) { setBounds(x, y, width, height); } |
public void setBackground(Color c) { | public final void setBackground(Color c) { | public void setBackground(Color c) { jComponent.setBackground(c); paintAWTComponent(); } |
public void setBounds(int x, int y, int width, int height) { Rectangle b = jComponent.getBounds(); | public final void setBounds(int x, int y, int width, int height) { final int oldWidth = jComponent.getWidth(); final int oldHeight = jComponent.getHeight(); | public void setBounds(int x, int y, int width, int height) { Rectangle b = jComponent.getBounds(); jComponent.setBounds(x, y, width, height); if (b.width != width || b.height != height) { sendComponentEvent(ComponentEvent.COMPONENT_RESIZED); } else { sendComponentEv... |
if (b.width != width || b.height != height) { | if ((oldWidth != width) || (oldHeight != height)) { | public void setBounds(int x, int y, int width, int height) { Rectangle b = jComponent.getBounds(); jComponent.setBounds(x, y, width, height); if (b.width != width || b.height != height) { sendComponentEvent(ComponentEvent.COMPONENT_RESIZED); } else { sendComponentEv... |
public void setCursor(Cursor cursor) { | public final void setCursor(Cursor cursor) { | public void setCursor(Cursor cursor) { jComponent.setCursor(cursor); } |
public void setEnabled(boolean b) { | public final void setEnabled(boolean b) { | public void setEnabled(boolean b) { jComponent.setEnabled(b); } |
public void setEventMask(long mask) { | public final void setEventMask(long mask) { | public void setEventMask(long mask) { // TODO Auto-generated method stub } |
public void setFont(Font f) { | public final void setFont(Font f) { | public void setFont(Font f) { jComponent.setFont(f); paintAWTComponent(); } |
public void setVisible(boolean b) { | public final void setVisible(boolean b) { | public void setVisible(boolean b) { jComponent.setVisible(b); paintAWTComponent(); } |
public void show() { | public final void show() { | public void show() { setVisible(true); } |
public static Component[] getVisibleChildren(Container c) | public static List getVisibleChildren(Container c) | public static Component[] getVisibleChildren(Container c) { Component[] children = c.getComponents(); Vector visible = new Vector(); for (int i = 0; i < children.length; i++) if (children[i].isVisible()) visible.add(children[i]); return (Component[]) visible.toArray(new Container[visible.size... |
Vector visible = new Vector(); for (int i = 0; i < children.length; i++) if (children[i].isVisible()) visible.add(children[i]); return (Component[]) visible.toArray(new Container[visible.size()]); | Object o = visibleChildrenCache.get(children); VisibleComponentList visibleChildren = null; if (o == null) { visibleChildren = new VisibleComponentList(children); visibleChildrenCache.put(children, visibleChildren); } else visibleChildren = (VisibleComponentList) o; return visibleChildren; | public static Component[] getVisibleChildren(Container c) { Component[] children = c.getComponents(); Vector visible = new Vector(); for (int i = 0; i < children.length; i++) if (children[i].isVisible()) visible.add(children[i]); return (Component[]) visible.toArray(new Container[visible.size... |
public Checkbox() { | Checkbox() { | public Checkbox() { this("", false, null); } |
public void addNotify() { | addNotify() { | public void addNotify() { if (peer == null) peer = getToolkit().createCheckbox(this); super.addNotify(); } |
public CheckboxGroup getCheckboxGroup() { return (group); } | getCheckboxGroup() { return(group); } | public CheckboxGroup getCheckboxGroup() { return (group); } |
public Object[] getSelectedObjects() { | getSelectedObjects() { | public Object[] getSelectedObjects() { if (state == false) return (null); Object[] objs = new Object[1]; objs[0] = label; return (objs); } |
protected String paramString() { return ("label=" + label + ",state=" + state + ",group=" + group + "," + super.paramString()); } | paramString() { return ("label=" + label + ",state=" + state + ",group=" + group + "," + super.paramString()); } | protected String paramString() { return ("label=" + label + ",state=" + state + ",group=" + group + "," + super.paramString()); } |
public synchronized void setCheckboxGroup(CheckboxGroup group) { | setCheckboxGroup(CheckboxGroup group) { | public synchronized void setCheckboxGroup(CheckboxGroup group) { this.group = group; if (peer != null) { CheckboxPeer cp = (CheckboxPeer) peer; cp.setCheckboxGroup(group); } } |
cp.setCheckboxGroup(group); } | cp.setCheckboxGroup (group); | public synchronized void setCheckboxGroup(CheckboxGroup group) { this.group = group; if (peer != null) { CheckboxPeer cp = (CheckboxPeer) peer; cp.setCheckboxGroup(group); } } |
} | public synchronized void setCheckboxGroup(CheckboxGroup group) { this.group = group; if (peer != null) { CheckboxPeer cp = (CheckboxPeer) peer; cp.setCheckboxGroup(group); } } | |
public synchronized void setLabel(String label) { | setLabel(String label) { | public synchronized void setLabel(String label) { this.label = label; if (peer != null) { CheckboxPeer cp = (CheckboxPeer) peer; cp.setLabel(label); } } |
public synchronized void setState(boolean state) { | setState(boolean state) { | public synchronized void setState(boolean state) { this.state = state; if (peer != null) { CheckboxPeer cp = (CheckboxPeer) peer; cp.setState(state); } } |
cp.setState(state); } | cp.setState (state); | public synchronized void setState(boolean state) { this.state = state; if (peer != null) { CheckboxPeer cp = (CheckboxPeer) peer; cp.setState(state); } } |
} | public synchronized void setState(boolean state) { this.state = state; if (peer != null) { CheckboxPeer cp = (CheckboxPeer) peer; cp.setState(state); } } | |
setDropTarget(new DropTarget()); | public JComponent() { super(); super.setLayout(new FlowLayout()); defaultLocale = Locale.getDefault(); debugGraphicsOptions = DebugGraphics.NONE_OPTION; } | |
public Object getClientProperty(Object key) | public final Object getClientProperty(Object key) | public Object getClientProperty(Object key) { return getClientProperties().get(key); } |
return "JComponent"; | StringBuffer sb = new StringBuffer(); sb.append(super.paramString()); sb.append(",alignmentX=").append(getAlignmentX()); sb.append(",alignmentY=").append(getAlignmentY()); sb.append(",border="); if (getBorder() != null) sb.append(getBorder()); sb.append(",maximumSize="); if (getMaximumSize() != null) sb.append(getMaxim... | protected String paramString() { return "JComponent"; } |
public void putClientProperty(Object key, Object value) | public final void putClientProperty(Object key, Object value) | public void putClientProperty(Object key, Object value) { getClientProperties().put(key, value); } |
counter++; | public DebugGraphics() { // TODO } | |
if ((debugOptions & LOG_OPTION) != 0) { logStream().println(prefix() + " Clearing rect: " + new Rectangle(x, y, width, height)); } | public void clearRect(int x, int y, int width, int height) { graphics.clearRect(x, y, width, height); } | |
if ((debugOptions & LOG_OPTION) != 0) logStream().println(" Netting clipRect: " + graphics.getClipBounds()); | public void clipRect(int x, int y, int width, int height) { graphics.clipRect(x, y, width, height); } | |
if ((debugOptions & LOG_OPTION) != 0) { logStream().println(prefix() + " Copying area from: " + new Rectangle(x, y, width, height) + " to: " + new Point(destx, desty)); } | public void copyArea(int x, int y, int width, int height, int destx, int desty) { graphics.copyArea(x, y, width, height, destx, desty); } | |
return new DebugGraphics(graphics.create()); | DebugGraphics copy = new DebugGraphics(graphics.create()); copy.debugOptions = debugOptions; return copy; | public Graphics create() { return new DebugGraphics(graphics.create()); } |
if ((debugOptions & LOG_OPTION) != 0) { logStream().println(prefix() + " Drawing 3D rect: " + new Rectangle(x, y, width, height) + "Raised bezel: " + raised); } | public void draw3DRect(int x, int y, int width, int height, boolean raised) { graphics.draw3DRect(x, y, width, height, raised); } | |
if ((debugOptions & LOG_OPTION) != 0) { logStream().println(prefix() + " Drawing arc: " + new Rectangle(x, y, width, height) + " startAngle: " + startAngle + " arcAngle: " + arcAngle); } | public void drawArc(int x, int y, int width, int height, int startAngle, int arcAngle) { graphics.drawArc(x, y, width, height, startAngle, arcAngle); } | |
if ((debugOptions & LOG_OPTION) != 0) logStream().println(prefix() + " Drawing bytes at: " + new Point(x, y)); | public void drawBytes(byte[] data, int offset, int length, int x, int y) { graphics.drawBytes(data, offset, length, x, y); } | |
graphics.setColor(color); | public void drawChars(char[] data, int offset, int length, int x, int y) { for (int index = 0; index < (debugFlashCount - 1); ++index) { graphics.setColor(color); graphics.drawChars(data, offset, length, x, y); sleep(debugFlashTime); graphics.setColor(debugFlashColor); graphics.drawChars(data, offset, le... | |
if ((debugOptions & LOG_OPTION) != 0) { logStream().println(prefix() + " Drawing image: " + image + " at: " + new Point(x, y)); } | public boolean drawImage(Image image, int x, int y, ImageObserver observer) { return graphics.drawImage(image, x, y, observer); } | |
if ((debugOptions & LOG_OPTION) != 0) { logStream().println(prefix() + " Drawing line: from (" + x1 + ", " + y1 + ") to (" + x2 + ", " + y2 + ")"); } | public void drawLine(int x1, int y1, int x2, int y2) { graphics.drawLine(x1, y1, x2, y2); } | |
if ((debugOptions & LOG_OPTION) != 0) { logStream().println(prefix() + " Drawing oval: " + new Rectangle(x, y, width, height)); } | public void drawOval(int x, int y, int width, int height) { graphics.drawOval(x, y, width, height); } | |
if ((debugOptions & LOG_OPTION) != 0) { logStream().println(prefix() + " Drawing polygon: nPoints: " + npoints + " X's: " + xpoints + " Y's: " + ypoints); } | public void drawPolygon(int[] xpoints, int[] ypoints, int npoints) { graphics.drawPolygon(xpoints, ypoints, npoints); } | |
if ((debugOptions & LOG_OPTION) != 0) { logStream().println(prefix() + " Drawing polyline: nPoints: " + npoints + " X's: " + xpoints + " Y's: " + ypoints); } | public void drawPolyline(int[] xpoints, int[] ypoints, int npoints) { graphics.drawPolyline(xpoints, ypoints, npoints); } | |
graphics.setColor(color); | public void drawRect(int x, int y, int width, int height) { for (int index = 0; index < (debugFlashCount - 1); ++index) { graphics.setColor(color); graphics.drawRect(x, y, width, height); sleep(debugFlashTime); graphics.setColor(debugFlashColor); graphics.drawRect(x, y, width, height); sleep(debugFlashTime)... | |
if ((debugOptions & LOG_OPTION) != 0) { logStream().println(prefix() + " Drawing round rect: " + new Rectangle(x, y, width, height) + " arcWidth: " + arcWidth + " arcHeight: " + arcHeight); } | public void drawRoundRect(int x, int y, int width, int height, int arcWidth, int arcHeight) { graphics.drawRoundRect(x, y, width, height, arcWidth, arcHeight); } | |
if ((debugOptions & LOG_OPTION) != 0) { logStream().println(prefix() + " Drawing string: \"" + string + "\" at: " + new Point(x, y)); } | public void drawString(String string, int x, int y) { graphics.drawString(string, x, y); } | |
if ((debugOptions & LOG_OPTION) != 0) { logStream().println(prefix() + " Filling 3D rect: " + new Rectangle(x, y, width, height) + "Raised bezel: " + raised); } | public void fill3DRect(int x, int y, int width, int height, boolean raised) { graphics.fill3DRect(x, y, width, height, raised); } | |
if ((debugOptions & LOG_OPTION) != 0) { logStream().println(prefix() + " Filling arc: " + new Rectangle(x, y, width, height) + " startAngle: " + startAngle + " arcAngle: " + arcAngle); } | public void fillArc(int x, int y, int width, int height, int startAngle, int arcAngle) { graphics.fillArc(x, y, width, height, startAngle, arcAngle); } | |
if ((debugOptions & LOG_OPTION) != 0) { logStream().println(prefix() + " Filling oval: " + new Rectangle(x, y, width, height)); } | public void fillOval(int x, int y, int width, int height) { graphics.fillOval(x, y, width, height); } | |
if ((debugOptions & LOG_OPTION) != 0) { logStream().println(prefix() + " Drawing polygon: nPoints: " + npoints + " X's: " + xpoints + " Y's: " + ypoints); } | public void fillPolygon(int[] xpoints, int[] ypoints, int npoints) { graphics.fillPolygon(xpoints, ypoints, npoints); } | |
graphics.setColor(color); | public void fillRect(int x, int y, int width, int height) { for (int index = 0; index < (debugFlashCount - 1); ++index) { graphics.setColor(color); graphics.fillRect(x, y, width, height); sleep(debugFlashTime); graphics.setColor(debugFlashColor); graphics.fillRect(x, y, width, height); sleep(debugFlashTime)... | |
if ((debugOptions & LOG_OPTION) != 0) { logStream().println(prefix() + " Filling round rect: " + new Rectangle(x, y, width, height) + " arcWidth: " + arcWidth + " arcHeight: " + arcHeight); } | public void fillRoundRect(int x, int y, int width, int height, int arcWidth, int arcHeight) { graphics.fillRoundRect(x, y, width, height, arcWidth, arcHeight); } | |
return color; | return graphics.getColor(); | public Color getColor() { return color; } |
if ((debugOptions & LOG_OPTION) != 0) { logStream().println(prefix() + " Setting new clipRect: " + new Rectangle(x, y, width, height)); } | public void setClip(int x, int y, int width, int height) { graphics.setClip(x, y, width, height); } | |
this.color = color; | if ((debugOptions & LOG_OPTION) != 0) logStream().println(prefix() + " Setting color: " + color); graphics.setColor(color); | public void setColor(Color color) { this.color = color; } |
if ((debugOptions & LOG_OPTION) != 0) if (options == NONE_OPTION) logStream().println(prefix() + "Disabling debug"); else logStream().println(prefix() + "Enabling debug"); | public void setDebugOptions(int options) { debugOptions = options; } | |
if ((debugOptions & LOG_OPTION) != 0) logStream().println(prefix() + " Setting font: " + font); | public void setFont(Font font) { graphics.setFont(font); } | |
if ((debugOptions & LOG_OPTION) != 0) logStream().println(prefix() + " Setting paint mode"); | public void setPaintMode() { graphics.setPaintMode(); } | |
if ((debugOptions & LOG_OPTION) != 0) logStream().println(prefix() + " Setting XOR mode: " + color); | public void setXORMode(Color color) { graphics.setXORMode(color); } | |
if ((debugOptions & LOG_OPTION) != 0) logStream().println(prefix() + " Translating by: " + new Point(x, y)); | public void translate(int x, int y) { graphics.translate(x, y); } | |
sem.send(); | if (sem.send()) { | private void sendIt (Frame parent, SendEMail sem) { if (parent == null) parent = new JFrame(); try { sem.send(); JOptionPane.showMessageDialog(parent, LangTool.getString("em.confirmationMessage") + " "... |
if (session != null) { config.setProperty("emailTo", getToTokens(config.getStringProperty("emailTo"), toAddress)); config.saveSessionProps(); setToCombo(config.getStringProperty("emailTo"),toAddress); | if (session != null) { config.setProperty("emailTo", getToTokens(config.getStringProperty("emailTo"), toAddress)); config.saveSessionProps(); setToCombo(config.getStringProperty("emailTo"),toAddress); } | private void sendIt (Frame parent, SendEMail sem) { if (parent == null) parent = new JFrame(); try { sem.send(); JOptionPane.showMessageDialog(parent, LangTool.getString("em.confirmationMessage") + " "... |
catch (SendFailedException sfe) { showFailedException(parent, sfe); } | private void sendIt (Frame parent, SendEMail sem) { if (parent == null) parent = new JFrame(); try { sem.send(); JOptionPane.showMessageDialog(parent, LangTool.getString("em.confirmationMessage") + " "... | |
vstack.push(createConst(type, fpv1 + fpv2)); | vstack.push(createConst(ifac, type, fpv1 + fpv2)); | final static void add(AbstractX86Stream os, EmitterContext ec, VirtualStack vstack, int type) { final Item v2 = vstack.pop(type); final Item v1 = vstack.pop(type); if (v1.isConstant() && v2.isConstant()) { final double fpv1 = getFPValue(v1); final double fpv2 = getFPValue(v2); vstack.push(createConst(type, ... |
final IntItem res = IntItem.createReg(resr); | final ItemFactory ifac = ec.getItemFactory(); final IntItem res = (IntItem)ifac.createReg(JvmType.INT, resr); | final static void compare(AbstractX86Stream os, EmitterContext ec, VirtualStack vstack, boolean gt, int type, Label curInstrLabel) { final Item v2 = vstack.pop(type); final Item v1 = vstack.pop(type); // Prepare operands final FPUStack fpuStack = vstack.fpuStack; final Register reg; reg = prepareForOperation(o... |
vstack.push(createConst(toType, getFPValue(v))); | vstack.push(createConst(ifac, toType, getFPValue(v))); | final static void convert(EmitterContext ec, VirtualStack vstack, int fromType, int toType) { final Item v = vstack.pop(fromType); if (v.isConstant()) { vstack.push(createConst(toType, getFPValue(v))); } else { v.pushToFPU(ec); vstack.fpuStack.pop(v); final Item result = createFPUStack(toType); vstack.p... |
final Item result = createFPUStack(toType); | final Item result = ifac.createFPUStack(toType); | final static void convert(EmitterContext ec, VirtualStack vstack, int fromType, int toType) { final Item v = vstack.pop(fromType); if (v.isConstant()) { vstack.push(createConst(toType, getFPValue(v))); } else { v.pushToFPU(ec); vstack.fpuStack.pop(v); final Item result = createFPUStack(toType); vstack.p... |
private final static Item createConst(int type, double value) { | private final static Item createConst(ItemFactory ifac, int type, double value) { | private final static Item createConst(int type, double value) { switch (type) { case JvmType.DOUBLE: return DoubleItem.createConst(value); case JvmType.FLOAT: return FloatItem.createConst((float) value); case JvmType.INT: return IntItem.createConst((int) value); case JvmType.LONG: return LongItem.createCo... |
return DoubleItem.createConst(value); | return ifac.createDConst(value); | private final static Item createConst(int type, double value) { switch (type) { case JvmType.DOUBLE: return DoubleItem.createConst(value); case JvmType.FLOAT: return FloatItem.createConst((float) value); case JvmType.INT: return IntItem.createConst((int) value); case JvmType.LONG: return LongItem.createCo... |
return FloatItem.createConst((float) value); | return ifac.createFConst((float) value); | private final static Item createConst(int type, double value) { switch (type) { case JvmType.DOUBLE: return DoubleItem.createConst(value); case JvmType.FLOAT: return FloatItem.createConst((float) value); case JvmType.INT: return IntItem.createConst((int) value); case JvmType.LONG: return LongItem.createCo... |
return IntItem.createConst((int) value); | return ifac.createIConst((int) value); | private final static Item createConst(int type, double value) { switch (type) { case JvmType.DOUBLE: return DoubleItem.createConst(value); case JvmType.FLOAT: return FloatItem.createConst((float) value); case JvmType.INT: return IntItem.createConst((int) value); case JvmType.LONG: return LongItem.createCo... |
return LongItem.createConst((long) value); | return ifac.createLConst((long) value); | private final static Item createConst(int type, double value) { switch (type) { case JvmType.DOUBLE: return DoubleItem.createConst(value); case JvmType.FLOAT: return FloatItem.createConst((float) value); case JvmType.INT: return IntItem.createConst((int) value); case JvmType.LONG: return LongItem.createCo... |
vstack.push(createConst(type, fpv1 / fpv2)); | vstack.push(createConst(ifac, type, fpv1 / fpv2)); | final static void div(AbstractX86Stream os, EmitterContext ec, VirtualStack vstack, int type) { final Item v2 = vstack.pop(type); final Item v1 = vstack.pop(type); if (v1.isConstant() && v2.isConstant()) { final double fpv1 = getFPValue(v1); final double fpv2 = getFPValue(v2); vstack.push(createConst(type, ... |
vstack.push(createConst(type, fpv1 * fpv2)); | vstack.push(createConst(ifac, type, fpv1 * fpv2)); | final static void mul(AbstractX86Stream os, EmitterContext ec, VirtualStack vstack, int type) { final Item v2 = vstack.pop(type); final Item v1 = vstack.pop(type); if (v1.isConstant() && v2.isConstant()) { final double fpv1 = getFPValue(v1); final double fpv2 = getFPValue(v2); vstack.push(createConst(type, ... |
vstack.push(createConst(type, -fpv)); | vstack.push(createConst(ifac, type, -fpv)); | final static void neg(AbstractX86Stream os, EmitterContext ec, VirtualStack vstack, int type) { final Item v = vstack.pop(type); if (v.isConstant()) { final double fpv = getFPValue(v); vstack.push(createConst(type, -fpv)); } else { // Prepare final FPUStack fpuStack = vstack.fpuStack; prepareForOperatio... |
vstack.push(createConst(type, fpv1 % fpv2)); | vstack.push(createConst(ifac, type, fpv1 % fpv2)); | final static void rem(AbstractX86Stream os, EmitterContext ec, VirtualStack vstack, int type) { final Item v2 = vstack.pop(type); final Item v1 = vstack.pop(type); if (v1.isConstant() && v2.isConstant()) { final double fpv1 = getFPValue(v1); final double fpv2 = getFPValue(v2); vstack.push(createConst(type, ... |
vstack.push(createConst(type, fpv1 - fpv2)); | vstack.push(createConst(ifac, type, fpv1 - fpv2)); | final static void sub(AbstractX86Stream os, EmitterContext ec, VirtualStack vstack, int type) { final Item v2 = vstack.pop(type); final Item v1 = vstack.pop(type); if (v1.isConstant() && v2.isConstant()) { final double fpv1 = getFPValue(v1); final double fpv2 = getFPValue(v2); vstack.push(createConst(type, ... |
REMatch newMatch = null; REMatch last = null; | REMatch.REMatchList newMatch = new REMatch.REMatchList(); | private boolean matchP(CharIndexed input, REMatch mymatch) { REMatch newMatch = null; REMatch last = null; REToken tk; for (int i=0; i < options.size(); i++) { // In ordaer that the backtracking can work, // each option must be chained to the next token. // But the chain method has some side effect, so ... |
if (last == null) { newMatch = tryMatch; last = tryMatch; } else { last.next = tryMatch; last = tryMatch; } | newMatch.addTail(tryMatch); | private boolean matchP(CharIndexed input, REMatch mymatch) { REMatch newMatch = null; REMatch last = null; REToken tk; for (int i=0; i < options.size(); i++) { // In ordaer that the backtracking can work, // each option must be chained to the next token. // But the chain method has some side effect, so ... |
if (newMatch != null) { | if (newMatch.head != null) { | private boolean matchP(CharIndexed input, REMatch mymatch) { REMatch newMatch = null; REMatch last = null; REToken tk; for (int i=0; i < options.size(); i++) { // In ordaer that the backtracking can work, // each option must be chained to the next token. // But the chain method has some side effect, so ... |
mymatch.assignFrom(newMatch); | mymatch.assignFrom(newMatch.head); | private boolean matchP(CharIndexed input, REMatch mymatch) { REMatch newMatch = null; REMatch last = null; REToken tk; for (int i=0; i < options.size(); i++) { // In ordaer that the backtracking can work, // each option must be chained to the next token. // But the chain method has some side effect, so ... |
methods.remove(new Long (hash)); | methods.remove(new Long(hash)); } | private void buildMethodHash(Class cls, boolean build) { Method[] meths = cls.getMethods(); for (int i = 0; i < meths.length; i++) { /* Don't need to include any java.xxx related stuff */ if (meths[i].getDeclaringClass().getName().startsWith("java.")) { continue; } long hash = RMIHashes.getMethodHash(meths[i]); ... |
} | private void buildMethodHash(Class cls, boolean build) { Method[] meths = cls.getMethods(); for (int i = 0; i < meths.length; i++) { /* Don't need to include any java.xxx related stuff */ if (meths[i].getDeclaringClass().getName().startsWith("java.")) { continue; } long hash = RMIHashes.getMethodHash(meths[i]); ... | |
public RemoteStub exportObject(Remote obj) throws RemoteException { if (myself == null) { | public Remote exportObject(Remote obj) throws RemoteException { if (myself == null) { | public RemoteStub exportObject(Remote obj) throws RemoteException { if (myself == null) { myself = obj; // Save it to server manager, to let client calls in the same VM to issue // local call manager.serverobj = obj; // Find and install the stub Class cls = obj.getClass(); Class expCls; try { // where ist th... |
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