bugged
stringlengths 6
599k
| fixed
stringlengths 10
599k
| __index_level_0__
int64 0
1.13M
|
|---|---|---|
public Set keySet() { Set keys = headers.keySet(); Set ret = new LinkedHashSet(); for (Iterator i = keys.iterator(); i.hasNext(); ) { ret.add(((Header) i.next()).name); } return ret; }
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public Set keySet() { Set keys = super.keySet(); Set ret = new LinkedHashSet(); for (Iterator i = keys.iterator(); i.hasNext(); ) { ret.add(((Header) i.next()).name); } return ret; }
| 10,904
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public void parse(InputStream in) throws IOException { LineInputStream lin = (in instanceof LineInputStream) ? (LineInputStream) in : new LineInputStream(in); String name = null; StringBuffer value = new StringBuffer(); while (true) { String line = lin.readLine(); if (line == null) { if (name != null) { addValue(name, value.toString()); } break; } int len = line.length(); if (len < 2) { if (name != null) { addValue(name, value.toString()); } break; } char c1 = line.charAt(0); if (c1 == ' ' || c1 == '\t') { // Continuation int last = len - 1; if (line.charAt(last) != '\r') ++last; value.append(line.substring(0, last)); } else { if (name != null) { addValue(name, value.toString()); } int di = line.indexOf(':'); name = line.substring(0, di); value.setLength(0); do { di++; } while (di < len && line.charAt(di) == ' '); int last = len - 1; if (line.charAt(last) != '\r') ++last; value.append(line.substring(di, last)); } } }
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public void parse(InputStream in) throws IOException { LineInputStream lin = (in instanceof LineInputStream) ? (LineInputStream) in : new LineInputStream(in); String name = null; StringBuilder value = new StringBuilder(); while (true) { String line = lin.readLine(); if (line == null) { if (name != null) { addValue(name, value.toString()); } break; } int len = line.length(); if (len < 2) { if (name != null) { addValue(name, value.toString()); } break; } char c1 = line.charAt(0); if (c1 == ' ' || c1 == '\t') { // Continuation int last = len - 1; if (line.charAt(last) != '\r') ++last; value.append(line.substring(0, last)); } else { if (name != null) { addValue(name, value.toString()); } int di = line.indexOf(':'); name = line.substring(0, di); value.setLength(0); do { di++; } while (di < len && line.charAt(di) == ' '); int last = len - 1; if (line.charAt(last) != '\r') ++last; value.append(line.substring(di, last)); } } }
| 10,905
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public Object put(Object key, Object value) { return headers.put(new Header((String) key), value); }
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public Object put(Object key, Object value) { return super.put(new Header((String) key), value); }
| 10,906
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public void putAll(Map t) { for (Iterator i = t.keySet().iterator(); i.hasNext(); ) { String key = (String) i.next(); String value = (String) t.get(key); headers.put(new Header(key), value); } }
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public void putAll(Map t) { for (Iterator i = t.keySet().iterator(); i.hasNext(); ) { String key = (String) i.next(); String value = (String) t.get(key); put(key, value); } }
| 10,907
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public Object remove(Object key) { return headers.remove(new Header((String) key)); }
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public Object remove(Object key) { return super.remove(new Header((String) key)); }
| 10,908
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protected void updateViewport(PropertyChangeEvent ev) { JViewport oldViewport = (JViewport) ev.getOldValue(); oldViewport.removeChangeListener(viewportChangeListener); JViewport newViewport = (JViewport) ev.getNewValue(); oldViewport.addChangeListener(viewportChangeListener); }
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protected void updateViewport(PropertyChangeEvent ev) { JViewport oldViewport = (JViewport) ev.getOldValue(); oldViewport.removeChangeListener(viewportChangeListener); JViewport newViewport = (JViewport) ev.getNewValue(); newViewport.addChangeListener(viewportChangeListener); syncScrollPaneWithViewport(); }
| 10,909
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public X500DistinguishedName(byte[] encoded) throws IOException { this(); parseDer(new DERReader(encoded)); }
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public X500DistinguishedName() { this(); parseDer(new DERReader(encoded)); }
| 10,910
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public X500DistinguishedName(byte[] encoded) throws IOException { this(); parseDer(new DERReader(encoded)); }
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public X500DistinguishedName(byte[] encoded) throws IOException { this(); parseDer(new DERReader(encoded)); }
| 10,911
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public static short[] read(InputStream input) { UShortSeqHolder h = new UShortSeqHolder(); h._read(input); return h.value; }
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public static short[] read(InputStream input) { UShortSeqHolder h = new UShortSeqHolder(); h._read(input); return h.value; }
| 10,912
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public static void write(OutputStream output, short[] value) { UShortSeqHolder h = new UShortSeqHolder(value); h._write(output); }
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public static void write(OutputStream output, short[] value) { UShortSeqHolder h = new UShortSeqHolder(value); h._write(output); }
| 10,913
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private void drainEvents() { synchronized (queueLock) { if (isCoalesce()) { if (queue > 0) fireActionPerformed(); } else { while (queue > 0) { fireActionPerformed(); queue--; } } queue = 0; } }
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void drainEvents() { synchronized (queueLock) { if (isCoalesce()) { if (queue > 0) fireActionPerformed(); } else { while (queue > 0) { fireActionPerformed(); queue--; } } queue = 0; } }
| 10,915
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private void queueEvent() { synchronized (queueLock) { queue++; if (queue == 1) SwingUtilities.invokeLater(drainer); } }
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void queueEvent() { synchronized (queueLock) { queue++; if (queue == 1) SwingUtilities.invokeLater(drainer); } }
| 10,916
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public Dimension getPreferredSize(JComponent c) { JToolTip tip = (JToolTip) c; FontMetrics fm; Toolkit g = tip.getToolkit(); text = tip.getTipText(); // accelerator JComponent component = tip.getComponent(); if (component instanceof JMenuItem) { JMenuItem item = (JMenuItem) component; KeyStroke acc = item.getAccelerator(); String tipText = item.getToolTipText(); int mne = item.getMnemonic(); if (acc == null && mne > 0) acc = KeyStroke.getKeyStroke(Character.toUpperCase((char) mne), InputEvent.ALT_MASK, false); if (tipText != null && acc != null) { UIDefaults defaults = UIManager.getLookAndFeelDefaults(); accFore = defaults.getColor("MenuItem.acceleratorForeground"); accDeliminator = defaults.getString("MenuItem.acceleratorDelimiter"); accFont = defaults.getFont("MenuItem.acceleratorFont"); accText = getAcceleratorText(acc); text = tipText + " " + accText; } else { accFore = null; accDeliminator = null; accFont = null; accText = null; } } Rectangle vr = new Rectangle(); Rectangle ir = new Rectangle(); Rectangle tr = new Rectangle(); Insets insets = tip.getInsets(); fm = g.getFontMetrics(tip.getFont()); SwingUtilities.layoutCompoundLabel(tip, fm, text, null, SwingConstants.CENTER, SwingConstants.CENTER, SwingConstants.CENTER, SwingConstants.CENTER, vr, ir, tr, 0); return new Dimension(insets.left + tr.width + insets.right, insets.top + tr.height + insets.bottom); }
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public Dimension getPreferredSize(JComponent c) { JToolTip tip = (JToolTip) c; FontMetrics fm; Toolkit g = tip.getToolkit(); text = tip.getTipText(); // accelerator JComponent component = tip.getComponent(); if (component instanceof JMenuItem) { JMenuItem item = (JMenuItem) component; KeyStroke acc = item.getAccelerator(); String tipText = item.getToolTipText(); int mne = item.getMnemonic(); if (acc == null && mne > 0) acc = KeyStroke.getKeyStroke(Character.toUpperCase((char) mne), InputEvent.ALT_MASK, false); if (tipText != null && acc != null) { UIDefaults defaults = UIManager.getLookAndFeelDefaults(); accFore = defaults.getColor("MenuItem.acceleratorForeground"); accDeliminator = defaults.getString("MenuItem.acceleratorDelimiter"); accFont = defaults.getFont("MenuItem.acceleratorFont"); accText = getAcceleratorText(acc); text = tipText + " " + accText; } else { accFore = null; accDeliminator = null; accFont = null; accText = null; } } Rectangle vr = new Rectangle(); Rectangle ir = new Rectangle(); Rectangle tr = new Rectangle(); Insets insets = tip.getInsets(); fm = g.getFontMetrics(tip.getFont()); SwingUtilities.layoutCompoundLabel(tip, fm, text, null, SwingConstants.CENTER, SwingConstants.CENTER, SwingConstants.CENTER, SwingConstants.CENTER, vr, ir, tr, 0); return new Dimension(insets.left + tr.width + insets.right, insets.top + tr.height + insets.bottom); }
| 10,917
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protected void installDefaults(JComponent c) { UIDefaults defaults = UIManager.getLookAndFeelDefaults(); c.setBackground(defaults.getColor("ToolTip.background")); c.setForeground(defaults.getColor("ToolTip.foreground")); c.setFont(defaults.getFont("ToolTip.font")); c.setBorder(defaults.getBorder("ToolTip.border")); }
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protected void installDefaults(JComponent c) { UIDefaults defaults = UIManager.getLookAndFeelDefaults(); c.setBackground(defaults.getColor("ToolTip.background")); c.setForeground(defaults.getColor("ToolTip.foreground")); c.setFont(defaults.getFont("ToolTip.font")); c.setBorder(defaults.getBorder("ToolTip.border")); }
| 10,918
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public void paint(Graphics g, JComponent c) { JToolTip tip = (JToolTip) c; String text = tip.getTipText(); Toolkit t = tip.getToolkit(); if (text == null) return; Rectangle vr = new Rectangle(); vr = SwingUtilities.calculateInnerArea(tip, vr); Rectangle ir = new Rectangle(); Rectangle tr = new Rectangle(); FontMetrics fm = t.getFontMetrics(tip.getFont()); int ascent = fm.getAscent(); SwingUtilities.layoutCompoundLabel(tip, fm, text, null, SwingConstants.CENTER, SwingConstants.CENTER, SwingConstants.CENTER, SwingConstants.CENTER, vr, ir, tr, 0); Color saved = g.getColor(); g.setColor(Color.BLACK); g.drawString(text, vr.x, vr.y + ascent); // paint accelerator if (accText != null) { g.setColor(accFore); int textWidth = fm.stringWidth(text + " "); fm = t.getFontMetrics(accFont); int width = fm.stringWidth(accText); g.drawString(accText, textWidth, vr.y + ascent); } g.setColor(saved); }
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public void paint(Graphics g, JComponent c) { JToolTip tip = (JToolTip) c; String text = tip.getTipText(); Toolkit t = tip.getToolkit(); if (text == null) return; Rectangle vr = new Rectangle(); vr = SwingUtilities.calculateInnerArea(tip, vr); Rectangle ir = new Rectangle(); Rectangle tr = new Rectangle(); FontMetrics fm = t.getFontMetrics(tip.getFont()); int ascent = fm.getAscent(); SwingUtilities.layoutCompoundLabel(tip, fm, text, null, SwingConstants.CENTER, SwingConstants.CENTER, SwingConstants.CENTER, SwingConstants.CENTER, vr, ir, tr, 0); Color saved = g.getColor(); g.setColor(Color.BLACK); g.drawString(text, vr.x, vr.y + ascent); // paint accelerator if (accText != null) { g.setColor(accFore); int textWidth = fm.stringWidth(text + " "); fm = t.getFontMetrics(accFont); int width = fm.stringWidth(accText); g.drawString(accText, textWidth, vr.y + ascent); } g.setColor(saved); }
| 10,919
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private static PreferencesFactory getFactory() throws SecurityException { // First check for permission SecurityManager sm = System.getSecurityManager(); if (sm != null) { sm.checkPermission(prefsPermission); } // Get the factory if (factory == null) { // Caller might not have enough permissions factory = (PreferencesFactory) AccessController.doPrivileged( new PrivilegedAction() { public Object run() { PreferencesFactory pf = null; String className = System.getProperty ("java.util.prefs.PreferencesFactory"); if (className != null) { try { Class fc = Class.forName(className); Object o = fc.newInstance(); pf = (PreferencesFactory) o; } catch (ClassNotFoundException cnfe) {/*ignore*/} catch (InstantiationException ie) {/*ignore*/} catch (IllegalAccessException iae) {/*ignore*/} catch (ClassCastException cce) {/*ignore*/} } return pf; } }); // Still no factory? Use our default. if (factory == null) { try { Object o = Class.forName(defaultFactoryClass); factory = (PreferencesFactory) o; } catch (ClassNotFoundException cnfe) { throw new RuntimeException("Couldn't load default factory" + " '"+ defaultFactoryClass +"'"); // XXX - when using 1.4 compatible throwables add cause } } } return factory; }
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private static PreferencesFactory getFactory() throws SecurityException { // First check for permission SecurityManager sm = System.getSecurityManager(); if (sm != null) { sm.checkPermission(prefsPermission); } // Get the factory if (factory == null) { // Caller might not have enough permissions factory = (PreferencesFactory) AccessController.doPrivileged( new PrivilegedAction() { public Object run() { PreferencesFactory pf = null; String className = System.getProperty ("java.util.prefs.PreferencesFactory"); if (className != null) { try { Class fc = Class.forName(className); Object o = fc.newInstance(); pf = (PreferencesFactory) o; } catch (ClassNotFoundException cnfe) {/*ignore*/} catch (InstantiationException ie) {/*ignore*/} catch (IllegalAccessException iae) {/*ignore*/} catch (ClassCastException cce) {/*ignore*/} } return pf; } }); // Still no factory? Use our default. if (factory == null) { try { Object o = Class.forName(defaultFactoryClass); factory = (PreferencesFactory) o; } catch (ClassNotFoundException cnfe) { throw new RuntimeException("Couldn't load default factory" + " '"+ defaultFactoryClass +"'"); // XXX - when using 1.4 compatible throwables add cause } } } return factory; }
| 10,920
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private static Preferences nodeForPackage(Object o, Preferences root) { // Get the package path String className = o.getClass().getName(); String packagePath; int index = className.lastIndexOf('.'); if(index == -1) { packagePath = "<unnamed>"; } else { packagePath = className.substring(0,index).replace('.','/'); } return root.node(packagePath); }
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private static Preferences nodeForPackage(Class c, Preferences root) { // Get the package path String className = o.getClass().getName(); String packagePath; int index = className.lastIndexOf('.'); if(index == -1) { packagePath = "<unnamed>"; } else { packagePath = className.substring(0,index).replace('.','/'); } return root.node(packagePath); }
| 10,921
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private static Preferences nodeForPackage(Object o, Preferences root) { // Get the package path String className = o.getClass().getName(); String packagePath; int index = className.lastIndexOf('.'); if(index == -1) { packagePath = "<unnamed>"; } else { packagePath = className.substring(0,index).replace('.','/'); } return root.node(packagePath); }
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private static Preferences nodeForPackage(Object o, Preferences root) { // Get the package path String className = c.getName(); String packagePath; int index = className.lastIndexOf('.'); if(index == -1) { packagePath = "<unnamed>"; } else { packagePath = className.substring(0,index).replace('.','/'); } return root.node(packagePath); }
| 10,922
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public static Preferences systemNodeForPackage(Object o) throws SecurityException { return nodeForPackage(o, systemRoot()); }
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public static Preferences systemNodeForPackage(Class c) throws SecurityException { return nodeForPackage(o, systemRoot()); }
| 10,923
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public static Preferences systemNodeForPackage(Object o) throws SecurityException { return nodeForPackage(o, systemRoot()); }
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public static Preferences systemNodeForPackage(Object o) throws SecurityException { return nodeForPackage(c, systemRoot()); }
| 10,924
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public static Preferences userNodeForPackage(Object o) throws SecurityException { return nodeForPackage(o, userRoot()); }
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public static Preferences userNodeForPackage(Class c) throws SecurityException { return nodeForPackage(o, userRoot()); }
| 10,925
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public static Preferences userNodeForPackage(Object o) throws SecurityException { return nodeForPackage(o, userRoot()); }
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public static Preferences userNodeForPackage(Object o) throws SecurityException { return nodeForPackage(c, userRoot()); }
| 10,926
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public double getElemDouble(int bank, int i) { return getElem(bank, i); }
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public double getElemDouble(int i) { return getElem(bank, i); }
| 10,927
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public double getElemDouble(int bank, int i) { return getElem(bank, i); }
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public double getElemDouble(int bank, int i) { return getElem(i); }
| 10,928
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public float getElemFloat(int bank, int i) { return getElem(bank, i); }
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public float getElemFloat(int i) { return getElem(bank, i); }
| 10,929
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public float getElemFloat(int bank, int i) { return getElem(bank, i); }
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public float getElemFloat(int bank, int i) { return getElem(i); }
| 10,930
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public void setDataElements(int x, int y, Object obj, DataBuffer data) { int offset = pixelStride*x + scanlineStride*y; int[] totalBandDataOffsets = new int[numBands]; int[] bankOffsets = data.getOffsets(); for (int b=0; b<numBands; b++) totalBandDataOffsets[b] = bandOffsets[b]+bankOffsets[bankIndices[b]] + offset; switch (getTransferType()) { case DataBuffer.TYPE_BYTE: { DataBufferByte out = (DataBufferByte) data; byte[] in = (byte[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_USHORT: { DataBufferUShort out = (DataBufferUShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_SHORT: { DataBufferShort out = (DataBufferShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_INT: { DataBufferInt out = (DataBufferInt) data; int[] in = (int[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_FLOAT: { DataBufferFloat out = (DataBufferFloat) data; float[] in = (float[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_DOUBLE: { DataBufferDouble out = (DataBufferDouble) data; double[] in = (double[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } default: throw new UnsupportedOperationException("transfer type not " + "implemented"); } }
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public void setDataElements(int x, int y, int w, int h, Object obj, DataBuffer data) { int offset = pixelStride*x + scanlineStride*y; int[] totalBandDataOffsets = new int[numBands]; int[] bankOffsets = data.getOffsets(); for (int b=0; b<numBands; b++) totalBandDataOffsets[b] = bandOffsets[b]+bankOffsets[bankIndices[b]] + offset; switch (getTransferType()) { case DataBuffer.TYPE_BYTE: { DataBufferByte out = (DataBufferByte) data; byte[] in = (byte[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_USHORT: { DataBufferUShort out = (DataBufferUShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_SHORT: { DataBufferShort out = (DataBufferShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_INT: { DataBufferInt out = (DataBufferInt) data; int[] in = (int[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_FLOAT: { DataBufferFloat out = (DataBufferFloat) data; float[] in = (float[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_DOUBLE: { DataBufferDouble out = (DataBufferDouble) data; double[] in = (double[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } default: throw new UnsupportedOperationException("transfer type not " + "implemented"); } }
| 10,931
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public void setDataElements(int x, int y, Object obj, DataBuffer data) { int offset = pixelStride*x + scanlineStride*y; int[] totalBandDataOffsets = new int[numBands]; int[] bankOffsets = data.getOffsets(); for (int b=0; b<numBands; b++) totalBandDataOffsets[b] = bandOffsets[b]+bankOffsets[bankIndices[b]] + offset; switch (getTransferType()) { case DataBuffer.TYPE_BYTE: { DataBufferByte out = (DataBufferByte) data; byte[] in = (byte[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_USHORT: { DataBufferUShort out = (DataBufferUShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_SHORT: { DataBufferShort out = (DataBufferShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_INT: { DataBufferInt out = (DataBufferInt) data; int[] in = (int[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_FLOAT: { DataBufferFloat out = (DataBufferFloat) data; float[] in = (float[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_DOUBLE: { DataBufferDouble out = (DataBufferDouble) data; double[] in = (double[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } default: throw new UnsupportedOperationException("transfer type not " + "implemented"); } }
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public void setDataElements(int x, int y, Object obj, DataBuffer data) { int offset = pixelStride*x + scanlineStride*y; int[] totalBandDataOffsets = new int[numBands]; int[] bankOffsets = data.getOffsets(); for (int b=0; b<numBands; b++) totalBandDataOffsets[b] = bandOffsets[b]+bankOffsets[bankIndices[b]] + offset; switch (getTransferType()) { case DataBuffer.TYPE_BYTE: { DataBufferByte out = (DataBufferByte) data; byte[] in = (byte[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_USHORT: { DataBufferUShort out = (DataBufferUShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_SHORT: { DataBufferShort out = (DataBufferShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_INT: { DataBufferInt out = (DataBufferInt) data; int[] in = (int[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_FLOAT: { DataBufferFloat out = (DataBufferFloat) data; float[] in = (float[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_DOUBLE: { DataBufferDouble out = (DataBufferDouble) data; double[] in = (double[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } default: throw new UnsupportedOperationException("transfer type not " + "implemented"); } }
| 10,932
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public void setDataElements(int x, int y, Object obj, DataBuffer data) { int offset = pixelStride*x + scanlineStride*y; int[] totalBandDataOffsets = new int[numBands]; int[] bankOffsets = data.getOffsets(); for (int b=0; b<numBands; b++) totalBandDataOffsets[b] = bandOffsets[b]+bankOffsets[bankIndices[b]] + offset; switch (getTransferType()) { case DataBuffer.TYPE_BYTE: { DataBufferByte out = (DataBufferByte) data; byte[] in = (byte[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_USHORT: { DataBufferUShort out = (DataBufferUShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_SHORT: { DataBufferShort out = (DataBufferShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_INT: { DataBufferInt out = (DataBufferInt) data; int[] in = (int[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_FLOAT: { DataBufferFloat out = (DataBufferFloat) data; float[] in = (float[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_DOUBLE: { DataBufferDouble out = (DataBufferDouble) data; double[] in = (double[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } default: throw new UnsupportedOperationException("transfer type not " + "implemented"); } }
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public void setDataElements(int x, int y, Object obj, DataBuffer data) { int offset = pixelStride*x + scanlineStride*y; int[] totalBandDataOffsets = new int[numBands]; int[] bankOffsets = data.getOffsets(); for (int b=0; b<numBands; b++) totalBandDataOffsets[b] = bandOffsets[b]+bankOffsets[bankIndices[b]] + offset; switch (getTransferType()) { case DataBuffer.TYPE_BYTE: { DataBufferByte out = (DataBufferByte) data; byte[] in = (byte[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_USHORT: { DataBufferUShort out = (DataBufferUShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_SHORT: { DataBufferShort out = (DataBufferShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_INT: { DataBufferInt out = (DataBufferInt) data; int[] in = (int[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_FLOAT: { DataBufferFloat out = (DataBufferFloat) data; float[] in = (float[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_DOUBLE: { DataBufferDouble out = (DataBufferDouble) data; double[] in = (double[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } default: throw new UnsupportedOperationException("transfer type not " + "implemented"); } }
| 10,933
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public void setDataElements(int x, int y, Object obj, DataBuffer data) { int offset = pixelStride*x + scanlineStride*y; int[] totalBandDataOffsets = new int[numBands]; int[] bankOffsets = data.getOffsets(); for (int b=0; b<numBands; b++) totalBandDataOffsets[b] = bandOffsets[b]+bankOffsets[bankIndices[b]] + offset; switch (getTransferType()) { case DataBuffer.TYPE_BYTE: { DataBufferByte out = (DataBufferByte) data; byte[] in = (byte[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_USHORT: { DataBufferUShort out = (DataBufferUShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_SHORT: { DataBufferShort out = (DataBufferShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_INT: { DataBufferInt out = (DataBufferInt) data; int[] in = (int[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_FLOAT: { DataBufferFloat out = (DataBufferFloat) data; float[] in = (float[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_DOUBLE: { DataBufferDouble out = (DataBufferDouble) data; double[] in = (double[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } default: throw new UnsupportedOperationException("transfer type not " + "implemented"); } }
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public void setDataElements(int x, int y, Object obj, DataBuffer data) { int offset = pixelStride*x + scanlineStride*y; int[] totalBandDataOffsets = new int[numBands]; int[] bankOffsets = data.getOffsets(); for (int b=0; b<numBands; b++) totalBandDataOffsets[b] = bandOffsets[b]+bankOffsets[bankIndices[b]] + offset; int outOffset = pixelStride*x + scanlineStride*y + bankOffsets[0]; if (scanlineStride == rowSize) { case DataBuffer.TYPE_BYTE: { DataBufferByte out = (DataBufferByte) data; byte[] in = (byte[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_USHORT: { DataBufferUShort out = (DataBufferUShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_SHORT: { DataBufferShort out = (DataBufferShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_INT: { DataBufferInt out = (DataBufferInt) data; int[] in = (int[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_FLOAT: { DataBufferFloat out = (DataBufferFloat) data; float[] in = (float[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_DOUBLE: { DataBufferDouble out = (DataBufferDouble) data; double[] in = (double[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } default: throw new UnsupportedOperationException("transfer type not " + "implemented"); } }
| 10,934
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public void setDataElements(int x, int y, Object obj, DataBuffer data) { int offset = pixelStride*x + scanlineStride*y; int[] totalBandDataOffsets = new int[numBands]; int[] bankOffsets = data.getOffsets(); for (int b=0; b<numBands; b++) totalBandDataOffsets[b] = bandOffsets[b]+bankOffsets[bankIndices[b]] + offset; switch (getTransferType()) { case DataBuffer.TYPE_BYTE: { DataBufferByte out = (DataBufferByte) data; byte[] in = (byte[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_USHORT: { DataBufferUShort out = (DataBufferUShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_SHORT: { DataBufferShort out = (DataBufferShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_INT: { DataBufferInt out = (DataBufferInt) data; int[] in = (int[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_FLOAT: { DataBufferFloat out = (DataBufferFloat) data; float[] in = (float[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_DOUBLE: { DataBufferDouble out = (DataBufferDouble) data; double[] in = (double[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } default: throw new UnsupportedOperationException("transfer type not " + "implemented"); } }
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public void setDataElements(int x, int y, Object obj, DataBuffer data) { int offset = pixelStride*x + scanlineStride*y; int[] totalBandDataOffsets = new int[numBands]; int[] bankOffsets = data.getOffsets(); for (int b=0; b<numBands; b++) totalBandDataOffsets[b] = bandOffsets[b]+bankOffsets[bankIndices[b]] + offset; switch (getTransferType()) { case DataBuffer.TYPE_BYTE: { DataBufferByte out = (DataBufferByte) data; byte[] in = (byte[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_USHORT: { DataBufferUShort out = (DataBufferUShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_SHORT: { DataBufferShort out = (DataBufferShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_INT: { DataBufferInt out = (DataBufferInt) data; int[] in = (int[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_FLOAT: { DataBufferFloat out = (DataBufferFloat) data; float[] in = (float[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_DOUBLE: { DataBufferDouble out = (DataBufferDouble) data; double[] in = (double[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } default: throw new UnsupportedOperationException("transfer type not " + "implemented"); } }
| 10,935
|
public void setDataElements(int x, int y, Object obj, DataBuffer data) { int offset = pixelStride*x + scanlineStride*y; int[] totalBandDataOffsets = new int[numBands]; int[] bankOffsets = data.getOffsets(); for (int b=0; b<numBands; b++) totalBandDataOffsets[b] = bandOffsets[b]+bankOffsets[bankIndices[b]] + offset; switch (getTransferType()) { case DataBuffer.TYPE_BYTE: { DataBufferByte out = (DataBufferByte) data; byte[] in = (byte[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_USHORT: { DataBufferUShort out = (DataBufferUShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_SHORT: { DataBufferShort out = (DataBufferShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_INT: { DataBufferInt out = (DataBufferInt) data; int[] in = (int[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_FLOAT: { DataBufferFloat out = (DataBufferFloat) data; float[] in = (float[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_DOUBLE: { DataBufferDouble out = (DataBufferDouble) data; double[] in = (double[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } default: throw new UnsupportedOperationException("transfer type not " + "implemented"); } }
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public void setDataElements(int x, int y, Object obj, DataBuffer data) { int offset = pixelStride*x + scanlineStride*y; int[] totalBandDataOffsets = new int[numBands]; int[] bankOffsets = data.getOffsets(); for (int b=0; b<numBands; b++) totalBandDataOffsets[b] = bandOffsets[b]+bankOffsets[bankIndices[b]] + offset; switch (getTransferType()) { case DataBuffer.TYPE_BYTE: { DataBufferByte out = (DataBufferByte) data; byte[] in = (byte[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_USHORT: { DataBufferUShort out = (DataBufferUShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_SHORT: { DataBufferShort out = (DataBufferShort) data; short[] in = (short[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_INT: { DataBufferInt out = (DataBufferInt) data; int[] in = (int[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_FLOAT: { DataBufferFloat out = (DataBufferFloat) data; float[] in = (float[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } case DataBuffer.TYPE_DOUBLE: { DataBufferDouble out = (DataBufferDouble) data; double[] in = (double[]) obj; for (int b=0; b<numBands; b++) out.getData(bankIndices[b])[totalBandDataOffsets[b]] = in[b]; return; } default: throw new UnsupportedOperationException("transfer type not " + "implemented"); } }
| 10,936
|
public float[] getData(int bank) { return bankData[bank]; }
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public float[] getData() { return bankData[bank]; }
| 10,937
|
public float[] getData(int bank) { return bankData[bank]; }
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public float[] getData(int bank) { return data; }
| 10,938
|
public double[] getData(int bank) { return bankData[bank]; }
|
public double[] getData() { return bankData[bank]; }
| 10,939
|
public double[] getData(int bank) { return bankData[bank]; }
|
public double[] getData(int bank) { return data; }
| 10,940
|
public void setElemFloat(int bank, int i, float val) { setElem(bank, i, (int) val); }
|
public void setElemFloat(int i, float val) { setElem(bank, i, (int) val); }
| 10,941
|
public void setElemFloat(int bank, int i, float val) { setElem(bank, i, (int) val); }
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public void setElemFloat(int bank, int i, float val) { setElem(i, (int) val); }
| 10,942
|
public void setElemDouble(int bank, int i, double val) { setElem(bank, i, (int) val); }
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public void setElemDouble(int i, double val) { setElem(bank, i, (int) val); }
| 10,943
|
public void setElemDouble(int bank, int i, double val) { setElem(bank, i, (int) val); }
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public void setElemDouble(int bank, int i, double val) { setElem(i, (int) val); }
| 10,944
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public void changedUpdate(DocumentEvent ev) { Dimension size = textComponent.getSize(); rootView.changedUpdate(ev, new Rectangle(0, 0, size.width, size.height), rootView.getViewFactory()); }
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public void changedUpdate(DocumentEvent ev) { Dimension size = textComponent.getSize(); rootView.changedUpdate(ev, new Rectangle(0, 0, size.width, size.height), rootView.getViewFactory()); }
| 10,945
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public void insertUpdate(DocumentEvent ev) { Dimension size = textComponent.getSize(); rootView.insertUpdate(ev, new Rectangle(0, 0, size.width, size.height), rootView.getViewFactory()); }
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public void insertUpdate(DocumentEvent ev) { Dimension size = textComponent.getSize(); rootView.insertUpdate(ev, new Rectangle(0, 0, size.width, size.height), rootView.getViewFactory()); }
| 10,946
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public void removeUpdate(DocumentEvent ev) { Dimension size = textComponent.getSize(); rootView.removeUpdate(ev, new Rectangle(0, 0, size.width, size.height), rootView.getViewFactory()); }
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public void removeUpdate(DocumentEvent ev) { Dimension size = textComponent.getSize(); rootView.removeUpdate(ev, new Rectangle(0, 0, size.width, size.height), rootView.getViewFactory()); }
| 10,947
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protected Rectangle getVisibleEditorRect() { int width = textComponent.getWidth(); int height = textComponent.getHeight(); if (width <= 0 || height <= 0) return null; Insets insets = textComponent.getInsets(); return new Rectangle(insets.left, insets.top, width - insets.left + insets.right, height - insets.top + insets.bottom); }
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protected Rectangle getVisibleEditorRect() { int width = textComponent.getWidth(); int height = textComponent.getHeight(); if (width <= 0 || height <= 0) return new Rectangle(0, 0, 0, 0); Insets insets = textComponent.getInsets(); return new Rectangle(insets.left, insets.top, width - insets.left + insets.right, height - insets.top + insets.bottom); }
| 10,948
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protected void installDefaults() { Caret caret = textComponent.getCaret(); if (caret == null) { caret = createCaret(); textComponent.setCaret(caret); } Highlighter highlighter = textComponent.getHighlighter(); if (highlighter == null) textComponent.setHighlighter(createHighlighter()); String prefix = getPropertyPrefix(); UIDefaults defaults = UIManager.getLookAndFeelDefaults(); textComponent.setMargin(defaults.getInsets(prefix + ".margin")); textComponent.setBorder(defaults.getBorder(prefix + ".border")); textComponent.setFont(defaults.getFont(prefix + ".font")); caret.setBlinkRate(defaults.getInt(prefix + ".caretBlinkRate")); // Fetch the colors for enabled/disabled text components. background = defaults.getColor(prefix + ".background"); textComponent.setBackground(background); inactiveBackground = defaults.getColor(prefix + ".inactiveBackground"); textComponent.setForeground(defaults.getColor(prefix + ".foreground")); textComponent.setDisabledTextColor (defaults.getColor(prefix + ".inactiveForeground")); }
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protected void installDefaults() { Caret caret = textComponent.getCaret(); if (caret == null) { caret = createCaret(); textComponent.setCaret(caret); } Highlighter highlighter = textComponent.getHighlighter(); if (highlighter == null) textComponent.setHighlighter(createHighlighter()); String prefix = getPropertyPrefix(); UIDefaults defaults = UIManager.getLookAndFeelDefaults(); textComponent.setMargin(defaults.getInsets(prefix + ".margin")); textComponent.setBorder(defaults.getBorder(prefix + ".border")); textComponent.setFont(defaults.getFont(prefix + ".font")); caret.setBlinkRate(defaults.getInt(prefix + ".caretBlinkRate")); // Fetch the colors for enabled/disabled text components. background = defaults.getColor(prefix + ".background"); textComponent.setBackground(background); inactiveBackground = defaults.getColor(prefix + ".inactiveBackground"); textComponent.setForeground(defaults.getColor(prefix + ".foreground")); textComponent.setDisabledTextColor (defaults.getColor(prefix + ".inactiveForeground")); }
| 10,949
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protected void installDefaults() { Caret caret = textComponent.getCaret(); if (caret == null) { caret = createCaret(); textComponent.setCaret(caret); } Highlighter highlighter = textComponent.getHighlighter(); if (highlighter == null) textComponent.setHighlighter(createHighlighter()); String prefix = getPropertyPrefix(); UIDefaults defaults = UIManager.getLookAndFeelDefaults(); textComponent.setMargin(defaults.getInsets(prefix + ".margin")); textComponent.setBorder(defaults.getBorder(prefix + ".border")); textComponent.setFont(defaults.getFont(prefix + ".font")); caret.setBlinkRate(defaults.getInt(prefix + ".caretBlinkRate")); // Fetch the colors for enabled/disabled text components. background = defaults.getColor(prefix + ".background"); textComponent.setBackground(background); inactiveBackground = defaults.getColor(prefix + ".inactiveBackground"); textComponent.setForeground(defaults.getColor(prefix + ".foreground")); textComponent.setDisabledTextColor (defaults.getColor(prefix + ".inactiveForeground")); }
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protected void installDefaults() { Caret caret = textComponent.getCaret(); if (caret == null) { caret = createCaret(); textComponent.setCaret(caret); } Highlighter highlighter = textComponent.getHighlighter(); if (highlighter == null) textComponent.setHighlighter(createHighlighter()); String prefix = getPropertyPrefix(); UIDefaults defaults = UIManager.getLookAndFeelDefaults(); textComponent.setMargin(defaults.getInsets(prefix + ".margin")); textComponent.setBorder(defaults.getBorder(prefix + ".border")); textComponent.setFont(defaults.getFont(prefix + ".font")); caret.setBlinkRate(UIManager.getInt(prefix + ".caretBlinkRate")); // Fetch the colors for enabled/disabled text components. background = defaults.getColor(prefix + ".background"); textComponent.setBackground(background); inactiveBackground = defaults.getColor(prefix + ".inactiveBackground"); textComponent.setForeground(defaults.getColor(prefix + ".foreground")); textComponent.setDisabledTextColor (defaults.getColor(prefix + ".inactiveForeground")); }
| 10,950
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protected void installDefaults() { Caret caret = textComponent.getCaret(); if (caret == null) { caret = createCaret(); textComponent.setCaret(caret); } Highlighter highlighter = textComponent.getHighlighter(); if (highlighter == null) textComponent.setHighlighter(createHighlighter()); String prefix = getPropertyPrefix(); UIDefaults defaults = UIManager.getLookAndFeelDefaults(); textComponent.setMargin(defaults.getInsets(prefix + ".margin")); textComponent.setBorder(defaults.getBorder(prefix + ".border")); textComponent.setFont(defaults.getFont(prefix + ".font")); caret.setBlinkRate(defaults.getInt(prefix + ".caretBlinkRate")); // Fetch the colors for enabled/disabled text components. background = defaults.getColor(prefix + ".background"); textComponent.setBackground(background); inactiveBackground = defaults.getColor(prefix + ".inactiveBackground"); textComponent.setForeground(defaults.getColor(prefix + ".foreground")); textComponent.setDisabledTextColor (defaults.getColor(prefix + ".inactiveForeground")); }
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protected void installDefaults() { Caret caret = textComponent.getCaret(); if (caret == null) { caret = createCaret(); textComponent.setCaret(caret); } Highlighter highlighter = textComponent.getHighlighter(); if (highlighter == null) textComponent.setHighlighter(createHighlighter()); String prefix = getPropertyPrefix(); UIDefaults defaults = UIManager.getLookAndFeelDefaults(); textComponent.setMargin(defaults.getInsets(prefix + ".margin")); textComponent.setBorder(defaults.getBorder(prefix + ".border")); textComponent.setFont(defaults.getFont(prefix + ".font")); caret.setBlinkRate(defaults.getInt(prefix + ".caretBlinkRate")); // Fetch the colors for enabled/disabled text components. background = defaults.getColor(prefix + ".background"); textComponent.setBackground(background); inactiveBackground = defaults.getColor(prefix + ".inactiveBackground"); textComponent.setForeground(defaults.getColor(prefix + ".foreground")); textComponent.setDisabledTextColor (defaults.getColor(prefix + ".inactiveForeground")); }
| 10,951
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protected void installDefaults() { Caret caret = textComponent.getCaret(); if (caret == null) { caret = createCaret(); textComponent.setCaret(caret); } Highlighter highlighter = textComponent.getHighlighter(); if (highlighter == null) textComponent.setHighlighter(createHighlighter()); String prefix = getPropertyPrefix(); UIDefaults defaults = UIManager.getLookAndFeelDefaults(); textComponent.setMargin(defaults.getInsets(prefix + ".margin")); textComponent.setBorder(defaults.getBorder(prefix + ".border")); textComponent.setFont(defaults.getFont(prefix + ".font")); caret.setBlinkRate(defaults.getInt(prefix + ".caretBlinkRate")); // Fetch the colors for enabled/disabled text components. background = defaults.getColor(prefix + ".background"); textComponent.setBackground(background); inactiveBackground = defaults.getColor(prefix + ".inactiveBackground"); textComponent.setForeground(defaults.getColor(prefix + ".foreground")); textComponent.setDisabledTextColor (defaults.getColor(prefix + ".inactiveForeground")); }
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protected void installDefaults() { Caret caret = textComponent.getCaret(); if (caret == null) { caret = createCaret(); textComponent.setCaret(caret); } Highlighter highlighter = textComponent.getHighlighter(); if (highlighter == null) textComponent.setHighlighter(createHighlighter()); String prefix = getPropertyPrefix(); UIDefaults defaults = UIManager.getLookAndFeelDefaults(); textComponent.setMargin(defaults.getInsets(prefix + ".margin")); textComponent.setBorder(defaults.getBorder(prefix + ".border")); textComponent.setFont(defaults.getFont(prefix + ".font")); caret.setBlinkRate(defaults.getInt(prefix + ".caretBlinkRate")); // Fetch the colors for enabled/disabled text components. background = defaults.getColor(prefix + ".background"); textComponent.setBackground(background); inactiveBackground = defaults.getColor(prefix + ".inactiveBackground"); textComponent.setForeground(defaults.getColor(prefix + ".foreground")); textComponent.setDisabledTextColor (UIManager.getColor(prefix + ".inactiveForeground")); }
| 10,952
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public static void putDouble (ByteBuffer buffer, double value, ByteOrder order) { putLong (buffer, Double.doubleToLongBits (value), order); }
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public static void putDouble (ByteBuffer buffer, double value, ByteOrder order) { putLong (buffer, Double.doubleToRawLongBits (value), order); }
| 10,953
|
public abstract ByteBuffer put (byte b);
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public ByteBuffer put (ByteBuffer src) { if (src == this) throw new IllegalArgumentException (); checkForOverflow(src.remaining()); if (src.remaining () > 0) { byte[] toPut = new byte [src.remaining ()]; src.get (toPut); put (toPut); } return this; }
| 10,954
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public AccessibleJCheckBox() { // Nothing to do here. }
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protected AccessibleJCheckBox() { // Nothing to do here. }
| 10,955
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protected int getTrackLength() { return (slider.getOrientation() == JSlider.HORIZONTAL ? tickRect.width : tickRect.height); }
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protected int getTrackLength() { return (slider.getOrientation() == JSlider.HORIZONTAL ? tickRect.width : tickRect.height); }
| 10,956
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public void paintTrack(Graphics g) { Color shadowColor = MetalLookAndFeel.getControlShadow(); if (slider.getOrientation() == JSlider.HORIZONTAL) { int trackX = trackRect.x; int trackY = trackRect.y + (trackRect.height - getTrackWidth()) / 2; int trackW = trackRect.width; int trackH = getTrackWidth(); // draw border if (slider.isEnabled()) BasicGraphicsUtils.drawEtchedRect(g, trackX, trackY, trackW, trackH, darkShadowColor, shadowColor, darkShadowColor, highlightColor); else { g.setColor(MetalLookAndFeel.getControlShadow()); g.drawRect(trackX, trackY, trackW - 2, trackH - 2); } // fill track (if required) if (MetalLookAndFeel.getCurrentTheme() instanceof OceanTheme) { if (slider.isEnabled()) { int xPos = xPositionForValue(slider.getValue()); int x = (slider.getInverted() ? xPos : trackRect.x); int w = (slider.getInverted() ? trackX + trackW - xPos : xPos - trackRect.x); g.setColor(MetalLookAndFeel.getWhite()); g.drawLine(x + 1, trackY + 1, x + w - 3, trackY + 1); g.setColor(UIManager.getColor("Slider.altTrackColor")); g.drawLine(x + 1, trackY + 2, x + w - 3, trackY + 2); g.setColor(MetalLookAndFeel.getControlShadow()); g.drawLine(x + 1, trackY + 3, x + w - 3, trackY + 3); g.setColor(MetalLookAndFeel.getPrimaryControlShadow()); g.drawLine(x + 1, trackY + 4, x + w - 3, trackY + 4); } } else if (filledSlider) { int xPos = xPositionForValue(slider.getValue()); int x = (slider.getInverted() ? xPos : trackRect.x); int w = (slider.getInverted() ? trackX + trackW - xPos : xPos - trackRect.x); g.setColor(MetalLookAndFeel.getControlShadow()); g.fillRect(x + 1, trackY + 1, w - 3, getTrackWidth() - 3); if (slider.isEnabled()) { g.setColor(MetalLookAndFeel.getControl()); g.drawLine(x + 1, trackY + 1, x + w - 3, trackY + 1); g.drawLine(x + 1, trackY + 1, x + 1, trackY + getTrackWidth() - 3); } } } else { int trackX = trackRect.x + (trackRect.width - getTrackWidth()) / 2; int trackY = trackRect.y; int trackW = getTrackWidth(); int trackH = trackRect.height; if (slider.isEnabled()) BasicGraphicsUtils.drawEtchedRect(g, trackX, trackY, trackW, trackH, darkShadowColor, shadowColor, darkShadowColor, highlightColor); else { g.setColor(MetalLookAndFeel.getControlShadow()); g.drawRect(trackX, trackY, trackW - 2, trackH - 2); } // Fill track if necessary. if (MetalLookAndFeel.getCurrentTheme() instanceof OceanTheme) { if (slider.isEnabled()) { int yPos = yPositionForValue(slider.getValue()); int y = (slider.getInverted() ? trackY : yPos); int h = (slider.getInverted() ? yPos - trackY : trackY + trackH - yPos); g.setColor(MetalLookAndFeel.getWhite()); g.drawLine(trackX + 1, y + 1, trackX + 1, y + h - 3); g.setColor(UIManager.getColor("Slider.altTrackColor")); g.drawLine(trackX + 2, y + 1, trackX + 2, y + h - 3); g.setColor(MetalLookAndFeel.getControlShadow()); g.drawLine(trackX + 3, y + 1, trackX + 3, y + h - 3); g.setColor(MetalLookAndFeel.getPrimaryControlShadow()); g.drawLine(trackX + 4, y + 1, trackX + 4, y + h - 3); } } else if (filledSlider) { int yPos = yPositionForValue(slider.getValue()); int y = (slider.getInverted() ? trackY : yPos); int h = (slider.getInverted() ? yPos - trackY : trackY + trackH - yPos); g.setColor(MetalLookAndFeel.getControlShadow()); g.fillRect(trackX + 1, y + 1, getTrackWidth() - 3, h - 3); if (slider.isEnabled()) { g.setColor(MetalLookAndFeel.getControl()); g.drawLine(trackX + 1, y + 1, trackX + trackW - 3, y + 1); g.drawLine(trackX + 1, y + 1, trackX + 1, y + h - 3); } } } }
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public void paintTrack(Graphics g) { Color shadowColor = MetalLookAndFeel.getControlShadow(); if (slider.getOrientation() == JSlider.HORIZONTAL) { int trackX = trackRect.x; int trackY = trackRect.y + (trackRect.height - getTrackWidth()) / 2; int trackW = trackRect.width; int trackH = getTrackWidth(); // draw border if (slider.isEnabled()) BasicGraphicsUtils.drawEtchedRect(g, trackX, trackY, trackW, trackH, darkShadowColor, shadowColor, darkShadowColor, highlightColor); else { g.setColor(MetalLookAndFeel.getControlShadow()); g.drawRect(trackX, trackY, trackW - 2, trackH - 2); } // fill track (if required) if (MetalLookAndFeel.getCurrentTheme() instanceof OceanTheme) { if (slider.isEnabled()) { int xPos = xPositionForValue(slider.getValue()); int x = (slider.getInverted() ? xPos : trackRect.x); int w = (slider.getInverted() ? trackX + trackW - xPos : xPos - trackRect.x); g.setColor(MetalLookAndFeel.getWhite()); g.drawLine(x + 1, trackY + 1, x + w - 3, trackY + 1); g.setColor(UIManager.getColor("Slider.altTrackColor")); g.drawLine(x + 1, trackY + 2, x + w - 3, trackY + 2); g.setColor(MetalLookAndFeel.getControlShadow()); g.drawLine(x + 1, trackY + 3, x + w - 3, trackY + 3); g.setColor(MetalLookAndFeel.getPrimaryControlShadow()); g.drawLine(x + 1, trackY + 4, x + w - 3, trackY + 4); } } else if (filledSlider) { int xPos = xPositionForValue(slider.getValue()); int x = (slider.getInverted() ? xPos : trackRect.x); int w = (slider.getInverted() ? trackX + trackW - xPos : xPos - trackRect.x); g.setColor(MetalLookAndFeel.getControlShadow()); g.fillRect(x + 1, trackY + 1, w - 3, getTrackWidth() - 3); if (slider.isEnabled()) { g.setColor(MetalLookAndFeel.getControl()); g.drawLine(x + 1, trackY + 1, x + w - 3, trackY + 1); g.drawLine(x + 1, trackY + 1, x + 1, trackY + getTrackWidth() - 3); } } } else { int trackX = trackRect.x + (trackRect.width - getTrackWidth()) / 2; int trackY = trackRect.y; int trackW = getTrackWidth(); int trackH = trackRect.height; if (slider.isEnabled()) BasicGraphicsUtils.drawEtchedRect(g, trackX, trackY, trackW, trackH, darkShadowColor, shadowColor, darkShadowColor, highlightColor); else { g.setColor(MetalLookAndFeel.getControlShadow()); g.drawRect(trackX, trackY, trackW - 2, trackH - 2); } // Fill track if necessary. if (MetalLookAndFeel.getCurrentTheme() instanceof OceanTheme) { if (slider.isEnabled()) { int yPos = yPositionForValue(slider.getValue()); int y = (slider.getInverted() ? trackY : yPos); int h = (slider.getInverted() ? yPos - trackY : trackY + trackH - yPos); g.setColor(MetalLookAndFeel.getWhite()); g.drawLine(trackX + 1, y + 1, trackX + 1, y + h - 3); g.setColor(UIManager.getColor("Slider.altTrackColor")); g.drawLine(trackX + 2, y + 1, trackX + 2, y + h - 3); g.setColor(MetalLookAndFeel.getControlShadow()); g.drawLine(trackX + 3, y + 1, trackX + 3, y + h - 3); g.setColor(MetalLookAndFeel.getPrimaryControlShadow()); g.drawLine(trackX + 4, y + 1, trackX + 4, y + h - 3); } } else if (filledSlider) { int yPos = yPositionForValue(slider.getValue()); int y = (slider.getInverted() ? trackY : yPos); int h = (slider.getInverted() ? yPos - trackY : trackY + trackH - yPos); g.setColor(MetalLookAndFeel.getControlShadow()); g.fillRect(trackX + 1, y + 1, getTrackWidth() - 3, h - 3); if (slider.isEnabled()) { g.setColor(MetalLookAndFeel.getControl()); g.drawLine(trackX + 1, y + 1, trackX + trackW - 3, y + 1); g.drawLine(trackX + 1, y + 1, trackX + 1, y + h - 3); } } } }
| 10,959
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public void paintTrack(Graphics g) { Color shadowColor = MetalLookAndFeel.getControlShadow(); if (slider.getOrientation() == JSlider.HORIZONTAL) { int trackX = trackRect.x; int trackY = trackRect.y + (trackRect.height - getTrackWidth()) / 2; int trackW = trackRect.width; int trackH = getTrackWidth(); // draw border if (slider.isEnabled()) BasicGraphicsUtils.drawEtchedRect(g, trackX, trackY, trackW, trackH, darkShadowColor, shadowColor, darkShadowColor, highlightColor); else { g.setColor(MetalLookAndFeel.getControlShadow()); g.drawRect(trackX, trackY, trackW - 2, trackH - 2); } // fill track (if required) if (MetalLookAndFeel.getCurrentTheme() instanceof OceanTheme) { if (slider.isEnabled()) { int xPos = xPositionForValue(slider.getValue()); int x = (slider.getInverted() ? xPos : trackRect.x); int w = (slider.getInverted() ? trackX + trackW - xPos : xPos - trackRect.x); g.setColor(MetalLookAndFeel.getWhite()); g.drawLine(x + 1, trackY + 1, x + w - 3, trackY + 1); g.setColor(UIManager.getColor("Slider.altTrackColor")); g.drawLine(x + 1, trackY + 2, x + w - 3, trackY + 2); g.setColor(MetalLookAndFeel.getControlShadow()); g.drawLine(x + 1, trackY + 3, x + w - 3, trackY + 3); g.setColor(MetalLookAndFeel.getPrimaryControlShadow()); g.drawLine(x + 1, trackY + 4, x + w - 3, trackY + 4); } } else if (filledSlider) { int xPos = xPositionForValue(slider.getValue()); int x = (slider.getInverted() ? xPos : trackRect.x); int w = (slider.getInverted() ? trackX + trackW - xPos : xPos - trackRect.x); g.setColor(MetalLookAndFeel.getControlShadow()); g.fillRect(x + 1, trackY + 1, w - 3, getTrackWidth() - 3); if (slider.isEnabled()) { g.setColor(MetalLookAndFeel.getControl()); g.drawLine(x + 1, trackY + 1, x + w - 3, trackY + 1); g.drawLine(x + 1, trackY + 1, x + 1, trackY + getTrackWidth() - 3); } } } else { int trackX = trackRect.x + (trackRect.width - getTrackWidth()) / 2; int trackY = trackRect.y; int trackW = getTrackWidth(); int trackH = trackRect.height; if (slider.isEnabled()) BasicGraphicsUtils.drawEtchedRect(g, trackX, trackY, trackW, trackH, darkShadowColor, shadowColor, darkShadowColor, highlightColor); else { g.setColor(MetalLookAndFeel.getControlShadow()); g.drawRect(trackX, trackY, trackW - 2, trackH - 2); } // Fill track if necessary. if (MetalLookAndFeel.getCurrentTheme() instanceof OceanTheme) { if (slider.isEnabled()) { int yPos = yPositionForValue(slider.getValue()); int y = (slider.getInverted() ? trackY : yPos); int h = (slider.getInverted() ? yPos - trackY : trackY + trackH - yPos); g.setColor(MetalLookAndFeel.getWhite()); g.drawLine(trackX + 1, y + 1, trackX + 1, y + h - 3); g.setColor(UIManager.getColor("Slider.altTrackColor")); g.drawLine(trackX + 2, y + 1, trackX + 2, y + h - 3); g.setColor(MetalLookAndFeel.getControlShadow()); g.drawLine(trackX + 3, y + 1, trackX + 3, y + h - 3); g.setColor(MetalLookAndFeel.getPrimaryControlShadow()); g.drawLine(trackX + 4, y + 1, trackX + 4, y + h - 3); } } else if (filledSlider) { int yPos = yPositionForValue(slider.getValue()); int y = (slider.getInverted() ? trackY : yPos); int h = (slider.getInverted() ? yPos - trackY : trackY + trackH - yPos); g.setColor(MetalLookAndFeel.getControlShadow()); g.fillRect(trackX + 1, y + 1, getTrackWidth() - 3, h - 3); if (slider.isEnabled()) { g.setColor(MetalLookAndFeel.getControl()); g.drawLine(trackX + 1, y + 1, trackX + trackW - 3, y + 1); g.drawLine(trackX + 1, y + 1, trackX + 1, y + h - 3); } } } }
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public void paintTrack(Graphics g) { Color shadowColor = MetalLookAndFeel.getControlShadow(); if (slider.getOrientation() == JSlider.HORIZONTAL) { int trackX = trackRect.x; int trackY = trackRect.y + (trackRect.height - getTrackWidth()) / 2; int trackW = trackRect.width; int trackH = getTrackWidth(); // draw border if (slider.isEnabled()) BasicGraphicsUtils.drawEtchedRect(g, trackX, trackY, trackW, trackH, darkShadowColor, shadowColor, darkShadowColor, highlightColor); else { g.setColor(MetalLookAndFeel.getControlShadow()); g.drawRect(trackX, trackY, trackW - 2, trackH - 2); } // fill track (if required) if (MetalLookAndFeel.getCurrentTheme() instanceof OceanTheme) { if (slider.isEnabled()) { int xPos = xPositionForValue(slider.getValue()); int x = (slider.getInverted() ? xPos : trackRect.x); int w = (slider.getInverted() ? trackX + trackW - xPos : xPos - trackRect.x); g.setColor(MetalLookAndFeel.getWhite()); g.drawLine(x + 1, trackY + 1, x + w - 3, trackY + 1); g.setColor(UIManager.getColor("Slider.altTrackColor")); g.drawLine(x + 1, trackY + 2, x + w - 3, trackY + 2); g.setColor(MetalLookAndFeel.getControlShadow()); g.drawLine(x + 1, trackY + 3, x + w - 3, trackY + 3); g.setColor(MetalLookAndFeel.getPrimaryControlShadow()); g.drawLine(x + 1, trackY + 4, x + w - 3, trackY + 4); } } else if (filledSlider) { int xPos = xPositionForValue(slider.getValue()); int x = (slider.getInverted() ? xPos : trackRect.x); int w = (slider.getInverted() ? trackX + trackW - xPos : xPos - trackRect.x); g.setColor(MetalLookAndFeel.getControlShadow()); g.fillRect(x + 1, trackY + 1, w - 3, getTrackWidth() - 3); if (slider.isEnabled()) { g.setColor(MetalLookAndFeel.getControl()); g.drawLine(x + 1, trackY + 1, x + w - 3, trackY + 1); g.drawLine(x + 1, trackY + 1, x + 1, trackY + getTrackWidth() - 3); } } } else { int trackX = trackRect.x + (trackRect.width - getTrackWidth()) / 2; int trackY = trackRect.y; int trackW = getTrackWidth(); int trackH = trackRect.height; if (slider.isEnabled()) BasicGraphicsUtils.drawEtchedRect(g, trackX, trackY, trackW, trackH, darkShadowColor, shadowColor, darkShadowColor, highlightColor); else { g.setColor(MetalLookAndFeel.getControlShadow()); g.drawRect(trackX, trackY, trackW - 2, trackH - 2); } // Fill track if necessary. if (MetalLookAndFeel.getCurrentTheme() instanceof OceanTheme) { if (slider.isEnabled()) { int yPos = yPositionForValue(slider.getValue()); int y = (slider.getInverted() ? trackY : yPos); int h = (slider.getInverted() ? yPos - trackY : trackY + trackH - yPos); g.setColor(MetalLookAndFeel.getWhite()); g.drawLine(trackX + 1, y + 1, trackX + 1, y + h - 3); g.setColor(UIManager.getColor("Slider.altTrackColor")); g.drawLine(trackX + 2, y + 1, trackX + 2, y + h - 3); g.setColor(MetalLookAndFeel.getControlShadow()); g.drawLine(trackX + 3, y + 1, trackX + 3, y + h - 3); g.setColor(MetalLookAndFeel.getPrimaryControlShadow()); g.drawLine(trackX + 4, y + 1, trackX + 4, y + h - 3); } } else if (filledSlider) { int yPos = yPositionForValue(slider.getValue()); int y = (slider.getInverted() ? trackY : yPos); int h = (slider.getInverted() ? yPos - trackY : trackY + trackH - yPos); g.setColor(MetalLookAndFeel.getControlShadow()); g.fillRect(trackX + 1, y + 1, getTrackWidth() - 3, h - 3); if (slider.isEnabled()) { g.setColor(MetalLookAndFeel.getControl()); g.drawLine(trackX + 1, y + 1, trackX + trackW - 3, y + 1); g.drawLine(trackX + 1, y + 1, trackX + 1, y + h - 3); } } } }
| 10,960
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public void setPressed(boolean b) { if (! isEnabled()) return; super.setPressed(b); // setPressed(false) == mouse release on us, // if we were armed, we flip the selected state. if (!b && isArmed()) setSelected(! isSelected()); }
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public void setPressed(boolean p) { if (! isEnabled()) return; super.setPressed(b); // setPressed(false) == mouse release on us, // if we were armed, we flip the selected state. if (!b && isArmed()) setSelected(! isSelected()); }
| 10,961
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public void setPressed(boolean b) { if (! isEnabled()) return; super.setPressed(b); // setPressed(false) == mouse release on us, // if we were armed, we flip the selected state. if (!b && isArmed()) setSelected(! isSelected()); }
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public void setPressed(boolean b) { if (! isEnabled()) return; if ((p && isPressed()) || (!p && !isPressed())) return; // setPressed(false) == mouse release on us, // if we were armed, we flip the selected state. if (!b && isArmed()) setSelected(! isSelected()); }
| 10,962
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public void setPressed(boolean b) { if (! isEnabled()) return; super.setPressed(b); // setPressed(false) == mouse release on us, // if we were armed, we flip the selected state. if (!b && isArmed()) setSelected(! isSelected()); }
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public void setPressed(boolean b) { if (! isEnabled()) return; super.setPressed(b); // setPressed(false) == mouse release on us, // if we were armed, we flip the selected state. if (!p && isArmed()) { setSelected(! isSelected()); }
| 10,963
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protected String paramString() { return "JToggleButton"; }
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protected String paramString() { return super.paramString(); }
| 10,965
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public void addItemListener(ItemListener l) { getModel().addItemListener(l); }
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public void addItemListener(ItemListener l) { getModel().addItemListener(l); }
| 10,966
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public void setPressed(boolean b) { pressed = b; }
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public void setPressed(boolean b) { pressed = b; }
| 10,967
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public boolean isEnabled() { return enabled; }
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public boolean isEnabled() { return enabled; }
| 10,968
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public boolean isArmed() { return arm; }
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public boolean isArmed() { return arm; }
| 10,969
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public boolean isSelected() { return sel; }
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public boolean isSelected() { return sel; }
| 10,970
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public void setSelected(boolean b) { if (group != null) { if (b == true) { System.out.println("selected button in group:" + this); group.setSelected(this, b); sel = true; } else { System.out.println("deselected button in group: " + this); sel = false; } } else { sel = b; } }
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public void setSelected(boolean b) { if (group != null) { if (b == true) { System.out.println("selected button in group:" + this); group.setSelected(this, b); sel = true; } else { System.out.println("deselected button in group: " + this); sel = false; } } else { sel = b; } }
| 10,971
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AbstractButton(String text, Icon icon) { this.text = text; setIcon(icon); setAlignmentX(LEFT_ALIGNMENT); setAlignmentY(CENTER_ALIGNMENT); addFocusListener(new JFocusListener(this)); setModel(new DefaultButtonModel(this)); updateUI(); // get a proper ui }
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AbstractButton(String text, Icon icon) { this.text = text; setIcon(icon); setAlignmentX(LEFT_ALIGNMENT); setAlignmentY(CENTER_ALIGNMENT); addFocusListener(new JFocusListener(this)); setModel(new DefaultButtonModel(this)); updateUI(); // get a proper ui }
| 10,972
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String getElementModel(String name) { return (String) elements.get(name); }
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ContentModel getElementModel(String name) { return (String) elements.get(name); }
| 10,974
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String getElementModel(String name) { return (String) elements.get(name); }
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String getElementModel(String name) { return (ContentModel) elements.get(name); }
| 10,975
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public XMLParser(InputStream in, String systemId, boolean validating, boolean namespaceAware, boolean coalescing, boolean replaceERefs, boolean externalEntities, boolean supportDTD, boolean baseAware, boolean stringInterning, XMLReporter reporter, XMLResolver resolver) { this.validating = validating; this.namespaceAware = namespaceAware; this.coalescing = coalescing; this.replaceERefs = replaceERefs; this.externalEntities = externalEntities; this.supportDTD = supportDTD; this.baseAware = baseAware; this.stringInterning = stringInterning; this.reporter = reporter; this.resolver = resolver; pushInput(new Input(in, null, systemId, null)); }
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public XMLParser(InputStream in, String systemId, boolean validating, boolean namespaceAware, boolean coalescing, boolean replaceERefs, boolean externalEntities, boolean supportDTD, boolean baseAware, boolean stringInterning, XMLReporter reporter, XMLResolver resolver) { this.validating = validating; this.namespaceAware = namespaceAware; this.coalescing = coalescing; this.replaceERefs = replaceERefs; this.externalEntities = externalEntities; this.supportDTD = supportDTD; this.baseAware = baseAware; this.stringInterning = stringInterning; this.reporter = reporter; this.resolver = resolver; if (validating) { validationStack = new LinkedList(); ids = new HashSet(); idrefs = new HashSet(); } pushInput(new Input(in, null, null, systemId, null, null, false, true)); }
| 10,976
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public boolean hasNext() throws XMLStreamException { if (!lookahead) { try { next(); } catch (NoSuchElementException e) { event = -1; } lookahead = true; } return event != -1; }
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public boolean hasNext() throws XMLStreamException { if (!lookahead) { try { next(); } catch (NoSuchElementException e) { event = -1; } lookahead = true; } return event != -1; }
| 10,977
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public boolean hasNext() throws XMLStreamException { if (!lookahead) { try { next(); } catch (NoSuchElementException e) { event = -1; } lookahead = true; } return event != -1; }
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public boolean hasNext() throws XMLStreamException { if (!lookahead) { try { next(); } catch (NoSuchElementException e) { event = -1; } lookahead = true; } return event != -1; }
| 10,978
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public int next() throws XMLStreamException { if (lookahead) { lookahead = false; return event; } if (event == XMLStreamConstants.END_ELEMENT) { // Pop namespace context if (namespaceAware) namespaces.removeFirst(); // Pop base context if (baseAware) bases.removeFirst(); } if (!startEntityStack.isEmpty()) { String entityName = (String) startEntityStack.removeFirst(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.START_ENTITY; return event; } else if (!endEntityStack.isEmpty()) { String entityName = (String) endEntityStack.removeFirst(); if (entityName == null) return next(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.END_ENTITY; return event; } try { if (!input.initialized) input.init(); //System.out.println("input="+input.name+" "+input.inputEncoding); switch (state) { case CONTENT: if (tryRead(TEST_END_ELEMENT)) { readEndElement(); if (stack.isEmpty()) state = MISC; event = XMLStreamConstants.END_ELEMENT; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_CDATA)) { readCDSect(); event = XMLStreamConstants.CDATA; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { // Check for character reference or predefined entity mark(8); char c = readCh(); if (c == '&') { c = readCh(); if (c == '#') { reset(); event = readCharData(null); } else { // entity reference reset(); readCh(); // & readReference(); String ref = buf.toString(); String text = (String) PREDEFINED_ENTITIES.get(ref); if (text != null) { event = readCharData(text); } else if (replaceERefs) { expandEntity(ref, false); //report start-entity event = next(); } else { event = XMLStreamConstants.ENTITY_REFERENCE; } } } else { reset(); event = readCharData(null); } } break; case EMPTY_ELEMENT: String elementName = (String) stack.removeLast(); buf.setLength(0); buf.append(elementName); state = stack.isEmpty() ? MISC : CONTENT; event = XMLStreamConstants.END_ELEMENT; break; case INIT: // XMLDecl? if (tryRead(TEST_XML_DECL)) readXMLDecl(); event = XMLStreamConstants.START_DOCUMENT; state = PROLOG; break; case PROLOG: // Misc* (doctypedecl Misc*)? skipWhitespace(); if (doctype == null && tryRead(TEST_DOCTYPE_DECL)) { readDoctypeDecl(); event = XMLStreamConstants.DTD; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { char c = readCh(); error("no root element: +U"+Integer.toHexString(c)); } break; case MISC: // Comment | PI | S skipWhitespace(); if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else { if (event == XMLStreamConstants.END_DOCUMENT) throw new NoSuchElementException(); char c = readCh(); if (c != '\uffff') error("Only comments and PIs may appear after " + "the root element"); event = XMLStreamConstants.END_DOCUMENT; } break; default: event = -1; } return event; } catch (IOException e) { XMLStreamException e2 = new XMLStreamException(); e2.initCause(e); throw e2; } }
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public int next() throws XMLStreamException { if (lookahead) { lookahead = false; return event; } if (event == XMLStreamConstants.END_ELEMENT) { // Pop namespace context if (namespaceAware) namespaces.removeFirst(); // Pop base context if (baseAware) bases.removeFirst(); } if (!startEntityStack.isEmpty()) { String entityName = (String) startEntityStack.removeFirst(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.START_ENTITY; return event; } else if (!endEntityStack.isEmpty()) { String entityName = (String) endEntityStack.removeFirst(); if (entityName == null) return next(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.END_ENTITY; return event; } try { if (!input.initialized) input.init(); //System.out.println("input="+input.name+" "+input.inputEncoding); switch (state) { case CONTENT: if (tryRead(TEST_END_ELEMENT)) { readEndElement(); if (stack.isEmpty()) state = MISC; event = XMLStreamConstants.END_ELEMENT; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_CDATA)) { readCDSect(); event = XMLStreamConstants.CDATA; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { // Check for character reference or predefined entity mark(8); char c = readCh(); if (c == '&') { c = readCh(); if (c == '#') { reset(); event = readCharData(null); } else { // entity reference reset(); readCh(); // & readReference(); String ref = buf.toString(); String text = (String) PREDEFINED_ENTITIES.get(ref); if (text != null) { event = readCharData(text); } else if (replaceERefs) { expandEntity(ref, false); //report start-entity event = next(); } else { event = XMLStreamConstants.ENTITY_REFERENCE; } } } else { reset(); event = readCharData(null); } } break; case EMPTY_ELEMENT: String elementName = (String) stack.removeLast(); buf.setLength(0); buf.append(elementName); state = stack.isEmpty() ? MISC : CONTENT; event = XMLStreamConstants.END_ELEMENT; break; case INIT: // XMLDecl? if (tryRead(TEST_XML_DECL)) readXMLDecl(); event = XMLStreamConstants.START_DOCUMENT; state = PROLOG; break; case PROLOG: // Misc* (doctypedecl Misc*)? skipWhitespace(); if (doctype == null && tryRead(TEST_DOCTYPE_DECL)) { readDoctypeDecl(); event = XMLStreamConstants.DTD; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { char c = readCh(); error("no root element: +U"+Integer.toHexString(c)); } break; case MISC: // Comment | PI | S skipWhitespace(); if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else { if (event == XMLStreamConstants.END_DOCUMENT) throw new NoSuchElementException(); char c = readCh(); if (c != '\uffff') error("Only comments and PIs may appear after " + "the root element"); event = XMLStreamConstants.END_DOCUMENT; } break; default: event = -1; } return event; } catch (IOException e) { XMLStreamException e2 = new XMLStreamException(); e2.initCause(e); throw e2; } }
| 10,979
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public int next() throws XMLStreamException { if (lookahead) { lookahead = false; return event; } if (event == XMLStreamConstants.END_ELEMENT) { // Pop namespace context if (namespaceAware) namespaces.removeFirst(); // Pop base context if (baseAware) bases.removeFirst(); } if (!startEntityStack.isEmpty()) { String entityName = (String) startEntityStack.removeFirst(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.START_ENTITY; return event; } else if (!endEntityStack.isEmpty()) { String entityName = (String) endEntityStack.removeFirst(); if (entityName == null) return next(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.END_ENTITY; return event; } try { if (!input.initialized) input.init(); //System.out.println("input="+input.name+" "+input.inputEncoding); switch (state) { case CONTENT: if (tryRead(TEST_END_ELEMENT)) { readEndElement(); if (stack.isEmpty()) state = MISC; event = XMLStreamConstants.END_ELEMENT; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_CDATA)) { readCDSect(); event = XMLStreamConstants.CDATA; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { // Check for character reference or predefined entity mark(8); char c = readCh(); if (c == '&') { c = readCh(); if (c == '#') { reset(); event = readCharData(null); } else { // entity reference reset(); readCh(); // & readReference(); String ref = buf.toString(); String text = (String) PREDEFINED_ENTITIES.get(ref); if (text != null) { event = readCharData(text); } else if (replaceERefs) { expandEntity(ref, false); //report start-entity event = next(); } else { event = XMLStreamConstants.ENTITY_REFERENCE; } } } else { reset(); event = readCharData(null); } } break; case EMPTY_ELEMENT: String elementName = (String) stack.removeLast(); buf.setLength(0); buf.append(elementName); state = stack.isEmpty() ? MISC : CONTENT; event = XMLStreamConstants.END_ELEMENT; break; case INIT: // XMLDecl? if (tryRead(TEST_XML_DECL)) readXMLDecl(); event = XMLStreamConstants.START_DOCUMENT; state = PROLOG; break; case PROLOG: // Misc* (doctypedecl Misc*)? skipWhitespace(); if (doctype == null && tryRead(TEST_DOCTYPE_DECL)) { readDoctypeDecl(); event = XMLStreamConstants.DTD; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { char c = readCh(); error("no root element: +U"+Integer.toHexString(c)); } break; case MISC: // Comment | PI | S skipWhitespace(); if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else { if (event == XMLStreamConstants.END_DOCUMENT) throw new NoSuchElementException(); char c = readCh(); if (c != '\uffff') error("Only comments and PIs may appear after " + "the root element"); event = XMLStreamConstants.END_DOCUMENT; } break; default: event = -1; } return event; } catch (IOException e) { XMLStreamException e2 = new XMLStreamException(); e2.initCause(e); throw e2; } }
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public int next() throws XMLStreamException { if (lookahead) { lookahead = false; return event; } if (event == XMLStreamConstants.END_ELEMENT) { // Pop namespace context if (namespaceAware) namespaces.removeFirst(); // Pop base context if (baseAware) bases.removeFirst(); } if (!startEntityStack.isEmpty()) { String entityName = (String) startEntityStack.removeFirst(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.START_ENTITY; return event; } else if (!endEntityStack.isEmpty()) { String entityName = (String) endEntityStack.removeFirst(); if (entityName == null) return next(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.END_ENTITY; return event; } try { if (!input.initialized) input.init(); //System.out.println("input="+input.name+" "+input.inputEncoding); switch (state) { case CONTENT: if (tryRead(TEST_END_ELEMENT)) { readEndElement(); if (stack.isEmpty()) state = MISC; event = XMLStreamConstants.END_ELEMENT; } else if (tryRead(TEST_COMMENT)) { readComment(false); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_CDATA)) { readCDSect(); event = XMLStreamConstants.CDATA; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { // Check for character reference or predefined entity mark(8); char c = readCh(); if (c == '&') { c = readCh(); if (c == '#') { reset(); event = readCharData(null); } else { // entity reference reset(); readCh(); // & readReference(); String ref = buf.toString(); String text = (String) PREDEFINED_ENTITIES.get(ref); if (text != null) { event = readCharData(text); } else if (replaceERefs) { expandEntity(ref, false); //report start-entity event = next(); } else { event = XMLStreamConstants.ENTITY_REFERENCE; } } } else { reset(); event = readCharData(null); } } break; case EMPTY_ELEMENT: String elementName = (String) stack.removeLast(); buf.setLength(0); buf.append(elementName); state = stack.isEmpty() ? MISC : CONTENT; event = XMLStreamConstants.END_ELEMENT; break; case INIT: // XMLDecl? if (tryRead(TEST_XML_DECL)) readXMLDecl(); event = XMLStreamConstants.START_DOCUMENT; state = PROLOG; break; case PROLOG: // Misc* (doctypedecl Misc*)? skipWhitespace(); if (doctype == null && tryRead(TEST_DOCTYPE_DECL)) { readDoctypeDecl(); event = XMLStreamConstants.DTD; } else if (tryRead(TEST_COMMENT)) { readComment(false); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { char c = readCh(); error("no root element: +U"+Integer.toHexString(c)); } break; case MISC: // Comment | PI | S skipWhitespace(); if (tryRead(TEST_COMMENT)) { readComment(false); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else { if (event == XMLStreamConstants.END_DOCUMENT) throw new NoSuchElementException(); char c = readCh(); if (c != '\uffff') error("Only comments and PIs may appear after " + "the root element"); event = XMLStreamConstants.END_DOCUMENT; } break; default: event = -1; } return event; } catch (IOException e) { XMLStreamException e2 = new XMLStreamException(); e2.initCause(e); throw e2; } }
| 10,980
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public int next() throws XMLStreamException { if (lookahead) { lookahead = false; return event; } if (event == XMLStreamConstants.END_ELEMENT) { // Pop namespace context if (namespaceAware) namespaces.removeFirst(); // Pop base context if (baseAware) bases.removeFirst(); } if (!startEntityStack.isEmpty()) { String entityName = (String) startEntityStack.removeFirst(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.START_ENTITY; return event; } else if (!endEntityStack.isEmpty()) { String entityName = (String) endEntityStack.removeFirst(); if (entityName == null) return next(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.END_ENTITY; return event; } try { if (!input.initialized) input.init(); //System.out.println("input="+input.name+" "+input.inputEncoding); switch (state) { case CONTENT: if (tryRead(TEST_END_ELEMENT)) { readEndElement(); if (stack.isEmpty()) state = MISC; event = XMLStreamConstants.END_ELEMENT; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_CDATA)) { readCDSect(); event = XMLStreamConstants.CDATA; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { // Check for character reference or predefined entity mark(8); char c = readCh(); if (c == '&') { c = readCh(); if (c == '#') { reset(); event = readCharData(null); } else { // entity reference reset(); readCh(); // & readReference(); String ref = buf.toString(); String text = (String) PREDEFINED_ENTITIES.get(ref); if (text != null) { event = readCharData(text); } else if (replaceERefs) { expandEntity(ref, false); //report start-entity event = next(); } else { event = XMLStreamConstants.ENTITY_REFERENCE; } } } else { reset(); event = readCharData(null); } } break; case EMPTY_ELEMENT: String elementName = (String) stack.removeLast(); buf.setLength(0); buf.append(elementName); state = stack.isEmpty() ? MISC : CONTENT; event = XMLStreamConstants.END_ELEMENT; break; case INIT: // XMLDecl? if (tryRead(TEST_XML_DECL)) readXMLDecl(); event = XMLStreamConstants.START_DOCUMENT; state = PROLOG; break; case PROLOG: // Misc* (doctypedecl Misc*)? skipWhitespace(); if (doctype == null && tryRead(TEST_DOCTYPE_DECL)) { readDoctypeDecl(); event = XMLStreamConstants.DTD; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { char c = readCh(); error("no root element: +U"+Integer.toHexString(c)); } break; case MISC: // Comment | PI | S skipWhitespace(); if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else { if (event == XMLStreamConstants.END_DOCUMENT) throw new NoSuchElementException(); char c = readCh(); if (c != '\uffff') error("Only comments and PIs may appear after " + "the root element"); event = XMLStreamConstants.END_DOCUMENT; } break; default: event = -1; } return event; } catch (IOException e) { XMLStreamException e2 = new XMLStreamException(); e2.initCause(e); throw e2; } }
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public int next() throws XMLStreamException { if (lookahead) { lookahead = false; return event; } if (event == XMLStreamConstants.END_ELEMENT) { // Pop namespace context if (namespaceAware) namespaces.removeFirst(); // Pop base context if (baseAware) bases.removeFirst(); } if (!startEntityStack.isEmpty()) { String entityName = (String) startEntityStack.removeFirst(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.START_ENTITY; return event; } else if (!endEntityStack.isEmpty()) { String entityName = (String) endEntityStack.removeFirst(); if (entityName == null) return next(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.END_ENTITY; return event; } try { if (!input.initialized) input.init(); //System.out.println("input="+input.name+" "+input.inputEncoding); switch (state) { case CONTENT: if (tryRead(TEST_END_ELEMENT)) { readEndElement(); if (stack.isEmpty()) state = MISC; event = XMLStreamConstants.END_ELEMENT; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(false); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_CDATA)) { readCDSect(); event = XMLStreamConstants.CDATA; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { // Check for character reference or predefined entity mark(8); char c = readCh(); if (c == '&') { c = readCh(); if (c == '#') { reset(); event = readCharData(null); } else { // entity reference reset(); readCh(); // & readReference(); String ref = buf.toString(); String text = (String) PREDEFINED_ENTITIES.get(ref); if (text != null) { event = readCharData(text); } else if (replaceERefs) { expandEntity(ref, false); //report start-entity event = next(); } else { event = XMLStreamConstants.ENTITY_REFERENCE; } } } else { reset(); event = readCharData(null); } } break; case EMPTY_ELEMENT: String elementName = (String) stack.removeLast(); buf.setLength(0); buf.append(elementName); state = stack.isEmpty() ? MISC : CONTENT; event = XMLStreamConstants.END_ELEMENT; break; case INIT: // XMLDecl? if (tryRead(TEST_XML_DECL)) readXMLDecl(); event = XMLStreamConstants.START_DOCUMENT; state = PROLOG; break; case PROLOG: // Misc* (doctypedecl Misc*)? skipWhitespace(); if (doctype == null && tryRead(TEST_DOCTYPE_DECL)) { readDoctypeDecl(); event = XMLStreamConstants.DTD; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(false); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { char c = readCh(); error("no root element: +U"+Integer.toHexString(c)); } break; case MISC: // Comment | PI | S skipWhitespace(); if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(false); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else { if (event == XMLStreamConstants.END_DOCUMENT) throw new NoSuchElementException(); char c = readCh(); if (c != '\uffff') error("Only comments and PIs may appear after " + "the root element"); event = XMLStreamConstants.END_DOCUMENT; } break; default: event = -1; } return event; } catch (IOException e) { XMLStreamException e2 = new XMLStreamException(); e2.initCause(e); throw e2; } }
| 10,981
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public int next() throws XMLStreamException { if (lookahead) { lookahead = false; return event; } if (event == XMLStreamConstants.END_ELEMENT) { // Pop namespace context if (namespaceAware) namespaces.removeFirst(); // Pop base context if (baseAware) bases.removeFirst(); } if (!startEntityStack.isEmpty()) { String entityName = (String) startEntityStack.removeFirst(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.START_ENTITY; return event; } else if (!endEntityStack.isEmpty()) { String entityName = (String) endEntityStack.removeFirst(); if (entityName == null) return next(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.END_ENTITY; return event; } try { if (!input.initialized) input.init(); //System.out.println("input="+input.name+" "+input.inputEncoding); switch (state) { case CONTENT: if (tryRead(TEST_END_ELEMENT)) { readEndElement(); if (stack.isEmpty()) state = MISC; event = XMLStreamConstants.END_ELEMENT; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_CDATA)) { readCDSect(); event = XMLStreamConstants.CDATA; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { // Check for character reference or predefined entity mark(8); char c = readCh(); if (c == '&') { c = readCh(); if (c == '#') { reset(); event = readCharData(null); } else { // entity reference reset(); readCh(); // & readReference(); String ref = buf.toString(); String text = (String) PREDEFINED_ENTITIES.get(ref); if (text != null) { event = readCharData(text); } else if (replaceERefs) { expandEntity(ref, false); //report start-entity event = next(); } else { event = XMLStreamConstants.ENTITY_REFERENCE; } } } else { reset(); event = readCharData(null); } } break; case EMPTY_ELEMENT: String elementName = (String) stack.removeLast(); buf.setLength(0); buf.append(elementName); state = stack.isEmpty() ? MISC : CONTENT; event = XMLStreamConstants.END_ELEMENT; break; case INIT: // XMLDecl? if (tryRead(TEST_XML_DECL)) readXMLDecl(); event = XMLStreamConstants.START_DOCUMENT; state = PROLOG; break; case PROLOG: // Misc* (doctypedecl Misc*)? skipWhitespace(); if (doctype == null && tryRead(TEST_DOCTYPE_DECL)) { readDoctypeDecl(); event = XMLStreamConstants.DTD; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { char c = readCh(); error("no root element: +U"+Integer.toHexString(c)); } break; case MISC: // Comment | PI | S skipWhitespace(); if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else { if (event == XMLStreamConstants.END_DOCUMENT) throw new NoSuchElementException(); char c = readCh(); if (c != '\uffff') error("Only comments and PIs may appear after " + "the root element"); event = XMLStreamConstants.END_DOCUMENT; } break; default: event = -1; } return event; } catch (IOException e) { XMLStreamException e2 = new XMLStreamException(); e2.initCause(e); throw e2; } }
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public int next() throws XMLStreamException { if (lookahead) { lookahead = false; return event; } if (event == XMLStreamConstants.END_ELEMENT) { // Pop namespace context if (namespaceAware) namespaces.removeFirst(); // Pop base context if (baseAware) bases.removeFirst(); } if (!startEntityStack.isEmpty()) { String entityName = (String) startEntityStack.removeFirst(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.START_ENTITY; return event; } else if (!endEntityStack.isEmpty()) { String entityName = (String) endEntityStack.removeFirst(); if (entityName == null) return next(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.END_ENTITY; return event; } try { if (!input.initialized) input.init(); //System.out.println("input="+input.name+" "+input.inputEncoding); switch (state) { case CONTENT: if (tryRead(TEST_END_ELEMENT)) { readEndElement(); if (stack.isEmpty()) state = MISC; event = XMLStreamConstants.END_ELEMENT; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_CDATA)) { readCDSect(); event = XMLStreamConstants.CDATA; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { // Check for character reference or predefined entity mark(8); char c = readCh(); if (c == '&') { c = readCh(); if (c == '#') { reset(); event = readCharData(null); } else { // entity reference reset(); readCh(); // & readReference(); String ref = buf.toString(); String text = (String) PREDEFINED_ENTITIES.get(ref); if (text != null) { event = readCharData(text); } else if (replaceERefs) { expandEntity(ref, false); //report start-entity event = next(); } else { event = XMLStreamConstants.ENTITY_REFERENCE; } } } else { reset(); event = readCharData(null); } } break; case EMPTY_ELEMENT: String elementName = (String) stack.removeLast(); buf.setLength(0); buf.append(elementName); state = stack.isEmpty() ? MISC : CONTENT; event = XMLStreamConstants.END_ELEMENT; break; case INIT: // XMLDecl? if (tryRead(TEST_XML_DECL)) readXMLDecl(); event = XMLStreamConstants.START_DOCUMENT; state = PROLOG; break; case PROLOG: // Misc* (doctypedecl Misc*)? skipWhitespace(); if (doctype == null && tryRead(TEST_DOCTYPE_DECL)) { readDoctypeDecl(); event = XMLStreamConstants.DTD; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { char c = readCh(); error("no root element: +U"+Integer.toHexString(c)); } break; case MISC: // Comment | PI | S skipWhitespace(); if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else { if (event == XMLStreamConstants.END_DOCUMENT) throw new NoSuchElementException(); char c = readCh(); if (c != '\uffff') error("Only comments and PIs may appear after " + "the root element"); event = XMLStreamConstants.END_DOCUMENT; } break; default: event = -1; } return event; } catch (IOException e) { XMLStreamException e2 = new XMLStreamException(); e2.initCause(e); throw e2; } }
| 10,982
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public int next() throws XMLStreamException { if (lookahead) { lookahead = false; return event; } if (event == XMLStreamConstants.END_ELEMENT) { // Pop namespace context if (namespaceAware) namespaces.removeFirst(); // Pop base context if (baseAware) bases.removeFirst(); } if (!startEntityStack.isEmpty()) { String entityName = (String) startEntityStack.removeFirst(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.START_ENTITY; return event; } else if (!endEntityStack.isEmpty()) { String entityName = (String) endEntityStack.removeFirst(); if (entityName == null) return next(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.END_ENTITY; return event; } try { if (!input.initialized) input.init(); //System.out.println("input="+input.name+" "+input.inputEncoding); switch (state) { case CONTENT: if (tryRead(TEST_END_ELEMENT)) { readEndElement(); if (stack.isEmpty()) state = MISC; event = XMLStreamConstants.END_ELEMENT; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_CDATA)) { readCDSect(); event = XMLStreamConstants.CDATA; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { // Check for character reference or predefined entity mark(8); char c = readCh(); if (c == '&') { c = readCh(); if (c == '#') { reset(); event = readCharData(null); } else { // entity reference reset(); readCh(); // & readReference(); String ref = buf.toString(); String text = (String) PREDEFINED_ENTITIES.get(ref); if (text != null) { event = readCharData(text); } else if (replaceERefs) { expandEntity(ref, false); //report start-entity event = next(); } else { event = XMLStreamConstants.ENTITY_REFERENCE; } } } else { reset(); event = readCharData(null); } } break; case EMPTY_ELEMENT: String elementName = (String) stack.removeLast(); buf.setLength(0); buf.append(elementName); state = stack.isEmpty() ? MISC : CONTENT; event = XMLStreamConstants.END_ELEMENT; break; case INIT: // XMLDecl? if (tryRead(TEST_XML_DECL)) readXMLDecl(); event = XMLStreamConstants.START_DOCUMENT; state = PROLOG; break; case PROLOG: // Misc* (doctypedecl Misc*)? skipWhitespace(); if (doctype == null && tryRead(TEST_DOCTYPE_DECL)) { readDoctypeDecl(); event = XMLStreamConstants.DTD; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { char c = readCh(); error("no root element: +U"+Integer.toHexString(c)); } break; case MISC: // Comment | PI | S skipWhitespace(); if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else { if (event == XMLStreamConstants.END_DOCUMENT) throw new NoSuchElementException(); char c = readCh(); if (c != '\uffff') error("Only comments and PIs may appear after " + "the root element"); event = XMLStreamConstants.END_DOCUMENT; } break; default: event = -1; } return event; } catch (IOException e) { XMLStreamException e2 = new XMLStreamException(); e2.initCause(e); throw e2; } }
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public int next() throws XMLStreamException { if (lookahead) { lookahead = false; return event; } if (event == XMLStreamConstants.END_ELEMENT) { // Pop namespace context if (namespaceAware) namespaces.removeFirst(); // Pop base context if (baseAware) bases.removeFirst(); } if (!startEntityStack.isEmpty()) { String entityName = (String) startEntityStack.removeFirst(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.START_ENTITY; return event; } else if (!endEntityStack.isEmpty()) { String entityName = (String) endEntityStack.removeFirst(); if (entityName == null) return next(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.END_ENTITY; return event; } try { if (!input.initialized) input.init(); //System.out.println("input="+input.name+" "+input.inputEncoding); switch (state) { case CONTENT: if (tryRead(TEST_END_ELEMENT)) { readEndElement(); if (stack.isEmpty()) state = MISC; event = XMLStreamConstants.END_ELEMENT; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_CDATA)) { readCDSect(); event = XMLStreamConstants.CDATA; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { // Check for character reference or predefined entity mark(8); char c = readCh(); if (c == '&') { c = readCh(); if (c == 0x23) { reset(); event = readCharData(null); } else { // entity reference reset(); readCh(); // & readReference(); String ref = buf.toString(); String text = (String) PREDEFINED_ENTITIES.get(ref); if (text != null) { event = readCharData(text); } else if (replaceERefs) { expandEntity(ref, false); //report start-entity event = next(); } else { event = XMLStreamConstants.ENTITY_REFERENCE; } } } else { reset(); event = readCharData(null); } } break; case EMPTY_ELEMENT: String elementName = (String) stack.removeLast(); buf.setLength(0); buf.append(elementName); state = stack.isEmpty() ? MISC : CONTENT; event = XMLStreamConstants.END_ELEMENT; break; case INIT: // XMLDecl? if (tryRead(TEST_XML_DECL)) readXMLDecl(); event = XMLStreamConstants.START_DOCUMENT; state = PROLOG; break; case PROLOG: // Misc* (doctypedecl Misc*)? skipWhitespace(); if (doctype == null && tryRead(TEST_DOCTYPE_DECL)) { readDoctypeDecl(); event = XMLStreamConstants.DTD; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { char c = readCh(); error("no root element: +U"+Integer.toHexString(c)); } break; case MISC: // Comment | PI | S skipWhitespace(); if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else { if (event == XMLStreamConstants.END_DOCUMENT) throw new NoSuchElementException(); char c = readCh(); if (c != '\uffff') error("Only comments and PIs may appear after " + "the root element"); event = XMLStreamConstants.END_DOCUMENT; } break; default: event = -1; } return event; } catch (IOException e) { XMLStreamException e2 = new XMLStreamException(); e2.initCause(e); throw e2; } }
| 10,983
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public int next() throws XMLStreamException { if (lookahead) { lookahead = false; return event; } if (event == XMLStreamConstants.END_ELEMENT) { // Pop namespace context if (namespaceAware) namespaces.removeFirst(); // Pop base context if (baseAware) bases.removeFirst(); } if (!startEntityStack.isEmpty()) { String entityName = (String) startEntityStack.removeFirst(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.START_ENTITY; return event; } else if (!endEntityStack.isEmpty()) { String entityName = (String) endEntityStack.removeFirst(); if (entityName == null) return next(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.END_ENTITY; return event; } try { if (!input.initialized) input.init(); //System.out.println("input="+input.name+" "+input.inputEncoding); switch (state) { case CONTENT: if (tryRead(TEST_END_ELEMENT)) { readEndElement(); if (stack.isEmpty()) state = MISC; event = XMLStreamConstants.END_ELEMENT; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_CDATA)) { readCDSect(); event = XMLStreamConstants.CDATA; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { // Check for character reference or predefined entity mark(8); char c = readCh(); if (c == '&') { c = readCh(); if (c == '#') { reset(); event = readCharData(null); } else { // entity reference reset(); readCh(); // & readReference(); String ref = buf.toString(); String text = (String) PREDEFINED_ENTITIES.get(ref); if (text != null) { event = readCharData(text); } else if (replaceERefs) { expandEntity(ref, false); //report start-entity event = next(); } else { event = XMLStreamConstants.ENTITY_REFERENCE; } } } else { reset(); event = readCharData(null); } } break; case EMPTY_ELEMENT: String elementName = (String) stack.removeLast(); buf.setLength(0); buf.append(elementName); state = stack.isEmpty() ? MISC : CONTENT; event = XMLStreamConstants.END_ELEMENT; break; case INIT: // XMLDecl? if (tryRead(TEST_XML_DECL)) readXMLDecl(); event = XMLStreamConstants.START_DOCUMENT; state = PROLOG; break; case PROLOG: // Misc* (doctypedecl Misc*)? skipWhitespace(); if (doctype == null && tryRead(TEST_DOCTYPE_DECL)) { readDoctypeDecl(); event = XMLStreamConstants.DTD; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { char c = readCh(); error("no root element: +U"+Integer.toHexString(c)); } break; case MISC: // Comment | PI | S skipWhitespace(); if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else { if (event == XMLStreamConstants.END_DOCUMENT) throw new NoSuchElementException(); char c = readCh(); if (c != '\uffff') error("Only comments and PIs may appear after " + "the root element"); event = XMLStreamConstants.END_DOCUMENT; } break; default: event = -1; } return event; } catch (IOException e) { XMLStreamException e2 = new XMLStreamException(); e2.initCause(e); throw e2; } }
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public int next() throws XMLStreamException { if (lookahead) { lookahead = false; return event; } if (event == XMLStreamConstants.END_ELEMENT) { // Pop namespace context if (namespaceAware) namespaces.removeFirst(); // Pop base context if (baseAware) bases.removeFirst(); } if (!startEntityStack.isEmpty()) { String entityName = (String) startEntityStack.removeFirst(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.START_ENTITY; return event; } else if (!endEntityStack.isEmpty()) { String entityName = (String) endEntityStack.removeFirst(); if (entityName == null) return next(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.END_ENTITY; return event; } try { if (!input.initialized) input.init(); //System.out.println("input="+input.name+" "+input.inputEncoding); switch (state) { case CONTENT: if (tryRead(TEST_END_ELEMENT)) { readEndElement(); if (stack.isEmpty()) state = MISC; event = XMLStreamConstants.END_ELEMENT; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_CDATA)) { readCDSect(); event = XMLStreamConstants.CDATA; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { // Check for character reference or predefined entity mark(8); char c = readCh(); if (c == '&') { c = readCh(); if (c == '#') { reset(); event = readCharData(null); } else { // entity reference reset(); readCh(); // & readReference(); String ref = buf.toString(); String text = (String) PREDEFINED_ENTITIES.get(ref); if (text != null) { event = readCharData(text); } else if (replaceERefs && !isUnparsedEntity(ref)) { expandEntity(ref, false); //report start-entity event = next(); } else { event = XMLStreamConstants.ENTITY_REFERENCE; } } } else { reset(); event = readCharData(null); } } break; case EMPTY_ELEMENT: String elementName = (String) stack.removeLast(); buf.setLength(0); buf.append(elementName); state = stack.isEmpty() ? MISC : CONTENT; event = XMLStreamConstants.END_ELEMENT; break; case INIT: // XMLDecl? if (tryRead(TEST_XML_DECL)) readXMLDecl(); event = XMLStreamConstants.START_DOCUMENT; state = PROLOG; break; case PROLOG: // Misc* (doctypedecl Misc*)? skipWhitespace(); if (doctype == null && tryRead(TEST_DOCTYPE_DECL)) { readDoctypeDecl(); event = XMLStreamConstants.DTD; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { char c = readCh(); error("no root element: +U"+Integer.toHexString(c)); } break; case MISC: // Comment | PI | S skipWhitespace(); if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else { if (event == XMLStreamConstants.END_DOCUMENT) throw new NoSuchElementException(); char c = readCh(); if (c != '\uffff') error("Only comments and PIs may appear after " + "the root element"); event = XMLStreamConstants.END_DOCUMENT; } break; default: event = -1; } return event; } catch (IOException e) { XMLStreamException e2 = new XMLStreamException(); e2.initCause(e); throw e2; } }
| 10,984
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public int next() throws XMLStreamException { if (lookahead) { lookahead = false; return event; } if (event == XMLStreamConstants.END_ELEMENT) { // Pop namespace context if (namespaceAware) namespaces.removeFirst(); // Pop base context if (baseAware) bases.removeFirst(); } if (!startEntityStack.isEmpty()) { String entityName = (String) startEntityStack.removeFirst(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.START_ENTITY; return event; } else if (!endEntityStack.isEmpty()) { String entityName = (String) endEntityStack.removeFirst(); if (entityName == null) return next(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.END_ENTITY; return event; } try { if (!input.initialized) input.init(); //System.out.println("input="+input.name+" "+input.inputEncoding); switch (state) { case CONTENT: if (tryRead(TEST_END_ELEMENT)) { readEndElement(); if (stack.isEmpty()) state = MISC; event = XMLStreamConstants.END_ELEMENT; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_CDATA)) { readCDSect(); event = XMLStreamConstants.CDATA; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { // Check for character reference or predefined entity mark(8); char c = readCh(); if (c == '&') { c = readCh(); if (c == '#') { reset(); event = readCharData(null); } else { // entity reference reset(); readCh(); // & readReference(); String ref = buf.toString(); String text = (String) PREDEFINED_ENTITIES.get(ref); if (text != null) { event = readCharData(text); } else if (replaceERefs) { expandEntity(ref, false); //report start-entity event = next(); } else { event = XMLStreamConstants.ENTITY_REFERENCE; } } } else { reset(); event = readCharData(null); } } break; case EMPTY_ELEMENT: String elementName = (String) stack.removeLast(); buf.setLength(0); buf.append(elementName); state = stack.isEmpty() ? MISC : CONTENT; event = XMLStreamConstants.END_ELEMENT; break; case INIT: // XMLDecl? if (tryRead(TEST_XML_DECL)) readXMLDecl(); event = XMLStreamConstants.START_DOCUMENT; state = PROLOG; break; case PROLOG: // Misc* (doctypedecl Misc*)? skipWhitespace(); if (doctype == null && tryRead(TEST_DOCTYPE_DECL)) { readDoctypeDecl(); event = XMLStreamConstants.DTD; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { char c = readCh(); error("no root element: +U"+Integer.toHexString(c)); } break; case MISC: // Comment | PI | S skipWhitespace(); if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else { if (event == XMLStreamConstants.END_DOCUMENT) throw new NoSuchElementException(); char c = readCh(); if (c != '\uffff') error("Only comments and PIs may appear after " + "the root element"); event = XMLStreamConstants.END_DOCUMENT; } break; default: event = -1; } return event; } catch (IOException e) { XMLStreamException e2 = new XMLStreamException(); e2.initCause(e); throw e2; } }
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public int next() throws XMLStreamException { if (lookahead) { lookahead = false; return event; } if (event == XMLStreamConstants.END_ELEMENT) { // Pop namespace context if (namespaceAware) namespaces.removeFirst(); // Pop base context if (baseAware) bases.removeFirst(); } if (!startEntityStack.isEmpty()) { String entityName = (String) startEntityStack.removeFirst(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.START_ENTITY; return event; } else if (!endEntityStack.isEmpty()) { String entityName = (String) endEntityStack.removeFirst(); if (entityName == null) return next(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.END_ENTITY; return event; } try { if (!input.initialized) input.init(); //System.out.println("input="+input.name+" "+input.inputEncoding); switch (state) { case CONTENT: if (tryRead(TEST_END_ELEMENT)) { readEndElement(); if (stack.isEmpty()) state = MISC; event = XMLStreamConstants.END_ELEMENT; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_CDATA)) { readCDSect(); event = XMLStreamConstants.CDATA; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { // Check for character reference or predefined entity mark(8); char c = readCh(); if (c == '&') { c = readCh(); if (c == '#') { reset(); event = readCharData(null); } else { // entity reference reset(); readCh(); // & readReference(); String ref = buf.toString(); String text = (String) PREDEFINED_ENTITIES.get(ref); if (text != null) { event = readCharData(text); } else if (replaceERefs) { boolean external = false; if (doctype != null) { Object entity = doctype.getEntity(ref); if (entity instanceof ExternalIds) external = true; } expandEntity(ref, false, external); //report start-entity event = next(); } else { event = XMLStreamConstants.ENTITY_REFERENCE; } } } else { reset(); event = readCharData(null); } } break; case EMPTY_ELEMENT: String elementName = (String) stack.removeLast(); buf.setLength(0); buf.append(elementName); state = stack.isEmpty() ? MISC : CONTENT; event = XMLStreamConstants.END_ELEMENT; break; case INIT: // XMLDecl? if (tryRead(TEST_XML_DECL)) readXMLDecl(); event = XMLStreamConstants.START_DOCUMENT; state = PROLOG; break; case PROLOG: // Misc* (doctypedecl Misc*)? skipWhitespace(); if (doctype == null && tryRead(TEST_DOCTYPE_DECL)) { readDoctypeDecl(); event = XMLStreamConstants.DTD; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { char c = readCh(); error("no root element: +U"+Integer.toHexString(c)); } break; case MISC: // Comment | PI | S skipWhitespace(); if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else { if (event == XMLStreamConstants.END_DOCUMENT) throw new NoSuchElementException(); char c = readCh(); if (c != '\uffff') error("Only comments and PIs may appear after " + "the root element"); event = XMLStreamConstants.END_DOCUMENT; } break; default: event = -1; } return event; } catch (IOException e) { XMLStreamException e2 = new XMLStreamException(); e2.initCause(e); throw e2; } }
| 10,985
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public int next() throws XMLStreamException { if (lookahead) { lookahead = false; return event; } if (event == XMLStreamConstants.END_ELEMENT) { // Pop namespace context if (namespaceAware) namespaces.removeFirst(); // Pop base context if (baseAware) bases.removeFirst(); } if (!startEntityStack.isEmpty()) { String entityName = (String) startEntityStack.removeFirst(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.START_ENTITY; return event; } else if (!endEntityStack.isEmpty()) { String entityName = (String) endEntityStack.removeFirst(); if (entityName == null) return next(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.END_ENTITY; return event; } try { if (!input.initialized) input.init(); //System.out.println("input="+input.name+" "+input.inputEncoding); switch (state) { case CONTENT: if (tryRead(TEST_END_ELEMENT)) { readEndElement(); if (stack.isEmpty()) state = MISC; event = XMLStreamConstants.END_ELEMENT; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_CDATA)) { readCDSect(); event = XMLStreamConstants.CDATA; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { // Check for character reference or predefined entity mark(8); char c = readCh(); if (c == '&') { c = readCh(); if (c == '#') { reset(); event = readCharData(null); } else { // entity reference reset(); readCh(); // & readReference(); String ref = buf.toString(); String text = (String) PREDEFINED_ENTITIES.get(ref); if (text != null) { event = readCharData(text); } else if (replaceERefs) { expandEntity(ref, false); //report start-entity event = next(); } else { event = XMLStreamConstants.ENTITY_REFERENCE; } } } else { reset(); event = readCharData(null); } } break; case EMPTY_ELEMENT: String elementName = (String) stack.removeLast(); buf.setLength(0); buf.append(elementName); state = stack.isEmpty() ? MISC : CONTENT; event = XMLStreamConstants.END_ELEMENT; break; case INIT: // XMLDecl? if (tryRead(TEST_XML_DECL)) readXMLDecl(); event = XMLStreamConstants.START_DOCUMENT; state = PROLOG; break; case PROLOG: // Misc* (doctypedecl Misc*)? skipWhitespace(); if (doctype == null && tryRead(TEST_DOCTYPE_DECL)) { readDoctypeDecl(); event = XMLStreamConstants.DTD; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { char c = readCh(); error("no root element: +U"+Integer.toHexString(c)); } break; case MISC: // Comment | PI | S skipWhitespace(); if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else { if (event == XMLStreamConstants.END_DOCUMENT) throw new NoSuchElementException(); char c = readCh(); if (c != '\uffff') error("Only comments and PIs may appear after " + "the root element"); event = XMLStreamConstants.END_DOCUMENT; } break; default: event = -1; } return event; } catch (IOException e) { XMLStreamException e2 = new XMLStreamException(); e2.initCause(e); throw e2; } }
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public int next() throws XMLStreamException { if (lookahead) { lookahead = false; return event; } if (event == XMLStreamConstants.END_ELEMENT) { // Pop namespace context if (namespaceAware) namespaces.removeFirst(); // Pop base context if (baseAware) bases.removeFirst(); } if (!startEntityStack.isEmpty()) { String entityName = (String) startEntityStack.removeFirst(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.START_ENTITY; return event; } else if (!endEntityStack.isEmpty()) { String entityName = (String) endEntityStack.removeFirst(); if (entityName == null) return next(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.END_ENTITY; return event; } try { if (!input.initialized) input.init(); //System.out.println("input="+input.name+" "+input.inputEncoding); switch (state) { case CONTENT: if (tryRead(TEST_END_ELEMENT)) { readEndElement(); if (stack.isEmpty()) state = MISC; event = XMLStreamConstants.END_ELEMENT; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_CDATA)) { readCDSect(); event = XMLStreamConstants.CDATA; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { // Check for character reference or predefined entity mark(8); char c = readCh(); if (c == '&') { c = readCh(); if (c == '#') { reset(); event = readCharData(null); } else { // entity reference reset(); readCh(); // & readReference(); String ref = buf.toString(); String text = (String) PREDEFINED_ENTITIES.get(ref); if (text != null) { event = readCharData(text); } else if (replaceERefs) { expandEntity(ref, false); //report start-entity event = next(); } else { event = XMLStreamConstants.ENTITY_REFERENCE; } } } else { reset(); event = readCharData(null); } } break; case EMPTY_ELEMENT: String elementName = (String) stack.removeLast(); buf.setLength(0); buf.append(elementName); state = stack.isEmpty() ? MISC : CONTENT; event = XMLStreamConstants.END_ELEMENT; break; case INIT: // XMLDecl? if (tryRead(TEST_XML_DECL)) readXMLDecl(); event = XMLStreamConstants.START_DOCUMENT; state = PROLOG; break; case PROLOG: // Misc* (doctypedecl Misc*)? skipWhitespace(); if (doctype == null && tryRead(TEST_DOCTYPE_DECL)) { readDoctypeDecl(); event = XMLStreamConstants.DTD; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { char c = readCh(); error("no root element: +U"+Integer.toHexString(c)); } break; case MISC: // Comment | PI | S skipWhitespace(); if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else { if (event == XMLStreamConstants.END_DOCUMENT) throw new NoSuchElementException(); char c = readCh(); if (c != '\uffff') error("Only comments and PIs may appear after " + "the root element"); event = XMLStreamConstants.END_DOCUMENT; } break; default: event = -1; } return event; } catch (IOException e) { XMLStreamException e2 = new XMLStreamException(); e2.initCause(e); throw e2; } }
| 10,986
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public int next() throws XMLStreamException { if (lookahead) { lookahead = false; return event; } if (event == XMLStreamConstants.END_ELEMENT) { // Pop namespace context if (namespaceAware) namespaces.removeFirst(); // Pop base context if (baseAware) bases.removeFirst(); } if (!startEntityStack.isEmpty()) { String entityName = (String) startEntityStack.removeFirst(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.START_ENTITY; return event; } else if (!endEntityStack.isEmpty()) { String entityName = (String) endEntityStack.removeFirst(); if (entityName == null) return next(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.END_ENTITY; return event; } try { if (!input.initialized) input.init(); //System.out.println("input="+input.name+" "+input.inputEncoding); switch (state) { case CONTENT: if (tryRead(TEST_END_ELEMENT)) { readEndElement(); if (stack.isEmpty()) state = MISC; event = XMLStreamConstants.END_ELEMENT; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_CDATA)) { readCDSect(); event = XMLStreamConstants.CDATA; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { // Check for character reference or predefined entity mark(8); char c = readCh(); if (c == '&') { c = readCh(); if (c == '#') { reset(); event = readCharData(null); } else { // entity reference reset(); readCh(); // & readReference(); String ref = buf.toString(); String text = (String) PREDEFINED_ENTITIES.get(ref); if (text != null) { event = readCharData(text); } else if (replaceERefs) { expandEntity(ref, false); //report start-entity event = next(); } else { event = XMLStreamConstants.ENTITY_REFERENCE; } } } else { reset(); event = readCharData(null); } } break; case EMPTY_ELEMENT: String elementName = (String) stack.removeLast(); buf.setLength(0); buf.append(elementName); state = stack.isEmpty() ? MISC : CONTENT; event = XMLStreamConstants.END_ELEMENT; break; case INIT: // XMLDecl? if (tryRead(TEST_XML_DECL)) readXMLDecl(); event = XMLStreamConstants.START_DOCUMENT; state = PROLOG; break; case PROLOG: // Misc* (doctypedecl Misc*)? skipWhitespace(); if (doctype == null && tryRead(TEST_DOCTYPE_DECL)) { readDoctypeDecl(); event = XMLStreamConstants.DTD; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { char c = readCh(); error("no root element: +U"+Integer.toHexString(c)); } break; case MISC: // Comment | PI | S skipWhitespace(); if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else { if (event == XMLStreamConstants.END_DOCUMENT) throw new NoSuchElementException(); char c = readCh(); if (c != '\uffff') error("Only comments and PIs may appear after " + "the root element"); event = XMLStreamConstants.END_DOCUMENT; } break; default: event = -1; } return event; } catch (IOException e) { XMLStreamException e2 = new XMLStreamException(); e2.initCause(e); throw e2; } }
|
public int next() throws XMLStreamException { if (lookahead) { lookahead = false; return event; } if (event == XMLStreamConstants.END_ELEMENT) { // Pop namespace context if (namespaceAware) namespaces.removeFirst(); // Pop base context if (baseAware) bases.removeFirst(); } if (!startEntityStack.isEmpty()) { String entityName = (String) startEntityStack.removeFirst(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.START_ENTITY; return event; } else if (!endEntityStack.isEmpty()) { String entityName = (String) endEntityStack.removeFirst(); if (entityName == null) return next(); buf.setLength(0); buf.append(entityName); event = XMLStreamConstants.END_ENTITY; return event; } try { if (!input.initialized) input.init(); //System.out.println("input="+input.name+" "+input.inputEncoding); switch (state) { case CONTENT: if (tryRead(TEST_END_ELEMENT)) { readEndElement(); if (stack.isEmpty()) state = MISC; event = XMLStreamConstants.END_ELEMENT; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_CDATA)) { readCDSect(); event = XMLStreamConstants.CDATA; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { // Check for character reference or predefined entity mark(8); char c = readCh(); if (c == '&') { c = readCh(); if (c == '#') { reset(); event = readCharData(null); } else { // entity reference reset(); readCh(); // & readReference(); String ref = buf.toString(); String text = (String) PREDEFINED_ENTITIES.get(ref); if (text != null) { event = readCharData(text); } else if (replaceERefs) { expandEntity(ref, false); //report start-entity event = next(); } else { event = XMLStreamConstants.ENTITY_REFERENCE; } } } else { reset(); event = readCharData(null); } } break; case EMPTY_ELEMENT: String elementName = (String) stack.removeLast(); buf.setLength(0); buf.append(elementName); state = stack.isEmpty() ? MISC : CONTENT; event = XMLStreamConstants.END_ELEMENT; break; case INIT: // XMLDecl? if (tryRead(TEST_XML_DECL)) readXMLDecl(); event = XMLStreamConstants.START_DOCUMENT; state = PROLOG; break; case PROLOG: // Misc* (doctypedecl Misc*)? skipWhitespace(); if (doctype == null && tryRead(TEST_DOCTYPE_DECL)) { readDoctypeDecl(); event = XMLStreamConstants.DTD; } else if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else if (tryRead(TEST_START_ELEMENT)) { state = readStartElement(); event = XMLStreamConstants.START_ELEMENT; } else { char c = readCh(); error("no root element: +U"+Integer.toHexString(c)); } break; case MISC: // Comment | PI | S skipWhitespace(); if (tryRead(TEST_COMMENT)) { readComment(); event = XMLStreamConstants.COMMENT; } else if (tryRead(TEST_PI)) { readPI(); event = XMLStreamConstants.PROCESSING_INSTRUCTION; } else { if (event == XMLStreamConstants.END_DOCUMENT) throw new NoSuchElementException(); char c = readCh(); if (c != '\uffff') error("Only comments and PIs may appear after " + "the root element"); event = XMLStreamConstants.END_DOCUMENT; } break; default: event = -1; } return event; } catch (IOException e) { XMLStreamException e2 = new XMLStreamException(); e2.initCause(e); throw e2; } }
| 10,987
|
private String getXMLBase() { if (baseAware) { for (Iterator i = bases.iterator(); i.hasNext(); ) { String base = (String) i.next(); if (base != null) return base; } } return input.systemId; }
|
String getXMLBase() { if (baseAware) { for (Iterator i = bases.iterator(); i.hasNext(); ) { String base = (String) i.next(); if (base != null) return base; } } return input.systemId; }
| 10,988
|
public VmSystemClassLoader(URL classesURL, VmArchitecture arch, ObjectResolver resolver) { this.classesURL = classesURL; this.classInfos = new TreeMap(); this.parent = null; this.selectorMap = new SelectorMap(); this.arch = arch; this.resolver = resolver; this.statics = new VmStatics(arch, resolver); }
|
public VmSystemClassLoader(URL classesURL, VmArchitecture arch, ObjectResolver resolver) { this.classesURL = classesURL; this.classInfos = new TreeMap(); this.parent = null; this.selectorMap = new SelectorMap(); this.arch = arch; this.resolver = resolver; this.statics = new VmStatics(arch, resolver); }
| 10,990
|
public boolean nameEquals(String otherName) { return name.equals(otherName); }
|
public boolean nameEquals(char[] otherName) { return name.equals(otherName); }
| 10,991
|
public String toString() { StringBuffer str = new StringBuffer(X509CertSelector.class.getName()); GetPropertyAction getProp = new GetPropertyAction("line.separator"); String nl = (String) AccessController.doPrivileged(getProp); String eol = ";" + nl; str.append(" {").append(nl); if (cert != null) str.append(" certificate = ").append(cert).append(eol); if (basicConstraints >= 0) str.append(" basic constraints = ").append(basicConstraints).append(eol); if (serialNo != null) str.append(" serial number = ").append(serialNo).append(eol); if (certValid != null) str.append(" valid date = ").append(certValid).append(eol); if (issuer != null) str.append(" issuer = ").append(issuer).append(eol); if (subject != null) str.append(" subject = ").append(subject).append(eol); if (sigId != null) str.append(" signature OID = ").append(sigId).append(eol); if (subjectKey != null) str.append(" subject public key = ").append(subjectKey).append(eol); if (subjectKeyId != null) { str.append(" subject key ID = "); for (int i = 0; i < subjectKeyId.length; i++) { str.append(Character.forDigit((subjectKeyId[i] & 0xF0) >>> 8, 16)); str.append(Character.forDigit((subjectKeyId[i] & 0x0F), 16)); if (i < subjectKeyId.length - 1) str.append(':'); } str.append(eol); } if (authKeyId != null) { str.append(" authority key ID = "); for (int i = 0; i < authKeyId.length; i++) { str.append(Character.forDigit((authKeyId[i] & 0xF0) >>> 8, 16)); str.append(Character.forDigit((authKeyId[i] & 0x0F), 16)); if (i < authKeyId.length - 1) str.append(':'); } str.append(eol); } if (keyUsage != null) { str.append(" key usage = "); for (int i = 0; i < keyUsage.length; i++) str.append(keyUsage[i] ? '1' : '0'); str.append(eol); } if (keyPurposeSet != null) str.append(" key purpose = ").append(keyPurposeSet).append(eol); if (altNames != null) str.append(" alternative names = ").append(altNames).append(eol); if (nameConstraints != null) str.append(" name constraints = <blob of data>").append(eol); str.append("}").append(nl); return str.toString(); }
|
public String toString() { StringBuffer str = new StringBuffer(X509CertSelector.class.getName()); GetPropertyAction getProp = new GetPropertyAction("line.separator"); String nl = (String) AccessController.doPrivileged(getProp); String eol = ";" + nl; str.append(" {").append(nl); if (cert != null) str.append(" certificate = ").append(cert).append(eol); if (basicConstraints >= 0) str.append(" basic constraints = ").append(basicConstraints).append(eol); if (serialNo != null) str.append(" serial number = ").append(serialNo).append(eol); if (certValid != null) str.append(" valid date = ").append(certValid).append(eol); if (issuer != null) str.append(" issuer = ").append(issuer).append(eol); if (subject != null) str.append(" subject = ").append(subject).append(eol); if (sigId != null) str.append(" signature OID = ").append(sigId).append(eol); if (subjectKey != null) str.append(" subject public key = ").append(subjectKey).append(eol); if (subjectKeyId != null) { str.append(" subject key ID = "); for (int i = 0; i < subjectKeyId.length; i++) { str.append(Character.forDigit((subjectKeyId[i] & 0xF0) >>> 8, 16)); str.append(Character.forDigit((subjectKeyId[i] & 0x0F), 16)); if (i < subjectKeyId.length - 1) str.append(':'); } str.append(eol); } if (authKeyId != null) { str.append(" authority key ID = "); for (int i = 0; i < authKeyId.length; i++) { str.append(Character.forDigit((authKeyId[i] & 0xF0) >>> 8, 16)); str.append(Character.forDigit((authKeyId[i] & 0x0F), 16)); if (i < authKeyId.length - 1) str.append(':'); } str.append(eol); } if (keyUsage != null) { str.append(" key usage = "); for (int i = 0; i < keyUsage.length; i++) str.append(keyUsage[i] ? '1' : '0'); str.append(eol); } if (keyPurposeSet != null) str.append(" key purpose = ").append(keyPurposeSet).append(eol); if (altNames != null) str.append(" alternative names = ").append(altNames).append(eol); if (nameConstraints != null) str.append(" name constraints = <blob of data>").append(eol); str.append("}").append(nl); return str.toString(); }
| 10,992
|
public void setPixel(int x, int y, float[] fArray) { sampleModel.setPixel(x-sampleModelTranslateX, y-sampleModelTranslateY, fArray, dataBuffer); }
|
public void setPixel(int x, int y, int[] iArray) { sampleModel.setPixel(x-sampleModelTranslateX, y-sampleModelTranslateY, fArray, dataBuffer); }
| 10,993
|
public void setPixel(int x, int y, float[] fArray) { sampleModel.setPixel(x-sampleModelTranslateX, y-sampleModelTranslateY, fArray, dataBuffer); }
|
public void setPixel(int x, int y, float[] fArray) { sampleModel.setPixel(x-sampleModelTranslateX, y-sampleModelTranslateY, iArray, dataBuffer); }
| 10,994
|
public ImageIcon(String s) { this(s, ""); }
|
public ImageIcon(String s) { this(s, s); }
| 10,995
|
public void setOffset(int offset) { if (this.dataOffset != -1) { if ("".equals(getObject().toString())) { return; } throw new RuntimeException( "Offset is already set. Duplicate labels? (" + getObject() + ")"); } if (offset < 0) { throw new IllegalArgumentException("Offset: " + offset); } this.dataOffset = offset; if (unresolvedLinks != null) { // Link all unresolved links for (UnresolvedOffset unrOfs : unresolvedLinks) { final int addr = unrOfs.getOffset(); if (unrOfs.getPatchSize() == 4) { resolve32(addr, offset); } else { resolve64(addr, offset); } } unresolvedLinks = null; } }
|
public void setOffset(int offset) { if (this.dataOffset != -1) { if ("".equals(getObject().toString())) { return; } throw new RuntimeException( "Offset is already set. Duplicate labels? (" + getObject() + ")"); } if (offset < 0) { throw new IllegalArgumentException("Offset: " + offset); } this.dataOffset = offset; if (unresolvedLinks != null) { // Link all unresolved links for (UnresolvedOffset unrOfs : unresolvedLinks) { final int addr = unrOfs.getOffset(); switch (unrOfs.getPatchSize()) { case 1: resolve8(addr, offset); break; case 4: resolve32(addr, offset); } else { resolve64(addr, offset); } } unresolvedLinks = null; } }
| 10,996
|
public void setOffset(int offset) { if (this.dataOffset != -1) { if ("".equals(getObject().toString())) { return; } throw new RuntimeException( "Offset is already set. Duplicate labels? (" + getObject() + ")"); } if (offset < 0) { throw new IllegalArgumentException("Offset: " + offset); } this.dataOffset = offset; if (unresolvedLinks != null) { // Link all unresolved links for (UnresolvedOffset unrOfs : unresolvedLinks) { final int addr = unrOfs.getOffset(); if (unrOfs.getPatchSize() == 4) { resolve32(addr, offset); } else { resolve64(addr, offset); } } unresolvedLinks = null; } }
|
public void setOffset(int offset) { if (this.dataOffset != -1) { if ("".equals(getObject().toString())) { return; } throw new RuntimeException( "Offset is already set. Duplicate labels? (" + getObject() + ")"); } if (offset < 0) { throw new IllegalArgumentException("Offset: " + offset); } this.dataOffset = offset; if (unresolvedLinks != null) { // Link all unresolved links for (UnresolvedOffset unrOfs : unresolvedLinks) { final int addr = unrOfs.getOffset(); if (unrOfs.getPatchSize() == 4) { resolve32(addr, offset); break; case 8: resolve64(addr, offset); } } unresolvedLinks = null; } }
| 10,997
|
public void setOffset(int offset) { if (this.dataOffset != -1) { if ("".equals(getObject().toString())) { return; } throw new RuntimeException( "Offset is already set. Duplicate labels? (" + getObject() + ")"); } if (offset < 0) { throw new IllegalArgumentException("Offset: " + offset); } this.dataOffset = offset; if (unresolvedLinks != null) { // Link all unresolved links for (UnresolvedOffset unrOfs : unresolvedLinks) { final int addr = unrOfs.getOffset(); if (unrOfs.getPatchSize() == 4) { resolve32(addr, offset); } else { resolve64(addr, offset); } } unresolvedLinks = null; } }
|
public void setOffset(int offset) { if (this.dataOffset != -1) { if ("".equals(getObject().toString())) { return; break; default: throw new IllegalArgumentException("Unknown patch size " + unrOfs.getPatchSize()); } throw new RuntimeException( "Offset is already set. Duplicate labels? (" + getObject() + ")"); break; default: throw new IllegalArgumentException("Unknown patch size " + unrOfs.getPatchSize()); } if (offset < 0) { throw new IllegalArgumentException("Offset: " + offset); break; default: throw new IllegalArgumentException("Unknown patch size " + unrOfs.getPatchSize()); } this.dataOffset = offset; if (unresolvedLinks != null) { // Link all unresolved links for (UnresolvedOffset unrOfs : unresolvedLinks) { final int addr = unrOfs.getOffset(); if (unrOfs.getPatchSize() == 4) { resolve32(addr, offset); break; default: throw new IllegalArgumentException("Unknown patch size " + unrOfs.getPatchSize()); } else { resolve64(addr, offset); break; default: throw new IllegalArgumentException("Unknown patch size " + unrOfs.getPatchSize()); } break; default: throw new IllegalArgumentException("Unknown patch size " + unrOfs.getPatchSize()); } unresolvedLinks = null; break; default: throw new IllegalArgumentException("Unknown patch size " + unrOfs.getPatchSize()); } break; default: throw new IllegalArgumentException("Unknown patch size " + unrOfs.getPatchSize()); }
| 10,998
|
public static final String encode(final byte[] src, final int off, final int len, final boolean breakLines) { final int len43 = len * 4 / 3; final byte[] outBuff = new byte[len43 // Main 4:3 + ((len % 3) > 0 ? 4 : 0) // Account for padding + (breakLines ? (len43 / MAX_LINE_LENGTH) : 0)]; // New lines int d = 0; int e = 0; final int len2 = len - 2; int lineLength = 0; for (; d < len2; d += 3, e += 4) { encode3to4(src, d + off, 3, outBuff, e); lineLength += 4; if (breakLines && lineLength == MAX_LINE_LENGTH) { outBuff[e + 4] = NEW_LINE; e++; lineLength = 0; } } if (d < len) { // padding needed encode3to4(src, d + off, len - d, outBuff, e); e += 4; } return new String(outBuff, 0, e); }
|
public static final String encode(final byte[] src, final int off, final int len, final boolean breakLines) { final int len43 = len * 4 / 3; final byte[] outBuff = new byte[len43 // Main 4:3 + ((len % 3) > 0 ? 4 : 0) // Account for padding + (breakLines ? (len43 / MAX_LINE_LENGTH) : 0)]; // New lines int d = 0; int e = 0; final int len2 = len - 2; int lineLength = 0; for (; d < len2; d += 3, e += 4) { encode3to4(src, d + off, 3, outBuff, e); lineLength += 4; if (breakLines && lineLength == MAX_LINE_LENGTH) { outBuff[e + 4] = NEW_LINE; e++; lineLength = 0; } } if (d < len) { // padding needed encode3to4(src, d + off, len - d, outBuff, e); e += 4; } return new String(outBuff, 0, e); }
| 10,999
|
public static final String encode(final byte[] src, final int off, final int len, final boolean breakLines) { final int len43 = len * 4 / 3; final byte[] outBuff = new byte[len43 // Main 4:3 + ((len % 3) > 0 ? 4 : 0) // Account for padding + (breakLines ? (len43 / MAX_LINE_LENGTH) : 0)]; // New lines int d = 0; int e = 0; final int len2 = len - 2; int lineLength = 0; for (; d < len2; d += 3, e += 4) { encode3to4(src, d + off, 3, outBuff, e); lineLength += 4; if (breakLines && lineLength == MAX_LINE_LENGTH) { outBuff[e + 4] = NEW_LINE; e++; lineLength = 0; } } if (d < len) { // padding needed encode3to4(src, d + off, len - d, outBuff, e); e += 4; } return new String(outBuff, 0, e); }
|
public static final String encode(final byte[] src, final int off, final int len, final boolean breakLines) { final int len43 = len * 4 / 3; final byte[] outBuff = new byte[len43 // Main 4:3 + ((len % 3) > 0 ? 4 : 0) // Account for padding + (breakLines ? (len43 / MAX_LINE_LENGTH) : 0)]; // New lines int d = 0; int e = 0; final int len2 = len - 2; int lineLength = 0; for (; d < len2; d += 3, e += 4) { encode3to4(src, d + off, 3, outBuff, e); lineLength += 4; if (breakLines && lineLength == MAX_LINE_LENGTH) { outBuff[e + 4] = NEW_LINE; e++; lineLength = 0; } } if (d < len) { // padding needed encode3to4(src, d + off, len - d, outBuff, e); e += 4; } return new String(outBuff, 0, e); }
| 11,000
|
static final Address allocateBlock(int blockSize) { if (!initialized) { initialize(); } enter(); try { // Calculate the number of blocks needed final int reqBlockCount = (int)(blockAlign(blockSize, true) >>> BLOCK_SIZE_SHIFT); // Find a large enough series of blocks final long nr = findFreeBlocks(reqBlockCount); if (nr == -1L) { Unsafe.debug("ret null."); Unsafe.debug(blockSize); Unsafe.debug("allocated blocks"); Unsafe.debug(allocatedBlocks); Unsafe.die(); return null; } // Mark all blocks as in use for (long i = 0; i < reqBlockCount; i++) { setInUse(nr + i, true); } // Return the address of block "nr". allocatedBlocks += reqBlockCount; nextBlockNr = nr + reqBlockCount; return Unsafe.longToAddress(startPtr + (nr << BLOCK_SIZE_SHIFT)); } finally { exit(); } }
|
static final Address allocateBlock(int blockSize) { if (!initialized) { initialize(); } enter(); try { // Calculate the number of blocks needed final int reqBlockCount = (int)(blockAlign(blockSize, true) >>> BLOCK_SIZE_SHIFT); // Find a large enough series of blocks final long nr = findFreeBlocks(reqBlockCount); if (nr == -1L) { Unsafe.debug("ret null."); Unsafe.debug(blockSize); Unsafe.debug("allocated blocks"); Unsafe.debug(allocatedBlocks); Unsafe.debug("total blocks"); Unsafe.debug(blockCount); return null; } // Mark all blocks as in use for (long i = 0; i < reqBlockCount; i++) { setInUse(nr + i, true); } // Return the address of block "nr". allocatedBlocks += reqBlockCount; nextBlockNr = nr + reqBlockCount; return Unsafe.longToAddress(startPtr + (nr << BLOCK_SIZE_SHIFT)); } finally { exit(); } }
| 11,001
|
static final Address allocateBlock(int blockSize) { if (!initialized) { initialize(); } enter(); try { // Calculate the number of blocks needed final int reqBlockCount = (int)(blockAlign(blockSize, true) >>> BLOCK_SIZE_SHIFT); // Find a large enough series of blocks final long nr = findFreeBlocks(reqBlockCount); if (nr == -1L) { Unsafe.debug("ret null."); Unsafe.debug(blockSize); Unsafe.debug("allocated blocks"); Unsafe.debug(allocatedBlocks); Unsafe.die(); return null; } // Mark all blocks as in use for (long i = 0; i < reqBlockCount; i++) { setInUse(nr + i, true); } // Return the address of block "nr". allocatedBlocks += reqBlockCount; nextBlockNr = nr + reqBlockCount; return Unsafe.longToAddress(startPtr + (nr << BLOCK_SIZE_SHIFT)); } finally { exit(); } }
|
static final Address allocateBlock(int blockSize) { if (!initialized) { initialize(); } enter(); try { // Calculate the number of blocks needed final int reqBlockCount = (int)(blockAlign(blockSize, true) >>> BLOCK_SIZE_SHIFT); // Find a large enough series of blocks final long nr = findFreeBlocks(reqBlockCount); if (nr == -1L) { Unsafe.debug("ret null."); Unsafe.debug(blockSize); Unsafe.debug("allocated blocks"); Unsafe.debug(allocatedBlocks); Unsafe.die(); return null; } // Mark all blocks as in use for (int i = 0; i < reqBlockCount; i++) { setInUse(nr + i, true); } // Return the address of block "nr". allocatedBlocks += reqBlockCount; nextBlockNr = nr + reqBlockCount; return Unsafe.longToAddress(startPtr + (nr << BLOCK_SIZE_SHIFT)); } finally { exit(); } }
| 11,002
|
private static void clear(Address ptr, long size) { Unsafe.debug("clear"); Unsafe.debug(size); while (size != 0) { final int part = (int)Math.min(size, 0x7fffffffL); Unsafe.debug(size); Unsafe.clear(ptr, part); ptr = Unsafe.add(ptr, part); size -= part; } }
|
private static void clear(Address ptr, long size) { Unsafe.debug("clear"); Unsafe.debug(size); while (size != 0) { final int part = (int)Math.min(size, 0x7fffffffL); Unsafe.debug(size); Unsafe.clear(ptr, part); ptr = Unsafe.add(ptr, part); size -= part; } }
| 11,003
|
private static void clear(Address ptr, long size) { Unsafe.debug("clear"); Unsafe.debug(size); while (size != 0) { final int part = (int)Math.min(size, 0x7fffffffL); Unsafe.debug(size); Unsafe.clear(ptr, part); ptr = Unsafe.add(ptr, part); size -= part; } }
|
private static void clear(Address ptr, long size) { Unsafe.debug("clear"); while (size != 0) { final int part = (int)Math.min(size, 0x7fffffffL); Unsafe.clear(ptr, part); ptr = Unsafe.add(ptr, part); size -= part; } }
| 11,004
|
private final static void initialize() { Unsafe.debug("initialize."); startPtr = blockAlign(Unsafe.addressToLong(Unsafe.getMemoryStart()), true); endPtr = blockAlign(Unsafe.addressToLong(Unsafe.getMemoryEnd()), false); final long size = endPtr - startPtr; Unsafe.debug(size); blockCount = (size >>> BLOCK_SIZE_SHIFT); // Create a lock (4 bytes) and usage bitmap at the front of the memory region final long rawBitmapSize = (blockCount >>> 3); final long bitmapSize = blockAlign(4 + rawBitmapSize, true); lockPtr = Unsafe.longToAddress(startPtr); bitmapPtr = Unsafe.longToAddress(startPtr + 4); // Clear the lock & bitmap size clear(lockPtr, bitmapSize); // Now shift the startptr. startPtr += bitmapSize; blockCount -= bitmapSize >>> BLOCK_SIZE_SHIFT; allocatedBlocks = 0; // Mark as initialized initialized = true; Unsafe.debug("Block count "); Unsafe.debug(blockCount); //Unsafe.debug("end of initialize."); }
|
private final static void initialize() { startPtr = blockAlign(Unsafe.addressToLong(Unsafe.getMemoryStart()), true); endPtr = blockAlign(Unsafe.addressToLong(Unsafe.getMemoryEnd()), false); final long size = endPtr - startPtr; Unsafe.debug(size); blockCount = (size >>> BLOCK_SIZE_SHIFT); // Create a lock (4 bytes) and usage bitmap at the front of the memory region final long rawBitmapSize = (blockCount >>> 3); final long bitmapSize = blockAlign(4 + rawBitmapSize, true); lockPtr = Unsafe.longToAddress(startPtr); bitmapPtr = Unsafe.longToAddress(startPtr + 4); // Clear the lock & bitmap size clear(lockPtr, bitmapSize); // Now shift the startptr. startPtr += bitmapSize; blockCount -= bitmapSize >>> BLOCK_SIZE_SHIFT; allocatedBlocks = 0; // Mark as initialized initialized = true; Unsafe.debug("Block count "); Unsafe.debug(blockCount); //Unsafe.debug("end of initialize."); }
| 11,005
|
private final static void initialize() { Unsafe.debug("initialize."); startPtr = blockAlign(Unsafe.addressToLong(Unsafe.getMemoryStart()), true); endPtr = blockAlign(Unsafe.addressToLong(Unsafe.getMemoryEnd()), false); final long size = endPtr - startPtr; Unsafe.debug(size); blockCount = (size >>> BLOCK_SIZE_SHIFT); // Create a lock (4 bytes) and usage bitmap at the front of the memory region final long rawBitmapSize = (blockCount >>> 3); final long bitmapSize = blockAlign(4 + rawBitmapSize, true); lockPtr = Unsafe.longToAddress(startPtr); bitmapPtr = Unsafe.longToAddress(startPtr + 4); // Clear the lock & bitmap size clear(lockPtr, bitmapSize); // Now shift the startptr. startPtr += bitmapSize; blockCount -= bitmapSize >>> BLOCK_SIZE_SHIFT; allocatedBlocks = 0; // Mark as initialized initialized = true; Unsafe.debug("Block count "); Unsafe.debug(blockCount); //Unsafe.debug("end of initialize."); }
|
private final static void initialize() { Unsafe.debug("initialize."); startPtr = blockAlign(Unsafe.addressToLong(Unsafe.getMemoryStart()), true); endPtr = blockAlign(Unsafe.addressToLong(Unsafe.getMemoryEnd()), false); final long size = endPtr - startPtr; Unsafe.debug(size); blockCount = (size >>> BLOCK_SIZE_SHIFT); // Create a lock (4 bytes) and usage bitmap at the front of the memory region final long rawBitmapSize = (blockCount >>> 3); final long bitmapSize = blockAlign(4 + rawBitmapSize, true); lockPtr = Unsafe.longToAddress(startPtr); bitmapPtr = Unsafe.longToAddress(startPtr + 4); // Clear the lock & bitmap size clear(lockPtr, bitmapSize); // Now shift the startptr. startPtr += bitmapSize; blockCount -= bitmapSize >>> BLOCK_SIZE_SHIFT; allocatedBlocks = 0; // Mark as initialized initialized = true; Unsafe.debug("Block count "); Unsafe.debug(blockCount); //Unsafe.debug("end of initialize."); }
| 11,006
|
private static final boolean isInUse(long blockNr) { // 32-bits per int, so shift=5, mask=31 final long offset = blockNr >>> 5; final int mask = (1 << (int) (blockNr & 31)); final Address ptr = Unsafe.add(bitmapPtr, Unsafe.longToAddress(offset)); final int v = Unsafe.getInt(ptr); return ((v & mask) == mask); }
|
private static final boolean isInUse(long blockNr) { // 32-bits per int, so shift=5, mask=31 final long offset = blockNr >>> 5; final int mask = (1 << (int) (blockNr & 31)); final Address ptr = Unsafe.add(bitmapPtr, Unsafe.longToAddress(offset)); final int v = Unsafe.getInt(ptr); return ((v & mask) == mask); }
| 11,007
|
private static final boolean isInUse(long blockNr) { // 32-bits per int, so shift=5, mask=31 final long offset = blockNr >>> 5; final int mask = (1 << (int) (blockNr & 31)); final Address ptr = Unsafe.add(bitmapPtr, Unsafe.longToAddress(offset)); final int v = Unsafe.getInt(ptr); return ((v & mask) == mask); }
|
private static final boolean isInUse(long blockNr) { // 32-bits per int, so shift=5, mask=31 final long offset = blockNr >>> 5; final int mask = (1 << (int) (blockNr & 31)); final Address ptr = Unsafe.add(bitmapPtr, Unsafe.longToAddress(offset)); final int v = Unsafe.getByte(ptr) & 0xFF; return ((v & mask) == mask); }
| 11,008
|
private static final void setInUse(long blockNr, boolean inUse) { // 32-bits per int, so shift=5, mask=31 final long offset = blockNr >>> 5; final int mask = (1 << (int) (blockNr & 31)); final Address ptr = Unsafe.add(bitmapPtr, Unsafe.longToAddress(offset)); int v = Unsafe.getInt(ptr); if (inUse) { v |= mask; } else { v &= ~mask; } Unsafe.setInt(ptr, v); }
|
private static final void setInUse(long blockNr, boolean inUse) { // 32-bits per int, so shift=5, mask=31 final long offset = blockNr >>> 5; final int mask = (1 << (int) (blockNr & 31)); final Address ptr = Unsafe.add(bitmapPtr, Unsafe.longToAddress(offset)); int v = Unsafe.getInt(ptr); if (inUse) { v |= mask; } else { v &= ~mask; } Unsafe.setInt(ptr, v); }
| 11,009
|
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