Datasets:
JoaoJunior
/
formatted-java-code-APR

Dataset card Data Studio Files
xet
Community
1
bugged
stringlengths
6
599k
fixed
stringlengths
6
40.8M
__index_level_0__
int64
0
3.24M
public static Policy extract(Any any) { try { PolicyHolder h = (PolicyHolder) any.extract_Streamable(); return h.value; } catch (ClassCastException ex) { throw new BAD_OPERATION("Policy expected"); } }
public static Policy extract(Any any) { try { PolicyHolder h = (PolicyHolder) any.extract_Streamable(); return h.value; } catch (ClassCastException ex) { BAD_OPERATION bad = new BAD_OPERATION("Policy expected"); bad.minor = Minor.Any; throw bad; } }
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private void createExternalProgramsPanel() { // create external options panel JPanel externalPrograms = new JPanel(); // define layout externalPanel.setLayout(new BorderLayout()); externalPanel.setBorder(BorderFactory.createEmptyBorder(5, 10, 10, 5)); externalPrograms.setLayout(new AlignLayout(3,5,5)); externalPrograms.setBorder(BorderFactory.createTitledBorder( LangTool.getString("external.title"))); externalPrograms.add(new JLabel(LangTool.getString("external.http"))); browser = new JTextField(30); if (props.containsKey("emul.protocol.http")) { browser.setText(props.getProperty("emul.protocol.http")); } externalPrograms.add(browser); externalPrograms.add(new JButton("...")); externalPrograms.add(new JLabel(LangTool.getString("external.mailto"))); mailer = new JTextField(30); if (props.containsKey("emul.protocol.mailto")) { mailer.setText(props.getProperty("emul.protocol.mailto")); } externalPrograms.add(mailer); externalPrograms.add(new JButton("...")); externalPanel.add(externalPrograms, BorderLayout.NORTH); }
private void createExternalProgramsPanel() { // create external options panel JPanel externalPrograms = new JPanel(); // define layout externalPanel.setLayout(new BorderLayout()); externalPanel.setBorder(BorderFactory.createEmptyBorder(5, 10, 10, 5)); externalPrograms.setLayout(new AlignLayout(3,5,5)); externalPrograms.setBorder(BorderFactory.createTitledBorder( LangTool.getString("external.title"))); externalPrograms.add(new JLabel(LangTool.getString("external.http"))); browser = new JTextField(30); if (props.containsKey("emul.protocol.http")) { browser.setText(props.getProperty("emul.protocol.http")); } externalPrograms.add(browser); externalPrograms.add(new JButton("...")); externalPrograms.add(new JLabel(LangTool.getString("external.mailto"))); mailer = new JTextField(30); if (props.containsKey("emul.protocol.mailto")) { mailer.setText(props.getProperty("emul.protocol.mailto")); } externalPrograms.add(mailer); externalPrograms.add(new JButton("...")); externalPanel.add(externalPrograms, BorderLayout.NORTH); }
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private void createExternalProgramsPanel() { // create external options panel JPanel externalPrograms = new JPanel(); // define layout externalPanel.setLayout(new BorderLayout()); externalPanel.setBorder(BorderFactory.createEmptyBorder(5, 10, 10, 5)); externalPrograms.setLayout(new AlignLayout(3,5,5)); externalPrograms.setBorder(BorderFactory.createTitledBorder( LangTool.getString("external.title"))); externalPrograms.add(new JLabel(LangTool.getString("external.http"))); browser = new JTextField(30); if (props.containsKey("emul.protocol.http")) { browser.setText(props.getProperty("emul.protocol.http")); } externalPrograms.add(browser); externalPrograms.add(new JButton("...")); externalPrograms.add(new JLabel(LangTool.getString("external.mailto"))); mailer = new JTextField(30); if (props.containsKey("emul.protocol.mailto")) { mailer.setText(props.getProperty("emul.protocol.mailto")); } externalPrograms.add(mailer); externalPrograms.add(new JButton("...")); externalPanel.add(externalPrograms, BorderLayout.NORTH); }
private void createExternalProgramsPanel() { // create external options panel JPanel externalPrograms = new JPanel(); // define layout externalPanel.setLayout(new BorderLayout()); externalPanel.setBorder(BorderFactory.createEmptyBorder(5, 10, 10, 5)); externalPrograms.setLayout(new AlignLayout(3,5,5)); externalPrograms.setBorder(BorderFactory.createTitledBorder( LangTool.getString("external.title"))); externalPrograms.add(new JLabel(LangTool.getString("external.http"))); browser = new JTextField(30); if (props.containsKey("emul.protocol.http")) { browser.setText(props.getProperty("emul.protocol.http")); } externalPrograms.add(browser); externalPrograms.add(new JButton("...")); externalPrograms.add(new JLabel(LangTool.getString("external.mailto"))); mailer = new JTextField(30); if (props.containsKey("emul.protocol.mailto")) { mailer.setText(props.getProperty("emul.protocol.mailto")); } externalPrograms.add(mailer); externalPrograms.add(new JButton("...")); externalPanel.add(externalPrograms, BorderLayout.NORTH); }
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private void createExternalProgramsPanel() { // create external options panel JPanel externalPrograms = new JPanel(); // define layout externalPanel.setLayout(new BorderLayout()); externalPanel.setBorder(BorderFactory.createEmptyBorder(5, 10, 10, 5)); externalPrograms.setLayout(new AlignLayout(3,5,5)); externalPrograms.setBorder(BorderFactory.createTitledBorder( LangTool.getString("external.title"))); externalPrograms.add(new JLabel(LangTool.getString("external.http"))); browser = new JTextField(30); if (props.containsKey("emul.protocol.http")) { browser.setText(props.getProperty("emul.protocol.http")); } externalPrograms.add(browser); externalPrograms.add(new JButton("...")); externalPrograms.add(new JLabel(LangTool.getString("external.mailto"))); mailer = new JTextField(30); if (props.containsKey("emul.protocol.mailto")) { mailer.setText(props.getProperty("emul.protocol.mailto")); } externalPrograms.add(mailer); externalPrograms.add(new JButton("...")); externalPanel.add(externalPrograms, BorderLayout.NORTH); }
private void createExternalProgramsPanel() { // create external options panel JPanel externalPrograms = new JPanel(); // define layout externalPanel.setLayout(new BorderLayout()); externalPanel.setBorder(BorderFactory.createEmptyBorder(5, 10, 10, 5)); externalPrograms.setLayout(new AlignLayout(3,5,5)); externalPrograms.setBorder(BorderFactory.createTitledBorder( LangTool.getString("external.title"))); externalPrograms.add(new JLabel(LangTool.getString("external.http"))); browser = new JTextField(30); if (props.containsKey("emul.protocol.http")) { browser.setText(props.getProperty("emul.protocol.http")); } externalPrograms.add(browser); externalPrograms.add(new JButton("...")); externalPrograms.add(new JLabel(LangTool.getString("external.mailto"))); mailer = new JTextField(30); if (props.containsKey("emul.protocol.mailto")) { mailer.setText(props.getProperty("emul.protocol.mailto")); } externalPrograms.add(mailer); externalPrograms.add(new JButton("...")); externalPanel.add(externalPrograms, BorderLayout.NORTH); }
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private void createExternalProgramsPanel() { // create external options panel JPanel externalPrograms = new JPanel(); // define layout externalPanel.setLayout(new BorderLayout()); externalPanel.setBorder(BorderFactory.createEmptyBorder(5, 10, 10, 5)); externalPrograms.setLayout(new AlignLayout(3,5,5)); externalPrograms.setBorder(BorderFactory.createTitledBorder( LangTool.getString("external.title"))); externalPrograms.add(new JLabel(LangTool.getString("external.http"))); browser = new JTextField(30); if (props.containsKey("emul.protocol.http")) { browser.setText(props.getProperty("emul.protocol.http")); } externalPrograms.add(browser); externalPrograms.add(new JButton("...")); externalPrograms.add(new JLabel(LangTool.getString("external.mailto"))); mailer = new JTextField(30); if (props.containsKey("emul.protocol.mailto")) { mailer.setText(props.getProperty("emul.protocol.mailto")); } externalPrograms.add(mailer); externalPrograms.add(new JButton("...")); externalPanel.add(externalPrograms, BorderLayout.NORTH); }
private void createExternalProgramsPanel() { // create external options panel JPanel externalPrograms = new JPanel(); // define layout externalPanel.setLayout(new BorderLayout()); externalPanel.setBorder(BorderFactory.createEmptyBorder(5, 10, 10, 5)); externalPrograms.setLayout(new AlignLayout(3,5,5)); externalPrograms.setBorder(BorderFactory.createTitledBorder( LangTool.getString("external.title"))); externalPrograms.add(new JLabel(LangTool.getString("external.http"))); browser = new JTextField(30); if (props.containsKey("emul.protocol.http")) { browser.setText(props.getProperty("emul.protocol.http")); } externalPrograms.add(browser); externalPrograms.add(new JButton("...")); externalPrograms.add(new JLabel(LangTool.getString("external.mailto"))); mailer = new JTextField(30); if (props.containsKey("emul.protocol.mailto")) { mailer.setText(props.getProperty("emul.protocol.mailto")); } externalPrograms.add(mailer); externalPrograms.add(new JButton("...")); externalPanel.add(externalPrograms, BorderLayout.NORTH); }
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private void createLoggingPanel(){ loggingPanel.setLayout(new GridBagLayout()); // levelPanel levelPanel = new JPanel(new GridBagLayout()); TitledBorder tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Level")); tb.setTitleJustification(TitledBorder.CENTER); levelPanel.setBorder(tb); // Create the Checkboxes // The translation section is called ... // #Logging Literals // Search and translate into the message property-files ButtonGroup levelGroup = new ButtonGroup(); intOFF = new JRadioButton(LangTool.getString("logscr.Off")); intOFF.setSelected(true); intOFF.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intOFF_itemStateChanged(e); } }); intDEBUG = new JRadioButton(LangTool.getString("logscr.Debug")); intINFO = new JRadioButton(LangTool.getString("logscr.Info")); intWARN = new JRadioButton(LangTool.getString("logscr.Warn")); intERROR = new JRadioButton(LangTool.getString("logscr.Error")); intFATAL = new JRadioButton(LangTool.getString("logscr.Fatal")); // add the interface options to the group control levelGroup.add(intOFF); levelGroup.add(intDEBUG); levelGroup.add(intINFO); levelGroup.add(intWARN); levelGroup.add(intERROR); levelGroup.add(intFATAL); // add the levelPanel components gbc = new GridBagConstraints(); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); levelPanel.add(intOFF, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intDEBUG, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intINFO, gbc); gbc.gridx = 0; gbc.gridy = 3; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intWARN, gbc); gbc.gridx = 0; gbc.gridy = 4; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intERROR, gbc); gbc.gridx = 0; gbc.gridy = 5; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); levelPanel.add(intFATAL, gbc); appenderPanel = new JPanel(new GridBagLayout()); tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Appender")); tb.setTitleJustification(TitledBorder.CENTER); appenderPanel.setBorder(tb); ButtonGroup appenderGroup = new ButtonGroup(); intConsole = new JRadioButton(LangTool.getString("logscr.Console")); intConsole.setSelected(true); intConsole.setEnabled(false); intConsole.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intConsole_itemStateChanged(e); } }); intFile = new JRadioButton(LangTool.getString("logscr.File")); intFile.setEnabled(false); intBoth = new JRadioButton(LangTool.getString("logscr.Both")); intBoth.setEnabled(false); appenderGroup.add(intConsole); appenderGroup.add(intFile); appenderGroup.add(intBoth); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); appenderPanel.add(intConsole, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); appenderPanel.add(intFile, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); appenderPanel.add(intBoth, gbc); // add the pannels to the mainpanel gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 10, 10, 20); loggingPanel.add(levelPanel, gbc); gbc.gridx = 1; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 20, 10, 10); loggingPanel.add(appenderPanel, gbc); }
private void createLoggingPanel(){ loggingPanel.setLayout(new GridBagLayout()); // levelPanel levelPanel = new JPanel(new GridBagLayout()); TitledBorder tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Level")); tb.setTitleJustification(TitledBorder.CENTER); levelPanel.setBorder(tb); // Create the Checkboxes // The translation section is called ... // #Logging Literals // Search and translate into the message property-files ButtonGroup levelGroup = new ButtonGroup(); intOFF = new JRadioButton(LangTool.getString("logscr.Off")); intOFF.setSelected(true); intOFF.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intOFF_itemStateChanged(e); } }); intDEBUG = new JRadioButton(LangTool.getString("logscr.Debug")); intINFO = new JRadioButton(LangTool.getString("logscr.Info")); intWARN = new JRadioButton(LangTool.getString("logscr.Warn")); intERROR = new JRadioButton(LangTool.getString("logscr.Error")); intFATAL = new JRadioButton(LangTool.getString("logscr.Fatal")); // add the interface options to the group control levelGroup.add(intOFF); levelGroup.add(intDEBUG); levelGroup.add(intINFO); levelGroup.add(intWARN); levelGroup.add(intERROR); levelGroup.add(intFATAL); // add the levelPanel components gbc = new GridBagConstraints(); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); levelPanel.add(intOFF, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intDEBUG, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intINFO, gbc); gbc.gridx = 0; gbc.gridy = 3; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intWARN, gbc); gbc.gridx = 0; gbc.gridy = 4; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intERROR, gbc); gbc.gridx = 0; gbc.gridy = 5; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); levelPanel.add(intFATAL, gbc); appenderPanel = new JPanel(new GridBagLayout()); tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Appender")); tb.setTitleJustification(TitledBorder.CENTER); appenderPanel.setBorder(tb); ButtonGroup appenderGroup = new ButtonGroup(); intConsole = new JRadioButton(LangTool.getString("logscr.Console")); intConsole.setSelected(true); intConsole.setEnabled(false); intConsole.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intConsole_itemStateChanged(e); } }); intFile = new JRadioButton(LangTool.getString("logscr.File")); intFile.setEnabled(false); intBoth = new JRadioButton(LangTool.getString("logscr.Both")); intBoth.setEnabled(false); appenderGroup.add(intConsole); appenderGroup.add(intFile); appenderGroup.add(intBoth); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); appenderPanel.add(intConsole, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); appenderPanel.add(intFile, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); appenderPanel.add(intBoth, gbc); // add the pannels to the mainpanel gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 10, 10, 20); loggingPanel.add(levelPanel, gbc); gbc.gridx = 1; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 20, 10, 10); loggingPanel.add(appenderPanel, gbc); }
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private void createLoggingPanel(){ loggingPanel.setLayout(new GridBagLayout()); // levelPanel levelPanel = new JPanel(new GridBagLayout()); TitledBorder tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Level")); tb.setTitleJustification(TitledBorder.CENTER); levelPanel.setBorder(tb); // Create the Checkboxes // The translation section is called ... // #Logging Literals // Search and translate into the message property-files ButtonGroup levelGroup = new ButtonGroup(); intOFF = new JRadioButton(LangTool.getString("logscr.Off")); intOFF.setSelected(true); intOFF.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intOFF_itemStateChanged(e); } }); intDEBUG = new JRadioButton(LangTool.getString("logscr.Debug")); intINFO = new JRadioButton(LangTool.getString("logscr.Info")); intWARN = new JRadioButton(LangTool.getString("logscr.Warn")); intERROR = new JRadioButton(LangTool.getString("logscr.Error")); intFATAL = new JRadioButton(LangTool.getString("logscr.Fatal")); // add the interface options to the group control levelGroup.add(intOFF); levelGroup.add(intDEBUG); levelGroup.add(intINFO); levelGroup.add(intWARN); levelGroup.add(intERROR); levelGroup.add(intFATAL); // add the levelPanel components gbc = new GridBagConstraints(); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); levelPanel.add(intOFF, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intDEBUG, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intINFO, gbc); gbc.gridx = 0; gbc.gridy = 3; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intWARN, gbc); gbc.gridx = 0; gbc.gridy = 4; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intERROR, gbc); gbc.gridx = 0; gbc.gridy = 5; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); levelPanel.add(intFATAL, gbc); appenderPanel = new JPanel(new GridBagLayout()); tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Appender")); tb.setTitleJustification(TitledBorder.CENTER); appenderPanel.setBorder(tb); ButtonGroup appenderGroup = new ButtonGroup(); intConsole = new JRadioButton(LangTool.getString("logscr.Console")); intConsole.setSelected(true); intConsole.setEnabled(false); intConsole.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intConsole_itemStateChanged(e); } }); intFile = new JRadioButton(LangTool.getString("logscr.File")); intFile.setEnabled(false); intBoth = new JRadioButton(LangTool.getString("logscr.Both")); intBoth.setEnabled(false); appenderGroup.add(intConsole); appenderGroup.add(intFile); appenderGroup.add(intBoth); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); appenderPanel.add(intConsole, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); appenderPanel.add(intFile, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); appenderPanel.add(intBoth, gbc); // add the pannels to the mainpanel gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 10, 10, 20); loggingPanel.add(levelPanel, gbc); gbc.gridx = 1; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 20, 10, 10); loggingPanel.add(appenderPanel, gbc); }
private void createLoggingPanel(){ loggingPanel.setLayout(new GridBagLayout()); // levelPanel levelPanel = new JPanel(new GridBagLayout()); TitledBorder tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Level")); tb.setTitleJustification(TitledBorder.CENTER); levelPanel.setBorder(tb); // Create the Checkboxes // The translation section is called ... // #Logging Literals // Search and translate into the message property-files ButtonGroup levelGroup = new ButtonGroup(); intOFF = new JRadioButton(LangTool.getString("logscr.Off")); intOFF.setSelected(true); intOFF.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intOFF_itemStateChanged(e); } }); intDEBUG = new JRadioButton(LangTool.getString("logscr.Debug")); intINFO = new JRadioButton(LangTool.getString("logscr.Info")); intWARN = new JRadioButton(LangTool.getString("logscr.Warn")); intERROR = new JRadioButton(LangTool.getString("logscr.Error")); intFATAL = new JRadioButton(LangTool.getString("logscr.Fatal")); // add the interface options to the group control levelGroup.add(intOFF); levelGroup.add(intDEBUG); levelGroup.add(intINFO); levelGroup.add(intWARN); levelGroup.add(intERROR); levelGroup.add(intFATAL); // add the levelPanel components gbc = new GridBagConstraints(); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); levelPanel.add(intOFF, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intDEBUG, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intINFO, gbc); gbc.gridx = 0; gbc.gridy = 3; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intWARN, gbc); gbc.gridx = 0; gbc.gridy = 4; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intERROR, gbc); gbc.gridx = 0; gbc.gridy = 5; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); levelPanel.add(intFATAL, gbc); appenderPanel = new JPanel(new GridBagLayout()); tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Appender")); tb.setTitleJustification(TitledBorder.CENTER); appenderPanel.setBorder(tb); ButtonGroup appenderGroup = new ButtonGroup(); intConsole = new JRadioButton(LangTool.getString("logscr.Console")); intConsole.setSelected(true); intConsole.setEnabled(false); intConsole.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intConsole_itemStateChanged(e); } }); intFile = new JRadioButton(LangTool.getString("logscr.File")); intFile.setEnabled(false); intBoth = new JRadioButton(LangTool.getString("logscr.Both")); intBoth.setEnabled(false); appenderGroup.add(intConsole); appenderGroup.add(intFile); appenderGroup.add(intBoth); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); appenderPanel.add(intConsole, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); appenderPanel.add(intFile, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); appenderPanel.add(intBoth, gbc); // add the pannels to the mainpanel gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 10, 10, 20); loggingPanel.add(levelPanel, gbc); gbc.gridx = 1; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 20, 10, 10); loggingPanel.add(appenderPanel, gbc); }
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private void createLoggingPanel(){ loggingPanel.setLayout(new GridBagLayout()); // levelPanel levelPanel = new JPanel(new GridBagLayout()); TitledBorder tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Level")); tb.setTitleJustification(TitledBorder.CENTER); levelPanel.setBorder(tb); // Create the Checkboxes // The translation section is called ... // #Logging Literals // Search and translate into the message property-files ButtonGroup levelGroup = new ButtonGroup(); intOFF = new JRadioButton(LangTool.getString("logscr.Off")); intOFF.setSelected(true); intOFF.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intOFF_itemStateChanged(e); } }); intDEBUG = new JRadioButton(LangTool.getString("logscr.Debug")); intINFO = new JRadioButton(LangTool.getString("logscr.Info")); intWARN = new JRadioButton(LangTool.getString("logscr.Warn")); intERROR = new JRadioButton(LangTool.getString("logscr.Error")); intFATAL = new JRadioButton(LangTool.getString("logscr.Fatal")); // add the interface options to the group control levelGroup.add(intOFF); levelGroup.add(intDEBUG); levelGroup.add(intINFO); levelGroup.add(intWARN); levelGroup.add(intERROR); levelGroup.add(intFATAL); // add the levelPanel components gbc = new GridBagConstraints(); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); levelPanel.add(intOFF, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intDEBUG, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intINFO, gbc); gbc.gridx = 0; gbc.gridy = 3; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intWARN, gbc); gbc.gridx = 0; gbc.gridy = 4; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intERROR, gbc); gbc.gridx = 0; gbc.gridy = 5; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); levelPanel.add(intFATAL, gbc); appenderPanel = new JPanel(new GridBagLayout()); tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Appender")); tb.setTitleJustification(TitledBorder.CENTER); appenderPanel.setBorder(tb); ButtonGroup appenderGroup = new ButtonGroup(); intConsole = new JRadioButton(LangTool.getString("logscr.Console")); intConsole.setSelected(true); intConsole.setEnabled(false); intConsole.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intConsole_itemStateChanged(e); } }); intFile = new JRadioButton(LangTool.getString("logscr.File")); intFile.setEnabled(false); intBoth = new JRadioButton(LangTool.getString("logscr.Both")); intBoth.setEnabled(false); appenderGroup.add(intConsole); appenderGroup.add(intFile); appenderGroup.add(intBoth); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); appenderPanel.add(intConsole, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); appenderPanel.add(intFile, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); appenderPanel.add(intBoth, gbc); // add the pannels to the mainpanel gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 10, 10, 20); loggingPanel.add(levelPanel, gbc); gbc.gridx = 1; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 20, 10, 10); loggingPanel.add(appenderPanel, gbc); }
private void createLoggingPanel(){ loggingPanel.setLayout(new GridBagLayout()); // levelPanel levelPanel = new JPanel(new GridBagLayout()); TitledBorder tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Level")); tb.setTitleJustification(TitledBorder.CENTER); levelPanel.setBorder(tb); // Create the Checkboxes // The translation section is called ... // #Logging Literals // Search and translate into the message property-files ButtonGroup levelGroup = new ButtonGroup(); intOFF = new JRadioButton(LangTool.getString("logscr.Off")); intOFF.setSelected(true); intOFF.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intOFF_itemStateChanged(e); } }); intDEBUG = new JRadioButton(LangTool.getString("logscr.Debug")); intINFO = new JRadioButton(LangTool.getString("logscr.Info")); intWARN = new JRadioButton(LangTool.getString("logscr.Warn")); intERROR = new JRadioButton(LangTool.getString("logscr.Error")); intFATAL = new JRadioButton(LangTool.getString("logscr.Fatal")); // add the interface options to the group control levelGroup.add(intOFF); levelGroup.add(intDEBUG); levelGroup.add(intINFO); levelGroup.add(intWARN); levelGroup.add(intERROR); levelGroup.add(intFATAL); // add the levelPanel components gbc = new GridBagConstraints(); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); levelPanel.add(intOFF, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intDEBUG, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intINFO, gbc); gbc.gridx = 0; gbc.gridy = 3; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intWARN, gbc); gbc.gridx = 0; gbc.gridy = 4; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intERROR, gbc); gbc.gridx = 0; gbc.gridy = 5; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); levelPanel.add(intFATAL, gbc); appenderPanel = new JPanel(new GridBagLayout()); tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Appender")); tb.setTitleJustification(TitledBorder.CENTER); appenderPanel.setBorder(tb); ButtonGroup appenderGroup = new ButtonGroup(); intConsole = new JRadioButton(LangTool.getString("logscr.Console")); intConsole.setSelected(true); intConsole.setEnabled(false); intConsole.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intConsole_itemStateChanged(e); } }); intFile = new JRadioButton(LangTool.getString("logscr.File")); intFile.setEnabled(false); intBoth = new JRadioButton(LangTool.getString("logscr.Both")); intBoth.setEnabled(false); appenderGroup.add(intConsole); appenderGroup.add(intFile); appenderGroup.add(intBoth); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); appenderPanel.add(intConsole, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); appenderPanel.add(intFile, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); appenderPanel.add(intBoth, gbc); // add the pannels to the mainpanel gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 10, 10, 20); loggingPanel.add(levelPanel, gbc); gbc.gridx = 1; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 20, 10, 10); loggingPanel.add(appenderPanel, gbc); }
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private void createLoggingPanel(){ loggingPanel.setLayout(new GridBagLayout()); // levelPanel levelPanel = new JPanel(new GridBagLayout()); TitledBorder tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Level")); tb.setTitleJustification(TitledBorder.CENTER); levelPanel.setBorder(tb); // Create the Checkboxes // The translation section is called ... // #Logging Literals // Search and translate into the message property-files ButtonGroup levelGroup = new ButtonGroup(); intOFF = new JRadioButton(LangTool.getString("logscr.Off")); intOFF.setSelected(true); intOFF.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intOFF_itemStateChanged(e); } }); intDEBUG = new JRadioButton(LangTool.getString("logscr.Debug")); intINFO = new JRadioButton(LangTool.getString("logscr.Info")); intWARN = new JRadioButton(LangTool.getString("logscr.Warn")); intERROR = new JRadioButton(LangTool.getString("logscr.Error")); intFATAL = new JRadioButton(LangTool.getString("logscr.Fatal")); // add the interface options to the group control levelGroup.add(intOFF); levelGroup.add(intDEBUG); levelGroup.add(intINFO); levelGroup.add(intWARN); levelGroup.add(intERROR); levelGroup.add(intFATAL); // add the levelPanel components gbc = new GridBagConstraints(); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); levelPanel.add(intOFF, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intDEBUG, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intINFO, gbc); gbc.gridx = 0; gbc.gridy = 3; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intWARN, gbc); gbc.gridx = 0; gbc.gridy = 4; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intERROR, gbc); gbc.gridx = 0; gbc.gridy = 5; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); levelPanel.add(intFATAL, gbc); appenderPanel = new JPanel(new GridBagLayout()); tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Appender")); tb.setTitleJustification(TitledBorder.CENTER); appenderPanel.setBorder(tb); ButtonGroup appenderGroup = new ButtonGroup(); intConsole = new JRadioButton(LangTool.getString("logscr.Console")); intConsole.setSelected(true); intConsole.setEnabled(false); intConsole.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intConsole_itemStateChanged(e); } }); intFile = new JRadioButton(LangTool.getString("logscr.File")); intFile.setEnabled(false); intBoth = new JRadioButton(LangTool.getString("logscr.Both")); intBoth.setEnabled(false); appenderGroup.add(intConsole); appenderGroup.add(intFile); appenderGroup.add(intBoth); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); appenderPanel.add(intConsole, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); appenderPanel.add(intFile, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); appenderPanel.add(intBoth, gbc); // add the pannels to the mainpanel gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 10, 10, 20); loggingPanel.add(levelPanel, gbc); gbc.gridx = 1; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 20, 10, 10); loggingPanel.add(appenderPanel, gbc); }
private void createLoggingPanel(){ loggingPanel.setLayout(new GridBagLayout()); // levelPanel levelPanel = new JPanel(new GridBagLayout()); TitledBorder tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Level")); tb.setTitleJustification(TitledBorder.CENTER); levelPanel.setBorder(tb); // Create the Checkboxes // The translation section is called ... // #Logging Literals // Search and translate into the message property-files ButtonGroup levelGroup = new ButtonGroup(); intOFF = new JRadioButton(LangTool.getString("logscr.Off")); intOFF.setSelected(true); intOFF.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intOFF_itemStateChanged(e); } }); intDEBUG = new JRadioButton(LangTool.getString("logscr.Debug")); intINFO = new JRadioButton(LangTool.getString("logscr.Info")); intWARN = new JRadioButton(LangTool.getString("logscr.Warn")); intERROR = new JRadioButton(LangTool.getString("logscr.Error")); intFATAL = new JRadioButton(LangTool.getString("logscr.Fatal")); // add the interface options to the group control levelGroup.add(intOFF); levelGroup.add(intDEBUG); levelGroup.add(intINFO); levelGroup.add(intWARN); levelGroup.add(intERROR); levelGroup.add(intFATAL); // add the levelPanel components gbc = new GridBagConstraints(); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); levelPanel.add(intOFF, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intDEBUG, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intINFO, gbc); gbc.gridx = 0; gbc.gridy = 3; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intWARN, gbc); gbc.gridx = 0; gbc.gridy = 4; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intERROR, gbc); gbc.gridx = 0; gbc.gridy = 5; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); levelPanel.add(intFATAL, gbc); appenderPanel = new JPanel(new GridBagLayout()); tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Appender")); tb.setTitleJustification(TitledBorder.CENTER); appenderPanel.setBorder(tb); ButtonGroup appenderGroup = new ButtonGroup(); intConsole = new JRadioButton(LangTool.getString("logscr.Console")); intConsole.setSelected(true); intConsole.setEnabled(false); intConsole.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intConsole_itemStateChanged(e); } }); intFile = new JRadioButton(LangTool.getString("logscr.File")); intFile.setEnabled(false); intBoth = new JRadioButton(LangTool.getString("logscr.Both")); intBoth.setEnabled(false); appenderGroup.add(intConsole); appenderGroup.add(intFile); appenderGroup.add(intBoth); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); appenderPanel.add(intConsole, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); appenderPanel.add(intFile, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); appenderPanel.add(intBoth, gbc); // add the pannels to the mainpanel gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 10, 10, 20); loggingPanel.add(levelPanel, gbc); gbc.gridx = 1; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 20, 10, 10); loggingPanel.add(appenderPanel, gbc); }
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private void createLoggingPanel(){ loggingPanel.setLayout(new GridBagLayout()); // levelPanel levelPanel = new JPanel(new GridBagLayout()); TitledBorder tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Level")); tb.setTitleJustification(TitledBorder.CENTER); levelPanel.setBorder(tb); // Create the Checkboxes // The translation section is called ... // #Logging Literals // Search and translate into the message property-files ButtonGroup levelGroup = new ButtonGroup(); intOFF = new JRadioButton(LangTool.getString("logscr.Off")); intOFF.setSelected(true); intOFF.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intOFF_itemStateChanged(e); } }); intDEBUG = new JRadioButton(LangTool.getString("logscr.Debug")); intINFO = new JRadioButton(LangTool.getString("logscr.Info")); intWARN = new JRadioButton(LangTool.getString("logscr.Warn")); intERROR = new JRadioButton(LangTool.getString("logscr.Error")); intFATAL = new JRadioButton(LangTool.getString("logscr.Fatal")); // add the interface options to the group control levelGroup.add(intOFF); levelGroup.add(intDEBUG); levelGroup.add(intINFO); levelGroup.add(intWARN); levelGroup.add(intERROR); levelGroup.add(intFATAL); // add the levelPanel components gbc = new GridBagConstraints(); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); levelPanel.add(intOFF, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intDEBUG, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intINFO, gbc); gbc.gridx = 0; gbc.gridy = 3; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intWARN, gbc); gbc.gridx = 0; gbc.gridy = 4; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intERROR, gbc); gbc.gridx = 0; gbc.gridy = 5; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); levelPanel.add(intFATAL, gbc); appenderPanel = new JPanel(new GridBagLayout()); tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Appender")); tb.setTitleJustification(TitledBorder.CENTER); appenderPanel.setBorder(tb); ButtonGroup appenderGroup = new ButtonGroup(); intConsole = new JRadioButton(LangTool.getString("logscr.Console")); intConsole.setSelected(true); intConsole.setEnabled(false); intConsole.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intConsole_itemStateChanged(e); } }); intFile = new JRadioButton(LangTool.getString("logscr.File")); intFile.setEnabled(false); intBoth = new JRadioButton(LangTool.getString("logscr.Both")); intBoth.setEnabled(false); appenderGroup.add(intConsole); appenderGroup.add(intFile); appenderGroup.add(intBoth); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); appenderPanel.add(intConsole, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); appenderPanel.add(intFile, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); appenderPanel.add(intBoth, gbc); // add the pannels to the mainpanel gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 10, 10, 20); loggingPanel.add(levelPanel, gbc); gbc.gridx = 1; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 20, 10, 10); loggingPanel.add(appenderPanel, gbc); }
private switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } void switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } createLoggingPanel(){ loggingPanel.setLayout(new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } GridBagLayout()); // switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } levelPanel levelPanel switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } JPanel(new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } GridBagLayout()); TitledBorder switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } tb switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } BorderFactory.createTitledBorder( LangTool.getString("logscr.Level")); tb.setTitleJustification(TitledBorder.CENTER); levelPanel.setBorder(tb); // switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } Create switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } the switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } Checkboxes // switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } The switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } translation switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } section switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } is switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } called switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } ... // switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } #Logging switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } Literals // switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } Search switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } and switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } translate switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } into switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } the switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } message switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } property-files ButtonGroup switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } levelGroup switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } ButtonGroup(); intOFF switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } JRadioButton(LangTool.getString("logscr.Off")); intOFF.setSelected(true); intOFF.addItemListener(new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } java.awt.event.ItemListener() switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } { public switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } void switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } itemStateChanged(ItemEvent switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } e) switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } { intOFF_itemStateChanged(e); } }); intDEBUG switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } JRadioButton(LangTool.getString("logscr.Debug")); intINFO switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } JRadioButton(LangTool.getString("logscr.Info")); intWARN switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } JRadioButton(LangTool.getString("logscr.Warn")); intERROR switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } JRadioButton(LangTool.getString("logscr.Error")); intFATAL switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } JRadioButton(LangTool.getString("logscr.Fatal")); // switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } add switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } the switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } interface switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } options switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } to switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } the switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } group switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } control levelGroup.add(intOFF); levelGroup.add(intDEBUG); levelGroup.add(intINFO); levelGroup.add(intWARN); levelGroup.add(intERROR); levelGroup.add(intFATAL); // switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } add switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } the switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } levelPanel switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } components gbc switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } GridBagConstraints(); gbc.gridx switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 0; gbc.gridy switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 0; gbc.anchor switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } GridBagConstraints.WEST; gbc.insets switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } Insets(20, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 5, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20); levelPanel.add(intOFF, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } gbc); gbc.gridx switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 0; gbc.gridy switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 1; gbc.anchor switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } GridBagConstraints.WEST; gbc.insets switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } Insets(5, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 5, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20); levelPanel.add(intDEBUG, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } gbc); gbc.gridx switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 0; gbc.gridy switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 2; gbc.anchor switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } GridBagConstraints.WEST; gbc.insets switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } Insets(5, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 5, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20); levelPanel.add(intINFO, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } gbc); gbc.gridx switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 0; gbc.gridy switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 3; gbc.anchor switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } GridBagConstraints.WEST; gbc.insets switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } Insets(5, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 5, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20); levelPanel.add(intWARN, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } gbc); gbc.gridx switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 0; gbc.gridy switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 4; gbc.anchor switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } GridBagConstraints.WEST; gbc.insets switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } Insets(5, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 5, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20); levelPanel.add(intERROR, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } gbc); gbc.gridx switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 0; gbc.gridy switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 5; gbc.anchor switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } GridBagConstraints.WEST; gbc.insets switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } Insets(5, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20); levelPanel.add(intFATAL, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } gbc); appenderPanel switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } JPanel(new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } GridBagLayout()); tb switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } BorderFactory.createTitledBorder( LangTool.getString("logscr.Appender")); tb.setTitleJustification(TitledBorder.CENTER); appenderPanel.setBorder(tb); ButtonGroup switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } appenderGroup switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } ButtonGroup(); intConsole switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } JRadioButton(LangTool.getString("logscr.Console")); intConsole.setSelected(true); intConsole.setEnabled(false); intConsole.addItemListener(new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } java.awt.event.ItemListener() switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } { public switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } void switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } itemStateChanged(ItemEvent switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } e) switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } { intConsole_itemStateChanged(e); } }); intFile switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } JRadioButton(LangTool.getString("logscr.File")); intFile.setEnabled(false); intBoth switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } JRadioButton(LangTool.getString("logscr.Both")); intBoth.setEnabled(false); appenderGroup.add(intConsole); appenderGroup.add(intFile); appenderGroup.add(intBoth); gbc.gridx switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 0; gbc.gridy switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 0; gbc.anchor switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } GridBagConstraints.WEST; gbc.insets switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } Insets(20, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 5, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20); appenderPanel.add(intConsole, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } gbc); gbc.gridx switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 0; gbc.gridy switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 1; gbc.anchor switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } GridBagConstraints.WEST; gbc.insets switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } Insets(5, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 5, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20); appenderPanel.add(intFile, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } gbc); gbc.gridx switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 0; gbc.gridy switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 2; gbc.anchor switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } GridBagConstraints.WEST; gbc.insets switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } Insets(5, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20); appenderPanel.add(intBoth, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } gbc); // switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } add switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } the switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } pannels switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } to switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } the switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } mainpanel gbc.gridx switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 0; gbc.gridy switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 0; gbc.anchor switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } GridBagConstraints.WEST; gbc.insets switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } Insets(10, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 10, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 10, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20); loggingPanel.add(levelPanel, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } gbc); gbc.gridx switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 1; gbc.gridy switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 0; gbc.anchor switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } GridBagConstraints.WEST; gbc.insets switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } = switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } new switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } Insets(10, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 20, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 10, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } 10); loggingPanel.add(appenderPanel, switch (logLevel) { case TN5250jLogger.OFF: intOFF.setSelected(true); break; case TN5250jLogger.DEBUG: intDEBUG.setSelected(true); break; case TN5250jLogger.INFO: intINFO.setSelected(true); break; case TN5250jLogger.WARN: intWARN.setSelected(true); break; case TN5250jLogger.ERROR: intERROR.setSelected(true); break; case TN5250jLogger.FATAL: intFATAL.setSelected(true); break; default: intINFO.setSelected(true); } gbc); }
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private void createLoggingPanel(){ loggingPanel.setLayout(new GridBagLayout()); // levelPanel levelPanel = new JPanel(new GridBagLayout()); TitledBorder tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Level")); tb.setTitleJustification(TitledBorder.CENTER); levelPanel.setBorder(tb); // Create the Checkboxes // The translation section is called ... // #Logging Literals // Search and translate into the message property-files ButtonGroup levelGroup = new ButtonGroup(); intOFF = new JRadioButton(LangTool.getString("logscr.Off")); intOFF.setSelected(true); intOFF.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intOFF_itemStateChanged(e); } }); intDEBUG = new JRadioButton(LangTool.getString("logscr.Debug")); intINFO = new JRadioButton(LangTool.getString("logscr.Info")); intWARN = new JRadioButton(LangTool.getString("logscr.Warn")); intERROR = new JRadioButton(LangTool.getString("logscr.Error")); intFATAL = new JRadioButton(LangTool.getString("logscr.Fatal")); // add the interface options to the group control levelGroup.add(intOFF); levelGroup.add(intDEBUG); levelGroup.add(intINFO); levelGroup.add(intWARN); levelGroup.add(intERROR); levelGroup.add(intFATAL); // add the levelPanel components gbc = new GridBagConstraints(); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); levelPanel.add(intOFF, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intDEBUG, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intINFO, gbc); gbc.gridx = 0; gbc.gridy = 3; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intWARN, gbc); gbc.gridx = 0; gbc.gridy = 4; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intERROR, gbc); gbc.gridx = 0; gbc.gridy = 5; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); levelPanel.add(intFATAL, gbc); appenderPanel = new JPanel(new GridBagLayout()); tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Appender")); tb.setTitleJustification(TitledBorder.CENTER); appenderPanel.setBorder(tb); ButtonGroup appenderGroup = new ButtonGroup(); intConsole = new JRadioButton(LangTool.getString("logscr.Console")); intConsole.setSelected(true); intConsole.setEnabled(false); intConsole.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intConsole_itemStateChanged(e); } }); intFile = new JRadioButton(LangTool.getString("logscr.File")); intFile.setEnabled(false); intBoth = new JRadioButton(LangTool.getString("logscr.Both")); intBoth.setEnabled(false); appenderGroup.add(intConsole); appenderGroup.add(intFile); appenderGroup.add(intBoth); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); appenderPanel.add(intConsole, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); appenderPanel.add(intFile, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); appenderPanel.add(intBoth, gbc); // add the pannels to the mainpanel gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 10, 10, 20); loggingPanel.add(levelPanel, gbc); gbc.gridx = 1; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 20, 10, 10); loggingPanel.add(appenderPanel, gbc); }
private void createLoggingPanel(){ loggingPanel.setLayout(new GridBagLayout()); // levelPanel levelPanel = new JPanel(new GridBagLayout()); TitledBorder tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Level")); tb.setTitleJustification(TitledBorder.CENTER); levelPanel.setBorder(tb); // Create the Checkboxes // The translation section is called ... // #Logging Literals // Search and translate into the message property-files ButtonGroup levelGroup = new ButtonGroup(); intOFF = new JRadioButton(LangTool.getString("logscr.Off")); intOFF.setSelected(true); intOFF.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intOFF_itemStateChanged(e); } }); intDEBUG = new JRadioButton(LangTool.getString("logscr.Debug")); intINFO = new JRadioButton(LangTool.getString("logscr.Info")); intWARN = new JRadioButton(LangTool.getString("logscr.Warn")); intERROR = new JRadioButton(LangTool.getString("logscr.Error")); intFATAL = new JRadioButton(LangTool.getString("logscr.Fatal")); // add the interface options to the group control levelGroup.add(intOFF); levelGroup.add(intDEBUG); levelGroup.add(intINFO); levelGroup.add(intWARN); levelGroup.add(intERROR); levelGroup.add(intFATAL); // add the levelPanel components gbc = new GridBagConstraints(); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); levelPanel.add(intOFF, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intDEBUG, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intINFO, gbc); gbc.gridx = 0; gbc.gridy = 3; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intWARN, gbc); gbc.gridx = 0; gbc.gridy = 4; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); levelPanel.add(intERROR, gbc); gbc.gridx = 0; gbc.gridy = 5; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); levelPanel.add(intFATAL, gbc); appenderPanel = new JPanel(new GridBagLayout()); tb = BorderFactory.createTitledBorder( LangTool.getString("logscr.Appender")); tb.setTitleJustification(TitledBorder.CENTER); appenderPanel.setBorder(tb); ButtonGroup appenderGroup = new ButtonGroup(); intConsole = new JRadioButton(LangTool.getString("logscr.Console")); intConsole.setSelected(true); intConsole.setEnabled(false); intConsole.addItemListener(new java.awt.event.ItemListener() { public void itemStateChanged(ItemEvent e) { intConsole_itemStateChanged(e); } }); intFile = new JRadioButton(LangTool.getString("logscr.File")); intFile.setEnabled(false); intBoth = new JRadioButton(LangTool.getString("logscr.Both")); intBoth.setEnabled(false); appenderGroup.add(intConsole); appenderGroup.add(intFile); appenderGroup.add(intBoth); gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(20, 20, 5, 20); appenderPanel.add(intConsole, gbc); gbc.gridx = 0; gbc.gridy = 1; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 5, 20); appenderPanel.add(intFile, gbc); gbc.gridx = 0; gbc.gridy = 2; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(5, 20, 20, 20); appenderPanel.add(intBoth, gbc); // add the pannels to the mainpanel gbc.gridx = 0; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 10, 10, 20); loggingPanel.add(levelPanel, gbc); gbc.gridx = 1; gbc.gridy = 0; gbc.anchor = GridBagConstraints.WEST; gbc.insets = new Insets(10, 20, 10, 10); loggingPanel.add(appenderPanel, gbc); }
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public void itemStateChanged(ItemEvent e) { intConsole_itemStateChanged(e); }
public void itemStateChanged(ItemEvent e) { intConsole_itemStateChanged(e); }
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void jbInit() throws Exception { // make it non resizable setResizable(false); this.setDefaultCloseOperation(JDialog.DISPOSE_ON_CLOSE); // create sessions panel createSessionsPanel(); // create emulator options panel createEmulatorOptionsPanel(); // create the button options createButtonOptions(); JTabbedPane optionTabs = new JTabbedPane(); optionTabs.addChangeListener(this); optionTabs.addTab(LangTool.getString("ss.labelConnections"), sessionPanel); optionTabs.addTab(LangTool.getString("ss.labelOptions1"), emulOptPanel); createLoggingPanel(); optionTabs.addTab(LangTool.getString("ss.labelLogging"), loggingPanel); createAccessPanel(); optionTabs.addTab(LangTool.getString("ss.labelOptions2"), accessPanel); // create external programs panel createExternalProgramsPanel(); optionTabs.addTab(LangTool.getString("ss.labelExternal"), externalPanel); // add the panels to our dialog getContentPane().add(optionTabs, BorderLayout.CENTER); getContentPane().add(options, BorderLayout.SOUTH); // pack it and center it on the screen pack(); Dimension screenSize = Toolkit.getDefaultToolkit().getScreenSize(); Dimension frameSize = getSize(); if (frameSize.height > screenSize.height) frameSize.height = screenSize.height; if (frameSize.width > screenSize.width) frameSize.width = screenSize.width; setLocation( (screenSize.width - frameSize.width) / 2, (screenSize.height - frameSize.height) / 2); // set default selection value as the first row or default session if (sessions.getRowCount() > 0) { int selInterval = 0; for (int x = 0; x < sessions.getRowCount(); x++) { if (((Boolean) ctm.getValueAt(x, 2)).booleanValue()) selInterval = x; } sessions.getSelectionModel().setSelectionInterval( selInterval, selInterval); } // Oh man what a pain in the ass. Had to add a window listener to request // focus of the sessions list. addWindowListener(new WindowAdapter() { public void windowOpened(WindowEvent e) { SwingUtilities.invokeLater(new Runnable() { public void run() { sessions.requestFocus(); } }); } }); // now show the world what we and they can do this.setVisible(true); }
void jbInit() throws Exception { // make it non resizable setResizable(false); this.setDefaultCloseOperation(JDialog.DISPOSE_ON_CLOSE); // create sessions panel createSessionsPanel(); // create emulator options panel createEmulatorOptionsPanel(); // create the button options createButtonOptions(); JTabbedPane optionTabs = new JTabbedPane(); optionTabs.addChangeListener(this); optionTabs.addTab(LangTool.getString("ss.labelConnections"), sessionPanel); optionTabs.addTab(LangTool.getString("ss.labelOptions1"), emulOptPanel); createLoggingPanel(); optionTabs.addTab(LangTool.getString("ss.labelLogging"), loggingPanel); createAccessPanel(); optionTabs.addTab(LangTool.getString("ss.labelOptions2"), accessPanel); // create external programs panel createExternalProgramsPanel(); optionTabs.addTab(LangTool.getString("ss.labelExternal"), externalPanel); // add the panels to our dialog getContentPane().add(optionTabs, BorderLayout.CENTER); getContentPane().add(options, BorderLayout.SOUTH); // pack it and center it on the screen pack(); Dimension screenSize = Toolkit.getDefaultToolkit().getScreenSize(); Dimension frameSize = getSize(); if (frameSize.height > screenSize.height) frameSize.height = screenSize.height; if (frameSize.width > screenSize.width) frameSize.width = screenSize.width; setLocation( (screenSize.width - frameSize.width) / 2, (screenSize.height - frameSize.height) / 2); // set default selection value as the first row or default session if (sessions.getRowCount() > 0) { int selInterval = 0; for (int x = 0; x < sessions.getRowCount(); x++) { if (((Boolean) ctm.getValueAt(x, 2)).booleanValue()) selInterval = x; } sessions.getSelectionModel().setSelectionInterval( selInterval, selInterval); } // Oh man what a pain in the ass. Had to add a window listener to request // focus of the sessions list. addWindowListener(new WindowAdapter() { public void windowOpened(WindowEvent e) { SwingUtilities.invokeLater(new Runnable() { public void run() { sessions.requestFocus(); } }); } }); // now show the world what we and they can do this.setVisible(true); }
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private void saveProps() { setOptionAccess(); setExternalPrograms(); ConfigureFactory.getInstance().saveSettings( ConfigureFactory.SESSIONS, "------ Session Information --------"); OptionAccessFactory.getInstance().reload(); }
private void saveProps() { setOptionAccess(); setExternalPrograms(); ConfigureFactory.getInstance().saveSettings( ConfigureFactory.SESSIONS, "------ Session Information --------"); OptionAccessFactory.getInstance().reload(); }
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private void setExternalPrograms() { // set the external browser program to use if (browser.getText().trim().length() > 0) { props.setProperty("emul.protocol.http", browser.getText().trim()); } else { props.remove("emul.protocol.http"); } // set the external mailer program to use if (mailer.getText().trim().length() > 0) { props.setProperty("emul.protocol.mailto", mailer.getText().trim()); } else { props.remove("emul.protocol.mailto"); } }
private void setExternalPrograms() { // set the external browser program to use if (browser.getText().trim().length() > 0) { props.setProperty("emul.protocol.http", browser.getText().trim()); } else { props.remove("emul.protocol.http"); } // set the external mailer program to use if (mailer.getText().trim().length() > 0) { props.setProperty("emul.protocol.mailto", mailer.getText().trim()); } else { props.remove("emul.protocol.mailto"); } }
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private void setExternalPrograms() { // set the external browser program to use if (browser.getText().trim().length() > 0) { props.setProperty("emul.protocol.http", browser.getText().trim()); } else { props.remove("emul.protocol.http"); } // set the external mailer program to use if (mailer.getText().trim().length() > 0) { props.setProperty("emul.protocol.mailto", mailer.getText().trim()); } else { props.remove("emul.protocol.mailto"); } }
private void setExternalPrograms() { // set the external browser program to use if (browser.getText().trim().length() > 0) { props.setProperty("emul.protocol.http", browser.getText().trim()); } else { props.remove("emul.protocol.http"); } // set the external mailer program to use if (mailer.getText().trim().length() > 0) { props.setProperty("emul.protocol.mailto", mailer.getText().trim()); } else { props.remove("emul.protocol.mailto"); } }
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private void setExternalPrograms() { // set the external browser program to use if (browser.getText().trim().length() > 0) { props.setProperty("emul.protocol.http", browser.getText().trim()); } else { props.remove("emul.protocol.http"); } // set the external mailer program to use if (mailer.getText().trim().length() > 0) { props.setProperty("emul.protocol.mailto", mailer.getText().trim()); } else { props.remove("emul.protocol.mailto"); } }
private void setExternalPrograms() { // set the external browser program to use if (browser.getText().trim().length() > 0) { props.setProperty("emul.protocol.http", browser.getText().trim()); } else { props.remove("emul.protocol.http"); } // set the external mailer program to use if (mailer.getText().trim().length() > 0) { props.setProperty("emul.protocol.mailto", mailer.getText().trim()); } else { props.remove("emul.protocol.mailto"); } }
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private void setExternalPrograms() { // set the external browser program to use if (browser.getText().trim().length() > 0) { props.setProperty("emul.protocol.http", browser.getText().trim()); } else { props.remove("emul.protocol.http"); } // set the external mailer program to use if (mailer.getText().trim().length() > 0) { props.setProperty("emul.protocol.mailto", mailer.getText().trim()); } else { props.remove("emul.protocol.mailto"); } }
private void setExternalPrograms() { // set the external browser program to use if (browser.getText().trim().length() > 0) { props.setProperty("emul.protocol.http", browser.getText().trim()); } else { props.remove("emul.protocol.http"); } // set the external mailer program to use if (mailer.getText().trim().length() > 0) { props.setProperty("emul.protocol.mailto", mailer.getText().trim()); } else { props.remove("emul.protocol.mailto"); } }
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private void setExternalPrograms() { // set the external browser program to use if (browser.getText().trim().length() > 0) { props.setProperty("emul.protocol.http", browser.getText().trim()); } else { props.remove("emul.protocol.http"); } // set the external mailer program to use if (mailer.getText().trim().length() > 0) { props.setProperty("emul.protocol.mailto", mailer.getText().trim()); } else { props.remove("emul.protocol.mailto"); } }
private void setExternalPrograms() { // set the external browser program to use if (browser.getText().trim().length() > 0) { props.setProperty("emul.protocol.http", browser.getText().trim()); } else { props.remove("emul.protocol.http"); } // set the external mailer program to use if (mailer.getText().trim().length() > 0) { props.setProperty("emul.protocol.mailto", mailer.getText().trim()); } else { props.remove("emul.protocol.mailto"); } }
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private void setExternalPrograms() { // set the external browser program to use if (browser.getText().trim().length() > 0) { props.setProperty("emul.protocol.http", browser.getText().trim()); } else { props.remove("emul.protocol.http"); } // set the external mailer program to use if (mailer.getText().trim().length() > 0) { props.setProperty("emul.protocol.mailto", mailer.getText().trim()); } else { props.remove("emul.protocol.mailto"); } }
private void setExternalPrograms() { // set the external browser program to use if (browser.getText().trim().length() > 0) { props.setProperty("emul.protocol.http", browser.getText().trim()); } else { props.remove("emul.protocol.http"); } // set the external mailer program to use if (mailer.getText().trim().length() > 0) { props.setProperty("emul.protocol.mailto", mailer.getText().trim()); } else { props.remove("emul.protocol.mailto"); } }
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public void setExceptionListener(ExceptionListener listener) { // uses a default implementation when null if (listener == null) { listener = new DefaultExceptionListener(); } exceptionListener = listener; }
public void setExceptionListener(ExceptionListener listener) { // uses a default implementation when null if (listener == null) { listener = new DefaultExceptionListener(); } exceptionListener = listener; }
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public static ResourceBundle getBundle(String baseName) { ClassLoader cl = security.getCallingClassLoader(); if (cl == null) cl = ClassLoader.getSystemClassLoader(); return getBundle(baseName, Locale.getDefault(), cl); }
public static ResourceBundle getBundle(String baseName) { ClassLoader cl = VMStackWalker.getCallingClassLoader(); if (cl == null) cl = ClassLoader.getSystemClassLoader(); return getBundle(baseName, Locale.getDefault(), cl); }
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static ClassLoader currentClassLoader (SecurityManager sm) { // TODO implement me return null; }
static ClassLoader currentClassLoader() { // TODO implement me return null; }
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protected void installDefaults(JTree tree) { UIDefaults defaults = UIManager.getLookAndFeelDefaults(); tree.setFont(defaults.getFont("Tree.font")); tree.setForeground(defaults.getColor("Tree.foreground")); tree.setBackground(defaults.getColor("Tree.background")); tree.setOpaque(true); rightChildIndent = defaults.getInt("Tree.rightChildIndent"); leftChildIndent = defaults.getInt("Tree.leftChildIndent"); setRowHeight(defaults.getInt("Tree.rowHeight")); tree.requestFocusInWindow(false); }
protected void installDefaults(JTree tree) { UIDefaults defaults = UIManager.getLookAndFeelDefaults(); tree.setFont(defaults.getFont("Tree.font")); tree.setForeground(defaults.getColor("Tree.foreground")); tree.setBackground(defaults.getColor("Tree.background")); tree.setOpaque(true); rightChildIndent = defaults.getInt("Tree.rightChildIndent"); leftChildIndent = defaults.getInt("Tree.leftChildIndent"); setRowHeight(defaults.getInt("Tree.rowHeight")); tree.requestFocusInWindow(false); }
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protected void uninstallDefaults(JTree tree) { tree.setFont(null); tree.setForeground(null); tree.setBackground(null); }
protected void uninstallDefaults(JTree tree) { tree.setFont(null); tree.setForeground(null); tree.setBackground(null); }
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public void changedUpdate(DocumentEvent e, Shape a, ViewFactory f) { super.changedUpdate(e, a, f); setPropertiesFromAttributes(); }
public void changedUpdate(DocumentEvent e, Shape a, ViewFactory f) { super.changedUpdate(e, a, f); StyleSheet ss = getStyleSheet(); attributes = ss.getViewAttributes(this); preferenceChanged(null, true, true); }
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public AttributeSet getAttributes() { // FIXME: Implement this. return super.getAttributes(); }
public AttributeSet getAttributes() { // FIXME: Implement this. if (attributes == null) { StyleSheet ss = getStyleSheet(); attributes = ss.getViewAttributes(this); } return attributes; }
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protected void setPropertiesFromAttributes() { // FIXME: Implement this. super.setPropertiesFromAttributes(); }
protectedvoidsetPropertiesFromAttributes(){//FIXME:Implementthis.super.setPropertiesFromAttributes();}
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public void execute() { if (destDir == null) { throw new BuildException("The destdir attribute must be set"); } final Map vmFiles = scanJavaFiles(vmDirs); final Map classpathFiles = scanJavaFiles(classpathDirs); final TreeSet allFiles = new TreeSet(); final Map packageDiffs = new TreeMap(); allFiles.addAll(vmFiles.keySet()); allFiles.addAll(classpathFiles.keySet()); try { destDir.mkdirs(); final File outFile = new File(destDir, "classpath-compare.html"); final PrintWriter out = new PrintWriter(new FileWriter(outFile)); reportHeader(out); int missingInCp = 0; int missingInVm = 0; int needsMerge = 0; int diffVmSpecific = 0; int diffClasspathBugfix = 0; int diffNative = 0; int diffJNode = 0; for (Iterator i = allFiles.iterator(); i.hasNext(); ) { final String name = (String)i.next(); final JavaFile cpFile = (JavaFile)classpathFiles.get(name); final JavaFile vmFile = (JavaFile)vmFiles.get(name); if (!vmFiles.containsKey(name)) { reportMissing(out, cpFile.getClassName(), "classpath", getFlags(cpFile)); missingInCp++; } else if (!classpathFiles.containsKey(name)) { reportMissing(out, vmFile.getClassName(), "vm", 0); missingInVm++; } else { final String diffFileName = vmFile.getClassName() + ".diff"; int rc = runDiff(vmFile, cpFile, diffFileName, packageDiffs); switch (rc & ~FLAGS_MASK) { case NO_CHANGE: break; case NEEDS_MERGE: reportNeedsMerge(out, vmFile.getClassName(), diffFileName, rc & FLAGS_MASK); needsMerge++; break; default: throw new RuntimeException("Invalid rc " + rc); } if ((rc & FLAG_VM_SPECIFIC) != 0) { diffVmSpecific++; } if ((rc & FLAG_CLASSPATH_BUGFIX) != 0) { diffClasspathBugfix++; } if ((rc & FLAG_NATIVE) != 0) { diffNative++; } if ((rc & FLAG_JNODE) != 0) { diffJNode++; } // Let's compare them } } // Package diffs for (Iterator i = packageDiffs.entrySet().iterator(); i.hasNext(); ) { final Map.Entry entry = (Map.Entry)i.next(); final String pkg = (String)entry.getKey(); final String diff = (String)entry.getValue(); final String diffFileName = pkg + ".diff"; processPackageDiff(diffFileName, pkg, diff); reportPackageDiff(out, pkg, diffFileName, getFlags(diff)); } out.println("</table><p/>"); // Summary out.println("<a name='summary'/><h2>Summary</h2>"); if (missingInCp > 0) { out.println("Found " + missingInCp + " files missing in classpath</br>"); log("Found " + missingInCp + " files missing in classpath"); } if (missingInVm > 0) { out.println("Found " + missingInVm + " files missing in vm<br/>"); log("Found " + missingInVm + " files missing in vm"); } if (needsMerge > 0) { out.println("Found " + needsMerge + " files that needs merging<br/>"); log("Found " + needsMerge + " files that needs merging"); } if (diffVmSpecific > 0) { out.println("Found " + diffVmSpecific + " VM specific differences<br/>"); log("Found " + diffVmSpecific + " VM specific differences"); } if (diffClasspathBugfix > 0) { out.println("Found " + diffClasspathBugfix + " local classpath bugfixes<br/>"); log("Found " + diffClasspathBugfix + " local classpath bugfixes"); } if (diffNative > 0) { out.println("Found " + diffNative + " changes with native in it<br/>"); log("Found " + diffNative + " changes with native in it"); } if (diffJNode > 0) { out.println("Found " + diffJNode + " changes with JNode in it<br/>"); log("Found " + diffJNode + " changes with JNode in it"); } reportFooter(out); out.flush(); out.close(); } catch (IOException ex) { throw new BuildException(ex); } catch (InterruptedException ex) { throw new BuildException(ex); } }
public void execute() { if (destDir == null) { throw new BuildException("The destdir attribute must be set"); } final Map vmFiles = scanJavaFiles(vmDirs); final Map classpathFiles = scanJavaFiles(classpathDirs); final TreeSet allFiles = new TreeSet(); final Map packageDiffs = new TreeMap(); allFiles.addAll(vmFiles.keySet()); allFiles.addAll(classpathFiles.keySet()); try { destDir.mkdirs(); final File outFile = new File(destDir, "classpath-compare.html"); final PrintWriter out = new PrintWriter(new FileWriter(outFile)); reportHeader(out); int missingInCp = 0; int missingInVm = 0; int needsMerge = 0; int diffVmSpecific = 0; int diffClasspathBugfix = 0; int diffNative = 0; int diffJNode = 0; for (Iterator i = allFiles.iterator(); i.hasNext(); ) { final String name = (String)i.next(); final JavaFile cpFile = (JavaFile)classpathFiles.get(name); final JavaFile vmFile = (JavaFile)vmFiles.get(name); if (!vmFiles.containsKey(name)) { reportMissing(out, cpFile.getClassName(), "classpath", getFlags(cpFile)); missingInCp++; } else if (!classpathFiles.containsKey(name)) { reportMissing(out, vmFile.getClassName(), "vm", 0); missingInVm++; } else { final String diffFileName = vmFile.getClassName() + ".diff"; int rc = runDiff(vmFile, cpFile, diffFileName, packageDiffs); switch (rc & ~FLAGS_MASK) { case NO_CHANGE: break; case NEEDS_MERGE: reportNeedsMerge(out, vmFile.getClassName(), diffFileName, rc & FLAGS_MASK); needsMerge++; break; default: throw new RuntimeException("Invalid rc " + rc); } if ((rc & FLAG_VM_SPECIFIC) != 0) { diffVmSpecific++; } if ((rc & FLAG_CLASSPATH_BUGFIX) != 0) { diffClasspathBugfix++; } if ((rc & FLAG_NATIVE) != 0) { diffNative++; } if ((rc & FLAG_JNODE) != 0) { diffJNode++; } // Let's compare them } } // Package diffs for (Iterator i = packageDiffs.entrySet().iterator(); i.hasNext(); ) { final Map.Entry entry = (Map.Entry)i.next(); final String pkg = (String)entry.getKey(); final String diff = (String)entry.getValue(); final String diffFileName = pkg + ".pkgdiff"; processPackageDiff(diffFileName, pkg, diff); reportPackageDiff(out, pkg, diffFileName, getFlags(diff)); } out.println("</table><p/>"); // Summary out.println("<a name='summary'/><h2>Summary</h2>"); if (missingInCp > 0) { out.println("Found " + missingInCp + " files missing in classpath</br>"); log("Found " + missingInCp + " files missing in classpath"); } if (missingInVm > 0) { out.println("Found " + missingInVm + " files missing in vm<br/>"); log("Found " + missingInVm + " files missing in vm"); } if (needsMerge > 0) { out.println("Found " + needsMerge + " files that needs merging<br/>"); log("Found " + needsMerge + " files that needs merging"); } if (diffVmSpecific > 0) { out.println("Found " + diffVmSpecific + " VM specific differences<br/>"); log("Found " + diffVmSpecific + " VM specific differences"); } if (diffClasspathBugfix > 0) { out.println("Found " + diffClasspathBugfix + " local classpath bugfixes<br/>"); log("Found " + diffClasspathBugfix + " local classpath bugfixes"); } if (diffNative > 0) { out.println("Found " + diffNative + " changes with native in it<br/>"); log("Found " + diffNative + " changes with native in it"); } if (diffJNode > 0) { out.println("Found " + diffJNode + " changes with JNode in it<br/>"); log("Found " + diffJNode + " changes with JNode in it"); } reportFooter(out); out.flush(); out.close(); } catch (IOException ex) { throw new BuildException(ex); } catch (InterruptedException ex) { throw new BuildException(ex); } }
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public void paintBorder(Component c, Graphics g, int x, int y, int w, int h) { Color saved = g.getColor(); g.setColor(highlight); g.drawLine(x + 1, y + 1, x + w - 1, y + 1); g.drawLine(x + 1, y + 1, x + 1, y + h - 1); g.setColor(shadow); g.drawLine(x + 1, y + h - 1, x + w - 1, y + h - 1); g.drawLine(x + w - 1, y + 1, x + w - 1, y + h - 1); g.setColor(darkShadow); g.drawLine(x, y + h, x + w, y + h); g.drawLine(x + w, y, x + w, y + h); g.setColor(saved); }
public void paintBorder(Component c, Graphics g, int x, int y, int w, int h) { Color saved = g.getColor(); g.setColor(highlight); g.drawLine(x + 1, y + 1, x + w - 1, y + 1); g.drawLine(x + 1, y + 1, x + 1, y + h - 1); g.setColor(shadow); g.drawLine(x + 1, y + h - 1, x + w - 1, y + h - 1); g.drawLine(x + w - 1, y + 1, x + w - 1, y + h - 1); g.setColor(darkShadow); g.drawLine(x, y + h, x + w, y + h); g.drawLine(x + w, y, x + w, y + h); g.setColor(saved); }
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public void paintBorder(Component c, Graphics g, int x, int y, int w, int h) { Color saved = g.getColor(); g.setColor(highlight); g.drawLine(x + 1, y + 1, x + w - 1, y + 1); g.drawLine(x + 1, y + 1, x + 1, y + h - 1); g.setColor(shadow); g.drawLine(x + 1, y + h - 1, x + w - 1, y + h - 1); g.drawLine(x + w - 1, y + 1, x + w - 1, y + h - 1); g.setColor(darkShadow); g.drawLine(x, y + h, x + w, y + h); g.drawLine(x + w, y, x + w, y + h); g.setColor(saved); }
public void paintBorder(Component c, Graphics g, int x, int y, int w, int h) { Color saved = g.getColor(); g.setColor(highlight); g.drawLine(x + 1, y + 1, x + w - 1, y + 1); g.drawLine(x + 1, y + 1, x + 1, y + h - 1); g.setColor(shadow); g.drawLine(x + 1, y + h - 1, x + w - 1, y + h - 1); g.drawLine(x + w - 1, y + 1, x + w - 1, y + h - 1); g.setColor(darkShadow); g.drawLine(x, y + h, x + w, y + h); g.drawLine(x + w, y, x + w, y + h); g.setColor(saved); }
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public void paintBorder(Component c, Graphics g, int x, int y, int w, int h) { Color saved = g.getColor(); g.setColor(highlight); g.drawLine(x + 1, y + 1, x + w - 1, y + 1); g.drawLine(x + 1, y + 1, x + 1, y + h - 1); g.setColor(shadow); g.drawLine(x + 1, y + h - 1, x + w - 1, y + h - 1); g.drawLine(x + w - 1, y + 1, x + w - 1, y + h - 1); g.setColor(darkShadow); g.drawLine(x, y + h, x + w, y + h); g.drawLine(x + w, y, x + w, y + h); g.setColor(saved); }
public void paintBorder(Component c, Graphics g, int x, int y, int w, int h) { Color saved = g.getColor(); g.setColor(highlight); g.drawLine(x + 1, y + 1, x + w - 1, y + 1); g.drawLine(x + 1, y + 1, x + 1, y + h - 1); g.setColor(shadow); g.drawLine(x + 1, y + h - 1, x + w - 1, y + h - 1); g.drawLine(x + w - 1, y + 1, x + w - 1, y + h - 1); g.setColor(darkShadow); g.drawLine(x, y + h, x + w, y + h); g.drawLine(x + w, y, x + w, y + h); g.setColor(saved); }
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Graphics(){}
Graphics(){}
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public void finalize(){ dispose();}
public void finalize(){ dispose();}
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public void finalize(){ dispose();}
public void finalize(){ dispose();}
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public Rectangle getClipRect(){ return getClipBounds();}
public Rectangle getClipRect(){ return getClipBounds();}
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public Rectangle getClipRect(){ return getClipBounds();}
public Rectangle getClipRect(){ return getClipBounds();}
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public String toString(){ return getClass ().getName () + "[font=" + getFont () + ",color=" + getColor () + "]";}
public String toString(){ return getClass ().getName () + "[font=" + getFont () + ",color=" + getColor () + "]";}
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public String toString(){ return getClass ().getName () + "[font=" + getFont () + ",color=" + getColor () + "]";}
public String toString(){ return getClass ().getName () + "[font=" + getFont () + ",color=" + getColor () + "]";}
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protected int drawSelectedText(Graphics g, int x, int y, int p0, int p1) throws BadLocationException { // FIXME: Throw BadLocationException somehow. // Update font metrics. updateMetrics(); // Get echo character. char ch = getEchoChar(); // Set color for selected text. g.setColor(selectedColor); g.setColor(Color.BLACK); // Initialize buffer for faster drawing of all characters. int len = p1 - p0; char[] buffer = new char[len]; for (int index = 0; index < len; ++index) buffer[index] = ch; // Draw echo charaters. g.drawChars(buffer, 0, len, x, y); // Return new x position right of all drawn characters. return x + len * metrics.charWidth(ch); }
protected int drawSelectedText(Graphics g, int x, int y, int p0, int p1)throws BadLocationException{// FIXME: Throw BadLocationException somehow.// Update font metrics.updateMetrics();// Get echo character.char ch = getEchoChar();// Set color for selected text.g.setColor(selectedColor);g.setColor(Color.BLACK);// Initialize buffer for faster drawing of all characters.int len = p1 - p0;char[] buffer = new char[len];for (int index = 0; index < len; ++index)buffer[index] = ch;// Draw echo charaters.g.drawChars(buffer, 0, len, x, y);// Return new x position right of all drawn characters.return x + len * metrics.charWidth(ch);}
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protected int drawSelectedText(Graphics g, int x, int y, int p0, int p1) throws BadLocationException { // FIXME: Throw BadLocationException somehow. // Update font metrics. updateMetrics(); // Get echo character. char ch = getEchoChar(); // Set color for selected text. g.setColor(selectedColor); g.setColor(Color.BLACK); // Initialize buffer for faster drawing of all characters. int len = p1 - p0; char[] buffer = new char[len]; for (int index = 0; index < len; ++index) buffer[index] = ch; // Draw echo charaters. g.drawChars(buffer, 0, len, x, y); // Return new x position right of all drawn characters. return x + len * metrics.charWidth(ch); }
protected int drawSelectedText(Graphics g, int x, int y, int p0, int p1) throws BadLocationException { // FIXME: Throw BadLocationException somehow. // Update font metrics. updateMetrics(); // Get echo character. char ch = getEchoChar(); // Set color for selected text. g.setColor(selectedColor); g.setColor(Color.BLACK); // Initialize buffer for faster drawing of all characters. int len = p1 - p0; char[] buffer = new char[len]; for (int index = 0; index < len; ++index) buffer[index] = ch; // Draw echo charaters. g.drawChars(buffer, 0, len, x, y); // Return new x position right of all drawn characters. return x + len * metrics.charWidth(ch); }
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protected int drawUnselectedText(Graphics g, int x, int y, int p0, int p1) throws BadLocationException { // FIXME: Throw BadLocationException somehow. // Update font metrics. updateMetrics(); // Get echo character. char ch = getEchoChar(); Segment segment = new Segment(); // Set color for unselected text. g.setColor(unselectedColor); g.setColor(Color.BLACK); // Initialize buffer for faster drawing of all characters. p1--; getDocument().getText(p0, p1 - p0, segment); int len = segment.toString().length(); char[] buffer = new char[len]; for (int index = 0; index < len; ++index) buffer[index] = ch; y += getPreferredSpan(Y_AXIS)/2; // Draw echo charaters. g.drawChars(buffer, 0, len, x, y); // Return new x position right of all drawn characters. return x + (len * metrics.charWidth(ch)); }
protected int drawUnselectedText(Graphics g, int x, int y, int p0, int p1)throws BadLocationException{// FIXME: Throw BadLocationException somehow.// Update font metrics.updateMetrics();// Get echo character.char ch = getEchoChar();Segment segment = new Segment();// Set color for unselected text.g.setColor(unselectedColor);g.setColor(Color.BLACK);// Initialize buffer for faster drawing of all characters.p1--;getDocument().getText(p0, p1 - p0, segment);int len = segment.toString().length();char[] buffer = new char[len];for (int index = 0; index < len; ++index)buffer[index] = ch;y += getPreferredSpan(Y_AXIS)/2;// Draw echo charaters.g.drawChars(buffer, 0, len, x, y);// Return new x position right of all drawn characters.return x + (len * metrics.charWidth(ch));}
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protected int drawUnselectedText(Graphics g, int x, int y, int p0, int p1) throws BadLocationException { // FIXME: Throw BadLocationException somehow. // Update font metrics. updateMetrics(); // Get echo character. char ch = getEchoChar(); Segment segment = new Segment(); // Set color for unselected text. g.setColor(unselectedColor); g.setColor(Color.BLACK); // Initialize buffer for faster drawing of all characters. p1--; getDocument().getText(p0, p1 - p0, segment); int len = segment.toString().length(); char[] buffer = new char[len]; for (int index = 0; index < len; ++index) buffer[index] = ch; y += getPreferredSpan(Y_AXIS)/2; // Draw echo charaters. g.drawChars(buffer, 0, len, x, y); // Return new x position right of all drawn characters. return x + (len * metrics.charWidth(ch)); }
protected int drawUnselectedText(Graphics g, int x, int y, int p0, int p1) throws BadLocationException { // FIXME: Throw BadLocationException somehow. // Update font metrics. updateMetrics(); // Get echo character. char ch = getEchoChar(); // Set color for unselected text. g.setColor(unselectedColor); g.setColor(Color.BLACK); // Initialize buffer for faster drawing of all characters. p1--; getDocument().getText(p0, p1 - p0, segment); int len = segment.toString().length(); char[] buffer = new char[len]; for (int index = 0; index < len; ++index) buffer[index] = ch; y += getPreferredSpan(Y_AXIS)/2; // Draw echo charaters. g.drawChars(buffer, 0, len, x, y); // Return new x position right of all drawn characters. return x + (len * metrics.charWidth(ch)); }
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protected int drawUnselectedText(Graphics g, int x, int y, int p0, int p1) throws BadLocationException { // FIXME: Throw BadLocationException somehow. // Update font metrics. updateMetrics(); // Get echo character. char ch = getEchoChar(); Segment segment = new Segment(); // Set color for unselected text. g.setColor(unselectedColor); g.setColor(Color.BLACK); // Initialize buffer for faster drawing of all characters. p1--; getDocument().getText(p0, p1 - p0, segment); int len = segment.toString().length(); char[] buffer = new char[len]; for (int index = 0; index < len; ++index) buffer[index] = ch; y += getPreferredSpan(Y_AXIS)/2; // Draw echo charaters. g.drawChars(buffer, 0, len, x, y); // Return new x position right of all drawn characters. return x + (len * metrics.charWidth(ch)); }
protected int drawUnselectedText(Graphics g, int x, int y, int p0, int p1) throws BadLocationException { // FIXME: Throw BadLocationException somehow. // Update font metrics. updateMetrics(); // Get echo character. char ch = getEchoChar(); Segment segment = new Segment(); // Set color for unselected text. g.setColor(unselectedColor); g.setColor(Color.BLACK); // Initialize buffer for faster drawing of all characters. p1--; getDocument().getText(p0, p1 - p0, segment); int len = segment.toString().length(); char[] buffer = new char[len]; for (int index = 0; index < len; ++index) buffer[index] = ch; y += getPreferredSpan(Y_AXIS)/2; // Draw echo charaters. g.drawChars(buffer, 0, len, x, y); // Return new x position right of all drawn characters. return x + (len * metrics.charWidth(ch)); }
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void clean (ObjID[] ids, long sequenceNum, VMID vmid, boolean strong) throws RemoteException;
void clean(ObjID[] ids, long sequenceNum, VMID vmid, boolean strong) throws RemoteException;
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Lease dirty (ObjID[] ids, long sequenceNum, Lease lease) throws RemoteException;
Lease dirty(ObjID[] ids, long sequenceNum, Lease lease) throws RemoteException;
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private synchronized void fireCursorChanged(int update) { int startRow = getRow(lastPos); int startCol = getCol(lastPos); if (listeners != null) { int size = listeners.size(); for (int i = 0; i < size; i++) { ScreenListener target = (ScreenListener)listeners.elementAt(i); target.onScreenChanged(update,startRow,startCol,startRow,startCol); } } }
private synchronized void fireCursorChanged(int update) { int startRow = getRow(lastPos); int startCol = getCol(lastPos); if (listeners != null) { Vector lc = new Vector(listeners); int size = lc.size(); for (int i = 0; i < size; i++) { ScreenListener target = (ScreenListener)listeners.elementAt(i); target.onScreenChanged(update,startRow,startCol,startRow,startCol); } } }
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private synchronized void fireCursorChanged(int update) { int startRow = getRow(lastPos); int startCol = getCol(lastPos); if (listeners != null) { int size = listeners.size(); for (int i = 0; i < size; i++) { ScreenListener target = (ScreenListener)listeners.elementAt(i); target.onScreenChanged(update,startRow,startCol,startRow,startCol); } } }
private synchronized void fireCursorChanged(int update) { int startRow = getRow(lastPos); int startCol = getCol(lastPos); if (listeners != null) { int size = listeners.size(); for (int i = 0; i < size; i++) { ScreenListener target = (ScreenListener)lc.elementAt(i); target.onScreenChanged(update,startRow,startCol,startRow,startCol); } } }
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private void fireScreenChanged(int which, int startRow, int startCol, int endRow, int endCol) { if (listeners != null) { int size = listeners.size(); for (int i = 0; i < size; i++) { ScreenListener target = (ScreenListener)listeners.elementAt(i); target.onScreenChanged(1,startRow,startCol,endRow,endCol); } } dirtyScreen.setBounds(lenScreen,0,0,0); }
privatevoidfireScreenChanged(intwhich,intstartRow,intstartCol,intendRow,intendCol){if(listeners!=null){intsize=listeners.size();for(inti=0;i<size;i++){ScreenListenertarget=(ScreenListener)listeners.elementAt(i);target.onScreenChanged(1,startRow,startCol,endRow,endCol);}}dirtyScreen.setBounds(lenScreen,0,0,0);}
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private void fireScreenChanged(int which, int startRow, int startCol, int endRow, int endCol) { if (listeners != null) { int size = listeners.size(); for (int i = 0; i < size; i++) { ScreenListener target = (ScreenListener)listeners.elementAt(i); target.onScreenChanged(1,startRow,startCol,endRow,endCol); } } dirtyScreen.setBounds(lenScreen,0,0,0); }
private void fireScreenChanged(int which, int startRow, int startCol, int endRow, int endCol) { if (listeners != null) { Vector lc = new Vector(listeners); int size = lc.size(); for (int i = 0; i < size; i++) { ScreenListener target = (ScreenListener)listeners.elementAt(i); target.onScreenChanged(1,startRow,startCol,endRow,endCol); } } dirtyScreen.setBounds(lenScreen,0,0,0); }
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private void fireScreenChanged(int which, int startRow, int startCol, int endRow, int endCol) { if (listeners != null) { int size = listeners.size(); for (int i = 0; i < size; i++) { ScreenListener target = (ScreenListener)listeners.elementAt(i); target.onScreenChanged(1,startRow,startCol,endRow,endCol); } } dirtyScreen.setBounds(lenScreen,0,0,0); }
private void fireScreenChanged(int which, int startRow, int startCol, int endRow, int endCol) { if (listeners != null) { int size = listeners.size(); for (int i = 0; i < size; i++) { ScreenListener target = (ScreenListener)listeners.elementAt(i); target.onScreenChanged(1,startRow,startCol,endRow,endCol); } } dirtyScreen.setBounds(lenScreen,0,0,0); }
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private void fireScreenSizeChanged() { if (listeners != null) { int size = listeners.size(); for (int i = 0; i < size; i++) { ScreenListener target = (ScreenListener)listeners.elementAt(i); target.onScreenSizeChanged(numRows,numCols); } } }
private void fireScreenSizeChanged() { if (listeners != null) { Vector lc = new Vector(listeners); int size = lc.size(); for (int i = 0; i < size; i++) { ScreenListener target = (ScreenListener)listeners.elementAt(i); target.onScreenSizeChanged(numRows,numCols); } } }
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private void fireScreenSizeChanged() { if (listeners != null) { int size = listeners.size(); for (int i = 0; i < size; i++) { ScreenListener target = (ScreenListener)listeners.elementAt(i); target.onScreenSizeChanged(numRows,numCols); } } }
private void fireScreenSizeChanged() { if (listeners != null) { int size = listeners.size(); for (int i = 0; i < size; i++) { ScreenListener target = (ScreenListener)lc.elementAt(i); target.onScreenSizeChanged(numRows,numCols); } } }
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public void toXMLOutputStream ( OutputStream outputstream, Hashtable XMLDeclAttribs, String indent, boolean dontCloseNode, String newNodeNameString, String noChildObjectNodeName ) { //while writing out, attribHash should not be changed synchronized (attribHash) { String nodeNameString = this.classXDFNodeName; // Setup. Sometimes the name of the node we are opening is different from // that specified in the classXDFNodeName (*sigh*) if (newNodeNameString != null) nodeNameString = newNodeNameString;/* // 0. To be valid XML, we always start an XML block with an // XML declaration (e.g. somehting like "<?xml standalone="no"?>"). // Here we deal with printing out XML Declaration && its attributes if ((XMLDeclAttribs !=null) &&(!XMLDeclAttribs.isEmpty())) { indent = ""; writeXMLDeclToOutputStream(outputstream, XMLDeclAttribs); }*/ // 1. open this node, print its simple XML attributes if (nodeNameString != null) { if (Specification.getInstance().isPrettyXDFOutput()) writeOut(outputstream, indent); // indent node if desired // For printing the opening statement we need to invoke a little // Voodoo to keep the DTD happy: the first structure node is always // called by the root node name instead of the usual nodeNameString // We can tell this by checking if this object is derived from class // Structure and if XMLDeclAttrib defined/populated with information // NOTE: This isnt really the way to do this. We need to check if 'this' is // is or has as a superclass xdf.Structure instead of the 'string check' below. // check is class Strucuture & XMLDeclAttribs populated?/* if ( nodeNameString.equals(Specification.getInstance().getXDFStructureNodeName()) && !XMLDeclAttribs.isEmpty() ) nodeNameString = Specification.getInstance().getXDFRootNodeName();*/ writeOut(outputstream,"<" + nodeNameString); // print opening statement } // gather info about XMLAttributes in this object/node Hashtable xmlInfo = getXMLInfo(); // 2. Print out string object XML attributes EXCEPT for the one that // matches PCDATAAttribute. ArrayList attribs = (ArrayList) xmlInfo.get("attribList"); // is synchronized here correct? synchronized(attribs) { int size = attribs.size(); for (int i = 0; i < size; i++) { Hashtable item = (Hashtable) attribs.get(i); writeOut(outputstream, " " + item.get("name") + "=\""); // this slows things down, should we use? //writeOutAttribute(outputstream, (String) item.get("value")); writeOut(outputstream, (String) item.get("value")); writeOut(outputstream, "\"" ); } } // 3. Print out Node PCData or Child Nodes as specified by object ref // XML attributes. The way this stuff occurs will also affect how we // close the node. ArrayList childObjs = (ArrayList) xmlInfo.get("childObjList"); String pcdata = (String) xmlInfo.get("PCDATA"); if ( childObjs.size() > 0 || pcdata != null || noChildObjectNodeName != null) { // close the opening tag if (nodeNameString != null) { writeOut(outputstream, ">"); if ((Specification.getInstance().isPrettyXDFOutput()) && (pcdata == null)) writeOut(outputstream, Constants.NEW_LINE); } // deal with object/list XML attributes, if any in our list int size = childObjs.size(); for (int i = 0; i < size; i++) { Hashtable item = (Hashtable) childObjs.get(i); if (item.get("type") == Constants.LIST_TYPE) { List objectList = (List) item.get("value"); // Im not sure this synchronized wrapper is needed, we are // only accessing stuff here.. Also, should synchronzied wrapper // occur back in the getXMLInfo method instead where the orig // access occured?!? synchronized(objectList) { Iterator iter = objectList.iterator(); // Must be in synchronized block while (iter.hasNext()) { BaseObject containedObj = (BaseObject) iter.next(); if (containedObj != null) { // can happen from pre-allocation of axis values, etc (?) indent = dealWithOpeningGroupNodes(containedObj, outputstream, indent); indent = dealWithClosingGroupNodes(containedObj, outputstream, indent); String newindent = indent + Specification.getInstance().getPrettyXDFOutputIndentation(); containedObj.toXMLOutputStream(outputstream, new Hashtable(), newindent); } } } } else if (item.get("type") == Constants.OBJECT_TYPE) { BaseObject containedObj = (BaseObject) item.get("value"); if (containedObj != null) { // can happen from pre-allocation of axis values, etc (?) // shouldnt this be synchronized too?? synchronized(containedObj) { indent = dealWithOpeningGroupNodes(containedObj, outputstream, indent); indent = dealWithClosingGroupNodes(containedObj, outputstream, indent); String newindent = indent + Specification.getInstance().getPrettyXDFOutputIndentation(); containedObj.toXMLOutputStream(outputstream, new Hashtable(), newindent); } } } else { // error: weird type, actually shouldnt occur. Is this needed?? Log.errorln("Weird error: unknown XML attribute type for item:"+item); } } // print out PCDATA, if any if(pcdata != null) { writeOut(outputstream, pcdata); }; // if there are no PCDATA or child objects/nodes then // we print out noChildObjectNodeName and close the node if ( childObjs.size() == 0 && pcdata == null && noChildObjectNodeName != null) { if (Specification.getInstance().isPrettyXDFOutput()) writeOut(outputstream, indent + Specification.getInstance().getPrettyXDFOutputIndentation()); writeOut(outputstream, "<" + noChildObjectNodeName + "/>"); if (Specification.getInstance().isPrettyXDFOutput()) writeOut(outputstream, Constants.NEW_LINE); } // ok, now deal with closing the node if (nodeNameString != null) { indent = dealWithClosingGroupNodes((BaseObject) this, outputstream, indent); if (Specification.getInstance().isPrettyXDFOutput() && pcdata == null) writeOut(outputstream, indent); if (!dontCloseNode) writeOut(outputstream, "</"+nodeNameString+">"); } } else { if (nodeNameString != null) { if (dontCloseNode) { // it may not have sub-objects, but we dont want to close it // (happens for group objects) writeOut(outputstream, ">"); } else { // no sub-objects, just close this node writeOut(outputstream, "/>"); } } } if (Specification.getInstance().isPrettyXDFOutput() && nodeNameString != null) writeOut(outputstream, Constants.NEW_LINE); }//synchronize }
public void toXMLOutputStream ( OutputStream outputstream, Hashtable XMLDeclAttribs, String indent, boolean dontCloseNode, String newNodeNameString, String noChildObjectNodeName ) { //while writing out, attribHash should not be changed synchronized (attribHash) { String nodeNameString = this.classXDFNodeName; // Setup. Sometimes the name of the node we are opening is different from // that specified in the classXDFNodeName (*sigh*) if (newNodeNameString != null) nodeNameString = newNodeNameString;/* // 0. To be valid XML, we always start an XML block with an // XML declaration (e.g. somehting like "<?xml standalone="no"?>"). // Here we deal with printing out XML Declaration && its attributes if ((XMLDeclAttribs !=null) &&(!XMLDeclAttribs.isEmpty())) { indent = ""; writeXMLDeclToOutputStream(outputstream, XMLDeclAttribs); }*/ // 1. open this node, print its simple XML attributes if (nodeNameString != null) { if (Specification.getInstance().isPrettyXDFOutput()) writeOut(outputstream, indent); // indent node if desired // For printing the opening statement we need to invoke a little // Voodoo to keep the DTD happy: the first structure node is always // called by the root node name instead of the usual nodeNameString // We can tell this by checking if this object is derived from class // Structure and if XMLDeclAttrib defined/populated with information // NOTE: This isnt really the way to do this. We need to check if 'this' is // is or has as a superclass xdf.Structure instead of the 'string check' below. // check is class Strucuture & XMLDeclAttribs populated?/* if ( nodeNameString.equals(Specification.getInstance().getXDFStructureNodeName()) && !XMLDeclAttribs.isEmpty() ) nodeNameString = Specification.getInstance().getXDFRootNodeName();*/ writeOut(outputstream,"<" + nodeNameString); // print opening statement } // gather info about XMLAttributes in this object/node Hashtable xmlInfo = getXMLInfo(); // 2. Print out string object XML attributes EXCEPT for the one that // matches PCDATAAttribute. ArrayList attribs = (ArrayList) xmlInfo.get("attribList"); // is synchronized here correct? synchronized(attribs) { int size = attribs.size(); for (int i = 0; i < size; i++) { Hashtable item = (Hashtable) attribs.get(i); writeOut(outputstream, " " + item.get("name") + "=\""); // this slows things down, should we use? //writeOutAttribute(outputstream, (String) item.get("value")); writeOut(outputstream, (String) item.get("value")); writeOut(outputstream, "\"" ); } } // 3. Print out Node PCData or Child Nodes as specified by object ref // XML attributes. The way this stuff occurs will also affect how we // close the node. ArrayList childObjs = (ArrayList) xmlInfo.get("childObjList"); String pcdata = (String) xmlInfo.get("PCDATA"); if ( childObjs.size() > 0 || pcdata != null || noChildObjectNodeName != null) { // close the opening tag if (nodeNameString != null) { writeOut(outputstream, ">"); if ((Specification.getInstance().isPrettyXDFOutput()) && (pcdata == null)) writeOut(outputstream, Constants.NEW_LINE); } // deal with object/list XML attributes, if any in our list int size = childObjs.size(); for (int i = 0; i < size; i++) { Hashtable item = (Hashtable) childObjs.get(i); if (item.get("type") == Constants.LIST_TYPE) { List objectList = (List) item.get("value"); // Im not sure this synchronized wrapper is needed, we are // only accessing stuff here.. Also, should synchronzied wrapper // occur back in the getXMLInfo method instead where the orig // access occured?!? synchronized(objectList) { Iterator iter = objectList.iterator(); // Must be in synchronized block while (iter.hasNext()) { BaseObject containedObj = (BaseObject) iter.next(); if (containedObj != null) { // can happen from pre-allocation of axis values, etc (?) indent = dealWithOpeningGroupNodes(containedObj, outputstream, indent); String newindent = indent + Specification.getInstance().getPrettyXDFOutputIndentation(); containedObj.toXMLOutputStream(outputstream, new Hashtable(), newindent); } } } } else if (item.get("type") == Constants.OBJECT_TYPE) { BaseObject containedObj = (BaseObject) item.get("value"); if (containedObj != null) { // can happen from pre-allocation of axis values, etc (?) // shouldnt this be synchronized too?? synchronized(containedObj) { indent = dealWithOpeningGroupNodes(containedObj, outputstream, indent); String newindent = indent + Specification.getInstance().getPrettyXDFOutputIndentation(); containedObj.toXMLOutputStream(outputstream, new Hashtable(), newindent); } } } else { // error: weird type, actually shouldnt occur. Is this needed?? Log.errorln("Weird error: unknown XML attribute type for item:"+item); } } // print out PCDATA, if any if(pcdata != null) { writeOut(outputstream, pcdata); }; // if there are no PCDATA or child objects/nodes then // we print out noChildObjectNodeName and close the node if ( childObjs.size() == 0 && pcdata == null && noChildObjectNodeName != null) { if (Specification.getInstance().isPrettyXDFOutput()) writeOut(outputstream, indent + Specification.getInstance().getPrettyXDFOutputIndentation()); writeOut(outputstream, "<" + noChildObjectNodeName + "/>"); if (Specification.getInstance().isPrettyXDFOutput()) writeOut(outputstream, Constants.NEW_LINE); } // ok, now deal with closing the node if (nodeNameString != null) { indent = dealWithClosingGroupNodes((BaseObject) this, outputstream, indent); if (Specification.getInstance().isPrettyXDFOutput() && pcdata == null) writeOut(outputstream, indent); if (!dontCloseNode) writeOut(outputstream, "</"+nodeNameString+">"); } } else { if (nodeNameString != null) { if (dontCloseNode) { // it may not have sub-objects, but we dont want to close it // (happens for group objects) writeOut(outputstream, ">"); } else { // no sub-objects, just close this node writeOut(outputstream, "/>"); } } } if (Specification.getInstance().isPrettyXDFOutput() && nodeNameString != null) writeOut(outputstream, Constants.NEW_LINE); }//synchronize }
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public void toXMLOutputStream ( OutputStream outputstream, Hashtable XMLDeclAttribs, String indent, boolean dontCloseNode, String newNodeNameString, String noChildObjectNodeName ) { //while writing out, attribHash should not be changed synchronized (attribHash) { String nodeNameString = this.classXDFNodeName; // Setup. Sometimes the name of the node we are opening is different from // that specified in the classXDFNodeName (*sigh*) if (newNodeNameString != null) nodeNameString = newNodeNameString;/* // 0. To be valid XML, we always start an XML block with an // XML declaration (e.g. somehting like "<?xml standalone="no"?>"). // Here we deal with printing out XML Declaration && its attributes if ((XMLDeclAttribs !=null) &&(!XMLDeclAttribs.isEmpty())) { indent = ""; writeXMLDeclToOutputStream(outputstream, XMLDeclAttribs); }*/ // 1. open this node, print its simple XML attributes if (nodeNameString != null) { if (Specification.getInstance().isPrettyXDFOutput()) writeOut(outputstream, indent); // indent node if desired // For printing the opening statement we need to invoke a little // Voodoo to keep the DTD happy: the first structure node is always // called by the root node name instead of the usual nodeNameString // We can tell this by checking if this object is derived from class // Structure and if XMLDeclAttrib defined/populated with information // NOTE: This isnt really the way to do this. We need to check if 'this' is // is or has as a superclass xdf.Structure instead of the 'string check' below. // check is class Strucuture & XMLDeclAttribs populated?/* if ( nodeNameString.equals(Specification.getInstance().getXDFStructureNodeName()) && !XMLDeclAttribs.isEmpty() ) nodeNameString = Specification.getInstance().getXDFRootNodeName();*/ writeOut(outputstream,"<" + nodeNameString); // print opening statement } // gather info about XMLAttributes in this object/node Hashtable xmlInfo = getXMLInfo(); // 2. Print out string object XML attributes EXCEPT for the one that // matches PCDATAAttribute. ArrayList attribs = (ArrayList) xmlInfo.get("attribList"); // is synchronized here correct? synchronized(attribs) { int size = attribs.size(); for (int i = 0; i < size; i++) { Hashtable item = (Hashtable) attribs.get(i); writeOut(outputstream, " " + item.get("name") + "=\""); // this slows things down, should we use? //writeOutAttribute(outputstream, (String) item.get("value")); writeOut(outputstream, (String) item.get("value")); writeOut(outputstream, "\"" ); } } // 3. Print out Node PCData or Child Nodes as specified by object ref // XML attributes. The way this stuff occurs will also affect how we // close the node. ArrayList childObjs = (ArrayList) xmlInfo.get("childObjList"); String pcdata = (String) xmlInfo.get("PCDATA"); if ( childObjs.size() > 0 || pcdata != null || noChildObjectNodeName != null) { // close the opening tag if (nodeNameString != null) { writeOut(outputstream, ">"); if ((Specification.getInstance().isPrettyXDFOutput()) && (pcdata == null)) writeOut(outputstream, Constants.NEW_LINE); } // deal with object/list XML attributes, if any in our list int size = childObjs.size(); for (int i = 0; i < size; i++) { Hashtable item = (Hashtable) childObjs.get(i); if (item.get("type") == Constants.LIST_TYPE) { List objectList = (List) item.get("value"); // Im not sure this synchronized wrapper is needed, we are // only accessing stuff here.. Also, should synchronzied wrapper // occur back in the getXMLInfo method instead where the orig // access occured?!? synchronized(objectList) { Iterator iter = objectList.iterator(); // Must be in synchronized block while (iter.hasNext()) { BaseObject containedObj = (BaseObject) iter.next(); if (containedObj != null) { // can happen from pre-allocation of axis values, etc (?) indent = dealWithOpeningGroupNodes(containedObj, outputstream, indent); indent = dealWithClosingGroupNodes(containedObj, outputstream, indent); String newindent = indent + Specification.getInstance().getPrettyXDFOutputIndentation(); containedObj.toXMLOutputStream(outputstream, new Hashtable(), newindent); } } } } else if (item.get("type") == Constants.OBJECT_TYPE) { BaseObject containedObj = (BaseObject) item.get("value"); if (containedObj != null) { // can happen from pre-allocation of axis values, etc (?) // shouldnt this be synchronized too?? synchronized(containedObj) { indent = dealWithOpeningGroupNodes(containedObj, outputstream, indent); indent = dealWithClosingGroupNodes(containedObj, outputstream, indent); String newindent = indent + Specification.getInstance().getPrettyXDFOutputIndentation(); containedObj.toXMLOutputStream(outputstream, new Hashtable(), newindent); } } } else { // error: weird type, actually shouldnt occur. Is this needed?? Log.errorln("Weird error: unknown XML attribute type for item:"+item); } } // print out PCDATA, if any if(pcdata != null) { writeOut(outputstream, pcdata); }; // if there are no PCDATA or child objects/nodes then // we print out noChildObjectNodeName and close the node if ( childObjs.size() == 0 && pcdata == null && noChildObjectNodeName != null) { if (Specification.getInstance().isPrettyXDFOutput()) writeOut(outputstream, indent + Specification.getInstance().getPrettyXDFOutputIndentation()); writeOut(outputstream, "<" + noChildObjectNodeName + "/>"); if (Specification.getInstance().isPrettyXDFOutput()) writeOut(outputstream, Constants.NEW_LINE); } // ok, now deal with closing the node if (nodeNameString != null) { indent = dealWithClosingGroupNodes((BaseObject) this, outputstream, indent); if (Specification.getInstance().isPrettyXDFOutput() && pcdata == null) writeOut(outputstream, indent); if (!dontCloseNode) writeOut(outputstream, "</"+nodeNameString+">"); } } else { if (nodeNameString != null) { if (dontCloseNode) { // it may not have sub-objects, but we dont want to close it // (happens for group objects) writeOut(outputstream, ">"); } else { // no sub-objects, just close this node writeOut(outputstream, "/>"); } } } if (Specification.getInstance().isPrettyXDFOutput() && nodeNameString != null) writeOut(outputstream, Constants.NEW_LINE); }//synchronize }
public void toXMLOutputStream ( OutputStream outputstream, Hashtable XMLDeclAttribs, String indent, boolean dontCloseNode, String newNodeNameString, String noChildObjectNodeName ) { //while writing out, attribHash should not be changed synchronized (attribHash) { String nodeNameString = this.classXDFNodeName; // Setup. Sometimes the name of the node we are opening is different from // that specified in the classXDFNodeName (*sigh*) if (newNodeNameString != null) nodeNameString = newNodeNameString;/* // 0. To be valid XML, we always start an XML block with an // XML declaration (e.g. somehting like "<?xml standalone="no"?>"). // Here we deal with printing out XML Declaration && its attributes if ((XMLDeclAttribs !=null) &&(!XMLDeclAttribs.isEmpty())) { indent = ""; writeXMLDeclToOutputStream(outputstream, XMLDeclAttribs); }*/ // 1. open this node, print its simple XML attributes if (nodeNameString != null) { if (Specification.getInstance().isPrettyXDFOutput()) writeOut(outputstream, indent); // indent node if desired // For printing the opening statement we need to invoke a little // Voodoo to keep the DTD happy: the first structure node is always // called by the root node name instead of the usual nodeNameString // We can tell this by checking if this object is derived from class // Structure and if XMLDeclAttrib defined/populated with information // NOTE: This isnt really the way to do this. We need to check if 'this' is // is or has as a superclass xdf.Structure instead of the 'string check' below. // check is class Strucuture & XMLDeclAttribs populated?/* if ( nodeNameString.equals(Specification.getInstance().getXDFStructureNodeName()) && !XMLDeclAttribs.isEmpty() ) nodeNameString = Specification.getInstance().getXDFRootNodeName();*/ writeOut(outputstream,"<" + nodeNameString); // print opening statement } // gather info about XMLAttributes in this object/node Hashtable xmlInfo = getXMLInfo(); // 2. Print out string object XML attributes EXCEPT for the one that // matches PCDATAAttribute. ArrayList attribs = (ArrayList) xmlInfo.get("attribList"); // is synchronized here correct? synchronized(attribs) { int size = attribs.size(); for (int i = 0; i < size; i++) { Hashtable item = (Hashtable) attribs.get(i); writeOut(outputstream, " " + item.get("name") + "=\""); // this slows things down, should we use? //writeOutAttribute(outputstream, (String) item.get("value")); writeOut(outputstream, (String) item.get("value")); writeOut(outputstream, "\"" ); } } // 3. Print out Node PCData or Child Nodes as specified by object ref // XML attributes. The way this stuff occurs will also affect how we // close the node. ArrayList childObjs = (ArrayList) xmlInfo.get("childObjList"); String pcdata = (String) xmlInfo.get("PCDATA"); if ( childObjs.size() > 0 || pcdata != null || noChildObjectNodeName != null) { // close the opening tag if (nodeNameString != null) { writeOut(outputstream, ">"); if ((Specification.getInstance().isPrettyXDFOutput()) && (pcdata == null)) writeOut(outputstream, Constants.NEW_LINE); } // deal with object/list XML attributes, if any in our list int size = childObjs.size(); for (int i = 0; i < size; i++) { Hashtable item = (Hashtable) childObjs.get(i); if (item.get("type") == Constants.LIST_TYPE) { List objectList = (List) item.get("value"); // Im not sure this synchronized wrapper is needed, we are // only accessing stuff here.. Also, should synchronzied wrapper // occur back in the getXMLInfo method instead where the orig // access occured?!? synchronized(objectList) { Iterator iter = objectList.iterator(); // Must be in synchronized block while (iter.hasNext()) { BaseObject containedObj = (BaseObject) iter.next(); if (containedObj != null) { // can happen from pre-allocation of axis values, etc (?) indent = dealWithOpeningGroupNodes(containedObj, outputstream, indent); String newindent = indent + Specification.getInstance().getPrettyXDFOutputIndentation(); containedObj.toXMLOutputStream(outputstream, new Hashtable(), newindent); } } } } else if (item.get("type") == Constants.OBJECT_TYPE) { BaseObject containedObj = (BaseObject) item.get("value"); if (containedObj != null) { // can happen from pre-allocation of axis values, etc (?) // shouldnt this be synchronized too?? synchronized(containedObj) { indent = dealWithOpeningGroupNodes(containedObj, outputstream, indent); String newindent = indent + Specification.getInstance().getPrettyXDFOutputIndentation(); containedObj.toXMLOutputStream(outputstream, new Hashtable(), newindent); } } } else { // error: weird type, actually shouldnt occur. Is this needed?? Log.errorln("Weird error: unknown XML attribute type for item:"+item); } } // print out PCDATA, if any if(pcdata != null) { writeOut(outputstream, pcdata); }; // if there are no PCDATA or child objects/nodes then // we print out noChildObjectNodeName and close the node if ( childObjs.size() == 0 && pcdata == null && noChildObjectNodeName != null) { if (Specification.getInstance().isPrettyXDFOutput()) writeOut(outputstream, indent + Specification.getInstance().getPrettyXDFOutputIndentation()); writeOut(outputstream, "<" + noChildObjectNodeName + "/>"); if (Specification.getInstance().isPrettyXDFOutput()) writeOut(outputstream, Constants.NEW_LINE); } // ok, now deal with closing the node if (nodeNameString != null) { indent = dealWithClosingGroupNodes((BaseObject) this, outputstream, indent); if (Specification.getInstance().isPrettyXDFOutput() && pcdata == null) writeOut(outputstream, indent); if (!dontCloseNode) writeOut(outputstream, "</"+nodeNameString+">"); } } else { if (nodeNameString != null) { if (dontCloseNode) { // it may not have sub-objects, but we dont want to close it // (happens for group objects) writeOut(outputstream, ">"); } else { // no sub-objects, just close this node writeOut(outputstream, "/>"); } } } if (Specification.getInstance().isPrettyXDFOutput() && nodeNameString != null) writeOut(outputstream, Constants.NEW_LINE); }//synchronize }
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public Lease(VMID id, long duration) { vmid = id; value = duration;}
public Lease(VMID id, long duration) { vmid = id; value = duration;}
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public Lease(VMID id, long duration) { vmid = id; value = duration;}
public Lease(VMID id, long duration) { vmid = id; value = duration;}
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public VMID getVMID() { return (vmid);}
public VMID getVMID() { return (vmid);}
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public VMID getVMID() { return (vmid);}
public VMID getVMID() { return (vmid);}
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public long getValue() { return (value);}
public long getValue() { return (value);}
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public long getValue() { return (value);}
public long getValue() { return (value);}
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public String toString() { return ("[" + vmid.toString() + ", " + Long.toString(value) + "]");}
public String toString() { return ("[" + vmid.toString() + ", " + Long.toString(value) + "]");}
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public String toString() { return ("[" + vmid.toString() + ", " + Long.toString(value) + "]");}
public String toString() { return ("[" + vmid.toString() + ", " + Long.toString(value) + "]");}
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private static final void checkTag(int value_tag) { if ((value_tag < 0x7fffff00 || value_tag > 0x7fffffff) && value_tag != vt_NULL && value_tag != vt_INDIRECTION ) throw new MARSHAL("Invalid value record, unsupported header tag: " + value_tag ); }
private static final void checkTag(int value_tag) { if ((value_tag < 0x7fffff00 || value_tag > 0x7fffffff) && value_tag != vt_NULL && value_tag != vt_INDIRECTION ) throw new MARSHAL("Invalid value record, unsupported header tag: " + value_tag ); }
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private static Object read_instance(InputStream input, Object value, int value_tag, Object helper ) { try { if ((value_tag & vf_CHUNKING) != 0) { ByteArrayOutputStream bout = null; int n = -1; // Read all chunks. int chunk_size = input.read_long(); if (chunk_size < 0) throw new MARSHAL("Invalid first chunk size " + chunk_size); byte[] r = new byte[ chunk_size ]; while (chunk_size > 0) { if (r.length < chunk_size) r = new byte[ chunk_size + 256 ]; n = 0; reading: while (n < chunk_size) n += input.read(r, n, r.length - n); // Read the size of the next chunk. chunk_size = input.read_long(); // If the value is non negative, there is more than one chunk. // Accumulate chunks in the buffer. // The last chunk (or the only chunk, if only one chunk is // present) is not written in the buffer. It is stored in the // array r, avoiding unnecessary buffer operations. if (chunk_size > 0) { bout = new ByteArrayOutputStream(2 * chunk_size); bout.write(r, 0, chunk_size); } } if (bout != null) { // More than one chunk was present. // Add the last chunk. bout.write(r, 0, n); input = new noHeaderInput(bout.toByteArray()); } else { // Only one chunk was present. input = new noHeaderInput(r); } } else { if (input instanceof cdrBufInput) { // Highly probable case. input = new noHeaderInput(((cdrBufInput) input).buffer.getBuffer()); } else { cdrBufOutput bout = new cdrBufOutput(); int c; while ((c = input.read()) >= 0) bout.write((byte) c); input = new noHeaderInput(bout.buffer.toByteArray()); } } } catch (IOException ex) { MARSHAL m = new MARSHAL("Unable to read chunks"); m.initCause(ex); throw m; } // The user-defines io operations are implemented. if (value instanceof CustomMarshal) { CustomMarshal marsh = (CustomMarshal) value; try { marsh.unmarshal((DataInputStream) input); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else // The IDL-generated io operations are implemented. if (value instanceof Streamable) { ((Streamable) value)._read(input); } else if (helper instanceof BoxedValueHelper) value = ((BoxedValueHelper) helper).read_value(input); else if (helper instanceof ValueFactory) value = ((ValueFactory) helper).read_value((org.omg.CORBA_2_3.portable.InputStream) input); else // Stating the interfaces that the USER should use. throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue or CustomValue." ); // The negative end of state marker is expected from OMG standard. // If the chunking is used, this marker is already extracted. if ((value_tag & vf_CHUNKING) == 0) { int eor = input.read_long(); if (eor >= 0) throw new MARSHAL("End of state marker has an invalid value " + eor); } return value; }
private static Object read_instance(InputStream input, Object value, int value_tag, Object helper ) { try { if ((value_tag & vf_CHUNKING) != 0) { ByteArrayOutputStream bout = null; int n = -1; // Read all chunks. int chunk_size = input.read_long(); if (chunk_size < 0) throw new MARSHAL("Invalid first chunk size " + chunk_size); byte[] r = new byte[ chunk_size ]; while (chunk_size > 0) { if (r.length < chunk_size) r = new byte[ chunk_size + 256 ]; n = 0; reading: while (n < chunk_size) n += input.read(r, n, r.length - n); // Read the size of the next chunk. chunk_size = input.read_long(); // If the value is non negative, there is more than one chunk. // Accumulate chunks in the buffer. // The last chunk (or the only chunk, if only one chunk is // present) is not written in the buffer. It is stored in the // array r, avoiding unnecessary buffer operations. if (chunk_size > 0) { bout = new ByteArrayOutputStream(2 * chunk_size); bout.write(r, 0, chunk_size); } } if (bout != null) { // More than one chunk was present. // Add the last chunk. bout.write(r, 0, n); input = new noHeaderInput(bout.toByteArray()); } else { // Only one chunk was present. input = new noHeaderInput(r); } } else { if (input instanceof cdrBufInput) { // Highly probable case. input = new noHeaderInput(((cdrBufInput) input).buffer.getBuffer()); } else { cdrBufOutput bout = new cdrBufOutput(); int c; while ((c = input.read()) >= 0) bout.write((byte) c); input = new noHeaderInput(bout.buffer.toByteArray()); } } } catch (IOException ex) { MARSHAL m = new MARSHAL("Unable to read chunks"); m.initCause(ex); throw m; } // The user-defines io operations are implemented. if (value instanceof CustomMarshal) { CustomMarshal marsh = (CustomMarshal) value; try { marsh.unmarshal((DataInputStream) input); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else // The IDL-generated io operations are implemented. if (value instanceof Streamable) { ((Streamable) value)._read(input); } else if (helper instanceof BoxedValueHelper) value = ((BoxedValueHelper) helper).read_value(input); else if (helper instanceof ValueFactory) value = ((ValueFactory) helper).read_value((org.omg.CORBA_2_3.portable.InputStream) input); else // Stating the interfaces that the USER should use. throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue or CustomValue." ); // The negative end of state marker is expected from OMG standard. // If the chunking is used, this marker is already extracted. if ((value_tag & vf_CHUNKING) == 0) { int eor = input.read_long(); if (eor >= 0) throw new MARSHAL("End of state marker has an invalid value " + eor); } return value; }
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private static Object read_instance(InputStream input, Object value, int value_tag, Object helper ) { try { if ((value_tag & vf_CHUNKING) != 0) { ByteArrayOutputStream bout = null; int n = -1; // Read all chunks. int chunk_size = input.read_long(); if (chunk_size < 0) throw new MARSHAL("Invalid first chunk size " + chunk_size); byte[] r = new byte[ chunk_size ]; while (chunk_size > 0) { if (r.length < chunk_size) r = new byte[ chunk_size + 256 ]; n = 0; reading: while (n < chunk_size) n += input.read(r, n, r.length - n); // Read the size of the next chunk. chunk_size = input.read_long(); // If the value is non negative, there is more than one chunk. // Accumulate chunks in the buffer. // The last chunk (or the only chunk, if only one chunk is // present) is not written in the buffer. It is stored in the // array r, avoiding unnecessary buffer operations. if (chunk_size > 0) { bout = new ByteArrayOutputStream(2 * chunk_size); bout.write(r, 0, chunk_size); } } if (bout != null) { // More than one chunk was present. // Add the last chunk. bout.write(r, 0, n); input = new noHeaderInput(bout.toByteArray()); } else { // Only one chunk was present. input = new noHeaderInput(r); } } else { if (input instanceof cdrBufInput) { // Highly probable case. input = new noHeaderInput(((cdrBufInput) input).buffer.getBuffer()); } else { cdrBufOutput bout = new cdrBufOutput(); int c; while ((c = input.read()) >= 0) bout.write((byte) c); input = new noHeaderInput(bout.buffer.toByteArray()); } } } catch (IOException ex) { MARSHAL m = new MARSHAL("Unable to read chunks"); m.initCause(ex); throw m; } // The user-defines io operations are implemented. if (value instanceof CustomMarshal) { CustomMarshal marsh = (CustomMarshal) value; try { marsh.unmarshal((DataInputStream) input); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else // The IDL-generated io operations are implemented. if (value instanceof Streamable) { ((Streamable) value)._read(input); } else if (helper instanceof BoxedValueHelper) value = ((BoxedValueHelper) helper).read_value(input); else if (helper instanceof ValueFactory) value = ((ValueFactory) helper).read_value((org.omg.CORBA_2_3.portable.InputStream) input); else // Stating the interfaces that the USER should use. throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue or CustomValue." ); // The negative end of state marker is expected from OMG standard. // If the chunking is used, this marker is already extracted. if ((value_tag & vf_CHUNKING) == 0) { int eor = input.read_long(); if (eor >= 0) throw new MARSHAL("End of state marker has an invalid value " + eor); } return value; }
private static Object read_instance(InputStream input, Object value, int value_tag, Object helper ) { try { if ((value_tag & vf_CHUNKING) != 0) { ByteArrayOutputStream bout = null; int n = -1; // Read all chunks. int chunk_size = input.read_long(); if (chunk_size < 0) throw new MARSHAL("Invalid first chunk size " + chunk_size); byte[] r = new byte[ chunk_size ]; while (chunk_size > 0) { if (r.length < chunk_size) r = new byte[ chunk_size + 256 ]; n = 0; reading: while (n < chunk_size) n += input.read(r, n, r.length - n); // Read the size of the next chunk. chunk_size = input.read_long(); // If the value is non negative, there is more than one chunk. // Accumulate chunks in the buffer. // The last chunk (or the only chunk, if only one chunk is // present) is not written in the buffer. It is stored in the // array r, avoiding unnecessary buffer operations. if (chunk_size > 0) { bout = new ByteArrayOutputStream(2 * chunk_size); bout.write(r, 0, chunk_size); } } if (bout != null) { // More than one chunk was present. // Add the last chunk. bout.write(r, 0, n); input = new noHeaderInput(bout.toByteArray()); } else { // Only one chunk was present. input = new noHeaderInput(r); } } else { if (input instanceof cdrBufInput) { // Highly probable case. input = new noHeaderInput(((cdrBufInput) input).buffer.getBuffer()); } else { cdrBufOutput bout = new cdrBufOutput(); int c; while ((c = input.read()) >= 0) bout.write((byte) c); input = new noHeaderInput(bout.buffer.toByteArray()); } } } catch (IOException ex) { MARSHAL m = new MARSHAL("Unable to read chunks"); m.initCause(ex); throw m; } // The user-defines io operations are implemented. if (value instanceof CustomMarshal) { CustomMarshal marsh = (CustomMarshal) value; try { marsh.unmarshal((DataInputStream) input); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else // The IDL-generated io operations are implemented. if (value instanceof Streamable) { ((Streamable) value)._read(input); } else if (helper instanceof BoxedValueHelper) value = ((BoxedValueHelper) helper).read_value(input); else if (helper instanceof ValueFactory) value = ((ValueFactory) helper).read_value((org.omg.CORBA_2_3.portable.InputStream) input); else // Stating the interfaces that the USER should use. throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue or CustomValue." ); // The negative end of state marker is expected from OMG standard. // If the chunking is used, this marker is already extracted. if ((value_tag & vf_CHUNKING) == 0) { int eor = input.read_long(); if (eor >= 0) throw new MARSHAL("End of state marker has an invalid value " + eor); } return value; }
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private static Object read_instance(InputStream input, Object value, int value_tag, Object helper ) { try { if ((value_tag & vf_CHUNKING) != 0) { ByteArrayOutputStream bout = null; int n = -1; // Read all chunks. int chunk_size = input.read_long(); if (chunk_size < 0) throw new MARSHAL("Invalid first chunk size " + chunk_size); byte[] r = new byte[ chunk_size ]; while (chunk_size > 0) { if (r.length < chunk_size) r = new byte[ chunk_size + 256 ]; n = 0; reading: while (n < chunk_size) n += input.read(r, n, r.length - n); // Read the size of the next chunk. chunk_size = input.read_long(); // If the value is non negative, there is more than one chunk. // Accumulate chunks in the buffer. // The last chunk (or the only chunk, if only one chunk is // present) is not written in the buffer. It is stored in the // array r, avoiding unnecessary buffer operations. if (chunk_size > 0) { bout = new ByteArrayOutputStream(2 * chunk_size); bout.write(r, 0, chunk_size); } } if (bout != null) { // More than one chunk was present. // Add the last chunk. bout.write(r, 0, n); input = new noHeaderInput(bout.toByteArray()); } else { // Only one chunk was present. input = new noHeaderInput(r); } } else { if (input instanceof cdrBufInput) { // Highly probable case. input = new noHeaderInput(((cdrBufInput) input).buffer.getBuffer()); } else { cdrBufOutput bout = new cdrBufOutput(); int c; while ((c = input.read()) >= 0) bout.write((byte) c); input = new noHeaderInput(bout.buffer.toByteArray()); } } } catch (IOException ex) { MARSHAL m = new MARSHAL("Unable to read chunks"); m.initCause(ex); throw m; } // The user-defines io operations are implemented. if (value instanceof CustomMarshal) { CustomMarshal marsh = (CustomMarshal) value; try { marsh.unmarshal((DataInputStream) input); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else // The IDL-generated io operations are implemented. if (value instanceof Streamable) { ((Streamable) value)._read(input); } else if (helper instanceof BoxedValueHelper) value = ((BoxedValueHelper) helper).read_value(input); else if (helper instanceof ValueFactory) value = ((ValueFactory) helper).read_value((org.omg.CORBA_2_3.portable.InputStream) input); else // Stating the interfaces that the USER should use. throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue or CustomValue." ); // The negative end of state marker is expected from OMG standard. // If the chunking is used, this marker is already extracted. if ((value_tag & vf_CHUNKING) == 0) { int eor = input.read_long(); if (eor >= 0) throw new MARSHAL("End of state marker has an invalid value " + eor); } return value; }
private static Object read_instance(InputStream input, Object value, int value_tag, Object helper ) { try { if ((value_tag & vf_CHUNKING) != 0) { ByteArrayOutputStream bout = null; int n = -1; // Read all chunks. int chunk_size = input.read_long(); if (chunk_size < 0) throw new MARSHAL("Invalid first chunk size " + chunk_size); byte[] r = new byte[ chunk_size ]; while (chunk_size > 0) { if (r.length < chunk_size) r = new byte[ chunk_size + 256 ]; n = 0; reading: while (n < chunk_size) n += input.read(r, n, r.length - n); // Read the size of the next chunk. chunk_size = input.read_long(); // If the value is non negative, there is more than one chunk. // Accumulate chunks in the buffer. // The last chunk (or the only chunk, if only one chunk is // present) is not written in the buffer. It is stored in the // array r, avoiding unnecessary buffer operations. if (chunk_size > 0) { bout = new ByteArrayOutputStream(2 * chunk_size); bout.write(r, 0, chunk_size); } } if (bout != null) { // More than one chunk was present. // Add the last chunk. bout.write(r, 0, n); input = new noHeaderInput(bout.toByteArray()); } else { // Only one chunk was present. input = new noHeaderInput(r); } } else { if (input instanceof cdrBufInput) { // Highly probable case. input = new noHeaderInput(((cdrBufInput) input).buffer.getBuffer()); } else { cdrBufOutput bout = new cdrBufOutput(); int c; while ((c = input.read()) >= 0) bout.write((byte) c); input = new noHeaderInput(bout.buffer.toByteArray()); } } } catch (IOException ex) { MARSHAL m = new MARSHAL("Unable to read chunks"); m.initCause(ex); throw m; } // The user-defines io operations are implemented. if (value instanceof CustomMarshal) { CustomMarshal marsh = (CustomMarshal) value; try { marsh.unmarshal((DataInputStream) input); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else // The IDL-generated io operations are implemented. if (value instanceof Streamable) { ((Streamable) value)._read(input); } else if (helper instanceof BoxedValueHelper) value = ((BoxedValueHelper) helper).read_value(input); else if (helper instanceof ValueFactory) value = ((ValueFactory) helper).read_value((org.omg.CORBA_2_3.portable.InputStream) input); else // Stating the interfaces that the USER should use. throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue or CustomValue." ); // The negative end of state marker is expected from OMG standard. // If the chunking is used, this marker is already extracted. if ((value_tag & vf_CHUNKING) == 0) { int eor = input.read_long(); if (eor >= 0) throw new MARSHAL("End of state marker has an invalid value " + eor); } return value; }
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private static Object read_instance(InputStream input, Object value, int value_tag, Object helper ) { try { if ((value_tag & vf_CHUNKING) != 0) { ByteArrayOutputStream bout = null; int n = -1; // Read all chunks. int chunk_size = input.read_long(); if (chunk_size < 0) throw new MARSHAL("Invalid first chunk size " + chunk_size); byte[] r = new byte[ chunk_size ]; while (chunk_size > 0) { if (r.length < chunk_size) r = new byte[ chunk_size + 256 ]; n = 0; reading: while (n < chunk_size) n += input.read(r, n, r.length - n); // Read the size of the next chunk. chunk_size = input.read_long(); // If the value is non negative, there is more than one chunk. // Accumulate chunks in the buffer. // The last chunk (or the only chunk, if only one chunk is // present) is not written in the buffer. It is stored in the // array r, avoiding unnecessary buffer operations. if (chunk_size > 0) { bout = new ByteArrayOutputStream(2 * chunk_size); bout.write(r, 0, chunk_size); } } if (bout != null) { // More than one chunk was present. // Add the last chunk. bout.write(r, 0, n); input = new noHeaderInput(bout.toByteArray()); } else { // Only one chunk was present. input = new noHeaderInput(r); } } else { if (input instanceof cdrBufInput) { // Highly probable case. input = new noHeaderInput(((cdrBufInput) input).buffer.getBuffer()); } else { cdrBufOutput bout = new cdrBufOutput(); int c; while ((c = input.read()) >= 0) bout.write((byte) c); input = new noHeaderInput(bout.buffer.toByteArray()); } } } catch (IOException ex) { MARSHAL m = new MARSHAL("Unable to read chunks"); m.initCause(ex); throw m; } // The user-defines io operations are implemented. if (value instanceof CustomMarshal) { CustomMarshal marsh = (CustomMarshal) value; try { marsh.unmarshal((DataInputStream) input); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else // The IDL-generated io operations are implemented. if (value instanceof Streamable) { ((Streamable) value)._read(input); } else if (helper instanceof BoxedValueHelper) value = ((BoxedValueHelper) helper).read_value(input); else if (helper instanceof ValueFactory) value = ((ValueFactory) helper).read_value((org.omg.CORBA_2_3.portable.InputStream) input); else // Stating the interfaces that the USER should use. throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue or CustomValue." ); // The negative end of state marker is expected from OMG standard. // If the chunking is used, this marker is already extracted. if ((value_tag & vf_CHUNKING) == 0) { int eor = input.read_long(); if (eor >= 0) throw new MARSHAL("End of state marker has an invalid value " + eor); } return value; }
private static Object read_instance(InputStream input, Object value, int value_tag, Object helper ) { try { if ((value_tag & vf_CHUNKING) != 0) { ByteArrayOutputStream bout = null; int n = -1; // Read all chunks. int chunk_size = input.read_long(); if (chunk_size < 0) throw new MARSHAL("Invalid first chunk size " + chunk_size); byte[] r = new byte[ chunk_size ]; while (chunk_size > 0) { if (r.length < chunk_size) r = new byte[ chunk_size + 256 ]; n = 0; reading: while (n < chunk_size) n += input.read(r, n, r.length - n); // Read the size of the next chunk. chunk_size = input.read_long(); // If the value is non negative, there is more than one chunk. // Accumulate chunks in the buffer. // The last chunk (or the only chunk, if only one chunk is // present) is not written in the buffer. It is stored in the // array r, avoiding unnecessary buffer operations. if (chunk_size > 0) { bout = new ByteArrayOutputStream(2 * chunk_size); bout.write(r, 0, chunk_size); } } if (bout != null) { // More than one chunk was present. // Add the last chunk. bout.write(r, 0, n); input = new noHeaderInput(bout.toByteArray()); } else { // Only one chunk was present. input = new noHeaderInput(r); } } else { if (input instanceof cdrBufInput) { // Highly probable case. input = new noHeaderInput(((cdrBufInput) input).buffer.getBuffer()); } else { cdrBufOutput bout = new cdrBufOutput(); int c; while ((c = input.read()) >= 0) bout.write((byte) c); input = new noHeaderInput(bout.buffer.toByteArray()); } } } catch (IOException ex) { MARSHAL m = new MARSHAL("Unable to read chunks"); m.initCause(ex); throw m; } // The user-defines io operations are implemented. if (value instanceof CustomMarshal) { CustomMarshal marsh = (CustomMarshal) value; try { marsh.unmarshal((DataInputStream) input); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else // The IDL-generated io operations are implemented. if (value instanceof Streamable) { ((Streamable) value)._read(input); } else if (helper instanceof BoxedValueHelper) value = ((BoxedValueHelper) helper).read_value(input); else if (helper instanceof ValueFactory) value = ((ValueFactory) helper).read_value((org.omg.CORBA_2_3.portable.InputStream) input); else // Stating the interfaces that the USER should use. throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue or CustomValue." ); // The negative end of state marker is expected from OMG standard. // If the chunking is used, this marker is already extracted. if ((value_tag & vf_CHUNKING) == 0) { int eor = input.read_long(); if (eor >= 0) throw new MARSHAL("End of state marker has an invalid value " + eor); } return value; }
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private static Object read_instance(InputStream input, Object value, int value_tag, Object helper ) { try { if ((value_tag & vf_CHUNKING) != 0) { ByteArrayOutputStream bout = null; int n = -1; // Read all chunks. int chunk_size = input.read_long(); if (chunk_size < 0) throw new MARSHAL("Invalid first chunk size " + chunk_size); byte[] r = new byte[ chunk_size ]; while (chunk_size > 0) { if (r.length < chunk_size) r = new byte[ chunk_size + 256 ]; n = 0; reading: while (n < chunk_size) n += input.read(r, n, r.length - n); // Read the size of the next chunk. chunk_size = input.read_long(); // If the value is non negative, there is more than one chunk. // Accumulate chunks in the buffer. // The last chunk (or the only chunk, if only one chunk is // present) is not written in the buffer. It is stored in the // array r, avoiding unnecessary buffer operations. if (chunk_size > 0) { bout = new ByteArrayOutputStream(2 * chunk_size); bout.write(r, 0, chunk_size); } } if (bout != null) { // More than one chunk was present. // Add the last chunk. bout.write(r, 0, n); input = new noHeaderInput(bout.toByteArray()); } else { // Only one chunk was present. input = new noHeaderInput(r); } } else { if (input instanceof cdrBufInput) { // Highly probable case. input = new noHeaderInput(((cdrBufInput) input).buffer.getBuffer()); } else { cdrBufOutput bout = new cdrBufOutput(); int c; while ((c = input.read()) >= 0) bout.write((byte) c); input = new noHeaderInput(bout.buffer.toByteArray()); } } } catch (IOException ex) { MARSHAL m = new MARSHAL("Unable to read chunks"); m.initCause(ex); throw m; } // The user-defines io operations are implemented. if (value instanceof CustomMarshal) { CustomMarshal marsh = (CustomMarshal) value; try { marsh.unmarshal((DataInputStream) input); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else // The IDL-generated io operations are implemented. if (value instanceof Streamable) { ((Streamable) value)._read(input); } else if (helper instanceof BoxedValueHelper) value = ((BoxedValueHelper) helper).read_value(input); else if (helper instanceof ValueFactory) value = ((ValueFactory) helper).read_value((org.omg.CORBA_2_3.portable.InputStream) input); else // Stating the interfaces that the USER should use. throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue or CustomValue." ); // The negative end of state marker is expected from OMG standard. // If the chunking is used, this marker is already extracted. if ((value_tag & vf_CHUNKING) == 0) { int eor = input.read_long(); if (eor >= 0) throw new MARSHAL("End of state marker has an invalid value " + eor); } return value; }
private static Object read_instance(InputStream input, Object value, int value_tag, Object helper ) { try { if ((value_tag & vf_CHUNKING) != 0) { ByteArrayOutputStream bout = null; int n = -1; // Read all chunks. int chunk_size = input.read_long(); if (chunk_size < 0) throw new MARSHAL("Invalid first chunk size " + chunk_size); byte[] r = new byte[ chunk_size ]; while (chunk_size > 0) { if (r.length < chunk_size) r = new byte[ chunk_size + 256 ]; n = 0; reading: while (n < chunk_size) n += input.read(r, n, r.length - n); // Read the size of the next chunk. chunk_size = input.read_long(); // If the value is non negative, there is more than one chunk. // Accumulate chunks in the buffer. // The last chunk (or the only chunk, if only one chunk is // present) is not written in the buffer. It is stored in the // array r, avoiding unnecessary buffer operations. if (chunk_size > 0) { bout = new ByteArrayOutputStream(2 * chunk_size); bout.write(r, 0, chunk_size); } } if (bout != null) { // More than one chunk was present. // Add the last chunk. bout.write(r, 0, n); input = new noHeaderInput(bout.toByteArray()); } else { // Only one chunk was present. input = new noHeaderInput(r); } } else { if (input instanceof cdrBufInput) { // Highly probable case. input = new noHeaderInput(((cdrBufInput) input).buffer.getBuffer()); } else { cdrBufOutput bout = new cdrBufOutput(); int c; while ((c = input.read()) >= 0) bout.write((byte) c); input = new noHeaderInput( (cdrBufInput) bout.create_input_stream(), input); } } } catch (IOException ex) { MARSHAL m = new MARSHAL("Unable to read chunks"); m.initCause(ex); throw m; } // The user-defines io operations are implemented. if (value instanceof CustomMarshal) { CustomMarshal marsh = (CustomMarshal) value; try { marsh.unmarshal((DataInputStream) input); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else // The IDL-generated io operations are implemented. if (value instanceof Streamable) { ((Streamable) value)._read(input); } else if (helper instanceof BoxedValueHelper) value = ((BoxedValueHelper) helper).read_value(input); else if (helper instanceof ValueFactory) value = ((ValueFactory) helper).read_value((org.omg.CORBA_2_3.portable.InputStream) input); else // Stating the interfaces that the USER should use. throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue or CustomValue." ); // The negative end of state marker is expected from OMG standard. // If the chunking is used, this marker is already extracted. if ((value_tag & vf_CHUNKING) == 0) { int eor = input.read_long(); if (eor >= 0) throw new MARSHAL("End of state marker has an invalid value " + eor); } return value; }
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private static Object read_instance(InputStream input, Object value, int value_tag, Object helper ) { try { if ((value_tag & vf_CHUNKING) != 0) { ByteArrayOutputStream bout = null; int n = -1; // Read all chunks. int chunk_size = input.read_long(); if (chunk_size < 0) throw new MARSHAL("Invalid first chunk size " + chunk_size); byte[] r = new byte[ chunk_size ]; while (chunk_size > 0) { if (r.length < chunk_size) r = new byte[ chunk_size + 256 ]; n = 0; reading: while (n < chunk_size) n += input.read(r, n, r.length - n); // Read the size of the next chunk. chunk_size = input.read_long(); // If the value is non negative, there is more than one chunk. // Accumulate chunks in the buffer. // The last chunk (or the only chunk, if only one chunk is // present) is not written in the buffer. It is stored in the // array r, avoiding unnecessary buffer operations. if (chunk_size > 0) { bout = new ByteArrayOutputStream(2 * chunk_size); bout.write(r, 0, chunk_size); } } if (bout != null) { // More than one chunk was present. // Add the last chunk. bout.write(r, 0, n); input = new noHeaderInput(bout.toByteArray()); } else { // Only one chunk was present. input = new noHeaderInput(r); } } else { if (input instanceof cdrBufInput) { // Highly probable case. input = new noHeaderInput(((cdrBufInput) input).buffer.getBuffer()); } else { cdrBufOutput bout = new cdrBufOutput(); int c; while ((c = input.read()) >= 0) bout.write((byte) c); input = new noHeaderInput(bout.buffer.toByteArray()); } } } catch (IOException ex) { MARSHAL m = new MARSHAL("Unable to read chunks"); m.initCause(ex); throw m; } // The user-defines io operations are implemented. if (value instanceof CustomMarshal) { CustomMarshal marsh = (CustomMarshal) value; try { marsh.unmarshal((DataInputStream) input); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else // The IDL-generated io operations are implemented. if (value instanceof Streamable) { ((Streamable) value)._read(input); } else if (helper instanceof BoxedValueHelper) value = ((BoxedValueHelper) helper).read_value(input); else if (helper instanceof ValueFactory) value = ((ValueFactory) helper).read_value((org.omg.CORBA_2_3.portable.InputStream) input); else // Stating the interfaces that the USER should use. throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue or CustomValue." ); // The negative end of state marker is expected from OMG standard. // If the chunking is used, this marker is already extracted. if ((value_tag & vf_CHUNKING) == 0) { int eor = input.read_long(); if (eor >= 0) throw new MARSHAL("End of state marker has an invalid value " + eor); } return value; }
private static Object read_instance(InputStream input, Object value, int value_tag, Object helper ) { try { if ((value_tag & vf_CHUNKING) != 0) { ByteArrayOutputStream bout = null; int n = -1; // Read all chunks. int chunk_size = input.read_long(); if (chunk_size < 0) throw new MARSHAL("Invalid first chunk size " + chunk_size); byte[] r = new byte[ chunk_size ]; while (chunk_size > 0) { if (r.length < chunk_size) r = new byte[ chunk_size + 256 ]; n = 0; reading: while (n < chunk_size) n += input.read(r, n, r.length - n); // Read the size of the next chunk. chunk_size = input.read_long(); // If the value is non negative, there is more than one chunk. // Accumulate chunks in the buffer. // The last chunk (or the only chunk, if only one chunk is // present) is not written in the buffer. It is stored in the // array r, avoiding unnecessary buffer operations. if (chunk_size > 0) { bout = new ByteArrayOutputStream(2 * chunk_size); bout.write(r, 0, chunk_size); } } if (bout != null) { // More than one chunk was present. // Add the last chunk. bout.write(r, 0, n); input = new noHeaderInput(bout.toByteArray()); } else { // Only one chunk was present. input = new noHeaderInput(r); } } else { if (input instanceof cdrBufInput) { // Highly probable case. input = new noHeaderInput(((cdrBufInput) input).buffer.getBuffer()); } else { cdrBufOutput bout = new cdrBufOutput(); int c; while ((c = input.read()) >= 0) bout.write((byte) c); input = new noHeaderInput(bout.buffer.toByteArray()); } } } catch (IOException ex) { MARSHAL m = new MARSHAL("Unable to read chunks"); m.initCause(ex); throw m; } // The user-defines io operations are implemented. if (value instanceof CustomMarshal) { CustomMarshal marsh = (CustomMarshal) value; try { marsh.unmarshal((DataInputStream) input); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else // The IDL-generated io operations are implemented. if (value instanceof Streamable) { ((Streamable) value)._read(input); } else if (helper instanceof BoxedValueHelper) value = ((BoxedValueHelper) helper).read_value(input); else if (helper instanceof ValueFactory) value = ((ValueFactory) helper).read_value((org.omg.CORBA_2_3.portable.InputStream) input); else // Stating the interfaces that the USER should use. throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue or CustomValue." ); // The negative end of state marker is expected from OMG standard. // If the chunking is used, this marker is already extracted. if ((value_tag & vf_CHUNKING) == 0) { int eor = input.read_long(); if (eor >= 0) throw new MARSHAL("End of state marker has an invalid value " + eor); } return value; }
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public static void write(OutputStream output, Serializable value) { // Write null if this is a null value. if (value == null) output.write_long(vt_NULL); else write(output, value, ObjectCreator.toIDL(value.getClass().getName())); }
public static void write(OutputStream output, Serializable value) { // Write null if this is a null value. if (value == null) output.write_long(vt_NULL); else write(output, value, value.getClass()); }
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private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
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private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. gnuValueStream rout = null; gnuRuntime runtime = null; try { if (output instanceof gnuValueStream) { int position; rout = (gnuValueStream) output; runtime = rout.getRunTime(); if (runtime == null) { runtime = new gnuRuntime(null, value); rout.setRunTime(runtime); rout.getRunTime().objectWritten(value, position = rout.getPosition()); } else if (runtime.target == value) { if (!writeSelf(output, value)) throw new InternalError("Recursive helper call for " + value.getClass().getName()); return; } else { position = runtime.isWrittenAt(value); if (position >= 0) { output.write_long(vt_INDIRECTION); output.write_long(position - rout.getPosition()); return; } else { runtime.objectWritten(value, position = rout.getPosition()); } } } int value_tag = vt_VALUE_TAG; if (ids instanceof String) value_tag |= vf_ID; else if (ids instanceof String[]) value_tag |= vf_MULTIPLE_IDS | vf_ID; int chunkSizeLocation; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
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private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
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private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
5,992
private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
5,993
private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if ((value_tag & vf_MULTIPLE_IDS) != 0) write_string_array(output, (String[]) ids); else if ((value_tag & vf_ID) != 0) write_string(output, (String) ids); if (USE_CHUNKING) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
5,994
private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { output.write_long(0x55555555); chunkSizeLocation = rout.getPosition() - INT_SIZE; } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
5,995
private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. chunkSizeLocation = -1; writeValue(outObj, value, helper); if (USE_CHUNKING) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
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private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
5,997
private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
5,998
private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
5,999
private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
private static void write_instance(OutputStream output, Serializable value, String id, Object helper ) { // This implementation always writes a single repository id. // It never writes multiple repository ids and currently does not use // a codebase. int value_tag = vt_VALUE_TAG | vf_ID; OutputStream outObj; cdrBufOutput out = null; if (USE_CHUNKING) { out = new cdrBufOutput(); out.setOrb(output.orb()); outObj = out; value_tag |= vf_CHUNKING; } else outObj = output; output.write_long(value_tag); output.write_string(id); if (helper instanceof BoxedValueHelper) { ((BoxedValueHelper) helper).write_value(outObj, value); } else // User defince write method is present. if (value instanceof CustomMarshal) { try { ((CustomMarshal) value).marshal((DataOutputStream) outObj); } catch (ClassCastException ex) { incorrect_plug_in(ex); } } else if (value instanceof Streamable) { ((Streamable) value)._write(outObj); } else { // Try to find helper via class loader. boolean ok = false; try { Class helperClass = Class.forName(ObjectCreator.toHelperName(id)); // It will be the helper for the encapsulated boxed value, not the // for the global boxed value type itself. Method write = helperClass.getMethod("write", new Class[] { org.omg.CORBA.portable.OutputStream.class, value.getClass() } ); write.invoke(null, new Object[] { outObj, value }); ok = true; } catch (Exception ex) { ok = false; } // Stating the interfaces that the USER should use. if (!ok) throw new MARSHAL("The " + value.getClass().getName() + " must implement either StreamableValue" + " or CustomValue." ); } if (USE_CHUNKING) { output.write_long(out.buffer.size()); try { out.buffer.writeTo(output); } catch (IOException ex) { MARSHAL m = new MARSHAL(); m.initCause(ex); throw m; } } // The end of record marker, required by OMG standard. output.write_long(-1); }
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public static String[] read(InputStream input) { String[] value = new String[ input.read_long() ]; for (int i = 0; i < value.length; i++) value [ i ] = input.read_wstring(); return value; }
public static String[] read(InputStream input) { String[] value = new String[ input.read_long() ]; for (int i = 0; i < value.length; i++) value [ i ] = input.read_string(); return value; }
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protected void setXMLAttributes (AttributeList attrs) { // set object attributes from an AttributeList if (attrs != null) { // whip thru the list, setting each value for (int i = 0; i < attrs.getLength (); i++) { ((XMLAttribute) this.attribHash.get(attrs.getName(i))).setAttribValue(attrs.getValue(i)); } } }
protected void setXMLAttributes (AttributeList attrs) { // set object attributes from an AttributeList if (attrs != null) { // whip thru the list, setting each value for (int i = 0; i < attrs.getLength (); i++) { ((XMLAttribute) this.attribHash.get(attrs.getName(i))).setAttribValue(attrs.getValue(i)); } } }
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public Object clone() { SimpleAttributeSet s = new SimpleAttributeSet(); s.tab = (Hashtable) tab.clone(); return s; }
public Object clone() { SimpleAttributeSet s = new SimpleAttributeSet(); s.tab = (Hashtable) tab.clone(); return s; }
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public void propertyChange(PropertyChangeEvent e) { if (e.getPropertyName().equals(JScrollBar.MODEL_CHANGED_PROPERTY)) { ((BoundedRangeModel) e.getOldValue()).removeChangeListener(modelListener); scrollbar.getModel().addChangeListener(modelListener); getThumbBounds(); } else if (e.getPropertyName().equals(JScrollBar.ORIENTATION_CHANGED_PROPERTY)) { incrButton.removeMouseListener(buttonListener); decrButton.removeMouseListener(buttonListener); incrButton = createIncreaseButton(scrollbar.getOrientation()); decrButton = createDecreaseButton(scrollbar.getOrientation()); incrButton.addMouseListener(buttonListener); decrButton.addMouseListener(buttonListener); calculatePreferredSize(); layoutContainer(scrollbar); } layoutContainer(scrollbar); scrollbar.repaint(); }
public void propertyChange(PropertyChangeEvent e) { if (e.getPropertyName().equals("model")) { ((BoundedRangeModel) e.getOldValue()).removeChangeListener(modelListener); scrollbar.getModel().addChangeListener(modelListener); getThumbBounds(); } else if (e.getPropertyName().equals(JScrollBar.ORIENTATION_CHANGED_PROPERTY)) { incrButton.removeMouseListener(buttonListener); decrButton.removeMouseListener(buttonListener); incrButton = createIncreaseButton(scrollbar.getOrientation()); decrButton = createDecreaseButton(scrollbar.getOrientation()); incrButton.addMouseListener(buttonListener); decrButton.addMouseListener(buttonListener); calculatePreferredSize(); layoutContainer(scrollbar); } layoutContainer(scrollbar); scrollbar.repaint(); }
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public void propertyChange(PropertyChangeEvent e) { if (e.getPropertyName().equals(JScrollBar.MODEL_CHANGED_PROPERTY)) { ((BoundedRangeModel) e.getOldValue()).removeChangeListener(modelListener); scrollbar.getModel().addChangeListener(modelListener); getThumbBounds(); } else if (e.getPropertyName().equals(JScrollBar.ORIENTATION_CHANGED_PROPERTY)) { incrButton.removeMouseListener(buttonListener); decrButton.removeMouseListener(buttonListener); incrButton = createIncreaseButton(scrollbar.getOrientation()); decrButton = createDecreaseButton(scrollbar.getOrientation()); incrButton.addMouseListener(buttonListener); decrButton.addMouseListener(buttonListener); calculatePreferredSize(); layoutContainer(scrollbar); } layoutContainer(scrollbar); scrollbar.repaint(); }
public void propertyChange(PropertyChangeEvent e) { if (e.getPropertyName().equals(JScrollBar.MODEL_CHANGED_PROPERTY)) { ((BoundedRangeModel) e.getOldValue()).removeChangeListener(modelListener); scrollbar.getModel().addChangeListener(modelListener); getThumbBounds(); } else if (e.getPropertyName().equals("orientation")) { incrButton.removeMouseListener(buttonListener); decrButton.removeMouseListener(buttonListener); incrButton = createIncreaseButton(scrollbar.getOrientation()); decrButton = createDecreaseButton(scrollbar.getOrientation()); incrButton.addMouseListener(buttonListener); decrButton.addMouseListener(buttonListener); calculatePreferredSize(); layoutContainer(scrollbar); } layoutContainer(scrollbar); scrollbar.repaint(); }
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private void getPCFile() { String workingDir = System.getProperty("user.dir"); MyFileChooser pcFileChooser = new MyFileChooser(workingDir); // set the file filters for the file chooser filter = getFilterByDescription(); pcFileChooser.addChoosableFileFilter(filter); int ret = pcFileChooser.showSaveDialog(this); // check to see if something was actually chosen if (ret == JFileChooser.APPROVE_OPTION) { File file = pcFileChooser.getSelectedFile(); filter = null; if (pcFileChooser.getFileFilter() instanceof XTFRFileFilter ) filter = (XTFRFileFilter)pcFileChooser.getFileFilter(); else filter = htmlFilter; localFile.setText(filter.setExtension(file)); } }
private void getPCFile() { String workingDir = System.getProperty("user.dir"); TN5250jFileChooser pcFileChooser = new TN5250jFileChooser(workingDir); // set the file filters for the file chooser filter = getFilterByDescription(); pcFileChooser.addChoosableFileFilter(filter); int ret = pcFileChooser.showSaveDialog(this); // check to see if something was actually chosen if (ret == JFileChooser.APPROVE_OPTION) { File file = pcFileChooser.getSelectedFile(); filter = null; if (pcFileChooser.getFileFilter() instanceof XTFRFileFilter ) filter = (XTFRFileFilter)pcFileChooser.getFileFilter(); else filter = htmlFilter; localFile.setText(filter.setExtension(file)); } }
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protected Option(String longName, String description) { this.longName = longName; this.description = description; }
protected Option(char shortName, String description) { this.longName = longName; this.description = description; }
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protected Option(String longName, String description) { this.longName = longName; this.description = description; }
protected Option(String longName, String description) { if (shortName == 0) throw new IllegalArgumentException("short name must not be \\0"); this.shortName = shortName; this.description = description; }
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private VmAbstractHeap allocHeap(int size, boolean addToHeapList) { //Unsafe.debug("allocHeap"); final Address start = helper.allocateBlock(size); //final Address start = MemoryBlockManager.allocateBlock(size); if (start == null) { return null; } final Address end = Address.add(start, size); final int slotSize = Unsafe.getCurrentProcessor().getArchitecture().getReferenceSize(); final VmAbstractHeap heap = VmDefaultHeap.setupHeap(helper, start, defaultHeapClass, slotSize); heap.initialize(start, end, slotSize); if (addToHeapList) { firstHeap.append(heap); } return heap; }
private VmAbstractHeap allocHeap(int size, boolean addToHeapList) { //Unsafe.debug("allocHeap"); final Address start = helper.allocateBlock(size); //final Address start = MemoryBlockManager.allocateBlock(size); if (start == null) { return null; } final Address end = Address.add(start, size); final int slotSize = Unsafe.getCurrentProcessor().getArchitecture().getReferenceSize(); final VmAbstractHeap heap = VmDefaultHeap.setupHeap(helper, start, defaultHeapClass, slotSize); heap.initialize(start, end, slotSize); if (addToHeapList) { firstHeap.append(heap); } return heap; }
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private VmAbstractHeap allocHeap(int size, boolean addToHeapList) { //Unsafe.debug("allocHeap"); final Address start = helper.allocateBlock(size); //final Address start = MemoryBlockManager.allocateBlock(size); if (start == null) { return null; } final Address end = Address.add(start, size); final int slotSize = Unsafe.getCurrentProcessor().getArchitecture().getReferenceSize(); final VmAbstractHeap heap = VmDefaultHeap.setupHeap(helper, start, defaultHeapClass, slotSize); heap.initialize(start, end, slotSize); if (addToHeapList) { firstHeap.append(heap); } return heap; }
private VmAbstractHeap allocHeap(int size, boolean addToHeapList) { //Unsafe.debug("allocHeap"); final Address start = helper.allocateBlock(size); //final Address start = MemoryBlockManager.allocateBlock(size); if (start == null) { return null; } final Address end = Address.add(start, size); final int slotSize = Unsafe.getCurrentProcessor().getArchitecture().getReferenceSize(); final VmAbstractHeap heap = VmDefaultHeap.setupHeap(helper, start, defaultHeapClass, slotSize); heap.initialize(start, end, slotSize); if (addToHeapList) { firstHeap.append(heap); } return heap; }
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protected Object allocObject(VmClassType vmClass, int size) { // Make sure the class is initialized vmClass.initialize(); final int alignedSize = ObjectLayout.objectAlign(size); //final Monitor mon = heapMonitor; VmAbstractHeap heap = currentHeap; Object result = null; int oomCount = 0; if (gcActive) { Unsafe.debug("Using GC Heap sz"); Unsafe.debug(alignedSize); result = gcHeap.alloc(vmClass, alignedSize); if (result == null) { helper.die("Out of GC heap memory."); } } else { final Monitor m = heapMonitor; //final Monitor m = null; if (m != null) { m.enter(); } try { while (result == null) { // The current heap is full if (heap == null) { //Unsafe.debug("allocHeap in allocObject("); Unsafe.debug(alignedSize); //Unsafe.debug(") "); int newHeapSize = DEFAULT_HEAP_SIZE; if (size > newHeapSize) { // this is a BIG object, try to allocate a new heap // only for it newHeapSize = size; } if ((heap = allocHeap(newHeapSize, true)) == null) { lowOnMemory = true; // It was not possible to allocate another heap. // First try to GC, if we've done that before // in this allocation, then we're in real panic. if (oomCount == 0) { oomCount++; Unsafe.debug("<oom/>"); gcThread.trigger(true); heap = firstHeap; currentHeap = firstHeap; } else { Unsafe.debug("Out of memory in allocObject("); Unsafe.debug(size); Unsafe.debug(")"); throw OOME; //Unsafe.die(); } } else { //Unsafe.debug("AO.G"); // We successfully allocated a new heap, set it // to current, so we'll use it for the following // allocations. currentHeap = heap; } } result = heap.alloc(vmClass, alignedSize); if (result == null) { heap = heap.getNext(); } } vmClass.incInstanceCount(); lowOnMemory = false; // Allocated objects are initially black. helper.unsafeSetObjectFlags(result, ObjectFlags.GC_DEFAULT_COLOR); allocatedSinceGcTrigger += alignedSize; if ((allocatedSinceGcTrigger > triggerSize) && (gcThread != null)) { Unsafe.debug("<alloc:GC trigger/>"); allocatedSinceGcTrigger = 0; gcThread.trigger(false); } } finally { if (m != null) { m.exit(); } } } return result; }
protected Object allocObject(VmClassType vmClass, int size) { // Make sure the class is initialized vmClass.initialize(); final int alignedSize = ObjectLayout.objectAlign(size); //final Monitor mon = heapMonitor; VmAbstractHeap heap = currentHeap; Object result = null; int oomCount = 0; if (gcActive) { Unsafe.debug("Using GC Heap sz"); Unsafe.debug(alignedSize); result = gcHeap.alloc(vmClass, alignedSize); if (result == null) { helper.die("Out of GC heap memory."); } } else { final Monitor m = heapMonitor; //final Monitor m = null; if (m != null) { m.enter(); } try { while (result == null) { // The current heap is full if (heap == null) { //Unsafe.debug("allocHeap in allocObject("); Unsafe.debug(alignedSize); //Unsafe.debug(") "); int newHeapSize = DEFAULT_HEAP_SIZE; if (size > newHeapSize) { // this is a BIG object, try to allocate a new heap // only for it newHeapSize = size; } if ((heap = allocHeap(newHeapSize, true)) == null) { lowOnMemory = true; // It was not possible to allocate another heap. // First try to GC, if we've done that before // in this allocation, then we're in real panic. if (oomCount == 0) { oomCount++; Unsafe.debug("<oom/>"); gcThread.trigger(true); heap = firstHeap; currentHeap = firstHeap; } else { Unsafe.debug("Out of memory in allocObject("); Unsafe.debug(size); Unsafe.debug(")"); throw OOME; //Unsafe.die(); } } else { //Unsafe.debug("AO.G"); // We successfully allocated a new heap, set it // to current, so we'll use it for the following // allocations. currentHeap = heap; } } result = heap.alloc(vmClass, alignedSize); if (result == null) { heap = heap.getNext(); } } vmClass.incInstanceCount(); lowOnMemory = false; // Allocated objects are initially black. helper.unsafeSetObjectFlags(result, ObjectFlags.GC_DEFAULT_COLOR); allocatedSinceGcTrigger += alignedSize; if ((allocatedSinceGcTrigger > triggerSize) && (gcThread != null)) { Unsafe.debug("<alloc:GC trigger/>"); allocatedSinceGcTrigger = 0; gcThread.trigger(false); } } finally { if (m != null) { m.exit(); } } } return result; }
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protected Object allocObject(VmClassType vmClass, int size) { // Make sure the class is initialized vmClass.initialize(); final int alignedSize = ObjectLayout.objectAlign(size); //final Monitor mon = heapMonitor; VmAbstractHeap heap = currentHeap; Object result = null; int oomCount = 0; if (gcActive) { Unsafe.debug("Using GC Heap sz"); Unsafe.debug(alignedSize); result = gcHeap.alloc(vmClass, alignedSize); if (result == null) { helper.die("Out of GC heap memory."); } } else { final Monitor m = heapMonitor; //final Monitor m = null; if (m != null) { m.enter(); } try { while (result == null) { // The current heap is full if (heap == null) { //Unsafe.debug("allocHeap in allocObject("); Unsafe.debug(alignedSize); //Unsafe.debug(") "); int newHeapSize = DEFAULT_HEAP_SIZE; if (size > newHeapSize) { // this is a BIG object, try to allocate a new heap // only for it newHeapSize = size; } if ((heap = allocHeap(newHeapSize, true)) == null) { lowOnMemory = true; // It was not possible to allocate another heap. // First try to GC, if we've done that before // in this allocation, then we're in real panic. if (oomCount == 0) { oomCount++; Unsafe.debug("<oom/>"); gcThread.trigger(true); heap = firstHeap; currentHeap = firstHeap; } else { Unsafe.debug("Out of memory in allocObject("); Unsafe.debug(size); Unsafe.debug(")"); throw OOME; //Unsafe.die(); } } else { //Unsafe.debug("AO.G"); // We successfully allocated a new heap, set it // to current, so we'll use it for the following // allocations. currentHeap = heap; } } result = heap.alloc(vmClass, alignedSize); if (result == null) { heap = heap.getNext(); } } vmClass.incInstanceCount(); lowOnMemory = false; // Allocated objects are initially black. helper.unsafeSetObjectFlags(result, ObjectFlags.GC_DEFAULT_COLOR); allocatedSinceGcTrigger += alignedSize; if ((allocatedSinceGcTrigger > triggerSize) && (gcThread != null)) { Unsafe.debug("<alloc:GC trigger/>"); allocatedSinceGcTrigger = 0; gcThread.trigger(false); } } finally { if (m != null) { m.exit(); } } } return result; }
protected Object allocObject(VmClassType vmClass, int size) { // Make sure the class is initialized vmClass.initialize(); final int alignedSize = ObjectLayout.objectAlign(size); //final Monitor mon = heapMonitor; VmAbstractHeap heap = currentHeap; Object result = null; int oomCount = 0; if (gcActive) { Unsafe.debug("Using GC Heap sz"); Unsafe.debug(alignedSize); result = gcHeap.alloc(vmClass, alignedSize); if (result == null) { helper.die("Out of GC heap memory."); } } else { final Monitor m = heapMonitor; //final Monitor m = null; if (m != null) { m.enter(); } try { while (result == null) { // The current heap is full if (heap == null) { //Unsafe.debug("allocHeap in allocObject("); Unsafe.debug(alignedSize); //Unsafe.debug(") "); int newHeapSize = DEFAULT_HEAP_SIZE; if (size > newHeapSize) { // this is a BIG object, try to allocate a new heap // only for it newHeapSize = size; } if ((heap = allocHeap(newHeapSize, true)) == null) { lowOnMemory = true; // It was not possible to allocate another heap. // First try to GC, if we've done that before // in this allocation, then we're in real panic. if (oomCount == 0) { oomCount++; Unsafe.debug("<oom/>"); gcThread.trigger(true); heap = firstHeap; currentHeap = firstHeap; } else { Unsafe.debug("Out of memory in allocObject("); Unsafe.debug(size); Unsafe.debug(")"); throw OOME; //Unsafe.die(); } } else { //Unsafe.debug("AO.G"); // We successfully allocated a new heap, set it // to current, so we'll use it for the following // allocations. currentHeap = heap; } } result = heap.alloc(vmClass, alignedSize); if (result == null) { heap = heap.getNext(); } } vmClass.incInstanceCount(); lowOnMemory = false; // Allocated objects are initially black. helper.unsafeSetObjectFlags(result, ObjectFlags.GC_DEFAULT_COLOR); allocatedSinceGcTrigger += alignedSize; if ((allocatedSinceGcTrigger > triggerSize) && (gcThread != null)) { Unsafe.debug("<alloc:GC trigger/>"); allocatedSinceGcTrigger = 0; gcThread.trigger(false); } } finally { if (m != null) { m.exit(); } } } return result; }
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protected Object allocObject(VmClassType vmClass, int size) { // Make sure the class is initialized vmClass.initialize(); final int alignedSize = ObjectLayout.objectAlign(size); //final Monitor mon = heapMonitor; VmAbstractHeap heap = currentHeap; Object result = null; int oomCount = 0; if (gcActive) { Unsafe.debug("Using GC Heap sz"); Unsafe.debug(alignedSize); result = gcHeap.alloc(vmClass, alignedSize); if (result == null) { helper.die("Out of GC heap memory."); } } else { final Monitor m = heapMonitor; //final Monitor m = null; if (m != null) { m.enter(); } try { while (result == null) { // The current heap is full if (heap == null) { //Unsafe.debug("allocHeap in allocObject("); Unsafe.debug(alignedSize); //Unsafe.debug(") "); int newHeapSize = DEFAULT_HEAP_SIZE; if (size > newHeapSize) { // this is a BIG object, try to allocate a new heap // only for it newHeapSize = size; } if ((heap = allocHeap(newHeapSize, true)) == null) { lowOnMemory = true; // It was not possible to allocate another heap. // First try to GC, if we've done that before // in this allocation, then we're in real panic. if (oomCount == 0) { oomCount++; Unsafe.debug("<oom/>"); gcThread.trigger(true); heap = firstHeap; currentHeap = firstHeap; } else { Unsafe.debug("Out of memory in allocObject("); Unsafe.debug(size); Unsafe.debug(")"); throw OOME; //Unsafe.die(); } } else { //Unsafe.debug("AO.G"); // We successfully allocated a new heap, set it // to current, so we'll use it for the following // allocations. currentHeap = heap; } } result = heap.alloc(vmClass, alignedSize); if (result == null) { heap = heap.getNext(); } } vmClass.incInstanceCount(); lowOnMemory = false; // Allocated objects are initially black. helper.unsafeSetObjectFlags(result, ObjectFlags.GC_DEFAULT_COLOR); allocatedSinceGcTrigger += alignedSize; if ((allocatedSinceGcTrigger > triggerSize) && (gcThread != null)) { Unsafe.debug("<alloc:GC trigger/>"); allocatedSinceGcTrigger = 0; gcThread.trigger(false); } } finally { if (m != null) { m.exit(); } } } return result; }
protected Object allocObject(VmClassType vmClass, int size) { // Make sure the class is initialized vmClass.initialize(); final int alignedSize = ObjectLayout.objectAlign(size); //final Monitor mon = heapMonitor; VmAbstractHeap heap = currentHeap; Object result = null; int oomCount = 0; if (gcActive) { Unsafe.debug("Using GC Heap sz"); Unsafe.debug(alignedSize); result = gcHeap.alloc(vmClass, alignedSize); if (result == null) { helper.die("Out of GC heap memory."); } } else { final Monitor m = heapMonitor; //final Monitor m = null; if (m != null) { m.enter(); } try { while (result == null) { // The current heap is full if (heap == null) { //Unsafe.debug("allocHeap in allocObject("); Unsafe.debug(alignedSize); //Unsafe.debug(") "); int newHeapSize = DEFAULT_HEAP_SIZE; if (size > newHeapSize) { // this is a BIG object, try to allocate a new heap // only for it newHeapSize = size; } if ((heap = allocHeap(newHeapSize, true)) == null) { lowOnMemory = true; // It was not possible to allocate another heap. // First try to GC, if we've done that before // in this allocation, then we're in real panic. if (oomCount == 0) { oomCount++; Unsafe.debug("<oom/>"); gcThread.trigger(true); heap = firstHeap; currentHeap = firstHeap; } else { Unsafe.debug("Out of memory in allocObject("); Unsafe.debug(size); Unsafe.debug(")"); throw OOME; //Unsafe.die(); } } else { //Unsafe.debug("AO.G"); // We successfully allocated a new heap, set it // to current, so we'll use it for the following // allocations. currentHeap = heap; } } result = heap.alloc(vmClass, alignedSize); if (result == null) { heap = heap.getNext(); } } vmClass.incInstanceCount(); lowOnMemory = false; // Allocated objects are initially black. helper.unsafeSetObjectFlags(result, ObjectFlags.GC_DEFAULT_COLOR); allocatedSinceGcTrigger += alignedSize; if ((allocatedSinceGcTrigger > triggerSize) && (gcThread != null)) { Unsafe.debug("<alloc:GC trigger/>"); allocatedSinceGcTrigger = 0; gcThread.trigger(false); } } finally { if (m != null) { m.exit(); } } } return result; }
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public void dumpStatistics(PrintStream out) { out.println("WriteBarrier: " + writeBarrier); }
public void dumpStatistics(PrintStream out) { out.println("WriteBarrier: " + writeBarrier); }
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public final void gc() { gcThread.trigger(false); }
public final void gc() { gcThread.trigger(false); }
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final VmBootHeap getBootHeap() { return this.bootHeap; }
final VmBootHeap getBootHeap() { return this.bootHeap; }
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public long getFreeMemory() { long size = bootHeap.getFreeSize(); VmAbstractHeap h = firstHeap; while (h != null) { size += h.getFreeSize(); h = h.getNext(); } //size += (Unsafe.addressToLong(heapEnd) - Unsafe.addressToLong(nextHeapPtr)); size += MemoryBlockManager.getFreeMemory(); return size; }
public long getFreeMemory() { long size = bootHeap.getFreeSize(); VmAbstractHeap h = firstHeap; while (h != null) { size += h.getFreeSize(); h = h.getNext(); } //size += (Unsafe.addressToLong(heapEnd) - Unsafe.addressToLong(nextHeapPtr)); size += MemoryBlockManager.getFreeMemory(); return size; }
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