// Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
//
// Contact: phylosoft @ gmail . com
-// WWW: www.phylosoft.org/forester
+// WWW: https://sites.google.com/site/cmzmasek/home/software/forester
package org.forester.archaeopteryx;
private final static DefaultFilter defaultfilter = new DefaultFilter();
private static final long serialVersionUID = -799735726778865234L;
private final JFileChooser _values_filechooser;
+ private final JFileChooser _sequences_filechooser;
private final JFileChooser _open_filechooser;
private final JFileChooser _msa_filechooser;
- private final JFileChooser _seqs_filechooser;
+ private final JFileChooser _seqs_pi_filechooser;
private final JFileChooser _open_filechooser_for_species_tree;
private final JFileChooser _save_filechooser;
private final JFileChooser _writetopdf_filechooser;
private File _msa_file = null;
private List<Sequence> _seqs = null;
private File _seqs_file = null;
- // expression values menu:
JMenuItem _read_values_jmi;
+ JMenuItem _read_seqs_jmi;
private MainFrameApplication( final Phylogeny[] phys, final Configuration config ) {
_configuration = config;
_writetopdf_filechooser = null;
_writetographics_filechooser = null;
_msa_filechooser = null;
- _seqs_filechooser = null;
+ _seqs_pi_filechooser = null;
_values_filechooser = null;
+ _sequences_filechooser = null;
_jmenubar = new JMenuBar();
buildFileMenu();
buildTypeMenu();
catch ( final IllegalAccessException e ) {
AptxUtil.dieWithSystemError( "illegal access exception: " + e.toString() );
}
-
if ( ( current_dir != null ) && current_dir.canRead() && current_dir.isDirectory() ) {
setCurrentDir( current_dir );
}
_save_filechooser.setCurrentDirectory( new File( "." ) );
_save_filechooser.setMultiSelectionEnabled( false );
_save_filechooser.setFileFilter( MainFrameApplication.xmlfilter );
- _save_filechooser.addChoosableFileFilter( MainFrameApplication.nhxfilter );
_save_filechooser.addChoosableFileFilter( MainFrameApplication.nhfilter );
_save_filechooser.addChoosableFileFilter( MainFrameApplication.nexusfilter );
_save_filechooser.addChoosableFileFilter( _save_filechooser.getAcceptAllFileFilter() );
_msa_filechooser.addChoosableFileFilter( _msa_filechooser.getAcceptAllFileFilter() );
_msa_filechooser.addChoosableFileFilter( MainFrameApplication.msafilter );
// Seqs:
- _seqs_filechooser = new JFileChooser();
- _seqs_filechooser.setName( "Read Sequences File" );
- _seqs_filechooser.setCurrentDirectory( new File( "." ) );
- _seqs_filechooser.setMultiSelectionEnabled( false );
- _seqs_filechooser.addChoosableFileFilter( _seqs_filechooser.getAcceptAllFileFilter() );
- _seqs_filechooser.addChoosableFileFilter( MainFrameApplication.seqsfilter );
+ _seqs_pi_filechooser = new JFileChooser();
+ _seqs_pi_filechooser.setName( "Read Sequences File" );
+ _seqs_pi_filechooser.setCurrentDirectory( new File( "." ) );
+ _seqs_pi_filechooser.setMultiSelectionEnabled( false );
+ _seqs_pi_filechooser.addChoosableFileFilter( _seqs_pi_filechooser.getAcceptAllFileFilter() );
+ _seqs_pi_filechooser.addChoosableFileFilter( MainFrameApplication.seqsfilter );
// Expression
_values_filechooser = new JFileChooser();
_values_filechooser.setCurrentDirectory( new File( "." ) );
_values_filechooser.setMultiSelectionEnabled( false );
+ // Sequences
+ _sequences_filechooser = new JFileChooser();
+ _sequences_filechooser.setCurrentDirectory( new File( "." ) );
+ _sequences_filechooser.setMultiSelectionEnabled( false );
// build the menu bar
_jmenubar = new JMenuBar();
if ( !_configuration.isUseNativeUI() ) {
@Override
public void componentResized( final ComponentEvent e ) {
if ( _mainpanel.getCurrentTreePanel() != null ) {
- _mainpanel.getCurrentTreePanel().setParametersForPainting( _mainpanel.getCurrentTreePanel()
- .getWidth(),
- _mainpanel.getCurrentTreePanel()
- .getHeight(),
- false );
+ _mainpanel.getCurrentTreePanel().calcParametersForPainting( _mainpanel.getCurrentTreePanel()
+ .getWidth(),
+ _mainpanel.getCurrentTreePanel()
+ .getHeight(),
+ getOptions().isAllowFontSizeChange() );
}
}
} );
}
addExpressionValuesFromFile();
}
+ else if ( o == _read_seqs_jmi ) {
+ if ( isSubtreeDisplayed() ) {
+ return;
+ }
+ addSequencesFromFile();
+ }
else if ( o == _move_node_names_to_tax_sn_jmi ) {
moveNodeNamesToTaxSn();
}
moveNodeNamesToSeqNames();
}
else if ( o == _extract_tax_code_from_node_names_jmi ) {
- extractTaxCodeFromNodeNames();
+ extractTaxDataFromNodeNames();
}
else if ( o == _gsdi_item ) {
if ( isSubtreeDisplayed() ) {
}
}
catch ( final MsaFormatException e ) {
- try {
- _mainpanel.getCurrentTreePanel().setArrowCursor();
- }
- catch ( final Exception ex ) {
- // Do nothing.
- }
+ setArrowCursor();
JOptionPane.showMessageDialog( this,
e.getLocalizedMessage(),
"Multiple sequence alignment format error",
return;
}
catch ( final IOException e ) {
- try {
- _mainpanel.getCurrentTreePanel().setArrowCursor();
- }
- catch ( final Exception ex ) {
- // Do nothing.
- }
+ setArrowCursor();
JOptionPane.showMessageDialog( this,
e.getLocalizedMessage(),
"Failed to read multiple sequence alignment",
return;
}
catch ( final IllegalArgumentException e ) {
- try {
- _mainpanel.getCurrentTreePanel().setArrowCursor();
- }
- catch ( final Exception ex ) {
- // Do nothing.
- }
+ setArrowCursor();
JOptionPane.showMessageDialog( this,
e.getLocalizedMessage(),
"Unexpected error during reading of multiple sequence alignment",
return;
}
catch ( final Exception e ) {
- try {
- _mainpanel.getCurrentTreePanel().setArrowCursor();
- }
- catch ( final Exception ex ) {
- // Do nothing.
- }
+ setArrowCursor();
e.printStackTrace();
JOptionPane.showMessageDialog( this,
e.getLocalizedMessage(),
}
}
- public void readSeqsFromFile() {
+ public void readSeqsFromFileforPI() {
// Set an initial directory if none set yet
final File my_dir = getCurrentDir();
- _seqs_filechooser.setMultiSelectionEnabled( false );
+ _seqs_pi_filechooser.setMultiSelectionEnabled( false );
// Open file-open dialog and set current directory
if ( my_dir != null ) {
- _seqs_filechooser.setCurrentDirectory( my_dir );
+ _seqs_pi_filechooser.setCurrentDirectory( my_dir );
}
- final int result = _seqs_filechooser.showOpenDialog( _contentpane );
+ final int result = _seqs_pi_filechooser.showOpenDialog( _contentpane );
// All done: get the seqs
- final File file = _seqs_filechooser.getSelectedFile();
- setCurrentDir( _seqs_filechooser.getCurrentDirectory() );
+ final File file = _seqs_pi_filechooser.getSelectedFile();
+ setCurrentDir( _seqs_pi_filechooser.getCurrentDirectory() );
if ( ( file != null ) && !file.isDirectory() && ( result == JFileChooser.APPROVE_OPTION ) ) {
setSeqsFile( null );
setSeqs( null );
}
}
catch ( final MsaFormatException e ) {
- try {
- _mainpanel.getCurrentTreePanel().setArrowCursor();
- }
- catch ( final Exception ex ) {
- // Do nothing.
- }
+ setArrowCursor();
JOptionPane.showMessageDialog( this,
e.getLocalizedMessage(),
"Multiple sequence file format error",
return;
}
catch ( final IOException e ) {
- try {
- _mainpanel.getCurrentTreePanel().setArrowCursor();
- }
- catch ( final Exception ex ) {
- // Do nothing.
- }
+ setArrowCursor();
JOptionPane.showMessageDialog( this,
e.getLocalizedMessage(),
"Failed to read multiple sequence file",
return;
}
catch ( final IllegalArgumentException e ) {
- try {
- _mainpanel.getCurrentTreePanel().setArrowCursor();
- }
- catch ( final Exception ex ) {
- // Do nothing.
- }
+ setArrowCursor();
JOptionPane.showMessageDialog( this,
e.getLocalizedMessage(),
"Unexpected error during reading of multiple sequence file",
return;
}
catch ( final Exception e ) {
- try {
- _mainpanel.getCurrentTreePanel().setArrowCursor();
- }
- catch ( final Exception ex ) {
- // Do nothing.
- }
+ setArrowCursor();
e.printStackTrace();
JOptionPane.showMessageDialog( this,
e.getLocalizedMessage(),
// return;
// }
System.gc();
- setSeqsFile( _seqs_filechooser.getSelectedFile() );
+ setSeqsFile( _seqs_pi_filechooser.getSelectedFile() );
setSeqs( seqs );
}
}
_options_jmenu
.add( _show_branch_length_values_cbmi = new JCheckBoxMenuItem( DISPLAY_BRANCH_LENGTH_VALUES_LABEL ) );
_options_jmenu.add( _show_confidence_stddev_cbmi = new JCheckBoxMenuItem( SHOW_CONF_STDDEV_LABEL ) );
- _options_jmenu.add( _show_default_node_shapes_cbmi = new JCheckBoxMenuItem( DISPLAY_NODE_BOXES_LABEL ) );
+ _options_jmenu
+ .add( _show_default_node_shapes_internal_cbmi = new JCheckBoxMenuItem( DISPLAY_NODE_BOXES_LABEL_INT ) );
+ _options_jmenu
+ .add( _show_default_node_shapes_external_cbmi = new JCheckBoxMenuItem( DISPLAY_NODE_BOXES_LABEL_EXT ) );
_options_jmenu
.add( _taxonomy_colorize_node_shapes_cbmi = new JCheckBoxMenuItem( MainFrame.TAXONOMY_COLORIZE_NODE_SHAPES_LABEL ) );
_options_jmenu.add( _cycle_node_shape_mi = new JMenuItem( MainFrame.CYCLE_NODE_SHAPE_LABEL ) );
customizeJMenuItem( _print_size_mi );
customizeJMenuItem( _choose_pdf_width_mi );
customizeJMenuItem( _overview_placment_mi );
- customizeCheckBoxMenuItem( _show_default_node_shapes_cbmi, getOptions().isShowDefaultNodeShapes() );
+ customizeCheckBoxMenuItem( _show_default_node_shapes_external_cbmi, getOptions()
+ .isShowDefaultNodeShapesExternal() );
+ customizeCheckBoxMenuItem( _show_default_node_shapes_internal_cbmi, getOptions()
+ .isShowDefaultNodeShapesInternal() );
customizeCheckBoxMenuItem( _taxonomy_colorize_node_shapes_cbmi, getOptions().isTaxonomyColorizeNodeShapes() );
customizeJMenuItem( _cycle_node_shape_mi );
customizeJMenuItem( _cycle_node_fill_mi );
.setToolTipText( "To collapse branches with confidence values below a threshold into multifurcations (in the case of multiple confidences per branch: without at least one confidence value above a threshold)" );
_tools_menu.addSeparator();
_tools_menu
+ .add( _extract_tax_code_from_node_names_jmi = new JMenuItem( "Extract Taxonomic Data from Node Names" ) );
+ customizeJMenuItem( _extract_tax_code_from_node_names_jmi );
+ _extract_tax_code_from_node_names_jmi
+ .setToolTipText( "To extract SwissProt/Uniprot taxonomic codes (mnemonics) from nodes names in the form of 'xyz_CAEEL', Uniprot/NCBI identifiers form of 'xyz_6239', or scientific names form of 'xyz_Caenorhabditis_elegans'" );
+ _tools_menu
.add( _move_node_names_to_tax_sn_jmi = new JMenuItem( "Transfer Node Names to Taxonomic Scientific Names" ) );
customizeJMenuItem( _move_node_names_to_tax_sn_jmi );
_move_node_names_to_tax_sn_jmi.setToolTipText( "To interpret node names as taxonomic scientific names" );
_tools_menu.add( _move_node_names_to_seq_names_jmi = new JMenuItem( "Transfer Node Names to Sequence Names" ) );
customizeJMenuItem( _move_node_names_to_seq_names_jmi );
_move_node_names_to_seq_names_jmi.setToolTipText( "To interpret node names as sequence (protein, gene) names" );
- _tools_menu
- .add( _extract_tax_code_from_node_names_jmi = new JMenuItem( "Extract Taxonomic Codes from Node Names" ) );
- customizeJMenuItem( _extract_tax_code_from_node_names_jmi );
- _extract_tax_code_from_node_names_jmi
- .setToolTipText( "To extract taxonomic codes (mnemonics) from nodes names in the form of 'xyz_ECOLI'" );
_tools_menu.addSeparator();
_tools_menu
.add( _obtain_detailed_taxonomic_information_jmi = new JMenuItem( OBTAIN_DETAILED_TAXONOMIC_INFORMATION ) );
.setToolTipText( "To add UniProtKB annotations for sequences with appropriate identifiers" );
_tools_menu.addSeparator();
}
- _tools_menu.add( _read_values_jmi = new JMenuItem( "Read Vector/Expression Values" ) );
+ _tools_menu.add( _read_values_jmi = new JMenuItem( "Attach Vector/Expression Values" ) );
customizeJMenuItem( _read_values_jmi );
- _read_values_jmi.setToolTipText( "To add vector (e.g. gene expression) values (beta)" );
+ _read_values_jmi.setToolTipText( "To attach vector (e.g. gene expression) values to tree nodes (beta)" );
+ _jmenubar.add( _tools_menu );
+ _tools_menu.add( _read_seqs_jmi = new JMenuItem( "Attach Molecular Sequences" ) );
+ customizeJMenuItem( _read_seqs_jmi );
+ _read_seqs_jmi
+ .setToolTipText( "To attach molecular sequences to tree nodes (from Fasta-formatted file) (beta)" );
_jmenubar.add( _tools_menu );
}
AptxUtil.unexpectedException( e );
return;
}
- final List<Phylogeny> assigned_trees = gsdir.getMinDuplicationsSumGeneTrees();
- final List<Integer> shortests = GSDIR.getIndexesOfShortestTree( assigned_trees );
- final Phylogeny result_gene_tree = assigned_trees.get( shortests.get( 0 ) );
+ final Phylogeny result_gene_tree = gsdir.getMinDuplicationsSumGeneTree();
result_gene_tree.setRerootable( false );
result_gene_tree.clearHashIdToNodeMap();
result_gene_tree.recalculateNumberOfExternalDescendants( true );
_mainpanel.getCurrentTreePanel().setEdited( true );
JOptionPane.showMessageDialog( this,
"Duplications (min): " + gsdir.getMinDuplicationsSum() + "\n" + "Speciations: "
- + gsdir.getSpeciationsSum() + "\n"
- + "Number of root positions minimizing duplications sum: "
- + gsdir.getMinDuplicationsSumGeneTrees().size() + "\n"
- + "Number of shortest trees: " + shortests.size(),
+ + gsdir.getSpeciationsSum(),
"GSDIR successfully completed",
JOptionPane.INFORMATION_MESSAGE );
}
}
void writePhylogenyToGraphicsFile( final String file_name, final GraphicsExportType type ) {
- _mainpanel.getCurrentTreePanel().setParametersForPainting( _mainpanel.getCurrentTreePanel().getWidth(),
- _mainpanel.getCurrentTreePanel().getHeight(),
- true );
+ _mainpanel.getCurrentTreePanel().calcParametersForPainting( _mainpanel.getCurrentTreePanel().getWidth(),
+ _mainpanel.getCurrentTreePanel().getHeight(),
+ true );
String file_written_to = "";
boolean error = false;
try {
_contentpane.repaint();
}
+ private void addSequencesFromFile() {
+ if ( ( getCurrentTreePanel() == null ) || ( getCurrentTreePanel().getPhylogeny() == null ) ) {
+ JOptionPane.showMessageDialog( this,
+ "Need to load evolutionary tree first",
+ "Can Not Read Sequences",
+ JOptionPane.WARNING_MESSAGE );
+ return;
+ }
+ final File my_dir = getCurrentDir();
+ if ( my_dir != null ) {
+ _sequences_filechooser.setCurrentDirectory( my_dir );
+ }
+ final int result = _sequences_filechooser.showOpenDialog( _contentpane );
+ final File file = _sequences_filechooser.getSelectedFile();
+ List<Sequence> seqs = null;
+ if ( ( file != null ) && !file.isDirectory() && ( result == JFileChooser.APPROVE_OPTION ) ) {
+ try {
+ if ( FastaParser.isLikelyFasta( new FileInputStream( file ) ) ) {
+ seqs = FastaParser.parse( new FileInputStream( file ) );
+ }
+ else {
+ JOptionPane.showMessageDialog( this,
+ "Format does not appear to be Fasta",
+ "Multiple sequence file format error",
+ JOptionPane.ERROR_MESSAGE );
+ return;
+ }
+ }
+ catch ( final MsaFormatException e ) {
+ setArrowCursor();
+ JOptionPane.showMessageDialog( this,
+ e.getLocalizedMessage(),
+ "Multiple sequence file format error",
+ JOptionPane.ERROR_MESSAGE );
+ return;
+ }
+ catch ( final IOException e ) {
+ setArrowCursor();
+ JOptionPane.showMessageDialog( this,
+ e.getLocalizedMessage(),
+ "Failed to read multiple sequence file",
+ JOptionPane.ERROR_MESSAGE );
+ return;
+ }
+ catch ( final Exception e ) {
+ setArrowCursor();
+ e.printStackTrace();
+ JOptionPane.showMessageDialog( this,
+ e.getLocalizedMessage(),
+ "Unexpected error during reading of multiple sequence file",
+ JOptionPane.ERROR_MESSAGE );
+ return;
+ }
+ if ( ( seqs == null ) || ( seqs.size() < 1 ) ) {
+ JOptionPane.showMessageDialog( this,
+ "Multiple sequence file is empty",
+ "Empty multiple sequence file",
+ JOptionPane.ERROR_MESSAGE );
+ setArrowCursor();
+ return;
+ }
+ }
+ if ( seqs != null ) {
+ for( final Sequence seq : seqs ) {
+ System.out.println( seq.getIdentifier() );
+ }
+ final Phylogeny phy = getCurrentTreePanel().getPhylogeny();
+ int total_counter = 0;
+ int attached_counter = 0;
+ for( final Sequence seq : seqs ) {
+ ++total_counter;
+ final String seq_name = seq.getIdentifier();
+ if ( !ForesterUtil.isEmpty( seq_name ) ) {
+ List<PhylogenyNode> nodes = phy.getNodesViaSequenceName( seq_name );
+ if ( nodes.isEmpty() ) {
+ nodes = phy.getNodesViaSequenceSymbol( seq_name );
+ }
+ if ( nodes.isEmpty() ) {
+ nodes = phy.getNodes( seq_name );
+ }
+ if ( nodes.size() > 1 ) {
+ JOptionPane.showMessageDialog( this,
+ "Sequence name \"" + seq_name + "\" is not unique",
+ "Sequence name not unique",
+ JOptionPane.ERROR_MESSAGE );
+ setArrowCursor();
+ return;
+ }
+ final String[] a = seq_name.split( "\\s" );
+ if ( nodes.isEmpty() && ( a.length > 1 ) ) {
+ final String seq_name_split = a[ 0 ];
+ nodes = phy.getNodesViaSequenceName( seq_name_split );
+ if ( nodes.isEmpty() ) {
+ nodes = phy.getNodesViaSequenceSymbol( seq_name_split );
+ }
+ if ( nodes.isEmpty() ) {
+ nodes = phy.getNodes( seq_name_split );
+ }
+ if ( nodes.size() > 1 ) {
+ JOptionPane.showMessageDialog( this, "Split sequence name \"" + seq_name_split
+ + "\" is not unique", "Sequence name not unique", JOptionPane.ERROR_MESSAGE );
+ setArrowCursor();
+ return;
+ }
+ }
+ if ( nodes.size() == 1 ) {
+ ++attached_counter;
+ final PhylogenyNode n = nodes.get( 0 );
+ if ( !n.getNodeData().isHasSequence() ) {
+ n.getNodeData().addSequence( new org.forester.phylogeny.data.Sequence() );
+ }
+ n.getNodeData().getSequence().setMolecularSequence( seq.getMolecularSequenceAsString() );
+ if ( ForesterUtil.isEmpty( n.getNodeData().getSequence().getName() ) ) {
+ n.getNodeData().getSequence().setName( seq_name );
+ }
+ }
+ }
+ }
+ if ( attached_counter > 0 ) {
+ int ext_nodes = 0;
+ int ext_nodes_with_seq = 0;
+ for( final PhylogenyNodeIterator iter = phy.iteratorExternalForward(); iter.hasNext(); ) {
+ ++ext_nodes;
+ final PhylogenyNode n = iter.next();
+ if ( n.getNodeData().isHasSequence()
+ && !ForesterUtil.isEmpty( n.getNodeData().getSequence().getMolecularSequence() ) ) {
+ ++ext_nodes_with_seq;
+ }
+ }
+ final String s;
+ if ( ext_nodes == ext_nodes_with_seq ) {
+ s = "All " + ext_nodes_with_seq + " external nodes now have a molecular sequence attached to them.";
+ }
+ else {
+ s = ext_nodes_with_seq + " out of " + ext_nodes
+ + " external nodes now have a molecular sequence attached to them.";
+ }
+ if ( ( attached_counter == total_counter ) && ( ext_nodes == ext_nodes_with_seq ) ) {
+ JOptionPane.showMessageDialog( this,
+ "Attached all " + total_counter + " sequences to tree nodes.\n" + s,
+ "All sequences attached",
+ JOptionPane.INFORMATION_MESSAGE );
+ }
+ else {
+ JOptionPane.showMessageDialog( this, "Attached " + attached_counter
+ + " sequences out of a total of " + total_counter + " sequences.\n" + s, attached_counter
+ + " sequences attached", JOptionPane.WARNING_MESSAGE );
+ }
+ }
+ else {
+ JOptionPane.showMessageDialog( this, "No maching tree node for any of the " + total_counter
+ + " sequences", "Could not attach any sequences", JOptionPane.ERROR_MESSAGE );
+ }
+ }
+ }
+
+ private void setArrowCursor() {
+ try {
+ _mainpanel.getCurrentTreePanel().setArrowCursor();
+ }
+ catch ( final Exception ex ) {
+ // Do nothing.
+ }
+ }
+
private void addExpressionValuesFromFile() {
if ( ( getCurrentTreePanel() == null ) || ( getCurrentTreePanel().getPhylogeny() == null ) ) {
JOptionPane.showMessageDialog( this,
}
}
- private void extractTaxCodeFromNodeNames() throws PhyloXmlDataFormatException {
+ private void extractTaxDataFromNodeNames() throws PhyloXmlDataFormatException {
+ final StringBuilder sb = new StringBuilder();
+ final StringBuilder sb_failed = new StringBuilder();
+ int counter = 0;
+ int counter_failed = 0;
if ( getCurrentTreePanel() != null ) {
final Phylogeny phy = getCurrentTreePanel().getPhylogeny();
if ( ( phy != null ) && !phy.isEmpty() ) {
- final PhylogenyNodeIterator it = phy.iteratorPostorder();
+ final PhylogenyNodeIterator it = phy.iteratorExternalForward();
while ( it.hasNext() ) {
final PhylogenyNode n = it.next();
final String name = n.getName().trim();
if ( !ForesterUtil.isEmpty( name ) ) {
- final String code = ParserUtils
- .extractTaxonomyCodeFromNodeName( name, NHXParser.TAXONOMY_EXTRACTION.YES );
- if ( !ForesterUtil.isEmpty( code ) ) {
- PhylogenyMethods.setTaxonomyCode( n, code );
+ final String nt = ParserUtils.extractTaxonomyDataFromNodeName( n, TAXONOMY_EXTRACTION.YES );
+ if ( !ForesterUtil.isEmpty( nt ) ) {
+ if ( counter < 15 ) {
+ sb.append( name + ": " + nt + "\n" );
+ }
+ else if ( counter == 15 ) {
+ sb.append( "...\n" );
+ }
+ counter++;
+ }
+ else {
+ if ( counter_failed < 15 ) {
+ sb_failed.append( name + "\n" );
+ }
+ else if ( counter_failed == 15 ) {
+ sb_failed.append( "...\n" );
+ }
+ counter_failed++;
}
}
}
+ if ( counter > 0 ) {
+ String failed = "";
+ String all = "all ";
+ if ( counter_failed > 0 ) {
+ all = "";
+ failed = "\nCould not extract taxonomic data for " + counter_failed
+ + " named external nodes:\n" + sb_failed;
+ }
+ JOptionPane.showMessageDialog( this,
+ "Extracted taxonomic data from " + all + counter
+ + " named external nodes:\n" + sb.toString() + failed,
+ "Taxonomic Data Extraction Completed",
+ counter_failed > 0 ? JOptionPane.WARNING_MESSAGE
+ : JOptionPane.INFORMATION_MESSAGE );
+ }
+ else {
+ JOptionPane
+ .showMessageDialog( this,
+ "Could not extract any taxonomic data.\nMaybe node names are empty\n"
+ + "or not in the forms \"XYZ_CAEEL\", \"XYZ_6239\", or \"XYZ_Caenorhabditis_elegans\"\n"
+ + "or nodes already have taxonomic data?\n",
+ "No Taxonomic Data Extracted",
+ JOptionPane.ERROR_MESSAGE );
+ }
}
}
}
return;
}
if ( !getOptions().isPrintUsingActualSize() ) {
- getCurrentTreePanel().setParametersForPainting( getOptions().getPrintSizeX() - 80,
- getOptions().getPrintSizeY() - 140,
- true );
+ getCurrentTreePanel().calcParametersForPainting( getOptions().getPrintSizeX() - 80,
+ getOptions().getPrintSizeY() - 140,
+ true );
getCurrentTreePanel().resetPreferredSize();
getCurrentTreePanel().repaint();
}
private void printPhylogenyToPdf( final String file_name ) {
if ( !getOptions().isPrintUsingActualSize() ) {
- getCurrentTreePanel().setParametersForPainting( getOptions().getPrintSizeX(),
- getOptions().getPrintSizeY(),
- true );
+ getCurrentTreePanel().calcParametersForPainting( getOptions().getPrintSizeX(),
+ getOptions().getPrintSizeY(),
+ true );
getCurrentTreePanel().resetPreferredSize();
getCurrentTreePanel().repaint();
}
return exception;
}
- private boolean writeAsNHX( final Phylogeny t, boolean exception, final File file ) {
- try {
- final PhylogenyWriter writer = new PhylogenyWriter();
- writer.toNewHampshireX( t, file );
- }
- catch ( final Exception e ) {
- exception = true;
- exceptionOccuredDuringSaveAs( e );
- }
- return exception;
- }
-
private boolean writeAsPhyloXml( final Phylogeny t, boolean exception, final File file ) {
try {
final PhylogenyWriter writer = new PhylogenyWriter();
if ( _save_filechooser.getFileFilter() == MainFrameApplication.nhfilter ) {
exception = writeAsNewHampshire( t, exception, file );
}
- else if ( _save_filechooser.getFileFilter() == MainFrameApplication.nhxfilter ) {
- exception = writeAsNHX( t, exception, file );
- }
else if ( _save_filechooser.getFileFilter() == MainFrameApplication.xmlfilter ) {
exception = writeAsPhyloXml( t, exception, file );
}
|| file_name.endsWith( ".tree" ) ) {
exception = writeAsNewHampshire( t, exception, file );
}
- else if ( file_name.endsWith( ".nhx" ) ) {
- exception = writeAsNHX( t, exception, file );
- }
else if ( file_name.endsWith( ".nex" ) || file_name.endsWith( ".nexus" ) ) {
exception = writeAsNexus( t, exception, file );
}
@Override
public String getDescription() {
- return "NHX files (*.nhx)";
+ return "NHX files (*.nhx) [deprecated]";
}
}