2 // FORESTER -- software libraries and applications
\r
3 // for evolutionary biology research and applications.
\r
5 // Copyright (C) 2008-2009 Christian M. Zmasek
\r
6 // Copyright (C) 2008-2009 Burnham Institute for Medical Research
\r
7 // Copyright (C) 2003-2007 Ethalinda K.S. Cannon
\r
8 // All rights reserved
\r
10 // This library is free software; you can redistribute it and/or
\r
11 // modify it under the terms of the GNU Lesser General Public
\r
12 // License as published by the Free Software Foundation; either
\r
13 // version 2.1 of the License, or (at your option) any later version.
\r
15 // This library is distributed in the hope that it will be useful,
\r
16 // but WITHOUT ANY WARRANTY; without even the implied warranty of
\r
17 // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
\r
18 // Lesser General Public License for more details.
\r
20 // You should have received a copy of the GNU Lesser General Public
\r
21 // License along with this library; if not, write to the Free Software
\r
22 // Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA
\r
24 // Contact: phylosoft @ gmail . com
\r
25 // WWW: https://sites.google.com/site/cmzmasek/home/software/forester
\r
27 package org.forester.archaeopteryx;
\r
29 import java.awt.BorderLayout;
\r
30 import java.awt.Font;
\r
31 import java.awt.event.ActionEvent;
\r
32 import java.awt.event.ComponentAdapter;
\r
33 import java.awt.event.ComponentEvent;
\r
34 import java.awt.event.WindowAdapter;
\r
35 import java.awt.event.WindowEvent;
\r
36 import java.io.File;
\r
37 import java.io.FileInputStream;
\r
38 import java.io.IOException;
\r
39 import java.io.InputStream;
\r
40 import java.net.MalformedURLException;
\r
41 import java.net.URL;
\r
42 import java.util.ArrayList;
\r
43 import java.util.HashSet;
\r
44 import java.util.List;
\r
45 import java.util.Set;
\r
47 import javax.swing.ButtonGroup;
\r
48 import javax.swing.JCheckBoxMenuItem;
\r
49 import javax.swing.JFileChooser;
\r
50 import javax.swing.JMenu;
\r
51 import javax.swing.JMenuBar;
\r
52 import javax.swing.JMenuItem;
\r
53 import javax.swing.JOptionPane;
\r
54 import javax.swing.JRadioButtonMenuItem;
\r
55 import javax.swing.UIManager;
\r
56 import javax.swing.UnsupportedLookAndFeelException;
\r
57 import javax.swing.WindowConstants;
\r
58 import javax.swing.event.ChangeEvent;
\r
59 import javax.swing.event.ChangeListener;
\r
60 import javax.swing.filechooser.FileFilter;
\r
61 import javax.swing.plaf.synth.SynthLookAndFeel;
\r
63 import org.forester.analysis.TaxonomyDataManager;
\r
64 import org.forester.archaeopteryx.AptxUtil.GraphicsExportType;
\r
65 import org.forester.archaeopteryx.Options.CLADOGRAM_TYPE;
\r
66 import org.forester.archaeopteryx.Options.NODE_LABEL_DIRECTION;
\r
67 import org.forester.archaeopteryx.Options.PHYLOGENY_GRAPHICS_TYPE;
\r
68 import org.forester.archaeopteryx.tools.AncestralTaxonomyInferrer;
\r
69 import org.forester.archaeopteryx.tools.InferenceManager;
\r
70 import org.forester.archaeopteryx.tools.PhyloInferenceDialog;
\r
71 import org.forester.archaeopteryx.tools.PhylogeneticInferenceOptions;
\r
72 import org.forester.archaeopteryx.tools.PhylogeneticInferrer;
\r
73 import org.forester.archaeopteryx.tools.SequenceDataRetriver;
\r
74 import org.forester.archaeopteryx.webservices.PhylogeniesWebserviceClient;
\r
75 import org.forester.archaeopteryx.webservices.WebservicesManager;
\r
76 import org.forester.io.parsers.FastaParser;
\r
77 import org.forester.io.parsers.GeneralMsaParser;
\r
78 import org.forester.io.parsers.PhylogenyParser;
\r
79 import org.forester.io.parsers.nexus.NexusPhylogeniesParser;
\r
80 import org.forester.io.parsers.nhx.NHXParser;
\r
81 import org.forester.io.parsers.nhx.NHXParser.TAXONOMY_EXTRACTION;
\r
82 import org.forester.io.parsers.phyloxml.PhyloXmlDataFormatException;
\r
83 import org.forester.io.parsers.phyloxml.PhyloXmlParser;
\r
84 import org.forester.io.parsers.phyloxml.PhyloXmlUtil;
\r
85 import org.forester.io.parsers.tol.TolParser;
\r
86 import org.forester.io.parsers.util.ParserUtils;
\r
87 import org.forester.io.writers.PhylogenyWriter;
\r
88 import org.forester.io.writers.SequenceWriter;
\r
89 import org.forester.msa.Msa;
\r
90 import org.forester.msa.MsaFormatException;
\r
91 import org.forester.phylogeny.Phylogeny;
\r
92 import org.forester.phylogeny.PhylogenyMethods;
\r
93 import org.forester.phylogeny.PhylogenyNode;
\r
94 import org.forester.phylogeny.PhylogenyNode.NH_CONVERSION_SUPPORT_VALUE_STYLE;
\r
95 import org.forester.phylogeny.data.Confidence;
\r
96 import org.forester.phylogeny.data.PhylogenyDataUtil;
\r
97 import org.forester.phylogeny.data.Sequence;
\r
98 import org.forester.phylogeny.data.Taxonomy;
\r
99 import org.forester.phylogeny.factories.ParserBasedPhylogenyFactory;
\r
100 import org.forester.phylogeny.factories.PhylogenyFactory;
\r
101 import org.forester.phylogeny.iterators.PhylogenyNodeIterator;
\r
102 import org.forester.sequence.MolecularSequence;
\r
103 import org.forester.util.BasicDescriptiveStatistics;
\r
104 import org.forester.util.BasicTable;
\r
105 import org.forester.util.BasicTableParser;
\r
106 import org.forester.util.DescriptiveStatistics;
\r
107 import org.forester.util.ForesterUtil;
\r
108 import org.forester.util.WindowsUtils;
\r
110 public final class MainFrameApplication extends MainFrame {
\r
112 static final String INFER_ANCESTOR_TAXONOMIES = "Infer Ancestor Taxonomies";
\r
113 static final String OBTAIN_DETAILED_TAXONOMIC_INFORMATION = "Obtain Detailed Taxonomic Information";
\r
114 private final static int FRAME_X_SIZE = 800;
\r
115 private final static int FRAME_Y_SIZE = 800;
\r
116 // Filters for the file-open dialog (classes defined in this file)
\r
117 private final static NHFilter nhfilter = new NHFilter();
\r
118 private final static NHXFilter nhxfilter = new NHXFilter();
\r
119 private final static XMLFilter xmlfilter = new XMLFilter();
\r
120 private final static TolFilter tolfilter = new TolFilter();
\r
121 private final static NexusFilter nexusfilter = new NexusFilter();
\r
122 private final static PdfFilter pdffilter = new PdfFilter();
\r
123 private final static GraphicsFileFilter graphicsfilefilter = new GraphicsFileFilter();
\r
124 private final static MsaFileFilter msafilter = new MsaFileFilter();
\r
125 private final static SequencesFileFilter seqsfilter = new SequencesFileFilter();
\r
126 private final static DefaultFilter defaultfilter = new DefaultFilter();
\r
127 private static final long serialVersionUID = -799735726778865234L;
\r
128 private static final boolean PREPROCESS_TREES = false;
\r
129 private final JFileChooser _values_filechooser;
\r
130 private final JFileChooser _sequences_filechooser;
\r
131 private final JFileChooser _open_filechooser;
\r
132 private final JFileChooser _msa_filechooser;
\r
133 private final JFileChooser _seqs_pi_filechooser;
\r
134 private final JFileChooser _open_filechooser_for_species_tree;
\r
135 private final JFileChooser _save_filechooser;
\r
137 private final JFileChooser _writetographics_filechooser;
\r
138 // Application-only print menu items
\r
140 private JMenuItem _collapse_below_threshold;
\r
141 private JMenuItem _collapse_below_branch_length;
\r
143 private ButtonGroup _radio_group_1;
\r
144 private ButtonGroup _radio_group_2;
\r
146 double _min_not_collapse = Constants.MIN_NOT_COLLAPSE_DEFAULT;
\r
147 double _min_not_collapse_bl = 0.001;
\r
148 // Phylogeny Inference menu
\r
149 private JMenu _inference_menu;
\r
150 private JMenuItem _inference_from_msa_item;
\r
151 private JMenuItem _inference_from_seqs_item;
\r
152 // Phylogeny Inference
\r
153 private PhylogeneticInferenceOptions _phylogenetic_inference_options = null;
\r
154 private Msa _msa = null;
\r
155 private File _msa_file = null;
\r
156 private List<MolecularSequence> _seqs = null;
\r
157 private File _seqs_file = null;
\r
158 JMenuItem _read_values_jmi;
\r
159 JMenuItem _read_seqs_jmi;
\r
161 private MainFrameApplication( final Phylogeny[] phys, final Configuration config ) {
\r
162 _configuration = config;
\r
163 if ( _configuration == null ) {
\r
164 throw new IllegalArgumentException( "configuration is null" );
\r
166 setVisible( false );
\r
167 setOptions( Options.createInstance( _configuration ) );
\r
168 _mainpanel = new MainPanel( _configuration, this );
\r
169 _open_filechooser = null;
\r
170 _open_filechooser_for_species_tree = null;
\r
171 _save_filechooser = null;
\r
172 _writetopdf_filechooser = null;
\r
173 _writetographics_filechooser = null;
\r
174 _msa_filechooser = null;
\r
175 _seqs_pi_filechooser = null;
\r
176 _values_filechooser = null;
\r
177 _sequences_filechooser = null;
\r
178 _jmenubar = new JMenuBar();
\r
181 _contentpane = getContentPane();
\r
182 _contentpane.setLayout( new BorderLayout() );
\r
183 _contentpane.add( _mainpanel, BorderLayout.CENTER );
\r
185 setSize( MainFrameApplication.FRAME_X_SIZE, MainFrameApplication.FRAME_Y_SIZE );
\r
186 // The window listener
\r
187 setDefaultCloseOperation( WindowConstants.DO_NOTHING_ON_CLOSE );
\r
188 addWindowListener( new WindowAdapter() {
\r
191 public void windowClosing( final WindowEvent e ) {
\r
195 // setVisible( true );
\r
196 if ( ( phys != null ) && ( phys.length > 0 ) ) {
\r
197 AptxUtil.addPhylogeniesToTabs( phys, "", null, _configuration, _mainpanel );
\r
199 getMainPanel().getControlPanel().showWholeAll();
\r
200 getMainPanel().getControlPanel().showWhole();
\r
202 //activateSaveAllIfNeeded();
\r
203 // ...and its children
\r
204 _contentpane.repaint();
\r
207 private MainFrameApplication( final Phylogeny[] phys, final Configuration config, final String title ) {
\r
208 this( phys, config, title, null );
\r
211 private MainFrameApplication( final Phylogeny[] phys,
\r
212 final Configuration config,
\r
213 final String title,
\r
214 final File current_dir ) {
\r
216 _configuration = config;
\r
217 if ( _configuration == null ) {
\r
218 throw new IllegalArgumentException( "configuration is null" );
\r
221 boolean synth_exception = false;
\r
222 if ( Constants.__SYNTH_LF ) {
\r
224 final SynthLookAndFeel synth = new SynthLookAndFeel();
\r
225 synth.load( MainFrameApplication.class.getResourceAsStream( "/resources/synth_look_and_feel_1.xml" ),
\r
226 MainFrameApplication.class );
\r
227 UIManager.setLookAndFeel( synth );
\r
229 catch ( final Exception ex ) {
\r
230 synth_exception = true;
\r
231 ForesterUtil.printWarningMessage( Constants.PRG_NAME,
\r
232 "could not create synth look and feel: "
\r
233 + ex.getLocalizedMessage() );
\r
236 if ( !Constants.__SYNTH_LF || synth_exception ) {
\r
237 if ( _configuration.isUseNativeUI() ) {
\r
238 UIManager.setLookAndFeel( UIManager.getSystemLookAndFeelClassName() );
\r
241 UIManager.setLookAndFeel( UIManager.getCrossPlatformLookAndFeelClassName() );
\r
244 //UIManager.setLookAndFeel( "com.sun.java.swing.plaf.nimbus.NimbusLookAndFeel" );
\r
246 catch ( final UnsupportedLookAndFeelException e ) {
\r
247 AptxUtil.dieWithSystemError( "unsupported look and feel: " + e.toString() );
\r
249 catch ( final ClassNotFoundException e ) {
\r
250 AptxUtil.dieWithSystemError( "class not found exception: " + e.toString() );
\r
252 catch ( final InstantiationException e ) {
\r
253 AptxUtil.dieWithSystemError( "instantiation exception: " + e.toString() );
\r
255 catch ( final IllegalAccessException e ) {
\r
256 AptxUtil.dieWithSystemError( "illegal access exception: " + e.toString() );
\r
258 if ( ( current_dir != null ) && current_dir.canRead() && current_dir.isDirectory() ) {
\r
259 setCurrentDir( current_dir );
\r
261 // hide until everything is ready
\r
262 setVisible( false );
\r
263 setOptions( Options.createInstance( _configuration ) );
\r
264 setInferenceManager( InferenceManager.createInstance( _configuration ) );
\r
265 setPhylogeneticInferenceOptions( PhylogeneticInferenceOptions.createInstance( _configuration ) );
\r
266 // _textframe = null; #~~~~
\r
268 setTitle( Constants.PRG_NAME + " " + Constants.VERSION + " (" + Constants.PRG_DATE + ")" );
\r
269 _mainpanel = new MainPanel( _configuration, this );
\r
270 // The file dialogs
\r
271 _open_filechooser = new JFileChooser();
\r
272 _open_filechooser.setCurrentDirectory( new File( "." ) );
\r
273 _open_filechooser.setMultiSelectionEnabled( false );
\r
274 _open_filechooser.addChoosableFileFilter( MainFrameApplication.xmlfilter );
\r
275 _open_filechooser.addChoosableFileFilter( MainFrameApplication.nhxfilter );
\r
276 _open_filechooser.addChoosableFileFilter( MainFrameApplication.nhfilter );
\r
277 _open_filechooser.addChoosableFileFilter( MainFrameApplication.nexusfilter );
\r
278 _open_filechooser.addChoosableFileFilter( MainFrameApplication.tolfilter );
\r
279 _open_filechooser.addChoosableFileFilter( _open_filechooser.getAcceptAllFileFilter() );
\r
280 _open_filechooser.setFileFilter( MainFrameApplication.defaultfilter );
\r
281 _open_filechooser_for_species_tree = new JFileChooser();
\r
282 _open_filechooser_for_species_tree.setCurrentDirectory( new File( "." ) );
\r
283 _open_filechooser_for_species_tree.setMultiSelectionEnabled( false );
\r
284 _open_filechooser_for_species_tree.addChoosableFileFilter( MainFrameApplication.xmlfilter );
\r
285 _open_filechooser_for_species_tree.addChoosableFileFilter( MainFrameApplication.tolfilter );
\r
286 _open_filechooser_for_species_tree.setFileFilter( MainFrameApplication.xmlfilter );
\r
287 _save_filechooser = new JFileChooser();
\r
288 _save_filechooser.setCurrentDirectory( new File( "." ) );
\r
289 _save_filechooser.setMultiSelectionEnabled( false );
\r
290 _save_filechooser.setFileFilter( MainFrameApplication.xmlfilter );
\r
291 _save_filechooser.addChoosableFileFilter( MainFrameApplication.nhfilter );
\r
292 _save_filechooser.addChoosableFileFilter( MainFrameApplication.nexusfilter );
\r
293 _save_filechooser.addChoosableFileFilter( _save_filechooser.getAcceptAllFileFilter() );
\r
294 _writetopdf_filechooser = new JFileChooser();
\r
295 _writetopdf_filechooser.addChoosableFileFilter( MainFrameApplication.pdffilter );
\r
296 _writetographics_filechooser = new JFileChooser();
\r
297 _writetographics_filechooser.addChoosableFileFilter( MainFrameApplication.graphicsfilefilter );
\r
299 _msa_filechooser = new JFileChooser();
\r
300 _msa_filechooser.setName( "Read Multiple Sequence Alignment File" );
\r
301 _msa_filechooser.setCurrentDirectory( new File( "." ) );
\r
302 _msa_filechooser.setMultiSelectionEnabled( false );
\r
303 _msa_filechooser.addChoosableFileFilter( _msa_filechooser.getAcceptAllFileFilter() );
\r
304 _msa_filechooser.addChoosableFileFilter( MainFrameApplication.msafilter );
\r
306 _seqs_pi_filechooser = new JFileChooser();
\r
307 _seqs_pi_filechooser.setName( "Read Sequences File" );
\r
308 _seqs_pi_filechooser.setCurrentDirectory( new File( "." ) );
\r
309 _seqs_pi_filechooser.setMultiSelectionEnabled( false );
\r
310 _seqs_pi_filechooser.addChoosableFileFilter( _seqs_pi_filechooser.getAcceptAllFileFilter() );
\r
311 _seqs_pi_filechooser.addChoosableFileFilter( MainFrameApplication.seqsfilter );
\r
313 _values_filechooser = new JFileChooser();
\r
314 _values_filechooser.setCurrentDirectory( new File( "." ) );
\r
315 _values_filechooser.setMultiSelectionEnabled( false );
\r
317 _sequences_filechooser = new JFileChooser();
\r
318 _sequences_filechooser.setCurrentDirectory( new File( "." ) );
\r
319 _sequences_filechooser.setMultiSelectionEnabled( false );
\r
320 // build the menu bar
\r
321 _jmenubar = new JMenuBar();
\r
322 if ( !_configuration.isUseNativeUI() ) {
\r
323 _jmenubar.setBackground( getConfiguration().getGuiMenuBackgroundColor() );
\r
326 if ( Constants.__ALLOW_PHYLOGENETIC_INFERENCE ) {
\r
327 buildPhylogeneticInferenceMenu();
\r
329 buildAnalysisMenu();
\r
332 buildFontSizeMenu();
\r
333 buildOptionsMenu();
\r
336 setJMenuBar( _jmenubar );
\r
337 _jmenubar.add( _help_jmenu );
\r
338 _contentpane = getContentPane();
\r
339 _contentpane.setLayout( new BorderLayout() );
\r
340 _contentpane.add( _mainpanel, BorderLayout.CENTER );
\r
342 setSize( MainFrameApplication.FRAME_X_SIZE, MainFrameApplication.FRAME_Y_SIZE );
\r
343 // addWindowFocusListener( new WindowAdapter() {
\r
346 // public void windowGainedFocus( WindowEvent e ) {
\r
347 // requestFocusInWindow();
\r
350 // The window listener
\r
351 setDefaultCloseOperation( WindowConstants.DO_NOTHING_ON_CLOSE );
\r
352 addWindowListener( new WindowAdapter() {
\r
355 public void windowClosing( final WindowEvent e ) {
\r
356 if ( isUnsavedDataPresent() ) {
\r
357 final int r = JOptionPane.showConfirmDialog( null,
\r
358 "Exit despite potentially unsaved changes?",
\r
360 JOptionPane.YES_NO_OPTION );
\r
361 if ( r != JOptionPane.YES_OPTION ) {
\r
366 final int r = JOptionPane.showConfirmDialog( null,
\r
367 "Exit Archaeopteryx?",
\r
369 JOptionPane.YES_NO_OPTION );
\r
370 if ( r != JOptionPane.YES_OPTION ) {
\r
377 // The component listener
\r
378 addComponentListener( new ComponentAdapter() {
\r
381 public void componentResized( final ComponentEvent e ) {
\r
382 if ( _mainpanel.getCurrentTreePanel() != null ) {
\r
383 _mainpanel.getCurrentTreePanel().calcParametersForPainting( _mainpanel.getCurrentTreePanel()
\r
385 _mainpanel.getCurrentTreePanel()
\r
390 requestFocusInWindow();
\r
391 // addKeyListener( this );
\r
392 setVisible( true );
\r
393 if ( ( phys != null ) && ( phys.length > 0 ) ) {
\r
394 AptxUtil.addPhylogeniesToTabs( phys, title, null, _configuration, _mainpanel );
\r
396 getMainPanel().getControlPanel().showWholeAll();
\r
397 getMainPanel().getControlPanel().showWhole();
\r
399 activateSaveAllIfNeeded();
\r
400 // ...and its children
\r
401 _contentpane.repaint();
\r
405 private MainFrameApplication( final Phylogeny[] phys, final String config_file, final String title ) {
\r
406 // Reads the config file (false, false => not url, not applet):
\r
407 this( phys, new Configuration( config_file, false, false, true ), title );
\r
411 public void actionPerformed( final ActionEvent e ) {
\r
413 super.actionPerformed( e );
\r
414 final Object o = e.getSource();
\r
415 // Handle app-specific actions here:
\r
416 if ( o == _open_item ) {
\r
417 readPhylogeniesFromFile();
\r
419 if ( o == _open_url_item ) {
\r
420 readPhylogeniesFromURL();
\r
422 else if ( o == _save_item ) {
\r
423 writeToFile( _mainpanel.getCurrentPhylogeny() );
\r
424 // If subtree currently displayed, save it, instead of complete
\r
427 else if ( o == _new_item ) {
\r
430 else if ( o == _save_all_item ) {
\r
433 else if ( o == _close_item ) {
\r
434 closeCurrentPane();
\r
436 else if ( o == _write_to_jpg_item ) {
\r
437 writeToGraphicsFile( _mainpanel.getCurrentPhylogeny(), GraphicsExportType.JPG );
\r
439 else if ( o == _write_to_png_item ) {
\r
440 writeToGraphicsFile( _mainpanel.getCurrentPhylogeny(), GraphicsExportType.PNG );
\r
442 else if ( o == _write_to_gif_item ) {
\r
443 writeToGraphicsFile( _mainpanel.getCurrentPhylogeny(), GraphicsExportType.GIF );
\r
445 else if ( o == _write_to_tif_item ) {
\r
446 writeToGraphicsFile( _mainpanel.getCurrentPhylogeny(), GraphicsExportType.TIFF );
\r
448 else if ( o == _write_to_bmp_item ) {
\r
449 writeToGraphicsFile( _mainpanel.getCurrentPhylogeny(), GraphicsExportType.BMP );
\r
451 else if ( o == _print_item ) {
\r
454 else if ( o == _load_species_tree_item ) {
\r
455 readSpeciesTreeFromFile();
\r
457 else if ( o == _lineage_inference ) {
\r
458 if ( isSubtreeDisplayed() ) {
\r
459 JOptionPane.showMessageDialog( this,
\r
460 "Subtree is shown.",
\r
461 "Cannot infer ancestral taxonomies",
\r
462 JOptionPane.ERROR_MESSAGE );
\r
465 executeLineageInference();
\r
467 else if ( o == _obtain_detailed_taxonomic_information_jmi ) {
\r
468 if ( isSubtreeDisplayed() ) {
\r
471 obtainDetailedTaxonomicInformation();
\r
473 else if ( o == _obtain_detailed_taxonomic_information_deleting_jmi ) {
\r
474 if ( isSubtreeDisplayed() ) {
\r
477 obtainDetailedTaxonomicInformationDelete();
\r
479 else if ( o == _obtain_seq_information_jmi ) {
\r
480 obtainSequenceInformation();
\r
482 else if ( o == _read_values_jmi ) {
\r
483 if ( isSubtreeDisplayed() ) {
\r
486 addExpressionValuesFromFile();
\r
488 else if ( o == _read_seqs_jmi ) {
\r
489 if ( isSubtreeDisplayed() ) {
\r
492 addSequencesFromFile();
\r
494 else if ( o == _move_node_names_to_tax_sn_jmi ) {
\r
495 moveNodeNamesToTaxSn();
\r
497 else if ( o == _move_node_names_to_seq_names_jmi ) {
\r
498 moveNodeNamesToSeqNames();
\r
500 else if ( o == _extract_tax_code_from_node_names_jmi ) {
\r
501 extractTaxDataFromNodeNames();
\r
503 else if ( o == _graphics_export_visible_only_cbmi ) {
\r
504 updateOptions( getOptions() );
\r
506 else if ( o == _antialias_print_cbmi ) {
\r
507 updateOptions( getOptions() );
\r
509 else if ( o == _print_black_and_white_cbmi ) {
\r
510 updateOptions( getOptions() );
\r
512 else if ( o == _print_using_actual_size_cbmi ) {
\r
513 updateOptions( getOptions() );
\r
515 else if ( o == _graphics_export_using_actual_size_cbmi ) {
\r
516 updateOptions( getOptions() );
\r
518 else if ( o == _print_size_mi ) {
\r
521 else if ( o == _choose_pdf_width_mi ) {
\r
524 else if ( o == _internal_number_are_confidence_for_nh_parsing_cbmi ) {
\r
525 updateOptions( getOptions() );
\r
527 else if ( o == _replace_underscores_cbmi ) {
\r
528 if ( ( _extract_taxonomy_no_rbmi != null ) && !_extract_taxonomy_no_rbmi.isSelected() ) {
\r
529 _extract_taxonomy_no_rbmi.setSelected( true );
\r
531 updateOptions( getOptions() );
\r
533 else if ( o == _allow_errors_in_distance_to_parent_cbmi ) {
\r
534 updateOptions( getOptions() );
\r
536 else if ( o == _collapse_below_threshold ) {
\r
537 if ( isSubtreeDisplayed() ) {
\r
540 collapseBelowThreshold();
\r
542 else if ( o == _collapse_below_branch_length ) {
\r
543 if ( isSubtreeDisplayed() ) {
\r
546 collapseBelowBranchLengthThreshold();
\r
548 else if ( ( o == _extract_taxonomy_pfam_strict_rbmi ) || ( o == _extract_taxonomy_pfam_relaxed_rbmi )
\r
549 || ( o == _extract_taxonomy_agressive_rbmi ) ) {
\r
550 if ( _replace_underscores_cbmi != null ) {
\r
551 _replace_underscores_cbmi.setSelected( false );
\r
553 updateOptions( getOptions() );
\r
555 else if ( o == _extract_taxonomy_no_rbmi ) {
\r
556 updateOptions( getOptions() );
\r
558 else if ( o == _inference_from_msa_item ) {
\r
559 executePhyleneticInference( false );
\r
561 else if ( o == _inference_from_seqs_item ) {
\r
562 executePhyleneticInference( true );
\r
564 _contentpane.repaint();
\r
566 catch ( final Exception ex ) {
\r
567 AptxUtil.unexpectedException( ex );
\r
569 catch ( final Error err ) {
\r
570 AptxUtil.unexpectedError( err );
\r
574 public void end() {
\r
575 _mainpanel.terminate();
\r
576 _contentpane.removeAll();
\r
577 setVisible( false );
\r
582 public MainPanel getMainPanel() {
\r
586 public Msa getMsa() {
\r
590 public File getMsaFile() {
\r
594 public List<MolecularSequence> getSeqs() {
\r
598 public File getSeqsFile() {
\r
602 public void readMsaFromFile() {
\r
603 // Set an initial directory if none set yet
\r
604 final File my_dir = getCurrentDir();
\r
605 _msa_filechooser.setMultiSelectionEnabled( false );
\r
606 // Open file-open dialog and set current directory
\r
607 if ( my_dir != null ) {
\r
608 _msa_filechooser.setCurrentDirectory( my_dir );
\r
610 final int result = _msa_filechooser.showOpenDialog( _contentpane );
\r
611 // All done: get the msa
\r
612 final File file = _msa_filechooser.getSelectedFile();
\r
613 setCurrentDir( _msa_filechooser.getCurrentDirectory() );
\r
614 if ( ( file != null ) && !file.isDirectory() && ( result == JFileChooser.APPROVE_OPTION ) ) {
\r
615 setMsaFile( null );
\r
619 final InputStream is = new FileInputStream( file );
\r
620 if ( FastaParser.isLikelyFasta( file ) ) {
\r
621 msa = FastaParser.parseMsa( is );
\r
624 msa = GeneralMsaParser.parse( is );
\r
627 catch ( final MsaFormatException e ) {
\r
629 JOptionPane.showMessageDialog( this,
\r
630 e.getLocalizedMessage(),
\r
631 "Multiple sequence alignment format error",
\r
632 JOptionPane.ERROR_MESSAGE );
\r
635 catch ( final IOException e ) {
\r
637 JOptionPane.showMessageDialog( this,
\r
638 e.getLocalizedMessage(),
\r
639 "Failed to read multiple sequence alignment",
\r
640 JOptionPane.ERROR_MESSAGE );
\r
643 catch ( final IllegalArgumentException e ) {
\r
645 JOptionPane.showMessageDialog( this,
\r
646 e.getLocalizedMessage(),
\r
647 "Unexpected error during reading of multiple sequence alignment",
\r
648 JOptionPane.ERROR_MESSAGE );
\r
651 catch ( final Exception e ) {
\r
653 e.printStackTrace();
\r
654 JOptionPane.showMessageDialog( this,
\r
655 e.getLocalizedMessage(),
\r
656 "Unexpected error during reading of multiple sequence alignment",
\r
657 JOptionPane.ERROR_MESSAGE );
\r
660 if ( ( msa == null ) || ( msa.getNumberOfSequences() < 1 ) ) {
\r
661 JOptionPane.showMessageDialog( this,
\r
662 "Multiple sequence alignment is empty",
\r
663 "Illegal Multiple Sequence Alignment",
\r
664 JOptionPane.ERROR_MESSAGE );
\r
667 if ( msa.getNumberOfSequences() < 4 ) {
\r
668 JOptionPane.showMessageDialog( this,
\r
669 "Multiple sequence alignment needs to contain at least 3 sequences",
\r
670 "Illegal multiple sequence alignment",
\r
671 JOptionPane.ERROR_MESSAGE );
\r
674 if ( msa.getLength() < 2 ) {
\r
675 JOptionPane.showMessageDialog( this,
\r
676 "Multiple sequence alignment needs to contain at least 2 residues",
\r
677 "Illegal multiple sequence alignment",
\r
678 JOptionPane.ERROR_MESSAGE );
\r
682 setMsaFile( _msa_filechooser.getSelectedFile() );
\r
687 public void readSeqsFromFileforPI() {
\r
688 // Set an initial directory if none set yet
\r
689 final File my_dir = getCurrentDir();
\r
690 _seqs_pi_filechooser.setMultiSelectionEnabled( false );
\r
691 // Open file-open dialog and set current directory
\r
692 if ( my_dir != null ) {
\r
693 _seqs_pi_filechooser.setCurrentDirectory( my_dir );
\r
695 final int result = _seqs_pi_filechooser.showOpenDialog( _contentpane );
\r
696 // All done: get the seqs
\r
697 final File file = _seqs_pi_filechooser.getSelectedFile();
\r
698 setCurrentDir( _seqs_pi_filechooser.getCurrentDirectory() );
\r
699 if ( ( file != null ) && !file.isDirectory() && ( result == JFileChooser.APPROVE_OPTION ) ) {
\r
700 setSeqsFile( null );
\r
702 List<MolecularSequence> seqs = null;
\r
704 if ( FastaParser.isLikelyFasta( new FileInputStream( file ) ) ) {
\r
705 seqs = FastaParser.parse( new FileInputStream( file ) );
\r
706 for( final MolecularSequence seq : seqs ) {
\r
707 System.out.println( SequenceWriter.toFasta( seq, 60 ) );
\r
714 catch ( final MsaFormatException e ) {
\r
716 JOptionPane.showMessageDialog( this,
\r
717 e.getLocalizedMessage(),
\r
718 "Multiple sequence file format error",
\r
719 JOptionPane.ERROR_MESSAGE );
\r
722 catch ( final IOException e ) {
\r
724 JOptionPane.showMessageDialog( this,
\r
725 e.getLocalizedMessage(),
\r
726 "Failed to read multiple sequence file",
\r
727 JOptionPane.ERROR_MESSAGE );
\r
730 catch ( final IllegalArgumentException e ) {
\r
732 JOptionPane.showMessageDialog( this,
\r
733 e.getLocalizedMessage(),
\r
734 "Unexpected error during reading of multiple sequence file",
\r
735 JOptionPane.ERROR_MESSAGE );
\r
738 catch ( final Exception e ) {
\r
740 e.printStackTrace();
\r
741 JOptionPane.showMessageDialog( this,
\r
742 e.getLocalizedMessage(),
\r
743 "Unexpected error during reading of multiple sequence file",
\r
744 JOptionPane.ERROR_MESSAGE );
\r
747 if ( ( seqs == null ) || ( seqs.size() < 1 ) ) {
\r
748 JOptionPane.showMessageDialog( this,
\r
749 "Multiple sequence file is empty",
\r
750 "Illegal multiple sequence file",
\r
751 JOptionPane.ERROR_MESSAGE );
\r
754 if ( seqs.size() < 4 ) {
\r
755 JOptionPane.showMessageDialog( this,
\r
756 "Multiple sequence file needs to contain at least 3 sequences",
\r
757 "Illegal multiple sequence file",
\r
758 JOptionPane.ERROR_MESSAGE );
\r
761 // if ( msa.getLength() < 2 ) {
\r
762 // JOptionPane.showMessageDialog( this,
\r
763 // "Multiple sequence alignment needs to contain at least 2 residues",
\r
764 // "Illegal multiple sequence file",
\r
765 // JOptionPane.ERROR_MESSAGE );
\r
769 setSeqsFile( _seqs_pi_filechooser.getSelectedFile() );
\r
774 void buildAnalysisMenu() {
\r
775 _analysis_menu = MainFrame.createMenu( "Analysis", getConfiguration() );
\r
776 _analysis_menu.add( _gsdi_item = new JMenuItem( "GSDI (Generalized Speciation Duplication Inference)" ) );
\r
777 _analysis_menu.add( _gsdir_item = new JMenuItem( "GSDIR (GSDI with re-rooting)" ) );
\r
778 _analysis_menu.add( _load_species_tree_item = new JMenuItem( "Load Species Tree..." ) );
\r
779 customizeJMenuItem( _gsdi_item );
\r
780 customizeJMenuItem( _gsdir_item );
\r
781 customizeJMenuItem( _load_species_tree_item );
\r
782 _analysis_menu.addSeparator();
\r
783 _analysis_menu.add( _lineage_inference = new JMenuItem( INFER_ANCESTOR_TAXONOMIES ) );
\r
784 customizeJMenuItem( _lineage_inference );
\r
785 _lineage_inference.setToolTipText( "Inference of ancestor taxonomies/lineages" );
\r
786 _jmenubar.add( _analysis_menu );
\r
790 void buildFileMenu() {
\r
791 _file_jmenu = MainFrame.createMenu( "File", getConfiguration() );
\r
792 _file_jmenu.add( _open_item = new JMenuItem( "Read Tree from File..." ) );
\r
793 _file_jmenu.addSeparator();
\r
794 _file_jmenu.add( _open_url_item = new JMenuItem( "Read Tree from URL/Webservice..." ) );
\r
795 _file_jmenu.addSeparator();
\r
796 final WebservicesManager webservices_manager = WebservicesManager.getInstance();
\r
797 _load_phylogeny_from_webservice_menu_items = new JMenuItem[ webservices_manager
\r
798 .getAvailablePhylogeniesWebserviceClients().size() ];
\r
799 for( int i = 0; i < webservices_manager.getAvailablePhylogeniesWebserviceClients().size(); ++i ) {
\r
800 final PhylogeniesWebserviceClient client = webservices_manager.getAvailablePhylogeniesWebserviceClient( i );
\r
801 _load_phylogeny_from_webservice_menu_items[ i ] = new JMenuItem( client.getMenuName() );
\r
802 _file_jmenu.add( _load_phylogeny_from_webservice_menu_items[ i ] );
\r
804 if ( getConfiguration().isEditable() ) {
\r
805 _file_jmenu.addSeparator();
\r
806 _file_jmenu.add( _new_item = new JMenuItem( "New" ) );
\r
807 _new_item.setToolTipText( "to create a new tree with one node, as source for manual tree construction" );
\r
809 _file_jmenu.addSeparator();
\r
810 _file_jmenu.add( _save_item = new JMenuItem( "Save Tree As..." ) );
\r
811 _file_jmenu.add( _save_all_item = new JMenuItem( "Save All Trees As..." ) );
\r
812 _save_all_item.setToolTipText( "Write all phylogenies to one file." );
\r
813 _save_all_item.setEnabled( false );
\r
814 _file_jmenu.addSeparator();
\r
815 _file_jmenu.add( _write_to_pdf_item = new JMenuItem( "Export to PDF file ..." ) );
\r
816 if ( AptxUtil.canWriteFormat( "tif" ) || AptxUtil.canWriteFormat( "tiff" ) || AptxUtil.canWriteFormat( "TIF" ) ) {
\r
817 _file_jmenu.add( _write_to_tif_item = new JMenuItem( "Export to TIFF file..." ) );
\r
819 _file_jmenu.add( _write_to_png_item = new JMenuItem( "Export to PNG file..." ) );
\r
820 _file_jmenu.add( _write_to_jpg_item = new JMenuItem( "Export to JPG file..." ) );
\r
821 if ( AptxUtil.canWriteFormat( "gif" ) ) {
\r
822 _file_jmenu.add( _write_to_gif_item = new JMenuItem( "Export to GIF file..." ) );
\r
824 if ( AptxUtil.canWriteFormat( "bmp" ) ) {
\r
825 _file_jmenu.add( _write_to_bmp_item = new JMenuItem( "Export to BMP file..." ) );
\r
827 _file_jmenu.addSeparator();
\r
828 _file_jmenu.add( _print_item = new JMenuItem( "Print..." ) );
\r
829 _file_jmenu.addSeparator();
\r
830 _file_jmenu.add( _close_item = new JMenuItem( "Close Tab" ) );
\r
831 _close_item.setToolTipText( "To close the current pane." );
\r
832 _close_item.setEnabled( true );
\r
833 _file_jmenu.addSeparator();
\r
834 _file_jmenu.add( _exit_item = new JMenuItem( "Exit" ) );
\r
835 customizeJMenuItem( _open_item );
\r
837 .setFont( new Font( _open_item.getFont().getFontName(), Font.BOLD, _open_item.getFont().getSize() + 4 ) );
\r
838 customizeJMenuItem( _open_url_item );
\r
839 for( int i = 0; i < webservices_manager.getAvailablePhylogeniesWebserviceClients().size(); ++i ) {
\r
840 customizeJMenuItem( _load_phylogeny_from_webservice_menu_items[ i ] );
\r
842 customizeJMenuItem( _save_item );
\r
843 if ( getConfiguration().isEditable() ) {
\r
844 customizeJMenuItem( _new_item );
\r
846 customizeJMenuItem( _close_item );
\r
847 customizeJMenuItem( _save_all_item );
\r
848 customizeJMenuItem( _write_to_pdf_item );
\r
849 customizeJMenuItem( _write_to_png_item );
\r
850 customizeJMenuItem( _write_to_jpg_item );
\r
851 customizeJMenuItem( _write_to_gif_item );
\r
852 customizeJMenuItem( _write_to_tif_item );
\r
853 customizeJMenuItem( _write_to_bmp_item );
\r
854 customizeJMenuItem( _print_item );
\r
855 customizeJMenuItem( _exit_item );
\r
856 _jmenubar.add( _file_jmenu );
\r
859 void buildOptionsMenu() {
\r
860 _options_jmenu = MainFrame.createMenu( OPTIONS_HEADER, getConfiguration() );
\r
861 _options_jmenu.addChangeListener( new ChangeListener() {
\r
864 public void stateChanged( final ChangeEvent e ) {
\r
865 MainFrame.setOvPlacementColorChooseMenuItem( _overview_placment_mi, getOptions() );
\r
866 MainFrame.setTextColorChooseMenuItem( _switch_colors_mi, getCurrentTreePanel() );
\r
868 .setTextMinSupportMenuItem( _choose_minimal_confidence_mi, getOptions(), getCurrentTreePanel() );
\r
869 MainFrame.setTextForFontChooserMenuItem( _choose_font_mi, MainFrame
\r
870 .createCurrentFontDesc( getMainPanel().getTreeFontSet() ) );
\r
871 setTextForGraphicsSizeChooserMenuItem( _print_size_mi, getOptions() );
\r
872 setTextForPdfLineWidthChooserMenuItem( _choose_pdf_width_mi, getOptions() );
\r
873 MainFrame.setCycleNodeFillMenuItem( _cycle_node_fill_mi, getOptions() );
\r
874 MainFrame.setCycleNodeShapeMenuItem( _cycle_node_shape_mi, getOptions() );
\r
876 MainFrame.setCycleDataReturnMenuItem( _cycle_data_return, getOptions() );
\r
877 MainFrame.setTextNodeSizeMenuItem( _choose_node_size_mi, getOptions() );
\r
879 getMainPanel().getControlPanel().setVisibilityOfDomainStrucureCB();
\r
880 getMainPanel().getControlPanel().setVisibilityOfX();
\r
882 catch ( final Exception ignore ) {
\r
883 // do nothing, not important.
\r
887 _options_jmenu.add( customizeMenuItemAsLabel( new JMenuItem( DISPLAY_SUBHEADER ), getConfiguration() ) );
\r
889 .add( _ext_node_dependent_cladogram_rbmi = new JRadioButtonMenuItem( MainFrame.NONUNIFORM_CLADOGRAMS_LABEL ) );
\r
890 _options_jmenu.add( _uniform_cladograms_rbmi = new JRadioButtonMenuItem( MainFrame.UNIFORM_CLADOGRAMS_LABEL ) );
\r
891 _options_jmenu.add( _non_lined_up_cladograms_rbmi = new JRadioButtonMenuItem( NON_LINED_UP_CLADOGRAMS_LABEL ) );
\r
892 _radio_group_1 = new ButtonGroup();
\r
893 _radio_group_1.add( _ext_node_dependent_cladogram_rbmi );
\r
894 _radio_group_1.add( _uniform_cladograms_rbmi );
\r
895 _radio_group_1.add( _non_lined_up_cladograms_rbmi );
\r
896 _options_jmenu.add( _show_overview_cbmi = new JCheckBoxMenuItem( SHOW_OVERVIEW_LABEL ) );
\r
897 _options_jmenu.add( _show_scale_cbmi = new JCheckBoxMenuItem( DISPLAY_SCALE_LABEL ) );
\r
899 .add( _show_default_node_shapes_internal_cbmi = new JCheckBoxMenuItem( DISPLAY_NODE_BOXES_LABEL_INT ) );
\r
901 .add( _show_default_node_shapes_external_cbmi = new JCheckBoxMenuItem( DISPLAY_NODE_BOXES_LABEL_EXT ) );
\r
903 .add( _show_default_node_shapes_for_marked_cbmi = new JCheckBoxMenuItem( MainFrame.DISPLAY_NODE_BOXES_LABEL_MARKED ) );
\r
904 _options_jmenu.add( _line_up_renderable_data_cbmi = new JCheckBoxMenuItem( MainFrame.LINE_UP_RENDERABLE_DATA ) );
\r
905 if ( getConfiguration().doDisplayOption( Configuration.show_domain_architectures ) ) {
\r
906 _options_jmenu.add( _right_line_up_domains_cbmi = new JCheckBoxMenuItem( MainFrame.RIGHT_LINE_UP_DOMAINS ) );
\r
907 _options_jmenu.add( _show_domain_labels = new JCheckBoxMenuItem( MainFrame.SHOW_DOMAIN_LABELS_LABEL ) );
\r
909 _options_jmenu.add( _show_annotation_ref_source = new JCheckBoxMenuItem( SHOW_ANN_REF_SOURCE_LABEL ) );
\r
910 _options_jmenu.add( _show_confidence_stddev_cbmi = new JCheckBoxMenuItem( SHOW_CONF_STDDEV_LABEL ) );
\r
911 _options_jmenu.add( _color_by_taxonomic_group_cbmi = new JCheckBoxMenuItem( COLOR_BY_TAXONOMIC_GROUP ) );
\r
912 _options_jmenu.add( _color_labels_same_as_parent_branch = new JCheckBoxMenuItem( COLOR_LABELS_LABEL ) );
\r
913 _color_labels_same_as_parent_branch.setToolTipText( MainFrame.COLOR_LABELS_TIP );
\r
914 _options_jmenu.add( _abbreviate_scientific_names = new JCheckBoxMenuItem( ABBREV_SN_LABEL ) );
\r
915 _options_jmenu.add( _label_direction_cbmi = new JCheckBoxMenuItem( LABEL_DIRECTION_LABEL ) );
\r
916 _label_direction_cbmi.setToolTipText( LABEL_DIRECTION_TIP );
\r
917 _options_jmenu.add( _screen_antialias_cbmi = new JCheckBoxMenuItem( SCREEN_ANTIALIAS_LABEL ) );
\r
918 _options_jmenu.add( _background_gradient_cbmi = new JCheckBoxMenuItem( BG_GRAD_LABEL ) );
\r
919 _options_jmenu.add( _cycle_node_shape_mi = new JMenuItem( MainFrame.CYCLE_NODE_SHAPE_LABEL ) );
\r
920 _options_jmenu.add( _cycle_node_fill_mi = new JMenuItem( MainFrame.CYCLE_NODE_FILL_LABEL ) );
\r
921 _options_jmenu.add( _choose_node_size_mi = new JMenuItem( MainFrame.CHOOSE_NODE_SIZE_LABEL ) );
\r
922 _options_jmenu.add( _choose_minimal_confidence_mi = new JMenuItem( "" ) );
\r
923 _options_jmenu.add( _overview_placment_mi = new JMenuItem( "" ) );
\r
924 _options_jmenu.add( _switch_colors_mi = new JMenuItem( "" ) );
\r
925 _options_jmenu.add( _choose_font_mi = new JMenuItem( "" ) );
\r
926 _options_jmenu.addSeparator();
\r
927 _options_jmenu.add( _cycle_data_return = new JMenuItem( "Cycle Data Return" ) );
\r
928 _options_jmenu.addSeparator();
\r
929 _options_jmenu.add( customizeMenuItemAsLabel( new JMenuItem( SEARCH_SUBHEADER ), getConfiguration() ) );
\r
930 _options_jmenu.add( _search_case_senstive_cbmi = new JCheckBoxMenuItem( SEARCH_CASE_SENSITIVE_LABEL ) );
\r
931 _options_jmenu.add( _search_whole_words_only_cbmi = new JCheckBoxMenuItem( SEARCH_TERMS_ONLY_LABEL ) );
\r
932 _options_jmenu.add( _search_with_regex_cbmi = new JCheckBoxMenuItem( MainFrame.SEARCH_REGEX_LABEL ) );
\r
933 _search_with_regex_cbmi.setToolTipText( MainFrame.SEARCH_WITH_REGEX_TIP );
\r
934 _options_jmenu.add( _inverse_search_result_cbmi = new JCheckBoxMenuItem( INVERSE_SEARCH_RESULT_LABEL ) );
\r
935 _options_jmenu.addSeparator();
\r
936 _options_jmenu.add( customizeMenuItemAsLabel( new JMenuItem( "Graphics Export & Printing:" ),
\r
937 getConfiguration() ) );
\r
938 _options_jmenu.add( _antialias_print_cbmi = new JCheckBoxMenuItem( "Antialias" ) );
\r
939 _options_jmenu.add( _print_black_and_white_cbmi = new JCheckBoxMenuItem( "Export in Black and White" ) );
\r
941 .add( _print_using_actual_size_cbmi = new JCheckBoxMenuItem( "Use Current Image Size for PDF export and Printing" ) );
\r
943 .add( _graphics_export_using_actual_size_cbmi = new JCheckBoxMenuItem( "Use Current Image Size for PNG, JPG, and GIF export" ) );
\r
945 .add( _graphics_export_visible_only_cbmi = new JCheckBoxMenuItem( "Limit to Visible ('Screenshot') for PNG, JPG, and GIF export" ) );
\r
946 _options_jmenu.add( _print_size_mi = new JMenuItem( "" ) );
\r
947 _options_jmenu.add( _choose_pdf_width_mi = new JMenuItem( "" ) );
\r
948 _options_jmenu.addSeparator();
\r
949 _options_jmenu.add( customizeMenuItemAsLabel( new JMenuItem( "Newick/NHX/Nexus Input:" ), getConfiguration() ) );
\r
951 .add( _internal_number_are_confidence_for_nh_parsing_cbmi = new JCheckBoxMenuItem( "Internal Node Names are Confidence Values" ) );
\r
952 _options_jmenu.add( _replace_underscores_cbmi = new JCheckBoxMenuItem( "Replace Underscores with Spaces" ) );
\r
954 .add( _allow_errors_in_distance_to_parent_cbmi = new JCheckBoxMenuItem( "Ignore Distance Values Format Errors" ) );
\r
955 _options_jmenu.add( _extract_taxonomy_no_rbmi = new JRadioButtonMenuItem( "No Taxonomy Extraction" ) );
\r
957 .add( _extract_taxonomy_pfam_strict_rbmi = new JRadioButtonMenuItem( "Extract Taxonomy Codes/Ids from Pfam-style Node Names" ) );
\r
959 .add( _extract_taxonomy_pfam_relaxed_rbmi = new JRadioButtonMenuItem( "Extract Taxonomy Codes/Ids from Pfam-style like Node Names" ) );
\r
961 .add( _extract_taxonomy_agressive_rbmi = new JRadioButtonMenuItem( "Extract Taxonomy Codes/Ids/Scientific Names from Node Names" ) );
\r
962 _extract_taxonomy_pfam_strict_rbmi
\r
963 .setToolTipText( "To extract taxonomy codes/ids from node names in the form of e.g. \"BCL2_MOUSE/123-304\" or \"BCL2_10090/123-304\"" );
\r
964 _extract_taxonomy_pfam_relaxed_rbmi
\r
965 .setToolTipText( "To extract taxonomy codes/ids from node names in the form of e.g. \"bax_MOUSE\" or \"bax_10090\"" );
\r
966 _extract_taxonomy_agressive_rbmi
\r
967 .setToolTipText( "To extract taxonomy codes/ids or scientific names from node names in the form of e.g. \"MOUSE\" or \"10090\" or \"xyz_Nematostella_vectensis\"" );
\r
968 _radio_group_2 = new ButtonGroup();
\r
969 _radio_group_2.add( _extract_taxonomy_no_rbmi );
\r
970 _radio_group_2.add( _extract_taxonomy_pfam_strict_rbmi );
\r
971 _radio_group_2.add( _extract_taxonomy_pfam_relaxed_rbmi );
\r
972 _radio_group_2.add( _extract_taxonomy_agressive_rbmi );
\r
973 _options_jmenu.add( customizeMenuItemAsLabel( new JMenuItem( "Newick/Nexus Output:" ), getConfiguration() ) );
\r
975 .add( _use_brackets_for_conf_in_nh_export_cbmi = new JCheckBoxMenuItem( USE_BRACKETS_FOR_CONF_IN_NH_LABEL ) );
\r
976 _use_brackets_for_conf_in_nh_export_cbmi
\r
977 .setToolTipText( "e.g. \"0.1[90]\" for a branch with support 90 and a length of 0.1" );
\r
979 .add( _use_internal_names_for_conf_in_nh_export_cbmi = new JCheckBoxMenuItem( USE_INTERNAL_NAMES_FOR_CONF_IN_NH_LABEL ) );
\r
980 customizeJMenuItem( _choose_font_mi );
\r
981 customizeJMenuItem( _choose_minimal_confidence_mi );
\r
982 customizeJMenuItem( _switch_colors_mi );
\r
983 customizeJMenuItem( _print_size_mi );
\r
984 customizeJMenuItem( _choose_pdf_width_mi );
\r
985 customizeJMenuItem( _overview_placment_mi );
\r
986 customizeCheckBoxMenuItem( _show_default_node_shapes_external_cbmi, getOptions()
\r
987 .isShowDefaultNodeShapesExternal() );
\r
988 customizeCheckBoxMenuItem( _show_default_node_shapes_internal_cbmi, getOptions()
\r
989 .isShowDefaultNodeShapesInternal() );
\r
990 customizeCheckBoxMenuItem( _show_default_node_shapes_for_marked_cbmi, getOptions()
\r
991 .isShowDefaultNodeShapesForMarkedNodes() );
\r
992 customizeJMenuItem( _cycle_node_shape_mi );
\r
993 customizeJMenuItem( _cycle_node_fill_mi );
\r
994 customizeJMenuItem( _choose_node_size_mi );
\r
995 customizeJMenuItem( _cycle_data_return);
\r
997 customizeCheckBoxMenuItem( _color_labels_same_as_parent_branch, getOptions().isColorLabelsSameAsParentBranch() );
\r
998 customizeCheckBoxMenuItem( _color_by_taxonomic_group_cbmi, getOptions().isColorByTaxonomicGroup() );
\r
999 customizeCheckBoxMenuItem( _screen_antialias_cbmi, getOptions().isAntialiasScreen() );
\r
1000 customizeCheckBoxMenuItem( _background_gradient_cbmi, getOptions().isBackgroundColorGradient() );
\r
1001 customizeCheckBoxMenuItem( _show_domain_labels, getOptions().isShowDomainLabels() );
\r
1002 customizeCheckBoxMenuItem( _show_annotation_ref_source, getOptions().isShowAnnotationRefSource() );
\r
1003 customizeCheckBoxMenuItem( _abbreviate_scientific_names, getOptions().isAbbreviateScientificTaxonNames() );
\r
1004 customizeCheckBoxMenuItem( _search_case_senstive_cbmi, getOptions().isSearchCaseSensitive() );
\r
1005 customizeCheckBoxMenuItem( _show_scale_cbmi, getOptions().isShowScale() );
\r
1006 customizeRadioButtonMenuItem( _non_lined_up_cladograms_rbmi,
\r
1007 getOptions().getCladogramType() == CLADOGRAM_TYPE.NON_LINED_UP );
\r
1008 customizeRadioButtonMenuItem( _uniform_cladograms_rbmi,
\r
1009 getOptions().getCladogramType() == CLADOGRAM_TYPE.TOTAL_NODE_SUM_DEP );
\r
1010 customizeRadioButtonMenuItem( _ext_node_dependent_cladogram_rbmi,
\r
1011 getOptions().getCladogramType() == CLADOGRAM_TYPE.EXT_NODE_SUM_DEP );
\r
1012 customizeCheckBoxMenuItem( _show_overview_cbmi, getOptions().isShowOverview() );
\r
1013 customizeCheckBoxMenuItem( _label_direction_cbmi,
\r
1014 getOptions().getNodeLabelDirection() == NODE_LABEL_DIRECTION.RADIAL );
\r
1015 customizeCheckBoxMenuItem( _antialias_print_cbmi, getOptions().isAntialiasPrint() );
\r
1016 customizeCheckBoxMenuItem( _print_black_and_white_cbmi, getOptions().isPrintBlackAndWhite() );
\r
1017 customizeCheckBoxMenuItem( _internal_number_are_confidence_for_nh_parsing_cbmi, getOptions()
\r
1018 .isInternalNumberAreConfidenceForNhParsing() );
\r
1019 customizeRadioButtonMenuItem( _extract_taxonomy_no_rbmi,
\r
1020 getOptions().getTaxonomyExtraction() == TAXONOMY_EXTRACTION.NO );
\r
1021 customizeRadioButtonMenuItem( _extract_taxonomy_pfam_strict_rbmi,
\r
1022 getOptions().getTaxonomyExtraction() == TAXONOMY_EXTRACTION.PFAM_STYLE_STRICT );
\r
1023 customizeRadioButtonMenuItem( _extract_taxonomy_pfam_relaxed_rbmi,
\r
1024 getOptions().getTaxonomyExtraction() == TAXONOMY_EXTRACTION.PFAM_STYLE_RELAXED );
\r
1025 customizeRadioButtonMenuItem( _extract_taxonomy_agressive_rbmi,
\r
1026 getOptions().getTaxonomyExtraction() == TAXONOMY_EXTRACTION.AGGRESSIVE );
\r
1027 customizeCheckBoxMenuItem( _replace_underscores_cbmi, getOptions().isReplaceUnderscoresInNhParsing() );
\r
1028 customizeCheckBoxMenuItem( _allow_errors_in_distance_to_parent_cbmi, getOptions()
\r
1029 .isReplaceUnderscoresInNhParsing() );
\r
1030 customizeCheckBoxMenuItem( _search_with_regex_cbmi, getOptions().isSearchWithRegex() );
\r
1031 customizeCheckBoxMenuItem( _search_whole_words_only_cbmi, getOptions().isMatchWholeTermsOnly() );
\r
1032 customizeCheckBoxMenuItem( _inverse_search_result_cbmi, getOptions().isInverseSearchResult() );
\r
1033 customizeCheckBoxMenuItem( _graphics_export_visible_only_cbmi, getOptions().isGraphicsExportVisibleOnly() );
\r
1034 customizeCheckBoxMenuItem( _print_using_actual_size_cbmi, getOptions().isPrintUsingActualSize() );
\r
1035 customizeCheckBoxMenuItem( _graphics_export_using_actual_size_cbmi, getOptions()
\r
1036 .isGraphicsExportUsingActualSize() );
\r
1037 customizeCheckBoxMenuItem( _show_confidence_stddev_cbmi, getOptions().isShowConfidenceStddev() );
\r
1038 customizeCheckBoxMenuItem( _use_brackets_for_conf_in_nh_export_cbmi, getOptions()
\r
1039 .getNhConversionSupportValueStyle() == NH_CONVERSION_SUPPORT_VALUE_STYLE.IN_SQUARE_BRACKETS );
\r
1040 customizeCheckBoxMenuItem( _use_internal_names_for_conf_in_nh_export_cbmi, getOptions()
\r
1041 .getNhConversionSupportValueStyle() == NH_CONVERSION_SUPPORT_VALUE_STYLE.AS_INTERNAL_NODE_NAMES );
\r
1042 customizeCheckBoxMenuItem( _line_up_renderable_data_cbmi, getOptions().isLineUpRendarableNodeData() );
\r
1043 customizeCheckBoxMenuItem( _right_line_up_domains_cbmi, getOptions().isRightLineUpDomains() );
\r
1044 _jmenubar.add( _options_jmenu );
\r
1047 void buildPhylogeneticInferenceMenu() {
\r
1048 final InferenceManager im = getInferenceManager();
\r
1049 _inference_menu = MainFrame.createMenu( "Inference", getConfiguration() );
\r
1050 _inference_menu.add( _inference_from_msa_item = new JMenuItem( "From Multiple Sequence Alignment..." ) );
\r
1051 customizeJMenuItem( _inference_from_msa_item );
\r
1052 _inference_from_msa_item.setToolTipText( "Basic phylogenetic inference from MSA" );
\r
1053 if ( im.canDoMsa() ) {
\r
1054 _inference_menu.add( _inference_from_seqs_item = new JMenuItem( "From Unaligned Sequences..." ) );
\r
1055 customizeJMenuItem( _inference_from_seqs_item );
\r
1056 _inference_from_seqs_item
\r
1057 .setToolTipText( "Basic phylogenetic inference including multiple sequence alignment" );
\r
1061 .add( _inference_from_seqs_item = new JMenuItem( "From Unaligned Sequences (no program found)" ) );
\r
1062 customizeJMenuItem( _inference_from_seqs_item );
\r
1063 _inference_from_seqs_item.setEnabled( false );
\r
1065 _jmenubar.add( _inference_menu );
\r
1068 void buildToolsMenu() {
\r
1069 _tools_menu = createMenu( "Tools", getConfiguration() );
\r
1070 _tools_menu.add( _confcolor_item = new JMenuItem( "Colorize Branches Depending on Confidence" ) );
\r
1071 customizeJMenuItem( _confcolor_item );
\r
1072 _tools_menu.add( _color_rank_jmi = new JMenuItem( "Colorize Subtrees via Taxonomic Rank" ) );
\r
1073 customizeJMenuItem( _color_rank_jmi );
\r
1074 _color_rank_jmi.setToolTipText( "for example, at \"Class\" level, colorize mammal specific subtree red" );
\r
1075 _tools_menu.add( _taxcolor_item = new JMenuItem( "Taxonomy Colorize Branches" ) );
\r
1076 customizeJMenuItem( _taxcolor_item );
\r
1077 _tools_menu.addSeparator();
\r
1078 _tools_menu.add( _remove_visual_styles_item = new JMenuItem( "Delete All Visual Styles From Nodes" ) );
\r
1079 _remove_visual_styles_item
\r
1080 .setToolTipText( "To remove all node visual styles (fonts, colors) from the current phylogeny" );
\r
1081 customizeJMenuItem( _remove_visual_styles_item );
\r
1082 _tools_menu.add( _remove_branch_color_item = new JMenuItem( "Delete All Colors From Branches" ) );
\r
1083 _remove_branch_color_item.setToolTipText( "To remove all branch color values from the current phylogeny" );
\r
1084 customizeJMenuItem( _remove_branch_color_item );
\r
1085 _tools_menu.addSeparator();
\r
1086 _tools_menu.add( _annotate_item = new JMenuItem( "Annotate Sequences of Selected Nodes" ) );
\r
1087 customizeJMenuItem( _annotate_item );
\r
1088 _tools_menu.addSeparator();
\r
1089 _tools_menu.add( _midpoint_root_item = new JMenuItem( "Midpoint-Root" ) );
\r
1090 customizeJMenuItem( _midpoint_root_item );
\r
1091 _tools_menu.addSeparator();
\r
1092 _tools_menu.add( _delete_selected_nodes_item = new JMenuItem( "Delete Selected Nodes" ) );
\r
1093 _delete_selected_nodes_item.setToolTipText( "To delete all selected external nodes" );
\r
1094 customizeJMenuItem( _delete_selected_nodes_item );
\r
1095 _tools_menu.add( _delete_not_selected_nodes_item = new JMenuItem( "Retain Selected Nodes" ) );
\r
1096 _delete_not_selected_nodes_item.setToolTipText( "To delete all not selected external nodes" );
\r
1097 customizeJMenuItem( _delete_not_selected_nodes_item );
\r
1098 _tools_menu.addSeparator();
\r
1099 _tools_menu.add( _collapse_species_specific_subtrees = new JMenuItem( "Collapse Species-Specific Subtrees" ) );
\r
1100 customizeJMenuItem( _collapse_species_specific_subtrees );
\r
1101 _collapse_species_specific_subtrees.setToolTipText( "To (reversibly) collapse species-specific subtrees" );
\r
1103 .add( _collapse_below_threshold = new JMenuItem( "Collapse Branches with Confidence Below Threshold into Multifurcations" ) );
\r
1104 customizeJMenuItem( _collapse_below_threshold );
\r
1105 _collapse_below_threshold
\r
1106 .setToolTipText( "To (permanently) 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)" );
\r
1109 .add( _collapse_below_branch_length = new JMenuItem( "Collapse Branches with Branch Lengths Below Threshold into Multifurcations" ) );
\r
1110 customizeJMenuItem( _collapse_below_branch_length );
\r
1111 _collapse_below_branch_length
\r
1112 .setToolTipText( "To (permanently) collapse branches with branches with branch lengths below a threshold into multifurcations" );
\r
1114 _tools_menu.addSeparator();
\r
1116 .add( _extract_tax_code_from_node_names_jmi = new JMenuItem( "Extract Taxonomic Data from Node Names" ) );
\r
1117 customizeJMenuItem( _extract_tax_code_from_node_names_jmi );
\r
1118 _extract_tax_code_from_node_names_jmi
\r
1119 .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'" );
\r
1121 .add( _move_node_names_to_tax_sn_jmi = new JMenuItem( "Transfer Node Names to Taxonomic Scientific Names" ) );
\r
1122 customizeJMenuItem( _move_node_names_to_tax_sn_jmi );
\r
1123 _move_node_names_to_tax_sn_jmi.setToolTipText( "To interpret node names as taxonomic scientific names" );
\r
1124 _tools_menu.add( _move_node_names_to_seq_names_jmi = new JMenuItem( "Transfer Node Names to Sequence Names" ) );
\r
1125 customizeJMenuItem( _move_node_names_to_seq_names_jmi );
\r
1126 _move_node_names_to_seq_names_jmi.setToolTipText( "To interpret node names as sequence (protein, gene) names" );
\r
1127 _tools_menu.addSeparator();
\r
1128 _tools_menu.add( _obtain_seq_information_jmi = new JMenuItem( "Obtain Sequence Information" ) );
\r
1129 customizeJMenuItem( _obtain_seq_information_jmi );
\r
1130 _obtain_seq_information_jmi.setToolTipText( "To add additional sequence information" );
\r
1132 .add( _obtain_detailed_taxonomic_information_jmi = new JMenuItem( OBTAIN_DETAILED_TAXONOMIC_INFORMATION ) );
\r
1133 customizeJMenuItem( _obtain_detailed_taxonomic_information_jmi );
\r
1134 _obtain_detailed_taxonomic_information_jmi
\r
1135 .setToolTipText( "To add additional taxonomic information (from UniProt Taxonomy)" );
\r
1137 .add( _obtain_detailed_taxonomic_information_deleting_jmi = new JMenuItem( "Obtain Detailed Taxonomic Information (deletes nodes!)" ) );
\r
1138 customizeJMenuItem( _obtain_detailed_taxonomic_information_deleting_jmi );
\r
1139 _obtain_detailed_taxonomic_information_deleting_jmi
\r
1140 .setToolTipText( "To add additional taxonomic information, deletes nodes for which taxonomy cannot found (from UniProt Taxonomy)" );
\r
1141 _tools_menu.addSeparator();
\r
1142 _tools_menu.add( _read_values_jmi = new JMenuItem( "Attach Vector/Expression Values" ) );
\r
1143 customizeJMenuItem( _read_values_jmi );
\r
1144 _read_values_jmi.setToolTipText( "To attach vector (e.g. gene expression) values to tree nodes (beta)" );
\r
1145 _jmenubar.add( _tools_menu );
\r
1146 _tools_menu.add( _read_seqs_jmi = new JMenuItem( "Attach Molecular Sequences" ) );
\r
1147 customizeJMenuItem( _read_seqs_jmi );
\r
1149 .setToolTipText( "To attach molecular sequences to tree nodes (from Fasta-formatted file) (beta)" );
\r
1150 _jmenubar.add( _tools_menu );
\r
1155 if ( isUnsavedDataPresent() ) {
\r
1156 final int r = JOptionPane.showConfirmDialog( this,
\r
1157 "Exit despite potentially unsaved changes?",
\r
1159 JOptionPane.YES_NO_OPTION );
\r
1160 if ( r != JOptionPane.YES_OPTION ) {
\r
1167 void executeLineageInference() {
\r
1168 if ( ( _mainpanel.getCurrentPhylogeny() == null ) || ( _mainpanel.getCurrentPhylogeny().isEmpty() ) ) {
\r
1171 if ( !_mainpanel.getCurrentPhylogeny().isRooted() ) {
\r
1172 JOptionPane.showMessageDialog( this,
\r
1173 "Phylogeny is not rooted.",
\r
1174 "Cannot infer ancestral taxonomies",
\r
1175 JOptionPane.ERROR_MESSAGE );
\r
1178 final AncestralTaxonomyInferrer inferrer = new AncestralTaxonomyInferrer( this,
\r
1179 _mainpanel.getCurrentTreePanel(),
\r
1180 _mainpanel.getCurrentPhylogeny()
\r
1182 new Thread( inferrer ).start();
\r
1186 removeAllTextFrames();
\r
1187 _mainpanel.terminate();
\r
1188 _contentpane.removeAll();
\r
1189 setVisible( false );
\r
1191 // System.exit( 0 ); //TODO reconfirm that this is OK, then remove.
\r
1194 void readPhylogeniesFromURL() {
\r
1196 Phylogeny[] phys = null;
\r
1197 final String message = "Please enter a complete URL, for example \"http://purl.org/phylo/treebase/phylows/study/TB2:S15480?format=nexus\"";
\r
1198 final String url_string = JOptionPane.showInputDialog( this,
\r
1200 "Use URL/webservice to obtain a phylogeny",
\r
1201 JOptionPane.QUESTION_MESSAGE );
\r
1202 boolean nhx_or_nexus = false;
\r
1203 if ( ( url_string != null ) && ( url_string.length() > 0 ) ) {
\r
1205 url = new URL( url_string );
\r
1206 PhylogenyParser parser = null;
\r
1207 if ( url.getHost().toLowerCase().indexOf( "tolweb" ) >= 0 ) {
\r
1208 parser = new TolParser();
\r
1211 parser = ParserUtils.createParserDependingOnUrlContents( url, getConfiguration()
\r
1212 .isValidatePhyloXmlAgainstSchema() );
\r
1214 if ( parser instanceof NexusPhylogeniesParser ) {
\r
1215 nhx_or_nexus = true;
\r
1217 else if ( parser instanceof NHXParser ) {
\r
1218 nhx_or_nexus = true;
\r
1220 if ( _mainpanel.getCurrentTreePanel() != null ) {
\r
1221 _mainpanel.getCurrentTreePanel().setWaitCursor();
\r
1224 _mainpanel.setWaitCursor();
\r
1226 final PhylogenyFactory factory = ParserBasedPhylogenyFactory.getInstance();
\r
1227 phys = factory.create( url.openStream(), parser );
\r
1229 catch ( final MalformedURLException e ) {
\r
1230 JOptionPane.showMessageDialog( this,
\r
1231 "Malformed URL: " + url + "\n" + e.getLocalizedMessage(),
\r
1233 JOptionPane.ERROR_MESSAGE );
\r
1235 catch ( final IOException e ) {
\r
1236 JOptionPane.showMessageDialog( this,
\r
1237 "Could not read from " + url + "\n"
\r
1238 + ForesterUtil.wordWrap( e.getLocalizedMessage(), 80 ),
\r
1239 "Failed to read URL",
\r
1240 JOptionPane.ERROR_MESSAGE );
\r
1242 catch ( final Exception e ) {
\r
1243 JOptionPane.showMessageDialog( this,
\r
1244 ForesterUtil.wordWrap( e.getLocalizedMessage(), 80 ),
\r
1245 "Unexpected Exception",
\r
1246 JOptionPane.ERROR_MESSAGE );
\r
1249 if ( _mainpanel.getCurrentTreePanel() != null ) {
\r
1250 _mainpanel.getCurrentTreePanel().setArrowCursor();
\r
1253 _mainpanel.setArrowCursor();
\r
1256 if ( ( phys != null ) && ( phys.length > 0 ) ) {
\r
1257 if ( nhx_or_nexus && getOptions().isInternalNumberAreConfidenceForNhParsing() ) {
\r
1258 for( final Phylogeny phy : phys ) {
\r
1259 PhylogenyMethods.transferInternalNodeNamesToConfidence( phy, "" );
\r
1262 AptxUtil.addPhylogeniesToTabs( phys,
\r
1263 new File( url.getFile() ).getName(),
\r
1264 new File( url.getFile() ).toString(),
\r
1265 getConfiguration(),
\r
1267 _mainpanel.getControlPanel().showWhole();
\r
1270 activateSaveAllIfNeeded();
\r
1274 void setMsa( final Msa msa ) {
\r
1278 void setMsaFile( final File msa_file ) {
\r
1279 _msa_file = msa_file;
\r
1282 void setSeqs( final List<MolecularSequence> seqs ) {
\r
1286 void setSeqsFile( final File seqs_file ) {
\r
1287 _seqs_file = seqs_file;
\r
1290 void writePhylogenyToGraphicsFile( final String file_name, final GraphicsExportType type ) {
\r
1291 _mainpanel.getCurrentTreePanel().calcParametersForPainting( _mainpanel.getCurrentTreePanel().getWidth(),
\r
1292 _mainpanel.getCurrentTreePanel().getHeight() );
\r
1293 String file_written_to = "";
\r
1294 boolean error = false;
\r
1296 file_written_to = AptxUtil.writePhylogenyToGraphicsFile( file_name,
\r
1297 _mainpanel.getCurrentTreePanel().getWidth(),
\r
1298 _mainpanel.getCurrentTreePanel().getHeight(),
\r
1299 _mainpanel.getCurrentTreePanel(),
\r
1300 _mainpanel.getControlPanel(),
\r
1304 catch ( final IOException e ) {
\r
1306 JOptionPane.showMessageDialog( this, e.getMessage(), "Error", JOptionPane.ERROR_MESSAGE );
\r
1309 if ( ( file_written_to != null ) && ( file_written_to.length() > 0 ) ) {
\r
1310 JOptionPane.showMessageDialog( this,
\r
1311 "Wrote image to: " + file_written_to,
\r
1312 "Graphics Export",
\r
1313 JOptionPane.INFORMATION_MESSAGE );
\r
1316 JOptionPane.showMessageDialog( this,
\r
1317 "There was an unknown problem when attempting to write to an image file: \""
\r
1318 + file_name + "\"",
\r
1320 JOptionPane.ERROR_MESSAGE );
\r
1323 _contentpane.repaint();
\r
1326 private void addExpressionValuesFromFile() {
\r
1327 if ( ( getCurrentTreePanel() == null ) || ( getCurrentTreePanel().getPhylogeny() == null ) ) {
\r
1328 JOptionPane.showMessageDialog( this,
\r
1329 "Need to load evolutionary tree first",
\r
1330 "Can Not Read Expression Values",
\r
1331 JOptionPane.WARNING_MESSAGE );
\r
1334 final File my_dir = getCurrentDir();
\r
1335 if ( my_dir != null ) {
\r
1336 _values_filechooser.setCurrentDirectory( my_dir );
\r
1338 final int result = _values_filechooser.showOpenDialog( _contentpane );
\r
1339 final File file = _values_filechooser.getSelectedFile();
\r
1340 if ( ( file != null ) && ( file.length() > 0 ) && ( result == JFileChooser.APPROVE_OPTION ) ) {
\r
1341 BasicTable<String> t = null;
\r
1343 t = BasicTableParser.parse( file, '\t' );
\r
1344 if ( t.getNumberOfColumns() < 2 ) {
\r
1345 t = BasicTableParser.parse( file, ',' );
\r
1347 if ( t.getNumberOfColumns() < 2 ) {
\r
1348 t = BasicTableParser.parse( file, ' ' );
\r
1351 catch ( final IOException e ) {
\r
1352 JOptionPane.showMessageDialog( this,
\r
1354 "Could Not Read Expression Value Table",
\r
1355 JOptionPane.ERROR_MESSAGE );
\r
1358 if ( t.getNumberOfColumns() < 2 ) {
\r
1359 JOptionPane.showMessageDialog( this,
\r
1360 "Table contains " + t.getNumberOfColumns() + " column(s)",
\r
1361 "Problem with Expression Value Table",
\r
1362 JOptionPane.ERROR_MESSAGE );
\r
1365 if ( t.getNumberOfRows() < 1 ) {
\r
1366 JOptionPane.showMessageDialog( this,
\r
1367 "Table contains zero rows",
\r
1368 "Problem with Expression Value Table",
\r
1369 JOptionPane.ERROR_MESSAGE );
\r
1372 final Phylogeny phy = getCurrentTreePanel().getPhylogeny();
\r
1373 if ( t.getNumberOfRows() != phy.getNumberOfExternalNodes() ) {
\r
1374 JOptionPane.showMessageDialog( this,
\r
1375 "Table contains " + t.getNumberOfRows() + " rows, but tree contains "
\r
1376 + phy.getNumberOfExternalNodes() + " external nodes",
\r
1378 JOptionPane.WARNING_MESSAGE );
\r
1380 final DescriptiveStatistics stats = new BasicDescriptiveStatistics();
\r
1381 int not_found = 0;
\r
1382 for( final PhylogenyNodeIterator iter = phy.iteratorPreorder(); iter.hasNext(); ) {
\r
1383 final PhylogenyNode node = iter.next();
\r
1384 final String node_name = node.getName();
\r
1385 if ( !ForesterUtil.isEmpty( node_name ) ) {
\r
1388 row = t.findRow( node_name );
\r
1390 catch ( final IllegalArgumentException e ) {
\r
1392 .showMessageDialog( this,
\r
1394 "Error Mapping Node Identifiers to Expression Value Identifiers",
\r
1395 JOptionPane.ERROR_MESSAGE );
\r
1399 if ( node.isExternal() ) {
\r
1404 final List<Double> l = new ArrayList<Double>();
\r
1405 for( int col = 1; col < t.getNumberOfColumns(); ++col ) {
\r
1408 d = Double.parseDouble( t.getValueAsString( col, row ) );
\r
1410 catch ( final NumberFormatException e ) {
\r
1411 JOptionPane.showMessageDialog( this,
\r
1412 "Could not parse \"" + t.getValueAsString( col, row )
\r
1413 + "\" into a decimal value",
\r
1414 "Issue with Expression Value Table",
\r
1415 JOptionPane.ERROR_MESSAGE );
\r
1418 stats.addValue( d );
\r
1421 if ( !l.isEmpty() ) {
\r
1422 if ( node.getNodeData().getProperties() != null ) {
\r
1423 node.getNodeData().getProperties()
\r
1424 .removePropertiesWithGivenReferencePrefix( PhyloXmlUtil.VECTOR_PROPERTY_REF );
\r
1426 node.getNodeData().setVector( l );
\r
1430 if ( not_found > 0 ) {
\r
1431 JOptionPane.showMessageDialog( this, "Could not fine expression values for " + not_found
\r
1432 + " external node(s)", "Warning", JOptionPane.WARNING_MESSAGE );
\r
1434 getCurrentTreePanel().setStatisticsForExpressionValues( stats );
\r
1438 private void addSequencesFromFile() {
\r
1439 if ( ( getCurrentTreePanel() == null ) || ( getCurrentTreePanel().getPhylogeny() == null ) ) {
\r
1440 JOptionPane.showMessageDialog( this,
\r
1441 "Need to load evolutionary tree first",
\r
1442 "Can Not Read Sequences",
\r
1443 JOptionPane.WARNING_MESSAGE );
\r
1446 final File my_dir = getCurrentDir();
\r
1447 if ( my_dir != null ) {
\r
1448 _sequences_filechooser.setCurrentDirectory( my_dir );
\r
1450 final int result = _sequences_filechooser.showOpenDialog( _contentpane );
\r
1451 final File file = _sequences_filechooser.getSelectedFile();
\r
1452 List<MolecularSequence> seqs = null;
\r
1453 if ( ( file != null ) && !file.isDirectory() && ( result == JFileChooser.APPROVE_OPTION ) ) {
\r
1455 if ( FastaParser.isLikelyFasta( new FileInputStream( file ) ) ) {
\r
1456 seqs = FastaParser.parse( new FileInputStream( file ) );
\r
1459 JOptionPane.showMessageDialog( this,
\r
1460 "Format does not appear to be Fasta",
\r
1461 "Multiple sequence file format error",
\r
1462 JOptionPane.ERROR_MESSAGE );
\r
1466 catch ( final MsaFormatException e ) {
\r
1468 JOptionPane.showMessageDialog( this,
\r
1469 e.getLocalizedMessage(),
\r
1470 "Multiple sequence file format error",
\r
1471 JOptionPane.ERROR_MESSAGE );
\r
1474 catch ( final IOException e ) {
\r
1476 JOptionPane.showMessageDialog( this,
\r
1477 e.getLocalizedMessage(),
\r
1478 "Failed to read multiple sequence file",
\r
1479 JOptionPane.ERROR_MESSAGE );
\r
1482 catch ( final Exception e ) {
\r
1484 e.printStackTrace();
\r
1485 JOptionPane.showMessageDialog( this,
\r
1486 e.getLocalizedMessage(),
\r
1487 "Unexpected error during reading of multiple sequence file",
\r
1488 JOptionPane.ERROR_MESSAGE );
\r
1491 if ( ( seqs == null ) || ( seqs.size() < 1 ) ) {
\r
1492 JOptionPane.showMessageDialog( this,
\r
1493 "Multiple sequence file is empty",
\r
1494 "Empty multiple sequence file",
\r
1495 JOptionPane.ERROR_MESSAGE );
\r
1500 if ( seqs != null ) {
\r
1501 for( final MolecularSequence seq : seqs ) {
\r
1502 System.out.println( seq.getIdentifier() );
\r
1504 final Phylogeny phy = getCurrentTreePanel().getPhylogeny();
\r
1505 int total_counter = 0;
\r
1506 int attached_counter = 0;
\r
1507 for( final MolecularSequence seq : seqs ) {
\r
1509 final String seq_name = seq.getIdentifier();
\r
1510 if ( !ForesterUtil.isEmpty( seq_name ) ) {
\r
1511 List<PhylogenyNode> nodes = phy.getNodesViaSequenceName( seq_name );
\r
1512 if ( nodes.isEmpty() ) {
\r
1513 nodes = phy.getNodesViaSequenceSymbol( seq_name );
\r
1515 if ( nodes.isEmpty() ) {
\r
1516 nodes = phy.getNodesViaGeneName( seq_name );
\r
1518 if ( nodes.isEmpty() ) {
\r
1519 nodes = phy.getNodes( seq_name );
\r
1521 if ( nodes.size() > 1 ) {
\r
1522 JOptionPane.showMessageDialog( this,
\r
1523 "Sequence name \"" + seq_name + "\" is not unique",
\r
1524 "Sequence name not unique",
\r
1525 JOptionPane.ERROR_MESSAGE );
\r
1529 final String[] a = seq_name.split( "\\s" );
\r
1530 if ( nodes.isEmpty() && ( a.length > 1 ) ) {
\r
1531 final String seq_name_split = a[ 0 ];
\r
1532 nodes = phy.getNodesViaSequenceName( seq_name_split );
\r
1533 if ( nodes.isEmpty() ) {
\r
1534 nodes = phy.getNodesViaSequenceSymbol( seq_name_split );
\r
1536 if ( nodes.isEmpty() ) {
\r
1537 nodes = phy.getNodes( seq_name_split );
\r
1539 if ( nodes.size() > 1 ) {
\r
1540 JOptionPane.showMessageDialog( this, "Split sequence name \"" + seq_name_split
\r
1541 + "\" is not unique", "Sequence name not unique", JOptionPane.ERROR_MESSAGE );
\r
1546 if ( nodes.size() == 1 ) {
\r
1547 ++attached_counter;
\r
1548 final PhylogenyNode n = nodes.get( 0 );
\r
1549 if ( !n.getNodeData().isHasSequence() ) {
\r
1550 n.getNodeData().addSequence( new org.forester.phylogeny.data.Sequence() );
\r
1552 n.getNodeData().getSequence().setMolecularSequence( seq.getMolecularSequenceAsString() );
\r
1553 if ( ForesterUtil.isEmpty( n.getNodeData().getSequence().getName() ) ) {
\r
1554 n.getNodeData().getSequence().setName( seq_name );
\r
1559 if ( attached_counter > 0 ) {
\r
1560 int ext_nodes = 0;
\r
1561 int ext_nodes_with_seq = 0;
\r
1562 for( final PhylogenyNodeIterator iter = phy.iteratorExternalForward(); iter.hasNext(); ) {
\r
1564 final PhylogenyNode n = iter.next();
\r
1565 if ( n.getNodeData().isHasSequence()
\r
1566 && !ForesterUtil.isEmpty( n.getNodeData().getSequence().getMolecularSequence() ) ) {
\r
1567 ++ext_nodes_with_seq;
\r
1571 if ( ext_nodes == ext_nodes_with_seq ) {
\r
1572 s = "All " + ext_nodes_with_seq + " external nodes now have a molecular sequence attached to them.";
\r
1575 s = ext_nodes_with_seq + " out of " + ext_nodes
\r
1576 + " external nodes now have a molecular sequence attached to them.";
\r
1578 if ( ( attached_counter == total_counter ) && ( ext_nodes == ext_nodes_with_seq ) ) {
\r
1579 JOptionPane.showMessageDialog( this,
\r
1580 "Attached all " + total_counter + " sequences to tree nodes.\n" + s,
\r
1581 "All sequences attached",
\r
1582 JOptionPane.INFORMATION_MESSAGE );
\r
1585 JOptionPane.showMessageDialog( this, "Attached " + attached_counter
\r
1586 + " sequences out of a total of " + total_counter + " sequences.\n" + s, attached_counter
\r
1587 + " sequences attached", JOptionPane.WARNING_MESSAGE );
\r
1591 JOptionPane.showMessageDialog( this, "No maching tree node for any of the " + total_counter
\r
1592 + " sequences", "Could not attach any sequences", JOptionPane.ERROR_MESSAGE );
\r
1597 private void choosePdfWidth() {
\r
1598 final String s = ( String ) JOptionPane.showInputDialog( this,
\r
1599 "Please enter the default line width for PDF export.\n"
\r
1600 + "[current value: "
\r
1601 + getOptions().getPrintLineWidth() + "]\n",
\r
1602 "Line Width for PDF Export",
\r
1603 JOptionPane.QUESTION_MESSAGE,
\r
1606 getOptions().getPrintLineWidth() );
\r
1607 if ( !ForesterUtil.isEmpty( s ) ) {
\r
1608 boolean success = true;
\r
1610 final String m_str = s.trim();
\r
1611 if ( !ForesterUtil.isEmpty( m_str ) ) {
\r
1613 f = Float.parseFloat( m_str );
\r
1615 catch ( final Exception ex ) {
\r
1622 if ( success && ( f > 0.0 ) ) {
\r
1623 getOptions().setPrintLineWidth( f );
\r
1628 private void choosePrintSize() {
\r
1629 final String s = ( String ) JOptionPane.showInputDialog( this,
\r
1630 "Please enter values for width and height,\nseparated by a comma.\n"
\r
1631 + "[current values: "
\r
1632 + getOptions().getPrintSizeX() + ", "
\r
1633 + getOptions().getPrintSizeY() + "]\n"
\r
1634 + "[A4: " + Constants.A4_SIZE_X + ", "
\r
1635 + Constants.A4_SIZE_Y + "]\n" + "[US Letter: "
\r
1636 + Constants.US_LETTER_SIZE_X + ", "
\r
1637 + Constants.US_LETTER_SIZE_Y + "]",
\r
1638 "Default Size for Graphics Export",
\r
1639 JOptionPane.QUESTION_MESSAGE,
\r
1642 getOptions().getPrintSizeX() + ", "
\r
1643 + getOptions().getPrintSizeY() );
\r
1644 if ( !ForesterUtil.isEmpty( s ) && ( s.indexOf( ',' ) > 0 ) ) {
\r
1645 boolean success = true;
\r
1648 final String[] str_ary = s.split( "," );
\r
1649 if ( str_ary.length == 2 ) {
\r
1650 final String x_str = str_ary[ 0 ].trim();
\r
1651 final String y_str = str_ary[ 1 ].trim();
\r
1652 if ( !ForesterUtil.isEmpty( x_str ) && !ForesterUtil.isEmpty( y_str ) ) {
\r
1654 x = Integer.parseInt( x_str );
\r
1655 y = Integer.parseInt( y_str );
\r
1657 catch ( final Exception ex ) {
\r
1668 if ( success && ( x > 1 ) && ( y > 1 ) ) {
\r
1669 getOptions().setPrintSizeX( x );
\r
1670 getOptions().setPrintSizeY( y );
\r
1675 private void closeCurrentPane() {
\r
1676 if ( getMainPanel().getCurrentTreePanel() != null ) {
\r
1677 if ( getMainPanel().getCurrentTreePanel().isEdited() ) {
\r
1678 final int r = JOptionPane.showConfirmDialog( this,
\r
1679 "Close tab despite potentially unsaved changes?",
\r
1681 JOptionPane.YES_NO_OPTION );
\r
1682 if ( r != JOptionPane.YES_OPTION ) {
\r
1686 getMainPanel().closeCurrentPane();
\r
1687 activateSaveAllIfNeeded();
\r
1691 private void collapseBl( final Phylogeny phy ) {
\r
1692 final PhylogenyNodeIterator it = phy.iteratorPostorder();
\r
1693 final List<PhylogenyNode> to_be_removed = new ArrayList<PhylogenyNode>();
\r
1694 double min_bl = Double.MAX_VALUE;
\r
1695 boolean bl_present = false;
\r
1696 while ( it.hasNext() ) {
\r
1697 final PhylogenyNode n = it.next();
\r
1698 if ( !n.isExternal() && !n.isRoot() ) {
\r
1699 final double bl = n.getDistanceToParent();
\r
1700 if ( bl != PhylogenyDataUtil.BRANCH_LENGTH_DEFAULT ) {
\r
1701 bl_present = true;
\r
1702 if ( bl < getMinNotCollapseBlValue() ) {
\r
1703 to_be_removed.add( n );
\r
1705 if ( bl < min_bl ) {
\r
1711 if ( bl_present ) {
\r
1712 for( final PhylogenyNode node : to_be_removed ) {
\r
1713 PhylogenyMethods.removeNode( node, phy );
\r
1715 if ( to_be_removed.size() > 0 ) {
\r
1716 phy.externalNodesHaveChanged();
\r
1717 phy.clearHashIdToNodeMap();
\r
1718 phy.recalculateNumberOfExternalDescendants( true );
\r
1719 getCurrentTreePanel().resetNodeIdToDistToLeafMap();
\r
1720 getCurrentTreePanel().updateSetOfCollapsedExternalNodes();
\r
1721 getCurrentTreePanel().calculateLongestExtNodeInfo();
\r
1722 getCurrentTreePanel().setNodeInPreorderToNull();
\r
1723 getCurrentTreePanel().recalculateMaxDistanceToRoot();
\r
1724 getCurrentTreePanel().resetPreferredSize();
\r
1725 getCurrentTreePanel().setEdited( true );
\r
1726 getCurrentTreePanel().repaint();
\r
1729 if ( to_be_removed.size() > 0 ) {
\r
1730 JOptionPane.showMessageDialog( this, "Collapsed " + to_be_removed.size()
\r
1731 + " branches with\nbranch length values below " + getMinNotCollapseBlValue(), "Collapsed "
\r
1732 + to_be_removed.size() + " branches", JOptionPane.INFORMATION_MESSAGE );
\r
1735 JOptionPane.showMessageDialog( this,
\r
1736 "No branch collapsed,\nminimum branch length is " + min_bl,
\r
1737 "No branch collapsed",
\r
1738 JOptionPane.INFORMATION_MESSAGE );
\r
1742 JOptionPane.showMessageDialog( this,
\r
1743 "No branch collapsed because no branch length values present",
\r
1744 "No branch length values present",
\r
1745 JOptionPane.INFORMATION_MESSAGE );
\r
1749 private void collapse( final Phylogeny phy ) {
\r
1750 final PhylogenyNodeIterator it = phy.iteratorPostorder();
\r
1751 final List<PhylogenyNode> to_be_removed = new ArrayList<PhylogenyNode>();
\r
1752 double min_support = Double.MAX_VALUE;
\r
1753 boolean conf_present = false;
\r
1754 while ( it.hasNext() ) {
\r
1755 final PhylogenyNode n = it.next();
\r
1756 if ( !n.isExternal() && !n.isRoot() ) {
\r
1757 final List<Confidence> c = n.getBranchData().getConfidences();
\r
1758 if ( ( c != null ) && ( c.size() > 0 ) ) {
\r
1759 conf_present = true;
\r
1761 for( final Confidence confidence : c ) {
\r
1762 if ( confidence.getValue() > max ) {
\r
1763 max = confidence.getValue();
\r
1766 if ( max < getMinNotCollapseConfidenceValue() ) {
\r
1767 to_be_removed.add( n );
\r
1769 if ( max < min_support ) {
\r
1770 min_support = max;
\r
1775 if ( conf_present ) {
\r
1776 for( final PhylogenyNode node : to_be_removed ) {
\r
1777 PhylogenyMethods.removeNode( node, phy );
\r
1779 if ( to_be_removed.size() > 0 ) {
\r
1780 phy.externalNodesHaveChanged();
\r
1781 phy.clearHashIdToNodeMap();
\r
1782 phy.recalculateNumberOfExternalDescendants( true );
\r
1783 getCurrentTreePanel().resetNodeIdToDistToLeafMap();
\r
1784 getCurrentTreePanel().updateSetOfCollapsedExternalNodes();
\r
1785 getCurrentTreePanel().calculateLongestExtNodeInfo();
\r
1786 getCurrentTreePanel().setNodeInPreorderToNull();
\r
1787 getCurrentTreePanel().recalculateMaxDistanceToRoot();
\r
1788 getCurrentTreePanel().resetPreferredSize();
\r
1789 getCurrentTreePanel().setEdited( true );
\r
1790 getCurrentTreePanel().repaint();
\r
1793 if ( to_be_removed.size() > 0 ) {
\r
1794 JOptionPane.showMessageDialog( this, "Collapsed " + to_be_removed.size()
\r
1795 + " branches with\nconfidence values below " + getMinNotCollapseConfidenceValue(), "Collapsed "
\r
1796 + to_be_removed.size() + " branches", JOptionPane.INFORMATION_MESSAGE );
\r
1799 JOptionPane.showMessageDialog( this, "No branch collapsed,\nminimum confidence value per branch is "
\r
1800 + min_support, "No branch collapsed", JOptionPane.INFORMATION_MESSAGE );
\r
1804 JOptionPane.showMessageDialog( this,
\r
1805 "No branch collapsed because no confidence values present",
\r
1806 "No confidence values present",
\r
1807 JOptionPane.INFORMATION_MESSAGE );
\r
1811 private void collapseBelowThreshold() {
\r
1812 if ( getCurrentTreePanel() != null ) {
\r
1813 final Phylogeny phy = getCurrentTreePanel().getPhylogeny();
\r
1814 if ( ( phy != null ) && !phy.isEmpty() ) {
\r
1815 final String s = ( String ) JOptionPane.showInputDialog( this,
\r
1816 "Please enter the minimum confidence value\n",
\r
1817 "Minimal Confidence Value",
\r
1818 JOptionPane.QUESTION_MESSAGE,
\r
1821 getMinNotCollapseConfidenceValue() );
\r
1822 if ( !ForesterUtil.isEmpty( s ) ) {
\r
1823 boolean success = true;
\r
1825 final String m_str = s.trim();
\r
1826 if ( !ForesterUtil.isEmpty( m_str ) ) {
\r
1828 m = Double.parseDouble( m_str );
\r
1830 catch ( final Exception ex ) {
\r
1837 if ( success && ( m >= 0.0 ) ) {
\r
1838 setMinNotCollapseConfidenceValue( m );
\r
1846 private void collapseBelowBranchLengthThreshold() {
\r
1847 if ( getCurrentTreePanel() != null ) {
\r
1848 final Phylogeny phy = getCurrentTreePanel().getPhylogeny();
\r
1849 if ( ( phy != null ) && !phy.isEmpty() ) {
\r
1850 final String s = ( String ) JOptionPane
\r
1851 .showInputDialog( this,
\r
1852 "Please enter the minimum branch length value\n",
\r
1853 "Minimal Branch Length Value",
\r
1854 JOptionPane.QUESTION_MESSAGE,
\r
1857 getMinNotCollapseBlValue() );
\r
1858 if ( !ForesterUtil.isEmpty( s ) ) {
\r
1859 boolean success = true;
\r
1861 final String m_str = s.trim();
\r
1862 if ( !ForesterUtil.isEmpty( m_str ) ) {
\r
1864 m = Double.parseDouble( m_str );
\r
1866 catch ( final Exception ex ) {
\r
1873 if ( success && ( m >= 0.0 ) ) {
\r
1874 setMinNotCollapseBlValue( m );
\r
1875 collapseBl( phy );
\r
1882 private PhyloXmlParser createPhyloXmlParser() {
\r
1883 PhyloXmlParser xml_parser = null;
\r
1884 if ( getConfiguration().isValidatePhyloXmlAgainstSchema() ) {
\r
1886 xml_parser = PhyloXmlParser.createPhyloXmlParserXsdValidating();
\r
1888 catch ( final Exception e ) {
\r
1889 JOptionPane.showMessageDialog( this,
\r
1890 e.getLocalizedMessage(),
\r
1891 "failed to create validating XML parser",
\r
1892 JOptionPane.WARNING_MESSAGE );
\r
1895 if ( xml_parser == null ) {
\r
1896 xml_parser = PhyloXmlParser.createPhyloXmlParser();
\r
1898 return xml_parser;
\r
1901 private void executePhyleneticInference( final boolean from_unaligned_seqs ) {
\r
1902 final PhyloInferenceDialog dialog = new PhyloInferenceDialog( this,
\r
1903 getPhylogeneticInferenceOptions(),
\r
1904 from_unaligned_seqs );
\r
1905 dialog.activate();
\r
1906 if ( dialog.getValue() == JOptionPane.OK_OPTION ) {
\r
1907 if ( !from_unaligned_seqs ) {
\r
1908 if ( getMsa() != null ) {
\r
1909 final PhylogeneticInferrer inferrer = new PhylogeneticInferrer( getMsa(),
\r
1910 getPhylogeneticInferenceOptions()
\r
1912 new Thread( inferrer ).start();
\r
1915 JOptionPane.showMessageDialog( this,
\r
1916 "No multiple sequence alignment selected",
\r
1917 "Phylogenetic Inference Not Launched",
\r
1918 JOptionPane.WARNING_MESSAGE );
\r
1922 if ( getSeqs() != null ) {
\r
1923 final PhylogeneticInferrer inferrer = new PhylogeneticInferrer( getSeqs(),
\r
1924 getPhylogeneticInferenceOptions()
\r
1926 new Thread( inferrer ).start();
\r
1929 JOptionPane.showMessageDialog( this,
\r
1930 "No input sequences selected",
\r
1931 "Phylogenetic Inference Not Launched",
\r
1932 JOptionPane.WARNING_MESSAGE );
\r
1938 private void extractTaxDataFromNodeNames() throws PhyloXmlDataFormatException {
\r
1939 final StringBuilder sb = new StringBuilder();
\r
1940 final StringBuilder sb_failed = new StringBuilder();
\r
1942 int counter_failed = 0;
\r
1943 if ( getCurrentTreePanel() != null ) {
\r
1944 final Phylogeny phy = getCurrentTreePanel().getPhylogeny();
\r
1945 if ( ( phy != null ) && !phy.isEmpty() ) {
\r
1946 final PhylogenyNodeIterator it = phy.iteratorExternalForward();
\r
1947 while ( it.hasNext() ) {
\r
1948 final PhylogenyNode n = it.next();
\r
1949 final String name = n.getName().trim();
\r
1950 if ( !ForesterUtil.isEmpty( name ) ) {
\r
1951 final String nt = ParserUtils.extractTaxonomyDataFromNodeName( n,
\r
1952 TAXONOMY_EXTRACTION.AGGRESSIVE );
\r
1953 if ( !ForesterUtil.isEmpty( nt ) ) {
\r
1954 if ( counter < 15 ) {
\r
1955 sb.append( name + ": " + nt + "\n" );
\r
1957 else if ( counter == 15 ) {
\r
1958 sb.append( "...\n" );
\r
1963 if ( counter_failed < 15 ) {
\r
1964 sb_failed.append( name + "\n" );
\r
1966 else if ( counter_failed == 15 ) {
\r
1967 sb_failed.append( "...\n" );
\r
1973 if ( counter > 0 ) {
\r
1974 String failed = "";
\r
1975 String all = "all ";
\r
1976 if ( counter_failed > 0 ) {
\r
1978 failed = "\nCould not extract taxonomic data for " + counter_failed
\r
1979 + " named external nodes:\n" + sb_failed;
\r
1981 JOptionPane.showMessageDialog( this,
\r
1982 "Extracted taxonomic data from " + all + counter
\r
1983 + " named external nodes:\n" + sb.toString() + failed,
\r
1984 "Taxonomic Data Extraction Completed",
\r
1985 counter_failed > 0 ? JOptionPane.WARNING_MESSAGE
\r
1986 : JOptionPane.INFORMATION_MESSAGE );
\r
1990 .showMessageDialog( this,
\r
1991 "Could not extract any taxonomic data.\nMaybe node names are empty\n"
\r
1992 + "or not in the forms \"XYZ_CAEEL\", \"XYZ_6239\", or \"XYZ_Caenorhabditis_elegans\"\n"
\r
1993 + "or nodes already have taxonomic data?\n",
\r
1994 "No Taxonomic Data Extracted",
\r
1995 JOptionPane.ERROR_MESSAGE );
\r
2004 private double getMinNotCollapseConfidenceValue() {
\r
2005 return _min_not_collapse;
\r
2008 private double getMinNotCollapseBlValue() {
\r
2009 return _min_not_collapse_bl;
\r
2012 private PhylogeneticInferenceOptions getPhylogeneticInferenceOptions() {
\r
2013 if ( _phylogenetic_inference_options == null ) {
\r
2014 _phylogenetic_inference_options = new PhylogeneticInferenceOptions();
\r
2016 return _phylogenetic_inference_options;
\r
2019 private boolean isUnsavedDataPresent() {
\r
2020 final List<TreePanel> tps = getMainPanel().getTreePanels();
\r
2021 for( final TreePanel tp : tps ) {
\r
2022 if ( tp.isEdited() ) {
\r
2029 private void moveNodeNamesToSeqNames() throws PhyloXmlDataFormatException {
\r
2030 if ( getCurrentTreePanel() != null ) {
\r
2031 final Phylogeny phy = getCurrentTreePanel().getPhylogeny();
\r
2032 if ( ( phy != null ) && !phy.isEmpty() ) {
\r
2034 .transferNodeNameToField( phy, PhylogenyMethods.PhylogenyNodeField.SEQUENCE_NAME, false );
\r
2039 private void moveNodeNamesToTaxSn() throws PhyloXmlDataFormatException {
\r
2040 if ( getCurrentTreePanel() != null ) {
\r
2041 final Phylogeny phy = getCurrentTreePanel().getPhylogeny();
\r
2042 if ( ( phy != null ) && !phy.isEmpty() ) {
\r
2043 PhylogenyMethods.transferNodeNameToField( phy,
\r
2044 PhylogenyMethods.PhylogenyNodeField.TAXONOMY_SCIENTIFIC_NAME,
\r
2050 private void newTree() {
\r
2051 final Phylogeny[] phys = new Phylogeny[ 1 ];
\r
2052 final Phylogeny phy = new Phylogeny();
\r
2053 final PhylogenyNode node = new PhylogenyNode();
\r
2054 phy.setRoot( node );
\r
2055 phy.setRooted( true );
\r
2057 AptxUtil.addPhylogeniesToTabs( phys, "", "", getConfiguration(), getMainPanel() );
\r
2058 _mainpanel.getControlPanel().showWhole();
\r
2059 _mainpanel.getCurrentTreePanel().setPhylogenyGraphicsType( PHYLOGENY_GRAPHICS_TYPE.RECTANGULAR );
\r
2060 _mainpanel.getOptions().setPhylogenyGraphicsType( PHYLOGENY_GRAPHICS_TYPE.RECTANGULAR );
\r
2061 if ( getMainPanel().getMainFrame() == null ) {
\r
2062 // Must be "E" applet version.
\r
2063 ( ( ArchaeopteryxE ) ( ( MainPanelApplets ) getMainPanel() ).getApplet() )
\r
2064 .setSelectedTypeInTypeMenu( PHYLOGENY_GRAPHICS_TYPE.RECTANGULAR );
\r
2067 getMainPanel().getMainFrame().setSelectedTypeInTypeMenu( PHYLOGENY_GRAPHICS_TYPE.RECTANGULAR );
\r
2069 activateSaveAllIfNeeded();
\r
2073 private void obtainDetailedTaxonomicInformation() {
\r
2074 if ( getCurrentTreePanel() != null ) {
\r
2075 final Phylogeny phy = getCurrentTreePanel().getPhylogeny();
\r
2076 if ( ( phy != null ) && !phy.isEmpty() ) {
\r
2077 final TaxonomyDataManager t = new TaxonomyDataManager( this,
\r
2078 _mainpanel.getCurrentTreePanel(),
\r
2082 new Thread( t ).start();
\r
2087 private void obtainDetailedTaxonomicInformationDelete() {
\r
2088 if ( getCurrentTreePanel() != null ) {
\r
2089 final Phylogeny phy = getCurrentTreePanel().getPhylogeny();
\r
2090 if ( ( phy != null ) && !phy.isEmpty() ) {
\r
2091 final TaxonomyDataManager t = new TaxonomyDataManager( this,
\r
2092 _mainpanel.getCurrentTreePanel(),
\r
2096 new Thread( t ).start();
\r
2101 private void obtainSequenceInformation() {
\r
2102 if ( getCurrentTreePanel() != null ) {
\r
2103 final Phylogeny phy = getCurrentTreePanel().getPhylogeny();
\r
2104 if ( ( phy != null ) && !phy.isEmpty() ) {
\r
2105 final SequenceDataRetriver u = new SequenceDataRetriver( this,
\r
2106 _mainpanel.getCurrentTreePanel(),
\r
2108 new Thread( u ).start();
\r
2113 private void print() {
\r
2114 if ( ( getCurrentTreePanel() == null ) || ( getCurrentTreePanel().getPhylogeny() == null )
\r
2115 || getCurrentTreePanel().getPhylogeny().isEmpty() ) {
\r
2118 if ( !getOptions().isPrintUsingActualSize() ) {
\r
2119 getCurrentTreePanel().calcParametersForPainting( getOptions().getPrintSizeX() - 80,
\r
2120 getOptions().getPrintSizeY() - 140 );
\r
2121 getCurrentTreePanel().resetPreferredSize();
\r
2122 getCurrentTreePanel().repaint();
\r
2124 final String job_name = Constants.PRG_NAME;
\r
2125 boolean error = false;
\r
2126 String printer_name = null;
\r
2128 printer_name = Printer.print( getCurrentTreePanel(), job_name );
\r
2130 catch ( final Exception e ) {
\r
2132 JOptionPane.showMessageDialog( this, e.getMessage(), "Printing Error", JOptionPane.ERROR_MESSAGE );
\r
2134 if ( !error && ( printer_name != null ) ) {
\r
2135 String msg = "Printing data sent to printer";
\r
2136 if ( printer_name.length() > 1 ) {
\r
2137 msg += " [" + printer_name + "]";
\r
2139 JOptionPane.showMessageDialog( this, msg, "Printing...", JOptionPane.INFORMATION_MESSAGE );
\r
2141 if ( !getOptions().isPrintUsingActualSize() ) {
\r
2142 getControlPanel().showWhole();
\r
2148 private void readPhylogeniesFromFile() {
\r
2149 boolean exception = false;
\r
2150 Phylogeny[] phys = null;
\r
2151 // Set an initial directory if none set yet
\r
2152 final File my_dir = getCurrentDir();
\r
2153 _open_filechooser.setMultiSelectionEnabled( true );
\r
2154 // Open file-open dialog and set current directory
\r
2155 if ( my_dir != null ) {
\r
2156 _open_filechooser.setCurrentDirectory( my_dir );
\r
2158 final int result = _open_filechooser.showOpenDialog( _contentpane );
\r
2159 // All done: get the file
\r
2160 final File[] files = _open_filechooser.getSelectedFiles();
\r
2161 setCurrentDir( _open_filechooser.getCurrentDirectory() );
\r
2162 boolean nhx_or_nexus = false;
\r
2163 if ( ( files != null ) && ( files.length > 0 ) && ( result == JFileChooser.APPROVE_OPTION ) ) {
\r
2164 for( final File file : files ) {
\r
2165 if ( ( file != null ) && !file.isDirectory() ) {
\r
2166 if ( _mainpanel.getCurrentTreePanel() != null ) {
\r
2167 _mainpanel.getCurrentTreePanel().setWaitCursor();
\r
2170 _mainpanel.setWaitCursor();
\r
2172 if ( ( _open_filechooser.getFileFilter() == MainFrameApplication.nhfilter )
\r
2173 || ( _open_filechooser.getFileFilter() == MainFrameApplication.nhxfilter ) ) {
\r
2175 final NHXParser nhx = new NHXParser();
\r
2176 setSpecialOptionsForNhxParser( nhx );
\r
2177 phys = PhylogenyMethods.readPhylogenies( nhx, file );
\r
2178 nhx_or_nexus = true;
\r
2180 catch ( final Exception e ) {
\r
2182 exceptionOccuredDuringOpenFile( e );
\r
2185 else if ( _open_filechooser.getFileFilter() == MainFrameApplication.xmlfilter ) {
\r
2186 warnIfNotPhyloXmlValidation( getConfiguration() );
\r
2188 final PhyloXmlParser xml_parser = createPhyloXmlParser();
\r
2189 phys = PhylogenyMethods.readPhylogenies( xml_parser, file );
\r
2191 catch ( final Exception e ) {
\r
2193 exceptionOccuredDuringOpenFile( e );
\r
2196 else if ( _open_filechooser.getFileFilter() == MainFrameApplication.tolfilter ) {
\r
2198 phys = PhylogenyMethods.readPhylogenies( new TolParser(), file );
\r
2200 catch ( final Exception e ) {
\r
2202 exceptionOccuredDuringOpenFile( e );
\r
2205 else if ( _open_filechooser.getFileFilter() == MainFrameApplication.nexusfilter ) {
\r
2207 final NexusPhylogeniesParser nex = new NexusPhylogeniesParser();
\r
2208 setSpecialOptionsForNexParser( nex );
\r
2209 phys = PhylogenyMethods.readPhylogenies( nex, file );
\r
2210 nhx_or_nexus = true;
\r
2212 catch ( final Exception e ) {
\r
2214 exceptionOccuredDuringOpenFile( e );
\r
2220 final PhylogenyParser parser = ParserUtils
\r
2221 .createParserDependingOnFileType( file, getConfiguration()
\r
2222 .isValidatePhyloXmlAgainstSchema() );
\r
2223 if ( parser instanceof NexusPhylogeniesParser ) {
\r
2224 final NexusPhylogeniesParser nex = ( NexusPhylogeniesParser ) parser;
\r
2225 setSpecialOptionsForNexParser( nex );
\r
2226 nhx_or_nexus = true;
\r
2228 else if ( parser instanceof NHXParser ) {
\r
2229 final NHXParser nhx = ( NHXParser ) parser;
\r
2230 setSpecialOptionsForNhxParser( nhx );
\r
2231 nhx_or_nexus = true;
\r
2233 else if ( parser instanceof PhyloXmlParser ) {
\r
2234 warnIfNotPhyloXmlValidation( getConfiguration() );
\r
2236 phys = PhylogenyMethods.readPhylogenies( parser, file );
\r
2238 catch ( final Exception e ) {
\r
2240 exceptionOccuredDuringOpenFile( e );
\r
2243 if ( _mainpanel.getCurrentTreePanel() != null ) {
\r
2244 _mainpanel.getCurrentTreePanel().setArrowCursor();
\r
2247 _mainpanel.setArrowCursor();
\r
2249 if ( !exception && ( phys != null ) && ( phys.length > 0 ) ) {
\r
2250 boolean one_desc = false;
\r
2251 if ( nhx_or_nexus ) {
\r
2252 for( final Phylogeny phy : phys ) {
\r
2253 if ( getOptions().isInternalNumberAreConfidenceForNhParsing() ) {
\r
2254 PhylogenyMethods.transferInternalNodeNamesToConfidence( phy, "" );
\r
2256 if ( PhylogenyMethods.getMinimumDescendentsPerInternalNodes( phy ) == 1 ) {
\r
2262 if ( PREPROCESS_TREES ) {
\r
2263 preProcessTreesUponReading( phys );
\r
2265 AptxUtil.addPhylogeniesToTabs( phys,
\r
2267 file.getAbsolutePath(),
\r
2268 getConfiguration(),
\r
2270 _mainpanel.getControlPanel().showWhole();
\r
2271 if ( nhx_or_nexus && one_desc ) {
\r
2273 .showMessageDialog( this,
\r
2274 "One or more trees contain (a) node(s) with one descendant, "
\r
2275 + ForesterUtil.LINE_SEPARATOR
\r
2276 + "possibly indicating illegal parentheses within node names.",
\r
2277 "Warning: Possible Error in New Hampshire Formatted Data",
\r
2278 JOptionPane.WARNING_MESSAGE );
\r
2284 activateSaveAllIfNeeded();
\r
2288 private void preProcessTreesUponReading( final Phylogeny[] phys ) {
\r
2289 for( final Phylogeny phy : phys ) {
\r
2290 if ( ( phy != null ) && !phy.isEmpty() ) {
\r
2291 for( final PhylogenyNodeIterator it = phy.iteratorPreorder(); it.hasNext(); ) {
\r
2292 final PhylogenyNode n = it.next();
\r
2293 if ( n.isExternal() ) {
\r
2294 if ( n.getNodeData().isHasSequence() ) {
\r
2295 final Sequence s = n.getNodeData().getSequence();
\r
2296 if ( ForesterUtil.isEmpty( s.getGeneName() ) || s.getGeneName().startsWith( "LOC" ) ) {
\r
2297 if ( ( s.getAccession() != null )
\r
2298 && !ForesterUtil.isEmpty( s.getAccession().getValue() ) ) {
\r
2299 s.setGeneName( s.getAccession().getValue() );
\r
2301 else if ( !ForesterUtil.isEmpty( n.getName() ) ) {
\r
2302 s.setGeneName( n.getName() );
\r
2312 private void readSpeciesTreeFromFile() {
\r
2313 Phylogeny t = null;
\r
2314 boolean exception = false;
\r
2315 final File my_dir = getCurrentDir();
\r
2316 _open_filechooser_for_species_tree.setSelectedFile( new File( "" ) );
\r
2317 if ( my_dir != null ) {
\r
2318 _open_filechooser_for_species_tree.setCurrentDirectory( my_dir );
\r
2320 final int result = _open_filechooser_for_species_tree.showOpenDialog( _contentpane );
\r
2321 final File file = _open_filechooser_for_species_tree.getSelectedFile();
\r
2322 if ( ( file != null ) && ( result == JFileChooser.APPROVE_OPTION ) ) {
\r
2323 if ( _open_filechooser_for_species_tree.getFileFilter() == MainFrameApplication.xmlfilter ) {
\r
2325 final Phylogeny[] trees = PhylogenyMethods.readPhylogenies( PhyloXmlParser
\r
2326 .createPhyloXmlParserXsdValidating(), file );
\r
2329 catch ( final Exception e ) {
\r
2331 exceptionOccuredDuringOpenFile( e );
\r
2334 else if ( _open_filechooser_for_species_tree.getFileFilter() == MainFrameApplication.tolfilter ) {
\r
2336 final Phylogeny[] trees = PhylogenyMethods.readPhylogenies( new TolParser(), file );
\r
2339 catch ( final Exception e ) {
\r
2341 exceptionOccuredDuringOpenFile( e );
\r
2347 final Phylogeny[] trees = PhylogenyMethods.readPhylogenies( PhyloXmlParser
\r
2348 .createPhyloXmlParserXsdValidating(), file );
\r
2351 catch ( final Exception e ) {
\r
2353 exceptionOccuredDuringOpenFile( e );
\r
2356 if ( !exception && ( t != null ) && !t.isRooted() ) {
\r
2359 JOptionPane.showMessageDialog( this,
\r
2360 "Species tree is not rooted",
\r
2361 "Species tree not loaded",
\r
2362 JOptionPane.ERROR_MESSAGE );
\r
2364 if ( !exception && ( t != null ) ) {
\r
2365 final Set<Taxonomy> tax_set = new HashSet<Taxonomy>();
\r
2366 for( final PhylogenyNodeIterator it = t.iteratorExternalForward(); it.hasNext(); ) {
\r
2367 final PhylogenyNode node = it.next();
\r
2368 if ( !node.getNodeData().isHasTaxonomy() ) {
\r
2372 .showMessageDialog( this,
\r
2373 "Species tree contains external node(s) without taxonomy information",
\r
2374 "Species tree not loaded",
\r
2375 JOptionPane.ERROR_MESSAGE );
\r
2379 if ( tax_set.contains( node.getNodeData().getTaxonomy() ) ) {
\r
2382 JOptionPane.showMessageDialog( this,
\r
2384 + node.getNodeData().getTaxonomy().asSimpleText()
\r
2385 + "] is not unique in species tree",
\r
2386 "Species tree not loaded",
\r
2387 JOptionPane.ERROR_MESSAGE );
\r
2391 tax_set.add( node.getNodeData().getTaxonomy() );
\r
2396 if ( !exception && ( t != null ) ) {
\r
2397 setSpeciesTree( t );
\r
2398 JOptionPane.showMessageDialog( this,
\r
2399 "Species tree successfully loaded",
\r
2400 "Species tree loaded",
\r
2401 JOptionPane.INFORMATION_MESSAGE );
\r
2403 _contentpane.repaint();
\r
2408 private void setArrowCursor() {
\r
2410 _mainpanel.getCurrentTreePanel().setArrowCursor();
\r
2412 catch ( final Exception ex ) {
\r
2419 private void setMinNotCollapseConfidenceValue( final double min_not_collapse ) {
\r
2420 _min_not_collapse = min_not_collapse;
\r
2423 private void setMinNotCollapseBlValue( final double min_not_collapse_bl ) {
\r
2424 _min_not_collapse_bl = min_not_collapse_bl;
\r
2427 private void setPhylogeneticInferenceOptions( final PhylogeneticInferenceOptions phylogenetic_inference_options ) {
\r
2428 _phylogenetic_inference_options = phylogenetic_inference_options;
\r
2431 private void setSpecialOptionsForNexParser( final NexusPhylogeniesParser nex ) {
\r
2432 nex.setReplaceUnderscores( getOptions().isReplaceUnderscoresInNhParsing() );
\r
2433 nex.setTaxonomyExtraction( getOptions().getTaxonomyExtraction() );
\r
2436 private void setSpecialOptionsForNhxParser( final NHXParser nhx ) {
\r
2437 nhx.setReplaceUnderscores( getOptions().isReplaceUnderscoresInNhParsing() );
\r
2438 nhx.setTaxonomyExtraction( getOptions().getTaxonomyExtraction() );
\r
2439 nhx.setAllowErrorsInDistanceToParent( getOptions().isAllowErrorsInDistanceToParent() );
\r
2442 private void writeAllToFile() {
\r
2443 if ( ( getMainPanel().getTabbedPane() == null ) || ( getMainPanel().getTabbedPane().getTabCount() < 1 ) ) {
\r
2446 final File my_dir = getCurrentDir();
\r
2447 if ( my_dir != null ) {
\r
2448 _save_filechooser.setCurrentDirectory( my_dir );
\r
2450 _save_filechooser.setSelectedFile( new File( "" ) );
\r
2451 final int result = _save_filechooser.showSaveDialog( _contentpane );
\r
2452 final File file = _save_filechooser.getSelectedFile();
\r
2453 setCurrentDir( _save_filechooser.getCurrentDirectory() );
\r
2454 if ( ( file != null ) && ( result == JFileChooser.APPROVE_OPTION ) ) {
\r
2455 if ( file.exists() ) {
\r
2456 final int i = JOptionPane.showConfirmDialog( this,
\r
2457 file + " already exists. Overwrite?",
\r
2459 JOptionPane.OK_CANCEL_OPTION,
\r
2460 JOptionPane.WARNING_MESSAGE );
\r
2461 if ( i != JOptionPane.OK_OPTION ) {
\r
2468 catch ( final Exception e ) {
\r
2469 JOptionPane.showMessageDialog( this,
\r
2470 "Failed to delete: " + file,
\r
2472 JOptionPane.WARNING_MESSAGE );
\r
2476 final int count = getMainPanel().getTabbedPane().getTabCount();
\r
2477 final List<Phylogeny> trees = new ArrayList<Phylogeny>();
\r
2478 for( int i = 0; i < count; ++i ) {
\r
2479 final Phylogeny phy = getMainPanel().getPhylogeny( i );
\r
2480 if ( ForesterUtil.isEmpty( phy.getName() )
\r
2481 && !ForesterUtil.isEmpty( getMainPanel().getTabbedPane().getTitleAt( i ) ) ) {
\r
2482 phy.setName( getMainPanel().getTabbedPane().getTitleAt( i ) );
\r
2485 getMainPanel().getTreePanels().get( i ).setEdited( false );
\r
2487 final PhylogenyWriter writer = new PhylogenyWriter();
\r
2489 writer.toPhyloXML( file, trees, 0, ForesterUtil.LINE_SEPARATOR );
\r
2491 catch ( final IOException e ) {
\r
2492 JOptionPane.showMessageDialog( this,
\r
2493 "Failed to write to: " + file,
\r
2495 JOptionPane.WARNING_MESSAGE );
\r
2500 private boolean writeAsNewHampshire( final Phylogeny t, boolean exception, final File file ) {
\r
2502 final PhylogenyWriter writer = new PhylogenyWriter();
\r
2503 writer.toNewHampshire( t, true, getOptions().getNhConversionSupportValueStyle(), file );
\r
2505 catch ( final Exception e ) {
\r
2507 exceptionOccuredDuringSaveAs( e );
\r
2512 private boolean writeAsNexus( final Phylogeny t, boolean exception, final File file ) {
\r
2514 final PhylogenyWriter writer = new PhylogenyWriter();
\r
2515 writer.toNexus( file, t, getOptions().getNhConversionSupportValueStyle() );
\r
2517 catch ( final Exception e ) {
\r
2519 exceptionOccuredDuringSaveAs( e );
\r
2524 private boolean writeAsPhyloXml( final Phylogeny t, boolean exception, final File file ) {
\r
2526 final PhylogenyWriter writer = new PhylogenyWriter();
\r
2527 writer.toPhyloXML( file, t, 0 );
\r
2529 catch ( final Exception e ) {
\r
2531 exceptionOccuredDuringSaveAs( e );
\r
2536 private void writeToFile( final Phylogeny t ) {
\r
2537 if ( t == null ) {
\r
2540 String initial_filename = null;
\r
2541 if ( getMainPanel().getCurrentTreePanel().getTreeFile() != null ) {
\r
2543 initial_filename = getMainPanel().getCurrentTreePanel().getTreeFile().getCanonicalPath();
\r
2545 catch ( final IOException e ) {
\r
2546 initial_filename = null;
\r
2549 if ( !ForesterUtil.isEmpty( initial_filename ) ) {
\r
2550 _save_filechooser.setSelectedFile( new File( initial_filename ) );
\r
2553 _save_filechooser.setSelectedFile( new File( "" ) );
\r
2555 final File my_dir = getCurrentDir();
\r
2556 if ( my_dir != null ) {
\r
2557 _save_filechooser.setCurrentDirectory( my_dir );
\r
2559 final int result = _save_filechooser.showSaveDialog( _contentpane );
\r
2560 final File file = _save_filechooser.getSelectedFile();
\r
2561 setCurrentDir( _save_filechooser.getCurrentDirectory() );
\r
2562 boolean exception = false;
\r
2563 if ( ( file != null ) && ( result == JFileChooser.APPROVE_OPTION ) ) {
\r
2564 if ( file.exists() ) {
\r
2565 final int i = JOptionPane.showConfirmDialog( this,
\r
2566 file + " already exists.\nOverwrite?",
\r
2568 JOptionPane.OK_CANCEL_OPTION,
\r
2569 JOptionPane.QUESTION_MESSAGE );
\r
2570 if ( i != JOptionPane.OK_OPTION ) {
\r
2574 final File to = new File( file.getAbsoluteFile().toString() + Constants.BACKUP_FILE_SUFFIX );
\r
2576 ForesterUtil.copyFile( file, to );
\r
2578 catch ( final Exception e ) {
\r
2579 JOptionPane.showMessageDialog( this,
\r
2580 "Failed to create backup copy " + to,
\r
2581 "Failed to Create Backup Copy",
\r
2582 JOptionPane.WARNING_MESSAGE );
\r
2587 catch ( final Exception e ) {
\r
2588 JOptionPane.showMessageDialog( this,
\r
2589 "Failed to delete: " + file,
\r
2590 "Failed to Delete",
\r
2591 JOptionPane.WARNING_MESSAGE );
\r
2595 if ( _save_filechooser.getFileFilter() == MainFrameApplication.nhfilter ) {
\r
2596 exception = writeAsNewHampshire( t, exception, file );
\r
2598 else if ( _save_filechooser.getFileFilter() == MainFrameApplication.xmlfilter ) {
\r
2599 exception = writeAsPhyloXml( t, exception, file );
\r
2601 else if ( _save_filechooser.getFileFilter() == MainFrameApplication.nexusfilter ) {
\r
2602 exception = writeAsNexus( t, exception, file );
\r
2606 final String file_name = file.getName().trim().toLowerCase();
\r
2607 if ( file_name.endsWith( ".nh" ) || file_name.endsWith( ".newick" ) || file_name.endsWith( ".phy" )
\r
2608 || file_name.endsWith( ".tree" ) ) {
\r
2609 exception = writeAsNewHampshire( t, exception, file );
\r
2611 else if ( file_name.endsWith( ".nex" ) || file_name.endsWith( ".nexus" ) ) {
\r
2612 exception = writeAsNexus( t, exception, file );
\r
2614 // XML is default:
\r
2616 exception = writeAsPhyloXml( t, exception, file );
\r
2619 if ( !exception ) {
\r
2620 getMainPanel().setTitleOfSelectedTab( file.getName() );
\r
2621 getMainPanel().getCurrentTreePanel().setTreeFile( file );
\r
2622 getMainPanel().getCurrentTreePanel().setEdited( false );
\r
2627 private void writeToGraphicsFile( final Phylogeny t, final GraphicsExportType type ) {
\r
2628 if ( ( t == null ) || t.isEmpty() ) {
\r
2631 String initial_filename = "";
\r
2632 if ( getMainPanel().getCurrentTreePanel().getTreeFile() != null ) {
\r
2633 initial_filename = getMainPanel().getCurrentTreePanel().getTreeFile().toString();
\r
2635 if ( initial_filename.indexOf( '.' ) > 0 ) {
\r
2636 initial_filename = initial_filename.substring( 0, initial_filename.lastIndexOf( '.' ) );
\r
2638 initial_filename = initial_filename + "." + type;
\r
2639 _writetographics_filechooser.setSelectedFile( new File( initial_filename ) );
\r
2640 final File my_dir = getCurrentDir();
\r
2641 if ( my_dir != null ) {
\r
2642 _writetographics_filechooser.setCurrentDirectory( my_dir );
\r
2644 final int result = _writetographics_filechooser.showSaveDialog( _contentpane );
\r
2645 File file = _writetographics_filechooser.getSelectedFile();
\r
2646 setCurrentDir( _writetographics_filechooser.getCurrentDirectory() );
\r
2647 if ( ( file != null ) && ( result == JFileChooser.APPROVE_OPTION ) ) {
\r
2648 if ( !file.toString().toLowerCase().endsWith( type.toString() ) ) {
\r
2649 file = new File( file.toString() + "." + type );
\r
2651 if ( file.exists() ) {
\r
2652 final int i = JOptionPane.showConfirmDialog( this,
\r
2653 file + " already exists. Overwrite?",
\r
2655 JOptionPane.OK_CANCEL_OPTION,
\r
2656 JOptionPane.WARNING_MESSAGE );
\r
2657 if ( i != JOptionPane.OK_OPTION ) {
\r
2664 catch ( final Exception e ) {
\r
2665 JOptionPane.showMessageDialog( this,
\r
2666 "Failed to delete: " + file,
\r
2668 JOptionPane.WARNING_MESSAGE );
\r
2672 writePhylogenyToGraphicsFile( file.toString(), type );
\r
2677 public static MainFrameApplication createInstance( final Phylogeny[] phys, final Configuration config ) {
\r
2678 return new MainFrameApplication( phys, config );
\r
2681 public static MainFrame createInstance( final Phylogeny[] phys,
\r
2682 final Configuration config,
\r
2683 final String title,
\r
2684 final File current_dir ) {
\r
2685 return new MainFrameApplication( phys, config, title, current_dir );
\r
2688 static MainFrame createInstance( final Phylogeny[] phys, final Configuration config, final String title ) {
\r
2689 return new MainFrameApplication( phys, config, title );
\r
2692 static MainFrame createInstance( final Phylogeny[] phys, final String config_file_name, final String title ) {
\r
2693 return new MainFrameApplication( phys, config_file_name, title );
\r
2696 static void setTextForGraphicsSizeChooserMenuItem( final JMenuItem mi, final Options o ) {
\r
2697 mi.setText( "Enter Default Size for Graphics Export... (current: " + o.getPrintSizeX() + ", "
\r
2698 + o.getPrintSizeY() + ")" );
\r
2701 static void setTextForPdfLineWidthChooserMenuItem( final JMenuItem mi, final Options o ) {
\r
2702 mi.setText( "Enter Default Line Width for PDF Export... (current: " + o.getPrintLineWidth() + ")" );
\r
2705 static void warnIfNotPhyloXmlValidation( final Configuration c ) {
\r
2706 if ( !c.isValidatePhyloXmlAgainstSchema() ) {
\r
2708 .showMessageDialog( null,
\r
2710 .wordWrap( "phyloXML XSD-based validation is turned off [enable with line 'validate_against_phyloxml_xsd_schem: true' in configuration file]",
\r
2713 JOptionPane.WARNING_MESSAGE );
\r
2716 } // MainFrameApplication.
\r
2718 class DefaultFilter extends FileFilter {
\r
2721 public boolean accept( final File f ) {
\r
2722 final String file_name = f.getName().trim().toLowerCase();
\r
2723 return file_name.endsWith( ".nh" ) || file_name.endsWith( ".newick" ) || file_name.endsWith( ".phy" )
\r
2724 || file_name.endsWith( ".nwk" ) || file_name.endsWith( ".phb" ) || file_name.endsWith( ".ph" )
\r
2725 || file_name.endsWith( ".tr" ) || file_name.endsWith( ".dnd" ) || file_name.endsWith( ".tree" )
\r
2726 || file_name.endsWith( ".nhx" ) || file_name.endsWith( ".xml" ) || file_name.endsWith( ".phyloxml" )
\r
2727 || file_name.endsWith( "phylo.xml" ) || file_name.endsWith( ".pxml" ) || file_name.endsWith( ".nexus" )
\r
2728 || file_name.endsWith( ".nx" ) || file_name.endsWith( ".nex" ) || file_name.endsWith( ".tre" )
\r
2729 || file_name.endsWith( ".zip" ) || file_name.endsWith( ".tol" ) || file_name.endsWith( ".tolxml" )
\r
2730 || file_name.endsWith( ".con" ) || f.isDirectory();
\r
2734 public String getDescription() {
\r
2735 return "All supported files (*.xml, *.phyloxml, *phylo.xml, *.nhx, *.nh, *.newick, *.nex, *.nexus, *.phy, *.tre, *.tree, *.tol, ...)";
\r
2739 class GraphicsFileFilter extends FileFilter {
\r
2742 public boolean accept( final File f ) {
\r
2743 final String file_name = f.getName().trim().toLowerCase();
\r
2744 return file_name.endsWith( ".jpg" ) || file_name.endsWith( ".jpeg" ) || file_name.endsWith( ".png" )
\r
2745 || file_name.endsWith( ".gif" ) || file_name.endsWith( ".bmp" ) || f.isDirectory();
\r
2749 public String getDescription() {
\r
2750 return "Image files (*.jpg, *.jpeg, *.png, *.gif, *.bmp)";
\r
2754 class MsaFileFilter extends FileFilter {
\r
2757 public boolean accept( final File f ) {
\r
2758 final String file_name = f.getName().trim().toLowerCase();
\r
2759 return file_name.endsWith( ".msa" ) || file_name.endsWith( ".aln" ) || file_name.endsWith( ".fasta" )
\r
2760 || file_name.endsWith( ".fas" ) || file_name.endsWith( ".fa" ) || f.isDirectory();
\r
2764 public String getDescription() {
\r
2765 return "Multiple sequence alignment files (*.msa, *.aln, *.fasta, *.fa, *.fas)";
\r
2769 class NexusFilter extends FileFilter {
\r
2772 public boolean accept( final File f ) {
\r
2773 final String file_name = f.getName().trim().toLowerCase();
\r
2774 return file_name.endsWith( ".nex" ) || file_name.endsWith( ".nexus" ) || file_name.endsWith( ".nx" )
\r
2775 || file_name.endsWith( ".tre" ) || f.isDirectory();
\r
2779 public String getDescription() {
\r
2780 return "Nexus files (*.nex, *.nexus, *.nx, *.tre)";
\r
2784 class NHFilter extends FileFilter {
\r
2787 public boolean accept( final File f ) {
\r
2788 final String file_name = f.getName().trim().toLowerCase();
\r
2789 return file_name.endsWith( ".nh" ) || file_name.endsWith( ".newick" ) || file_name.endsWith( ".phy" )
\r
2790 || file_name.endsWith( ".tr" ) || file_name.endsWith( ".tree" ) || file_name.endsWith( ".dnd" )
\r
2791 || file_name.endsWith( ".ph" ) || file_name.endsWith( ".phb" ) || file_name.endsWith( ".nwk" )
\r
2792 || f.isDirectory();
\r
2796 public String getDescription() {
\r
2797 return "New Hampshire - Newick files (*.nh, *.newick, *.phy, *.tree, *.dnd, *.tr, *.ph, *.phb, *.nwk)";
\r
2801 class NHXFilter extends FileFilter {
\r
2804 public boolean accept( final File f ) {
\r
2805 final String file_name = f.getName().trim().toLowerCase();
\r
2806 return file_name.endsWith( ".nhx" ) || f.isDirectory();
\r
2810 public String getDescription() {
\r
2811 return "NHX files (*.nhx) [deprecated]";
\r
2815 class PdfFilter extends FileFilter {
\r
2818 public boolean accept( final File f ) {
\r
2819 return f.getName().trim().toLowerCase().endsWith( ".pdf" ) || f.isDirectory();
\r
2823 public String getDescription() {
\r
2824 return "PDF files (*.pdf)";
\r
2828 class SequencesFileFilter extends FileFilter {
\r
2831 public boolean accept( final File f ) {
\r
2832 final String file_name = f.getName().trim().toLowerCase();
\r
2833 return file_name.endsWith( ".fasta" ) || file_name.endsWith( ".fa" ) || file_name.endsWith( ".fas" )
\r
2834 || file_name.endsWith( ".seqs" ) || f.isDirectory();
\r
2838 public String getDescription() {
\r
2839 return "Sequences files (*.fasta, *.fa, *.fas, *.seqs )";
\r
2843 class TolFilter extends FileFilter {
\r
2846 public boolean accept( final File f ) {
\r
2847 final String file_name = f.getName().trim().toLowerCase();
\r
2848 return ( file_name.endsWith( ".tol" ) || file_name.endsWith( ".tolxml" ) || file_name.endsWith( ".zip" ) || f
\r
2849 .isDirectory() ) && ( !file_name.endsWith( ".xml.zip" ) );
\r
2853 public String getDescription() {
\r
2854 return "Tree of Life files (*.tol, *.tolxml)";
\r
2858 class XMLFilter extends FileFilter {
\r
2861 public boolean accept( final File f ) {
\r
2862 final String file_name = f.getName().trim().toLowerCase();
\r
2863 return file_name.endsWith( ".xml" ) || file_name.endsWith( ".phyloxml" ) || file_name.endsWith( "phylo.xml" )
\r
2864 || file_name.endsWith( ".pxml" ) || file_name.endsWith( ".zip" ) || f.isDirectory();
\r
2868 public String getDescription() {
\r
2869 return "phyloXML files (*.xml, *.phyloxml, *phylo.xml, *.pxml, *.zip)";
\r