import java.util.HashSet;
import java.util.Hashtable;
import java.util.List;
-import java.util.Map.Entry;
import java.util.Set;
-import java.util.SortedMap;
import java.util.SortedSet;
-import java.util.TreeMap;
import javax.swing.BorderFactory;
import javax.swing.JApplet;
import org.forester.phylogeny.PhylogenyMethods;
import org.forester.phylogeny.PhylogenyMethods.DESCENDANT_SORT_PRIORITY;
import org.forester.phylogeny.PhylogenyNode;
+import org.forester.phylogeny.data.Accession;
import org.forester.phylogeny.data.Annotation;
import org.forester.phylogeny.data.BranchColor;
import org.forester.phylogeny.data.Confidence;
import org.forester.util.DescriptiveStatistics;
import org.forester.util.ForesterConstants;
import org.forester.util.ForesterUtil;
-import org.forester.util.SequenceIdParser;
+import org.forester.util.SequenceAccessionTools;
+import org.forester.util.TaxonomyUtil;
public final class TreePanel extends JPanel implements ActionListener, MouseWheelListener, Printable {
- private static final BasicStroke STROKE_2 = new BasicStroke( 2f );
- private static final BasicStroke STROKE_1 = new BasicStroke( 1f );
- private static final BasicStroke STROKE_075 = new BasicStroke( 0.75f );
- private static final BasicStroke STROKE_05 = new BasicStroke( 0.5f );
- private static final BasicStroke STROKE_025 = new BasicStroke( 0.25f );
- private static final BasicStroke STROKE_01 = new BasicStroke( 0.1f );
- private static final BasicStroke STROKE_005 = new BasicStroke( 0.05f );
- private static final float PI = ( float ) ( Math.PI );
- private static final double TWO_PI = 2 * Math.PI;
- private static final float ONEHALF_PI = ( float ) ( 1.5 * Math.PI );
- private static final float HALF_PI = ( float ) ( Math.PI / 2.0 );
- private static final float ANGLE_ROTATION_UNIT = ( float ) ( Math.PI / 32 );
- private static final short OV_BORDER = 10;
- final static Cursor CUT_CURSOR = Cursor.getPredefinedCursor( Cursor.CROSSHAIR_CURSOR );
- final static Cursor MOVE_CURSOR = Cursor.getPredefinedCursor( Cursor.MOVE_CURSOR );
final static Cursor ARROW_CURSOR = Cursor.getPredefinedCursor( Cursor.DEFAULT_CURSOR );
+ final static Cursor CUT_CURSOR = Cursor.getPredefinedCursor( Cursor.CROSSHAIR_CURSOR );
final static Cursor HAND_CURSOR = Cursor.getPredefinedCursor( Cursor.HAND_CURSOR );
+ final static Cursor MOVE_CURSOR = Cursor.getPredefinedCursor( Cursor.MOVE_CURSOR );
final static Cursor WAIT_CURSOR = Cursor.getPredefinedCursor( Cursor.WAIT_CURSOR );
- private final static long serialVersionUID = -978349745916505029L;
+ final private static double _180_OVER_PI = 180.0 / Math.PI;
+ private static final float ANGLE_ROTATION_UNIT = ( float ) ( Math.PI / 32 );
+ private final static int CONFIDENCE_LEFT_MARGIN = 4;
private final static int EURO_D = 10;
- private final static String NODE_POPMENU_NODE_CLIENT_PROPERTY = "node";
- private final static int MIN_ROOT_LENGTH = 3;
- private final static int MAX_SUBTREES = 100;
+ private final static NumberFormat FORMATTER_BRANCH_LENGTH;
+ private final static NumberFormat FORMATTER_CONFIDENCE;
+ private static final float HALF_PI = ( float ) ( Math.PI / 2.0 );
+ private final static int LIMIT_FOR_HQ_RENDERING = 2000;
private final static int MAX_NODE_FRAMES = 10;
+ private final static int MAX_SUBTREES = 100;
+ private final static int MIN_ROOT_LENGTH = 3;
private final static int MOVE = 20;
- private final static NumberFormat FORMATTER_CONFIDENCE;
- private final static NumberFormat FORMATTER_BRANCH_LENGTH;
+ private final static String NODE_POPMENU_NODE_CLIENT_PROPERTY = "node";
+ private static final float ONEHALF_PI = ( float ) ( 1.5 * Math.PI );
+ private static final short OV_BORDER = 10;
+ private static final float PI = ( float ) ( Math.PI );
+ final private static Font POPUP_FONT = new Font( Configuration.getDefaultFontFamilyName(),
+ Font.PLAIN,
+ 12 );
+ private static final float ROUNDED_D = 8;
+ private final static long serialVersionUID = -978349745916505029L;
+ private static final BasicStroke STROKE_005 = new BasicStroke( 0.05f );
+ private static final BasicStroke STROKE_01 = new BasicStroke( 0.1f );
+ private static final BasicStroke STROKE_025 = new BasicStroke( 0.25f );
+ private static final BasicStroke STROKE_05 = new BasicStroke( 0.5f );
+ private static final BasicStroke STROKE_075 = new BasicStroke( 0.75f );
+ private static final BasicStroke STROKE_1 = new BasicStroke( 1f );
+ private static final BasicStroke STROKE_2 = new BasicStroke( 2f );
+ private static final double TWO_PI = 2 * Math.PI;
private final static int WIGGLE = 2;
- private final static int LIMIT_FOR_HQ_RENDERING = 2000;
- private final static int CONFIDENCE_LEFT_MARGIN = 4;
- private final RenderingHints _rendering_hints = new RenderingHints( RenderingHints.KEY_RENDERING,
- RenderingHints.VALUE_RENDER_DEFAULT );
- private File _treefile = null;
+ private final static double OVERVIEW_FOUND_NODE_BOX_SIZE = 2;
+ private final static double OVERVIEW_FOUND_NODE_BOX_SIZE_HALF = 1;
+ HashMap<Long, Short> _nodeid_dist_to_leaf = new HashMap<Long, Short>();
+ final private Arc2D _arc = new Arc2D.Double();
+ private AffineTransform _at;
+ private int _circ_max_depth;
+ final private Set<Long> _collapsed_external_nodeid_set = new HashSet<Long>();
+ private JColorChooser _color_chooser = null;
private Configuration _configuration = null;
- private final NodeFrame[] _node_frames = new NodeFrame[ TreePanel.MAX_NODE_FRAMES ];
- private int _node_frame_index = 0;
- private Phylogeny _phylogeny = null;
- private final Phylogeny[] _sub_phylogenies = new Phylogeny[ TreePanel.MAX_SUBTREES ];
- private final PhylogenyNode[] _sub_phylogenies_temp_roots = new PhylogenyNode[ TreePanel.MAX_SUBTREES ];
- private int _subtree_index = 0;
- private MainPanel _main_panel = null;
- private Set<Long> _found_nodes = null;
- private PhylogenyNode _highlight_node = null;
- private JPopupMenu _node_popup_menu = null;
- private JMenuItem _node_popup_menu_items[] = null;
- private int _longest_ext_node_info = 0;
- private float _x_correction_factor = 0.0f;
- private float _ov_x_correction_factor = 0.0f;
- private float _x_distance = 0.0f;
- private float _y_distance = 0.0f;
- private PHYLOGENY_GRAPHICS_TYPE _graphics_type = PHYLOGENY_GRAPHICS_TYPE.RECTANGULAR;
- private double _domain_structure_width = Constants.DOMAIN_STRUCTURE_DEFAULT_WIDTH;
+ private ControlPanel _control_panel = null;
+ private final CubicCurve2D _cubic_curve = new CubicCurve2D.Float();
+ private Set<Long> _current_external_nodes = null;
+ private StringBuilder _current_external_nodes_data_buffer = new StringBuilder();
+ private int _current_external_nodes_data_buffer_change_counter = 0;
private int _domain_structure_e_value_thr_exp = Constants.DOMAIN_STRUCTURE_E_VALUE_THR_DEFAULT_EXP;
+ private double _domain_structure_width = Constants.DOMAIN_STRUCTURE_DEFAULT_WIDTH;
+ private int _dynamic_hiding_factor = 0;
+ private boolean _edited = false;
+ private final Ellipse2D _ellipse = new Ellipse2D.Float();
+ private int _external_node_index = 0;
+ private Set<Long> _found_nodes_0 = null;
+ private Set<Long> _found_nodes_1 = null;
+ private final FontRenderContext _frc = new FontRenderContext( null,
+ false,
+ false );
+ private PHYLOGENY_GRAPHICS_TYPE _graphics_type = PHYLOGENY_GRAPHICS_TYPE.RECTANGULAR;
+ private PhylogenyNode _highlight_node = null;
+ private boolean _in_ov = false;
+ private boolean _in_ov_rect = false;
private float _last_drag_point_x = 0;
private float _last_drag_point_y = 0;
- private ControlPanel _control_panel = null;
- private int _external_node_index = 0;
- private final Path2D.Float _polygon = new Path2D.Float();
- private final StringBuilder _sb = new StringBuilder();
- private JColorChooser _color_chooser = null;
- private double _scale_distance = 0.0;
- private String _scale_label = null;
- private final CubicCurve2D _cubic_curve = new CubicCurve2D.Float();
- private final QuadCurve2D _quad_curve = new QuadCurve2D.Float();
private final Line2D _line = new Line2D.Float();
- private final Ellipse2D _ellipse = new Ellipse2D.Float();
- private final Rectangle2D _rectangle = new Rectangle2D.Float();
+ private int _longest_ext_node_info = 0;
+ private MainPanel _main_panel = null;
+ private double _max_distance_to_root = -1;
+ private Popup _node_desc_popup;
+ private int _node_frame_index = 0;
+ private final NodeFrame[] _node_frames = new NodeFrame[ TreePanel.MAX_NODE_FRAMES ];
+ private JPopupMenu _node_popup_menu = null;
+ private JMenuItem _node_popup_menu_items[] = null;
+ private PhylogenyNode[] _nodes_in_preorder = null;
private Options _options = null;
- private float _ov_max_width = 0;
private float _ov_max_height = 0;
+ private float _ov_max_width = 0;
+ private boolean _ov_on = false;
+ private final Rectangle2D _ov_rectangle = new Rectangle2D.Float();
+ private final Rectangle _ov_virtual_rectangle = new Rectangle();
+ private float _ov_x_correction_factor = 0.0f;
+ private float _ov_x_distance = 0;
private int _ov_x_position = 0;
+ private float _ov_y_distance = 0;
private int _ov_y_position = 0;
private int _ov_y_start = 0;
- private float _ov_y_distance = 0;
- private float _ov_x_distance = 0;
- private boolean _ov_on = false;
- private double _urt_starting_angle = ( float ) ( Math.PI / 2 );
- private float _urt_factor = 1;
- private float _urt_factor_ov = 1;
private final boolean _phy_has_branch_lengths;
- private final Rectangle2D _ov_rectangle = new Rectangle2D.Float();
- private boolean _in_ov_rect = false;
- private boolean _in_ov = false;
- private final Rectangle _ov_virtual_rectangle = new Rectangle();
- final private static double _180_OVER_PI = 180.0 / Math.PI;
- private static final float ROUNDED_D = 8;
- private int _circ_max_depth;
- private PhylogenyNode _root;
- final private Arc2D _arc = new Arc2D.Double();
- final private HashMap<Long, Double> _urt_nodeid_angle_map = new HashMap<Long, Double>();
- final private HashMap<Long, Integer> _urt_nodeid_index_map = new HashMap<Long, Integer>();
- final private Set<Long> _collapsed_external_nodeid_set = new HashSet<Long>();
- HashMap<Long, Short> _nodeid_dist_to_leaf = new HashMap<Long, Short>();
- private AffineTransform _at;
- private double _max_distance_to_root = -1;
- private int _dynamic_hiding_factor = 0;
- private boolean _edited = false;
- private Popup _node_desc_popup;
- private JTextArea _rollover_popup;
+ private Phylogeny _phylogeny = null;
+ private final Path2D.Float _polygon = new Path2D.Float();
private final StringBuffer _popup_buffer = new StringBuffer();
- final private static Font POPUP_FONT = new Font( Configuration.getDefaultFontFamilyName(),
- Font.PLAIN,
- 12 );
+ private final QuadCurve2D _quad_curve = new QuadCurve2D.Float();
private Sequence _query_sequence = null;
- private final FontRenderContext _frc = new FontRenderContext( null,
- false,
- false );
+ private final Rectangle2D _rectangle = new Rectangle2D.Float();
+ private final RenderingHints _rendering_hints = new RenderingHints( RenderingHints.KEY_RENDERING,
+ RenderingHints.VALUE_RENDER_DEFAULT );
+ private JTextArea _rollover_popup;
+ private PhylogenyNode _root;
+ private final StringBuilder _sb = new StringBuilder();
+ private double _scale_distance = 0.0;
+ private String _scale_label = null;
// expression values menu:
private DescriptiveStatistics _statistics_for_vector_data;
- private PhylogenyNode[] _nodes_in_preorder = null;
- private StringBuilder _current_external_nodes_data_buffer = new StringBuilder();
- private int _current_external_nodes_data_buffer_change_counter = 0;
- private Set<Long> _current_external_nodes = null;
+ private final Phylogeny[] _sub_phylogenies = new Phylogeny[ TreePanel.MAX_SUBTREES ];
+ private final PhylogenyNode[] _sub_phylogenies_temp_roots = new PhylogenyNode[ TreePanel.MAX_SUBTREES ];
+ private int _subtree_index = 0;
+ private File _treefile = null;
+ private float _urt_factor = 1;
+ private float _urt_factor_ov = 1;
+ final private HashMap<Long, Double> _urt_nodeid_angle_map = new HashMap<Long, Double>();
+ final private HashMap<Long, Integer> _urt_nodeid_index_map = new HashMap<Long, Integer>();
+ private double _urt_starting_angle = ( float ) ( Math.PI / 2 );
+ private float _x_correction_factor = 0.0f;
+ private float _x_distance = 0.0f;
+ private float _y_distance = 0.0f;
// private Image offscreenImage;
// private Graphics offscreenGraphics;
// private Dimension offscreenDimension;
.getValue()
+ " " );
}
- if ( getControlPanel().isShowGeneNames() && ( node.getNodeData().getSequence().getName().length() > 0 ) ) {
+ if ( getControlPanel().isShowSeqNames() && ( node.getNodeData().getSequence().getName().length() > 0 ) ) {
sum += getTreeFontSet()._fm_large.stringWidth( node.getNodeData().getSequence().getName() + " " );
}
- if ( getControlPanel().isShowGeneSymbols()
+ if ( getControlPanel().isShowSeqSymbols()
&& ( node.getNodeData().getSequence().getSymbol().length() > 0 ) ) {
sum += getTreeFontSet()._fm_large.stringWidth( node.getNodeData().getSequence().getSymbol() + " " );
}
+ if ( getControlPanel().isShowGeneNames()
+ && ( node.getNodeData().getSequence().getGeneName().length() > 0 ) ) {
+ sum += getTreeFontSet()._fm_large
+ .stringWidth( node.getNodeData().getSequence().getGeneName() + " " );
+ }
if ( getControlPanel().isShowAnnotation()
&& ( node.getNodeData().getSequence().getAnnotations() != null )
&& !node.getNodeData().getSequence().getAnnotations().isEmpty() ) {
- sum += getTreeFontSet()._fm_large.stringWidth( AptxUtil.createAnnotationString( node.getNodeData()
- .getSequence().getAnnotations(), getOptions().isShowAnnotationRefSource() )
+ sum += getTreeFontSet()._fm_large.stringWidth( TreePanelUtil.createAnnotationString( node
+ .getNodeData().getSequence().getAnnotations(), getOptions().isShowAnnotationRefSource() )
+ " " );
}
if ( getControlPanel().isShowDomainArchitectures()
}
final Color calculateTaxonomyBasedColor( final Taxonomy tax ) {
- if ( ForesterUtil.isEmpty( tax.getTaxonomyCode() ) && ForesterUtil.isEmpty( tax.getScientificName() ) ) {
+ if ( getOptions().isColorByTaxonomicGroup() ) {
+ if ( !ForesterUtil.isEmpty( tax.getTaxonomyCode() ) ) {
+ boolean ex = false;
+ String group = null;
+ try {
+ group = TaxonomyUtil.getTaxGroupByTaxCode( tax.getTaxonomyCode() );
+ }
+ catch ( final Exception e ) {
+ ex = true;
+ }
+ if ( !ex && !ForesterUtil.isEmpty( group ) ) {
+ final Color c = ForesterUtil.obtainColorDependingOnTaxonomyGroup( group );
+ if ( c != null ) {
+ return c;
+ }
+ }
+ }
return getTreeColorSet().getTaxonomyColor();
}
- Color c = null;
- if ( !ForesterUtil.isEmpty( tax.getTaxonomyCode() ) ) {
- c = getControlPanel().getSpeciesColors().get( tax.getTaxonomyCode() );
- }
- if ( ( c == null ) && !ForesterUtil.isEmpty( tax.getScientificName() ) ) {
- c = getControlPanel().getSpeciesColors().get( tax.getScientificName() );
- }
- if ( c == null ) {
+ else {
+ if ( ForesterUtil.isEmpty( tax.getTaxonomyCode() ) && ForesterUtil.isEmpty( tax.getScientificName() ) ) {
+ return getTreeColorSet().getTaxonomyColor();
+ }
+ Color c = null;
if ( !ForesterUtil.isEmpty( tax.getTaxonomyCode() ) ) {
- c = AptxUtil.calculateColorFromString( tax.getTaxonomyCode(), true );
- getControlPanel().getSpeciesColors().put( tax.getTaxonomyCode(), c );
+ c = getControlPanel().getSpeciesColors().get( tax.getTaxonomyCode() );
}
- else {
- c = AptxUtil.calculateColorFromString( tax.getScientificName(), true );
- getControlPanel().getSpeciesColors().put( tax.getScientificName(), c );
+ if ( ( c == null ) && !ForesterUtil.isEmpty( tax.getScientificName() ) ) {
+ c = getControlPanel().getSpeciesColors().get( tax.getScientificName() );
+ }
+ if ( c == null ) {
+ if ( !ForesterUtil.isEmpty( tax.getTaxonomyCode() ) ) {
+ c = TreePanelUtil.calculateColorFromString( tax.getTaxonomyCode(), true );
+ getControlPanel().getSpeciesColors().put( tax.getTaxonomyCode(), c );
+ }
+ else {
+ c = TreePanelUtil.calculateColorFromString( tax.getScientificName(), true );
+ getControlPanel().getSpeciesColors().put( tax.getScientificName(), c );
+ }
}
+ return c;
}
- return c;
}
void checkForVectorProperties( final Phylogeny phy ) {
}
if ( !node.isExternal() && !node.isRoot() ) {
final boolean collapse = !node.isCollapse();
- AptxUtil.collapseSubtree( node, collapse );
+ TreePanelUtil.collapseSubtree( node, collapse );
updateSetOfCollapsedExternalNodes();
_phylogeny.recalculateNumberOfExternalDescendants( true );
resetNodeIdToDistToLeafMap();
return;
}
setWaitCursor();
- AptxUtil.collapseSpeciesSpecificSubtrees( _phylogeny );
+ TreePanelUtil.collapseSpeciesSpecificSubtrees( _phylogeny );
updateSetOfCollapsedExternalNodes();
_phylogeny.recalculateNumberOfExternalDescendants( true );
resetNodeIdToDistToLeafMap();
}
setWaitCursor();
AptxUtil.removeBranchColors( _phylogeny );
- final int colorizations = AptxUtil.colorPhylogenyAccordingToRanks( _phylogeny, rank, this );
+ final int colorizations = TreePanelUtil.colorPhylogenyAccordingToRanks( _phylogeny, rank, this );
if ( colorizations > 0 ) {
_control_panel.setColorBranches( true );
if ( _control_panel.getColorBranchesCb() != null ) {
}
setWaitCursor();
AptxUtil.removeBranchColors( _phylogeny );
- AptxUtil.colorPhylogenyAccordingToConfidenceValues( _phylogeny, this );
+ TreePanelUtil.colorPhylogenyAccordingToConfidenceValues( _phylogeny, this );
_control_panel.setColorBranches( true );
if ( _control_panel.getColorBranchesCb() != null ) {
_control_panel.getColorBranchesCb().setSelected( true );
return _domain_structure_e_value_thr_exp;
}
- final Set<Long> getFoundNodes() {
- return _found_nodes;
+ final Set<Long> getFoundNodes0() {
+ return _found_nodes_0;
+ }
+
+ final Set<Long> getFoundNodes1() {
+ return _found_nodes_1;
}
final Color getGraphicsForNodeBoxWithColorForParentBranch( final PhylogenyNode node ) {
// Check if shift key is down
if ( ( e.getModifiers() & InputEvent.SHIFT_MASK ) != 0 ) {
// Yes, so add to _found_nodes
- if ( getFoundNodes() == null ) {
- setFoundNodes( new HashSet<Long>() );
+ if ( getFoundNodes0() == null ) {
+ setFoundNodes0( new HashSet<Long>() );
}
- getFoundNodes().add( node.getId() );
+ getFoundNodes0().add( node.getId() );
// Check if control key is down
}
else if ( ( e.getModifiers() & InputEvent.CTRL_MASK ) != 0 ) {
root_x + ( Math.cos( angle ) * parent_radius ),
root_y + ( Math.sin( angle ) * parent_radius ),
g );
- paintNodeBox( c.getXcoord(), c.getYcoord(), c, g, to_pdf, to_graphics_file, isInFoundNodes( c )
- || isInCurrentExternalNodes( c ) );
+ paintNodeBox( c.getXcoord(), c.getYcoord(), c, g, to_pdf, to_graphics_file );
if ( c.isExternal() ) {
- final boolean is_in_found_nodes = isInFoundNodes( c ) || isInCurrentExternalNodes( c );
+ final boolean is_in_found_nodes = isInFoundNodes0( c ) || isInFoundNodes1( c )
+ || isInCurrentExternalNodes( c );
if ( ( _dynamic_hiding_factor > 1 ) && !is_in_found_nodes
&& ( ( _urt_nodeid_index_map.get( c.getId() ) % _dynamic_hiding_factor ) != 1 ) ) {
return;
root_y + ( Math.sin( angle ) * parent_radius ),
g );
if ( isInFoundNodes( c ) || isInCurrentExternalNodes( c ) ) {
- g.setColor( getTreeColorSet().getFoundColor() );
- drawRectFilled( c.getXSecondary() - 1, c.getYSecondary() - 1, 3, 3, g );
+ g.setColor( getColorForFoundNode( c ) );
+ drawRectFilled( c.getXSecondary() - OVERVIEW_FOUND_NODE_BOX_SIZE_HALF, c.getYSecondary()
+ - OVERVIEW_FOUND_NODE_BOX_SIZE_HALF, OVERVIEW_FOUND_NODE_BOX_SIZE, OVERVIEW_FOUND_NODE_BOX_SIZE, g );
}
}
}
}
paintCirculars( phy.getRoot(), phy, center_x, center_y, radius, radial_labels, g, to_pdf, to_graphics_file );
- paintNodeBox( _root.getXcoord(), _root.getYcoord(), _root, g, to_pdf, to_graphics_file, isInFoundNodes( _root ) );
+ paintNodeBox( _root.getXcoord(), _root.getYcoord(), _root, g, to_pdf, to_graphics_file );
}
final void paintCircularLite( final Phylogeny phy,
}
final void selectNode( final PhylogenyNode node ) {
- if ( ( getFoundNodes() != null ) && getFoundNodes().contains( node.getId() ) ) {
- getFoundNodes().remove( node.getId() );
- getControlPanel().setSearchFoundCountsOnLabel( getFoundNodes().size() );
- if ( getFoundNodes().size() < 1 ) {
- getControlPanel().searchReset();
+ if ( ( getFoundNodes0() != null ) && getFoundNodes0().contains( node.getId() ) ) {
+ getFoundNodes0().remove( node.getId() );
+ getControlPanel().setSearchFoundCountsOnLabel0( getFoundNodes0().size() );
+ if ( getFoundNodes0().size() < 1 ) {
+ getControlPanel().searchReset0();
}
}
else {
- getControlPanel().getSearchFoundCountsLabel().setVisible( true );
- getControlPanel().getSearchResetButton().setEnabled( true );
- getControlPanel().getSearchResetButton().setVisible( true );
- if ( getFoundNodes() == null ) {
- setFoundNodes( new HashSet<Long>() );
+ getControlPanel().getSearchFoundCountsLabel0().setVisible( true );
+ getControlPanel().getSearchResetButton0().setEnabled( true );
+ getControlPanel().getSearchResetButton0().setVisible( true );
+ if ( getFoundNodes0() == null ) {
+ setFoundNodes0( new HashSet<Long>() );
}
- getFoundNodes().add( node.getId() );
- getControlPanel().setSearchFoundCountsOnLabel( getFoundNodes().size() );
+ getFoundNodes0().add( node.getId() );
+ getControlPanel().setSearchFoundCountsOnLabel0( getFoundNodes0().size() );
}
}
_current_external_nodes_data_buffer = sb;
}
- final void setFoundNodes( final Set<Long> found_nodes ) {
- _found_nodes = found_nodes;
+ final void setFoundNodes0( final Set<Long> found_nodes ) {
+ _found_nodes_0 = found_nodes;
+ }
+
+ final void setFoundNodes1( final Set<Long> found_nodes ) {
+ _found_nodes_1 = found_nodes;
}
final void setInOvRect( final boolean in_ov_rect ) {
DESCENDANT_SORT_PRIORITY pri = DESCENDANT_SORT_PRIORITY.TAXONOMY;
if ( ( !getControlPanel().isShowTaxonomyScientificNames() && !getControlPanel().isShowTaxonomyCode() && !getControlPanel()
.isShowTaxonomyCommonNames() ) ) {
- if ( ( getControlPanel().isShowSequenceAcc() || getControlPanel().isShowGeneNames() || getControlPanel()
- .isShowGeneSymbols() ) ) {
+ if ( ( getControlPanel().isShowSequenceAcc() || getControlPanel().isShowSeqNames() || getControlPanel()
+ .isShowSeqSymbols() ) ) {
pri = DESCENDANT_SORT_PRIORITY.SEQUENCE;
}
else if ( getControlPanel().isShowNodeNames() ) {
_sub_phylogenies[ _subtree_index ] = _phylogeny;
_sub_phylogenies_temp_roots[ _subtree_index ] = node;
++_subtree_index;
- _phylogeny = subTree( node, _phylogeny );
+ _phylogeny = TreePanelUtil.subTree( node, _phylogeny );
updateSubSuperTreeButton();
}
else if ( node.isRoot() && isCurrentTreeIsSubtree() ) {
return;
}
setWaitCursor();
- AptxUtil.colorPhylogenyAccordingToExternalTaxonomy( _phylogeny, this );
+ TreePanelUtil.colorPhylogenyAccordingToExternalTaxonomy( _phylogeny, this );
_control_panel.setColorBranches( true );
if ( _control_panel.getColorBranchesCb() != null ) {
_control_panel.getColorBranchesCb().setSelected( true );
&& ( getCopiedAndPastedNodes() != null )
&& !to_pdf
&& !to_graphics_file && getCopiedAndPastedNodes().contains( node.getId() ) ) {
- g.setColor( getTreeColorSet().getFoundColor() );
+ g.setColor( getTreeColorSet().getFoundColor0() );
}
else if ( getControlPanel().isColorBranches() && ( PhylogenyMethods.getBranchColorValue( node ) != null ) ) {
g.setColor( PhylogenyMethods.getBranchColorValue( node ) );
}
}
if ( type == '?' ) {
- if ( SequenceIdParser.isProtein( query ) ) {
+ if ( SequenceAccessionTools.isProteinDbQuery( query ) ) {
type = 'p';
}
else {
if ( !ForesterUtil.isEmpty( ann_str ) ) {
c = getControlPanel().getAnnotationColors().get( ann_str );
if ( c == null ) {
- c = AptxUtil.calculateColorFromString( ann_str, false );
+ c = TreePanelUtil.calculateColorFromString( ann_str, false );
getControlPanel().getAnnotationColors().put( ann_str, c );
}
if ( c == null ) {
JOptionPane.WARNING_MESSAGE );
}
- final private void colorizeSubtree( final Color c, final PhylogenyNode node ) {
- if ( getPhylogenyGraphicsType() == PHYLOGENY_GRAPHICS_TYPE.UNROOTED ) {
- JOptionPane.showMessageDialog( this,
- "Cannot colorize subtree in unrooted display type",
- "Attempt to colorize subtree in unrooted display",
- JOptionPane.WARNING_MESSAGE );
- return;
- }
+ final private void colorizeSubtree( final Color c,
+ final PhylogenyNode node,
+ final List<PhylogenyNode> additional_nodes ) {
_control_panel.setColorBranches( true );
if ( _control_panel.getColorBranchesCb() != null ) {
_control_panel.getColorBranchesCb().setSelected( true );
}
- for( final PreorderTreeIterator it = new PreorderTreeIterator( node ); it.hasNext(); ) {
- it.next().getBranchData().setBranchColor( new BranchColor( c ) );
+ if ( node != null ) {
+ for( final PreorderTreeIterator it = new PreorderTreeIterator( node ); it.hasNext(); ) {
+ it.next().getBranchData().setBranchColor( new BranchColor( c ) );
+ }
+ }
+ if ( additional_nodes != null ) {
+ for( final PhylogenyNode n : additional_nodes ) {
+ n.getBranchData().setBranchColor( new BranchColor( c ) );
+ }
}
repaint();
}
final private void colorSubtree( final PhylogenyNode node ) {
- Color intitial_color = null;
- if ( getControlPanel().isColorBranches() && ( PhylogenyMethods.getBranchColorValue( node ) != null )
- && ( ( ( !node.isRoot() && ( node.getParent().getNumberOfDescendants() < 3 ) ) ) || ( node.isRoot() ) ) ) {
- intitial_color = PhylogenyMethods.getBranchColorValue( node );
+ if ( getPhylogenyGraphicsType() == PHYLOGENY_GRAPHICS_TYPE.UNROOTED ) {
+ JOptionPane.showMessageDialog( this,
+ "Cannot colorize subtree in unrooted display type",
+ "Attempt to colorize subtree in unrooted display",
+ JOptionPane.WARNING_MESSAGE );
+ return;
+ }
+ _color_chooser.setPreviewPanel( new JPanel() );
+ SubtreeColorizationActionListener al;
+ if ( ( getFoundNodes0() != null ) && !getFoundNodes0().isEmpty() ) {
+ final List<PhylogenyNode> additional_nodes = getFoundNodes0AsListOfPhylogenyNodes();
+ al = new SubtreeColorizationActionListener( _color_chooser, node, additional_nodes );
}
else {
- intitial_color = getTreeColorSet().getBranchColor();
+ al = new SubtreeColorizationActionListener( _color_chooser, node );
}
- _color_chooser.setColor( intitial_color );
- _color_chooser.setPreviewPanel( new JPanel() );
final JDialog dialog = JColorChooser
- .createDialog( this,
- "Subtree colorization",
- true,
- _color_chooser,
- new SubtreeColorizationActionListener( _color_chooser, node ),
- null );
+ .createDialog( this, "Subtree colorization", true, _color_chooser, al, null );
dialog.setVisible( true );
}
JOptionPane.ERROR_MESSAGE );
}
+ private final Color getColorForFoundNode( final PhylogenyNode n ) {
+ if ( isInCurrentExternalNodes( n ) ) {
+ return getTreeColorSet().getFoundColor0();
+ }
+ else if ( isInFoundNodes0( n ) && !isInFoundNodes1( n ) ) {
+ return getTreeColorSet().getFoundColor0();
+ }
+ else if ( !isInFoundNodes0( n ) && isInFoundNodes1( n ) ) {
+ return getTreeColorSet().getFoundColor1();
+ }
+ else {
+ return getTreeColorSet().getFoundColor0and1();
+ }
+ }
+
final private Set<Long> getCopiedAndPastedNodes() {
return getMainPanel().getCopiedAndPastedNodes();
}
return getMainPanel().getCutOrCopiedTree();
}
+ private List<PhylogenyNode> getFoundNodes0AsListOfPhylogenyNodes() {
+ final List<PhylogenyNode> additional_nodes = new ArrayList<PhylogenyNode>();
+ for( final Long id : getFoundNodes0() ) {
+ additional_nodes.add( _phylogeny.getNode( id ) );
+ }
+ return additional_nodes;
+ }
+
+ private List<PhylogenyNode> getFoundNodes1AsListOfPhylogenyNodes() {
+ final List<PhylogenyNode> additional_nodes = new ArrayList<PhylogenyNode>();
+ for( final Long id : getFoundNodes1() ) {
+ additional_nodes.add( _phylogeny.getNode( id ) );
+ }
+ return additional_nodes;
+ }
+
final private float getLastDragPointX() {
return _last_drag_point_x;
}
return _ov_y_start;
}
+ final private List<Accession> getPdbAccs( final PhylogenyNode node ) {
+ final List<Accession> pdb_ids = new ArrayList<Accession>();
+ if ( node.getNodeData().isHasSequence() ) {
+ final Sequence seq = node.getNodeData().getSequence();
+ if ( !ForesterUtil.isEmpty( seq.getCrossReferences() ) ) {
+ final SortedSet<Accession> cross_refs = seq.getCrossReferences();
+ for( final Accession acc : cross_refs ) {
+ if ( acc.getSource().equalsIgnoreCase( "pdb" ) ) {
+ pdb_ids.add( acc );
+ }
+ }
+ }
+ }
+ return pdb_ids;
+ }
+
final private double getScaleDistance() {
return _scale_distance;
}
case OPEN_TAX_WEB:
openTaxWeb( node );
break;
+ case OPEN_PDB_WEB:
+ openPdbWeb( node );
+ break;
case CUT_SUBTREE:
cutSubtree( node );
break;
}
final private String isCanOpenSeqWeb( final PhylogenyNode node ) {
- String v = ForesterUtil.extractUniProtKbProteinSeqIdentifier( node );
- if ( ForesterUtil.isEmpty( v ) ) {
- v = ForesterUtil.extractGenbankAccessor( node );
- }
- if ( ForesterUtil.isEmpty( v ) ) {
- v = ForesterUtil.extractRefSeqAccessorAccessor( node );
- }
- if ( ForesterUtil.isEmpty( v ) ) {
- v = ForesterUtil.extractGInumber( node );
+ final Accession a = SequenceAccessionTools.obtainAccessorFromDataFields( node );
+ if ( a != null ) {
+ return a.getValue();
}
- return v;
+ return null;
}
final private boolean isCanOpenTaxWeb( final PhylogenyNode node ) {
return ( ( getCurrentExternalNodes() != null ) && getCurrentExternalNodes().contains( node.getId() ) );
}
- final private boolean isInFoundNodes( final PhylogenyNode node ) {
- return ( ( getFoundNodes() != null ) && getFoundNodes().contains( node.getId() ) );
+ private boolean isInFoundNodes( final PhylogenyNode n ) {
+ return isInFoundNodes0( n ) || isInFoundNodes1( n );
+ }
+
+ final private boolean isInFoundNodes0( final PhylogenyNode node ) {
+ return ( ( getFoundNodes0() != null ) && getFoundNodes0().contains( node.getId() ) );
+ }
+
+ final private boolean isInFoundNodes1( final PhylogenyNode node ) {
+ return ( ( getFoundNodes1() != null ) && getFoundNodes1().contains( node.getId() ) );
}
final private boolean isInOv() {
_node_popup_menu_items[ i ].setEnabled( false );
}
}
+ else if ( title.equals( Configuration.clickto_options[ Configuration.open_pdb_web ][ 0 ] ) ) {
+ final List<Accession> accs = getPdbAccs( node );
+ _node_popup_menu_items[ i ] = new JMenuItem( title );
+ if ( !ForesterUtil.isEmpty( accs ) ) {
+ if ( accs.size() == 1 ) {
+ _node_popup_menu_items[ i ].setText( _node_popup_menu_items[ i ].getText() + " ["
+ + TreePanelUtil.pdbAccToString( accs, 0 ) + "]" );
+ _node_popup_menu_items[ i ].setEnabled( true );
+ }
+ else if ( accs.size() == 2 ) {
+ _node_popup_menu_items[ i ].setText( _node_popup_menu_items[ i ].getText() + " ["
+ + TreePanelUtil.pdbAccToString( accs, 0 ) + ", "
+ + TreePanelUtil.pdbAccToString( accs, 1 ) + "]" );
+ _node_popup_menu_items[ i ].setEnabled( true );
+ }
+ else if ( accs.size() == 3 ) {
+ _node_popup_menu_items[ i ].setText( _node_popup_menu_items[ i ].getText() + " ["
+ + TreePanelUtil.pdbAccToString( accs, 0 ) + ", "
+ + TreePanelUtil.pdbAccToString( accs, 1 ) + ", "
+ + TreePanelUtil.pdbAccToString( accs, 2 ) + "]" );
+ _node_popup_menu_items[ i ].setEnabled( true );
+ }
+ else {
+ _node_popup_menu_items[ i ].setText( _node_popup_menu_items[ i ].getText() + " ["
+ + TreePanelUtil.pdbAccToString( accs, 0 ) + ", "
+ + TreePanelUtil.pdbAccToString( accs, 1 ) + ", "
+ + TreePanelUtil.pdbAccToString( accs, 2 ) + ", + " + ( accs.size() - 3 ) + " more]" );
+ _node_popup_menu_items[ i ].setEnabled( true );
+ }
+ }
+ else {
+ _node_popup_menu_items[ i ].setEnabled( false );
+ }
+ //
+ }
else if ( title.equals( Configuration.clickto_options[ Configuration.open_tax_web ][ 0 ] ) ) {
_node_popup_menu_items[ i ].setEnabled( isCanOpenTaxWeb( node ) );
}
switch ( getOptions().getExtDescNodeDataToReturn() ) {
case NODE_NAME:
return "Node Names";
+ case GENE_NAME:
+ return "Gene Names";
case SEQUENCE_NAME:
return "Sequence Names";
case SEQUENCE_SYMBOL:
}
}
+ final private void openPdbWeb( final PhylogenyNode node ) {
+ final List<Accession> pdb_ids = getPdbAccs( node );
+ if ( ForesterUtil.isEmpty( pdb_ids ) ) {
+ cannotOpenBrowserWarningMessage( "PDB" );
+ return;
+ }
+ final List<String> uri_strs = TreePanelUtil.createUrisForPdbWeb( node, pdb_ids, getConfiguration(), this );
+ if ( !ForesterUtil.isEmpty( uri_strs ) ) {
+ for( final String uri_str : uri_strs ) {
+ try {
+ AptxUtil.launchWebBrowser( new URI( uri_str ),
+ isApplet(),
+ isApplet() ? obtainApplet() : null,
+ "_aptx_seq" );
+ }
+ catch ( final IOException e ) {
+ AptxUtil.showErrorMessage( this, e.toString() );
+ e.printStackTrace();
+ }
+ catch ( final URISyntaxException e ) {
+ AptxUtil.showErrorMessage( this, e.toString() );
+ e.printStackTrace();
+ }
+ }
+ }
+ else {
+ cannotOpenBrowserWarningMessage( "PDB" );
+ }
+ }
+
final private void openSeqWeb( final PhylogenyNode node ) {
if ( ForesterUtil.isEmpty( isCanOpenSeqWeb( node ) ) ) {
cannotOpenBrowserWarningMessage( "sequence" );
return;
}
- final String uri_str = AptxUtil.createUriForSeqWeb( node, getConfiguration(), this );
+ final String uri_str = TreePanelUtil.createUriForSeqWeb( node, getConfiguration(), this );
if ( !ForesterUtil.isEmpty( uri_str ) ) {
try {
AptxUtil.launchWebBrowser( new URI( uri_str ),
}
}
if ( node.isExternal() ) {
- paintNodeBox( x2, y2, node, g, to_pdf, to_graphics_file, isInFoundNodes( node )
- || isInCurrentExternalNodes( node ) );
+ paintNodeBox( x2, y2, node, g, to_pdf, to_graphics_file );
}
}
c = Color.BLACK;
}
else if ( is_in_found_nodes ) {
- c = getTreeColorSet().getFoundColor();
+ c = getColorForFoundNode( node );
}
else if ( getControlPanel().isColorAccordingToTaxonomy() ) {
c = getTaxonomyBasedColor( node );
final boolean to_pdf,
final boolean to_graphics_file ) {
final List<Confidence> confidences = node.getBranchData().getConfidences();
- // if ( confidences.size() == 1 ) {
- // final double value = node.getBranchData().getConfidence( 0 ).getValue();
- // if ( ( value == Confidence.CONFIDENCE_DEFAULT_VALUE ) || ( value < getOptions().getMinConfidenceValue() ) ) {
- // return;
- // }
- // conf_str = FORMATTER_CONFIDENCE.format( value );
- // }
- // else if ( confidences.size() > 1 ) {
- boolean one_ok = false;
boolean not_first = false;
Collections.sort( confidences );
final StringBuilder sb = new StringBuilder();
- String conf_str = "";
for( final Confidence confidence : confidences ) {
final double value = confidence.getValue();
if ( value != Confidence.CONFIDENCE_DEFAULT_VALUE ) {
- if ( value >= getOptions().getMinConfidenceValue() ) {
- one_ok = true;
+ if ( value < getOptions().getMinConfidenceValue() ) {
+ return;
}
if ( not_first ) {
sb.append( "/" );
}
}
}
- //}
- if ( one_ok ) {
- conf_str = sb.toString();
- }
}
- if ( conf_str.length() > 0 ) {
+ if ( sb.length() > 0 ) {
final double parent_x = node.getParent().getXcoord();
double x = node.getXcoord();
g.setFont( getTreeFontSet().getSmallFont() );
else {
g.setColor( getTreeColorSet().getConfidenceColor() );
}
+ final String conf_str = sb.toString();
TreePanel
.drawString( conf_str,
parent_x
}
}
- final private void paintFoundNode( final int x, final int y, final Graphics2D g ) {
- final int box_size = getOptions().getDefaultNodeShapeSize();
- final int half_box_size = getOptions().getDefaultNodeShapeSize() / 2;
- g.setColor( getTreeColorSet().getFoundColor() );
- g.fillRect( x - half_box_size, y - half_box_size, box_size, box_size );
- }
-
final private void paintGainedAndLostCharacters( final Graphics2D g,
final PhylogenyNode node,
final String gained,
final PhylogenyNode node,
final Graphics2D g,
final boolean to_pdf,
- final boolean to_graphics_file,
- final boolean is_in_found_nodes ) {
+ final boolean to_graphics_file ) {
if ( node.isCollapse() ) {
return;
}
// if this node should be highlighted, do so
if ( ( _highlight_node == node ) && !to_pdf && !to_graphics_file ) {
- g.setColor( getTreeColorSet().getFoundColor() );
+ g.setColor( getTreeColorSet().getFoundColor0() );
drawOval( x - 8, y - 8, 16, 16, g );
drawOval( x - 9, y - 8, 17, 17, g );
drawOval( x - 9, y - 9, 18, 18, g );
}
- if ( is_in_found_nodes ) {
- paintFoundNode( ForesterUtil.roundToInt( x ), ForesterUtil.roundToInt( y ), g );
- }
- else {
+ if ( ( isInFoundNodes( node ) || isInCurrentExternalNodes( node ) )
+ || ( getOptions().isShowDefaultNodeShapesExternal() && node.isExternal() )
+ || ( getOptions().isShowDefaultNodeShapesInternal() && node.isInternal() )
+ || ( getControlPanel().isEvents() && node.isHasAssignedEvent() && ( node.getNodeData().getEvent()
+ .isDuplication()
+ || node.getNodeData().getEvent().isSpeciation() || node.getNodeData().getEvent()
+ .isSpeciationOrDuplication() ) ) ) {
+ final double box_size = getOptions().getDefaultNodeShapeSize();
+ final double half_box_size = box_size / 2.0;
Color outline_color = null;
if ( ( to_pdf || to_graphics_file ) && getOptions().isPrintBlackAndWhite() ) {
outline_color = Color.BLACK;
}
- else if ( getControlPanel().isEvents() && AptxUtil.isHasAssignedEvent( node ) ) {
+ else if ( isInFoundNodes( node ) || isInCurrentExternalNodes( node ) ) {
+ outline_color = getColorForFoundNode( node );
+ }
+ else if ( getControlPanel().isEvents() && TreePanelUtil.isHasAssignedEvent( node ) ) {
final Event event = node.getNodeData().getEvent();
if ( event.isDuplication() ) {
outline_color = getTreeColorSet().getDuplicationBoxColor();
outline_color = getTreeColorSet().getDuplicationOrSpeciationColor();
}
}
- else if ( getOptions().isTaxonomyColorizeNodeShapes() ) {
- outline_color = getTaxonomyBasedColor( node );
- }
else {
outline_color = getGraphicsForNodeBoxWithColorForParentBranch( node );
if ( to_pdf && ( outline_color == getTreeColorSet().getBranchColor() ) ) {
outline_color = getTreeColorSet().getBranchColorForPdf();
}
}
- final int box_size = getOptions().getDefaultNodeShapeSize();
- final int half_box_size = box_size / 2;
- if ( ( getOptions().isShowDefaultNodeShapesExternal() && node.isExternal() )
- || ( getOptions().isShowDefaultNodeShapesInternal() && node.isInternal() )
- || ( getControlPanel().isEvents() && node.isHasAssignedEvent() ) ) {
- if ( getOptions().getDefaultNodeShape() == NodeShape.CIRCLE ) {
- if ( getOptions().getDefaultNodeFill() == NodeFill.GRADIENT ) {
- drawOvalGradient( x - half_box_size,
- y - half_box_size,
- box_size,
- box_size,
- g,
- to_pdf ? Color.WHITE : outline_color,
- to_pdf ? outline_color : getBackground(),
- outline_color );
- }
- else if ( getOptions().getDefaultNodeFill() == NodeFill.NONE ) {
- Color background = getBackground();
- if ( to_pdf ) {
- background = Color.WHITE;
- }
- drawOvalGradient( x - half_box_size,
- y - half_box_size,
- box_size,
- box_size,
- g,
- background,
- background,
- outline_color );
- }
- else if ( getOptions().getDefaultNodeFill() == NodeVisualization.NodeFill.SOLID ) {
- g.setColor( outline_color );
- drawOvalFilled( x - half_box_size, y - half_box_size, box_size, box_size, g );
- }
+ if ( getOptions().getDefaultNodeShape() == NodeShape.CIRCLE ) {
+ if ( getOptions().getDefaultNodeFill() == NodeFill.GRADIENT ) {
+ drawOvalGradient( x - half_box_size, y - half_box_size, box_size, box_size, g, to_pdf ? Color.WHITE
+ : outline_color, to_pdf ? outline_color : getBackground(), outline_color );
}
- else if ( getOptions().getDefaultNodeShape() == NodeVisualization.NodeShape.RECTANGLE ) {
- if ( getOptions().getDefaultNodeFill() == NodeVisualization.NodeFill.GRADIENT ) {
- drawRectGradient( x - half_box_size,
- y - half_box_size,
- box_size,
- box_size,
- g,
- to_pdf ? Color.WHITE : outline_color,
- to_pdf ? outline_color : getBackground(),
- outline_color );
+ else if ( getOptions().getDefaultNodeFill() == NodeFill.NONE ) {
+ Color background = getBackground();
+ if ( to_pdf ) {
+ background = Color.WHITE;
}
- else if ( getOptions().getDefaultNodeFill() == NodeVisualization.NodeFill.NONE ) {
- Color background = getBackground();
- if ( to_pdf ) {
- background = Color.WHITE;
- }
- drawRectGradient( x - half_box_size,
- y - half_box_size,
- box_size,
- box_size,
- g,
- background,
- background,
- outline_color );
- }
- else if ( getOptions().getDefaultNodeFill() == NodeVisualization.NodeFill.SOLID ) {
- g.setColor( outline_color );
- drawRectFilled( x - half_box_size, y - half_box_size, box_size, box_size, g );
+ drawOvalGradient( x - half_box_size,
+ y - half_box_size,
+ box_size,
+ box_size,
+ g,
+ background,
+ background,
+ outline_color );
+ }
+ else if ( getOptions().getDefaultNodeFill() == NodeVisualization.NodeFill.SOLID ) {
+ g.setColor( outline_color );
+ drawOvalFilled( x - half_box_size, y - half_box_size, box_size, box_size, g );
+ }
+ }
+ else if ( getOptions().getDefaultNodeShape() == NodeVisualization.NodeShape.RECTANGLE ) {
+ if ( getOptions().getDefaultNodeFill() == NodeVisualization.NodeFill.GRADIENT ) {
+ drawRectGradient( x - half_box_size, y - half_box_size, box_size, box_size, g, to_pdf ? Color.WHITE
+ : outline_color, to_pdf ? outline_color : getBackground(), outline_color );
+ }
+ else if ( getOptions().getDefaultNodeFill() == NodeVisualization.NodeFill.NONE ) {
+ Color background = getBackground();
+ if ( to_pdf ) {
+ background = Color.WHITE;
}
+ drawRectGradient( x - half_box_size,
+ y - half_box_size,
+ box_size,
+ box_size,
+ g,
+ background,
+ background,
+ outline_color );
+ }
+ else if ( getOptions().getDefaultNodeFill() == NodeVisualization.NodeFill.SOLID ) {
+ g.setColor( outline_color );
+ drawRectFilled( x - half_box_size, y - half_box_size, box_size, box_size, g );
}
}
}
g.setColor( Color.BLACK );
}
else if ( is_in_found_nodes ) {
- g.setColor( getTreeColorSet().getFoundColor() );
+ g.setColor( getColorForFoundNode( node ) );
}
else if ( getControlPanel().isColorAccordingToTaxonomy() ) {
g.setColor( getTaxonomyBasedColor( node ) );
_sb.append( node.getName() );
}
if ( node.getNodeData().isHasSequence() ) {
- if ( getControlPanel().isShowGeneSymbols() && ( node.getNodeData().getSequence().getSymbol().length() > 0 ) ) {
+ if ( getControlPanel().isShowSeqSymbols() && ( node.getNodeData().getSequence().getSymbol().length() > 0 ) ) {
if ( _sb.length() > 0 ) {
_sb.append( " " );
}
_sb.append( node.getNodeData().getSequence().getSymbol() );
}
- if ( getControlPanel().isShowGeneNames() && ( node.getNodeData().getSequence().getName().length() > 0 ) ) {
+ if ( getControlPanel().isShowGeneNames() && ( node.getNodeData().getSequence().getGeneName().length() > 0 ) ) {
+ if ( _sb.length() > 0 ) {
+ _sb.append( " " );
+ }
+ _sb.append( node.getNodeData().getSequence().getGeneName() );
+ }
+ if ( getControlPanel().isShowSeqNames() && ( node.getNodeData().getSequence().getName().length() > 0 ) ) {
if ( _sb.length() > 0 ) {
_sb.append( " " );
}
else if ( getControlPanel().isColorAccordingToAnnotation() ) {
g.setColor( calculateColorForAnnotation( ann ) );
}
- final String ann_str = AptxUtil.createAnnotationString( ann, getOptions().isShowAnnotationRefSource() );
+ final String ann_str = TreePanelUtil.createAnnotationString( ann, getOptions().isShowAnnotationRefSource() );
TreePanel.drawString( ann_str, node.getXcoord() + x + 3 + half_box_size, node.getYcoord()
+ ( getTreeFontSet()._fm_large.getAscent() / down_shift_factor ), g );
_sb.setLength( 0 );
g.setColor( Color.BLACK );
}
else if ( is_in_found_nodes ) {
- g.setColor( getTreeColorSet().getFoundColor() );
+ g.setColor( getColorForFoundNode( node ) );
}
else if ( getControlPanel().isColorAccordingToTaxonomy() ) {
g.setColor( getTaxonomyBasedColor( node ) );
}
_sb.append( node.getNodeData().getSequence().getAccession().getValue() );
}
- if ( getControlPanel().isShowGeneNames() && ( node.getNodeData().getSequence().getName().length() > 0 ) ) {
+ if ( getControlPanel().isShowSeqNames() && ( node.getNodeData().getSequence().getName().length() > 0 ) ) {
if ( _sb.length() > 0 ) {
_sb.append( " " );
}
return;
}
if ( isInFoundNodes( node ) || isInCurrentExternalNodes( node ) ) {
- g.setColor( getTreeColorSet().getFoundColor() );
- drawRectFilled( node.getXSecondary() - 1, node.getYSecondary() - 1, 3, 3, g );
+ g.setColor( getColorForFoundNode( node ) );
+ drawRectFilled( node.getXSecondary() - OVERVIEW_FOUND_NODE_BOX_SIZE_HALF, node.getYSecondary()
+ - OVERVIEW_FOUND_NODE_BOX_SIZE_HALF, OVERVIEW_FOUND_NODE_BOX_SIZE, OVERVIEW_FOUND_NODE_BOX_SIZE, g );
}
float new_x = 0;
if ( !node.isExternal() && !node.isCollapse() ) {
child_node.setYcoord( y2 );
y2 += _y_distance * child_node.getNumberOfExternalNodes();
}
- paintNodeBox( node.getXcoord(), node.getYcoord(), node, g, to_pdf, to_graphics_file, isInFoundNodes( node )
- || isInCurrentExternalNodes( node ) );
+ paintNodeBox( node.getXcoord(), node.getYcoord(), node, g, to_pdf, to_graphics_file );
}
if ( dynamically_hide
&& !is_in_found_nodes
}
}
if ( node.getNodeData().isHasSequence() ) {
- if ( getControlPanel().isShowGeneNames()
+ if ( getControlPanel().isShowSeqNames()
&& ( !ForesterUtil.isEmpty( node.getNodeData().getSequence().getName() ) ) ) {
x += getTreeFontSet()._fm_large.stringWidth( node.getNodeData().getSequence().getName()
+ " " );
}
- if ( getControlPanel().isShowGeneSymbols()
+ if ( getControlPanel().isShowSeqSymbols()
&& ( !ForesterUtil.isEmpty( node.getNodeData().getSequence().getSymbol() ) ) ) {
x += getTreeFontSet()._fm_large.stringWidth( node.getNodeData().getSequence().getSymbol()
+ " " );
}
+ if ( getControlPanel().isShowGeneNames()
+ && ( !ForesterUtil.isEmpty( node.getNodeData().getSequence().getGeneName() ) ) ) {
+ x += getTreeFontSet()._fm_large.stringWidth( node.getNodeData().getSequence().getGeneName()
+ + " " );
+ }
if ( getControlPanel().isShowSequenceAcc()
&& ( node.getNodeData().getSequence().getAccession() != null ) ) {
x += getTreeFontSet()._fm_large.stringWidth( node.getNodeData().getSequence()
if ( getControlPanel().isShowAnnotation()
&& ( node.getNodeData().getSequence().getAnnotations() != null )
&& ( !node.getNodeData().getSequence().getAnnotations().isEmpty() ) ) {
- x += getTreeFontSet()._fm_large.stringWidth( AptxUtil.createAnnotationString( node
+ x += getTreeFontSet()._fm_large.stringWidth( TreePanelUtil.createAnnotationString( node
.getNodeData().getSequence().getAnnotations(), getOptions()
.isShowAnnotationRefSource() )
+ " " );
final float height = getOvMaxHeight() / h_ratio;
final float x = getVisibleRect().x + getOvXPosition() + ( getOvMaxWidth() / x_ratio );
final float y = getVisibleRect().y + getOvYPosition() + ( getOvMaxHeight() / y_ratio );
- g.setColor( getTreeColorSet().getFoundColor() );
+ g.setColor( getTreeColorSet().getFoundColor0() );
getOvRectangle().setRect( x, y, width, height );
final Stroke s = g.getStroke();
g.setStroke( STROKE_1 );
final double w = PhylogenyMethods.getBranchWidthValue( root );
drawRectFilled( x1 - d, root.getYcoord() - ( w / 2 ), d, w, g );
}
- paintNodeBox( x1, root.getYcoord(), root, g, to_pdf, to_graphics_file, isInFoundNodes( root ) );
+ paintNodeBox( x1, root.getYcoord(), root, g, to_pdf, to_graphics_file );
}
final private void paintScale( final Graphics2D g,
}
else if ( is_in_found_nodes ) {
g.setFont( getTreeFontSet().getLargeItalicFont().deriveFont( TreeFontSet.BOLD_AND_ITALIC ) );
- g.setColor( getTreeColorSet().getFoundColor() );
+ g.setColor( getColorForFoundNode( node ) );
}
else if ( getControlPanel().isColorAccordingToTaxonomy() ) {
g.setColor( getTaxonomyBasedColor( node ) );
current_angle += arc_size;
assignGraphicsForBranchWithColorForParentBranch( desc, false, g, to_pdf, to_graphics_file );
drawLine( x, y, new_x, new_y, g );
- paintNodeBox( new_x, new_y, desc, g, to_pdf, to_graphics_file, isInFoundNodes( desc )
- || isInCurrentExternalNodes( desc ) );
+ paintNodeBox( new_x, new_y, desc, g, to_pdf, to_graphics_file );
}
if ( n.isRoot() ) {
- paintNodeBox( n.getXcoord(), n.getYcoord(), n, g, to_pdf, to_graphics_file, isInFoundNodes( n ) );
+ paintNodeBox( n.getXcoord(), n.getYcoord(), n, g, to_pdf, to_graphics_file );
}
}
desc.setXSecondary( new_x );
desc.setYSecondary( new_y );
if ( isInFoundNodes( desc ) || isInCurrentExternalNodes( desc ) ) {
- g.setColor( getTreeColorSet().getFoundColor() );
- drawRectFilled( desc.getXSecondary() - 1, desc.getYSecondary() - 1, 3, 3, g );
+ g.setColor( getColorForFoundNode( desc ) );
+ drawRectFilled( desc.getXSecondary() - OVERVIEW_FOUND_NODE_BOX_SIZE_HALF,
+ desc.getYSecondary() - OVERVIEW_FOUND_NODE_BOX_SIZE_HALF,
+ OVERVIEW_FOUND_NODE_BOX_SIZE,
+ OVERVIEW_FOUND_NODE_BOX_SIZE,
+ g );
g.setColor( getTreeColorSet().getOvColor() );
}
paintUnrootedLite( desc, current_angle, current_angle + arc_size, g, urt_ov_factor );
sb.append( " " );
}
final Property p = properties.getProperty( ref );
- sb.append( getPartAfterColon( p.getRef() ) );
+ sb.append( TreePanelUtil.getPartAfterColon( p.getRef() ) );
sb.append( "=" );
sb.append( p.getValue() );
if ( !ForesterUtil.isEmpty( p.getUnit() ) ) {
- sb.append( getPartAfterColon( p.getUnit() ) );
+ sb.append( TreePanelUtil.getPartAfterColon( p.getUnit() ) );
}
}
return sb;
private void showExtDescNodeData( final PhylogenyNode node ) {
final List<String> data = new ArrayList<String>();
- for( final PhylogenyNode n : node.getAllExternalDescendants() ) {
+ final List<PhylogenyNode> nodes = node.getAllExternalDescendants();
+ if ( ( getFoundNodes0() != null ) && !getFoundNodes0().isEmpty() ) {
+ for( final PhylogenyNode n : getFoundNodes0AsListOfPhylogenyNodes() ) {
+ if ( !nodes.contains( n ) ) {
+ nodes.add( n );
+ }
+ }
+ }
+ if ( ( getFoundNodes1() != null ) && !getFoundNodes1().isEmpty() ) {
+ for( final PhylogenyNode n : getFoundNodes1AsListOfPhylogenyNodes() ) {
+ if ( !nodes.contains( n ) ) {
+ nodes.add( n );
+ }
+ }
+ }
+ for( final PhylogenyNode n : nodes ) {
switch ( getOptions().getExtDescNodeDataToReturn() ) {
case NODE_NAME:
if ( !ForesterUtil.isEmpty( n.getName() ) ) {
data.add( n.getNodeData().getSequence().getName() );
}
break;
+ case GENE_NAME:
+ if ( n.getNodeData().isHasSequence()
+ && !ForesterUtil.isEmpty( n.getNodeData().getSequence().getGeneName() ) ) {
+ data.add( n.getNodeData().getSequence().getGeneName() );
+ }
+ break;
case SEQUENCE_SYMBOL:
if ( n.getNodeData().isHasSequence()
&& !ForesterUtil.isEmpty( n.getNodeData().getSequence().getSymbol() ) ) {
ann.append( n.getNodeData().getSequence().getName() );
ann.append( "|" );
}
+ if ( !ForesterUtil.isEmpty( n.getNodeData().getSequence().getGeneName() ) ) {
+ ann.append( "GN=" );
+ ann.append( n.getNodeData().getSequence().getGeneName() );
+ ann.append( "|" );
+ }
if ( n.getNodeData().getSequence().getAccession() != null ) {
ann.append( "ACC=" );
ann.append( n.getNodeData().getSequence().getAccession().asText() );
ann.append( "|" );
}
}
- String ann_str = ann.toString().trim();
- if ( ann_str.endsWith( "|" ) ) {
- ann_str = ann_str.substring( 0, ann_str.length() - 1 );
+ String ann_str;
+ if ( ann.charAt( ann.length() - 1 ) == '|' ) {
+ ann_str = ann.substring( 0, ann.length() - 1 );
+ }
+ else {
+ ann_str = ann.toString();
}
sb.append( SequenceWriter.toFasta( ann_str, n.getNodeData().getSequence()
.getMolecularSequence(), 60 ) );
}
break;
case UNKNOWN:
- AptxUtil.showExtDescNodeDataUserSelectedHelper( getControlPanel(), n, data );
+ TreePanelUtil.showExtDescNodeDataUserSelectedHelper( getControlPanel(), n, data );
break;
default:
throw new IllegalArgumentException( "unknown data element: "
}
} // for loop
final StringBuilder sb = new StringBuilder();
- final int size = makeSB( data, getOptions(), sb );
+ final int size = TreePanelUtil.makeSB( data, getOptions(), sb );
if ( ( getConfiguration().getExtNodeDataReturnOn() == EXT_NODE_DATA_RETURN_ON.CONSOLE )
|| ( getConfiguration().getExtNodeDataReturnOn() == EXT_NODE_DATA_RETURN_ON.BUFFER_ONLY ) ) {
if ( getConfiguration().getExtNodeDataReturnOn() == EXT_NODE_DATA_RETURN_ON.CONSOLE ) {
}
else if ( getConfiguration().getExtNodeDataReturnOn() == EXT_NODE_DATA_RETURN_ON.WINODW ) {
if ( sb.length() < 1 ) {
- AptxUtil.showInformationMessage( this,
- "No Appropriate Data (" + obtainTitleForExtDescNodeData() + ")",
- "Descendants of selected node do not contain selected data" );
+ TreePanelUtil.showInformationMessage( this, "No Appropriate Data (" + obtainTitleForExtDescNodeData()
+ + ")", "Descendants of selected node do not contain selected data" );
clearCurrentExternalNodesDataBuffer();
}
else {
setCurrentExternalNodesDataBuffer( sb );
- final String title = ( getOptions().getExtDescNodeDataToReturn() == NODE_DATA.UNKNOWN ? "Data"
- : obtainTitleForExtDescNodeData() )
- + " for "
- + data.size()
- + "/"
- + node.getNumberOfExternalNodes()
- + " external descendats of node "
- + node
- + ", unique entries: " + size;
+ String title;
+ if ( ( getFoundNodes0() != null ) && !getFoundNodes0().isEmpty() ) {
+ title = ( getOptions().getExtDescNodeDataToReturn() == NODE_DATA.UNKNOWN ? "Data"
+ : obtainTitleForExtDescNodeData() )
+ + " for "
+ + data.size()
+ + " nodes, unique entries: "
+ + size;
+ }
+ else {
+ title = ( getOptions().getExtDescNodeDataToReturn() == NODE_DATA.UNKNOWN ? "Data"
+ : obtainTitleForExtDescNodeData() )
+ + " for "
+ + data.size()
+ + "/"
+ + node.getNumberOfExternalNodes()
+ + " external descendats of node "
+ + node
+ + ", unique entries: " + size;
+ }
final String s = sb.toString().trim();
if ( getMainPanel().getMainFrame() == null ) {
// Must be "E" applet version.
}
}
- private int makeSB( final List<String> data, final Options optz, final StringBuilder sb ) {
- final SortedMap<String, Integer> map = new TreeMap<String, Integer>();
- if ( ( optz.getExtDescNodeDataToReturn() != NODE_DATA.SEQUENCE_MOL_SEQ )
- && ( optz.getExtDescNodeDataToReturn() != NODE_DATA.SEQUENCE_MOL_SEQ_FASTA ) ) {
- for( final String d : data ) {
- if ( !ForesterUtil.isEmpty( d ) ) {
- if ( map.containsKey( d ) ) {
- map.put( d, map.get( d ) + 1 );
- }
- else {
- map.put( d, 1 );
- }
- }
- }
- }
- int size = 0;
- if ( ( optz.getExtDescNodeDataToReturn() != NODE_DATA.SEQUENCE_MOL_SEQ )
- && ( optz.getExtDescNodeDataToReturn() != NODE_DATA.SEQUENCE_MOL_SEQ_FASTA ) ) {
- for( final Entry<String, Integer> e : map.entrySet() ) {
- final String v = e.getKey();
- final Object c = e.getValue();
- sb.append( v );
- sb.append( "\t" );
- sb.append( c );
- sb.append( ForesterUtil.LINE_SEPARATOR );
- }
- size = map.size();
- }
- else {
- for( final String d : data ) {
- if ( !ForesterUtil.isEmpty( d ) ) {
- sb.append( d );
- sb.append( ForesterUtil.LINE_SEPARATOR );
- }
- }
- size = data.size();
- }
- return size;
- }
-
final private void showNodeDataPopup( final MouseEvent e, final PhylogenyNode node ) {
try {
if ( ( node.getName().length() > 0 )
- || ( node.getNodeData().isHasTaxonomy() && !isTaxonomyEmpty( node.getNodeData().getTaxonomy() ) )
- || ( node.getNodeData().isHasSequence() && !isSequenceEmpty( node.getNodeData().getSequence() ) )
- || ( node.getNodeData().isHasDate() ) || ( node.getNodeData().isHasDistribution() )
- || node.getBranchData().isHasConfidences() ) {
+ || ( node.getNodeData().isHasTaxonomy() && !TreePanelUtil.isTaxonomyEmpty( node.getNodeData()
+ .getTaxonomy() ) )
+ || ( node.getNodeData().isHasSequence() && !TreePanelUtil.isSequenceEmpty( node.getNodeData()
+ .getSequence() ) ) || ( node.getNodeData().isHasDate() )
+ || ( node.getNodeData().isHasDistribution() ) || node.getBranchData().isHasConfidences() ) {
_popup_buffer.setLength( 0 );
short lines = 0;
if ( node.getName().length() > 0 ) {
lines++;
_popup_buffer.append( node.getName() );
}
- if ( node.getNodeData().isHasTaxonomy() && !isTaxonomyEmpty( node.getNodeData().getTaxonomy() ) ) {
+ if ( node.getNodeData().isHasTaxonomy()
+ && !TreePanelUtil.isTaxonomyEmpty( node.getNodeData().getTaxonomy() ) ) {
lines++;
boolean enc_data = false;
final Taxonomy tax = node.getNodeData().getTaxonomy();
}
}
}
- if ( node.getNodeData().isHasSequence() && !isSequenceEmpty( node.getNodeData().getSequence() ) ) {
+ if ( node.getNodeData().isHasSequence()
+ && !TreePanelUtil.isSequenceEmpty( node.getNodeData().getSequence() ) ) {
lines++;
boolean enc_data = false;
if ( _popup_buffer.length() > 0 ) {
_popup_buffer.append( "]" );
enc_data = true;
}
+ if ( !ForesterUtil.isEmpty( seq.getGeneName() ) ) {
+ if ( enc_data ) {
+ _popup_buffer.append( " [" );
+ }
+ else {
+ _popup_buffer.append( "[" );
+ }
+ _popup_buffer.append( seq.getGeneName() );
+ _popup_buffer.append( "]" );
+ enc_data = true;
+ }
if ( !ForesterUtil.isEmpty( seq.getName() ) ) {
if ( enc_data ) {
_popup_buffer.append( " " );
for( final String ref : properties.getPropertyRefs() ) {
_popup_buffer.append( "\n" );
final Property p = properties.getProperty( ref );
- _popup_buffer.append( getPartAfterColon( p.getRef() ) );
+ _popup_buffer.append( TreePanelUtil.getPartAfterColon( p.getRef() ) );
_popup_buffer.append( "=" );
_popup_buffer.append( p.getValue() );
if ( !ForesterUtil.isEmpty( p.getUnit() ) ) {
- _popup_buffer.append( getPartAfterColon( p.getUnit() ) );
+ _popup_buffer.append( TreePanelUtil.getPartAfterColon( p.getUnit() ) );
}
}
}
_rollover_popup
.setBorder( BorderFactory.createLineBorder( getTreeColorSet().getBranchColor() ) );
_rollover_popup.setBackground( getTreeColorSet().getBackgroundColor() );
- if ( isInFoundNodes( node ) ) {
- _rollover_popup.setForeground( getTreeColorSet().getFoundColor() );
+ if ( isInFoundNodes0( node ) && !isInFoundNodes1( node ) ) {
+ _rollover_popup.setForeground( getTreeColorSet().getFoundColor0() );
+ }
+ else if ( !isInFoundNodes0( node ) && isInFoundNodes1( node ) ) {
+ _rollover_popup.setForeground( getTreeColorSet().getFoundColor1() );
+ }
+ else if ( isInFoundNodes0( node ) && isInFoundNodes1( node ) ) {
+ _rollover_popup.setForeground( getTreeColorSet().getFoundColor0and1() );
}
else if ( getControlPanel().isColorAccordingToTaxonomy() ) {
_rollover_popup.setForeground( getTaxonomyBasedColor( node ) );
}
}
- final private static void drawString( final int i, final double x, final double y, final Graphics2D g ) {
- g.drawString( String.valueOf( i ), ( int ) ( x + 0.5 ), ( int ) ( y + 0.5 ) );
- }
-
final private static void drawString( final String str, final double x, final double y, final Graphics2D g ) {
g.drawString( str, ( int ) ( x + 0.5 ), ( int ) ( y + 0.5 ) );
}
- final private static String getPartAfterColon( final String s ) {
- final int i = s.indexOf( ':' );
- if ( ( i < 1 ) || ( i == ( s.length() - 1 ) ) ) {
- return s;
- }
- return s.substring( i + 1, s.length() );
- }
-
- final private static boolean isSequenceEmpty( final Sequence seq ) {
- return ( seq.getAccession() == null ) && ForesterUtil.isEmpty( seq.getName() )
- && ForesterUtil.isEmpty( seq.getSymbol() );
- }
-
- final private static boolean isTaxonomyEmpty( final Taxonomy tax ) {
- return ( ( tax.getIdentifier() == null ) && ForesterUtil.isEmpty( tax.getTaxonomyCode() )
- && ForesterUtil.isEmpty( tax.getCommonName() ) && ForesterUtil.isEmpty( tax.getScientificName() ) && tax
- .getSynonyms().isEmpty() );
- }
-
final private static boolean plusPressed( final int key_code ) {
return ( ( key_code == KeyEvent.VK_ADD ) || ( key_code == KeyEvent.VK_PLUS )
|| ( key_code == KeyEvent.VK_EQUALS ) || ( key_code == KeyEvent.VK_SEMICOLON ) || ( key_code == KeyEvent.VK_1 ) );
}
- final private static Phylogeny subTree( final PhylogenyNode new_root, final Phylogeny source_phy ) {
- final Phylogeny new_phy = new Phylogeny();
- new_phy.setRooted( true );
- new_phy.setName( source_phy.getName() );
- new_phy.setDescription( source_phy.getDescription() );
- new_phy.setType( source_phy.getType() );
- new_phy.setDistanceUnit( source_phy.getDistanceUnit() );
- new_phy.setConfidence( source_phy.getConfidence() );
- new_phy.setIdentifier( source_phy.getIdentifier() );
- new_phy.setRoot( new_root.copyNodeDataShallow() );
- int i = 0;
- for( final PhylogenyNode n : new_root.getDescendants() ) {
- new_phy.getRoot().setChildNode( i++, n );
- }
- return new_phy;
- }
-
final private class SubtreeColorizationActionListener implements ActionListener {
- JColorChooser _chooser;
- PhylogenyNode _node;
+ List<PhylogenyNode> _additional_nodes = null;
+ JColorChooser _chooser = null;
+ PhylogenyNode _node = null;
SubtreeColorizationActionListener( final JColorChooser chooser, final PhylogenyNode node ) {
_chooser = chooser;
_node = node;
}
+ SubtreeColorizationActionListener( final JColorChooser chooser,
+ final PhylogenyNode node,
+ final List<PhylogenyNode> additional_nodes ) {
+ _chooser = chooser;
+ _node = node;
+ _additional_nodes = additional_nodes;
+ }
+
@Override
public void actionPerformed( final ActionEvent e ) {
final Color c = _chooser.getColor();
if ( c != null ) {
- colorizeSubtree( c, _node );
+ colorizeSubtree( c, _node, _additional_nodes );
}
}
}