import org.forester.archaeopteryx.Options.PHYLOGENY_GRAPHICS_TYPE;
import org.forester.archaeopteryx.phylogeny.data.RenderableDomainArchitecture;
import org.forester.archaeopteryx.phylogeny.data.RenderableVector;
+import org.forester.archaeopteryx.tools.Blast;
+import org.forester.archaeopteryx.tools.ImageLoader;
import org.forester.io.parsers.phyloxml.PhyloXmlUtil;
import org.forester.phylogeny.Phylogeny;
import org.forester.phylogeny.PhylogenyMethods;
import org.forester.phylogeny.data.BranchColor;
import org.forester.phylogeny.data.Confidence;
import org.forester.phylogeny.data.Event;
+import org.forester.phylogeny.data.NodeVisualization;
+import org.forester.phylogeny.data.NodeVisualization.NodeFill;
+import org.forester.phylogeny.data.NodeVisualization.NodeShape;
import org.forester.phylogeny.data.PhylogenyData;
import org.forester.phylogeny.data.PropertiesMap;
import org.forester.phylogeny.data.Property;
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 BOX_SIZE = 4;
- private final static int HALF_BOX_SIZE = TreePanel.BOX_SIZE / 2;
private final static int MAX_SUBTREES = 100;
private final static int MAX_NODE_FRAMES = 10;
private final static int MOVE = 20;
private final static NumberFormat FORMATTER_CONFIDENCE;
private final static NumberFormat FORMATTER_BRANCH_LENGTH;
private final static int WIGGLE = 2;
- private final static int HALF_BOX_SIZE_PLUS_WIGGLE = HALF_BOX_SIZE + WIGGLE;
private final static int LIMIT_FOR_HQ_RENDERING = 1000;
+ private final static int CONFIDENCE_LEFT_MARGIN = 4;
// TODO "rendering_hints" was static before. Need to make sure everything is OK with it not
// being static anymore (02/20/2009).
private final RenderingHints _rendering_hints = new RenderingHints( RenderingHints.KEY_RENDERING,
final private static double _180_OVER_PI = 180.0 / Math.PI;
private static final float ROUNDED_D = 8;
private int _circ_max_depth;
- private int _circ_num_ext_nodes;
private PhylogenyNode _root;
final private Arc2D _arc = new Arc2D.Double();
final private HashMap<Integer, Double> _urt_nodeid_angle_map = new HashMap<Integer, Double>();
final private HashMap<Integer, Integer> _urt_nodeid_index_map = new HashMap<Integer, Integer>();
+ final private Set<Integer> _collapsed_external_nodeid_set = new HashSet<Integer>();
HashMap<Integer, Short> _nodeid_dist_to_leaf = new HashMap<Integer, Short>();
private AffineTransform _at;
private double _max_distance_to_root = -1;
private boolean _edited = false;
private Popup _node_desc_popup;
private JTextArea _rollover_popup;
+ // private final int _box_size;
+ // private final int _half_box_size;
//private final short _skip_counter = 0;
private final StringBuffer _popup_buffer = new StringBuffer();
final private static Font POPUP_FONT = new Font( Configuration.getDefaultFontFamilyName(),
false );
// expression values menu:
private DescriptiveStatistics _statistics_for_vector_data;
+ private PhylogenyNode[] _nodes_in_preorder = null;
// private Image offscreenImage;
// private Graphics offscreenGraphics;
// private Dimension offscreenDimension;
else {
phy.addAsChild( node );
}
+ _nodes_in_preorder = null;
_phylogeny.externalNodesHaveChanged();
_phylogeny.hashIDs();
_phylogeny.recalculateNumberOfExternalDescendants( true );
}
}
- final void assignGraphicsForNodeBoxWithColorForParentBranch( final PhylogenyNode node, final Graphics g ) {
+ final Color getGraphicsForNodeBoxWithColorForParentBranch( final PhylogenyNode node ) {
if ( getControlPanel().isColorBranches() && ( PhylogenyMethods.getBranchColorValue( node ) != null ) ) {
- g.setColor( PhylogenyMethods.getBranchColorValue( node ) );
+ return ( PhylogenyMethods.getBranchColorValue( node ) );
}
else {
- g.setColor( getTreeColorSet().getBranchColor() );
+ return ( getTreeColorSet().getBranchColor() );
}
}
if ( !node.isExternal() && !node.isRoot() ) {
final boolean collapse = !node.isCollapse();
Util.collapseSubtree( node, collapse );
+ updateSetOfCollapsedExternalNodes( _phylogeny );
_phylogeny.recalculateNumberOfExternalDescendants( true );
resetNodeIdToDistToLeafMap();
calculateLongestExtNodeInfo();
+ _nodes_in_preorder = null;
resetPreferredSize();
updateOvSizes();
_main_panel.adjustJScrollPane();
}
setWaitCursor();
Util.collapseSpeciesSpecificSubtrees( _phylogeny );
+ updateSetOfCollapsedExternalNodes( _phylogeny );
_phylogeny.recalculateNumberOfExternalDescendants( true );
resetNodeIdToDistToLeafMap();
calculateLongestExtNodeInfo();
+ _nodes_in_preorder = null;
resetPreferredSize();
_main_panel.adjustJScrollPane();
setArrowCursor();
errorMessageNoCutCopyPasteInUnrootedDisplay();
return;
}
+ _nodes_in_preorder = null;
setCutOrCopiedTree( _phylogeny.copy( node ) );
final List<PhylogenyNode> nodes = PhylogenyMethods.getAllDescendants( node );
final Set<Integer> node_ids = new HashSet<Integer>( nodes.size() );
if ( r != JOptionPane.OK_OPTION ) {
return;
}
+ _nodes_in_preorder = null;
setCopiedAndPastedNodes( null );
setCutOrCopiedTree( _phylogeny.copy( node ) );
_phylogeny.deleteSubtree( node, true );
null,
options,
options[ 2 ] );
+ _nodes_in_preorder = null;
boolean node_only = true;
if ( r == 1 ) {
node_only = false;
g.fill( _rectangle );
}
+ final private void drawRectGradient( final double x,
+ final double y,
+ final double width,
+ final double heigth,
+ final Graphics2D g,
+ final Color color_1,
+ final Color color_2,
+ final Color color_border ) {
+ _rectangle.setFrame( x, y, width, heigth );
+ g.setPaint( new GradientPaint( ( float ) x,
+ ( float ) y,
+ color_1,
+ ( float ) ( x + width ),
+ ( float ) ( y + heigth ),
+ color_2,
+ false ) );
+ g.fill( _rectangle );
+ if ( color_border != null ) {
+ g.setPaint( color_border );
+ g.draw( _rectangle );
+ }
+ }
+
+ final private void drawOvalGradient( final double x,
+ final double y,
+ final double width,
+ final double heigth,
+ final Graphics2D g,
+ final Color color_1,
+ final Color color_2,
+ final Color color_border ) {
+ _ellipse.setFrame( x, y, width, heigth );
+ g.setPaint( new GradientPaint( ( float ) x,
+ ( float ) y,
+ color_1,
+ ( float ) ( x + width ),
+ ( float ) ( y + heigth ),
+ color_2,
+ false ) );
+ g.fill( _ellipse );
+ if ( color_border != null ) {
+ g.setPaint( color_border );
+ g.draw( _ellipse );
+ }
+ }
+
final private void errorMessageNoCutCopyPasteInUnrootedDisplay() {
JOptionPane.showMessageDialog( this,
"Cannot cut, copy, paste, add, or delete subtrees/nodes in unrooted display",
if ( ( _phylogeny == null ) || _phylogeny.isEmpty() ) {
return null;
}
+ final int half_box_size_plus_wiggle = getOptions().getDefaultNodeShapeSize() / 2 + WIGGLE;
for( final PhylogenyNodeIterator iter = _phylogeny.iteratorPostorder(); iter.hasNext(); ) {
final PhylogenyNode node = iter.next();
if ( ( _phylogeny.isRooted() || !node.isRoot() || ( node.getNumberOfDescendants() > 2 ) )
- && ( ( node.getXcoord() - HALF_BOX_SIZE_PLUS_WIGGLE ) <= x )
- && ( ( node.getXcoord() + HALF_BOX_SIZE_PLUS_WIGGLE ) >= x )
- && ( ( node.getYcoord() - HALF_BOX_SIZE_PLUS_WIGGLE ) <= y )
- && ( ( node.getYcoord() + HALF_BOX_SIZE_PLUS_WIGGLE ) >= y ) ) {
+ && ( ( node.getXcoord() - half_box_size_plus_wiggle ) <= x )
+ && ( ( node.getXcoord() + half_box_size_plus_wiggle ) >= x )
+ && ( ( node.getYcoord() - half_box_size_plus_wiggle ) <= y )
+ && ( ( node.getYcoord() + half_box_size_plus_wiggle ) >= y ) ) {
return node;
}
}
*
* @return a pointer to the phylogeny
*/
- final Phylogeny getPhylogeny() {
+ public final Phylogeny getPhylogeny() {
return _phylogeny;
}
JOptionPane.WARNING_MESSAGE );
return;
}
+ _nodes_in_preorder = null;
setWaitCursor();
PhylogenyMethods.midpointRoot( _phylogeny );
resetNodeIdToDistToLeafMap();
final private void paintBranchRectangular( final Graphics2D g,
final float x1,
final float x2,
- float y1,
+ final float y1,
final float y2,
final PhylogenyNode node,
final boolean to_pdf,
g.draw( _cubic_curve );
}
else {
- float x2a = x2;
- float x1a = x1;
- // draw the vertical line
- boolean draw_horizontal = true;
+ final float x2a = x2;
+ final float x1a = x1;
float y2_r = 0;
if ( node.isFirstChildNode() || node.isLastChildNode()
|| ( getPhylogenyGraphicsType() == PHYLOGENY_GRAPHICS_TYPE.EURO_STYLE )
|| ( getPhylogenyGraphicsType() == PHYLOGENY_GRAPHICS_TYPE.ROUNDED ) ) {
- boolean draw_vertical = true;
- final PhylogenyNode parent = node.getParent();
- if ( ( ( getOptions().isShowNodeBoxes() && !to_pdf && !to_graphics_file ) || ( ( getControlPanel()
- .isEvents() ) && ( parent != null ) && parent.isHasAssignedEvent() ) )
- && ( _phylogeny.isRooted() || !( ( parent != null ) && parent.isRoot() ) )
- && !( ( to_pdf || to_graphics_file ) && getOptions().isPrintBlackAndWhite() && !parent
- .isDuplication() ) ) {
- if ( ( getPhylogenyGraphicsType() != PHYLOGENY_GRAPHICS_TYPE.EURO_STYLE )
- && ( getPhylogenyGraphicsType() != PHYLOGENY_GRAPHICS_TYPE.ROUNDED ) ) {
- if ( Math.abs( y2 - y1 ) <= TreePanel.HALF_BOX_SIZE ) {
- draw_vertical = false;
- }
- else {
- if ( y1 < y2 ) {
- y1 += TreePanel.HALF_BOX_SIZE;
- }
- else {
- if ( !to_pdf ) {
- y1 -= TreePanel.HALF_BOX_SIZE + 1;
- }
- else {
- y1 -= TreePanel.HALF_BOX_SIZE;
- }
- }
- }
- }
- if ( ( x2 - x1 ) <= TreePanel.HALF_BOX_SIZE ) {
- draw_horizontal = false;
- }
- else if ( !draw_vertical ) {
- x1a += TreePanel.HALF_BOX_SIZE;
- }
- if ( ( ( x2 - x1a ) > TreePanel.HALF_BOX_SIZE )
- && !( ( to_pdf || to_graphics_file ) && getOptions().isPrintBlackAndWhite() && !node
- .isDuplication() ) ) {
- x2a -= TreePanel.HALF_BOX_SIZE;
- }
+ if ( !to_graphics_file
+ && !to_pdf
+ && ( ( ( y2 < getVisibleRect().getMinY() - 20 ) && ( y1 < getVisibleRect().getMinY() - 20 ) ) || ( ( y2 > getVisibleRect()
+ .getMaxY() + 20 ) && ( y1 > getVisibleRect().getMaxY() + 20 ) ) ) ) {
+ // Do nothing.
}
- if ( draw_vertical ) {
- if ( !to_graphics_file
- && !to_pdf
- && ( ( ( y2 < getVisibleRect().getMinY() - 20 ) && ( y1 < getVisibleRect().getMinY() - 20 ) ) || ( ( y2 > getVisibleRect()
- .getMaxY() + 20 ) && ( y1 > getVisibleRect().getMaxY() + 20 ) ) ) ) {
- // Do nothing.
- }
- else {
- if ( getPhylogenyGraphicsType() == PHYLOGENY_GRAPHICS_TYPE.EURO_STYLE ) {
- float x2c = x1 + EURO_D;
- if ( x2c > x2a ) {
- x2c = x2a;
- }
- drawLine( x1, y1, x2c, y2, g );
+ else {
+ if ( getPhylogenyGraphicsType() == PHYLOGENY_GRAPHICS_TYPE.EURO_STYLE ) {
+ float x2c = x1 + EURO_D;
+ if ( x2c > x2a ) {
+ x2c = x2a;
}
- else if ( getPhylogenyGraphicsType() == PHYLOGENY_GRAPHICS_TYPE.ROUNDED ) {
- if ( y2 > y1 ) {
- y2_r = y2 - ROUNDED_D;
- if ( y2_r < y1 ) {
- y2_r = y1;
- }
- drawLine( x1, y1, x1, y2_r, g );
- }
- else {
- y2_r = y2 + ROUNDED_D;
- if ( y2_r > y1 ) {
- y2_r = y1;
- }
- drawLine( x1, y1, x1, y2_r, g );
+ drawLine( x1, y1, x2c, y2, g );
+ }
+ else if ( getPhylogenyGraphicsType() == PHYLOGENY_GRAPHICS_TYPE.ROUNDED ) {
+ if ( y2 > y1 ) {
+ y2_r = y2 - ROUNDED_D;
+ if ( y2_r < y1 ) {
+ y2_r = y1;
}
+ drawLine( x1, y1, x1, y2_r, g );
}
else {
- drawLine( x1, y1, x1, y2, g );
+ y2_r = y2 + ROUNDED_D;
+ if ( y2_r > y1 ) {
+ y2_r = y1;
+ }
+ drawLine( x1, y1, x1, y2_r, g );
}
}
+ else {
+ drawLine( x1, y1, x1, y2, g );
+ }
}
}
// draw the horizontal line
return;
}
float x1_r = 0;
- if ( draw_horizontal ) {
- if ( !getControlPanel().isWidthBranches() || ( PhylogenyMethods.getBranchWidthValue( node ) == 1 ) ) {
- if ( getPhylogenyGraphicsType() == PHYLOGENY_GRAPHICS_TYPE.ROUNDED ) {
- x1_r = x1a + ROUNDED_D;
- if ( x1_r < x2a ) {
- drawLine( x1_r, y2, x2a, y2, g );
- }
+ if ( !getControlPanel().isWidthBranches() || ( PhylogenyMethods.getBranchWidthValue( node ) == 1 ) ) {
+ if ( getPhylogenyGraphicsType() == PHYLOGENY_GRAPHICS_TYPE.ROUNDED ) {
+ x1_r = x1a + ROUNDED_D;
+ if ( x1_r < x2a ) {
+ drawLine( x1_r, y2, x2a, y2, g );
}
- else if ( getPhylogenyGraphicsType() == PHYLOGENY_GRAPHICS_TYPE.EURO_STYLE ) {
- final float x1c = x1a + EURO_D;
- if ( x1c < x2a ) {
- drawLine( x1c, y2, x2a, y2, g );
- }
- }
- else {
- drawLine( x1a, y2, x2a, y2, g );
+ }
+ else if ( getPhylogenyGraphicsType() == PHYLOGENY_GRAPHICS_TYPE.EURO_STYLE ) {
+ final float x1c = x1a + EURO_D;
+ if ( x1c < x2a ) {
+ drawLine( x1c, y2, x2a, y2, g );
}
}
else {
- final double w = PhylogenyMethods.getBranchWidthValue( node );
- if ( getPhylogenyGraphicsType() == PHYLOGENY_GRAPHICS_TYPE.ROUNDED ) {
- x1_r = x1a + ROUNDED_D;
- if ( x1_r < x2a ) {
- drawRectFilled( x1_r, y2 - ( w / 2 ), x2a - x1_r, w, g );
- }
- }
- else if ( getPhylogenyGraphicsType() == PHYLOGENY_GRAPHICS_TYPE.EURO_STYLE ) {
- final float x1c = x1a + EURO_D;
- if ( x1c < x2a ) {
- drawRectFilled( x1c, y2 - ( w / 2 ), x2a - x1c, w, g );
- }
+ drawLine( x1a, y2, x2a, y2, g );
+ }
+ }
+ else {
+ final double w = PhylogenyMethods.getBranchWidthValue( node );
+ if ( getPhylogenyGraphicsType() == PHYLOGENY_GRAPHICS_TYPE.ROUNDED ) {
+ x1_r = x1a + ROUNDED_D;
+ if ( x1_r < x2a ) {
+ drawRectFilled( x1_r, y2 - ( w / 2 ), x2a - x1_r, w, g );
}
- else {
- drawRectFilled( x1a, y2 - ( w / 2 ), x2a - x1a, w, g );
+ }
+ else if ( getPhylogenyGraphicsType() == PHYLOGENY_GRAPHICS_TYPE.EURO_STYLE ) {
+ final float x1c = x1a + EURO_D;
+ if ( x1c < x2a ) {
+ drawRectFilled( x1c, y2 - ( w / 2 ), x2a - x1c, w, g );
}
}
+ else {
+ drawRectFilled( x1a, y2 - ( w / 2 ), x2a - x1a, w, g );
+ }
}
if ( ( getPhylogenyGraphicsType() == PHYLOGENY_GRAPHICS_TYPE.ROUNDED ) ) {
if ( x1_r > x2a ) {
g.draw( _arc );
}
}
- paintNodeBox( x2, y2, node, g, to_pdf, to_graphics_file, isInFoundNodes( node ) );
+ if ( node.isExternal() ) {
+ paintNodeBox( x2, y2, node, g, to_pdf, to_graphics_file, isInFoundNodes( node ) );
+ }
}
final void paintCircular( final Phylogeny phy,
final Graphics2D g,
final boolean to_pdf,
final boolean to_graphics_file ) {
- _circ_num_ext_nodes = phy.getNumberOfExternalNodes();
+ final int circ_num_ext_nodes = phy.getNumberOfExternalNodes() - _collapsed_external_nodeid_set.size();
+ System.out.println( "# collapsed external = " + _collapsed_external_nodeid_set.size() );
_root = phy.getRoot();
_root.setXcoord( center_x );
_root.setYcoord( center_y );
- paintNodeBox( _root.getXcoord(), _root.getYcoord(), _root, g, to_pdf, to_graphics_file, isInFoundNodes( _root ) );
final boolean radial_labels = getOptions().getNodeLabelDirection() == NODE_LABEL_DIRECTION.RADIAL;
double current_angle = starting_angle;
int i = 0;
for( final PhylogenyNodeIterator it = phy.iteratorExternalForward(); it.hasNext(); ) {
final PhylogenyNode n = it.next();
- n.setXcoord( ( float ) ( center_x + ( radius * Math.cos( current_angle ) ) ) );
- n.setYcoord( ( float ) ( center_y + ( radius * Math.sin( current_angle ) ) ) );
- _urt_nodeid_angle_map.put( n.getId(), current_angle );
- _urt_nodeid_index_map.put( n.getId(), i++ );
- current_angle += ( TWO_PI / _circ_num_ext_nodes );
+ if ( !n.isCollapse() ) {
+ n.setXcoord( ( float ) ( center_x + ( radius * Math.cos( current_angle ) ) ) );
+ n.setYcoord( ( float ) ( center_y + ( radius * Math.sin( current_angle ) ) ) );
+ _urt_nodeid_angle_map.put( n.getId(), current_angle );
+ _urt_nodeid_index_map.put( n.getId(), i++ );
+ current_angle += ( TWO_PI / circ_num_ext_nodes );
+ }
+ else {
+ //TODO remove me
+ System.out.println( "is collapse" + n.getName() );
+ }
}
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 ) );
+ }
+
+ private void updateSetOfCollapsedExternalNodes( final Phylogeny phy ) {
+ _collapsed_external_nodeid_set.clear();
+ E: for( final PhylogenyNodeIterator it = phy.iteratorExternalForward(); it.hasNext(); ) {
+ final PhylogenyNode ext_node = it.next();
+ PhylogenyNode n = ext_node;
+ while ( !n.isRoot() ) {
+ if ( n.isCollapse() ) {
+ _collapsed_external_nodeid_set.add( ext_node.getId() );
+ continue E;
+ }
+ n = n.getParent();
+ }
+ }
}
final void paintCircularLite( final Phylogeny phy,
final int center_y,
final int radius,
final Graphics2D g ) {
- _circ_num_ext_nodes = phy.getNumberOfExternalNodes();
+ final int circ_num_ext_nodes = phy.getNumberOfExternalNodes();
_root = phy.getRoot();
_root.setXSecondary( center_x );
_root.setYSecondary( center_y );
n.setXSecondary( ( float ) ( center_x + radius * Math.cos( current_angle ) ) );
n.setYSecondary( ( float ) ( center_y + radius * Math.sin( current_angle ) ) );
_urt_nodeid_angle_map.put( n.getId(), current_angle );
- current_angle += ( TWO_PI / _circ_num_ext_nodes );
+ current_angle += ( TWO_PI / circ_num_ext_nodes );
}
paintCircularsLite( phy.getRoot(), phy, center_x, center_y, radius, g );
}
final Graphics2D g,
final boolean to_pdf,
final boolean to_graphics_file ) {
- if ( n.isExternal() ) {
+ if ( n.isExternal() || n.isCollapse() ) { //~~circ collapse
if ( !_urt_nodeid_angle_map.containsKey( n.getId() ) ) {
- System.out.println( "no " + n + ", fucker!" );//TODO
+ System.out.println( "no " + n + " =====>>>>>>> ERROR!" );//TODO
}
return _urt_nodeid_angle_map.get( n.getId() );
}
final boolean to_graphics_file,
final boolean to_pdf,
final boolean is_in_found_nodes ) {
+ Color c = null;
if ( ( to_pdf || to_graphics_file ) && getOptions().isPrintBlackAndWhite() ) {
- g.setColor( Color.BLACK );
+ c = Color.BLACK;
}
else if ( is_in_found_nodes ) {
- g.setColor( getTreeColorSet().getFoundColor() );
+ c = getTreeColorSet().getFoundColor();
}
else if ( getControlPanel().isColorAccordingToTaxonomy() ) {
- g.setColor( getTaxonomyBasedColor( node ) );
+ c = getTaxonomyBasedColor( node );
}
else if ( getOptions().isColorLabelsSameAsParentBranch() && getControlPanel().isColorBranches()
&& ( PhylogenyMethods.getBranchColorValue( node ) != null ) ) {
- g.setColor( PhylogenyMethods.getBranchColorValue( node ) );
+ c = PhylogenyMethods.getBranchColorValue( node );
}
else {
- g.setColor( getTreeColorSet().getCollapseFillColor() );
+ c = getTreeColorSet().getCollapseFillColor();
}
double d = node.getAllExternalDescendants().size();
if ( d > 1000 ) {
else {
d = ( Math.log10( d ) * _y_distance ) / 2.5;
}
- if ( d < BOX_SIZE ) {
- d = BOX_SIZE;
+ final int box_size = getOptions().getDefaultNodeShapeSize();
+ if ( d < box_size ) {
+ d = box_size;
}
_polygon.reset();
- _polygon.addPoint( ForesterUtil.roundToInt( node.getXcoord() - TreePanel.BOX_SIZE ),
+ _polygon.addPoint( ForesterUtil.roundToInt( node.getXcoord() - box_size ),
ForesterUtil.roundToInt( node.getYcoord() ) );
- _polygon.addPoint( ForesterUtil.roundToInt( node.getXcoord() + TreePanel.BOX_SIZE ),
+ _polygon.addPoint( ForesterUtil.roundToInt( node.getXcoord() + box_size ),
ForesterUtil.roundToInt( node.getYcoord() - d ) );
- _polygon.addPoint( ForesterUtil.roundToInt( node.getXcoord() + TreePanel.BOX_SIZE ),
+ _polygon.addPoint( ForesterUtil.roundToInt( node.getXcoord() + box_size ),
ForesterUtil.roundToInt( node.getYcoord() + d ) );
- g.fillPolygon( _polygon );
+ if ( getOptions().getDefaultNodeFill() == NodeVisualization.NodeFill.SOLID ) {
+ g.setColor( c );
+ g.fillPolygon( _polygon );
+ }
+ else if ( getOptions().getDefaultNodeFill() == NodeVisualization.NodeFill.NONE ) {
+ g.setColor( getBackground() );
+ g.fillPolygon( _polygon );
+ g.setColor( c );
+ g.drawPolygon( _polygon );
+ }
+ else if ( getOptions().getDefaultNodeFill() == NodeFill.GRADIENT ) {
+ g.setPaint( new GradientPaint( node.getXcoord() - box_size, node.getYcoord(), getBackground(), ( node
+ .getXcoord() + box_size ), ( float ) ( node.getYcoord() - d ), c, false ) );
+ g.fill( _polygon );
+ g.setPaint( c );
+ g.draw( _polygon );
+ }
paintNodeData( g, node, to_graphics_file, to_pdf, is_in_found_nodes );
}
}
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 - TreePanel.HALF_BOX_SIZE, y - TreePanel.HALF_BOX_SIZE, TreePanel.BOX_SIZE, TreePanel.BOX_SIZE );
+ g.fillRect( x - half_box_size, y - half_box_size, box_size, box_size );
}
final private void paintGainedAndLostCharacters( final Graphics2D g,
paintFoundNode( ForesterUtil.roundToInt( x ), ForesterUtil.roundToInt( y ), g );
}
else {
+ Color outline_color = null;
if ( ( to_pdf || to_graphics_file ) && getOptions().isPrintBlackAndWhite() ) {
- g.setColor( Color.BLACK );
+ outline_color = Color.BLACK;
}
else if ( getControlPanel().isEvents() && Util.isHasAssignedEvent( node ) ) {
final Event event = node.getNodeData().getEvent();
if ( event.isDuplication() ) {
- g.setColor( getTreeColorSet().getDuplicationBoxColor() );
+ outline_color = getTreeColorSet().getDuplicationBoxColor();
}
else if ( event.isSpeciation() ) {
- g.setColor( getTreeColorSet().getSpecBoxColor() );
+ outline_color = getTreeColorSet().getSpecBoxColor();
}
else if ( event.isSpeciationOrDuplication() ) {
- g.setColor( getTreeColorSet().getDuplicationOrSpeciationColor() );
+ outline_color = getTreeColorSet().getDuplicationOrSpeciationColor();
}
}
- else {
- assignGraphicsForNodeBoxWithColorForParentBranch( node, g );
+ else if ( getOptions().isTaxonomyColorizeNodeShapes() ) {
+ outline_color = getTaxonomyBasedColor( node );
}
- if ( ( getOptions().isShowNodeBoxes() && !to_pdf && !to_graphics_file )
- || ( getControlPanel().isEvents() && node.isHasAssignedEvent() ) ) {
- if ( to_pdf || to_graphics_file ) {
- if ( node.isDuplication() || !getOptions().isPrintBlackAndWhite() ) {
- drawOvalFilled( x - HALF_BOX_SIZE, y - HALF_BOX_SIZE, BOX_SIZE, BOX_SIZE, g );
+ 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().isShowDefaultNodeShapes() || ( 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 );
}
}
- else {
- drawRectFilled( 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 );
+ }
}
}
}
return;
}
int x = 0;
+ final int half_box_size = getOptions().getDefaultNodeShapeSize() / 2;
if ( getControlPanel().isShowTaxonomyImages()
&& ( getImageMap() != null )
&& !getImageMap().isEmpty()
&& node.getNodeData().isHasTaxonomy()
&& ( ( node.getNodeData().getTaxonomy().getUris() != null ) && !node.getNodeData().getTaxonomy()
.getUris().isEmpty() ) ) {
- x += drawTaxonomyImage( node.getXcoord() + 2 + TreePanel.HALF_BOX_SIZE, node.getYcoord(), node, g );
+ x += drawTaxonomyImage( node.getXcoord() + 2 + half_box_size, node.getYcoord(), node, g );
}
if ( ( getControlPanel().isShowTaxonomyCode() || getControlPanel().isShowTaxonomyScientificNames() || getControlPanel()
.isShowTaxonomyCommonNames() ) && node.getNodeData().isHasTaxonomy() ) {
if ( !node.isExternal() && ( node.getNumberOfDescendants() == 1 ) ) {
down_shift_factor = 1;
}
+ final double pos_x = node.getXcoord() + x + 2 + half_box_size;
+ final double pos_y = ( node.getYcoord() + ( getTreeFontSet()._fm_large.getAscent() / down_shift_factor ) );
+ final String sb_str = _sb.toString();
// GUILHEM_BEG ______________
- final double posX = node.getXcoord() + x + 2 + TreePanel.HALF_BOX_SIZE;
- final double posY = ( node.getYcoord() + ( getTreeFontSet()._fm_large.getAscent() / down_shift_factor ) );
- final int CONFIDENCE_LEFT_MARGIN = 4;
- final String sNodeText = _sb.toString();
if ( _control_panel.isShowSequenceRelations() && node.getNodeData().isHasSequence()
&& ( _query_sequence != null ) ) {
int nodeTextBoundsWidth = 0;
- if ( sNodeText.length() > 0 ) {
- final Rectangle2D node_text_bounds = new TextLayout( sNodeText, g.getFont(), _frc ).getBounds(); //would like to remove this 'new', but how...
+ if ( sb_str.length() > 0 ) {
+ final Rectangle2D node_text_bounds = new TextLayout( sb_str, g.getFont(), _frc ).getBounds(); //would like to remove this 'new', but how...
nodeTextBoundsWidth = ( int ) node_text_bounds.getWidth();
}
if ( node.getNodeData().getSequence().equals( _query_sequence ) ) {
if ( nodeTextBoundsWidth > 0 ) { // invert font color and background color to show that this is the query sequence
- g.fillRect( ( int ) posX - 1, ( int ) posY - 8, nodeTextBoundsWidth + 5, 11 );
+ g.fillRect( ( int ) pos_x - 1, ( int ) pos_y - 8, nodeTextBoundsWidth + 5, 11 );
g.setColor( getTreeColorSet().getBackgroundColor() );
}
}
&& seqRelation.getType().equals( getControlPanel().getSequenceRelationTypeBox()
.getSelectedItem() );
if ( fGotRelationWithQuery ) { // we will underline the text to show that this sequence is ortholog to the query
- final double linePosX = node.getXcoord() + 2 + TreePanel.HALF_BOX_SIZE;
+ final double linePosX = node.getXcoord() + 2 + half_box_size;
final String sConfidence = ( !getControlPanel().isShowSequenceRelationConfidence() || ( seqRelation
.getConfidence() == null ) ) ? null : " (" + seqRelation.getConfidence().getValue()
+ ")";
if ( sConfidence != null ) {
- double confidenceX = posX;
- if ( sNodeText.length() > 0 ) {
- confidenceX += new TextLayout( sNodeText, g.getFont(), _frc ).getBounds().getWidth()
+ double confidenceX = pos_x;
+ if ( sb_str.length() > 0 ) {
+ confidenceX += new TextLayout( sb_str, g.getFont(), _frc ).getBounds().getWidth()
+ CONFIDENCE_LEFT_MARGIN;
}
if ( confidenceX > linePosX ) { // let's only display confidence value if we are already displaying at least one of Prot/Gene Name and Taxonomy Code
final int confidenceWidth = ( int ) new TextLayout( sConfidence, g.getFont(), _frc )
.getBounds().getWidth();
- TreePanel.drawString( sConfidence, confidenceX, posY, g );
+ TreePanel.drawString( sConfidence, confidenceX, pos_y, g );
x += CONFIDENCE_LEFT_MARGIN + confidenceWidth;
}
}
else {
nodeTextBoundsWidth += 2;
}
- g.drawLine( ( int ) linePosX + 1, 3 + ( int ) posY, ( int ) linePosX + x
- + nodeTextBoundsWidth, 3 + ( int ) posY );
+ g.drawLine( ( int ) linePosX + 1, 3 + ( int ) pos_y, ( int ) linePosX + x
+ + nodeTextBoundsWidth, 3 + ( int ) pos_y );
break;
}
}
}
}
}
- if ( sNodeText.length() > 0 ) {
- TreePanel.drawString( sNodeText, posX, posY, g );
+ if ( sb_str.length() > 0 ) {
+ TreePanel.drawString( sb_str, pos_x, pos_y, g );
}
// GUILHEM_END _____________
// COMMENTED_OUT_BY_GUILHEM_BEG _______________
g.setColor( calculateColorForAnnotation( ann ) );
}
final String ann_str = ann.asSimpleText().toString();
- TreePanel.drawString( ann_str, node.getXcoord() + x + 3 + TreePanel.HALF_BOX_SIZE, node.getYcoord()
+ TreePanel.drawString( ann_str, node.getXcoord() + x + 3 + half_box_size, node.getYcoord()
+ ( getTreeFontSet()._fm_large.getAscent() / down_shift_factor ), g );
_sb.setLength( 0 );
_sb.append( ann_str );
}
if ( getControlPanel().isShowBinaryCharacters() ) {
TreePanel.drawString( node.getNodeData().getBinaryCharacters().getPresentCharactersAsStringBuffer()
- .toString(), node.getXcoord() + x + 1 + TreePanel.HALF_BOX_SIZE, node.getYcoord()
+ .toString(), node.getXcoord() + x + 1 + half_box_size, node.getYcoord()
+ ( getTreeFontSet()._fm_large.getAscent() / down_shift_factor ), g );
paintGainedAndLostCharacters( g, node, node.getNodeData().getBinaryCharacters()
.getGainedCharactersAsStringBuffer().toString(), node.getNodeData().getBinaryCharacters()
}
final double mean = ForesterUtil.round( sum / count, 1 );
TreePanel.drawString( " " + node.getNodeData().getBinaryCharacters().getPresentCount() + " ["
- + mean + "]", node.getXcoord() + x + 4 + TreePanel.HALF_BOX_SIZE, node.getYcoord()
+ + mean + "]", node.getXcoord() + x + 4 + half_box_size, node.getYcoord()
+ ( getTreeFontSet()._fm_large.getAscent() / down_shift_factor ), g );
}
else {
TreePanel.drawString( " " + node.getNodeData().getBinaryCharacters().getPresentCount(),
- node.getXcoord() + x + 4 + TreePanel.HALF_BOX_SIZE,
+ node.getXcoord() + x + 4 + half_box_size,
node.getYcoord()
+ ( getTreeFontSet()._fm_large.getAscent() / down_shift_factor ),
g );
child_node.setYcoord( y2 );
y2 += _y_distance * child_node.getNumberOfExternalNodes();
}
+ paintNodeBox( node.getXcoord(), node.getYcoord(), node, g, to_pdf, to_graphics_file, isInFoundNodes( node ) );
}
if ( dynamically_hide
&& !is_in_found_nodes
if ( getControlPanel().isShowTaxonomyCode() && ( PhylogenyMethods.getSpecies( node ).length() > 0 ) ) {
x += getTreeFontSet()._fm_large_italic.stringWidth( PhylogenyMethods.getSpecies( node ) + " " );
}
+ if ( getControlPanel().isShowGeneNames() ) {
+ x += getTreeFontSet()._fm_large.stringWidth( node.getNodeData().getSequence().getName() + " " );
+ }
+ if ( getControlPanel().isShowGeneSymbols() ) {
+ x += getTreeFontSet()._fm_large.stringWidth( node.getNodeData().getSequence().getSymbol() + " " );
+ }
+ if ( getControlPanel().isShowSequenceAcc() ) {
+ x += getTreeFontSet()._fm_large.stringWidth( node.getNodeData().getSequence().getAccession()
+ .toString()
+ + " " );
+ }
if ( getControlPanel().isShowNodeNames() && ( node.getName().length() > 0 ) ) {
x += getTreeFontSet()._fm_large.stringWidth( node.getName() + " " );
}
final int graphics_file_height,
final int graphics_file_x,
final int graphics_file_y ) {
- /* GUILHEM_BEG */
- // System.out.println( "p" + ( xxx++ ) );
- _query_sequence = _control_panel.getSelectedQuerySequence();
- /* GUILHEM_END */
+ if ( _control_panel.isShowSequenceRelations() ) {
+ _query_sequence = _control_panel.getSelectedQuerySequence();
+ }
// Color the background
if ( !to_pdf ) {
final Rectangle r = getVisibleRect();
getControlPanel().setDynamicHidingIsOn( false );
}
}
- final PhylogenyNodeIterator it;
- for( it = _phylogeny.iteratorPreorder(); it.hasNext(); ) {
- paintNodeRectangular( g, it.next(), to_pdf, getControlPanel().isDynamicallyHideData()
+ if ( _nodes_in_preorder == null ) {
+ _nodes_in_preorder = new PhylogenyNode[ _phylogeny.getNodeCount() ];
+ int i = 0;
+ for( final PhylogenyNodeIterator it = _phylogeny.iteratorPreorder(); it.hasNext(); ) {
+ _nodes_in_preorder[ i++ ] = it.next();
+ }
+ }
+ //final PhylogenyNodeIterator it;
+ //for( it = _phylogeny.iteratorPreorder(); it.hasNext(); ) {
+ // paintNodeRectangular( g, it.next(), to_pdf, getControlPanel().isDynamicallyHideData()
+ // && ( dynamic_hiding_factor > 1 ), dynamic_hiding_factor, to_graphics_file );
+ //}
+ for( int i = 0; i < _nodes_in_preorder.length; ++i ) {
+ paintNodeRectangular( g, _nodes_in_preorder[ i ], to_pdf, getControlPanel().isDynamicallyHideData()
&& ( dynamic_hiding_factor > 1 ), dynamic_hiding_factor, to_graphics_file );
}
if ( getOptions().isShowScale() && getControlPanel().isDrawPhylogram() && ( getScaleDistance() > 0.0 ) ) {
.setXSecondary( ( float ) ( getVisibleRect().x + getOvXPosition() + ( MOVE / ( getVisibleRect().width / getOvRectangle()
.getWidth() ) ) ) );
_phylogeny.getRoot().setYSecondary( ( getVisibleRect().y + getOvYStart() ) );
- final PhylogenyNodeIterator it;
- for( it = _phylogeny.iteratorPreorder(); it.hasNext(); ) {
- paintNodeLite( g, it.next() );
+ //final PhylogenyNodeIterator it;
+ //for( it = _phylogeny.iteratorPreorder(); it.hasNext(); ) {
+ // paintNodeLite( g, it.next() );
+ //}
+ for( int i = 0; i < _nodes_in_preorder.length; ++i ) {
+ paintNodeLite( g, _nodes_in_preorder[ i ] );
}
paintOvRectangle( g );
}
else {
g.setColor( getTreeColorSet().getTaxonomyColor() );
}
- final double start_x = node.getXcoord() + 3 + TreePanel.HALF_BOX_SIZE + x_shift;
+ final double start_x = node.getXcoord() + 3 + ( getOptions().getDefaultNodeShapeSize() / 2 ) + x_shift;
final double start_y = node.getYcoord()
+ ( getTreeFontSet()._fm_large.getAscent() / ( node.getNumberOfDescendants() == 1 ? 1 : 3.0 ) );
_sb.setLength( 0 );
}
final String label = _sb.toString();
/* GUILHEM_BEG */
- if ( ( label.length() > 0 ) && ( node.getNodeData().isHasSequence() )
- && node.getNodeData().getSequence().equals( _query_sequence ) ) {
+ if ( _control_panel.isShowSequenceRelations() && ( label.length() > 0 )
+ && ( node.getNodeData().isHasSequence() ) && node.getNodeData().getSequence().equals( _query_sequence ) ) {
// invert font color and background color to show that this is the query sequence
final Rectangle2D nodeTextBounds = new TextLayout( label, g.getFont(), new FontRenderContext( null,
false,
if ( n.isRoot() ) {
n.setXcoord( getWidth() / 2 );
n.setYcoord( getHeight() / 2 );
- paintNodeBox( n.getXcoord(), n.getYcoord(), n, g, to_pdf, to_graphics_file, isInFoundNodes( n ) );
}
if ( n.isExternal() ) {
paintNodeDataUnrootedCirc( g,
final float new_y = ( float ) ( y + Math.sin( mid_angle ) * length );
desc.setXcoord( new_x );
desc.setYcoord( new_y );
- paintNodeBox( new_x, new_y, desc, g, to_pdf, to_graphics_file, isInFoundNodes( desc ) );
paintUnrooted( desc, current_angle, current_angle + arc_size, radial_labels, g, to_pdf, to_graphics_file );
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 ) );
+ }
+ if ( n.isRoot() ) {
+ paintNodeBox( n.getXcoord(), n.getYcoord(), n, g, to_pdf, to_graphics_file, isInFoundNodes( n ) );
}
}
}
node_ids.add( node.getId() );
getCopiedAndPastedNodes().addAll( node_ids );
+ _nodes_in_preorder = null;
_phylogeny.externalNodesHaveChanged();
_phylogeny.hashIDs();
_phylogeny.recalculateNumberOfExternalDescendants( true );
getPhylogeny().reRoot( node );
getPhylogeny().recalculateNumberOfExternalDescendants( true );
resetNodeIdToDistToLeafMap();
+ _nodes_in_preorder = null;
resetPreferredSize();
getMainPanel().adjustJScrollPane();
repaint();
setPreferredSize( new Dimension( x, y ) );
}
- final void setArrowCursor() {
+ public final void setArrowCursor() {
setCursor( ARROW_CURSOR );
repaint();
}
getMainPanel().setCutOrCopiedTree( cut_or_copied_tree );
}
- final void setEdited( final boolean edited ) {
+ public final void setEdited( final boolean edited ) {
_edited = edited;
}
* @param t
* an instance of a Phylogeny
*/
- final void setTree( final Phylogeny t ) {
+ public final void setTree( final Phylogeny t ) {
+ _nodes_in_preorder = null;
_phylogeny = t;
}
_urt_factor_ov = urt_factor_ov;
}
- final void setWaitCursor() {
+ public final void setWaitCursor() {
setCursor( WAIT_CURSOR );
repaint();
}
JOptionPane.WARNING_MESSAGE );
return;
}
+ _nodes_in_preorder = null;
if ( !node.isExternal() && !node.isRoot() && ( _subtree_index <= ( TreePanel.MAX_SUBTREES - 1 ) ) ) {
_sub_phylogenies[ _subtree_index ] = _phylogeny;
_sub_phylogenies_temp_roots[ _subtree_index ] = node;
}
final void superTree() {
+ _nodes_in_preorder = null;
final PhylogenyNode temp_root = _sub_phylogenies_temp_roots[ _subtree_index - 1 ];
for( final PhylogenyNode n : temp_root.getDescendants() ) {
n.setParent( temp_root );
final void swap( final PhylogenyNode node ) {
if ( !node.isExternal() ) {
_phylogeny.swapChildren( node );
+ _nodes_in_preorder = null;
}
repaint();
}
}
}
- synchronized void setImageMap( final Hashtable<String, BufferedImage> image_map ) {
+ public synchronized void setImageMap( final Hashtable<String, BufferedImage> image_map ) {
getMainPanel().setImageMap( image_map );
}
- synchronized Hashtable<String, BufferedImage> getImageMap() {
+ public synchronized Hashtable<String, BufferedImage> getImageMap() {
return getMainPanel().getImageMap();
}
}