Classes

Class	Line #	Total Statements	Complexity	TOTAL Coverage	Actions
TreeCanvas	55	259	99	0.00%	Show methods

Class TreeCanvas

Class TreeCanvas	Line # 55	Total Statements 259	Complexity 99	TOTAL Coverage 0.00%
TreeCanvas(AlignmentPanel,ScrollPane)   TreeCanvas(AlignmentPanel,ScrollPane)	9494	8.08	1.01	0.0 0.00%
treeSelectionChanged(SequenceI) : void   treeSelectionChanged(SequenceI) : void	107107	6.06	2.02	0.0 0.00%
setTree(TreeModel) : void   setTree(TreeModel) : void	120120	12.012	5.05	0.0 0.00%
drawNode(Graphics,BinaryNode,float,double,int,int,int) : void   drawNode(Graphics,BinaryNode,float,double,int,int,int) : void	150150	67.067	26.026	0.0 0.00%
findElement(int,int) : Object   findElement(int,int) : Object	306306	13.013	11.011	0.0 0.00%
pickNodes(Rectangle) : void   pickNodes(Rectangle) : void	338338	8.08	2.02	0.0 0.00%
pickNode(Rectangle,BinaryNode,float,double,int,int,int) : void   pickNode(Rectangle,BinaryNode,float,double,int,int,int) : void	356356	14.014	7.07	0.0 0.00%
setColor(BinaryNode,Color) : void   setColor(BinaryNode,Color) : void	396396	9.09	5.05	0.0 0.00%
update(Graphics) : void   update(Graphics) : void	420420	1.01	1.01	0.0 0.00%
paint(Graphics) : void   paint(Graphics) : void	426426	16.016	5.05	0.0 0.00%
draw(Graphics,int,int) : void   draw(Graphics,int,int) : void	460460	16.016	4.04	0.0 0.00%
mouseReleased(MouseEvent) : void   mouseReleased(MouseEvent) : void	504504	0.00	1.01	-1.0 -1.0 -
mouseEntered(MouseEvent) : void   mouseEntered(MouseEvent) : void	509509	0.00	1.01	-1.0 -1.0 -
mouseExited(MouseEvent) : void   mouseExited(MouseEvent) : void	514514	0.00	1.01	-1.0 -1.0 -
mouseClicked(MouseEvent) : void   mouseClicked(MouseEvent) : void	519519	12.012	4.04	0.0 0.00%
mouseDragged(MouseEvent) : void   mouseDragged(MouseEvent) : void	547547	0.00	1.01	-1.0 -1.0 -
mouseMoved(MouseEvent) : void   mouseMoved(MouseEvent) : void	552552	8.08	3.03	0.0 0.00%
mousePressed(MouseEvent) : void   mousePressed(MouseEvent) : void	574574	26.026	5.05	0.0 0.00%
colourGroups(List<BinaryNode>) : void   colourGroups(List<BinaryNode>) : void	625625	37.037	11.011	0.0 0.00%
setShowDistances(boolean) : void   setShowDistances(boolean) : void	725725	2.02	1.01	0.0 0.00%
setShowBootstrap(boolean) : void   setShowBootstrap(boolean) : void	731731	2.02	1.01	0.0 0.00%
setMarkPlaceholders(boolean) : void   setMarkPlaceholders(boolean) : void	737737	2.02	1.01	0.0 0.00%

 

Contributing tests

Source view

1		/*
2		* Jalview - A Sequence Alignment Editor and Viewer ($$Version-Rel$$)
3		* Copyright (C) $$Year-Rel$$ The Jalview Authors
4		*
5		* This file is part of Jalview.
6		*
7		* Jalview is free software: you can redistribute it and/or
8		* modify it under the terms of the GNU General Public License
9		* as published by the Free Software Foundation, either version 3
10		* of the License, or (at your option) any later version.
11		*
12		* Jalview is distributed in the hope that it will be useful, but
13		* WITHOUT ANY WARRANTY; without even the implied warranty
14		* of MERCHANTABILITY or FITNESS FOR A PARTICULAR
15		* PURPOSE. See the GNU General Public License for more details.
16		*
17		* You should have received a copy of the GNU General Public License
18		* along with Jalview. If not, see <http://www.gnu.org/licenses/>.
19		* The Jalview Authors are detailed in the 'AUTHORS' file.
20		*/
21		package jalview.appletgui;
22
23		import jalview.analysis.Conservation;
24		import jalview.analysis.TreeModel;
25		import jalview.api.AlignViewportI;
26		import jalview.datamodel.BinaryNode;
27		import jalview.datamodel.Sequence;
28		import jalview.datamodel.SequenceGroup;
29		import jalview.datamodel.SequenceI;
30		import jalview.datamodel.SequenceNode;
31		import jalview.schemes.ColourSchemeI;
32		import jalview.schemes.ColourSchemeProperty;
33		import jalview.schemes.UserColourScheme;
34		import jalview.util.Format;
35		import jalview.util.MappingUtils;
36		import jalview.viewmodel.AlignmentViewport;
37
38		import java.awt.Color;
39		import java.awt.Dimension;
40		import java.awt.Font;
41		import java.awt.FontMetrics;
42		import java.awt.Graphics;
43		import java.awt.Panel;
44		import java.awt.Point;
45		import java.awt.Rectangle;
46		import java.awt.ScrollPane;
47		import java.awt.event.MouseEvent;
48		import java.awt.event.MouseListener;
49		import java.awt.event.MouseMotionListener;
50		import java.util.Enumeration;
51		import java.util.Hashtable;
52		import java.util.List;
53		import java.util.Vector;
54
		0% Uncovered Elements: 403 (403) Complexity: 99 Complexity Density: 0.38
55		public class TreeCanvas extends Panel
56		implements MouseListener, MouseMotionListener
57		{
58		TreeModel tree;
59
60		ScrollPane scrollPane;
61
62		AlignViewport av;
63
64		public static final String PLACEHOLDER = " * ";
65
66		Font font;
67
68		boolean fitToWindow = true;
69
70		boolean showDistances = false;
71
72		boolean showBootstrap = false;
73
74		boolean markPlaceholders = false;
75
76		int offx = 20;
77
78		int offy;
79
80		float threshold;
81
82		String longestName;
83
84		int labelLength = -1;
85
86		Hashtable nameHash = new Hashtable();
87
88		Hashtable nodeHash = new Hashtable();
89
90		BinaryNode highlightNode;
91
92		AlignmentPanel ap;
93
		0% Uncovered Elements: 8 (8) Complexity: 1 Complexity Density: 0.12
94	0	public TreeCanvas(AlignmentPanel ap, ScrollPane scroller)...
95		{
96	0	this.ap = ap;
97	0	this.av = ap.av;
98	0	font = av.getFont();
99	0	scrollPane = scroller;
100	0	addMouseListener(this);
101	0	addMouseMotionListener(this);
102	0	setLayout(null);
103
104	0	PaintRefresher.Register(this, av.getSequenceSetId());
105		}
106
		0% Uncovered Elements: 8 (8) Complexity: 2 Complexity Density: 0.33
107	0	public void treeSelectionChanged(SequenceI sequence)...
108		{
109	0	SequenceGroup selected = av.getSelectionGroup();
110	0	if (selected == null)
111		{
112	0	selected = new SequenceGroup();
113	0	av.setSelectionGroup(selected);
114		}
115
116	0	selected.setEndRes(av.getAlignment().getWidth() - 1);
117	0	selected.addOrRemove(sequence, true);
118		}
119
		0% Uncovered Elements: 18 (18) Complexity: 5 Complexity Density: 0.42
120	0	public void setTree(TreeModel tree2)...
121		{
122	0	this.tree = tree2;
123	0	tree2.findHeight(tree2.getTopNode());
124
125		// Now have to calculate longest name based on the leaves
126	0	Vector<BinaryNode> leaves = tree2.findLeaves(tree2.getTopNode());
127	0	boolean has_placeholders = false;
128	0	longestName = "";
129
130	0	for (int i = 0; i < leaves.size(); i++)
131		{
132	0	BinaryNode lf = leaves.elementAt(i);
133
134	0	if (lf instanceof SequenceNode && ((SequenceNode) lf).isPlaceholder())
135		{
136	0	has_placeholders = true;
137		}
138
139	0	if (longestName.length() < ((Sequence) lf.element()).getName()
140		.length())
141		{
142	0	longestName = TreeCanvas.PLACEHOLDER
143		+ ((Sequence) lf.element()).getName();
144		}
145		}
146
147	0	setMarkPlaceholders(has_placeholders);
148		}
149
		0% Uncovered Elements: 105 (105) Complexity: 26 Complexity Density: 0.39
150	0	public void drawNode(Graphics g, BinaryNode node, float chunk,...
151		double scale, int width, int offx, int offy)
152		{
153	0	if (node == null)
154		{
155	0	return;
156		}
157
158	0	if (node.left() == null && node.right() == null)
159		{
160		// Drawing leaf node
161
162	0	double height = node.height;
163	0	double dist = node.dist;
164
165	0	int xstart = (int) ((height - dist) * scale) + offx;
166	0	int xend = (int) (height * scale) + offx;
167
168	0	int ypos = (int) (node.ycount * chunk) + offy;
169
170	0	if (node.element() instanceof SequenceI)
171		{
172	0	SequenceI seq = (SequenceI) node.element();
173
174	0	if (av.getSequenceColour(seq) == Color.white)
175		{
176	0	g.setColor(Color.black);
177		}
178		else
179		{
180	0	g.setColor(av.getSequenceColour(seq).darker());
181		}
182
183		}
184		else
185		{
186	0	g.setColor(Color.black);
187		}
188
189		// Draw horizontal line
190	0	g.drawLine(xstart, ypos, xend, ypos);
191
192	0	String nodeLabel = "";
193	0	if (showDistances && node.dist > 0)
194		{
195	0	nodeLabel = new Format("%-.2f").form(node.dist);
196		}
197	0	if (showBootstrap)
198		{
199	0	int btstrap = node.getBootstrap();
200	0	if (btstrap > -1)
201		{
202	0	if (showDistances)
203		{
204	0	nodeLabel = nodeLabel + " : ";
205		}
206	0	nodeLabel = nodeLabel + String.valueOf(node.getBootstrap());
207		}
208		}
209	0	if (!nodeLabel.equals(""))
210		{
211	0	g.drawString(nodeLabel, xstart + 2, ypos - 2);
212		}
213
214	0	String name = (markPlaceholders && node instanceof SequenceNode
215		&& ((SequenceNode) node).isPlaceholder())
216		? (PLACEHOLDER + node.getName())
217		: node.getName();
218	0	FontMetrics fm = g.getFontMetrics(font);
219	0	int charWidth = fm.stringWidth(name) + 3;
220	0	int charHeight = fm.getHeight();
221
222	0	Rectangle rect = new Rectangle(xend + 10, ypos - charHeight,
223		charWidth, charHeight);
224
225	0	nameHash.put(node.element(), rect);
226
227		// Colour selected leaves differently
228	0	SequenceGroup selected = av.getSelectionGroup();
229	0	if (selected != null
230		&& selected.getSequences(null).contains(node.element()))
231		{
232	0	g.setColor(Color.gray);
233
234	0	g.fillRect(xend + 10, ypos - charHeight + 3, charWidth, charHeight);
235	0	g.setColor(Color.white);
236		}
237	0	g.drawString(name, xend + 10, ypos);
238	0	g.setColor(Color.black);
239		}
240		else
241		{
242	0	drawNode(g, (BinaryNode) node.left(), chunk, scale, width, offx,
243		offy);
244	0	drawNode(g, (BinaryNode) node.right(), chunk, scale, width, offx,
245		offy);
246
247	0	double height = node.height;
248	0	double dist = node.dist;
249
250	0	int xstart = (int) ((height - dist) * scale) + offx;
251	0	int xend = (int) (height * scale) + offx;
252	0	int ypos = (int) (node.ycount * chunk) + offy;
253
254	0	g.setColor(node.color.darker());
255
256		// Draw horizontal line
257	0	g.drawLine(xstart, ypos, xend, ypos);
258	0	if (node == highlightNode)
259		{
260	0	g.fillRect(xend - 3, ypos - 3, 6, 6);
261		}
262		else
263		{
264	0	g.fillRect(xend - 2, ypos - 2, 4, 4);
265		}
266
267	0	int ystart = (int) (node.left() == null ? 0
268		: (((BinaryNode) node.left()).ycount * chunk)) + offy;
269	0	int yend = (int) (node.right() == null ? 0
270		: (((BinaryNode) node.right()).ycount * chunk)) + offy;
271
272	0	Rectangle pos = new Rectangle(xend - 2, ypos - 2, 5, 5);
273	0	nodeHash.put(node, pos);
274
275	0	g.drawLine((int) (height * scale) + offx, ystart,
276		(int) (height * scale) + offx, yend);
277
278	0	String nodeLabel = "";
279
280	0	if (showDistances && (node.dist > 0))
281		{
282	0	nodeLabel = new Format("%-.2f").form(node.dist);
283		}
284
285	0	if (showBootstrap)
286		{
287	0	int btstrap = node.getBootstrap();
288	0	if (btstrap > -1)
289		{
290	0	if (showDistances)
291		{
292	0	nodeLabel = nodeLabel + " : ";
293		}
294	0	nodeLabel = nodeLabel + String.valueOf(node.getBootstrap());
295		}
296		}
297
298	0	if (!nodeLabel.equals(""))
299		{
300	0	g.drawString(nodeLabel, xstart + 2, ypos - 2);
301		}
302
303		}
304		}
305
		0% Uncovered Elements: 21 (21) Complexity: 11 Complexity Density: 0.85
306	0	public Object findElement(int x, int y)...
307		{
308	0	Enumeration keys = nameHash.keys();
309
310	0	while (keys.hasMoreElements())
311		{
312	0	Object ob = keys.nextElement();
313	0	Rectangle rect = (Rectangle) nameHash.get(ob);
314
315	0	if (x >= rect.x && x <= (rect.x + rect.width) && y >= rect.y
316		&& y <= (rect.y + rect.height))
317		{
318	0	return ob;
319		}
320		}
321	0	keys = nodeHash.keys();
322
323	0	while (keys.hasMoreElements())
324		{
325	0	Object ob = keys.nextElement();
326	0	Rectangle rect = (Rectangle) nodeHash.get(ob);
327
328	0	if (x >= rect.x && x <= (rect.x + rect.width) && y >= rect.y
329		&& y <= (rect.y + rect.height))
330		{
331	0	return ob;
332		}
333		}
334	0	return null;
335
336		}
337
		0% Uncovered Elements: 10 (10) Complexity: 2 Complexity Density: 0.25
338	0	public void pickNodes(Rectangle pickBox)...
339		{
340	0	int width = getSize().width;
341	0	int height = getSize().height;
342
343	0	BinaryNode top = tree.getTopNode();
344
345	0	double wscale = (float) (width * .8 - offx * 2) / tree.getMaxHeight();
346	0	if (top.count == 0)
347		{
348	0	top.count = ((BinaryNode) top.left()).count
349		+ ((BinaryNode) top.right()).count;
350		}
351	0	float chunk = (float) (height - offy) / top.count;
352
353	0	pickNode(pickBox, top, chunk, wscale, width, offx, offy);
354		}
355
		0% Uncovered Elements: 24 (24) Complexity: 7 Complexity Density: 0.5
356	0	public void pickNode(Rectangle pickBox, BinaryNode node, float chunk,...
357		double scale, int width, int offx, int offy)
358		{
359	0	if (node == null)
360		{
361	0	return;
362		}
363
364	0	if (node.left() == null && node.right() == null)
365		{
366	0	double height = node.height;
367		// float dist = node.dist;
368
369		// int xstart = (int) ( (height - dist) * scale) + offx;
370	0	int xend = (int) (height * scale) + offx;
371
372	0	int ypos = (int) (node.ycount * chunk) + offy;
373
374	0	if (pickBox.contains(new Point(xend, ypos)))
375		{
376	0	if (node.element() instanceof SequenceI)
377		{
378	0	SequenceI seq = (SequenceI) node.element();
379	0	SequenceGroup sg = av.getSelectionGroup();
380	0	if (sg != null)
381		{
382	0	sg.addOrRemove(seq, true);
383		}
384		}
385		}
386		}
387		else
388		{
389	0	pickNode(pickBox, (BinaryNode) node.left(), chunk, scale, width, offx,
390		offy);
391	0	pickNode(pickBox, (BinaryNode) node.right(), chunk, scale, width,
392		offx, offy);
393		}
394		}
395
		0% Uncovered Elements: 15 (15) Complexity: 5 Complexity Density: 0.56
396	0	public void setColor(BinaryNode node, Color c)...
397		{
398	0	if (node == null)
399		{
400	0	return;
401		}
402
403	0	if (node.left() == null && node.right() == null)
404		{
405	0	node.color = c;
406
407	0	if (node.element() instanceof SequenceI)
408		{
409	0	av.setSequenceColour((SequenceI) node.element(), c);
410		}
411		}
412		else
413		{
414	0	node.color = c;
415	0	setColor((BinaryNode) node.left(), c);
416	0	setColor((BinaryNode) node.right(), c);
417		}
418		}
419
		0% Uncovered Elements: 1 (1) Complexity: 1 Complexity Density: 1
420	0	@Override...
421		public void update(Graphics g)
422		{
423	0	paint(g);
424		}
425
		0% Uncovered Elements: 24 (24) Complexity: 5 Complexity Density: 0.31
426	0	@Override...
427		public void paint(Graphics g)
428		{
429	0	if (tree == null)
430		{
431	0	return;
432		}
433
434	0	if (nameHash.size() == 0)
435		{
436	0	repaint();
437		}
438
439	0	int width = scrollPane.getSize().width;
440	0	int height = scrollPane.getSize().height;
441	0	if (!fitToWindow)
442		{
443	0	height = g.getFontMetrics(font).getHeight() * nameHash.size();
444		}
445
446	0	if (getSize().width > width)
447		{
448	0	setSize(new Dimension(width, height));
449	0	scrollPane.validate();
450	0	return;
451		}
452
453	0	setSize(new Dimension(width, height));
454
455	0	g.setFont(font);
456	0	draw(g, width, height);
457	0	validate();
458		}
459
		0% Uncovered Elements: 22 (22) Complexity: 4 Complexity Density: 0.25
460	0	public void draw(Graphics g, int width, int height)...
461		{
462	0	offy = font.getSize() + 10;
463
464	0	g.setColor(Color.white);
465	0	g.fillRect(0, 0, width, height);
466
467	0	labelLength = g.getFontMetrics(font).stringWidth(longestName) + 20; // 20
468		// allows
469		// for
470		// scrollbar
471
472	0	double wscale = (width - labelLength - offx * 2) / tree.getMaxHeight();
473
474	0	BinaryNode top = tree.getTopNode();
475
476	0	if (top.count == 0)
477		{
478	0	top.count = ((BinaryNode) top.left()).count
479		+ ((BinaryNode) top.right()).count;
480		}
481	0	float chunk = (float) (height - offy) / top.count;
482
483	0	drawNode(g, tree.getTopNode(), chunk, wscale, width, offx, offy);
484
485	0	if (threshold != 0)
486		{
487	0	if (av.getCurrentTree() == tree)
488		{
489	0	g.setColor(Color.red);
490		}
491		else
492		{
493	0	g.setColor(Color.gray);
494		}
495
496	0	int x = (int) (threshold * (getSize().width - labelLength - 2 * offx)
497		+ offx);
498
499	0	g.drawLine(x, 0, x, getSize().height);
500		}
501
502		}
503
		- Uncovered Elements: 0 (0) Complexity: 1 Complexity Density: -
504	0	@Override...
505		public void mouseReleased(MouseEvent e)
506		{
507		}
508
		- Uncovered Elements: 0 (0) Complexity: 1 Complexity Density: -
509	0	@Override...
510		public void mouseEntered(MouseEvent e)
511		{
512		}
513
		- Uncovered Elements: 0 (0) Complexity: 1 Complexity Density: -
514	0	@Override...
515		public void mouseExited(MouseEvent e)
516		{
517		}
518
		0% Uncovered Elements: 18 (18) Complexity: 4 Complexity Density: 0.33
519	0	@Override...
520		public void mouseClicked(MouseEvent evt)
521		{
522	0	if (highlightNode != null)
523		{
524	0	if (evt.getClickCount() > 1)
525		{
526	0	tree.swapNodes(highlightNode);
527	0	tree.reCount(tree.getTopNode());
528	0	tree.findHeight(tree.getTopNode());
529		}
530		else
531		{
532	0	Vector<BinaryNode> leaves = tree.findLeaves(highlightNode);
533
534	0	for (int i = 0; i < leaves.size(); i++)
535		{
536	0	SequenceI seq = (SequenceI) leaves.elementAt(i).element();
537	0	treeSelectionChanged(seq);
538		}
539		}
540
541	0	PaintRefresher.Refresh(this, av.getSequenceSetId());
542	0	repaint();
543	0	av.sendSelection();
544		}
545		}
546
		- Uncovered Elements: 0 (0) Complexity: 1 Complexity Density: -
547	0	@Override...
548		public void mouseDragged(MouseEvent ect)
549		{
550		}
551
		0% Uncovered Elements: 12 (12) Complexity: 3 Complexity Density: 0.38
552	0	@Override...
553		public void mouseMoved(MouseEvent evt)
554		{
555	0	av.setCurrentTree(tree);
556
557	0	Object ob = findElement(evt.getX(), evt.getY());
558
559	0	if (ob instanceof BinaryNode)
560		{
561	0	highlightNode = (BinaryNode) ob;
562	0	repaint();
563		}
564		else
565		{
566	0	if (highlightNode != null)
567		{
568	0	highlightNode = null;
569	0	repaint();
570		}
571		}
572		}
573
		0% Uncovered Elements: 34 (34) Complexity: 5 Complexity Density: 0.19
574	0	@Override...
575		public void mousePressed(MouseEvent e)
576		{
577	0	av.setCurrentTree(tree);
578
579	0	int x = e.getX();
580	0	int y = e.getY();
581
582	0	Object ob = findElement(x, y);
583
584	0	if (ob instanceof SequenceI)
585		{
586	0	treeSelectionChanged((Sequence) ob);
587	0	PaintRefresher.Refresh(this, av.getSequenceSetId());
588	0	repaint();
589	0	av.sendSelection();
590	0	return;
591		}
592	0	else if (!(ob instanceof SequenceNode))
593		{
594		// Find threshold
595
596	0	if (tree.getMaxHeight() != 0)
597		{
598	0	threshold = (float) (x - offx)
599		/ (float) (getSize().width - labelLength - 2 * offx);
600
601	0	List<BinaryNode> groups = tree.groupNodes(threshold);
602	0	setColor(tree.getTopNode(), Color.black);
603
604	0	av.setSelectionGroup(null);
605	0	av.getAlignment().deleteAllGroups();
606	0	av.clearSequenceColours();
607	0	final AlignViewportI codingComplement = av.getCodingComplement();
608	0	if (codingComplement != null)
609		{
610	0	codingComplement.setSelectionGroup(null);
611	0	codingComplement.getAlignment().deleteAllGroups();
612	0	codingComplement.clearSequenceColours();
613		}
614
615	0	colourGroups(groups);
616
617		}
618		}
619
620	0	PaintRefresher.Refresh(this, av.getSequenceSetId());
621	0	repaint();
622
623		}
624
		0% Uncovered Elements: 55 (55) Complexity: 11 Complexity Density: 0.3
625	0	void colourGroups(List<BinaryNode> groups)...
626		{
627	0	for (int i = 0; i < groups.size(); i++)
628		{
629
630	0	Color col = new Color((int) (Math.random() * 255),
631		(int) (Math.random() * 255), (int) (Math.random() * 255));
632	0	setColor(groups.get(i), col.brighter());
633
634	0	Vector<BinaryNode> l = tree.findLeaves(groups.get(i));
635
636	0	Vector<SequenceI> sequences = new Vector<>();
637	0	for (int j = 0; j < l.size(); j++)
638		{
639	0	SequenceI s1 = (SequenceI) l.elementAt(j).element();
640	0	if (!sequences.contains(s1))
641		{
642	0	sequences.addElement(s1);
643		}
644		}
645
646	0	ColourSchemeI cs = null;
647
648	0	SequenceGroup sg = new SequenceGroup(sequences, "", cs, true, true,
649		false, 0, av.getAlignment().getWidth() - 1);
650
651	0	if (av.getGlobalColourScheme() != null)
652		{
653	0	if (av.getGlobalColourScheme() instanceof UserColourScheme)
654		{
655	0	cs = new UserColourScheme(
656		((UserColourScheme) av.getGlobalColourScheme())
657		.getColours());
658
659		}
660		else
661		{
662	0	cs = ColourSchemeProperty.getColourScheme(av, sg,
663		ColourSchemeProperty
664		.getColourName(av.getGlobalColourScheme()));
665		}
666		// cs is null if shading is an annotationColourGradient
667		// if (cs != null)
668		// {
669		// cs.setThreshold(av.getViewportColourScheme().getThreshold(),
670		// av.isIgnoreGapsConsensus());
671		// }
672		}
673		// TODO: cs used to be initialized with a sequence collection and
674		// recalcConservation called automatically
675		// instead we set it manually - recalc called after updateAnnotation
676	0	sg.setColourScheme(cs);
677	0	sg.getGroupColourScheme().setThreshold(
678		av.getResidueShading().getThreshold(),
679		av.isIgnoreGapsConsensus());
680
681	0	sg.setName("JTreeGroup:" + sg.hashCode());
682	0	sg.setIdColour(col);
683	0	if (av.getGlobalColourScheme() != null
684		&& av.getResidueShading().conservationApplied())
685		{
686	0	Conservation c = new Conservation("Group", sg.getSequences(null),
687		sg.getStartRes(), sg.getEndRes());
688
689	0	c.calculate();
690	0	c.verdict(false, av.getConsPercGaps());
691
692	0	sg.setColourScheme(cs);
693	0	sg.getGroupColourScheme().setConservation(c);
694		}
695
696	0	av.getAlignment().addGroup(sg);
697
698		// TODO this is duplicated with gui TreeCanvas - refactor
699	0	av.getAlignment().addGroup(sg);
700	0	final AlignViewportI codingComplement = av.getCodingComplement();
701	0	if (codingComplement != null)
702		{
703	0	SequenceGroup mappedGroup = MappingUtils.mapSequenceGroup(sg, av,
704		codingComplement);
705	0	if (mappedGroup.getSequences().size() > 0)
706		{
707	0	codingComplement.getAlignment().addGroup(mappedGroup);
708	0	for (SequenceI seq : mappedGroup.getSequences())
709		{
710		// TODO why does gui require col.brighter() here??
711	0	codingComplement.setSequenceColour(seq, col);
712		}
713		}
714		}
715
716		}
717	0	ap.updateAnnotation();
718	0	if (av.getCodingComplement() != null)
719		{
720	0	((AlignmentViewport) av.getCodingComplement()).firePropertyChange(
721		"alignment", null, ap.av.getAlignment().getSequences());
722		}
723		}
724
		0% Uncovered Elements: 2 (2) Complexity: 1 Complexity Density: 0.5
725	0	public void setShowDistances(boolean state)...
726		{
727	0	this.showDistances = state;
728	0	repaint();
729		}
730
		0% Uncovered Elements: 2 (2) Complexity: 1 Complexity Density: 0.5
731	0	public void setShowBootstrap(boolean state)...
732		{
733	0	this.showBootstrap = state;
734	0	repaint();
735		}
736
		0% Uncovered Elements: 2 (2) Complexity: 1 Complexity Density: 0.5
737	0	public void setMarkPlaceholders(boolean state)...
738		{
739	0	this.markPlaceholders = state;
740	0	repaint();
741		}
742
743		}