Classes

Class	Line #	Total Statements	Complexity	TOTAL Coverage	Actions
Mapping	30	118	75	0.00%	Show methods
Mapping.AlignedCodonIterator	39	54	24	0.00%	Show methods

Class Mapping

Class Mapping	Line # 30	Total Statements 118	Complexity 75	TOTAL Coverage 0.00%
Mapping(MapList)   Mapping(MapList)	297297	2.02	1.01	0.0 0.00%
Mapping(SequenceI,MapList)   Mapping(SequenceI,MapList)	303303	2.02	1.01	0.0 0.00%
Mapping(SequenceI,int[],int[],int,int)   Mapping(SequenceI,int[],int[],int,int)	324324	1.01	1.01	0.0 0.00%
Mapping(Mapping)   Mapping(Mapping)	335335	5.05	4.04	0.0 0.00%
getMap() : MapList   getMap() : MapList	351351	1.01	1.01	0.0 0.00%
setMap(MapList) : void   setMap(MapList) : void	360360	1.01	1.01	0.0 0.00%
equals(Object) : boolean   equals(Object) : boolean	372372	12.012	12.012	0.0 0.00%
hashCode() : int   hashCode() : int	403403	4.04	3.03	0.0 0.00%
getPosition(int) : int   getPosition(int) : int	422422	5.05	3.03	0.0 0.00%
getWidth() : int   getWidth() : int	439439	3.03	2.02	0.0 0.00%
getMappedWidth() : int   getMappedWidth() : int	453453	3.03	2.02	0.0 0.00%
getMappedPosition(int) : int   getMappedPosition(int) : int	469469	5.05	3.03	0.0 0.00%
getMappedWord(int) : int[]   getMappedWord(int) : int[]	482482	5.05	3.03	0.0 0.00%
locateFeature(SequenceFeature) : SequenceFeature[]   locateFeature(SequenceFeature) : SequenceFeature[]	502502	12.012	5.05	0.0 0.00%
locateRange(int,int) : int[]   locateRange(int,int) : int[]	541541	12.012	9.09	0.0 0.00%
locateMappedRange(int,int) : int[]   locateMappedRange(int,int) : int[]	576576	12.012	9.09	0.0 0.00%
intersectVisContigs(int[]) : Mapping   intersectVisContigs(int[]) : Mapping	611611	27.027	8.08	0.0 0.00%
getTo() : SequenceI   getTo() : SequenceI	664664	1.01	1.01	0.0 0.00%
setTo(SequenceI) : void   setTo(SequenceI) : void	674674	1.01	1.01	0.0 0.00%
getCodonIterator(SequenceI,char) : Iterator<AlignedCodon>   getCodonIterator(SequenceI,char) : Iterator<AlignedCodon>	688688	1.01	1.01	0.0 0.00%
toString() : String   toString() : String	697697	1.01	2.02	0.0 0.00%
getMappedFromId() : String   getMappedFromId() : String	709709	1.01	1.01	0.0 0.00%
setMappedFromId(String) : void   setMappedFromId(String) : void	717717	1.01	1.01	0.0 0.00%

 

Class Mapping.AlignedCodonIterator

Class Mapping.AlignedCodonIterator	Line # 39	Total Statements 54	Complexity 24	TOTAL Coverage 0.00%
AlignedCodonIterator(SequenceI,char)   AlignedCodonIterator(SequenceI,char)	103103	11.011	3.03	0.0 0.00%
hasNext() : boolean   hasNext() : boolean	125125	5.05	4.04	0.0 0.00%
next() : AlignedCodon   next() : AlignedCodon	147147	7.07	2.02	0.0 0.00%
getPeptide() : String   getPeptide() : String	172172	10.010	3.03	0.0 0.00%
getNextCodon() : int[]   getNextCodon() : int[]	199199	10.010	4.04	0.0 0.00%
getAlignedCodon(int[]) : int[]   getAlignedCodon(int[]) : int[]	237237	4.04	2.02	0.0 0.00%
getAlignedColumn(int) : int   getAlignedColumn(int) : int	254254	7.07	5.05	0.0 0.00%
remove() : void   remove() : void	272272	0.00	1.01	-1.0 -1.0 -

 

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.datamodel;
22
23		import java.util.Iterator;
24		import java.util.NoSuchElementException;
25		import java.util.Vector;
26
27		import jalview.util.Comparison;
28		import jalview.util.MapList;
29
		0% Uncovered Elements: 231 (231) Complexity: 75 Complexity Density: 0.64
30		public class Mapping
31		{
32		/**
33		* An iterator that serves the aligned codon positions (with their protein
34		* products).
35		*
36		* @author gmcarstairs
37		*
38		*/
		0% Uncovered Elements: 88 (88) Complexity: 24 Complexity Density: 0.44
39		public class AlignedCodonIterator implements Iterator<AlignedCodon>
40		{
41		/*
42		* The gap character used in the aligned sequence
43		*/
44		private final char gap;
45
46		/*
47		* The characters of the aligned sequence e.g. "-cGT-ACgTG-"
48		*/
49		private final SequenceI alignedSeq;
50
51		/*
52		* the sequence start residue
53		*/
54		private int start;
55
56		/*
57		* Next position (base 0) in the aligned sequence
58		*/
59		private int alignedColumn = 0;
60
61		/*
62		* Count of bases up to and including alignedColumn position
63		*/
64		private int alignedBases = 0;
65
66		/*
67		* [start, end] from ranges (base 1)
68		*/
69		private Iterator<int[]> fromRanges;
70
71		/*
72		* [start, end] to ranges (base 1)
73		*/
74		private Iterator<int[]> toRanges;
75
76		/*
77		* The current [start, end] (base 1) from range
78		*/
79		private int[] currentFromRange = null;
80
81		/*
82		* The current [start, end] (base 1) to range
83		*/
84		private int[] currentToRange = null;
85
86		/*
87		* The next 'from' position (base 1) to process
88		*/
89		private int fromPosition = 0;
90
91		/*
92		* The next 'to' position (base 1) to process
93		*/
94		private int toPosition = 0;
95
96		/**
97		* Constructor
98		*
99		* @param seq
100		* the aligned sequence
101		* @param gapChar
102		*/
		0% Uncovered Elements: 15 (15) Complexity: 3 Complexity Density: 0.27
103	0	public AlignedCodonIterator(SequenceI seq, char gapChar)...
104		{
105	0	this.alignedSeq = seq;
106	0	this.start = seq.getStart();
107	0	this.gap = gapChar;
108	0	fromRanges = map.getFromRanges().iterator();
109	0	toRanges = map.getToRanges().iterator();
110	0	if (fromRanges.hasNext())
111		{
112	0	currentFromRange = fromRanges.next();
113	0	fromPosition = currentFromRange[0];
114		}
115	0	if (toRanges.hasNext())
116		{
117	0	currentToRange = toRanges.next();
118	0	toPosition = currentToRange[0];
119		}
120		}
121
122		/**
123		* Returns true unless we have already traversed the whole mapping.
124		*/
		0% Uncovered Elements: 9 (9) Complexity: 4 Complexity Density: 0.8
125	0	@Override...
126		public boolean hasNext()
127		{
128	0	if (fromRanges.hasNext())
129		{
130	0	return true;
131		}
132	0	if (currentFromRange == null || fromPosition >= currentFromRange[1])
133		{
134	0	return false;
135		}
136	0	return true;
137		}
138
139		/**
140		* Returns the next codon's aligned positions, and translated value.
141		*
142		* @throws NoSuchElementException
143		* if hasNext() would have returned false
144		* @throws IncompleteCodonException
145		* if not enough mapped bases are left to make up a codon
146		*/
		0% Uncovered Elements: 9 (9) Complexity: 2 Complexity Density: 0.29
147	0	@Override...
148		public AlignedCodon next() throws IncompleteCodonException
149		{
150	0	if (!hasNext())
151		{
152	0	throw new NoSuchElementException();
153		}
154
155	0	int[] codon = getNextCodon();
156	0	int[] alignedCodon = getAlignedCodon(codon);
157
158	0	String peptide = getPeptide();
159	0	int peptideCol = toPosition - 1 - Mapping.this.to.getStart();
160	0	return new AlignedCodon(alignedCodon[0], alignedCodon[1],
161		alignedCodon[2], peptide, peptideCol);
162		}
163
164		/**
165		* Retrieve the translation as the 'mapped to' position in the mapped to
166		* sequence.
167		*
168		* @return
169		* @throws NoSuchElementException
170		* if the 'toRange' is exhausted (nothing to map to)
171		*/
		0% Uncovered Elements: 14 (14) Complexity: 3 Complexity Density: 0.3
172	0	private String getPeptide()...
173		{
174		// TODO should ideally handle toRatio other than 1 as well...
175		// i.e. code like getNextCodon()
176	0	if (toPosition <= currentToRange[1])
177		{
178	0	SequenceI seq = Mapping.this.to;
179	0	char pep = seq.getCharAt(toPosition - seq.getStart());
180	0	toPosition++;
181	0	return String.valueOf(pep);
182		}
183	0	if (!toRanges.hasNext())
184		{
185	0	throw new NoSuchElementException(
186		"Ran out of peptide at position " + toPosition);
187		}
188	0	currentToRange = toRanges.next();
189	0	toPosition = currentToRange[0];
190	0	return getPeptide();
191		}
192
193		/**
194		* Get the (base 1) dataset positions for the next codon in the mapping.
195		*
196		* @throws IncompleteCodonException
197		* if less than 3 remaining bases are mapped
198		*/
		0% Uncovered Elements: 16 (16) Complexity: 4 Complexity Density: 0.4
199	0	private int[] getNextCodon()...
200		{
201	0	int[] codon = new int[3];
202	0	int codonbase = 0;
203
204	0	while (codonbase < 3)
205		{
206	0	if (fromPosition <= currentFromRange[1])
207		{
208		/*
209		* Add next position from the current start-end range
210		*/
211	0	codon[codonbase++] = fromPosition++;
212		}
213		else
214		{
215		/*
216		* Move to the next range - if there is one
217		*/
218	0	if (!fromRanges.hasNext())
219		{
220	0	throw new IncompleteCodonException();
221		}
222	0	currentFromRange = fromRanges.next();
223	0	fromPosition = currentFromRange[0];
224		}
225		}
226	0	return codon;
227		}
228
229		/**
230		* Get the aligned column positions (base 0) for the given sequence
231		* positions (base 1), by counting ungapped characters in the aligned
232		* sequence.
233		*
234		* @param codon
235		* @return
236		*/
		0% Uncovered Elements: 6 (6) Complexity: 2 Complexity Density: 0.5
237	0	private int[] getAlignedCodon(int[] codon)...
238		{
239	0	int[] aligned = new int[codon.length];
240	0	for (int i = 0; i < codon.length; i++)
241		{
242	0	aligned[i] = getAlignedColumn(codon[i]);
243		}
244	0	return aligned;
245		}
246
247		/**
248		* Get the aligned column position (base 0) for the given sequence position
249		* (base 1).
250		*
251		* @param sequencePos
252		* @return
253		*/
		0% Uncovered Elements: 11 (11) Complexity: 5 Complexity Density: 0.71
254	0	private int getAlignedColumn(int sequencePos)...
255		{
256		/*
257		* allow for offset e.g. treat pos 8 as 2 if sequence starts at 7
258		*/
259	0	int truePos = sequencePos - (start - 1);
260	0	int length = alignedSeq.getLength();
261	0	while (alignedBases < truePos && alignedColumn < length)
262		{
263	0	char c = alignedSeq.getCharAt(alignedColumn++);
264	0	if (c != gap && !Comparison.isGap(c))
265		{
266	0	alignedBases++;
267		}
268		}
269	0	return alignedColumn - 1;
270		}
271
		- Uncovered Elements: 0 (0) Complexity: 1 Complexity Density: -
272	0	@Override...
273		public void remove()
274		{
275		// ignore
276		}
277
278		}
279
280		/*
281		* Contains the start-end pairs mapping from the associated sequence to the
282		* sequence in the database coordinate system. It also takes care of step
283		* difference between coordinate systems.
284		*/
285		MapList map = null;
286
287		/*
288		* The sequence that map maps the associated sequence to (if any).
289		*/
290		SequenceI to = null;
291
292		/*
293		* optional sequence id for the 'from' ranges
294		*/
295		private String mappedFromId;
296
		0% Uncovered Elements: 2 (2) Complexity: 1 Complexity Density: 0.5
297	0	public Mapping(MapList map)...
298		{
299	0	super();
300	0	this.map = map;
301		}
302
		0% Uncovered Elements: 2 (2) Complexity: 1 Complexity Density: 0.5
303	0	public Mapping(SequenceI to, MapList map)...
304		{
305	0	this(map);
306	0	this.to = to;
307		}
308
309		/**
310		* create a new mapping from
311		*
312		* @param to
313		* the sequence being mapped
314		* @param exon
315		* int[] {start,end,start,end} series on associated sequence
316		* @param is
317		* int[] {start,end,...} ranges on the reference frame being mapped
318		* to
319		* @param i
320		* step size on associated sequence
321		* @param j
322		* step size on mapped frame
323		*/
		0% Uncovered Elements: 1 (1) Complexity: 1 Complexity Density: 1
324	0	public Mapping(SequenceI to, int[] exon, int[] is, int i, int j)...
325		{
326	0	this(to, new MapList(exon, is, i, j));
327		}
328
329		/**
330		* create a duplicate (and independent) mapping object with the same reference
331		* to any SequenceI being mapped to.
332		*
333		* @param map2
334		*/
		0% Uncovered Elements: 9 (9) Complexity: 4 Complexity Density: 0.8
335	0	public Mapping(Mapping map2)...
336		{
337	0	if (map2 != this && map2 != null)
338		{
339	0	if (map2.map != null)
340		{
341	0	map = new MapList(map2.map);
342		}
343	0	to = map2.to;
344	0	mappedFromId = map2.mappedFromId;
345		}
346		}
347
348		/**
349		* @return the map
350		*/
		0% Uncovered Elements: 1 (1) Complexity: 1 Complexity Density: 1
351	0	public MapList getMap()...
352		{
353	0	return map;
354		}
355
356		/**
357		* @param map
358		* the map to set
359		*/
		0% Uncovered Elements: 1 (1) Complexity: 1 Complexity Density: 1
360	0	public void setMap(MapList map)...
361		{
362	0	this.map = map;
363		}
364
365		/**
366		* Equals that compares both the to references and MapList mappings.
367		*
368		* @param o
369		* @return
370		* @see MapList#equals
371		*/
		0% Uncovered Elements: 22 (22) Complexity: 12 Complexity Density: 1
372	0	@Override...
373		public boolean equals(Object o)
374		{
375	0	if (o == null || !(o instanceof Mapping))
376		{
377	0	return false;
378		}
379	0	Mapping other = (Mapping) o;
380	0	if (other == this)
381		{
382	0	return true;
383		}
384	0	if (other.to != to)
385		{
386	0	return false;
387		}
388	0	if ((map != null && other.map == null)
389		|| (map == null && other.map != null))
390		{
391	0	return false;
392		}
393	0	if ((map == null && other.map == null) || map.equals(other.map))
394		{
395	0	return true;
396		}
397	0	return false;
398		}
399
400		/**
401		* Returns a hashCode made from the sequence and maplist
402		*/
		0% Uncovered Elements: 8 (8) Complexity: 3 Complexity Density: 0.75
403	0	@Override...
404		public int hashCode()
405		{
406	0	int hashCode = (this.to == null ? 1 : this.to.hashCode());
407	0	if (this.map != null)
408		{
409	0	hashCode = hashCode * 31 + this.map.hashCode();
410		}
411
412	0	return hashCode;
413		}
414
415		/**
416		* get the 'initial' position in the associated sequence for a position in the
417		* mapped reference frame
418		*
419		* @param mpos
420		* @return
421		*/
		0% Uncovered Elements: 9 (9) Complexity: 3 Complexity Density: 0.6
422	0	public int getPosition(int mpos)...
423		{
424	0	if (map != null)
425		{
426	0	int[] mp = map.shiftTo(mpos);
427	0	if (mp != null)
428		{
429	0	return mp[0];
430		}
431		}
432	0	return mpos;
433		}
434
435		/**
436		* width of mapped unit in associated sequence
437		*
438		*/
		0% Uncovered Elements: 5 (5) Complexity: 2 Complexity Density: 0.67
439	0	public int getWidth()...
440		{
441	0	if (map != null)
442		{
443	0	return map.getFromRatio();
444		}
445	0	return 1;
446		}
447
448		/**
449		* width of unit in mapped reference frame
450		*
451		* @return
452		*/
		0% Uncovered Elements: 5 (5) Complexity: 2 Complexity Density: 0.67
453	0	public int getMappedWidth()...
454		{
455	0	if (map != null)
456		{
457	0	return map.getToRatio();
458		}
459	0	return 1;
460		}
461
462		/**
463		* get mapped position in the associated reference frame for position pos in
464		* the associated sequence.
465		*
466		* @param pos
467		* @return
468		*/
		0% Uncovered Elements: 9 (9) Complexity: 3 Complexity Density: 0.6
469	0	public int getMappedPosition(int pos)...
470		{
471	0	if (map != null)
472		{
473	0	int[] mp = map.shiftFrom(pos);
474	0	if (mp != null)
475		{
476	0	return mp[0];
477		}
478		}
479	0	return pos;
480		}
481
		0% Uncovered Elements: 9 (9) Complexity: 3 Complexity Density: 0.6
482	0	public int[] getMappedWord(int pos)...
483		{
484	0	if (map != null)
485		{
486	0	int[] mp = map.shiftFrom(pos);
487	0	if (mp != null)
488		{
489	0	return new int[] { mp[0], mp[0] + mp[2] * (map.getToRatio() - 1) };
490		}
491		}
492	0	return null;
493		}
494
495		/**
496		* locates the region of feature f in the associated sequence's reference
497		* frame
498		*
499		* @param f
500		* @return one or more features corresponding to f
501		*/
		0% Uncovered Elements: 20 (20) Complexity: 5 Complexity Density: 0.42
502	0	public SequenceFeature[] locateFeature(SequenceFeature f)...
503		{
504	0	if (true)
505		{ // f.getBegin()!=f.getEnd()) {
506	0	if (map != null)
507		{
508	0	int[] frange = map.locateInFrom(f.getBegin(), f.getEnd());
509	0	if (frange == null)
510		{
511		// JBPNote - this isprobably not the right thing to doJBPHack
512	0	return null;
513		}
514	0	SequenceFeature[] vf = new SequenceFeature[frange.length / 2];
515	0	for (int i = 0, v = 0; i < frange.length; i += 2, v++)
516		{
517	0	vf[v] = new SequenceFeature(f, frange[i], frange[i + 1],
518		f.getFeatureGroup(), f.getScore());
519	0	if (frange.length > 2)
520		{
521	0	vf[v].setDescription(f.getDescription() + "\nPart " + (v + 1));
522		}
523		}
524	0	return vf;
525		}
526		}
527
528		// give up and just return the feature.
529	0	return new SequenceFeature[] { f };
530		}
531
532		/**
533		* return a series of contigs on the associated sequence corresponding to the
534		* from,to interval on the mapped reference frame
535		*
536		* @param from
537		* @param to
538		* @return int[] { from_i, to_i for i=1 to n contiguous regions in the
539		* associated sequence}
540		*/
		0% Uncovered Elements: 28 (28) Complexity: 9 Complexity Density: 0.75
541	0	public int[] locateRange(int from, int to)...
542		{
543	0	if (map != null)
544		{
545	0	if (from <= to)
546		{
547	0	from = (map.getToLowest() < from) ? from : map.getToLowest();
548	0	to = (map.getToHighest() > to) ? to : map.getToHighest();
549	0	if (from > to)
550		{
551	0	return null;
552		}
553		}
554		else
555		{
556	0	from = (map.getToHighest() > from) ? from : map.getToHighest();
557	0	to = (map.getToLowest() < to) ? to : map.getToLowest();
558	0	if (from < to)
559		{
560	0	return null;
561		}
562		}
563	0	return map.locateInFrom(from, to);
564		}
565	0	return new int[] { from, to };
566		}
567
568		/**
569		* return a series of mapped contigs mapped from a range on the associated
570		* sequence
571		*
572		* @param from
573		* @param to
574		* @return
575		*/
		0% Uncovered Elements: 28 (28) Complexity: 9 Complexity Density: 0.75
576	0	public int[] locateMappedRange(int from, int to)...
577		{
578	0	if (map != null)
579		{
580
581	0	if (from <= to)
582		{
583	0	from = (map.getFromLowest() < from) ? from : map.getFromLowest();
584	0	to = (map.getFromHighest() > to) ? to : map.getFromHighest();
585	0	if (from > to)
586		{
587	0	return null;
588		}
589		}
590		else
591		{
592	0	from = (map.getFromHighest() > from) ? from : map.getFromHighest();
593	0	to = (map.getFromLowest() < to) ? to : map.getFromLowest();
594	0	if (from < to)
595		{
596	0	return null;
597		}
598		}
599	0	return map.locateInTo(from, to);
600		}
601	0	return new int[] { from, to };
602		}
603
604		/**
605		* return a new mapping object with a maplist modifed to only map the visible
606		* regions defined by viscontigs.
607		*
608		* @param viscontigs
609		* @return
610		*/
		0% Uncovered Elements: 41 (41) Complexity: 8 Complexity Density: 0.3
611	0	public Mapping intersectVisContigs(int[] viscontigs)...
612		{
613	0	Mapping copy = new Mapping(this);
614	0	if (map != null)
615		{
616	0	int vpos = 0;
617	0	int apos = 0;
618	0	Vector toRange = new Vector();
619	0	Vector fromRange = new Vector();
620	0	for (int vc = 0; vc < viscontigs.length; vc += 2)
621		{
622		// find a mapped range in this visible region
623	0	int[] mpr = locateMappedRange(1 + viscontigs[vc],
624		viscontigs[vc + 1] - 1);
625	0	if (mpr != null)
626		{
627	0	for (int m = 0; m < mpr.length; m += 2)
628		{
629	0	toRange.addElement(new int[] { mpr[m], mpr[m + 1] });
630	0	int[] xpos = locateRange(mpr[m], mpr[m + 1]);
631	0	for (int x = 0; x < xpos.length; x += 2)
632		{
633	0	fromRange.addElement(new int[] { xpos[x], xpos[x + 1] });
634		}
635		}
636		}
637		}
638	0	int[] from = new int[fromRange.size() * 2];
639	0	int[] to = new int[toRange.size() * 2];
640	0	int[] r;
641	0	for (int f = 0, fSize = fromRange.size(); f < fSize; f++)
642		{
643	0	r = (int[]) fromRange.elementAt(f);
644	0	from[f * 2] = r[0];
645	0	from[f * 2 + 1] = r[1];
646		}
647	0	for (int f = 0, fSize = toRange.size(); f < fSize; f++)
648		{
649	0	r = (int[]) toRange.elementAt(f);
650	0	to[f * 2] = r[0];
651	0	to[f * 2 + 1] = r[1];
652		}
653	0	copy.setMap(
654		new MapList(from, to, map.getFromRatio(), map.getToRatio()));
655		}
656	0	return copy;
657		}
658
659		/**
660		* get the sequence being mapped to - if any
661		*
662		* @return null or a dataset sequence
663		*/
		0% Uncovered Elements: 1 (1) Complexity: 1 Complexity Density: 1
664	0	public SequenceI getTo()...
665		{
666	0	return to;
667		}
668
669		/**
670		* set the dataset sequence being mapped to if any
671		*
672		* @param tto
673		*/
		0% Uncovered Elements: 1 (1) Complexity: 1 Complexity Density: 1
674	0	public void setTo(SequenceI tto)...
675		{
676	0	to = tto;
677		}
678
679		/**
680		* Returns an iterator which can serve up the aligned codon column positions
681		* and their corresponding peptide products
682		*
683		* @param seq
684		* an aligned (i.e. possibly gapped) sequence
685		* @param gapChar
686		* @return
687		*/
		0% Uncovered Elements: 1 (1) Complexity: 1 Complexity Density: 1
688	0	public Iterator<AlignedCodon> getCodonIterator(SequenceI seq,...
689		char gapChar)
690		{
691	0	return new AlignedCodonIterator(seq, gapChar);
692		}
693
694		/**
695		* Readable representation for debugging only, not guaranteed not to change
696		*/
		0% Uncovered Elements: 3 (3) Complexity: 2 Complexity Density: 2
697	0	@Override...
698		public String toString()
699		{
700	0	return String.format("%s %s", this.map.toString(),
701	0	this.to == null ? "" : this.to.getName());
702		}
703
704		/**
705		* Returns the identifier for the 'from' range sequence, or null if not set
706		*
707		* @return
708		*/
		0% Uncovered Elements: 1 (1) Complexity: 1 Complexity Density: 1
709	0	public String getMappedFromId()...
710		{
711	0	return mappedFromId;
712		}
713
714		/**
715		* Sets the identifier for the 'from' range sequence
716		*/
		0% Uncovered Elements: 1 (1) Complexity: 1 Complexity Density: 1
717	0	public void setMappedFromId(String mappedFromId)...
718		{
719	0	this.mappedFromId = mappedFromId;
720		}
721
722		}