Classes

Class	Line #	Total Statements	Complexity	TOTAL Coverage	Actions
SparseShortArray	73	119	42	0.4293785442.9%	Show methods

Class SparseShortArray

Class SparseShortArray	Line # 73	Total Statements 119	Complexity 42	TOTAL Coverage 0.4293785442.9%
SparseShortArray()   SparseShortArray()	8484	1.01	1.01	1.0 1.0100%
SparseShortArray(int)   SparseShortArray(int)	9696	7.07	2.02	0.6666667 0.666666766.7%
clone() : SparseShortArray   clone() : SparseShortArray	112112	6.06	2.02	0.0 0.00%
get(int) : int   get(int) : int	132132	1.01	1.01	1.0 1.0100%
get(int,int) : int   get(int,int) : int	144144	5.05	2.02	0.71428573 0.7142857371.4%
delete(int) : void   delete(int) : void	164164	4.04	2.02	0.0 0.00%
removeAt(int) : void   removeAt(int) : void	177177	3.03	1.01	0.0 0.00%
put(int,int) : void   put(int,int) : void	192192	20.020	4.04	0.6923077 0.692307769.2%
size() : int   size() : int	231231	1.01	1.01	1.0 1.0100%
keyAt(int) : short   keyAt(int) : short	247247	1.01	1.01	1.0 1.0100%
valueAt(int) : short   valueAt(int) : short	265265	1.01	1.01	1.0 1.0100%
indexOfKey(int) : int   indexOfKey(int) : int	277277	2.02	1.01	0.0 0.00%
indexOfValue(int) : int   indexOfValue(int) : int	289289	4.04	3.03	0.0 0.00%
clear() : void   clear() : void	304304	1.01	1.01	0.0 0.00%
append(int,int) : void   append(int,int) : void	313313	17.017	4.04	0.0 0.00%
checkOverflow(int) : void   checkOverflow(int) : void	345345	2.02	3.03	1.0 1.0100%
idealShortArraySize(int) : int   idealShortArraySize(int) : int	359359	1.01	1.01	1.0 1.0100%
idealByteArraySize(int) : int   idealByteArraySize(int) : int	370370	4.04	3.03	0.75 0.7575%
toString() : String   toString() : String	389389	14.014	4.04	0.0 0.00%
add(int,int) : int   add(int,int) : int	426426	24.024	4.04	0.6333333 0.633333363.3%

 

Contributing tests

Contributing tests

Select all

	Test contribution	Test	Result	Actions
	0.34463277	jalview.util.SparseCountTest.testPutjalview.util.SparseCountTest.testPut	1PASS
	0.3220339	jalview.ext.android.SparseShortArrayTest.testAddjalview.ext.android.SparseShortArrayTest.testAdd	1PASS
	0.30508474	jalview.datamodel.ResidueCountTest.testGetSymbolCounts_nucleotidejalview.datamodel.ResidueCountTest.testGetSymbolCounts_nucleotide	1PASS
	0.2881356	jalview.util.SparseCountTest.testOverflowjalview.util.SparseCountTest.testOverflow	1PASS
	0.2881356	jalview.util.SparseCountTest.testUnderflowjalview.util.SparseCountTest.testUnderflow	1PASS
	0.28248587	jalview.datamodel.ResidueCountTest.test_unexpectedPeptidejalview.datamodel.ResidueCountTest.test_unexpectedPeptide	1PASS
	0.27683616	jalview.util.SparseCountTest.testAddjalview.util.SparseCountTest.testAdd	1PASS
	0.2542373	jalview.datamodel.ResidueCountTest.testPutjalview.datamodel.ResidueCountTest.testPut	1PASS
	0.24858756	jalview.gui.AlignFrameTest.testHideFeatureColumnsjalview.gui.AlignFrameTest.testHideFeatureColumns	1PASS
	0.24858756	jalview.gui.SeqPanelTest.testAmbiguousAminoAcidGetsStatusMessagejalview.gui.SeqPanelTest.testAmbiguousAminoAcidGetsStatusMessage	1PASS
	0.24858756	jalview.datamodel.ResidueCountTest.testGetResiduesForCountjalview.datamodel.ResidueCountTest.testGetResiduesForCount	1PASS
	0.24858756	jalview.analysis.scoremodels.FeatureDistanceModelTest.testFindDistancesjalview.analysis.scoremodels.FeatureDistanceModelTest.testFindDistances	1PASS
	0.24858756	jalview.controller.AlignViewControllerTest.testFindColumnsWithFeaturejalview.controller.AlignViewControllerTest.testFindColumnsWithFeature	1PASS
	0.24858756	jalview.renderer.seqfeatures.FeatureRendererTest.testFindAllFeaturesjalview.renderer.seqfeatures.FeatureRendererTest.testFindAllFeatures	1PASS
	0.23728813	jalview.util.SparseCountTest.testKeyAt_ValueAtjalview.util.SparseCountTest.testKeyAt_ValueAt	1PASS
	0.2259887	jalview.renderer.seqfeatures.FeatureRendererTest.testFindFeaturesAtColumnjalview.renderer.seqfeatures.FeatureRendererTest.testFindFeaturesAtColumn	1PASS
	0.2259887	jalview.gui.ScalePanelTest.testSelectColumns_withHiddenjalview.gui.ScalePanelTest.testSelectColumns_withHidden	1PASS
	0.2259887	jalview.renderer.ScaleRendererTest.testCalculateMarksjalview.renderer.ScaleRendererTest.testCalculateMarks	1PASS
	0.2259887	jalview.renderer.seqfeatures.FeatureRendererTest.testFilterFeaturesForDisplayjalview.renderer.seqfeatures.FeatureRendererTest.testFilterFeaturesForDisplay	1PASS
	0.2259887	jalview.datamodel.AlignmentViewTest.testGetVisibleContigsjalview.datamodel.AlignmentViewTest.testGetVisibleContigs	1PASS
	0.2259887	jalview.gui.PaintRefresherTest.testGetAssociatedPanelsjalview.gui.PaintRefresherTest.testGetAssociatedPanels	1PASS
	0.2259887	jalview.datamodel.ResidueCountTest.testToStringjalview.datamodel.ResidueCountTest.testToString	1PASS
	0.2259887	jalview.gui.ScalePanelTest.testBuildPopupMenujalview.gui.ScalePanelTest.testBuildPopupMenu	1PASS
	0.2259887	jalview.datamodel.ResidueCountTest.testGetSymbolCounts_peptidejalview.datamodel.ResidueCountTest.testGetSymbolCounts_peptide	1PASS
	0.2259887	jalview.ext.android.SparseShortArrayTest.testPutjalview.ext.android.SparseShortArrayTest.testPut	1PASS
	0.2259887	jalview.renderer.seqfeatures.FeatureRendererTest.testGetColourjalview.renderer.seqfeatures.FeatureRendererTest.testGetColour	1PASS
	0.21468927	jalview.datamodel.ResidueCountTest.testGetModalCountjalview.datamodel.ResidueCountTest.testGetModalCount	1PASS
	0.19209039	jalview.datamodel.ResidueCountTest.test_unexpectedNucleotidejalview.datamodel.ResidueCountTest.test_unexpectedNucleotide	1PASS

 

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.ext.android;
22
23		/*
24		* Copyright (C) 2006 The Android Open Source Project
25		*
26		* Licensed under the Apache License, Version 2.0 (the "License");
27		* you may not use this file except in compliance with the License.
28		* You may obtain a copy of the License at
29		*
30		* http://www.apache.org/licenses/LICENSE-2.0
31		*
32		* Unless required by applicable law or agreed to in writing, software
33		* distributed under the License is distributed on an "AS IS" BASIS,
34		* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
35		* See the License for the specific language governing permissions and
36		* limitations under the License.
37		*/
38		/**
39		* SparseShortArrays map shorts to shorts. Unlike a normal array of shorts,
40		* there can be gaps in the indices. It is intended to be more memory efficient
41		* than using a HashMap to map Shorts to Shorts, both because it avoids
42		* auto-boxing keys and values and its data structure doesn't rely on an extra
43		* entry object for each mapping.
44		*
45		* <p>
46		* Note that this container keeps its mappings in an array data structure, using
47		* a binary search to find keys. The implementation is not intended to be
48		* appropriate for data structures that may contain large numbers of items. It
49		* is generally slower than a traditional HashMap, since lookups require a
50		* binary search and adds and removes require inserting and deleting entries in
51		* the array. For containers holding up to hundreds of items, the performance
52		* difference is not significant, less than 50%.
53		* </p>
54		*
55		* <p>
56		* It is possible to iterate over the items in this container using
57		* {@link #keyAt(int)} and {@link #valueAt(int)}. Iterating over the keys using
58		* <code>keyAt(int)</code> with ascending values of the index will return the
59		* keys in ascending order, or the values corresponding to the keys in ascending
60		* order in the case of <code>valueAt(int)<code>.
61		* </p>
62		*/
63
64		/*
65		* Added to Jalview September 2016. A copy of SparseIntArray designed to store
66		* short values (to minimise space usage).
67		* <p>
68		* Note that operations append, put, add throw ArithmeticException if either the
69		* key or the resulting value overflows the range of a short. Calling code
70		* should trap and handle this, for example by switching to using a
71		* SparseIntArray instead.
72		*/
		42.9% Uncovered Elements: 101 (177) Complexity: 42 Complexity Density: 0.35
73		public class SparseShortArray implements Cloneable
74		{
75		private short[] mKeys;
76
77		private short[] mValues;
78
79		private int mSize;
80
81		/**
82		* Creates a new SparseShortArray containing no mappings.
83		*/
		100% Uncovered Elements: 0 (1) Complexity: 1 Complexity Density: 1
84	2	public SparseShortArray()...
85		{
86	2	this(10);
87		}
88
89		/**
90		* Creates a new SparseShortArray containing no mappings that will not require
91		* any additional memory allocation to store the specified number of mappings.
92		* If you supply an initial capacity of 0, the sparse array will be
93		* initialized with a light-weight representation not requiring any additional
94		* array allocations.
95		*/
		66.7% Uncovered Elements: 3 (9) Complexity: 2 Complexity Density: 0.29
96	76	public SparseShortArray(int initialCapacity)...
97		{
98	76	if (initialCapacity == 0)
99		{
100	0	mKeys = new short[0];
101	0	mValues = new short[0];
102		}
103		else
104		{
105	76	initialCapacity = idealShortArraySize(initialCapacity);
106	76	mKeys = new short[initialCapacity];
107	76	mValues = new short[initialCapacity];
108		}
109	76	mSize = 0;
110		}
111
		0% Uncovered Elements: 6 (6) Complexity: 2 Complexity Density: 0.33
112	0	@Override...
113		public SparseShortArray clone()
114		{
115	0	SparseShortArray clone = null;
116	0	try
117		{
118	0	clone = (SparseShortArray) super.clone();
119	0	clone.mKeys = mKeys.clone();
120	0	clone.mValues = mValues.clone();
121		} catch (CloneNotSupportedException cnse)
122		{
123		/* ignore */
124		}
125	0	return clone;
126		}
127
128		/**
129		* Gets the int mapped from the specified key, or <code>0</code> if no such
130		* mapping has been made.
131		*/
		100% Uncovered Elements: 0 (1) Complexity: 1 Complexity Density: 1
132	9	public int get(int key)...
133		{
134	9	return get(key, 0);
135		}
136
137		/**
138		* Gets the int mapped from the specified key, or the specified value if no
139		* such mapping has been made.
140		*
141		* @throws ArithmeticException
142		* if key is outside the range of a short value
143		*/
		71.4% Uncovered Elements: 2 (7) Complexity: 2 Complexity Density: 0.4
144	9	public int get(int key, int valueIfKeyNotFound)...
145		{
146	9	checkOverflow(key);
147	9	int i = ContainerHelpers.binarySearch(mKeys, mSize, (short) key);
148	9	if (i < 0)
149		{
150	0	return valueIfKeyNotFound;
151		}
152		else
153		{
154	9	return mValues[i];
155		}
156		}
157
158		/**
159		* Removes the mapping from the specified key, if there was any.
160		*
161		* @throws ArithmeticException
162		* if key is outside the range of a short value
163		*/
		0% Uncovered Elements: 6 (6) Complexity: 2 Complexity Density: 0.5
164	0	public void delete(int key)...
165		{
166	0	checkOverflow(key);
167	0	int i = ContainerHelpers.binarySearch(mKeys, mSize, (short) key);
168	0	if (i >= 0)
169		{
170	0	removeAt(i);
171		}
172		}
173
174		/**
175		* Removes the mapping at the given index.
176		*/
		0% Uncovered Elements: 3 (3) Complexity: 1 Complexity Density: 0.33
177	0	public void removeAt(int index)...
178		{
179	0	System.arraycopy(mKeys, index + 1, mKeys, index, mSize - (index + 1));
180	0	System.arraycopy(mValues, index + 1, mValues, index, mSize
181		- (index + 1));
182	0	mSize--;
183		}
184
185		/**
186		* Adds a mapping from the specified key to the specified value, replacing the
187		* previous mapping from the specified key if there was one.
188		*
189		* @throws ArithmeticException
190		* if either argument is outside the range of a short value
191		*/
		69.2% Uncovered Elements: 8 (26) Complexity: 4 Complexity Density: 0.2
192	21	public void put(int key, int value)...
193		{
194	21	checkOverflow(key);
195	19	checkOverflow(value);
196	17	int i = ContainerHelpers.binarySearch(mKeys, mSize, (short) key);
197	17	if (i >= 0)
198		{
199	2	mValues[i] = (short) value;
200		}
201		else
202		{
203	15	i = ~i;
204	15	if (mSize >= mKeys.length)
205		{
206	0	int n = idealShortArraySize(mSize + 1);
207	0	short[] nkeys = new short[n];
208	0	short[] nvalues = new short[n];
209		// Log.e("SparseShortArray", "grow " + mKeys.length + " to " + n);
210	0	System.arraycopy(mKeys, 0, nkeys, 0, mKeys.length);
211	0	System.arraycopy(mValues, 0, nvalues, 0, mValues.length);
212	0	mKeys = nkeys;
213	0	mValues = nvalues;
214		}
215	15	if (mSize - i != 0)
216		{
217		// Log.e("SparseShortArray", "move " + (mSize - i));
218	4	System.arraycopy(mKeys, i, mKeys, i + 1, mSize - i);
219	4	System.arraycopy(mValues, i, mValues, i + 1, mSize - i);
220		}
221	15	mKeys[i] = (short) key;
222	15	mValues[i] = (short) value;
223	15	mSize++;
224		}
225		}
226
227		/**
228		* Returns the number of key-value mappings that this SparseShortArray
229		* currently stores.
230		*/
		100% Uncovered Elements: 0 (1) Complexity: 1 Complexity Density: 1
231	170	public int size()...
232		{
233	170	return mSize;
234		}
235
236		/**
237		* Given an index in the range <code>0...size()-1</code>, returns the key from
238		* the <code>index</code>th key-value mapping that this SparseShortArray
239		* stores.
240		*
241		* <p>
242		* The keys corresponding to indices in ascending order are guaranteed to be
243		* in ascending order, e.g., <code>keyAt(0)</code> will return the smallest
244		* key and <code>keyAt(size()-1)</code> will return the largest key.
245		* </p>
246		*/
		100% Uncovered Elements: 0 (1) Complexity: 1 Complexity Density: 1
247	75	public short keyAt(int index)...
248		{
249	75	return mKeys[index];
250		}
251
252		/**
253		* Given an index in the range <code>0...size()-1</code>, returns the value
254		* from the <code>index</code>th key-value mapping that this SparseShortArray
255		* stores.
256		*
257		* <p>
258		* The values corresponding to indices in ascending order are guaranteed to be
259		* associated with keys in ascending order, e.g., <code>valueAt(0)</code> will
260		* return the value associated with the smallest key and
261		* <code>valueAt(size()-1)</code> will return the value associated with the
262		* largest key.
263		* </p>
264		*/
		100% Uncovered Elements: 0 (1) Complexity: 1 Complexity Density: 1
265	77	public short valueAt(int index)...
266		{
267	77	return mValues[index];
268		}
269
270		/**
271		* Returns the index for which {@link #keyAt} would return the specified key,
272		* or a negative number if the specified key is not mapped.
273		*
274		* @throws ArithmeticException
275		* if key is outside the range of a short value
276		*/
		0% Uncovered Elements: 2 (2) Complexity: 1 Complexity Density: 0.5
277	0	public int indexOfKey(int key)...
278		{
279	0	checkOverflow(key);
280	0	return ContainerHelpers.binarySearch(mKeys, mSize, (short) key);
281		}
282
283		/**
284		* Returns an index for which {@link #valueAt} would return the specified key,
285		* or a negative number if no keys map to the specified value. Beware that
286		* this is a linear search, unlike lookups by key, and that multiple keys can
287		* map to the same value and this will find only one of them.
288		*/
		0% Uncovered Elements: 8 (8) Complexity: 3 Complexity Density: 0.75
289	0	public int indexOfValue(int value)...
290		{
291	0	for (int i = 0; i < mSize; i++)
292		{
293	0	if (mValues[i] == value)
294		{
295	0	return i;
296		}
297		}
298	0	return -1;
299		}
300
301		/**
302		* Removes all key-value mappings from this SparseShortArray.
303		*/
		0% Uncovered Elements: 1 (1) Complexity: 1 Complexity Density: 1
304	0	public void clear()...
305		{
306	0	mSize = 0;
307		}
308
309		/**
310		* Puts a key/value pair into the array, optimizing for the case where the key
311		* is greater than all existing keys in the array.
312		*/
		0% Uncovered Elements: 21 (21) Complexity: 4 Complexity Density: 0.24
313	0	public void append(int key, int value)...
314		{
315	0	if (mSize != 0 && key <= mKeys[mSize - 1])
316		{
317	0	put(key, value);
318	0	return;
319		}
320	0	int pos = mSize;
321	0	if (pos >= mKeys.length)
322		{
323	0	int n = idealShortArraySize(pos + 1);
324	0	short[] nkeys = new short[n];
325	0	short[] nvalues = new short[n];
326		// Log.e("SparseShortArray", "grow " + mKeys.length + " to " + n);
327	0	System.arraycopy(mKeys, 0, nkeys, 0, mKeys.length);
328	0	System.arraycopy(mValues, 0, nvalues, 0, mValues.length);
329	0	mKeys = nkeys;
330	0	mValues = nvalues;
331		}
332	0	checkOverflow(key);
333	0	checkOverflow(value);
334	0	mKeys[pos] = (short) key;
335	0	mValues[pos] = (short) value;
336	0	mSize = pos + 1;
337		}
338
339		/**
340		* Throws an exception if the value is outside the range of a short.
341		*
342		* @param value
343		* @throws ArithmeticException
344		*/
		100% Uncovered Elements: 0 (4) Complexity: 3 Complexity Density: 1.5
345	249	public static void checkOverflow(int value)...
346		{
347	249	if (value > Short.MAX_VALUE || value < Short.MIN_VALUE)
348		{
349	8	throw new ArithmeticException(String.valueOf(value));
350		}
351		}
352
353		/**
354		* Inlined here by copying from com.android.internal.util.ArrayUtils
355		*
356		* @param i
357		* @return
358		*/
		100% Uncovered Elements: 0 (1) Complexity: 1 Complexity Density: 1
359	76	public static int idealShortArraySize(int need)...
360		{
361	76	return idealByteArraySize(need * 2) / 2;
362		}
363
364		/**
365		* Inlined here by copying from com.android.internal.util.ArrayUtils
366		*
367		* @param i
368		* @return
369		*/
		75% Uncovered Elements: 2 (8) Complexity: 3 Complexity Density: 0.75
370	76	public static int idealByteArraySize(int need)...
371		{
372	83	for (int i = 4; i < 32; i++)
373		{
374	83	if (need <= (1 << i) - 12)
375		{
376	76	return (1 << i) - 12;
377		}
378		}
379
380	0	return need;
381		}
382
383		/**
384		* {@inheritDoc}
385		*
386		* <p>
387		* This implementation composes a string by iterating over its mappings.
388		*/
		0% Uncovered Elements: 20 (20) Complexity: 4 Complexity Density: 0.29
389	0	@Override...
390		public String toString()
391		{
392	0	if (size() <= 0)
393		{
394	0	return "{}";
395		}
396	0	StringBuilder buffer = new StringBuilder(mSize * 28);
397	0	buffer.append('{');
398	0	for (int i = 0; i < mSize; i++)
399		{
400	0	if (i > 0)
401		{
402	0	buffer.append(", ");
403		}
404	0	int key = keyAt(i);
405	0	buffer.append(key);
406	0	buffer.append('=');
407	0	int value = valueAt(i);
408	0	buffer.append(value);
409		}
410	0	buffer.append('}');
411	0	return buffer.toString();
412		}
413
414		/**
415		* Method (copied from put) added for Jalview to efficiently increment a key's
416		* value if present, else add it with the given value. This avoids a double
417		* binary search (once to get the value, again to put the updated value).
418		*
419		* @param key
420		* @oparam toAdd
421		* @return the new value of the count for the key
422		* @throws ArithmeticException
423		* if key, or result of adding toAdd, is outside the range of a
424		* short value
425		*/
		63.3% Uncovered Elements: 11 (30) Complexity: 4 Complexity Density: 0.17
426	100	public int add(int key, int toAdd)...
427		{
428	100	int newValue = toAdd;
429	100	checkOverflow(key);
430	100	int i = ContainerHelpers.binarySearch(mKeys, mSize, (short) key);
431	100	if (i >= 0)
432		{
433	29	checkOverflow(toAdd + mValues[i]);
434	25	mValues[i] += (short) toAdd;
435	25	newValue = mValues[i];
436		}
437		else
438		{
439	71	checkOverflow(toAdd);
440	71	i = ~i;
441	71	if (mSize >= mKeys.length)
442		{
443	0	int n = idealShortArraySize(mSize + 1);
444	0	short[] nkeys = new short[n];
445	0	short[] nvalues = new short[n];
446	0	System.arraycopy(mKeys, 0, nkeys, 0, mKeys.length);
447	0	System.arraycopy(mValues, 0, nvalues, 0, mValues.length);
448	0	mKeys = nkeys;
449	0	mValues = nvalues;
450		}
451	71	if (mSize - i != 0)
452		{
453	0	System.arraycopy(mKeys, i, mKeys, i + 1, mSize - i);
454	0	System.arraycopy(mValues, i, mValues, i + 1, mSize - i);
455		}
456	71	mKeys[i] = (short) key;
457	71	mValues[i] = (short) toAdd;
458	71	mSize++;
459		}
460	96	return newValue;
461		}
462		}