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  1. Project Clover database Wed Nov 13 2024 16:12:26 GMT
  2. Package jalview.gui

File FreeUpMemoryTest.java

 

Code metrics

14
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Classes

Class Line # Actions
FreeUpMemoryTest 106 62 17
0.00%
 

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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.gui;
22   
23    import static org.testng.Assert.assertNotNull;
24    import static org.testng.Assert.assertTrue;
25   
26    import java.awt.event.MouseEvent;
27    import java.io.File;
28    import java.io.IOException;
29    import java.io.PrintStream;
30   
31    import org.testng.annotations.BeforeClass;
32    import org.testng.annotations.Test;
33   
34    import jalview.analysis.AlignmentGenerator;
35    import jalview.bin.Cache;
36    import jalview.bin.Jalview;
37    import jalview.datamodel.AlignmentI;
38    import jalview.datamodel.SequenceGroup;
39    import jalview.io.DataSourceType;
40    import jalview.io.FileLoader;
41    import junit.extensions.PA;
42   
43    /**
44    * Provides a simple test that memory is released when all windows are closed.
45    * <ul>
46    * <li>generates a reasonably large alignment and loads it</li>
47    * <li>performs various operations on the alignment</li>
48    * <li>closes all windows</li>
49    * <li>requests garbage collection</li>
50    * <li>asserts that the remaining memory footprint (heap usage) is 'not large'
51    * </li>
52    * </ul>
53    * If the test fails, this means that reference(s) to large object(s) have
54    * failed to be garbage collected. In this case:
55    * <ul>
56    * <li>set a breakpoint just before the test assertion in
57    * {@code checkUsedMemory}</li>
58    * <li>if the test fails intermittently, make this breakpoint conditional on
59    * {@code usedMemory > expectedMax}</li>
60    * <li>run the test to this point (and check that it is about to fail i.e.
61    * {@code usedMemory > expectedMax})</li>
62    * <li>use <a href="https://visualvm.github.io/">visualvm</a> to obtain a heap
63    * dump from the suspended process (and kill the test or let it fail)</li>
64    * <li>inspect the heap dump using visualvm for large objects and their
65    * referers</li>
66    * <li>Tips:</li>
67    * <ul>
68    * <li>Perform GC from the Monitor view in visualvm before requesting the heap
69    * dump - test failure might be simply a delay to GC</li>
70    * <li>View 'Objects' and filter classes to {@code jalview}. Sort columns by
71    * Count, or Size, and look for anything suspicious. For example, if the object
72    * count for {@code Sequence} is non-zero (it shouldn't be), pick any instance,
73    * and follow the chain of {@code references} to find which class(es) still hold
74    * references to sequence objects</li>
75    * <li>If this chain is impracticably long, re-run the test with a smaller
76    * alignment (set width=100, height=10 in {@code generateAlignment()}), to
77    * capture a heap which is qualitatively the same, but much smaller, so easier
78    * to analyse; note this requires an unconditional breakpoint</li>
79    * </ul>
80    * </ul>
81    * <p>
82    * <h2>Fixing memory leaks</h2>
83    * <p>
84    * Experience shows that often a reference is retained (directly or indirectly)
85    * by a Swing (or related) component (for example a {@code MouseListener} or
86    * {@code ActionListener}). There are two possible approaches to fixing:
87    * <ul>
88    * <li>Purist: ensure that all listeners and similar objects are removed when no
89    * longer needed. May be difficult, to achieve and to maintain as code
90    * changes.</li>
91    * <li>Pragmatic: null references to potentially large objects from Jalview
92    * application classes when no longer needed, typically when a panel is closed.
93    * This ensures that even if the JVM keeps a reference to a panel or viewport,
94    * it does not retain a large heap footprint. This is the approach taken in, for
95    * example, {@code AlignmentPanel.closePanel()} and
96    * {@code AnnotationPanel.dispose()}.</li>
97    * <li>Adjust code if necessary; for example an {@code ActionListener} should
98    * act on {@code av.getAlignment()} and not directly on {@code alignment}, as
99    * the latter pattern could leave persistent references to the alignment</li>
100    * </ul>
101    * Add code to 'null unused large object references' until the test passes. For
102    * a final sanity check, capture the heap dump for a passing test, and satisfy
103    * yourself that only 'small' or 'harmless' {@code jalview} object instances
104    * (such as enums or singletons) are left in the heap.
105    */
 
106    public class FreeUpMemoryTest
107    {
108    private static final int ONE_MB = 1000 * 1000;
109   
110    /*
111    * maximum retained heap usage (in MB) for a passing test
112    */
113    private static int MAX_RESIDUAL_HEAP = 45;
114   
115    /**
116    * Configure (read-only) Jalview property settings for test
117    */
 
118  0 toggle @BeforeClass(alwaysRun = true)
119    public void setUp()
120    {
121  0 Jalview.main(
122    new String[]
123    { "--nonews", "--props", "test/jalview/testProps.jvprops" });
124  0 String True = Boolean.TRUE.toString();
125  0 Cache.applicationProperties.setProperty("SHOW_ANNOTATIONS", True);
126  0 Cache.applicationProperties.setProperty("SHOW_QUALITY", True);
127  0 Cache.applicationProperties.setProperty("SHOW_CONSERVATION", True);
128  0 Cache.applicationProperties.setProperty("SHOW_OCCUPANCY", True);
129  0 Cache.applicationProperties.setProperty("SHOW_IDENTITY", True);
130    }
131   
 
132  0 toggle @Test(groups = "Memory")
133    public void testFreeMemoryOnClose() throws IOException
134    {
135  0 File f = generateAlignment();
136  0 f.deleteOnExit();
137   
138  0 doStuffInJalview(f);
139   
140  0 if (Desktop.instance != null)
141  0 Desktop.instance.closeAll_actionPerformed(null);
142   
143  0 checkUsedMemory(MAX_RESIDUAL_HEAP);
144    }
145   
146    /**
147    * Returns the current total used memory (available memory - free memory),
148    * rounded down to the nearest MB
149    *
150    * @return
151    */
 
152  0 toggle private static int getUsedMemory()
153    {
154  0 long availableMemory = Runtime.getRuntime().totalMemory();
155  0 long freeMemory = Runtime.getRuntime().freeMemory();
156  0 long usedMemory = availableMemory - freeMemory;
157   
158  0 return (int) (usedMemory / ONE_MB);
159    }
160   
161    /**
162    * Requests garbage collection and then checks whether remaining memory in use
163    * is less than the expected value (in Megabytes)
164    *
165    * @param expectedMax
166    */
 
167  0 toggle protected void checkUsedMemory(int expectedMax)
168    {
169    /*
170    * request garbage collection and wait for it to run (up to 3 times);
171    * NB there is no guarantee when, or whether, it will do so
172    */
173  0 long usedMemory = 0L;
174  0 Long minUsedMemory = null;
175  0 int gcCount = 0;
176  0 while (gcCount < 3)
177    {
178  0 gcCount++;
179  0 System.gc();
180  0 waitFor(1500);
181  0 usedMemory = getUsedMemory();
182  0 if (minUsedMemory == null || usedMemory < minUsedMemory)
183    {
184  0 minUsedMemory = usedMemory;
185    }
186  0 if (usedMemory < expectedMax)
187    {
188  0 break;
189    }
190    }
191   
192    /*
193    * if this assertion fails (reproducibly!)
194    * - set a breakpoint here, conditional on (usedMemory > expectedMax)
195    * - run VisualVM to inspect the heap usage, and run GC from VisualVM to check
196    * it is not simply delayed garbage collection causing the test failure
197    * - take a heap dump and identify large objects in the heap and their referers
198    * - fix code as necessary to null the references on close
199    */
200  0 System.out.println("(Minimum) Used memory after " + gcCount
201    + " call(s) to gc() = " + minUsedMemory + "MB (should be <="
202    + expectedMax + ")");
203  0 assertTrue(usedMemory <= expectedMax, String.format(
204    "Used memory %d should be less than %d (Recommend running test manually to verify)",
205    usedMemory, expectedMax));
206    }
207   
208    /**
209    * Loads an alignment from file and exercises various operations in Jalview
210    *
211    * @param f
212    */
 
213  0 toggle protected void doStuffInJalview(File f)
214    {
215    /*
216    * load alignment, wait for consensus and other threads to complete
217    */
218  0 AlignFrame af = new FileLoader().LoadFileWaitTillLoaded(f.getPath(),
219    DataSourceType.FILE);
220  0 while (af.getViewport().isCalcInProgress())
221    {
222  0 waitFor(200);
223    }
224   
225    /*
226    * open an Overview window
227    */
228  0 af.overviewMenuItem_actionPerformed(null);
229  0 assertNotNull(af.alignPanel.overviewPanel);
230   
231    /*
232    * exercise the pop-up menu in the Overview Panel (JAL-2864)
233    */
234  0 Object[] args = new Object[] {
235    new MouseEvent(af, 0, 0, 0, 0, 0, 1, true) };
236  0 PA.invokeMethod(af.alignPanel.overviewPanel,
237    "showPopupMenu(java.awt.event.MouseEvent)", args);
238   
239    /*
240    * set a selection group - potential memory leak if it retains
241    * a reference to the alignment
242    */
243  0 SequenceGroup sg = new SequenceGroup();
244  0 sg.setStartRes(0);
245  0 sg.setEndRes(100);
246  0 AlignmentI al = af.viewport.getAlignment();
247  0 for (int i = 0; i < al.getHeight(); i++)
248    {
249  0 sg.addSequence(al.getSequenceAt(i), false);
250    }
251  0 af.viewport.setSelectionGroup(sg);
252   
253    /*
254    * compute Tree and PCA (on all sequences, 100 columns)
255    */
256  0 af.openTreePcaDialog();
257  0 CalculationChooser dialog = af.alignPanel.getCalculationDialog();
258  0 dialog.openPcaPanel("BLOSUM62", dialog.getSimilarityParameters(true));
259  0 dialog.openTreePanel("BLOSUM62", dialog.getSimilarityParameters(false));
260   
261    /*
262    * wait until Tree and PCA have been computed
263    */
264  0 while (af.viewport.getCurrentTree() == null
265    || dialog.getPcaPanel().isWorking())
266    {
267  0 waitFor(10);
268    }
269   
270    /*
271    * give Swing time to add the PCA panel (?!?)
272    */
273  0 waitFor(100);
274    }
275   
276    /**
277    * Wait for waitMs miliseconds
278    *
279    * @param waitMs
280    */
 
281  0 toggle protected void waitFor(int waitMs)
282    {
283  0 try
284    {
285  0 Thread.sleep(waitMs);
286    } catch (InterruptedException e)
287    {
288    }
289    }
290   
291    /**
292    * Generates an alignment and saves it in a temporary file, to be loaded by
293    * Jalview. We use a peptide alignment (so Conservation and Quality are
294    * calculated), which is wide enough to ensure Consensus, Conservation and
295    * Occupancy have a significant memory footprint (if not removed from the
296    * heap).
297    *
298    * @return
299    * @throws IOException
300    */
 
301  0 toggle private File generateAlignment() throws IOException
302    {
303  0 File f = File.createTempFile("MemoryTest", "fa");
304  0 PrintStream ps = new PrintStream(f);
305  0 AlignmentGenerator ag = new AlignmentGenerator(false, ps);
306  0 int width = 100000;
307  0 int height = 100;
308  0 ag.generate(width, height, 0, 10, 15);
309  0 ps.close();
310  0 return f;
311    }
312    }