Mercurial > hg > graal-compiler
view graal/com.oracle.truffle.api/src/com/oracle/truffle/api/tools/CoverageTracker.java @ 21517:4cc6793cda69
Make OptionProcessor create options files
author | Gilles Duboscq <gilles.m.duboscq@oracle.com> |
---|---|
date | Mon, 18 May 2015 17:59:40 +0200 |
parents | 06b0a2fb20a1 |
children |
line wrap: on
line source
/* * Copyright (c) 2015, Oracle and/or its affiliates. All rights reserved. * DO NOT ALTER OR REMOVE COPYRIGHT NOTICES OR THIS FILE HEADER. * * This code is free software; you can redistribute it and/or modify it * under the terms of the GNU General Public License version 2 only, as * published by the Free Software Foundation. Oracle designates this * particular file as subject to the "Classpath" exception as provided * by Oracle in the LICENSE file that accompanied this code. * * This code is distributed in the hope that it will be useful, but WITHOUT * ANY WARRANTY; without even the implied warranty of MERCHANTABILITY or * FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License * version 2 for more details (a copy is included in the LICENSE file that * accompanied this code). * * You should have received a copy of the GNU General Public License version * 2 along with this work; if not, write to the Free Software Foundation, * Inc., 51 Franklin St, Fifth Floor, Boston, MA 02110-1301 USA. * * Please contact Oracle, 500 Oracle Parkway, Redwood Shores, CA 94065 USA * or visit www.oracle.com if you need additional information or have any * questions. */ package com.oracle.truffle.api.tools; import java.io.*; import java.util.*; import java.util.Map.Entry; import com.oracle.truffle.api.instrument.*; import com.oracle.truffle.api.instrument.impl.*; import com.oracle.truffle.api.nodes.*; import com.oracle.truffle.api.source.*; /** * An {@link InstrumentationTool} that counts interpreter <em>execution calls</em> to AST nodes that * hold a specified {@linkplain SyntaxTag syntax tag}, tabulated by source and line number * associated with each node. Syntax tags are presumed to be applied external to the tool. If no tag * is specified, {@linkplain StandardSyntaxTag#STATEMENT STATEMENT} is used, corresponding to * conventional behavior for code coverage tools. * <p> * No counts will be kept for execution in sources that hold the {@link SourceTag} * {@link Tags#NO_COVERAGE}. * <p> * <b>Tool Life Cycle</b> * <p> * See {@link InstrumentationTool} for the life cycle common to all such tools. * <p> * <b>Execution Counts</b> * <p> * <ul> * <li>"Execution call" on a node is is defined as invocation of a node method that is instrumented * to produce the event {@link SimpleInstrumentListener#enter(Probe)};</li> * <li>Execution calls are tabulated only at <em>instrumented</em> nodes, i.e. those for which * {@linkplain Node#isInstrumentable() isInstrumentable() == true};</li> * <li>Execution calls are tabulated only at nodes present in the AST when originally created; * dynamically added nodes will not be instrumented.</li> * </ul> * </p> * <b>Results</b> * <p> * A modification-safe copy of the {@linkplain #getCounts() counts} can be retrieved at any time, * without effect on the state of the tool. * </p> * <p> * A "default" {@linkplain #print(PrintStream) print()} method can summarizes the current counts at * any time in a simple textual format, with no other effect on the state of the tool. * </p> * * @see Instrument * @see SyntaxTag */ public final class CoverageTracker extends InstrumentationTool { public enum Tags implements SourceTag { /** * Report no counts for sources holding this tag. */ NO_COVERAGE("No Coverage", "Coverage Tracker will igore"); private final String name; private final String description; private Tags(String name, String description) { this.name = name; this.description = description; } public String getName() { return name; } public String getDescription() { return description; } } /** Counting data. */ private final Map<LineLocation, CoverageRecord> coverageMap = new HashMap<>(); /** Needed for disposal. */ private final List<Instrument> instruments = new ArrayList<>(); /** * Coverage counting is restricted to nodes holding this tag. */ private final SyntaxTag countingTag; private final ProbeListener probeListener; /** * Create a per-line coverage tool for nodes tagged as {@linkplain StandardSyntaxTag#STATEMENT * statements} in subsequently created ASTs. */ public CoverageTracker() { this(StandardSyntaxTag.STATEMENT); } /** * Create a per-line coverage tool for nodes tagged as specified, presuming that tags applied * outside this tool. */ public CoverageTracker(SyntaxTag tag) { this.probeListener = new CoverageProbeListener(); this.countingTag = tag; } @Override protected boolean internalInstall() { Probe.addProbeListener(probeListener); return true; } @Override protected void internalReset() { coverageMap.clear(); } @Override protected void internalDispose() { Probe.removeProbeListener(probeListener); for (Instrument instrument : instruments) { instrument.dispose(); } } /** * Gets a modification-safe summary of the current per-type node execution counts; does not * affect the counts. * <p> * The map holds an array for each source, and elements of the a array corresponding to the * textual lines of that source. An array entry contains null if the corresponding line of * source is associated with no nodes of the relevant type, i.e. where no count was made. A * numeric entry represents the execution count at the corresponding line of source. * <p> * <b>Note:</b> source line numbers are 1-based, so array index {@code i} corresponds to source * line number {@code i + 1} */ public Map<Source, Long[]> getCounts() { /** * Counters for every {Source, line number} for which a counter was installed, i.e. for * every line associated with an appropriately tagged AST node; iterable in order of source * name, then line number. */ final TreeSet<Entry<LineLocation, CoverageRecord>> entries = new TreeSet<>(new LineLocationEntryComparator()); for (Entry<LineLocation, CoverageRecord> entry : coverageMap.entrySet()) { entries.add(entry); } final Map<Source, Long[]> result = new HashMap<>(); Source curSource = null; Long[] curLineTable = null; for (Entry<LineLocation, CoverageRecord> entry : entries) { final LineLocation key = entry.getKey(); final Source source = key.getSource(); final int lineNo = key.getLineNumber(); if (source != curSource) { if (curSource != null) { result.put(curSource, curLineTable); } curSource = source; curLineTable = new Long[source.getLineCount()]; } curLineTable[lineNo - 1] = entry.getValue().count; } if (curSource != null) { result.put(curSource, curLineTable); } return result; } /** * A default printer for the current line counts, producing lines of the form " (<count>) <line * number> : <text of line>", grouped by source. */ public void print(PrintStream out) { out.println(); out.println(countingTag.name() + " coverage:"); /** * Counters for every {Source, line number} for which a counter was installed, i.e. for * every line associated with an appropriately tagged AST node; iterable in order of source * name, then line number. */ final TreeSet<Entry<LineLocation, CoverageRecord>> entries = new TreeSet<>(new LineLocationEntryComparator()); for (Entry<LineLocation, CoverageRecord> entry : coverageMap.entrySet()) { entries.add(entry); } Source curSource = null; int curLineNo = 1; for (Entry<LineLocation, CoverageRecord> entry : entries) { final LineLocation key = entry.getKey(); final Source source = key.getSource(); final int lineNo = key.getLineNumber(); if (source != curSource) { if (curSource != null) { while (curLineNo <= curSource.getLineCount()) { displayLine(out, null, curSource, curLineNo++); } } curSource = source; curLineNo = 1; out.println(); out.println(source.getPath()); } while (curLineNo < lineNo) { displayLine(out, null, curSource, curLineNo++); } displayLine(out, entry.getValue(), curSource, curLineNo++); } if (curSource != null) { while (curLineNo <= curSource.getLineCount()) { displayLine(out, null, curSource, curLineNo++); } } } private static void displayLine(PrintStream out, CoverageRecord record, Source source, int lineNo) { if (record == null) { out.format("%14s", " "); } else { out.format("(%12d)", record.count); } out.format(" %3d: ", lineNo); out.println(source.getCode(lineNo)); } /** * A listener for events at each instrumented AST location. This listener counts * "execution calls" to the instrumented node. */ private final class CoverageRecord extends DefaultSimpleInstrumentListener { private final SourceSection srcSection; // The text of the code being counted private Instrument instrument; // The attached Instrument, in case need to remove. private long count = 0; CoverageRecord(SourceSection srcSection) { this.srcSection = srcSection; } @Override public void enter(Probe probe) { if (isEnabled()) { count++; } } } private static final class LineLocationEntryComparator implements Comparator<Entry<LineLocation, CoverageRecord>> { public int compare(Entry<LineLocation, CoverageRecord> e1, Entry<LineLocation, CoverageRecord> e2) { return LineLocation.COMPARATOR.compare(e1.getKey(), e2.getKey()); } } /** * Attach a counting instrument to each node that is assigned a specified tag. */ private class CoverageProbeListener extends DefaultProbeListener { @Override public void probeTaggedAs(Probe probe, SyntaxTag tag, Object tagValue) { if (countingTag == tag) { final SourceSection srcSection = probe.getProbedSourceSection(); if (srcSection == null) { // TODO (mlvdv) report this? } else if (!srcSection.getSource().isTaggedAs(Tags.NO_COVERAGE)) { // Get the source line where the final LineLocation lineLocation = srcSection.getLineLocation(); CoverageRecord record = coverageMap.get(lineLocation); if (record != null) { // Another node starts on same line; count only the first (textually) if (srcSection.getCharIndex() > record.srcSection.getCharIndex()) { // Existing record, corresponds to code earlier on line return; } else { // Existing record, corresponds to code at a later position; replace it record.instrument.dispose(); } } final CoverageRecord coverage = new CoverageRecord(srcSection); final Instrument instrument = Instrument.create(coverage, CoverageTracker.class.getSimpleName()); coverage.instrument = instrument; instruments.add(instrument); probe.attach(instrument); coverageMap.put(lineLocation, coverage); } } } } }