Mercurial > hg > truffle
view graal/com.oracle.jvmci.debug/src/com/oracle/jvmci/debug/Debug.java @ 21554:b1530a6cce8c
renamed com.oracle.graal.[debug|options|hotspotvmconfig]* modules to com.oracle.jvmci.[debug|options|hotspotvmconfig]* modules (JBS:GRAAL-53)
| author | Doug Simon <doug.simon@oracle.com> |
|---|---|
| date | Tue, 26 May 2015 23:21:15 +0200 |
| parents | graal/com.oracle.graal.debug/src/com/oracle/graal/debug/Debug.java@7d2f6dd603b0 |
| children | d563baeca9df |
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/* * Copyright (c) 2012, 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. * * 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.jvmci.debug; import static com.oracle.jvmci.debug.Debug.Initialization.*; import static com.oracle.jvmci.debug.DelegatingDebugConfig.Feature.*; import static java.util.FormattableFlags.*; import java.io.*; import java.util.*; import java.util.concurrent.*; import com.oracle.jvmci.debug.DelegatingDebugConfig.Level; import com.oracle.jvmci.debug.internal.*; /** * Scope based debugging facility. This facility is {@link #isEnabled()} if assertions are enabled * for the {@link Debug} class or the {@value Initialization#INITIALIZER_PROPERTY_NAME} system * property is {@code "true"} when {@link Debug} is initialized. */ public class Debug { /** * Class to assist with initialization of {@link Debug}. */ public static class Initialization { public static final String INITIALIZER_PROPERTY_NAME = "graal.debug.enable"; private static boolean initialized; /** * Determines if {@link Debug} has been initialized. */ public static boolean isDebugInitialized() { return initialized; } } @SuppressWarnings("all") private static boolean initialize() { boolean assertionsEnabled = false; assert assertionsEnabled = true; Initialization.initialized = true; return assertionsEnabled || Boolean.getBoolean(INITIALIZER_PROPERTY_NAME); } private static final boolean ENABLED = initialize(); public static boolean isEnabled() { return ENABLED; } public static boolean isDumpEnabledForMethod() { if (!ENABLED) { return false; } DebugConfig config = DebugScope.getConfig(); if (config == null) { return false; } return config.isDumpEnabledForMethod(); } public static final int DEFAULT_LOG_LEVEL = 2; public static boolean isDumpEnabled() { return isDumpEnabled(DEFAULT_LOG_LEVEL); } public static boolean isDumpEnabled(int dumpLevel) { return ENABLED && DebugScope.getInstance().isDumpEnabled(dumpLevel); } /** * Determines if verification is enabled in the current method, regardless of the * {@linkplain Debug#currentScope() current debug scope}. * * @see Debug#verify(Object, String) */ public static boolean isVerifyEnabledForMethod() { if (!ENABLED) { return false; } DebugConfig config = DebugScope.getConfig(); if (config == null) { return false; } return config.isVerifyEnabledForMethod(); } /** * Determines if verification is enabled in the {@linkplain Debug#currentScope() current debug * scope}. * * @see Debug#verify(Object, String) */ public static boolean isVerifyEnabled() { return ENABLED && DebugScope.getInstance().isVerifyEnabled(); } public static boolean isMeterEnabled() { return ENABLED && DebugScope.getInstance().isMeterEnabled(); } public static boolean isTimeEnabled() { return ENABLED && DebugScope.getInstance().isTimeEnabled(); } public static boolean isMemUseTrackingEnabled() { return ENABLED && DebugScope.getInstance().isMemUseTrackingEnabled(); } public static boolean isLogEnabledForMethod() { if (!ENABLED) { return false; } DebugConfig config = DebugScope.getConfig(); if (config == null) { return false; } return config.isLogEnabledForMethod(); } public static boolean isLogEnabled() { return isLogEnabled(DEFAULT_LOG_LEVEL); } public static boolean isLogEnabled(int logLevel) { return ENABLED && DebugScope.getInstance().isLogEnabled(logLevel); } @SuppressWarnings("unused") public static Runnable decorateDebugRoot(Runnable runnable, String name, DebugConfig config) { return runnable; } @SuppressWarnings("unused") public static <T> Callable<T> decorateDebugRoot(Callable<T> callable, String name, DebugConfig config) { return callable; } @SuppressWarnings("unused") public static Runnable decorateScope(Runnable runnable, String name, Object... context) { return runnable; } @SuppressWarnings("unused") public static <T> Callable<T> decorateScope(Callable<T> callable, String name, Object... context) { return callable; } /** * Gets a string composed of the names in the current nesting of debug * {@linkplain #scope(Object) scopes} separated by {@code '.'}. */ public static String currentScope() { if (ENABLED) { return DebugScope.getInstance().getQualifiedName(); } else { return ""; } } /** * Represents a debug scope entered by {@link Debug#scope(Object)} or * {@link Debug#sandbox(CharSequence, DebugConfig, Object...)}. Leaving the scope is achieved * via {@link #close()}. */ public interface Scope extends AutoCloseable { void close(); } /** * Creates and enters a new debug scope which will be a child of the current debug scope. * <p> * It is recommended to use the try-with-resource statement for managing entering and leaving * debug scopes. For example: * * <pre> * try (Scope s = Debug.scope("InliningGraph", inlineeGraph)) { * ... * } catch (Throwable e) { * throw Debug.handle(e); * } * </pre> * * The {@code name} argument is subject to the following type based conversion before having * {@link Object#toString()} called on it: * * <pre> * Type | Conversion * ------------------+----------------- * java.lang.Class | arg.getSimpleName() * | * </pre> * * @param name the name of the new scope * @param contextObjects an array of object to be appended to the {@linkplain #context() * current} debug context * @throws Throwable used to enforce a catch block. * @return the scope entered by this method which will be exited when its {@link Scope#close()} * method is called */ public static Scope scope(Object name, Object[] contextObjects) throws Throwable { if (ENABLED) { return DebugScope.getInstance().scope(convertFormatArg(name).toString(), null, contextObjects); } else { return null; } } /** * Similar to {@link #scope(Object, Object[])} but without context objects. Therefore the catch * block can be omitted. * * @see #scope(Object, Object[]) */ public static Scope scope(Object name) { if (ENABLED) { return DebugScope.getInstance().scope(convertFormatArg(name).toString(), null); } else { return null; } } /** * @see #scope(Object, Object[]) * @param context an object to be appended to the {@linkplain #context() current} debug context */ public static Scope scope(Object name, Object context) throws Throwable { if (ENABLED) { return DebugScope.getInstance().scope(convertFormatArg(name).toString(), null, context); } else { return null; } } /** * @see #scope(Object, Object[]) * @param context1 first object to be appended to the {@linkplain #context() current} debug * context * @param context2 second object to be appended to the {@linkplain #context() current} debug * context */ public static Scope scope(Object name, Object context1, Object context2) throws Throwable { if (ENABLED) { return DebugScope.getInstance().scope(convertFormatArg(name).toString(), null, context1, context2); } else { return null; } } /** * @see #scope(Object, Object[]) * @param context1 first object to be appended to the {@linkplain #context() current} debug * context * @param context2 second object to be appended to the {@linkplain #context() current} debug * context * @param context3 third object to be appended to the {@linkplain #context() current} debug * context */ public static Scope scope(Object name, Object context1, Object context2, Object context3) throws Throwable { if (ENABLED) { return DebugScope.getInstance().scope(convertFormatArg(name).toString(), null, context1, context2, context3); } else { return null; } } /** * Creates and enters a new debug scope which will be disjoint from the current debug scope. * <p> * It is recommended to use the try-with-resource statement for managing entering and leaving * debug scopes. For example: * * <pre> * try (Scope s = Debug.sandbox("CompilingStub", null, stubGraph)) { * ... * } catch (Throwable e) { * throw Debug.handle(e); * } * </pre> * * @param name the name of the new scope * @param config the debug configuration to use for the new scope * @param context objects to be appended to the {@linkplain #context() current} debug context * @return the scope entered by this method which will be exited when its {@link Scope#close()} * method is called */ public static Scope sandbox(CharSequence name, DebugConfig config, Object... context) throws Throwable { if (ENABLED) { DebugConfig sandboxConfig = config == null ? silentConfig() : config; return DebugScope.getInstance().scope(name, sandboxConfig, context); } else { return null; } } public static Scope forceLog() throws Throwable { ArrayList<Object> context = new ArrayList<>(); for (Object obj : context()) { context.add(obj); } return Debug.sandbox("forceLog", new DelegatingDebugConfig().override(Level.LOG, Integer.MAX_VALUE).enable(LOG_METHOD), context.toArray()); } /** * Opens a scope in which exception {@linkplain DebugConfig#interceptException(Throwable) * interception} is disabled. It is recommended to use the try-with-resource statement for * managing entering and leaving such scopes: * * <pre> * try (DebugConfigScope s = Debug.disableIntercept()) { * ... * } * </pre> * * This is particularly useful to suppress extraneous output in JUnit tests that are expected to * throw an exception. */ public static DebugConfigScope disableIntercept() { return Debug.setConfig(new DelegatingDebugConfig().disable(INTERCEPT)); } /** * Handles an exception in the context of the debug scope just exited. The just exited scope * must have the current scope as its parent which will be the case if the try-with-resource * pattern recommended by {@link #scope(Object)} and * {@link #sandbox(CharSequence, DebugConfig, Object...)} is used * * @see #scope(Object, Object[]) * @see #sandbox(CharSequence, DebugConfig, Object...) */ public static RuntimeException handle(Throwable exception) { if (ENABLED) { return DebugScope.getInstance().handle(exception); } else { if (exception instanceof Error) { throw (Error) exception; } if (exception instanceof RuntimeException) { throw (RuntimeException) exception; } throw new RuntimeException(exception); } } public static void log(String msg) { log(DEFAULT_LOG_LEVEL, msg); } /** * Prints a message to the current debug scope's logging stream if logging is enabled. * * @param msg the message to log */ public static void log(int logLevel, String msg) { if (ENABLED) { DebugScope.getInstance().log(logLevel, msg); } } public static void log(String format, Object arg) { log(DEFAULT_LOG_LEVEL, format, arg); } /** * Prints a message to the current debug scope's logging stream if logging is enabled. * * @param format a format string * @param arg the argument referenced by the format specifiers in {@code format} */ public static void log(int logLevel, String format, Object arg) { if (ENABLED) { DebugScope.getInstance().log(logLevel, format, arg); } } public static void log(String format, int arg) { log(DEFAULT_LOG_LEVEL, format, arg); } /** * Prints a message to the current debug scope's logging stream if logging is enabled. * * @param format a format string * @param arg the argument referenced by the format specifiers in {@code format} */ public static void log(int logLevel, String format, int arg) { if (ENABLED) { DebugScope.getInstance().log(logLevel, format, arg); } } public static void log(String format, Object arg1, Object arg2) { log(DEFAULT_LOG_LEVEL, format, arg1, arg2); } /** * @see #log(int, String, Object) */ public static void log(int logLevel, String format, Object arg1, Object arg2) { if (ENABLED) { DebugScope.getInstance().log(logLevel, format, arg1, arg2); } } public static void log(String format, int arg1, Object arg2) { log(DEFAULT_LOG_LEVEL, format, arg1, arg2); } /** * @see #log(int, String, Object) */ public static void log(int logLevel, String format, int arg1, Object arg2) { if (ENABLED) { DebugScope.getInstance().log(logLevel, format, arg1, arg2); } } public static void log(String format, Object arg1, int arg2) { log(DEFAULT_LOG_LEVEL, format, arg1, arg2); } /** * @see #log(int, String, Object) */ public static void log(int logLevel, String format, Object arg1, int arg2) { if (ENABLED) { DebugScope.getInstance().log(logLevel, format, arg1, arg2); } } public static void log(String format, int arg1, int arg2) { log(DEFAULT_LOG_LEVEL, format, arg1, arg2); } /** * @see #log(int, String, Object) */ public static void log(int logLevel, String format, int arg1, int arg2) { if (ENABLED) { DebugScope.getInstance().log(logLevel, format, arg1, arg2); } } public static void log(String format, Object arg1, Object arg2, Object arg3) { log(DEFAULT_LOG_LEVEL, format, arg1, arg2, arg3); } /** * @see #log(int, String, Object) */ public static void log(int logLevel, String format, Object arg1, Object arg2, Object arg3) { if (ENABLED) { DebugScope.getInstance().log(logLevel, format, arg1, arg2, arg3); } } public static void log(String format, int arg1, int arg2, int arg3) { log(DEFAULT_LOG_LEVEL, format, arg1, arg2, arg3); } /** * @see #log(int, String, Object) */ public static void log(int logLevel, String format, int arg1, int arg2, int arg3) { if (ENABLED) { DebugScope.getInstance().log(logLevel, format, arg1, arg2, arg3); } } public static void log(String format, Object arg1, Object arg2, Object arg3, Object arg4) { log(DEFAULT_LOG_LEVEL, format, arg1, arg2, arg3, arg4); } /** * @see #log(int, String, Object) */ public static void log(int logLevel, String format, Object arg1, Object arg2, Object arg3, Object arg4) { if (ENABLED) { DebugScope.getInstance().log(logLevel, format, arg1, arg2, arg3, arg4); } } public static void log(String format, Object arg1, Object arg2, Object arg3, Object arg4, Object arg5) { log(DEFAULT_LOG_LEVEL, format, arg1, arg2, arg3, arg4, arg5); } /** * @see #log(int, String, Object) */ public static void log(int logLevel, String format, Object arg1, Object arg2, Object arg3, Object arg4, Object arg5) { if (ENABLED) { DebugScope.getInstance().log(logLevel, format, arg1, arg2, arg3, arg4, arg5); } } public static void log(String format, Object arg1, Object arg2, Object arg3, Object arg4, Object arg5, Object arg6) { log(DEFAULT_LOG_LEVEL, format, arg1, arg2, arg3, arg4, arg5, arg6); } /** * @see #log(int, String, Object) */ public static void log(int logLevel, String format, Object arg1, Object arg2, Object arg3, Object arg4, Object arg5, Object arg6) { if (ENABLED) { DebugScope.getInstance().log(logLevel, format, arg1, arg2, arg3, arg4, arg5, arg6); } } public static void log(String format, Object arg1, Object arg2, Object arg3, Object arg4, Object arg5, Object arg6, Object arg7) { log(DEFAULT_LOG_LEVEL, format, arg1, arg2, arg3, arg4, arg5, arg6, arg7); } public static void log(String format, Object arg1, Object arg2, Object arg3, Object arg4, Object arg5, Object arg6, Object arg7, Object arg8) { log(DEFAULT_LOG_LEVEL, format, arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8); } /** * @see #log(int, String, Object) */ public static void log(int logLevel, String format, Object arg1, Object arg2, Object arg3, Object arg4, Object arg5, Object arg6, Object arg7) { if (ENABLED) { DebugScope.getInstance().log(logLevel, format, arg1, arg2, arg3, arg4, arg5, arg6, arg7); } } public static void log(int logLevel, String format, Object arg1, Object arg2, Object arg3, Object arg4, Object arg5, Object arg6, Object arg7, Object arg8) { if (ENABLED) { DebugScope.getInstance().log(logLevel, format, arg1, arg2, arg3, arg4, arg5, arg6, arg7, arg8); } } public static void logv(String format, Object... args) { logv(DEFAULT_LOG_LEVEL, format, args); } /** * Prints a message to the current debug scope's logging stream. This method must only be called * if debugging is {@linkplain Debug#isEnabled() enabled} as it incurs allocation at the call * site. If possible, call one of the other {@code log()} methods in this class that take a * fixed number of parameters. * * @param format a format string * @param args the arguments referenced by the format specifiers in {@code format} */ public static void logv(int logLevel, String format, Object... args) { if (!ENABLED) { throw new InternalError("Use of Debug.logv() must be guarded by a test of Debug.isEnabled()"); } DebugScope.getInstance().log(logLevel, format, args); } /** * This override exists to catch cases when {@link #log(String, Object)} is called with one * argument bound to a varargs method parameter. It will bind to this method instead of the * single arg variant and produce a deprecation warning instead of silently wrapping the * Object[] inside of another Object[]. */ @Deprecated public static void log(String format, Object[] args) { assert false : "shouldn't use this"; log(DEFAULT_LOG_LEVEL, format, args); } /** * This override exists to catch cases when {@link #log(int, String, Object)} is called with one * argument bound to a varargs method parameter. It will bind to this method instead of the * single arg variant and produce a deprecation warning instead of silently wrapping the * Object[] inside of another Object[]. */ @Deprecated public static void log(int logLevel, String format, Object[] args) { assert false : "shouldn't use this"; logv(logLevel, format, args); } public static void dump(Object object, String msg) { dump(DEFAULT_LOG_LEVEL, object, msg); } public static void dump(int dumpLevel, Object object, String msg) { if (ENABLED && DebugScope.getInstance().isDumpEnabled(dumpLevel)) { DebugScope.getInstance().dump(dumpLevel, object, msg); } } public static void dump(Object object, String format, Object arg) { dump(DEFAULT_LOG_LEVEL, object, format, arg); } public static void dump(int dumpLevel, Object object, String format, Object arg) { if (ENABLED && DebugScope.getInstance().isDumpEnabled(dumpLevel)) { DebugScope.getInstance().dump(dumpLevel, object, format, arg); } } public static void dump(Object object, String format, Object arg1, Object arg2) { dump(DEFAULT_LOG_LEVEL, object, format, arg1, arg2); } public static void dump(int dumpLevel, Object object, String format, Object arg1, Object arg2) { if (ENABLED && DebugScope.getInstance().isDumpEnabled(dumpLevel)) { DebugScope.getInstance().dump(dumpLevel, object, format, arg1, arg2); } } public static void dump(Object object, String format, Object arg1, Object arg2, Object arg3) { dump(DEFAULT_LOG_LEVEL, object, format, arg1, arg2, arg3); } public static void dump(int dumpLevel, Object object, String format, Object arg1, Object arg2, Object arg3) { if (ENABLED && DebugScope.getInstance().isDumpEnabled(dumpLevel)) { DebugScope.getInstance().dump(dumpLevel, object, format, arg1, arg2, arg3); } } /** * This override exists to catch cases when {@link #dump(Object, String, Object)} is called with * one argument bound to a varargs method parameter. It will bind to this method instead of the * single arg variant and produce a deprecation warning instead of silently wrapping the * Object[] inside of another Object[]. */ @Deprecated public static void dump(Object object, String format, Object[] args) { assert false : "shouldn't use this"; dump(DEFAULT_LOG_LEVEL, object, format, args); } /** * This override exists to catch cases when {@link #dump(int, Object, String, Object)} is called * with one argument bound to a varargs method parameter. It will bind to this method instead of * the single arg variant and produce a deprecation warning instead of silently wrapping the * Object[] inside of another Object[]. */ @Deprecated public static void dump(int dumpLevel, Object object, String format, Object[] args) { assert false : "shouldn't use this"; if (ENABLED && DebugScope.getInstance().isDumpEnabled(dumpLevel)) { DebugScope.getInstance().dump(dumpLevel, object, format, args); } } /** * Calls all {@link DebugVerifyHandler}s in the current {@linkplain DebugScope#getConfig() * config} to perform verification on a given object. * * @param object object to verify * @param message description of verification context * * @see DebugVerifyHandler#verify(Object, String) */ public static void verify(Object object, String message) { if (ENABLED && DebugScope.getInstance().isVerifyEnabled()) { DebugScope.getInstance().verify(object, message); } } /** * Calls all {@link DebugVerifyHandler}s in the current {@linkplain DebugScope#getConfig() * config} to perform verification on a given object. * * @param object object to verify * @param format a format string for the description of the verification context * @param arg the argument referenced by the format specifiers in {@code format} * * @see DebugVerifyHandler#verify(Object, String) */ public static void verify(Object object, String format, Object arg) { if (ENABLED && DebugScope.getInstance().isVerifyEnabled()) { DebugScope.getInstance().verify(object, format, arg); } } /** * This override exists to catch cases when {@link #verify(Object, String, Object)} is called * with one argument bound to a varargs method parameter. It will bind to this method instead of * the single arg variant and produce a deprecation warning instead of silently wrapping the * Object[] inside of another Object[]. */ @Deprecated public static void verify(Object object, String format, Object[] args) { assert false : "shouldn't use this"; if (ENABLED && DebugScope.getInstance().isVerifyEnabled()) { DebugScope.getInstance().verify(object, format, args); } } /** * Opens a new indentation level (by adding some spaces) based on the current indentation level. * This should be used in a {@linkplain Indent try-with-resources} pattern. * * @return an object that reverts to the current indentation level when * {@linkplain Indent#close() closed} or null if debugging is disabled * @see #logAndIndent(int, String) * @see #logAndIndent(int, String, Object) */ public static Indent indent() { if (ENABLED) { DebugScope scope = DebugScope.getInstance(); return scope.pushIndentLogger(); } return null; } public static Indent logAndIndent(String msg) { return logAndIndent(DEFAULT_LOG_LEVEL, msg); } /** * A convenience function which combines {@link #log(String)} and {@link #indent()}. * * @param msg the message to log * @return an object that reverts to the current indentation level when * {@linkplain Indent#close() closed} or null if debugging is disabled */ public static Indent logAndIndent(int logLevel, String msg) { if (ENABLED && Debug.isLogEnabled(logLevel)) { return logvAndIndentInternal(logLevel, msg); } return null; } public static Indent logAndIndent(String format, Object arg) { return logAndIndent(DEFAULT_LOG_LEVEL, format, arg); } /** * A convenience function which combines {@link #log(String, Object)} and {@link #indent()}. * * @param format a format string * @param arg the argument referenced by the format specifiers in {@code format} * @return an object that reverts to the current indentation level when * {@linkplain Indent#close() closed} or null if debugging is disabled */ public static Indent logAndIndent(int logLevel, String format, Object arg) { if (ENABLED && Debug.isLogEnabled(logLevel)) { return logvAndIndentInternal(logLevel, format, arg); } return null; } public static Indent logAndIndent(String format, int arg) { return logAndIndent(DEFAULT_LOG_LEVEL, format, arg); } /** * A convenience function which combines {@link #log(String, Object)} and {@link #indent()}. * * @param format a format string * @param arg the argument referenced by the format specifiers in {@code format} * @return an object that reverts to the current indentation level when * {@linkplain Indent#close() closed} or null if debugging is disabled */ public static Indent logAndIndent(int logLevel, String format, int arg) { if (ENABLED && Debug.isLogEnabled(logLevel)) { return logvAndIndentInternal(logLevel, format, arg); } return null; } public static Indent logAndIndent(String format, int arg1, Object arg2) { return logAndIndent(DEFAULT_LOG_LEVEL, format, arg1, arg2); } /** * @see #logAndIndent(int, String, Object) */ public static Indent logAndIndent(int logLevel, String format, int arg1, Object arg2) { if (ENABLED && Debug.isLogEnabled(logLevel)) { return logvAndIndentInternal(logLevel, format, arg1, arg2); } return null; } public static Indent logAndIndent(String format, Object arg1, int arg2) { return logAndIndent(DEFAULT_LOG_LEVEL, format, arg1, arg2); } /** * @see #logAndIndent(int, String, Object) */ public static Indent logAndIndent(int logLevel, String format, Object arg1, int arg2) { if (ENABLED && Debug.isLogEnabled(logLevel)) { return logvAndIndentInternal(logLevel, format, arg1, arg2); } return null; } public static Indent logAndIndent(String format, int arg1, int arg2) { return logAndIndent(DEFAULT_LOG_LEVEL, format, arg1, arg2); } /** * @see #logAndIndent(int, String, Object) */ public static Indent logAndIndent(int logLevel, String format, int arg1, int arg2) { if (ENABLED && Debug.isLogEnabled(logLevel)) { return logvAndIndentInternal(logLevel, format, arg1, arg2); } return null; } public static Indent logAndIndent(String format, Object arg1, Object arg2) { return logAndIndent(DEFAULT_LOG_LEVEL, format, arg1, arg2); } /** * @see #logAndIndent(int, String, Object) */ public static Indent logAndIndent(int logLevel, String format, Object arg1, Object arg2) { if (ENABLED && Debug.isLogEnabled(logLevel)) { return logvAndIndentInternal(logLevel, format, arg1, arg2); } return null; } public static Indent logAndIndent(String format, Object arg1, Object arg2, Object arg3) { return logAndIndent(DEFAULT_LOG_LEVEL, format, arg1, arg2, arg3); } /** * @see #logAndIndent(int, String, Object) */ public static Indent logAndIndent(int logLevel, String format, Object arg1, Object arg2, Object arg3) { if (ENABLED && Debug.isLogEnabled(logLevel)) { return logvAndIndentInternal(logLevel, format, arg1, arg2, arg3); } return null; } public static Indent logAndIndent(String format, int arg1, int arg2, int arg3) { return logAndIndent(DEFAULT_LOG_LEVEL, format, arg1, arg2, arg3); } /** * @see #logAndIndent(int, String, Object) */ public static Indent logAndIndent(int logLevel, String format, int arg1, int arg2, int arg3) { if (ENABLED && Debug.isLogEnabled(logLevel)) { return logvAndIndentInternal(logLevel, format, arg1, arg2, arg3); } return null; } public static Indent logAndIndent(String format, Object arg1, int arg2, int arg3) { return logAndIndent(DEFAULT_LOG_LEVEL, format, arg1, arg2, arg3); } /** * @see #logAndIndent(int, String, Object) */ public static Indent logAndIndent(int logLevel, String format, Object arg1, int arg2, int arg3) { if (ENABLED && Debug.isLogEnabled(logLevel)) { return logvAndIndentInternal(logLevel, format, arg1, arg2, arg3); } return null; } public static Indent logAndIndent(String format, Object arg1, Object arg2, Object arg3, Object arg4) { return logAndIndent(DEFAULT_LOG_LEVEL, format, arg1, arg2, arg3, arg4); } /** * @see #logAndIndent(int, String, Object) */ public static Indent logAndIndent(int logLevel, String format, Object arg1, Object arg2, Object arg3, Object arg4) { if (ENABLED && Debug.isLogEnabled(logLevel)) { return logvAndIndentInternal(logLevel, format, arg1, arg2, arg3, arg4); } return null; } public static Indent logAndIndent(String format, Object arg1, Object arg2, Object arg3, Object arg4, Object arg5) { return logAndIndent(DEFAULT_LOG_LEVEL, format, arg1, arg2, arg3, arg4, arg5); } /** * @see #logAndIndent(int, String, Object) */ public static Indent logAndIndent(int logLevel, String format, Object arg1, Object arg2, Object arg3, Object arg4, Object arg5) { if (ENABLED && Debug.isLogEnabled(logLevel)) { return logvAndIndentInternal(logLevel, format, arg1, arg2, arg3, arg4, arg5); } return null; } public static Indent logAndIndent(String format, Object arg1, Object arg2, Object arg3, Object arg4, Object arg5, Object arg6) { return logAndIndent(DEFAULT_LOG_LEVEL, format, arg1, arg2, arg3, arg4, arg5, arg6); } /** * @see #logAndIndent(int, String, Object) */ public static Indent logAndIndent(int logLevel, String format, Object arg1, Object arg2, Object arg3, Object arg4, Object arg5, Object arg6) { if (ENABLED && Debug.isLogEnabled(logLevel)) { return logvAndIndentInternal(logLevel, format, arg1, arg2, arg3, arg4, arg5, arg6); } return null; } /** * A convenience function which combines {@link #logv(int, String, Object...)} and * {@link #indent()}. * * @param format a format string * @param args the arguments referenced by the format specifiers in {@code format} * @return an object that reverts to the current indentation level when * {@linkplain Indent#close() closed} or null if debugging is disabled */ public static Indent logvAndIndent(int logLevel, String format, Object... args) { if (ENABLED) { if (Debug.isLogEnabled(logLevel)) { return logvAndIndentInternal(logLevel, format, args); } return null; } throw new InternalError("Use of Debug.logvAndIndent() must be guarded by a test of Debug.isEnabled()"); } private static Indent logvAndIndentInternal(int logLevel, String format, Object... args) { assert ENABLED && Debug.isLogEnabled(logLevel) : "must have checked Debug.isLogEnabled()"; DebugScope scope = DebugScope.getInstance(); scope.log(logLevel, format, args); return scope.pushIndentLogger(); } /** * This override exists to catch cases when {@link #logAndIndent(String, Object)} is called with * one argument bound to a varargs method parameter. It will bind to this method instead of the * single arg variant and produce a deprecation warning instead of silently wrapping the * Object[] inside of another Object[]. */ @Deprecated public static void logAndIndent(String format, Object[] args) { assert false : "shouldn't use this"; logAndIndent(DEFAULT_LOG_LEVEL, format, args); } /** * This override exists to catch cases when {@link #logAndIndent(int, String, Object)} is called * with one argument bound to a varargs method parameter. It will bind to this method instead of * the single arg variant and produce a deprecation warning instead of silently wrapping the * Object[] inside of another Object[]. */ @Deprecated public static void logAndIndent(int logLevel, String format, Object[] args) { assert false : "shouldn't use this"; logvAndIndent(logLevel, format, args); } public static Iterable<Object> context() { if (ENABLED) { return DebugScope.getInstance().getCurrentContext(); } else { return Collections.emptyList(); } } @SuppressWarnings("unchecked") public static <T> List<T> contextSnapshot(Class<T> clazz) { if (ENABLED) { List<T> result = new ArrayList<>(); for (Object o : context()) { if (clazz.isInstance(o)) { result.add((T) o); } } return result; } else { return Collections.emptyList(); } } /** * Searches the current debug scope, bottom up, for a context object that is an instance of a * given type. The first such object found is returned. */ @SuppressWarnings("unchecked") public static <T> T contextLookup(Class<T> clazz) { if (ENABLED) { for (Object o : context()) { if (clazz.isInstance(o)) { return ((T) o); } } } return null; } /** * Creates a {@linkplain DebugMemUseTracker memory use tracker} that is enabled iff debugging is * {@linkplain #isEnabled() enabled}. * <p> * A disabled tracker has virtually no overhead. */ public static DebugMemUseTracker memUseTracker(CharSequence name) { if (!isUnconditionalMemUseTrackingEnabled && !ENABLED) { return VOID_MEM_USE_TRACKER; } return createMemUseTracker("%s", name, null); } /** * Creates a debug memory use tracker. Invoking this method is equivalent to: * * <pre> * Debug.memUseTracker(format, arg, null) * </pre> * * except that the string formatting only happens if metering is enabled. * * @see #metric(String, Object, Object) */ public static DebugMemUseTracker memUseTracker(String format, Object arg) { if (!isUnconditionalMemUseTrackingEnabled && !ENABLED) { return VOID_MEM_USE_TRACKER; } return createMemUseTracker(format, arg, null); } /** * Creates a debug memory use tracker. Invoking this method is equivalent to: * * <pre> * Debug.memUseTracker(String.format(format, arg1, arg2)) * </pre> * * except that the string formatting only happens if memory use tracking is enabled. In * addition, each argument is subject to the following type based conversion before being passed * as an argument to {@link String#format(String, Object...)}: * * <pre> * Type | Conversion * ------------------+----------------- * java.lang.Class | arg.getSimpleName() * | * </pre> * * @see #memUseTracker(CharSequence) */ public static DebugMemUseTracker memUseTracker(String format, Object arg1, Object arg2) { if (!isUnconditionalMemUseTrackingEnabled && !ENABLED) { return VOID_MEM_USE_TRACKER; } return createMemUseTracker(format, arg1, arg2); } private static DebugMemUseTracker createMemUseTracker(String format, Object arg1, Object arg2) { String name = formatDebugName(format, arg1, arg2); return new MemUseTrackerImpl(name, !isUnconditionalMemUseTrackingEnabled); } /** * Creates a {@linkplain DebugMetric metric} that is enabled iff debugging is * {@linkplain #isEnabled() enabled} or the system property whose name is formed by adding to * {@value #ENABLE_METRIC_PROPERTY_NAME_PREFIX} to {@code name} is * {@linkplain Boolean#getBoolean(String) true}. If the latter condition is true, then the * returned metric is {@linkplain DebugMetric#isConditional() unconditional} otherwise it is * conditional. * <p> * A disabled metric has virtually no overhead. */ public static DebugMetric metric(CharSequence name) { if (!areUnconditionalMetricsEnabled() && !ENABLED) { return VOID_METRIC; } return createMetric("%s", name, null); } public static String applyFormattingFlagsAndWidth(String s, int flags, int width) { if (flags == 0 && width < 0) { return s; } StringBuilder sb = new StringBuilder(s); // apply width and justification int len = sb.length(); if (len < width) { for (int i = 0; i < width - len; i++) { if ((flags & LEFT_JUSTIFY) == LEFT_JUSTIFY) { sb.append(' '); } else { sb.insert(0, ' '); } } } String res = sb.toString(); if ((flags & UPPERCASE) == UPPERCASE) { res = res.toUpperCase(); } return res; } /** * Creates a debug metric. Invoking this method is equivalent to: * * <pre> * Debug.metric(format, arg, null) * </pre> * * except that the string formatting only happens if metering is enabled. * * @see #metric(String, Object, Object) */ public static DebugMetric metric(String format, Object arg) { if (!areUnconditionalMetricsEnabled() && !ENABLED) { return VOID_METRIC; } return createMetric(format, arg, null); } /** * Creates a debug metric. Invoking this method is equivalent to: * * <pre> * Debug.metric(String.format(format, arg1, arg2)) * </pre> * * except that the string formatting only happens if metering is enabled. In addition, each * argument is subject to the following type based conversion before being passed as an argument * to {@link String#format(String, Object...)}: * * <pre> * Type | Conversion * ------------------+----------------- * java.lang.Class | arg.getSimpleName() * | * </pre> * * @see #metric(CharSequence) */ public static DebugMetric metric(String format, Object arg1, Object arg2) { if (!areUnconditionalMetricsEnabled() && !ENABLED) { return VOID_METRIC; } return createMetric(format, arg1, arg2); } private static DebugMetric createMetric(String format, Object arg1, Object arg2) { String name = formatDebugName(format, arg1, arg2); boolean conditional = enabledMetrics == null || !findMatch(enabledMetrics, enabledMetricsSubstrings, name); if (!ENABLED && conditional) { return VOID_METRIC; } return new MetricImpl(name, conditional); } /** * Changes the debug configuration for the current thread. * * @param config new configuration to use for the current thread * @return an object that when {@linkplain DebugConfigScope#close() closed} will restore the * debug configuration for the current thread to what it was before this method was * called */ public static DebugConfigScope setConfig(DebugConfig config) { if (ENABLED) { return new DebugConfigScope(config); } else { return null; } } /** * Creates an object for counting value frequencies. */ public static DebugHistogram createHistogram(String name) { return new DebugHistogramImpl(name); } public static DebugConfig silentConfig() { return fixedConfig(0, 0, false, false, false, false, Collections.<DebugDumpHandler> emptyList(), Collections.<DebugVerifyHandler> emptyList(), null); } public static DebugConfig fixedConfig(final int logLevel, final int dumpLevel, final boolean isMeterEnabled, final boolean isMemUseTrackingEnabled, final boolean isTimerEnabled, final boolean isVerifyEnabled, final Collection<DebugDumpHandler> dumpHandlers, final Collection<DebugVerifyHandler> verifyHandlers, final PrintStream output) { return new DebugConfig() { @Override public int getLogLevel() { return logLevel; } public boolean isLogEnabledForMethod() { return logLevel > 0; } @Override public boolean isMeterEnabled() { return isMeterEnabled; } @Override public boolean isMemUseTrackingEnabled() { return isMemUseTrackingEnabled; } @Override public int getDumpLevel() { return dumpLevel; } public boolean isDumpEnabledForMethod() { return dumpLevel > 0; } @Override public boolean isVerifyEnabled() { return isVerifyEnabled; } public boolean isVerifyEnabledForMethod() { return isVerifyEnabled; } @Override public boolean isTimeEnabled() { return isTimerEnabled; } @Override public RuntimeException interceptException(Throwable e) { return null; } @Override public Collection<DebugDumpHandler> dumpHandlers() { return dumpHandlers; } @Override public Collection<DebugVerifyHandler> verifyHandlers() { return verifyHandlers; } @Override public PrintStream output() { return output; } @Override public void addToContext(Object o) { } @Override public void removeFromContext(Object o) { } }; } private static final DebugMetric VOID_METRIC = new DebugMetric() { public void increment() { } public void add(long value) { } public void setConditional(boolean flag) { throw new InternalError("Cannot make void metric conditional"); } public boolean isConditional() { return false; } public long getCurrentValue() { return 0L; } }; private static final DebugMemUseTracker VOID_MEM_USE_TRACKER = new DebugMemUseTracker() { public DebugCloseable start() { return DebugCloseable.VOID_CLOSEABLE; } public long getCurrentValue() { return 0; } }; public static final String ENABLE_UNSCOPED_TIMERS_PROPERTY_NAME = "graal.debug.unscopedTimers"; public static final String ENABLE_UNSCOPED_METRICS_PROPERTY_NAME = "graal.debug.unscopedMetrics"; public static final String ENABLE_UNSCOPED_MEM_USE_TRACKERS_PROPERTY_NAME = "graal.debug.unscopedMemUseTrackers"; /** * @see #timer(CharSequence) */ public static final String ENABLE_TIMER_PROPERTY_NAME_PREFIX = "graal.debug.timer."; /** * @see #metric(CharSequence) */ public static final String ENABLE_METRIC_PROPERTY_NAME_PREFIX = "graal.debug.metric."; /** * Set of unconditionally enabled metrics. Possible values and their meanings: * <ul> * <li>{@code null}: no unconditionally enabled metrics</li> * <li>{@code isEmpty()}: all metrics are unconditionally enabled</li> * <li>{@code !isEmpty()}: use {@link #findMatch(Set, Set, String)} on this set and * {@link #enabledMetricsSubstrings} to determine which metrics are unconditionally enabled</li> * </ul> */ private static final Set<String> enabledMetrics; /** * Set of unconditionally enabled timers. Same interpretation of values as for * {@link #enabledMetrics}. */ private static final Set<String> enabledTimers; private static final Set<String> enabledMetricsSubstrings = new HashSet<>(); private static final Set<String> enabledTimersSubstrings = new HashSet<>(); /** * Specifies if all mem use trackers are unconditionally enabled. */ private static final boolean isUnconditionalMemUseTrackingEnabled; static { Set<String> metrics = new HashSet<>(); Set<String> timers = new HashSet<>(); parseMetricAndTimerSystemProperties(metrics, timers, enabledMetricsSubstrings, enabledTimersSubstrings); metrics = metrics.isEmpty() && enabledMetricsSubstrings.isEmpty() ? null : metrics; timers = timers.isEmpty() && enabledTimersSubstrings.isEmpty() ? null : timers; if (metrics == null && Boolean.getBoolean(ENABLE_UNSCOPED_METRICS_PROPERTY_NAME)) { metrics = Collections.emptySet(); } if (timers == null && Boolean.getBoolean(ENABLE_UNSCOPED_TIMERS_PROPERTY_NAME)) { timers = Collections.emptySet(); } enabledMetrics = metrics; enabledTimers = timers; isUnconditionalMemUseTrackingEnabled = Boolean.getBoolean(ENABLE_UNSCOPED_MEM_USE_TRACKERS_PROPERTY_NAME); } private static boolean findMatch(Set<String> haystack, Set<String> haystackSubstrings, String needle) { if (haystack.isEmpty()) { // Empty haystack means match all return true; } if (haystack.contains(needle)) { return true; } if (!haystackSubstrings.isEmpty()) { for (String h : haystackSubstrings) { if (needle.startsWith(h)) { return true; } } } return false; } public static boolean areUnconditionalTimersEnabled() { return enabledTimers != null; } public static boolean areUnconditionalMetricsEnabled() { return enabledMetrics != null; } protected static void parseMetricAndTimerSystemProperties(Set<String> metrics, Set<String> timers, Set<String> metricsSubstrings, Set<String> timersSubstrings) { do { try { for (Map.Entry<Object, Object> e : System.getProperties().entrySet()) { String name = e.getKey().toString(); if (name.startsWith(ENABLE_METRIC_PROPERTY_NAME_PREFIX) && Boolean.parseBoolean(e.getValue().toString())) { if (name.endsWith("*")) { metricsSubstrings.add(name.substring(ENABLE_METRIC_PROPERTY_NAME_PREFIX.length(), name.length() - 1)); } else { metrics.add(name.substring(ENABLE_METRIC_PROPERTY_NAME_PREFIX.length())); } } if (name.startsWith(ENABLE_TIMER_PROPERTY_NAME_PREFIX) && Boolean.parseBoolean(e.getValue().toString())) { if (name.endsWith("*")) { timersSubstrings.add(name.substring(ENABLE_TIMER_PROPERTY_NAME_PREFIX.length(), name.length() - 1)); } else { timers.add(name.substring(ENABLE_TIMER_PROPERTY_NAME_PREFIX.length())); } } } return; } catch (ConcurrentModificationException e) { // Iterating over the system properties may race with another thread that is // updating the system properties. Simply try again in this case. } } while (true); } /** * Creates a {@linkplain DebugTimer timer} that is enabled iff debugging is * {@linkplain #isEnabled() enabled} or the system property whose name is formed by adding to * {@value #ENABLE_TIMER_PROPERTY_NAME_PREFIX} to {@code name} is * {@linkplain Boolean#getBoolean(String) true}. If the latter condition is true, then the * returned timer is {@linkplain DebugMetric#isConditional() unconditional} otherwise it is * conditional. * <p> * A disabled timer has virtually no overhead. */ public static DebugTimer timer(CharSequence name) { if (!areUnconditionalTimersEnabled() && !ENABLED) { return VOID_TIMER; } return createTimer("%s", name, null); } /** * Creates a debug timer. Invoking this method is equivalent to: * * <pre> * Debug.timer(format, arg, null) * </pre> * * except that the string formatting only happens if timing is enabled. * * @see #timer(String, Object, Object) */ public static DebugTimer timer(String format, Object arg) { if (!areUnconditionalTimersEnabled() && !ENABLED) { return VOID_TIMER; } return createTimer(format, arg, null); } /** * Creates a debug timer. Invoking this method is equivalent to: * * <pre> * Debug.timer(String.format(format, arg1, arg2)) * </pre> * * except that the string formatting only happens if timing is enabled. In addition, each * argument is subject to the following type based conversion before being passed as an argument * to {@link String#format(String, Object...)}: * * <pre> * Type | Conversion * ------------------+----------------- * java.lang.Class | arg.getSimpleName() * | * </pre> * * @see #timer(CharSequence) */ public static DebugTimer timer(String format, Object arg1, Object arg2) { if (!areUnconditionalTimersEnabled() && !ENABLED) { return VOID_TIMER; } return createTimer(format, arg1, arg2); } /** * There are paths where construction of formatted class names are common and the code below is * surprisingly expensive, so compute it once and cache it. */ private static final ClassValue<String> formattedClassName = new ClassValue<String>() { @Override protected String computeValue(Class<?> c) { final String simpleName = c.getSimpleName(); Class<?> enclosingClass = c.getEnclosingClass(); if (enclosingClass != null) { String prefix = ""; while (enclosingClass != null) { prefix = enclosingClass.getSimpleName() + "_" + prefix; enclosingClass = enclosingClass.getEnclosingClass(); } return prefix + simpleName; } else { return simpleName; } } }; public static Object convertFormatArg(Object arg) { if (arg instanceof Class) { return formattedClassName.get((Class<?>) arg); } return arg; } private static String formatDebugName(String format, Object arg1, Object arg2) { return String.format(format, convertFormatArg(arg1), convertFormatArg(arg2)); } private static DebugTimer createTimer(String format, Object arg1, Object arg2) { String name = formatDebugName(format, arg1, arg2); boolean conditional = enabledTimers == null || !findMatch(enabledTimers, enabledTimersSubstrings, name); if (!ENABLED && conditional) { return VOID_TIMER; } return new TimerImpl(name, conditional); } private static final DebugTimer VOID_TIMER = new DebugTimer() { public DebugCloseable start() { return DebugCloseable.VOID_CLOSEABLE; } public void setConditional(boolean flag) { throw new InternalError("Cannot make void timer conditional"); } public boolean isConditional() { return false; } public long getCurrentValue() { return 0L; } public TimeUnit getTimeUnit() { return null; } }; }