org.aspectj.tools.ant.taskdefs.AjcTask Maven / Gradle / Ivy
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/* ******************************************************************* * Copyright (c) 2001-2001 Xerox Corporation, * 2002 Palo Alto Research Center, Incorporated (PARC) * 2003-2004 Contributors. * All rights reserved. * This program and the accompanying materials are made available * under the terms of the Eclipse Public License v1.0 * which accompanies this distribution and is available at * http://www.eclipse.org/legal/epl-v10.html * * Contributors: * Xerox/PARC initial implementation * Wes Isberg 2003-2004 changes * ******************************************************************/ package org.aspectj.tools.ant.taskdefs; import java.io.File; import java.io.FileWriter; import java.io.IOException; import java.io.PrintWriter; import java.util.ArrayList; import java.util.Arrays; import java.util.Collections; import java.util.Iterator; import java.util.List; import java.util.StringTokenizer; import org.apache.tools.ant.AntClassLoader; import org.apache.tools.ant.BuildException; import org.apache.tools.ant.Location; import org.apache.tools.ant.Project; import org.apache.tools.ant.taskdefs.Copy; import org.apache.tools.ant.taskdefs.Delete; import org.apache.tools.ant.taskdefs.Execute; import org.apache.tools.ant.taskdefs.Expand; import org.apache.tools.ant.taskdefs.Javac; import org.apache.tools.ant.taskdefs.LogStreamHandler; import org.apache.tools.ant.taskdefs.MatchingTask; import org.apache.tools.ant.taskdefs.Mkdir; import org.apache.tools.ant.taskdefs.PumpStreamHandler; import org.apache.tools.ant.taskdefs.Zip; import org.apache.tools.ant.taskdefs.compilers.DefaultCompilerAdapter; import org.apache.tools.ant.types.Commandline; import org.apache.tools.ant.types.CommandlineJava; import org.apache.tools.ant.types.FileSet; import org.apache.tools.ant.types.Path; import org.apache.tools.ant.types.PatternSet; import org.apache.tools.ant.types.Reference; import org.apache.tools.ant.types.ZipFileSet; import org.apache.tools.ant.util.TaskLogger; import org.aspectj.bridge.AbortException; import org.aspectj.bridge.IMessage; import org.aspectj.bridge.IMessage.Kind; import org.aspectj.bridge.IMessageHandler; import org.aspectj.bridge.IMessageHolder; import org.aspectj.bridge.MessageHandler; import org.aspectj.bridge.MessageUtil; import org.aspectj.tools.ajc.Main; import org.aspectj.util.FileUtil; import org.aspectj.util.LangUtil; /** * This runs the AspectJ 1.1 compiler, supporting all the command-line options. In 1.1.1, ajc copies resources from input jars, but * you can copy resources from the source directories using sourceRootCopyFilter. When not forking, things will be copied as needed * for each iterative compile, but when forking things are only copied at the completion of a successful compile. *
-Xlint:warning) */ public void setXlintwarnings(boolean xlintwarnings) { cmd.addFlag("-Xlint", xlintwarnings); } /** * -Xlint:{error|warning|info} - set default level for -Xlint messages * * @param xlint the String with one of error, warning, ignored */ public void setXlint(String xlint) { xlint = validCommaList(xlint, VALID_XLINT, "Xlint", 1); cmd.addFlag("-Xlint:" + xlint, (null != xlint)); } /** * -Xlintfile {lint.properties} - enable or disable specific forms of -Xlint messages based on a lint properties file (default * is* See the development environment guide for usage documentation. * * @since AspectJ 1.1, Ant 1.5 */ public class AjcTask extends MatchingTask { /* * This task mainly converts ant specification for ajc, verbosely ignoring improper input. It also has some special features for * non-obvious clients: (1) Javac compiler adapter supported in
setupAjc(AjcTask, Javac, File)
and *readArguments(String[])
; (2) testing is supported by (a) permitting the same specification to be re-run with * added flags (settings once made cannot be removed); and (b) permitting recycling the task withreset()
* (untested). * * The parts that do more than convert ant specs are (a) code for forking; (b) code for copying resources. * * If you maintain/upgrade this task, keep in mind: (1) changes to the semantics of ajc (new options, new values permitted, * etc.) will have to be reflected here. (2) the clients: the iajc ant script, Javac compiler adapter, maven clients of iajc, * and testing code. */ // XXX move static methods after static initializer /** * This method extracts javac arguments to ajc, and add arguments to make ajc behave more like javac in copying resources. ** Pass ajc-specific options using compilerarg sub-element: * *
* <javac srcdir="src"> * <compilerarg compiler="..." line="-argfile src/args.lst"/> * <javac> ** * Some javac arguments are not supported in this component (yet): * ** String memoryInitialSize; * boolean includeAntRuntime = true; * boolean includeJavaRuntime = false; ** * Other javac arguments are not supported in ajc 1.1: * ** boolean optimize; * String forkedExecutable; * FacadeTaskHelper facade; * boolean depend; * String debugLevel; * Path compileSourcepath; ** * @param javac the Javac command to implement (not null) * @param ajc the AjcTask to adapt (not null) * @param destDir the File class destination directory (may be null) * @return null if no error, or String error otherwise */ public String setupAjc(Javac javac) { if (null == javac) { return "null javac"; } AjcTask ajc = this; // no null checks b/c AjcTask handles null input gracefully ajc.setProject(javac.getProject()); ajc.setLocation(javac.getLocation()); ajc.setTaskName("javac-iajc"); ajc.setDebug(javac.getDebug()); ajc.setDeprecation(javac.getDeprecation()); ajc.setFailonerror(javac.getFailonerror()); final boolean fork = javac.isForkedJavac(); ajc.setFork(fork); if (fork) { ajc.setMaxmem(javac.getMemoryMaximumSize()); } ajc.setNowarn(javac.getNowarn()); ajc.setListFileArgs(javac.getListfiles()); ajc.setVerbose(javac.getVerbose()); ajc.setTarget(javac.getTarget()); ajc.setSource(javac.getSource()); ajc.setEncoding(javac.getEncoding()); File javacDestDir = javac.getDestdir(); if (null != javacDestDir) { ajc.setDestdir(javacDestDir); // filter requires dest dir // mimic Javac task's behavior in copying resources, ajc.setSourceRootCopyFilter("**/CVS/*,**/*.java,**/*.aj"); } ajc.setBootclasspath(javac.getBootclasspath()); ajc.setExtdirs(javac.getExtdirs()); ajc.setClasspath(javac.getClasspath()); // ignore srcDir -- all files picked up in recalculated file list // ajc.setSrcDir(javac.getSrcdir()); ajc.addFiles(javac.getFileList()); // arguments can override the filter, add to paths, override options ajc.readArguments(javac.getCurrentCompilerArgs()); return null; } /** * Find aspectjtools.jar on the task or system classpath. Acceptaspectj{-}tools{...}.jar
mainly to support build * systems using maven-style re-naming (e.g.,aspectj-tools-1.1.0.jar
. Note that we search the task classpath * first, though an entry on the system classpath would be loaded first, because it seems more correct as the more specific one. * * @return readable File for aspectjtools.jar, or null if not found. */ public static File findAspectjtoolsJar() { File result = null; ClassLoader loader = AjcTask.class.getClassLoader(); if (loader instanceof AntClassLoader) { AntClassLoader taskLoader = (AntClassLoader) loader; String cp = taskLoader.getClasspath(); String[] cps = LangUtil.splitClasspath(cp); for (int i = 0; (i < cps.length) && (null == result); i++) { result = isAspectjtoolsjar(cps[i]); } } if (null == result) { final Path classpath = Path.systemClasspath; final String[] paths = classpath.list(); for (int i = 0; (i < paths.length) && (null == result); i++) { result = isAspectjtoolsjar(paths[i]); } } return (null == result ? null : result.getAbsoluteFile()); } /** @return File if readable jar with aspectj tools name, or null */ private static File isAspectjtoolsjar(String path) { if (null == path) { return null; } final String prefix = "aspectj"; final String infix = "tools"; final String altInfix = "-tools"; final String suffix = ".jar"; final int prefixLength = 7; // prefix.length(); final int minLength = 16; // prefixLength + infix.length() + suffix.length(); if (!path.endsWith(suffix)) { return null; } int loc = path.lastIndexOf(prefix); if ((-1 != loc) && ((loc + minLength) <= path.length())) { String rest = path.substring(loc + prefixLength); if (-1 != rest.indexOf(File.pathSeparator)) { return null; } if (rest.startsWith(infix) || rest.startsWith(altInfix)) { File result = new File(path); if (result.canRead() && result.isFile()) { return result; } } } return null; } /** * Maximum length (in chars) of command line before converting to an argfile when forking */ private static final int MAX_COMMANDLINE = 4096; private static final File DEFAULT_DESTDIR = new File(".") { public String toString() { return "(no destination dir specified)"; } }; /** do not throw BuildException on fail/abort message with usage */ private static final String USAGE_SUBSTRING = "AspectJ-specific options"; /** valid -X[...] options other than -Xlint variants */ private static final List VALID_XOPTIONS; /** valid warning (-warn:[...]) variants */ private static final List VALID_WARNINGS; /** valid debugging (-g:[...]) variants */ private static final List VALID_DEBUG; /** * -Xlint variants (error, warning, ignore) * * @see org.aspectj.weaver.Lint */ private static final List VALID_XLINT; public static final String COMMAND_EDITOR_NAME = AjcTask.class.getName() + ".COMMAND_EDITOR"; static final String[] TARGET_INPUTS = new String[] { "1.1", "1.2", "1.3", "1.4", "1.5", "1.6", "1.7", "1.8" }; static final String[] SOURCE_INPUTS = new String[] { "1.3", "1.4", "1.5", "1.6", "1.7", "1.8" }; static final String[] COMPLIANCE_INPUTS = new String[] { "-1.3", "-1.4", "-1.5", "-1.6", "-1.7", "-1.8" }; private static final ICommandEditor COMMAND_EDITOR; static { // many now deprecated: reweavable* String[] xs = new String[] { "serializableAspects", "incrementalFile", "lazyTjp", "reweavable", "reweavable:compress", "notReweavable", "noInline", "terminateAfterCompilation", "hasMember", "ajruntimetarget:1.2", "ajruntimetarget:1.5", "addSerialVersionUID" // , "targetNearSource", "OcodeSize", }; VALID_XOPTIONS = Collections.unmodifiableList(Arrays.asList(xs)); xs = new String[] { "constructorName", "packageDefaultMethod", "deprecation", "maskedCatchBlocks", "unusedLocals", "unusedArguments", "unusedImports", "syntheticAccess", "assertIdentifier", "allDeprecation", "allJavadoc", "charConcat", "conditionAssign", "emptyBlock", "fieldHiding", "finally", "indirectStatic", "intfNonInherited", "javadoc", "localHiding", "nls", "noEffectAssign", "pkgDefaultMethod", "semicolon", "unqualifiedField", "unusedPrivate", "unusedThrown", "uselessTypeCheck", "specialParamHiding", "staticReceiver", "syntheticAccess", "none" }; VALID_WARNINGS = Collections.unmodifiableList(Arrays.asList(xs)); xs = new String[] { "none", "lines", "vars", "source" }; VALID_DEBUG = Collections.unmodifiableList(Arrays.asList(xs)); xs = new String[] { "error", "warning", "ignore" }; VALID_XLINT = Collections.unmodifiableList(Arrays.asList(xs)); ICommandEditor editor = null; try { String editorClassName = System.getProperty(COMMAND_EDITOR_NAME); if (null != editorClassName) { ClassLoader cl = AjcTask.class.getClassLoader(); Class editorClass = cl.loadClass(editorClassName); editor = (ICommandEditor) editorClass.newInstance(); } } catch (Throwable t) { System.err.println("Warning: unable to load command editor"); t.printStackTrace(System.err); } COMMAND_EDITOR = editor; } // ---------------------------- state and Ant interface thereto private boolean verbose; private boolean timers; private boolean listFileArgs; private boolean failonerror; private boolean fork; private String maxMem; private TaskLogger logger; // ------- single entries dumped into cmd protected GuardedCommand cmd; // ------- lists resolved in addListArgs() at execute() time private Path srcdir; private Path injars; private Path inpath; private Path classpath; private Path bootclasspath; private Path forkclasspath; private Path extdirs; private Path aspectpath; private Path argfiles; private Path inxmlfiles; private List ignored; private Path sourceRoots; private File xweaveDir; private String xdoneSignal; // ----- added by adapter - integrate better? private List /* File */adapterFiles; private String[] adapterArguments; private IMessageHolder messageHolder; private ICommandEditor commandEditor; // -------- resource-copying /** true if copying injar non-.class files to the output jar */ private boolean copyInjars; private boolean copyInpath; /** non-null if copying all source root files but the filtered ones */ private String sourceRootCopyFilter; /** non-null if copying all inpath dir files but the filtered ones */ private String inpathDirCopyFilter; /** directory sink for classes */ private File destDir; /** zip file sink for classes */ private File outjar; /** track whether we've supplied any temp outjar */ private boolean outjarFixedup; /** * When possibly copying resources to the output jar, pass ajc a fake output jar to copy from, so we don't change the * modification time of the output jar when copying injars/inpath into the actual outjar. */ private File tmpOutjar; private boolean executing; /** non-null only while executing in same vm */ private Main main; /** true only when executing in other vm */ private boolean executingInOtherVM; /** true if -incremental */ private boolean inIncrementalMode; /** true if -XincrementalFile (i.e, setTagFile) */ private boolean inIncrementalFileMode; /** log command in non-verbose mode */ private boolean logCommand; /** used when forking */ private CommandlineJava javaCmd = new CommandlineJava(); // also note MatchingTask grabs source files... public AjcTask() { reset(); } /** to use this same Task more than once (testing) */ public void reset() { // XXX possible to reset MatchingTask? // need declare for "all fields initialized in ..." adapterArguments = null; adapterFiles = new ArrayList(); argfiles = null; inxmlfiles = null; executing = false; aspectpath = null; bootclasspath = null; classpath = null; cmd = new GuardedCommand(); copyInjars = false; copyInpath = false; destDir = DEFAULT_DESTDIR; executing = false; executingInOtherVM = false; extdirs = null; failonerror = true; // non-standard default forkclasspath = null; inIncrementalMode = false; inIncrementalFileMode = false; ignored = new ArrayList(); injars = null; inpath = null; listFileArgs = false; maxMem = null; messageHolder = null; outjar = null; sourceRootCopyFilter = null; inpathDirCopyFilter = null; sourceRoots = null; srcdir = null; tmpOutjar = null; verbose = false; timers = false; xweaveDir = null; xdoneSignal = null; logCommand = false; javaCmd = new CommandlineJava(); } protected void ignore(String ignored) { this.ignored.add(ignored + " at " + getLocation()); } // ---------------------- option values // used by entries with internal commas protected String validCommaList(String list, List valid, String label) { return validCommaList(list, valid, label, valid.size()); } protected String validCommaList(String list, List valid, String label, int max) { StringBuffer result = new StringBuffer(); StringTokenizer st = new StringTokenizer(list, ","); int num = 0; while (st.hasMoreTokens()) { String token = st.nextToken().trim(); num++; if (num > max) { ignore("too many entries for -" + label + ": " + token); break; } if (!valid.contains(token)) { ignore("bad commaList entry for -" + label + ": " + token); } else { if (0 < result.length()) { result.append(","); } result.append(token); } } return (0 == result.length() ? null : result.toString()); } /** * Controls whether annotation processing and/or compilation is done. * -proc:none means that compilation takes place without annotation processing. * -proc:only means that only annotation processing is done, without any subsequent compilation. */ public void setProc(String proc) { if (proc.equals("none")) { cmd.addFlag("-proc:none", true); } else if (proc.equals("only")) { cmd.addFlag("-proc:only", true); } } /** * -processor class1[,class2,class3...] * Names of the annotation processors to run. This bypasses the default discovery process. */ public void setProcessor(String processors) { cmd.addFlagged("-processor", processors); } /** * -processorpath path * Specify where to find annotation processors; if this option is not used, the class path will be searched for processors. */ public void setProcessorpath(String processorpath) { cmd.addFlagged("-processorpath", processorpath); } /** * -s dir * Specify the directory where to place generated source files. The directory must already exist; javac will not create it. * If a class is part of a package, the compiler puts the source file in a subdirectory reflecting the package name, * creating directories as needed. * * For example, if you specify -s C:\mysrc and the class is called com.mypackage.MyClass, * then the source file will be placed in C:\mysrc\com\mypackage\MyClass.java. */ public void setS(String s) { cmd.addFlagged("-s", s); } public void setIncremental(boolean incremental) { cmd.addFlag("-incremental", incremental); inIncrementalMode = incremental; } public void setLogCommand(boolean logCommand) { this.logCommand = logCommand; } public void setHelp(boolean help) { cmd.addFlag("-help", help); } public void setVersion(boolean version) { cmd.addFlag("-version", version); } public void setXTerminateAfterCompilation(boolean b) { cmd.addFlag("-XterminateAfterCompilation", b); } public void setXReweavable(boolean reweavable) { cmd.addFlag("-Xreweavable", reweavable); } public void setXmlConfigured(boolean xmlConfigured) { cmd.addFlag("-xmlConfigured", xmlConfigured); } public void setXJoinpoints(String optionalJoinpoints) { cmd.addFlag("-Xjoinpoints:" + optionalJoinpoints, true); } public void setCheckRuntimeVersion(boolean b) { cmd.addFlag("-checkRuntimeVersion:" + b, true); } public void setXNoWeave(boolean b) { if (logger != null) { logger.warning("the noweave option is no longer required and is being ignored"); } } public void setNoWeave(boolean b) { if (logger != null) { logger.warning("the noweave option is no longer required and is being ignored"); } } public void setXNotReweavable(boolean notReweavable) { cmd.addFlag("-XnotReweavable", notReweavable); } public void setXaddSerialVersionUID(boolean addUID) { cmd.addFlag("-XaddSerialVersionUID", addUID); } public void setXNoInline(boolean noInline) { cmd.addFlag("-XnoInline", noInline); } public void setShowWeaveInfo(boolean showweaveinfo) { cmd.addFlag("-showWeaveInfo", showweaveinfo); } public void setNowarn(boolean nowarn) { cmd.addFlag("-nowarn", nowarn); } public void setDeprecation(boolean deprecation) { cmd.addFlag("-deprecation", deprecation); } public void setWarn(String warnings) { warnings = validCommaList(warnings, VALID_WARNINGS, "warn"); cmd.addFlag("-warn:" + warnings, (null != warnings)); } public void setDebug(boolean debug) { cmd.addFlag("-g", debug); } public void setDebugLevel(String level) { level = validCommaList(level, VALID_DEBUG, "g"); cmd.addFlag("-g:" + level, (null != level)); } public void setEmacssym(boolean emacssym) { cmd.addFlag("-emacssym", emacssym); } public void setCrossrefs(boolean on) { cmd.addFlag("-crossrefs", on); } /** * -Xlint - set default level of -Xlint messages to warning (same asorg/aspectj/weaver/XLintDefault.properties
) * * @param xlintFile the File with lint properties */ public void setXlintfile(File xlintFile) { cmd.addFlagged("-Xlintfile", xlintFile.getAbsolutePath()); } public void setPreserveAllLocals(boolean preserveAllLocals) { cmd.addFlag("-preserveAllLocals", preserveAllLocals); } public void setNoImportError(boolean noImportError) { cmd.addFlag("-warn:-unusedImport", noImportError); } public void setEncoding(String encoding) { cmd.addFlagged("-encoding", encoding); } public void setLog(File file) { cmd.addFlagged("-log", file.getAbsolutePath()); } public void setProceedOnError(boolean proceedOnError) { cmd.addFlag("-proceedOnError", proceedOnError); } public void setVerbose(boolean verbose) { cmd.addFlag("-verbose", verbose); this.verbose = verbose; } public void setTimers(boolean timers) { cmd.addFlag("-timers", timers); this.timers = timers; } public void setListFileArgs(boolean listFileArgs) { this.listFileArgs = listFileArgs; } public void setReferenceInfo(boolean referenceInfo) { cmd.addFlag("-referenceInfo", referenceInfo); } public void setTime(boolean time) { cmd.addFlag("-time", time); } public void setNoExit(boolean noExit) { cmd.addFlag("-noExit", noExit); } public void setFailonerror(boolean failonerror) { this.failonerror = failonerror; } /** * @return true if fork was set */ public boolean isForked() { return fork; } public void setFork(boolean fork) { this.fork = fork; } public void setMaxmem(String maxMem) { this.maxMem = maxMem; } /** support for nested <jvmarg> elements */ public Commandline.Argument createJvmarg() { return this.javaCmd.createVmArgument(); } // ---------------- public void setTagFile(File file) { inIncrementalMode = true; cmd.addFlagged(Main.CommandController.TAG_FILE_OPTION, file.getAbsolutePath()); inIncrementalFileMode = true; } public void setOutjar(File file) { if (DEFAULT_DESTDIR != destDir) { String e = "specifying both output jar (" + file + ") and destination dir (" + destDir + ")"; throw new BuildException(e); } outjar = file; outjarFixedup = false; tmpOutjar = null; } public void setOutxml(boolean outxml) { cmd.addFlag("-outxml", outxml); } public void setOutxmlfile(String name) { cmd.addFlagged("-outxmlfile", name); } public void setDestdir(File dir) { if (null != outjar) { String e = "specifying both output jar (" + outjar + ") and destination dir (" + dir + ")"; throw new BuildException(e); } cmd.addFlagged("-d", dir.getAbsolutePath()); destDir = dir; } /** * @param input a String in TARGET_INPUTS */ public void setTarget(String input) { String ignore = cmd.addOption("-target", TARGET_INPUTS, input); if (null != ignore) { ignore(ignore); } } /** * Language compliance level. If not set explicitly, eclipse default holds. * * @param input a String in COMPLIANCE_INPUTS */ public void setCompliance(String input) { String ignore = cmd.addOption(null, COMPLIANCE_INPUTS, input); if (null != ignore) { ignore(ignore); } } /** * Source compliance level. If not set explicitly, eclipse default holds. * * @param input a String in SOURCE_INPUTS */ public void setSource(String input) { String ignore = cmd.addOption("-source", SOURCE_INPUTS, input); if (null != ignore) { ignore(ignore); } } public void setParameters(boolean b) { cmd.addFlag("-parameters",b); } /** * Flag to copy all non-.class contents of injars to outjar after compile completes. Requires both injars and outjar. * * @param doCopy */ public void setCopyInjars(boolean doCopy) { ignore("copyInJars"); log("copyInjars not required since 1.1.1.\n", Project.MSG_WARN); // this.copyInjars = doCopy; } /** * Option to copy all files from all source root directories except those specified here. If this is specified and sourceroots * are specified, then this will copy all files except those specified in the filter pattern. Requires sourceroots. * * @param filter a String acceptable as an excludes filter for an Ant Zip fileset. */ public void setSourceRootCopyFilter(String filter) { this.sourceRootCopyFilter = filter; } /** * Option to copy all files from all inpath directories except the files specified here. If this is specified and inpath * directories are specified, then this will copy all files except those specified in the filter pattern. Requires inpath. If * the input does not contain "**\/*.class", then this prepends it, to avoid overwriting woven classes with unwoven input. * * @param filter a String acceptable as an excludes filter for an Ant Zip fileset. */ public void setInpathDirCopyFilter(String filter) { if (null != filter) { if (-1 == filter.indexOf("**/*.class")) { filter = "**/*.class," + filter; } } this.inpathDirCopyFilter = filter; } public void setX(String input) { // ajc-only eajc-also docDone StringTokenizer tokens = new StringTokenizer(input, ",", false); while (tokens.hasMoreTokens()) { String token = tokens.nextToken().trim(); if (1 < token.length()) { // new special case: allow -Xset:anything if (VALID_XOPTIONS.contains(token) || token.indexOf("set:") == 0 || token.indexOf("joinpoints:") == 0) { cmd.addFlag("-X" + token, true); } else { ignore("-X" + token); } } } } public void setXDoneSignal(String doneSignal) { this.xdoneSignal = doneSignal; } /** direct API for testing */ public void setMessageHolder(IMessageHolder holder) { this.messageHolder = holder; } /** * Setup custom message handling. * * @param className the String fully-qualified-name of a class reachable from this object's class loader, implementing * IMessageHolder, and having a public no-argument constructor. * @throws BuildException if unable to create instance of className */ public void setMessageHolderClass(String className) { try { Class mclass = Class.forName(className); IMessageHolder holder = (IMessageHolder) mclass.newInstance(); setMessageHolder(holder); } catch (Throwable t) { String m = "unable to instantiate message holder: " + className; throw new BuildException(m, t); } } /** direct API for testing */ public void setCommandEditor(ICommandEditor editor) { this.commandEditor = editor; } /** * Setup command-line filter. To do this staticly, define the environment variable *org.aspectj.tools.ant.taskdefs.AjcTask.COMMAND_EDITOR
with theclassName
parameter. * * @param className the String fully-qualified-name of a class reachable from this object's class loader, implementing * ICommandEditor, and having a public no-argument constructor. * @throws BuildException if unable to create instance of className */ public void setCommandEditorClass(String className) { // skip Ant interface? try { Class mclass = Class.forName(className); setCommandEditor((ICommandEditor) mclass.newInstance()); } catch (Throwable t) { String m = "unable to instantiate command editor: " + className; throw new BuildException(m, t); } } // ---------------------- Path lists /** * Add path elements to source path and return result. Elements are added even if they do not exist. * * @param source the Path to add to - may be null * @param toAdd the Path to add - may be null * @return the (never-null) Path that results */ protected Path incPath(Path source, Path toAdd) { if (null == source) { source = new Path(project); } if (null != toAdd) { source.append(toAdd); } return source; } public void setSourcerootsref(Reference ref) { createSourceRoots().setRefid(ref); } public void setSourceRoots(Path roots) { sourceRoots = incPath(sourceRoots, roots); } public Path createSourceRoots() { if (sourceRoots == null) { sourceRoots = new Path(project); } return sourceRoots.createPath(); } public void setXWeaveDir(File file) { if ((null != file) && file.isDirectory() && file.canRead()) { xweaveDir = file; } } public void setInjarsref(Reference ref) { createInjars().setRefid(ref); } public void setInpathref(Reference ref) { createInpath().setRefid(ref); } public void setInjars(Path path) { injars = incPath(injars, path); } public void setInpath(Path path) { inpath = incPath(inpath, path); } public Path createInjars() { if (injars == null) { injars = new Path(project); } return injars.createPath(); } public Path createInpath() { if (inpath == null) { inpath = new Path(project); } return inpath.createPath(); } public void setClasspath(Path path) { classpath = incPath(classpath, path); } public void setClasspathref(Reference classpathref) { createClasspath().setRefid(classpathref); } public Path createClasspath() { if (classpath == null) { classpath = new Path(project); } return classpath.createPath(); } public void setBootclasspath(Path path) { bootclasspath = incPath(bootclasspath, path); } public void setBootclasspathref(Reference bootclasspathref) { createBootclasspath().setRefid(bootclasspathref); } public Path createBootclasspath() { if (bootclasspath == null) { bootclasspath = new Path(project); } return bootclasspath.createPath(); } public void setForkclasspath(Path path) { forkclasspath = incPath(forkclasspath, path); } public void setForkclasspathref(Reference forkclasspathref) { createForkclasspath().setRefid(forkclasspathref); } public Path createForkclasspath() { if (forkclasspath == null) { forkclasspath = new Path(project); } return forkclasspath.createPath(); } public void setExtdirs(Path path) { extdirs = incPath(extdirs, path); } public void setExtdirsref(Reference ref) { createExtdirs().setRefid(ref); } public Path createExtdirs() { if (extdirs == null) { extdirs = new Path(project); } return extdirs.createPath(); } public void setAspectpathref(Reference ref) { createAspectpath().setRefid(ref); } public void setAspectpath(Path path) { aspectpath = incPath(aspectpath, path); } public Path createAspectpath() { if (aspectpath == null) { aspectpath = new Path(project); } return aspectpath.createPath(); } public void setSrcDir(Path path) { srcdir = incPath(srcdir, path); } public Path createSrc() { return createSrcdir(); } public Path createSrcdir() { if (srcdir == null) { srcdir = new Path(project); } return srcdir.createPath(); } /** @return true if in incremental mode (command-line or file) */ public boolean isInIncrementalMode() { return inIncrementalMode; } /** @return true if in incremental file mode */ public boolean isInIncrementalFileMode() { return inIncrementalFileMode; } public void setArgfilesref(Reference ref) { createArgfiles().setRefid(ref); } public void setArgfiles(Path path) { // ajc-only eajc-also docDone argfiles = incPath(argfiles, path); } public Path createArgfiles() { if (argfiles == null) { argfiles = new Path(project); } return argfiles.createPath(); } public void setInxmlref(Reference ref) { createArgfiles().setRefid(ref); } public void setInxml(Path path) { // ajc-only eajc-also docDone inxmlfiles = incPath(inxmlfiles, path); } public Path createInxml() { if (inxmlfiles == null) { inxmlfiles = new Path(project); } return inxmlfiles.createPath(); } // ------------------------------ run /** * Compile using ajc per settings. * * @exception BuildException if the compilation has problems or if there were compiler errors and failonerror is true. */ public void execute() throws BuildException { this.logger = new TaskLogger(this); if (executing) { throw new IllegalStateException("already executing"); } else { executing = true; } setupOptions(); verifyOptions(); try { String[] args = makeCommand(); if (logCommand) { log("ajc " + Arrays.asList(args)); } else { logVerbose("ajc " + Arrays.asList(args)); } if (!fork) { executeInSameVM(args); } else { // when forking, Adapter handles failonerror executeInOtherVM(args); } } catch (BuildException e) { throw e; } catch (Throwable x) { this.logger.error(Main.renderExceptionForUser(x)); throw new BuildException("IGNORE -- See " + LangUtil.unqualifiedClassName(x) + " rendered to ant logger"); } finally { executing = false; if (null != tmpOutjar) { tmpOutjar.delete(); } } } /** * Halt processing. This tells main in the same vm to quit. It fails when running in forked mode. * * @return true if not in forked mode and main has quit or been told to quit */ public boolean quit() { if (executingInOtherVM) { return false; } Main me = main; if (null != me) { me.quit(); } return true; } // package-private for testing String[] makeCommand() { ArrayList result = new ArrayList(); if (0 < ignored.size()) { for (Iterator iter = ignored.iterator(); iter.hasNext();) { logVerbose("ignored: " + iter.next()); } } // when copying resources, use temp jar for class output // then copy temp jar contents and resources to output jar if ((null != outjar) && !outjarFixedup) { if (copyInjars || copyInpath || (null != sourceRootCopyFilter) || (null != inpathDirCopyFilter)) { String path = outjar.getAbsolutePath(); int len = FileUtil.zipSuffixLength(path); path = path.substring(0, path.length() - len) + ".tmp.jar"; tmpOutjar = new File(path); } if (null == tmpOutjar) { cmd.addFlagged("-outjar", outjar.getAbsolutePath()); } else { cmd.addFlagged("-outjar", tmpOutjar.getAbsolutePath()); } outjarFixedup = true; } result.addAll(cmd.extractArguments()); addListArgs(result); String[] command = (String[]) result.toArray(new String[0]); if (null != commandEditor) { command = commandEditor.editCommand(command); } else if (null != COMMAND_EDITOR) { command = COMMAND_EDITOR.editCommand(command); } return command; } /** * Create any pseudo-options required to implement some of the macro options * * @throws BuildException if options conflict */ protected void setupOptions() { if (null != xweaveDir) { if (DEFAULT_DESTDIR != destDir) { throw new BuildException("weaveDir forces destdir"); } if (null != outjar) { throw new BuildException("weaveDir forces outjar"); } if (null != injars) { throw new BuildException("weaveDir incompatible with injars now"); } if (null != inpath) { throw new BuildException("weaveDir incompatible with inpath now"); } File injar = zipDirectory(xweaveDir); setInjars(new Path(getProject(), injar.getAbsolutePath())); setDestdir(xweaveDir); } } protected File zipDirectory(File dir) { File tempDir = new File("."); try { tempDir = File.createTempFile("AjcTest", ".tmp"); tempDir.mkdirs(); tempDir.deleteOnExit(); // XXX remove zip explicitly.. } catch (IOException e) { // ignore } // File result = new File(tempDir, String filename = "AjcTask-" + System.currentTimeMillis() + ".zip"; File result = new File(filename); Zip zip = new Zip(); zip.setProject(getProject()); zip.setDestFile(result); zip.setTaskName(getTaskName() + " - zip"); FileSet fileset = new FileSet(); fileset.setDir(dir); zip.addFileset(fileset); zip.execute(); Delete delete = new Delete(); delete.setProject(getProject()); delete.setTaskName(getTaskName() + " - delete"); delete.setDir(dir); delete.execute(); Mkdir mkdir = new Mkdir(); mkdir.setProject(getProject()); mkdir.setTaskName(getTaskName() + " - mkdir"); mkdir.setDir(dir); mkdir.execute(); return result; } /** * @throw BuildException if options conflict */ protected void verifyOptions() { StringBuffer sb = new StringBuffer(); if (fork && isInIncrementalMode() && !isInIncrementalFileMode()) { sb.append("can fork incremental only using tag file.\n"); } if (((null != inpathDirCopyFilter) || (null != sourceRootCopyFilter)) && (null == outjar) && (DEFAULT_DESTDIR == destDir)) { final String REQ = " requires dest dir or output jar.\n"; if (null == inpathDirCopyFilter) { sb.append("sourceRootCopyFilter"); } else if (null == sourceRootCopyFilter) { sb.append("inpathDirCopyFilter"); } else { sb.append("sourceRootCopyFilter and inpathDirCopyFilter"); } sb.append(REQ); } if (0 < sb.length()) { throw new BuildException(sb.toString()); } } /** * Run the compile in the same VM by loading the compiler (Main), setting up any message holders, doing the compile, and * converting abort/failure and error messages to BuildException, as appropriate. * * @throws BuildException if abort or failure messages or if errors and failonerror. * */ protected void executeInSameVM(String[] args) { if (null != maxMem) { log("maxMem ignored unless forked: " + maxMem, Project.MSG_WARN); } IMessageHolder holder = messageHolder; int numPreviousErrors; if (null == holder) { MessageHandler mhandler = new MessageHandler(true); final IMessageHandler delegate; delegate = new AntMessageHandler(this.logger, this.verbose, false); mhandler.setInterceptor(delegate); holder = mhandler; numPreviousErrors = 0; } else { numPreviousErrors = holder.numMessages(IMessage.ERROR, true); } { Main newmain = new Main(); newmain.setHolder(holder); newmain.setCompletionRunner(new Runnable() { public void run() { doCompletionTasks(); } }); if (null != main) { MessageUtil.fail(holder, "still running prior main"); return; } main = newmain; } main.runMain(args, false); if (failonerror) { int errs = holder.numMessages(IMessage.ERROR, false); errs -= numPreviousErrors; if (0 < errs) { String m = errs + " errors"; MessageUtil.print(System.err, holder, "", MessageUtil.MESSAGE_ALL, MessageUtil.PICK_ERROR, true); throw new BuildException(m); } } // Throw BuildException if there are any fail or abort // messages. // The BuildException message text has a list of class names // for the exceptions found in the messages, or the // number of fail/abort messages found if there were // no exceptions for any of the fail/abort messages. // The interceptor message handler should have already // printed the messages, including any stack traces. // HACK: this ignores the Usage message { IMessage[] fails = holder.getMessages(IMessage.FAIL, true); if (!LangUtil.isEmpty(fails)) { StringBuffer sb = new StringBuffer(); String prefix = "fail due to "; int numThrown = 0; for (int i = 0; i < fails.length; i++) { String message = fails[i].getMessage(); if (LangUtil.isEmpty(message)) { message = ""; } else if (-1 != message.indexOf(USAGE_SUBSTRING)) { continue; } Throwable t = fails[i].getThrown(); if (null != t) { numThrown++; sb.append(prefix); sb.append(LangUtil.unqualifiedClassName(t.getClass())); String thrownMessage = t.getMessage(); if (!LangUtil.isEmpty(thrownMessage)) { sb.append(" \"" + thrownMessage + "\""); } } sb.append("\"" + message + "\""); prefix = ", "; } if (0 < sb.length()) { sb.append(" (" + numThrown + " exceptions)"); throw new BuildException(sb.toString()); } } } } /** * Execute in a separate VM. Differences from normal same-VM execution: * *
* * @param args String[] of the complete compiler command to execute * * @see DefaultCompilerAdapter#executeExternalCompile(String[], int) * @throws BuildException if ajc aborts (negative value) or if failonerror and there were compile errors. */ protected void executeInOtherVM(String[] args) { javaCmd.setClassname(org.aspectj.tools.ajc.Main.class.getName()); final Path vmClasspath = javaCmd.createClasspath(getProject()); { File aspectjtools = null; int vmClasspathSize = vmClasspath.size(); if ((null != forkclasspath) && (0 != forkclasspath.size())) { vmClasspath.addExisting(forkclasspath); } else { aspectjtools = findAspectjtoolsJar(); if (null != aspectjtools) { vmClasspath.createPathElement().setLocation(aspectjtools); } } int newVmClasspathSize = vmClasspath.size(); if (vmClasspathSize == newVmClasspathSize) { String m = "unable to find aspectjtools to fork - "; if (null != aspectjtools) { m += "tried " + aspectjtools.toString(); } else if (null != forkclasspath) { m += "tried " + forkclasspath.toString(); } else { m += "define forkclasspath or put aspectjtools on classpath"; } throw new BuildException(m); } } if (null != maxMem) { javaCmd.setMaxmemory(maxMem); } File tempFile = null; int numArgs = args.length; args = GuardedCommand.limitTo(args, MAX_COMMANDLINE, getLocation()); if (args.length != numArgs) { tempFile = new File(args[1]); } try { boolean setMessageHolderOnForking = (this.messageHolder != null); String[] javaArgs = javaCmd.getCommandline(); String[] both = new String[javaArgs.length + args.length + (setMessageHolderOnForking ? 2 : 0)]; System.arraycopy(javaArgs, 0, both, 0, javaArgs.length); System.arraycopy(args, 0, both, javaArgs.length, args.length); if (setMessageHolderOnForking) { both[both.length - 2] = "-messageHolder"; both[both.length - 1] = this.messageHolder.getClass().getName(); } // try to use javaw instead on windows if (both[0].endsWith("java.exe")) { String path = both[0]; path = path.substring(0, path.length() - 4); path = path + "w.exe"; File javaw = new File(path); if (javaw.canRead() && javaw.isFile()) { both[0] = path; } } logVerbose("forking " + Arrays.asList(both)); int result = execInOtherVM(both); if (0 > result) { throw new BuildException("failure[" + result + "] running ajc"); } else if (failonerror && (0 < result)) { throw new BuildException("compile errors: " + result); } // when forking, do completion only at end and when successful doCompletionTasks(); } finally { if (null != tempFile) { tempFile.delete(); } } } /** * Execute in another process using the same JDK and the base directory of the project. XXX correct? * * @param args * @return */ protected int execInOtherVM(String[] args) { try { Project project = getProject(); PumpStreamHandler handler = new LogStreamHandler(this, verbose ? Project.MSG_VERBOSE : Project.MSG_INFO, Project.MSG_WARN); // replace above two lines with what follows as an aid to debugging when running the unit tests.... // LogStreamHandler handler = new LogStreamHandler(this, // Project.MSG_INFO, Project.MSG_WARN) { // // ByteArrayOutputStream baos = new ByteArrayOutputStream(); // /* (non-Javadoc) // * @see org.apache.tools.ant.taskdefs.PumpStreamHandler#createProcessOutputPump(java.io.InputStream, // java.io.OutputStream) // */ // protected void createProcessErrorPump(InputStream is, // OutputStream os) { // super.createProcessErrorPump(is, baos); // } // // /* (non-Javadoc) // * @see org.apache.tools.ant.taskdefs.LogStreamHandler#stop() // */ // public void stop() { // byte[] written = baos.toByteArray(); // System.err.print(new String(written)); // super.stop(); // } // }; Execute exe = new Execute(handler); exe.setAntRun(project); exe.setWorkingDirectory(project.getBaseDir()); exe.setCommandline(args); try { if (executingInOtherVM) { String s = "already running in other vm?"; throw new BuildException(s, location); } executingInOtherVM = true; exe.execute(); } finally { executingInOtherVM = false; } return exe.getExitValue(); } catch (IOException e) { String m = "Error executing command " + Arrays.asList(args); throw new BuildException(m, e, location); } } // ------------------------------ setup and reporting /** @return null if path null or empty, String rendition otherwise */ protected static void addFlaggedPath(String flag, Path path, List list) { if (!LangUtil.isEmpty(flag) && ((null != path) && (0 < path.size()))) { list.add(flag); list.add(path.toString()); } } /** * Add to list any path or plural arguments. */ protected void addListArgs(List list) throws BuildException { addFlaggedPath("-classpath", classpath, list); addFlaggedPath("-bootclasspath", bootclasspath, list); addFlaggedPath("-extdirs", extdirs, list); addFlaggedPath("-aspectpath", aspectpath, list); addFlaggedPath("-injars", injars, list); addFlaggedPath("-inpath", inpath, list); addFlaggedPath("-sourceroots", sourceRoots, list); if (argfiles != null) { String[] files = argfiles.list(); for (int i = 0; i < files.length; i++) { File argfile = project.resolveFile(files[i]); if (check(argfile, files[i], false, location)) { list.add("-argfile"); list.add(argfile.getAbsolutePath()); } } } if (inxmlfiles != null) { String[] files = inxmlfiles.list(); for (int i = 0; i < files.length; i++) { File inxmlfile = project.resolveFile(files[i]); if (check(inxmlfile, files[i], false, location)) { list.add("-xmlConfigured"); list.add(inxmlfile.getAbsolutePath()); } } } if (srcdir != null) { // todo: ignore any srcdir if any argfiles and no explicit includes String[] dirs = srcdir.list(); for (int i = 0; i < dirs.length; i++) { File dir = project.resolveFile(dirs[i]); check(dir, dirs[i], true, location); // relies on compiler to prune non-source files String[] files = getDirectoryScanner(dir).getIncludedFiles(); for (int j = 0; j < files.length; j++) { File file = new File(dir, files[j]); if (FileUtil.hasSourceSuffix(file)) { if (!list.contains(file.getAbsolutePath())) { list.add(file.getAbsolutePath()); } } } } } if (0 < adapterFiles.size()) { for (Iterator iter = adapterFiles.iterator(); iter.hasNext();) { File file = (File) iter.next(); if (file.canRead() && FileUtil.hasSourceSuffix(file)) { list.add(file.getAbsolutePath()); } else { this.logger.warning("skipping file: " + file); } } } } /** * Throw BuildException unless file is valid. * * @param file the File to check * @param name the symbolic name to print on error * @param isDir if true, verify file is a directory * @param loc the Location used to create sensible BuildException * @return * @throws BuildException unless file valid */ protected final boolean check(File file, String name, boolean isDir, Location loc) { loc = loc != null ? loc : location; if (file == null) { throw new BuildException(name + " is null!", loc); } if (!file.exists()) { throw new BuildException(file + " doesn't exist!", loc); } if (isDir ^ file.isDirectory()) { String e = file + " should" + (isDir ? "" : "n't") + " be a directory!"; throw new BuildException(e, loc); } return true; } /** * Called when compile or incremental compile is completing, this completes the output jar or directory by copying resources if * requested. Note: this is a callback run synchronously by the compiler. That means exceptions thrown here are caught by * Main.run(..) and passed to the message handler. */ protected void doCompletionTasks() { if (!executing) { throw new IllegalStateException("should be executing"); } if (null != outjar) { completeOutjar(); } else { completeDestdir(); } if (null != xdoneSignal) { MessageUtil.info(messageHolder, xdoneSignal); } } /** * Complete the destination directory by copying resources from the source root directories (if the filter is specified) and * non-.class files from the input jars (if XCopyInjars is enabled). */ private void completeDestdir() { if (!copyInjars && (null == sourceRootCopyFilter) && (null == inpathDirCopyFilter)) { return; } else if ((destDir == DEFAULT_DESTDIR) || !destDir.canWrite()) { String s = "unable to copy resources to destDir: " + destDir; throw new BuildException(s); } final Project project = getProject(); if (copyInjars) { // XXXX remove as unused since 1.1.1 if (null != inpath) { log("copyInjars does not support inpath.\n", Project.MSG_WARN); } String taskName = getTaskName() + " - unzip"; String[] paths = injars.list(); if (!LangUtil.isEmpty(paths)) { PatternSet patternSet = new PatternSet(); patternSet.setProject(project); patternSet.setIncludes("**/*"); patternSet.setExcludes("**/*.class"); for (int i = 0; i < paths.length; i++) { Expand unzip = new Expand(); unzip.setProject(project); unzip.setTaskName(taskName); unzip.setDest(destDir); unzip.setSrc(new File(paths[i])); unzip.addPatternset(patternSet); unzip.execute(); } } } if ((null != sourceRootCopyFilter) && (null != sourceRoots)) { String[] paths = sourceRoots.list(); if (!LangUtil.isEmpty(paths)) { Copy copy = new Copy(); copy.setProject(project); copy.setTodir(destDir); for (int i = 0; i < paths.length; i++) { FileSet fileSet = new FileSet(); fileSet.setDir(new File(paths[i])); fileSet.setIncludes("**/*"); fileSet.setExcludes(sourceRootCopyFilter); copy.addFileset(fileSet); } copy.execute(); } } if ((null != inpathDirCopyFilter) && (null != inpath)) { String[] paths = inpath.list(); if (!LangUtil.isEmpty(paths)) { Copy copy = new Copy(); copy.setProject(project); copy.setTodir(destDir); boolean gotDir = false; for (int i = 0; i < paths.length; i++) { File inpathDir = new File(paths[i]); if (inpathDir.isDirectory() && inpathDir.canRead()) { if (!gotDir) { gotDir = true; } FileSet fileSet = new FileSet(); fileSet.setDir(inpathDir); fileSet.setIncludes("**/*"); fileSet.setExcludes(inpathDirCopyFilter); copy.addFileset(fileSet); } } if (gotDir) { copy.execute(); } } } } /** * Complete the output jar by copying resources from the source root directories if the filter is specified. and non-.class * files from the input jars if enabled. */ private void completeOutjar() { if (((null == tmpOutjar) || !tmpOutjar.canRead()) || (!copyInjars && (null == sourceRootCopyFilter) && (null == inpathDirCopyFilter))) { return; } Zip zip = new Zip(); Project project = getProject(); zip.setProject(project); zip.setTaskName(getTaskName() + " - zip"); zip.setDestFile(outjar); ZipFileSet zipfileset = new ZipFileSet(); zipfileset.setProject(project); zipfileset.setSrc(tmpOutjar); zipfileset.setIncludes("**/*.class"); zip.addZipfileset(zipfileset); if (copyInjars) { String[] paths = injars.list(); if (!LangUtil.isEmpty(paths)) { for (int i = 0; i < paths.length; i++) { File jarFile = new File(paths[i]); zipfileset = new ZipFileSet(); zipfileset.setProject(project); zipfileset.setSrc(jarFile); zipfileset.setIncludes("**/*"); zipfileset.setExcludes("**/*.class"); zip.addZipfileset(zipfileset); } } } if ((null != sourceRootCopyFilter) && (null != sourceRoots)) { String[] paths = sourceRoots.list(); if (!LangUtil.isEmpty(paths)) { for (int i = 0; i < paths.length; i++) { File srcRoot = new File(paths[i]); FileSet fileset = new FileSet(); fileset.setProject(project); fileset.setDir(srcRoot); fileset.setIncludes("**/*"); fileset.setExcludes(sourceRootCopyFilter); zip.addFileset(fileset); } } } if ((null != inpathDirCopyFilter) && (null != inpath)) { String[] paths = inpath.list(); if (!LangUtil.isEmpty(paths)) { for (int i = 0; i < paths.length; i++) { File inpathDir = new File(paths[i]); if (inpathDir.isDirectory() && inpathDir.canRead()) { FileSet fileset = new FileSet(); fileset.setProject(project); fileset.setDir(inpathDir); fileset.setIncludes("**/*"); fileset.setExcludes(inpathDirCopyFilter); zip.addFileset(fileset); } } } } zip.execute(); } // -------------------------- compiler adapter interface extras /** * Add specified source files. */ void addFiles(File[] paths) { for (int i = 0; i < paths.length; i++) { addFile(paths[i]); } } /** * Add specified source file. */ void addFile(File path) { if (null != path) { adapterFiles.add(path); } } /** * Read arguments in as if from a command line, mainly to support compiler adapter compilerarg subelement. * * @param args the String[] of arguments to read */ public void readArguments(String[] args) { // XXX slow, stupid, unmaintainable if ((null == args) || (0 == args.length)) { return; } /** String[] wrapper with increment, error reporting */ class Args { final String[] args; int index = 0; Args(String[] args) { this.args = args; // not null or empty } boolean hasNext() { return index < args.length; } String next() { String err = null; if (!hasNext()) { err = "need arg for flag " + args[args.length - 1]; } else { String s = args[index++]; if (null == s) { err = "null value"; } else { s = s.trim(); if (0 == s.trim().length()) { err = "no value"; } else { return s; } } } err += " at [" + index + "] of " + Arrays.asList(args); throw new BuildException(err); } } // class Args Args in = new Args(args); String flag; while (in.hasNext()) { flag = in.next(); if ("-1.3".equals(flag)) { setCompliance(flag); } else if ("-1.4".equals(flag)) { setCompliance(flag); } else if ("-1.5".equals(flag)) { setCompliance("1.5"); } else if ("-argfile".equals(flag)) { setArgfiles(new Path(project, in.next())); } else if ("-aspectpath".equals(flag)) { setAspectpath(new Path(project, in.next())); } else if ("-classpath".equals(flag)) { setClasspath(new Path(project, in.next())); } else if ("-extdirs".equals(flag)) { setExtdirs(new Path(project, in.next())); } else if ("-Xcopyinjars".equals(flag)) { setCopyInjars(true); // ignored - will be flagged by setter } else if ("-g".equals(flag)) { setDebug(true); } else if (flag.startsWith("-g:")) { setDebugLevel(flag.substring(2)); } else if ("-deprecation".equals(flag)) { setDeprecation(true); } else if ("-d".equals(flag)) { setDestdir(new File(in.next())); } else if ("-crossrefs".equals(flag)) { setCrossrefs(true); } else if ("-emacssym".equals(flag)) { setEmacssym(true); } else if ("-encoding".equals(flag)) { setEncoding(in.next()); } else if ("-Xfailonerror".equals(flag)) { setFailonerror(true); } else if ("-fork".equals(flag)) { setFork(true); } else if ("-forkclasspath".equals(flag)) { setForkclasspath(new Path(project, in.next())); } else if ("-help".equals(flag)) { setHelp(true); } else if ("-incremental".equals(flag)) { setIncremental(true); } else if ("-injars".equals(flag)) { setInjars(new Path(project, in.next())); } else if ("-inpath".equals(flag)) { setInpath(new Path(project, in.next())); } else if ("-Xlistfileargs".equals(flag)) { setListFileArgs(true); } else if ("-Xmaxmem".equals(flag)) { setMaxmem(in.next()); } else if ("-Xmessageholderclass".equals(flag)) { setMessageHolderClass(in.next()); } else if ("-noexit".equals(flag)) { setNoExit(true); } else if ("-noimport".equals(flag)) { setNoExit(true); } else if ("-noExit".equals(flag)) { setNoExit(true); } else if ("-noImportError".equals(flag)) { setNoImportError(true); } else if ("-noWarn".equals(flag)) { setNowarn(true); } else if ("-noexit".equals(flag)) { setNoExit(true); } else if ("-outjar".equals(flag)) { setOutjar(new File(in.next())); } else if ("-outxml".equals(flag)) { setOutxml(true); } else if ("-outxmlfile".equals(flag)) { setOutxmlfile(in.next()); } else if ("-preserveAllLocals".equals(flag)) { setPreserveAllLocals(true); } else if ("-proceedOnError".equals(flag)) { setProceedOnError(true); } else if ("-referenceInfo".equals(flag)) { setReferenceInfo(true); } else if ("-source".equals(flag)) { setSource(in.next()); } else if ("-Xsourcerootcopyfilter".equals(flag)) { setSourceRootCopyFilter(in.next()); } else if ("-sourceroots".equals(flag)) { setSourceRoots(new Path(project, in.next())); } else if ("-Xsrcdir".equals(flag)) { setSrcDir(new Path(project, in.next())); } else if ("-Xtagfile".equals(flag)) { setTagFile(new File(in.next())); } else if ("-target".equals(flag)) { setTarget(in.next()); } else if ("-time".equals(flag)) { setTime(true); } else if ("-time".equals(flag)) { setTime(true); } else if ("-verbose".equals(flag)) { setVerbose(true); } else if ("-showWeaveInfo".equals(flag)) { setShowWeaveInfo(true); } else if ("-version".equals(flag)) { setVersion(true); } else if ("-warn".equals(flag)) { setWarn(in.next()); } else if (flag.startsWith("-warn:")) { setWarn(flag.substring(6)); } else if ("-Xlint".equals(flag)) { setXlintwarnings(true); } else if (flag.startsWith("-Xlint:")) { setXlint(flag.substring(7)); } else if ("-Xlintfile".equals(flag)) { setXlintfile(new File(in.next())); } else if ("-XterminateAfterCompilation".equals(flag)) { setXTerminateAfterCompilation(true); } else if ("-Xreweavable".equals(flag)) { setXReweavable(true); } else if ("-XnotReweavable".equals(flag)) { setXNotReweavable(true); } else if (flag.startsWith("@")) { File file = new File(flag.substring(1)); if (file.canRead()) { setArgfiles(new Path(project, file.getPath())); } else { ignore(flag); } } else { File file = new File(flag); if (file.isFile() && file.canRead() && FileUtil.hasSourceSuffix(file)) { addFile(file); } else { ignore(flag); } } } } protected void logVerbose(String text) { if (this.verbose) { this.logger.info(text); } else { this.logger.verbose(text); } } /** * Commandline wrapper that only permits addition of non-empty values and converts to argfile form if necessary. */ public static class GuardedCommand { Commandline command; // int size; static boolean isEmpty(String s) { return ((null == s) || (0 == s.trim().length())); } GuardedCommand() { command = new Commandline(); } void addFlag(String flag, boolean doAdd) { if (doAdd && !isEmpty(flag)) { command.createArgument().setValue(flag); // size += 1 + flag.length(); } } /** @return null if added or ignoreString otherwise */ String addOption(String prefix, String[] validOptions, String input) { if (isEmpty(input)) { return null; } for (int i = 0; i < validOptions.length; i++) { if (input.equals(validOptions[i])) { if (isEmpty(prefix)) { addFlag(input, true); } else { addFlagged(prefix, input); } return null; } } return (null == prefix ? input : prefix + " " + input); } void addFlagged(String flag, String argument) { if (!isEmpty(flag) && !isEmpty(argument)) { command.addArguments(new String[] { flag, argument }); // size += 1 + flag.length() + argument.length(); } } // private void addFile(File file) { // if (null != file) { // String path = file.getAbsolutePath(); // addFlag(path, true); // } // } List extractArguments() { ArrayList result = new ArrayList(); String[] cmds = command.getArguments(); if (!LangUtil.isEmpty(cmds)) { result.addAll(Arrays.asList(cmds)); } return result; } /** * Adjust args for size if necessary by creating an argument file, which should be deleted by the client after the compiler * run has completed. * * @param max the int maximum length of the command line (in char) * @return the temp File for the arguments (if generated), for deletion when done. * @throws IllegalArgumentException if max is negative */ static String[] limitTo(String[] args, int max, Location location) { if (max < 0) { throw new IllegalArgumentException("negative max: " + max); } // sigh - have to count anyway for now int size = 0; for (int i = 0; (i < args.length) && (size < max); i++) { size += 1 + (null == args[i] ? 0 : args[i].length()); } if (size <= max) { return args; } File tmpFile = null; PrintWriter out = null; // adapted from DefaultCompilerAdapter.executeExternalCompile try { String userDirName = System.getProperty("user.dir"); File userDir = new File(userDirName); tmpFile = File.createTempFile("argfile", "", userDir); out = new PrintWriter(new FileWriter(tmpFile)); for (int i = 0; i < args.length; i++) { out.println(args[i]); } out.flush(); return new String[] { "-argfile", tmpFile.getAbsolutePath() }; } catch (IOException e) { throw new BuildException("Error creating temporary file", e, location); } finally { if (out != null) { try { out.close(); } catch (Throwable t) { } } } } } private static class AntMessageHandler implements IMessageHandler { private TaskLogger logger; private final boolean taskLevelVerbose; private final boolean handledMessage; public AntMessageHandler(TaskLogger logger, boolean taskVerbose, boolean handledMessage) { this.logger = logger; this.taskLevelVerbose = taskVerbose; this.handledMessage = handledMessage; } /* * (non-Javadoc) * * @see org.aspectj.bridge.IMessageHandler#handleMessage(org.aspectj.bridge.IMessage) */ public boolean handleMessage(IMessage message) throws AbortException { Kind messageKind = message.getKind(); String messageText = message.toString(); if (messageKind == IMessage.ABORT) { this.logger.error(messageText); } else if (messageKind == IMessage.DEBUG) { this.logger.debug(messageText); } else if (messageKind == IMessage.ERROR) { this.logger.error(messageText); } else if (messageKind == IMessage.FAIL) { this.logger.error(messageText); } else if (messageKind == IMessage.INFO) { if (this.taskLevelVerbose) { this.logger.info(messageText); } else { this.logger.verbose(messageText); } } else if (messageKind == IMessage.WARNING) { this.logger.warning(messageText); } else if (messageKind == IMessage.WEAVEINFO) { this.logger.info(messageText); } else if (messageKind == IMessage.TASKTAG) { // ignore } else { throw new BuildException("Unknown message kind from AspectJ compiler: " + messageKind.toString()); } return handledMessage; } /* * (non-Javadoc) * * @see org.aspectj.bridge.IMessageHandler#isIgnoring(org.aspectj.bridge.IMessage.Kind) */ public boolean isIgnoring(Kind kind) { return false; } /* * (non-Javadoc) * * @see org.aspectj.bridge.IMessageHandler#dontIgnore(org.aspectj.bridge.IMessage.Kind) */ public void dontIgnore(Kind kind) { } /* * (non-Javadoc) * * @see org.aspectj.bridge.IMessageHandler#ignore(org.aspectj.bridge.IMessage.Kind) */ public void ignore(Kind kind) { } } }- ignores any message holder {class} set
*- No resource-copying between interative runs
*- failonerror fails when process interface fails to return negative values
*