use of org.codehaus.plexus.compiler.CompilerResult in project maven-plugins by apache.
the class CompilerStub method performCompile.
public CompilerResult performCompile(CompilerConfiguration compilerConfiguration) throws CompilerException {
File outputDir = new File(compilerConfiguration.getOutputLocation());
try {
outputDir.mkdirs();
File outputFile = new File(outputDir, "compiled.class");
if (!outputFile.exists() && !outputFile.createNewFile()) {
throw new CompilerException("could not create output file: " + outputFile.getAbsolutePath());
}
} catch (IOException e) {
throw new CompilerException("An exception occurred while creating output file", e);
}
return new CompilerResult(!shouldFail, Collections.singletonList(new CompilerMessage("message 1", CompilerMessage.Kind.OTHER)));
}
use of org.codehaus.plexus.compiler.CompilerResult in project maven-plugins by apache.
the class AbstractCompilerMojo method execute.
@Override
public void execute() throws MojoExecutionException, CompilationFailureException {
// ----------------------------------------------------------------------
// Look up the compiler. This is done before other code than can
// cause the mojo to return before the lookup is done possibly resulting
// in misconfigured POMs still building.
// ----------------------------------------------------------------------
Compiler compiler;
getLog().debug("Using compiler '" + compilerId + "'.");
try {
compiler = compilerManager.getCompiler(compilerId);
} catch (NoSuchCompilerException e) {
throw new MojoExecutionException("No such compiler '" + e.getCompilerId() + "'.");
}
//-----------toolchains start here ----------------------------------
//use the compilerId as identifier for toolchains as well.
Toolchain tc = getToolchain();
if (tc != null) {
getLog().info("Toolchain in maven-compiler-plugin: " + tc);
if (executable != null) {
getLog().warn("Toolchains are ignored, 'executable' parameter is set to " + executable);
} else {
fork = true;
//TODO somehow shaky dependency between compilerId and tool executable.
executable = tc.findTool(compilerId);
}
}
// ----------------------------------------------------------------------
//
// ----------------------------------------------------------------------
List<String> compileSourceRoots = removeEmptyCompileSourceRoots(getCompileSourceRoots());
if (compileSourceRoots.isEmpty()) {
getLog().info("No sources to compile");
return;
}
// ----------------------------------------------------------------------
// Create the compiler configuration
// ----------------------------------------------------------------------
CompilerConfiguration compilerConfiguration = new CompilerConfiguration();
compilerConfiguration.setOutputLocation(getOutputDirectory().getAbsolutePath());
compilerConfiguration.setOptimize(optimize);
compilerConfiguration.setDebug(debug);
if (debug && StringUtils.isNotEmpty(debuglevel)) {
String[] split = StringUtils.split(debuglevel, ",");
for (String aSplit : split) {
if (!(aSplit.equalsIgnoreCase("none") || aSplit.equalsIgnoreCase("lines") || aSplit.equalsIgnoreCase("vars") || aSplit.equalsIgnoreCase("source"))) {
throw new IllegalArgumentException("The specified debug level: '" + aSplit + "' is unsupported. " + "Legal values are 'none', 'lines', 'vars', and 'source'.");
}
}
compilerConfiguration.setDebugLevel(debuglevel);
}
compilerConfiguration.setParameters(parameters);
compilerConfiguration.setVerbose(verbose);
compilerConfiguration.setShowWarnings(showWarnings);
compilerConfiguration.setFailOnWarning(failOnWarning);
compilerConfiguration.setShowDeprecation(showDeprecation);
compilerConfiguration.setSourceVersion(getSource());
compilerConfiguration.setTargetVersion(getTarget());
compilerConfiguration.setReleaseVersion(getRelease());
compilerConfiguration.setProc(proc);
File generatedSourcesDirectory = getGeneratedSourcesDirectory();
compilerConfiguration.setGeneratedSourcesDirectory(generatedSourcesDirectory != null ? generatedSourcesDirectory.getAbsoluteFile() : null);
if (generatedSourcesDirectory != null) {
String generatedSourcesPath = generatedSourcesDirectory.getAbsolutePath();
compileSourceRoots.add(generatedSourcesPath);
if (isTestCompile()) {
getLog().debug("Adding " + generatedSourcesPath + " to test-compile source roots:\n " + StringUtils.join(project.getTestCompileSourceRoots().iterator(), "\n "));
project.addTestCompileSourceRoot(generatedSourcesPath);
getLog().debug("New test-compile source roots:\n " + StringUtils.join(project.getTestCompileSourceRoots().iterator(), "\n "));
} else {
getLog().debug("Adding " + generatedSourcesPath + " to compile source roots:\n " + StringUtils.join(project.getCompileSourceRoots().iterator(), "\n "));
project.addCompileSourceRoot(generatedSourcesPath);
getLog().debug("New compile source roots:\n " + StringUtils.join(project.getCompileSourceRoots().iterator(), "\n "));
}
}
compilerConfiguration.setSourceLocations(compileSourceRoots);
compilerConfiguration.setAnnotationProcessors(annotationProcessors);
compilerConfiguration.setProcessorPathEntries(resolveProcessorPathEntries());
compilerConfiguration.setSourceEncoding(encoding);
compilerConfiguration.setFork(fork);
if (fork) {
if (!StringUtils.isEmpty(meminitial)) {
String value = getMemoryValue(meminitial);
if (value != null) {
compilerConfiguration.setMeminitial(value);
} else {
getLog().info("Invalid value for meminitial '" + meminitial + "'. Ignoring this option.");
}
}
if (!StringUtils.isEmpty(maxmem)) {
String value = getMemoryValue(maxmem);
if (value != null) {
compilerConfiguration.setMaxmem(value);
} else {
getLog().info("Invalid value for maxmem '" + maxmem + "'. Ignoring this option.");
}
}
}
compilerConfiguration.setExecutable(executable);
compilerConfiguration.setWorkingDirectory(basedir);
compilerConfiguration.setCompilerVersion(compilerVersion);
compilerConfiguration.setBuildDirectory(buildDirectory);
compilerConfiguration.setOutputFileName(outputFileName);
if (CompilerConfiguration.CompilerReuseStrategy.AlwaysNew.getStrategy().equals(this.compilerReuseStrategy)) {
compilerConfiguration.setCompilerReuseStrategy(CompilerConfiguration.CompilerReuseStrategy.AlwaysNew);
} else if (CompilerConfiguration.CompilerReuseStrategy.ReuseSame.getStrategy().equals(this.compilerReuseStrategy)) {
if (getRequestThreadCount() > 1) {
if (!skipMultiThreadWarning) {
getLog().warn("You are in a multi-thread build and compilerReuseStrategy is set to reuseSame." + " This can cause issues in some environments (os/jdk)!" + " Consider using reuseCreated strategy." + System.getProperty("line.separator") + "If your env is fine with reuseSame, you can skip this warning with the " + "configuration field skipMultiThreadWarning " + "or -Dmaven.compiler.skipMultiThreadWarning=true");
}
}
compilerConfiguration.setCompilerReuseStrategy(CompilerConfiguration.CompilerReuseStrategy.ReuseSame);
} else {
compilerConfiguration.setCompilerReuseStrategy(CompilerConfiguration.CompilerReuseStrategy.ReuseCreated);
}
getLog().debug("CompilerReuseStrategy: " + compilerConfiguration.getCompilerReuseStrategy().getStrategy());
compilerConfiguration.setForceJavacCompilerUse(forceJavacCompilerUse);
boolean canUpdateTarget;
IncrementalBuildHelper incrementalBuildHelper = new IncrementalBuildHelper(mojoExecution, session);
Set<File> sources;
IncrementalBuildHelperRequest incrementalBuildHelperRequest = null;
if (useIncrementalCompilation) {
getLog().debug("useIncrementalCompilation enabled");
try {
canUpdateTarget = compiler.canUpdateTarget(compilerConfiguration);
sources = getCompileSources(compiler, compilerConfiguration);
preparePaths(sources);
incrementalBuildHelperRequest = new IncrementalBuildHelperRequest().inputFiles(sources);
// CHECKSTYLE_OFF: LineLength
if ((compiler.getCompilerOutputStyle().equals(CompilerOutputStyle.ONE_OUTPUT_FILE_FOR_ALL_INPUT_FILES) && !canUpdateTarget) || isDependencyChanged() || isSourceChanged(compilerConfiguration, compiler) || incrementalBuildHelper.inputFileTreeChanged(incrementalBuildHelperRequest)) // CHECKSTYLE_ON: LineLength
{
getLog().info("Changes detected - recompiling the module!");
compilerConfiguration.setSourceFiles(sources);
} else {
getLog().info("Nothing to compile - all classes are up to date");
return;
}
} catch (CompilerException e) {
throw new MojoExecutionException("Error while computing stale sources.", e);
}
} else {
getLog().debug("useIncrementalCompilation disabled");
Set<File> staleSources;
try {
staleSources = computeStaleSources(compilerConfiguration, compiler, getSourceInclusionScanner(staleMillis));
canUpdateTarget = compiler.canUpdateTarget(compilerConfiguration);
if (compiler.getCompilerOutputStyle().equals(CompilerOutputStyle.ONE_OUTPUT_FILE_FOR_ALL_INPUT_FILES) && !canUpdateTarget) {
getLog().info("RESCANNING!");
// TODO: This second scan for source files is sub-optimal
String inputFileEnding = compiler.getInputFileEnding(compilerConfiguration);
sources = computeStaleSources(compilerConfiguration, compiler, getSourceInclusionScanner(inputFileEnding));
compilerConfiguration.setSourceFiles(sources);
} else {
compilerConfiguration.setSourceFiles(staleSources);
}
preparePaths(compilerConfiguration.getSourceFiles());
} catch (CompilerException e) {
throw new MojoExecutionException("Error while computing stale sources.", e);
}
if (staleSources.isEmpty()) {
getLog().info("Nothing to compile - all classes are up to date");
return;
}
}
// Dividing pathElements of classPath and modulePath is based on sourceFiles
compilerConfiguration.setClasspathEntries(getClasspathElements());
compilerConfiguration.setModulepathEntries(getModulepathElements());
Map<String, String> effectiveCompilerArguments = getCompilerArguments();
String effectiveCompilerArgument = getCompilerArgument();
if ((effectiveCompilerArguments != null) || (effectiveCompilerArgument != null) || (compilerArgs != null)) {
if (effectiveCompilerArguments != null) {
for (Map.Entry<String, String> me : effectiveCompilerArguments.entrySet()) {
String key = me.getKey();
String value = me.getValue();
if (!key.startsWith("-")) {
key = "-" + key;
}
if (key.startsWith("-A") && StringUtils.isNotEmpty(value)) {
compilerConfiguration.addCompilerCustomArgument(key + "=" + value, null);
} else {
compilerConfiguration.addCompilerCustomArgument(key, value);
}
}
}
if (!StringUtils.isEmpty(effectiveCompilerArgument)) {
compilerConfiguration.addCompilerCustomArgument(effectiveCompilerArgument, null);
}
if (compilerArgs != null) {
for (String arg : compilerArgs) {
compilerConfiguration.addCompilerCustomArgument(arg, null);
}
}
}
// ----------------------------------------------------------------------
if (getLog().isDebugEnabled()) {
getLog().debug("Classpath:");
for (String s : getClasspathElements()) {
getLog().debug(" " + s);
}
if (!getModulepathElements().isEmpty()) {
getLog().debug("Modulepath:");
for (String s : getModulepathElements()) {
getLog().debug(" " + s);
}
}
getLog().debug("Source roots:");
for (String root : getCompileSourceRoots()) {
getLog().debug(" " + root);
}
try {
if (fork) {
if (compilerConfiguration.getExecutable() != null) {
getLog().debug("Excutable: ");
getLog().debug(" " + compilerConfiguration.getExecutable());
}
}
String[] cl = compiler.createCommandLine(compilerConfiguration);
if (getLog().isDebugEnabled() && cl != null && cl.length > 0) {
StringBuilder sb = new StringBuilder();
sb.append(cl[0]);
for (int i = 1; i < cl.length; i++) {
sb.append(" ");
sb.append(cl[i]);
}
getLog().debug("Command line options:");
getLog().debug(sb);
}
} catch (CompilerException ce) {
getLog().debug(ce);
}
}
if (StringUtils.isEmpty(compilerConfiguration.getSourceEncoding())) {
getLog().warn("File encoding has not been set, using platform encoding " + ReaderFactory.FILE_ENCODING + ", i.e. build is platform dependent!");
}
CompilerResult compilerResult;
if (useIncrementalCompilation) {
incrementalBuildHelperRequest.outputDirectory(getOutputDirectory());
incrementalBuildHelper.beforeRebuildExecution(incrementalBuildHelperRequest);
getLog().debug("incrementalBuildHelper#beforeRebuildExecution");
}
try {
try {
compilerResult = compiler.performCompile(compilerConfiguration);
} catch (CompilerNotImplementedException cnie) {
List<CompilerError> messages = compiler.compile(compilerConfiguration);
compilerResult = convertToCompilerResult(messages);
}
} catch (Exception e) {
// TODO: don't catch Exception
throw new MojoExecutionException("Fatal error compiling", e);
}
if (useIncrementalCompilation) {
if (incrementalBuildHelperRequest.getOutputDirectory().exists()) {
getLog().debug("incrementalBuildHelper#afterRebuildExecution");
// now scan the same directory again and create a diff
incrementalBuildHelper.afterRebuildExecution(incrementalBuildHelperRequest);
} else {
getLog().debug("skip incrementalBuildHelper#afterRebuildExecution as the output directory doesn't exist");
}
}
List<CompilerMessage> warnings = new ArrayList<CompilerMessage>();
List<CompilerMessage> errors = new ArrayList<CompilerMessage>();
List<CompilerMessage> others = new ArrayList<CompilerMessage>();
for (CompilerMessage message : compilerResult.getCompilerMessages()) {
if (message.getKind() == CompilerMessage.Kind.ERROR) {
errors.add(message);
} else if (message.getKind() == CompilerMessage.Kind.WARNING || message.getKind() == CompilerMessage.Kind.MANDATORY_WARNING) {
warnings.add(message);
} else {
others.add(message);
}
}
if (failOnError && !compilerResult.isSuccess()) {
for (CompilerMessage message : others) {
assert message.getKind() != CompilerMessage.Kind.ERROR && message.getKind() != CompilerMessage.Kind.WARNING && message.getKind() != CompilerMessage.Kind.MANDATORY_WARNING;
getLog().info(message.toString());
}
if (!warnings.isEmpty()) {
getLog().info("-------------------------------------------------------------");
getLog().warn("COMPILATION WARNING : ");
getLog().info("-------------------------------------------------------------");
for (CompilerMessage warning : warnings) {
getLog().warn(warning.toString());
}
getLog().info(warnings.size() + ((warnings.size() > 1) ? " warnings " : " warning"));
getLog().info("-------------------------------------------------------------");
}
if (!errors.isEmpty()) {
getLog().info("-------------------------------------------------------------");
getLog().error("COMPILATION ERROR : ");
getLog().info("-------------------------------------------------------------");
for (CompilerMessage error : errors) {
getLog().error(error.toString());
}
getLog().info(errors.size() + ((errors.size() > 1) ? " errors " : " error"));
getLog().info("-------------------------------------------------------------");
}
if (!errors.isEmpty()) {
throw new CompilationFailureException(errors);
} else {
throw new CompilationFailureException(warnings);
}
} else {
for (CompilerMessage message : compilerResult.getCompilerMessages()) {
switch(message.getKind()) {
case NOTE:
case OTHER:
getLog().info(message.toString());
break;
case ERROR:
getLog().error(message.toString());
break;
case MANDATORY_WARNING:
case WARNING:
default:
getLog().warn(message.toString());
break;
}
}
}
}
use of org.codehaus.plexus.compiler.CompilerResult in project maven-plugins by apache.
the class AbstractCompilerMojo method convertToCompilerResult.
protected CompilerResult convertToCompilerResult(List<CompilerError> compilerErrors) {
if (compilerErrors == null) {
return new CompilerResult();
}
List<CompilerMessage> messages = new ArrayList<CompilerMessage>(compilerErrors.size());
boolean success = true;
for (CompilerError compilerError : compilerErrors) {
messages.add(new CompilerMessage(compilerError.getFile(), compilerError.getKind(), compilerError.getStartLine(), compilerError.getStartColumn(), compilerError.getEndLine(), compilerError.getEndColumn(), compilerError.getMessage()));
if (compilerError.isError()) {
success = false;
}
}
return new CompilerResult(success, messages);
}
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