use of com.sun.tools.javac.util.PropagatedException in project bazel by bazelbuild.
the class BlazeJavacMain method compile.
public static BlazeJavacResult compile(BlazeJavacArguments arguments) {
List<String> javacArguments = arguments.javacOptions();
try {
javacArguments = processPluginArgs(arguments.plugins(), javacArguments);
} catch (InvalidCommandLineException e) {
return BlazeJavacResult.error(e.getMessage());
}
Context context = new Context();
setupBlazeJavaCompiler(arguments.plugins(), context);
boolean ok = false;
StringWriter errOutput = new StringWriter();
// TODO(cushon): where is this used when a diagnostic listener is registered? Consider removing
// it and handling exceptions directly in callers.
PrintWriter errWriter = new PrintWriter(errOutput);
Listener diagnostics = new Listener(context);
BlazeJavaCompiler compiler;
try (JavacFileManager fileManager = new ClassloaderMaskingFileManager()) {
JavacTask task = JavacTool.create().getTask(errWriter, fileManager, diagnostics, javacArguments, ImmutableList.of(), /*classes*/
fileManager.getJavaFileObjectsFromPaths(arguments.sourceFiles()), context);
if (arguments.processors() != null) {
task.setProcessors(arguments.processors());
}
fileManager.setContext(context);
setLocations(fileManager, arguments);
try {
ok = task.call();
} catch (PropagatedException e) {
throw e.getCause();
}
} catch (Throwable t) {
t.printStackTrace(errWriter);
ok = false;
} finally {
compiler = (BlazeJavaCompiler) JavaCompiler.instance(context);
if (ok) {
// or empty source files.
if (compiler.skippedFlowEvents() > 0 && compiler.flowEvents() == 0) {
errWriter.println("Expected at least one FLOW event");
ok = false;
}
}
}
errWriter.flush();
return new BlazeJavacResult(ok, filterDiagnostics(diagnostics.build()), errOutput.toString(), compiler);
}
use of com.sun.tools.javac.util.PropagatedException in project ceylon-compiler by ceylon.
the class Main method compile.
/**
* Programmatic interface for main function.
* @param args The command line parameters.
*/
public int compile(String[] args, Context context, List<JavaFileObject> fileObjects, Iterable<? extends Processor> processors) {
if (options == null) {
// creates a new one
options = Options.instance(context);
}
filenames = new ListBuffer<File>();
classnames = new ListBuffer<String>();
exitState = null;
JavaCompiler comp = null;
/* TODO: Logic below about what is an acceptable command line should be
* updated to take annotation processing semantics into account. */
try {
if (args.length == 0 && fileObjects.isEmpty()) {
help();
this.exitState = ExitState.cmderror();
return EXIT_CMDERR;
}
List<File> filenames = processArgs(args);
if (filenames == null) {
// null signals an error in options, abort
this.exitState = ExitState.cmderror();
return EXIT_CMDERR;
} else if (filenames.isEmpty() && fileObjects.isEmpty() && classnames.isEmpty()) {
// or version info
if (options.get("-help") != null || options.get("-jhelp") != null || options.get("-X") != null || options.get("-version") != null || options.get("-fullversion") != null)
return EXIT_OK;
error("err.no.source.files");
this.exitState = ExitState.cmderror();
return EXIT_CMDERR;
}
// Set up the timer *after* we've processed to options
// because it needs to know if we need logging or not
timer = Timer.instance(context);
timer.init();
boolean forceStdOut = options.get("stdout") != null;
if (forceStdOut) {
out.flush();
out = new PrintWriter(System.out, true);
}
context.put(Log.outKey, out);
fileManager = context.get(JavaFileManager.class);
comp = LanguageCompiler.instance(context);
if (comp == null) {
this.exitState = ExitState.systemError(null, null);
return EXIT_SYSERR;
}
if (!classnames.isEmpty()) {
filenames = addModuleFiles(filenames);
classnames.clear();
}
if (!filenames.isEmpty()) {
// add filenames to fileObjects
List<JavaFileObject> otherFiles = List.nil();
JavacFileManager dfm = (JavacFileManager) fileManager;
for (JavaFileObject fo : dfm.getJavaFileObjectsFromFiles(filenames)) {
otherFiles = otherFiles.append(fo);
}
fileObjects = fileObjects.prependList(otherFiles);
}
if (fileObjects.isEmpty()) {
error("err.no.source.files");
this.exitState = ExitState.cmderror();
return EXIT_CMDERR;
}
comp.compile(fileObjects, classnames.toList(), processors);
int errorCount = comp.errorCount();
//ceylonBackendErrors = comp.log instanceof CeylonLog ? ((CeylonLog)comp.log).ceylonBackendErrors() : false;
if (errorCount != 0) {
this.exitState = ExitState.error(comp);
return EXIT_ERROR;
}
} catch (IOException ex) {
ioMessage(ex);
this.exitState = ExitState.systemError(null, ex);
return EXIT_SYSERR;
} catch (OutOfMemoryError ex) {
resourceMessage(ex);
this.exitState = ExitState.systemError(null, ex);
return EXIT_SYSERR;
} catch (StackOverflowError ex) {
resourceMessage(ex);
this.exitState = ExitState.systemError(null, ex);
return EXIT_SYSERR;
} catch (FatalError ex) {
this.exitState = ExitState.systemError(comp, ex);
if (this.exitState.javacExitCode == EXIT_SYSERR) {
feMessage(ex);
}
return this.exitState.javacExitCode;
} catch (AnnotationProcessingError ex) {
apMessage(ex);
this.exitState = ExitState.systemError(null, ex);
return EXIT_SYSERR;
} catch (ClientCodeException ex) {
// and javax.tools.JavaCompiler.CompilationTask#call
throw new RuntimeException(ex.getCause());
} catch (PropagatedException ex) {
throw ex.getCause();
} catch (RepositoryException ex) {
throw new EnvironmentException(ex);
} catch (Throwable ex) {
// exceptions.
if (comp == null || comp.errorCount() == 0 || options == null || options.get("dev") != null) {
bugMessage(ex);
}
this.exitState = ExitState.abnormal(comp, ex, options);
return EXIT_ABNORMAL;
} finally {
if (comp != null)
comp.close();
filenames = null;
options = null;
if (timer != null) {
timer.end();
}
timer = null;
}
this.exitState = ExitState.ok();
return EXIT_OK;
}
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