protected void finishedWith(
String sourceLocator,
CompilationResult result,
char[] mainTypeName,
ArrayList definedTypeNames,
ArrayList duplicateTypeNames) {
char[][] previousTypeNames = this.newState.getDefinedTypeNamesFor(sourceLocator);
if (previousTypeNames == null) previousTypeNames = new char[][] {mainTypeName};
IPath packagePath = null;
next:
for (int i = 0, l = previousTypeNames.length; i < l; i++) {
char[] previous = previousTypeNames[i];
for (int j = 0, m = definedTypeNames.size(); j < m; j++)
if (CharOperation.equals(previous, (char[]) definedTypeNames.get(j))) continue next;
SourceFile sourceFile = (SourceFile) result.getCompilationUnit();
if (packagePath == null) {
int count = sourceFile.sourceLocation.sourceFolder.getFullPath().segmentCount();
packagePath =
sourceFile.resource.getFullPath().removeFirstSegments(count).removeLastSegments(1);
}
if (this.secondaryTypesToRemove == null)
this.secondaryTypesToRemove = new SimpleLookupTable();
ArrayList types =
(ArrayList) this.secondaryTypesToRemove.get(sourceFile.sourceLocation.binaryFolder);
if (types == null) types = new ArrayList(definedTypeNames.size());
types.add(packagePath.append(new String(previous)));
this.secondaryTypesToRemove.put(sourceFile.sourceLocation.binaryFolder, types);
}
super.finishedWith(sourceLocator, result, mainTypeName, definedTypeNames, duplicateTypeNames);
}
protected void compile(
SourceFile[] units, SourceFile[] additionalUnits, boolean compilingFirstGroup) {
if (compilingFirstGroup && additionalUnits != null) {
// add any source file from additionalUnits to units if it defines secondary types
// otherwise its possible during testing with MAX_AT_ONCE == 1 that a secondary type
// can cause an infinite loop as it alternates between not found and defined, see bug 146324
ArrayList extras = null;
for (int i = 0, l = additionalUnits.length; i < l; i++) {
SourceFile unit = additionalUnits[i];
if (unit != null && this.newState.getDefinedTypeNamesFor(unit.typeLocator()) != null) {
if (JavaBuilder.DEBUG)
System.out.println(
"About to compile file with secondary types " + unit.typeLocator()); // $NON-NLS-1$
if (extras == null) extras = new ArrayList(3);
extras.add(unit);
}
}
if (extras != null) {
int oldLength = units.length;
int toAdd = extras.size();
System.arraycopy(units, 0, units = new SourceFile[oldLength + toAdd], 0, oldLength);
for (int i = 0; i < toAdd; i++) units[oldLength++] = (SourceFile) extras.get(i);
}
}
super.compile(units, additionalUnits, compilingFirstGroup);
}
protected void cleanUp() {
super.cleanUp();
this.sourceFiles = null;
this.previousSourceFiles = null;
this.qualifiedStrings = null;
this.simpleStrings = null;
this.rootStrings = null;
this.secondaryTypesToRemove = null;
this.hasStructuralChanges = false;
this.compileLoop = 0;
}
protected void storeProblemsFor(SourceFile sourceFile, CategorizedProblem[] problems)
throws CoreException {
if (sourceFile == null || problems == null || problems.length == 0) return;
for (int i = problems.length; --i >= 0; ) {
CategorizedProblem problem = problems[i];
if (problem != null && problem.getID() == IProblem.UndefinedType) {
if (this.typeLocatorsWithUndefinedTypes == null)
this.typeLocatorsWithUndefinedTypes = new StringSet(3);
this.typeLocatorsWithUndefinedTypes.add(sourceFile.typeLocator());
break;
}
}
super.storeProblemsFor(sourceFile, problems);
}
protected void compile(
SourceFile[] units, SourceFile[] additionalUnits, boolean compilingFirstGroup) {
if (additionalUnits != null && this.secondaryTypes == null)
this.secondaryTypes = new ArrayList(7);
super.compile(units, additionalUnits, compilingFirstGroup);
}
protected void cleanUp() {
this.incrementalBuilder = null;
this.secondaryTypes = null;
this.typeLocatorsWithUndefinedTypes = null;
super.cleanUp();
}