List of usage examples for org.eclipse.jdt.internal.compiler.util SimpleSet asArray
public void asArray(Object[] copy)
From source file:org.eclipse.jdt.internal.compiler.lookup.Scope.java
License:Open Source License
protected final MethodBinding mostSpecificMethodBinding(MethodBinding[] visible, int visibleSize, TypeBinding[] argumentTypes, final InvocationSite invocationSite, ReferenceBinding receiverType) { int[] compatibilityLevels = new int[visibleSize]; for (int i = 0; i < visibleSize; i++) compatibilityLevels[i] = parameterCompatibilityLevel(visible[i], argumentTypes); InvocationSite tieBreakInvocationSite = new InvocationSite() { public TypeBinding[] genericTypeArguments() { return null; } // ignore genericTypeArgs public boolean isSuperAccess() { return invocationSite.isSuperAccess(); }/* w ww .ja v a 2s.c o m*/ public boolean isTypeAccess() { return invocationSite.isTypeAccess(); } public void setActualReceiverType(ReferenceBinding actualReceiverType) { /* ignore */} public void setDepth(int depth) { /* ignore */} public void setFieldIndex(int depth) { /* ignore */} public int sourceStart() { return invocationSite.sourceStart(); } public int sourceEnd() { return invocationSite.sourceStart(); } public TypeBinding expectedType() { return invocationSite.expectedType(); } }; MethodBinding[] moreSpecific = new MethodBinding[visibleSize]; int count = 0; for (int level = 0, max = VARARGS_COMPATIBLE; level <= max; level++) { nextVisible: for (int i = 0; i < visibleSize; i++) { if (compatibilityLevels[i] != level) continue nextVisible; max = level; // do not examine further categories, will either return mostSpecific or report ambiguous case MethodBinding current = visible[i]; MethodBinding original = current.original(); MethodBinding tiebreakMethod = current.tiebreakMethod(); for (int j = 0; j < visibleSize; j++) { if (i == j || compatibilityLevels[j] != level) continue; MethodBinding next = visible[j]; if (original == next.original()) { // parameterized superclasses & interfaces may be walked twice from different paths so skip next from now on compatibilityLevels[j] = -1; continue; } MethodBinding methodToTest = next; if (next instanceof ParameterizedGenericMethodBinding) { ParameterizedGenericMethodBinding pNext = (ParameterizedGenericMethodBinding) next; if (pNext.isRaw && !pNext.isStatic()) { // hold onto the raw substituted method } else { methodToTest = pNext.originalMethod; } } MethodBinding acceptable = computeCompatibleMethod(methodToTest, tiebreakMethod.parameters, tieBreakInvocationSite); /* There are 4 choices to consider with current & next : foo(B) & foo(A) where B extends A 1. the 2 methods are equal (both accept each others parameters) -> want to continue 2. current has more specific parameters than next (so acceptable is a valid method) -> want to continue 3. current has less specific parameters than next (so acceptable is null) -> go on to next 4. current and next are not compatible with each other (so acceptable is null) -> go on to next */ if (acceptable == null || !acceptable.isValidBinding()) continue nextVisible; if (!isAcceptableMethod(tiebreakMethod, acceptable)) continue nextVisible; // pick a concrete method over a bridge method when parameters are equal since the return type of the concrete method is more specific if (current.isBridge() && !next.isBridge()) if (tiebreakMethod.areParametersEqual(acceptable)) continue nextVisible; // skip current so acceptable wins over this bridge method } moreSpecific[i] = current; count++; } } if (count == 1) { for (int i = 0; i < visibleSize; i++) { if (moreSpecific[i] != null) { compilationUnitScope().recordTypeReferences(visible[i].thrownExceptions); return visible[i]; } } } else if (count == 0) { return new ProblemMethodBinding(visible[0], visible[0].selector, visible[0].parameters, ProblemReasons.Ambiguous); } // found several methods that are mutually acceptable -> must be equal // so now with the first acceptable method, find the 'correct' inherited method for each other acceptable method AND // see if they are equal after substitution of type variables (do the type variables have to be equal to be considered an override???) if (receiverType != null) receiverType = receiverType instanceof CaptureBinding ? receiverType : (ReferenceBinding) receiverType.erasure(); nextSpecific: for (int i = 0; i < visibleSize; i++) { MethodBinding current = moreSpecific[i]; if (current != null) { ReferenceBinding[] mostSpecificExceptions = null; MethodBinding original = current.original(); boolean shouldIntersectExceptions = original.declaringClass.isAbstract() && original.thrownExceptions != Binding.NO_EXCEPTIONS; // only needed when selecting from interface methods for (int j = 0; j < visibleSize; j++) { MethodBinding next = moreSpecific[j]; if (next == null || i == j) continue; MethodBinding original2 = next.original(); if (original.declaringClass == original2.declaringClass) break nextSpecific; // duplicates thru substitution if (!original.isAbstract()) { if (original2.isAbstract()) continue; // only compare current against other concrete methods original2 = original.findOriginalInheritedMethod(original2); if (original2 == null) continue nextSpecific; // current's declaringClass is not a subtype of next's declaringClass if (current.hasSubstitutedParameters() || original.typeVariables != Binding.NO_TYPE_VARIABLES) { if (!environment().methodVerifier().isParameterSubsignature(original, original2)) continue nextSpecific; // current does not override next } } else if (receiverType != null) { // should not be null if original isAbstract, but be safe TypeBinding superType = receiverType .findSuperTypeOriginatingFrom(original.declaringClass.erasure()); if (original.declaringClass == superType || !(superType instanceof ReferenceBinding)) { // keep original } else { // must find inherited method with the same substituted variables MethodBinding[] superMethods = ((ReferenceBinding) superType) .getMethods(original.selector, argumentTypes.length); for (int m = 0, l = superMethods.length; m < l; m++) { if (superMethods[m].original() == original) { original = superMethods[m]; break; } } } superType = receiverType.findSuperTypeOriginatingFrom(original2.declaringClass.erasure()); if (original2.declaringClass == superType || !(superType instanceof ReferenceBinding)) { // keep original2 } else { // must find inherited method with the same substituted variables MethodBinding[] superMethods = ((ReferenceBinding) superType) .getMethods(original2.selector, argumentTypes.length); for (int m = 0, l = superMethods.length; m < l; m++) { if (superMethods[m].original() == original2) { original2 = superMethods[m]; break; } } } if (original.typeVariables != Binding.NO_TYPE_VARIABLES) original2 = original.computeSubstitutedMethod(original2, environment()); if (original2 == null || !original.areParameterErasuresEqual(original2)) continue nextSpecific; // current does not override next if (original.returnType != original2.returnType) { if (next.original().typeVariables != Binding.NO_TYPE_VARIABLES) { if (original.returnType.erasure() .findSuperTypeOriginatingFrom(original2.returnType.erasure()) == null) continue nextSpecific; } else if (!current.returnType.isCompatibleWith(next.returnType)) { continue nextSpecific; } // continue with original 15.12.2.5 } if (shouldIntersectExceptions && original2.declaringClass.isInterface()) { if (current.thrownExceptions != next.thrownExceptions) { if (next.thrownExceptions == Binding.NO_EXCEPTIONS) { mostSpecificExceptions = Binding.NO_EXCEPTIONS; } else { if (mostSpecificExceptions == null) { mostSpecificExceptions = current.thrownExceptions; } int mostSpecificLength = mostSpecificExceptions.length; int nextLength = next.thrownExceptions.length; SimpleSet temp = new SimpleSet(mostSpecificLength); boolean changed = false; nextException: for (int t = 0; t < mostSpecificLength; t++) { ReferenceBinding exception = mostSpecificExceptions[t]; for (int s = 0; s < nextLength; s++) { ReferenceBinding nextException = next.thrownExceptions[s]; if (exception.isCompatibleWith(nextException)) { temp.add(exception); continue nextException; } else if (nextException.isCompatibleWith(exception)) { temp.add(nextException); changed = true; continue nextException; } else { changed = true; } } } if (changed) { mostSpecificExceptions = temp.elementSize == 0 ? Binding.NO_EXCEPTIONS : new ReferenceBinding[temp.elementSize]; temp.asArray(mostSpecificExceptions); } } } } } } if (mostSpecificExceptions != null && mostSpecificExceptions != current.thrownExceptions) { return new MostSpecificExceptionMethodBinding(current, mostSpecificExceptions); } return current; } } // if all moreSpecific methods are equal then see if duplicates exist because of substitution return new ProblemMethodBinding(visible[0], visible[0].selector, visible[0].parameters, ProblemReasons.Ambiguous); }