mirror of
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f9295075bf
--HG-- rename : build/clang-plugin/tests/TestStackClass.cpp => build/clang-plugin/tests/TestNonHeapClass.cpp
359 lines
13 KiB
C++
359 lines
13 KiB
C++
/* This Source Code Form is subject to the terms of the Mozilla Public
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* License, v. 2.0. If a copy of the MPL was not distributed with this
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* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
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#include "clang/AST/ASTConsumer.h"
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#include "clang/AST/ASTContext.h"
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#include "clang/AST/RecursiveASTVisitor.h"
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#include "clang/ASTMatchers/ASTMatchers.h"
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#include "clang/ASTMatchers/ASTMatchFinder.h"
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#include "clang/Basic/Version.h"
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#include "clang/Frontend/CompilerInstance.h"
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#include "clang/Frontend/FrontendPluginRegistry.h"
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#include "clang/Frontend/MultiplexConsumer.h"
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#include "clang/Sema/Sema.h"
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#include "llvm/ADT/DenseMap.h"
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#define CLANG_VERSION_FULL (CLANG_VERSION_MAJOR * 100 + CLANG_VERSION_MINOR)
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using namespace llvm;
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using namespace clang;
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namespace {
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using namespace clang::ast_matchers;
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class DiagnosticsMatcher {
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public:
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DiagnosticsMatcher();
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ASTConsumer *makeASTConsumer() {
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return astMatcher.newASTConsumer();
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}
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private:
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class StackClassChecker : public MatchFinder::MatchCallback {
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public:
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virtual void run(const MatchFinder::MatchResult &Result);
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void noteInferred(QualType T, DiagnosticsEngine &Diag);
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};
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class NonHeapClassChecker : public MatchFinder::MatchCallback {
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public:
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virtual void run(const MatchFinder::MatchResult &Result);
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void noteInferred(QualType T, DiagnosticsEngine &Diag);
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};
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StackClassChecker stackClassChecker;
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NonHeapClassChecker nonheapClassChecker;
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MatchFinder astMatcher;
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};
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class MozChecker : public ASTConsumer, public RecursiveASTVisitor<MozChecker> {
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DiagnosticsEngine &Diag;
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const CompilerInstance &CI;
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DiagnosticsMatcher matcher;
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public:
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MozChecker(const CompilerInstance &CI) : Diag(CI.getDiagnostics()), CI(CI) {}
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ASTConsumer *getOtherConsumer() {
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return matcher.makeASTConsumer();
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}
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virtual void HandleTranslationUnit(ASTContext &ctx) {
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TraverseDecl(ctx.getTranslationUnitDecl());
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}
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static bool hasCustomAnnotation(const Decl *d, const char *spelling) {
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AnnotateAttr *attr = d->getAttr<AnnotateAttr>();
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if (!attr)
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return false;
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return attr->getAnnotation() == spelling;
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}
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bool VisitCXXRecordDecl(CXXRecordDecl *d) {
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// We need definitions, not declarations
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if (!d->isThisDeclarationADefinition()) return true;
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// Look through all of our immediate bases to find methods that need to be
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// overridden
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typedef std::vector<CXXMethodDecl *> OverridesVector;
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OverridesVector must_overrides;
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for (CXXRecordDecl::base_class_iterator base = d->bases_begin(),
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e = d->bases_end(); base != e; ++base) {
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// The base is either a class (CXXRecordDecl) or it's a templated class...
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CXXRecordDecl *parent = base->getType()
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.getDesugaredType(d->getASTContext())->getAsCXXRecordDecl();
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// The parent might not be resolved to a type yet. In this case, we can't
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// do any checking here. For complete correctness, we should visit
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// template instantiations, but this case is likely to be rare, so we will
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// ignore it until it becomes important.
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if (!parent) {
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continue;
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}
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parent = parent->getDefinition();
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for (CXXRecordDecl::method_iterator M = parent->method_begin();
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M != parent->method_end(); ++M) {
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if (hasCustomAnnotation(*M, "moz_must_override"))
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must_overrides.push_back(*M);
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}
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}
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for (OverridesVector::iterator it = must_overrides.begin();
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it != must_overrides.end(); ++it) {
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bool overridden = false;
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for (CXXRecordDecl::method_iterator M = d->method_begin();
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!overridden && M != d->method_end(); ++M) {
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// The way that Clang checks if a method M overrides its parent method
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// is if the method has the same name but would not overload.
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if (M->getName() == (*it)->getName() &&
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!CI.getSema().IsOverload(*M, (*it), false))
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overridden = true;
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}
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if (!overridden) {
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unsigned overrideID = Diag.getDiagnosticIDs()->getCustomDiagID(
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DiagnosticIDs::Error, "%0 must override %1");
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unsigned overrideNote = Diag.getDiagnosticIDs()->getCustomDiagID(
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DiagnosticIDs::Note, "function to override is here");
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Diag.Report(d->getLocation(), overrideID) << d->getDeclName() <<
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(*it)->getDeclName();
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Diag.Report((*it)->getLocation(), overrideNote);
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}
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}
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return true;
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}
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};
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/**
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* Where classes may be allocated. Regular classes can be allocated anywhere,
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* non-heap classes on the stack or as static variables, and stack classes only
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* on the stack. Note that stack classes subsumes non-heap classes.
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*/
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enum ClassAllocationNature {
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RegularClass = 0,
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NonHeapClass = 1,
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StackClass = 2
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};
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/// A cached data of whether classes are stack classes, non-heap classes, or
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/// neither.
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DenseMap<const CXXRecordDecl *,
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std::pair<const Decl *, ClassAllocationNature> > inferredAllocCauses;
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ClassAllocationNature getClassAttrs(QualType T);
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ClassAllocationNature getClassAttrs(CXXRecordDecl *D) {
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// Normalize so that D points to the definition if it exists. If it doesn't,
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// then we can't allocate it anyways.
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if (!D->hasDefinition())
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return RegularClass;
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D = D->getDefinition();
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// Base class: anyone with this annotation is obviously a stack class
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if (MozChecker::hasCustomAnnotation(D, "moz_stack_class"))
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return StackClass;
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// See if we cached the result.
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DenseMap<const CXXRecordDecl *,
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std::pair<const Decl *, ClassAllocationNature> >::iterator it =
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inferredAllocCauses.find(D);
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if (it != inferredAllocCauses.end()) {
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return it->second.second;
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}
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// Continue looking, we might be a stack class yet. Even if we're a nonheap
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// class, it might be possible that we've inferred to be a stack class.
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ClassAllocationNature type = RegularClass;
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if (MozChecker::hasCustomAnnotation(D, "moz_nonheap_class")) {
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type = NonHeapClass;
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}
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inferredAllocCauses.insert(std::make_pair(D,
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std::make_pair((const Decl *)0, type)));
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// Look through all base cases to figure out if the parent is a stack class or
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// a non-heap class. Since we might later infer to also be a stack class, keep
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// going.
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for (CXXRecordDecl::base_class_iterator base = D->bases_begin(),
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e = D->bases_end(); base != e; ++base) {
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ClassAllocationNature super = getClassAttrs(base->getType());
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if (super == StackClass) {
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inferredAllocCauses[D] = std::make_pair(
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base->getType()->getAsCXXRecordDecl(), StackClass);
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return StackClass;
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} else if (super == NonHeapClass) {
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inferredAllocCauses[D] = std::make_pair(
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base->getType()->getAsCXXRecordDecl(), NonHeapClass);
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type = NonHeapClass;
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}
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}
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// Maybe it has a member which is a stack class.
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for (RecordDecl::field_iterator field = D->field_begin(), e = D->field_end();
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field != e; ++field) {
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ClassAllocationNature fieldType = getClassAttrs(field->getType());
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if (fieldType == StackClass) {
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inferredAllocCauses[D] = std::make_pair(*field, StackClass);
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return StackClass;
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} else if (fieldType == NonHeapClass) {
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inferredAllocCauses[D] = std::make_pair(*field, NonHeapClass);
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type = NonHeapClass;
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}
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}
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return type;
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}
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ClassAllocationNature getClassAttrs(QualType T) {
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while (const ArrayType *arrTy = T->getAsArrayTypeUnsafe())
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T = arrTy->getElementType();
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CXXRecordDecl *clazz = T->getAsCXXRecordDecl();
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return clazz ? getClassAttrs(clazz) : RegularClass;
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}
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}
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namespace clang {
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namespace ast_matchers {
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/// This matcher will match any class with the stack class assertion or an
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/// array of such classes.
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AST_MATCHER(QualType, stackClassAggregate) {
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return getClassAttrs(Node) == StackClass;
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}
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/// This matcher will match any class with the stack class assertion or an
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/// array of such classes.
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AST_MATCHER(QualType, nonheapClassAggregate) {
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return getClassAttrs(Node) == NonHeapClass;
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}
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}
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}
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namespace {
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DiagnosticsMatcher::DiagnosticsMatcher() {
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// Stack class assertion: non-local variables of a stack class are forbidden
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// (non-localness checked in the callback)
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astMatcher.addMatcher(varDecl(hasType(stackClassAggregate())).bind("node"),
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&stackClassChecker);
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// Stack class assertion: new stack class is forbidden (unless placement new)
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astMatcher.addMatcher(newExpr(hasType(pointerType(
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pointee(stackClassAggregate())
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))).bind("node"), &stackClassChecker);
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// Non-heap class assertion: new non-heap class is forbidden (unless placement
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// new)
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astMatcher.addMatcher(newExpr(hasType(pointerType(
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pointee(nonheapClassAggregate())
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))).bind("node"), &nonheapClassChecker);
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}
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void DiagnosticsMatcher::StackClassChecker::run(
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const MatchFinder::MatchResult &Result) {
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DiagnosticsEngine &Diag = Result.Context->getDiagnostics();
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unsigned stackID = Diag.getDiagnosticIDs()->getCustomDiagID(
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DiagnosticIDs::Error, "variable of type %0 only valid on the stack");
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if (const VarDecl *d = Result.Nodes.getNodeAs<VarDecl>("node")) {
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// Ignore the match if it's a local variable.
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if (d->hasLocalStorage())
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return;
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Diag.Report(d->getLocation(), stackID) << d->getType();
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noteInferred(d->getType(), Diag);
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} else if (const CXXNewExpr *expr =
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Result.Nodes.getNodeAs<CXXNewExpr>("node")) {
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// If it's placement new, then this match doesn't count.
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if (expr->getNumPlacementArgs() > 0)
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return;
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Diag.Report(expr->getStartLoc(), stackID) << expr->getAllocatedType();
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noteInferred(expr->getAllocatedType(), Diag);
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}
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}
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void DiagnosticsMatcher::StackClassChecker::noteInferred(QualType T,
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DiagnosticsEngine &Diag) {
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unsigned inheritsID = Diag.getDiagnosticIDs()->getCustomDiagID(
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DiagnosticIDs::Note,
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"%0 is a stack class because it inherits from a stack class %1");
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unsigned memberID = Diag.getDiagnosticIDs()->getCustomDiagID(
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DiagnosticIDs::Note,
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"%0 is a stack class because member %1 is a stack class %2");
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// Find the CXXRecordDecl that is the stack class of interest
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while (const ArrayType *arrTy = T->getAsArrayTypeUnsafe())
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T = arrTy->getElementType();
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CXXRecordDecl *clazz = T->getAsCXXRecordDecl();
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// Direct result, we're done.
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if (MozChecker::hasCustomAnnotation(clazz, "moz_stack_class"))
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return;
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const Decl *cause = inferredAllocCauses[clazz].first;
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if (const CXXRecordDecl *CRD = dyn_cast<CXXRecordDecl>(cause)) {
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Diag.Report(clazz->getLocation(), inheritsID) << T << CRD->getDeclName();
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} else if (const FieldDecl *FD = dyn_cast<FieldDecl>(cause)) {
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Diag.Report(FD->getLocation(), memberID) << T << FD << FD->getType();
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}
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// Recursively follow this back.
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noteInferred(cast<ValueDecl>(cause)->getType(), Diag);
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}
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void DiagnosticsMatcher::NonHeapClassChecker::run(
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const MatchFinder::MatchResult &Result) {
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DiagnosticsEngine &Diag = Result.Context->getDiagnostics();
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unsigned stackID = Diag.getDiagnosticIDs()->getCustomDiagID(
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DiagnosticIDs::Error, "variable of type %0 is not valid on the heap");
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const CXXNewExpr *expr = Result.Nodes.getNodeAs<CXXNewExpr>("node");
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// If it's placement new, then this match doesn't count.
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if (expr->getNumPlacementArgs() > 0)
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return;
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Diag.Report(expr->getStartLoc(), stackID) << expr->getAllocatedType();
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noteInferred(expr->getAllocatedType(), Diag);
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}
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void DiagnosticsMatcher::NonHeapClassChecker::noteInferred(QualType T,
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DiagnosticsEngine &Diag) {
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unsigned inheritsID = Diag.getDiagnosticIDs()->getCustomDiagID(
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DiagnosticIDs::Note,
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"%0 is a non-heap class because it inherits from a non-heap class %1");
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unsigned memberID = Diag.getDiagnosticIDs()->getCustomDiagID(
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DiagnosticIDs::Note,
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"%0 is a non-heap class because member %1 is a non-heap class %2");
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// Find the CXXRecordDecl that is the stack class of interest
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while (const ArrayType *arrTy = T->getAsArrayTypeUnsafe())
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T = arrTy->getElementType();
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CXXRecordDecl *clazz = T->getAsCXXRecordDecl();
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// Direct result, we're done.
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if (MozChecker::hasCustomAnnotation(clazz, "moz_nonheap_class"))
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return;
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const Decl *cause = inferredAllocCauses[clazz].first;
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if (const CXXRecordDecl *CRD = dyn_cast<CXXRecordDecl>(cause)) {
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Diag.Report(clazz->getLocation(), inheritsID) << T << CRD->getDeclName();
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} else if (const FieldDecl *FD = dyn_cast<FieldDecl>(cause)) {
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Diag.Report(FD->getLocation(), memberID) << T << FD << FD->getType();
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}
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// Recursively follow this back.
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noteInferred(cast<ValueDecl>(cause)->getType(), Diag);
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}
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class MozCheckAction : public PluginASTAction {
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public:
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ASTConsumer *CreateASTConsumer(CompilerInstance &CI, StringRef fileName) {
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MozChecker *checker = new MozChecker(CI);
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ASTConsumer *consumers[] = { checker, checker->getOtherConsumer() };
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return new MultiplexConsumer(consumers);
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}
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bool ParseArgs(const CompilerInstance &CI,
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const std::vector<std::string> &args) {
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return true;
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}
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};
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}
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static FrontendPluginRegistry::Add<MozCheckAction>
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X("moz-check", "check moz action");
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