// Copyright 2014 The Chromium Authors
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "Config.h"
#include "Edge.h"
#include "RecordInfo.h"
TracingStatus Value::NeedsTracing(NeedsTracingOption option) {
return value_->NeedsTracing(option);
}
bool Value::NeedsFinalization() { return value_->NeedsFinalization(); }
bool Collection::NeedsFinalization() { return info_->NeedsFinalization(); }
bool Collection::IsSTDCollection() {
return Config::IsSTDCollection(info_->name());
}
std::string Collection::GetCollectionName() const {
return info_->name();
}
TracingStatus Collection::NeedsTracing(NeedsTracingOption) {
if (on_heap_) {
return TracingStatus::Needed();
}
// This will be handled by matchers.
if (IsSTDCollection()) {
if ((GetCollectionName() == "array") && !members_.empty()) {
Edge* type = members_.at(0);
if (type->IsMember() || type->IsWeakMember() ||
type->IsTraceWrapperV8Reference()) {
return TracingStatus::Needed();
}
}
return TracingStatus::Unknown();
}
// For off-heap collections, determine tracing status of members.
TracingStatus status = TracingStatus::Unneeded();
for (Members::iterator it = members_.begin(); it != members_.end(); ++it) {
// Do a non-recursive test here since members could equal the holder.
status = status.LUB((*it)->NeedsTracing(kNonRecursive));
}
return status;
}
void RecursiveEdgeVisitor::AtValue(Value*) {}
void RecursiveEdgeVisitor::AtRawPtr(RawPtr*) {}
void RecursiveEdgeVisitor::AtRefPtr(RefPtr*) {}
void RecursiveEdgeVisitor::AtUniquePtr(UniquePtr*) {}
void RecursiveEdgeVisitor::AtMember(Member*) {}
void RecursiveEdgeVisitor::AtWeakMember(WeakMember*) {}
void RecursiveEdgeVisitor::AtPersistent(Persistent*) {}
void RecursiveEdgeVisitor::AtCrossThreadPersistent(CrossThreadPersistent*) {}
void RecursiveEdgeVisitor::AtCollection(Collection*) {}
void RecursiveEdgeVisitor::AtIterator(Iterator*) {}
void RecursiveEdgeVisitor::AtTraceWrapperV8Reference(TraceWrapperV8Reference*) {
}
void RecursiveEdgeVisitor::AtArrayEdge(ArrayEdge*) {}
void RecursiveEdgeVisitor::VisitValue(Value* e) {
AtValue(e);
}
void RecursiveEdgeVisitor::VisitRawPtr(RawPtr* e) {
AtRawPtr(e);
Enter(e);
e->ptr()->Accept(this);
Leave();
}
void RecursiveEdgeVisitor::VisitRefPtr(RefPtr* e) {
AtRefPtr(e);
Enter(e);
e->ptr()->Accept(this);
Leave();
}
void RecursiveEdgeVisitor::VisitUniquePtr(UniquePtr* e) {
AtUniquePtr(e);
Enter(e);
e->ptr()->Accept(this);
Leave();
}
void RecursiveEdgeVisitor::VisitMember(Member* e) {
AtMember(e);
Enter(e);
e->ptr()->Accept(this);
Leave();
}
void RecursiveEdgeVisitor::VisitWeakMember(WeakMember* e) {
AtWeakMember(e);
Enter(e);
e->ptr()->Accept(this);
Leave();
}
void RecursiveEdgeVisitor::VisitPersistent(Persistent* e) {
AtPersistent(e);
Enter(e);
e->ptr()->Accept(this);
Leave();
}
void RecursiveEdgeVisitor::VisitCrossThreadPersistent(
CrossThreadPersistent* e) {
AtCrossThreadPersistent(e);
Enter(e);
e->ptr()->Accept(this);
Leave();
}
void RecursiveEdgeVisitor::VisitCollection(Collection* e) {
AtCollection(e);
Enter(e);
e->AcceptMembers(this);
Leave();
}
void RecursiveEdgeVisitor::VisitIterator(Iterator* e) {
AtIterator(e);
}
void RecursiveEdgeVisitor::VisitTraceWrapperV8Reference(
TraceWrapperV8Reference* e) {
AtTraceWrapperV8Reference(e);
Enter(e);
e->ptr()->Accept(this);
Leave();
}
void RecursiveEdgeVisitor::VisitArrayEdge(ArrayEdge* e) {
AtArrayEdge(e);
}
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