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// Copyright 2015 the V8 project authors. All rights reserved.
// Use of this source code is governed by a BSD-style license that can be
// found in the LICENSE file.
#include "src/compiler/graph-assembler.h"
#include "src/code-factory.h"
#include "src/compiler/linkage.h"
namespace v8 {
namespace internal {
namespace compiler {
GraphAssembler::GraphAssembler(JSGraph* jsgraph, Node* effect, Node* control,
Zone* zone)
: temp_zone_(zone),
jsgraph_(jsgraph),
current_effect_(effect),
current_control_(control) {}
Node* GraphAssembler::IntPtrConstant(intptr_t value) {
return jsgraph()->IntPtrConstant(value);
}
Node* GraphAssembler::Int32Constant(int32_t value) {
return jsgraph()->Int32Constant(value);
}
Node* GraphAssembler::UniqueInt32Constant(int32_t value) {
return graph()->NewNode(common()->Int32Constant(value));
}
Node* GraphAssembler::SmiConstant(int32_t value) {
return jsgraph()->SmiConstant(value);
}
Node* GraphAssembler::Uint32Constant(int32_t value) {
return jsgraph()->Uint32Constant(value);
}
Node* GraphAssembler::Float64Constant(double value) {
return jsgraph()->Float64Constant(value);
}
Node* GraphAssembler::HeapConstant(Handle<HeapObject> object) {
return jsgraph()->HeapConstant(object);
}
Node* GraphAssembler::ExternalConstant(ExternalReference ref) {
return jsgraph()->ExternalConstant(ref);
}
Node* GraphAssembler::CEntryStubConstant(int result_size) {
return jsgraph()->CEntryStubConstant(result_size);
}
Node* GraphAssembler::LoadFramePointer() {
return graph()->NewNode(machine()->LoadFramePointer());
}
#define SINGLETON_CONST_DEF(Name) \
Node* GraphAssembler::Name() { return jsgraph()->Name(); }
JSGRAPH_SINGLETON_CONSTANT_LIST(SINGLETON_CONST_DEF)
#undef SINGLETON_CONST_DEF
#define PURE_UNOP_DEF(Name) \
Node* GraphAssembler::Name(Node* input) { \
return graph()->NewNode(machine()->Name(), input); \
}
PURE_ASSEMBLER_MACH_UNOP_LIST(PURE_UNOP_DEF)
#undef PURE_UNOP_DEF
#define PURE_BINOP_DEF(Name) \
Node* GraphAssembler::Name(Node* left, Node* right) { \
return graph()->NewNode(machine()->Name(), left, right); \
}
PURE_ASSEMBLER_MACH_BINOP_LIST(PURE_BINOP_DEF)
#undef PURE_BINOP_DEF
#define CHECKED_BINOP_DEF(Name) \
Node* GraphAssembler::Name(Node* left, Node* right) { \
return graph()->NewNode(machine()->Name(), left, right, current_control_); \
}
CHECKED_ASSEMBLER_MACH_BINOP_LIST(CHECKED_BINOP_DEF)
#undef CHECKED_BINOP_DEF
Node* GraphAssembler::Float64RoundDown(Node* value) {
if (machine()->Float64RoundDown().IsSupported()) {
return graph()->NewNode(machine()->Float64RoundDown().op(), value);
}
return nullptr;
}
Node* GraphAssembler::Projection(int index, Node* value) {
return graph()->NewNode(common()->Projection(index), value, current_control_);
}
Node* GraphAssembler::Allocate(PretenureFlag pretenure, Node* size) {
return current_control_ = current_effect_ =
graph()->NewNode(simplified()->AllocateRaw(Type::Any(), pretenure),
size, current_effect_, current_control_);
}
Node* GraphAssembler::LoadField(FieldAccess const& access, Node* object) {
return current_effect_ =
graph()->NewNode(simplified()->LoadField(access), object,
current_effect_, current_control_);
}
Node* GraphAssembler::LoadElement(ElementAccess const& access, Node* object,
Node* index) {
return current_effect_ =
graph()->NewNode(simplified()->LoadElement(access), object, index,
current_effect_, current_control_);
}
Node* GraphAssembler::StoreField(FieldAccess const& access, Node* object,
Node* value) {
return current_effect_ =
graph()->NewNode(simplified()->StoreField(access), object, value,
current_effect_, current_control_);
}
Node* GraphAssembler::StoreElement(ElementAccess const& access, Node* object,
Node* index, Node* value) {
return current_effect_ =
graph()->NewNode(simplified()->StoreElement(access), object, index,
value, current_effect_, current_control_);
}
Node* GraphAssembler::DebugBreak() {
return current_effect_ = graph()->NewNode(machine()->DebugBreak(),
current_effect_, current_control_);
}
Node* GraphAssembler::Unreachable() {
return current_effect_ = graph()->NewNode(common()->Unreachable(),
current_effect_, current_control_);
}
Node* GraphAssembler::Store(StoreRepresentation rep, Node* object, Node* offset,
Node* value) {
return current_effect_ =
graph()->NewNode(machine()->Store(rep), object, offset, value,
current_effect_, current_control_);
}
Node* GraphAssembler::Load(MachineType rep, Node* object, Node* offset) {
return current_effect_ =
graph()->NewNode(machine()->Load(rep), object, offset,
current_effect_, current_control_);
}
Node* GraphAssembler::Retain(Node* buffer) {
return current_effect_ =
graph()->NewNode(common()->Retain(), buffer, current_effect_);
}
Node* GraphAssembler::UnsafePointerAdd(Node* base, Node* external) {
return current_effect_ =
graph()->NewNode(machine()->UnsafePointerAdd(), base, external,
current_effect_, current_control_);
}
Node* GraphAssembler::ToNumber(Node* value) {
return current_effect_ =
graph()->NewNode(ToNumberOperator(), ToNumberBuiltinConstant(),
value, NoContextConstant(), current_effect_);
}
Node* GraphAssembler::BitcastWordToTagged(Node* value) {
return current_effect_ =
graph()->NewNode(machine()->BitcastWordToTagged(), value,
current_effect_, current_control_);
}
Node* GraphAssembler::DeoptimizeIf(DeoptimizeReason reason,
VectorSlotPair const& feedback,
Node* condition, Node* frame_state) {
return current_control_ = current_effect_ = graph()->NewNode(
common()->DeoptimizeIf(DeoptimizeKind::kEager, reason, feedback),
condition, frame_state, current_effect_, current_control_);
}
Node* GraphAssembler::DeoptimizeIfNot(DeoptimizeKind kind,
DeoptimizeReason reason,
VectorSlotPair const& feedback,
Node* condition, Node* frame_state) {
return current_control_ = current_effect_ = graph()->NewNode(
common()->DeoptimizeUnless(kind, reason, feedback), condition,
frame_state, current_effect_, current_control_);
}
Node* GraphAssembler::DeoptimizeIfNot(DeoptimizeReason reason,
VectorSlotPair const& feedback,
Node* condition, Node* frame_state) {
return DeoptimizeIfNot(DeoptimizeKind::kEager, reason, feedback, condition,
frame_state);
}
void GraphAssembler::Branch(Node* condition, GraphAssemblerLabel<0u>* if_true,
GraphAssemblerLabel<0u>* if_false) {
DCHECK_NOT_NULL(current_control_);
BranchHint hint = BranchHint::kNone;
if (if_true->IsDeferred() != if_false->IsDeferred()) {
hint = if_false->IsDeferred() ? BranchHint::kTrue : BranchHint::kFalse;
}
Node* branch =
graph()->NewNode(common()->Branch(hint), condition, current_control_);
current_control_ = graph()->NewNode(common()->IfTrue(), branch);
MergeState(if_true);
current_control_ = graph()->NewNode(common()->IfFalse(), branch);
MergeState(if_false);
current_control_ = nullptr;
current_effect_ = nullptr;
}
// Extractors (should be only used when destructing the assembler.
Node* GraphAssembler::ExtractCurrentControl() {
Node* result = current_control_;
current_control_ = nullptr;
return result;
}
Node* GraphAssembler::ExtractCurrentEffect() {
Node* result = current_effect_;
current_effect_ = nullptr;
return result;
}
void GraphAssembler::Reset(Node* effect, Node* control) {
current_effect_ = effect;
current_control_ = control;
}
Operator const* GraphAssembler::ToNumberOperator() {
if (!to_number_operator_.is_set()) {
Callable callable =
Builtins::CallableFor(jsgraph()->isolate(), Builtins::kToNumber);
CallDescriptor::Flags flags = CallDescriptor::kNoFlags;
CallDescriptor* desc = Linkage::GetStubCallDescriptor(
jsgraph()->isolate(), graph()->zone(), callable.descriptor(), 0, flags,
Operator::kEliminatable);
to_number_operator_.set(common()->Call(desc));
}
return to_number_operator_.get();
}
} // namespace compiler
} // namespace internal
} // namespace v8