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dart / sdk.git / c261ddbc2d82b841a4c5771d133cd66cd88748a9 / . / runtime / vm / intrinsifier.cc
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// Copyright (c) 2012, the Dart project authors. Please see the AUTHORS file
// for details. All rights reserved. Use of this source code is governed by a
// BSD-style license that can be found in the LICENSE file.
// Class for intrinsifying functions.
#include "vm/assembler.h"
#include "vm/compiler.h"
#include "vm/cpu.h"
#include "vm/flags.h"
#include "vm/flow_graph.h"
#include "vm/flow_graph_compiler.h"
#include "vm/flow_graph_allocator.h"
#include "vm/flow_graph_builder.h"
#include "vm/il_printer.h"
#include "vm/intermediate_language.h"
#include "vm/intrinsifier.h"
#include "vm/object.h"
#include "vm/parser.h"
#include "vm/symbols.h"
namespace dart {
DEFINE_FLAG(bool, intrinsify, true, "Instrinsify when possible");
DEFINE_FLAG(bool, trace_intrinsifier, false, "Trace intrinsifier");
DECLARE_FLAG(bool, code_comments);
DECLARE_FLAG(bool, print_flow_graph);
DECLARE_FLAG(bool, print_flow_graph_optimized);
bool Intrinsifier::CanIntrinsify(const Function& function) {
if (FLAG_trace_intrinsifier) {
THR_Print("CanIntrinsify %s ->", function.ToQualifiedCString());
}
if (!FLAG_intrinsify) return false;
if (function.IsClosureFunction()) {
if (FLAG_trace_intrinsifier) {
THR_Print("No, closure function.\n");
}
return false;
}
// Can occur because of compile-all flag.
if (function.is_external()) {
if (FLAG_trace_intrinsifier) {
THR_Print("No, external function.\n");
}
return false;
}
if (!function.is_intrinsic()) {
if (FLAG_trace_intrinsifier) {
THR_Print("No, not intrinsic function.\n");
}
return false;
}
if (FLAG_trace_intrinsifier) {
THR_Print("Yes.\n");
}
return true;
}
#if defined(DART_NO_SNAPSHOT)
void Intrinsifier::InitializeState() {
Thread* thread = Thread::Current();
Zone* zone = thread->zone();
Library& lib = Library::Handle(zone);
Class& cls = Class::Handle(zone);
Function& func = Function::Handle(zone);
String& str = String::Handle(zone);
Error& error = Error::Handle(zone);
#define SETUP_FUNCTION(class_name, function_name, destination, type, fp) \
if (strcmp(#class_name, "::") == 0) { \
str = String::New(#function_name); \
func = lib.LookupFunctionAllowPrivate(str); \
} else { \
str = String::New(#class_name); \
cls = lib.LookupClassAllowPrivate(str); \
ASSERT(!cls.IsNull()); \
error = cls.EnsureIsFinalized(thread); \
if (!error.IsNull()) { \
OS::PrintErr("%s\n", error.ToErrorCString()); \
} \
ASSERT(error.IsNull()); \
if (#function_name[0] == '.') { \
str = String::New(#class_name#function_name); \
} else { \
str = String::New(#function_name); \
} \
func = cls.LookupFunctionAllowPrivate(str); \
} \
ASSERT(!func.IsNull()); \
func.set_is_intrinsic(true);
// Set up all core lib functions that can be intrinsified.
lib = Library::CoreLibrary();
ASSERT(!lib.IsNull());
CORE_LIB_INTRINSIC_LIST(SETUP_FUNCTION);
CORE_INTEGER_LIB_INTRINSIC_LIST(SETUP_FUNCTION);
GRAPH_CORE_INTRINSICS_LIST(SETUP_FUNCTION);
// Set up all math lib functions that can be intrinsified.
lib = Library::MathLibrary();
ASSERT(!lib.IsNull());
MATH_LIB_INTRINSIC_LIST(SETUP_FUNCTION);
GRAPH_MATH_LIB_INTRINSIC_LIST(SETUP_FUNCTION);
// Set up all dart:typed_data lib functions that can be intrinsified.
lib = Library::TypedDataLibrary();
ASSERT(!lib.IsNull());
TYPED_DATA_LIB_INTRINSIC_LIST(SETUP_FUNCTION);
GRAPH_TYPED_DATA_INTRINSICS_LIST(SETUP_FUNCTION);
// Setup all dart:developer lib functions that can be intrinsified.
lib = Library::DeveloperLibrary();
ASSERT(!lib.IsNull());
DEVELOPER_LIB_INTRINSIC_LIST(SETUP_FUNCTION);
#undef SETUP_FUNCTION
}
#endif // defined(DART_NO_SNAPSHOT).
// DBC does not use graph intrinsics.
#if !defined(TARGET_ARCH_DBC)
static void EmitCodeFor(FlowGraphCompiler* compiler,
FlowGraph* graph) {
// The FlowGraph here is constructed by the intrinsics builder methods, and
// is different from compiler->flow_graph(), the original method's flow graph.
compiler->assembler()->Comment("Graph intrinsic begin");
for (intptr_t i = 0; i < graph->reverse_postorder().length(); i++) {
BlockEntryInstr* block = graph->reverse_postorder()[i];
if (block->IsGraphEntry()) continue; // No code for graph entry needed.
if (block->HasParallelMove()) {
compiler->parallel_move_resolver()->EmitNativeCode(
block->parallel_move());
}
for (ForwardInstructionIterator it(block); !it.Done(); it.Advance()) {
Instruction* instr = it.Current();
if (FLAG_code_comments) compiler->EmitComment(instr);
if (instr->IsParallelMove()) {
compiler->parallel_move_resolver()->EmitNativeCode(
instr->AsParallelMove());
} else if (instr->IsInvokeMathCFunction()) {
ASSERT(instr->locs() != NULL);
Intrinsifier::IntrinsicCallPrologue(compiler->assembler());
instr->EmitNativeCode(compiler);
Intrinsifier::IntrinsicCallEpilogue(compiler->assembler());
} else {
ASSERT(instr->locs() != NULL);
// Calls are not supported in intrinsics code.
ASSERT(!instr->locs()->always_calls());
instr->EmitNativeCode(compiler);
}
}
}
compiler->assembler()->Comment("Graph intrinsic end");
}
#endif
bool Intrinsifier::GraphIntrinsify(const ParsedFunction& parsed_function,
FlowGraphCompiler* compiler) {
#if !defined(TARGET_ARCH_DBC)
ZoneGrowableArray<const ICData*>* ic_data_array =
new ZoneGrowableArray<const ICData*>();
FlowGraphBuilder builder(parsed_function,
*ic_data_array,
NULL, // NULL = not inlining.
Compiler::kNoOSRDeoptId);
intptr_t block_id = builder.AllocateBlockId();
TargetEntryInstr* normal_entry =
new TargetEntryInstr(block_id,
CatchClauseNode::kInvalidTryIndex);
GraphEntryInstr* graph_entry = new GraphEntryInstr(
parsed_function, normal_entry, Compiler::kNoOSRDeoptId);
FlowGraph* graph = new FlowGraph(parsed_function, graph_entry, block_id);
const Function& function = parsed_function.function();
switch (function.recognized_kind()) {
#define EMIT_CASE(class_name, function_name, enum_name, type, fp) \
case MethodRecognizer::k##enum_name: \
if (!Build_##enum_name(graph)) return false; \
break;
GRAPH_INTRINSICS_LIST(EMIT_CASE);
default:
return false;
#undef EMIT_CASE
}
if (FLAG_support_il_printer &&
FLAG_print_flow_graph && FlowGraphPrinter::ShouldPrint(function)) {
THR_Print("Intrinsic graph before\n");
FlowGraphPrinter printer(*graph);
printer.PrintBlocks();
}
// Perform register allocation on the SSA graph.
FlowGraphAllocator allocator(*graph, true); // Intrinsic mode.
allocator.AllocateRegisters();
if (FLAG_support_il_printer &&
FLAG_print_flow_graph && FlowGraphPrinter::ShouldPrint(function)) {
THR_Print("Intrinsic graph after\n");
FlowGraphPrinter printer(*graph);
printer.PrintBlocks();
}
EmitCodeFor(compiler, graph);
return true;
#else
return false;
#endif // !defined(TARGET_ARCH_DBC)
}
void Intrinsifier::Intrinsify(const ParsedFunction& parsed_function,
FlowGraphCompiler* compiler) {
const Function& function = parsed_function.function();
if (!CanIntrinsify(function)) {
return;
}
ASSERT(!compiler->flow_graph().IsCompiledForOsr());
if (GraphIntrinsify(parsed_function, compiler)) {
return;
}
#define EMIT_CASE(class_name, function_name, enum_name, type, fp) \
case MethodRecognizer::k##enum_name: \
compiler->assembler()->Comment("Intrinsic"); \
enum_name(compiler->assembler()); \
break;
switch (function.recognized_kind()) {
ALL_INTRINSICS_NO_INTEGER_LIB_LIST(EMIT_CASE);
default:
break;
}
switch (function.recognized_kind()) {
CORE_INTEGER_LIB_INTRINSIC_LIST(EMIT_CASE)
default:
break;
}
// On DBC all graph intrinsics are handled in the same way as non-graph
// intrinsics.
#if defined(TARGET_ARCH_DBC)
switch (function.recognized_kind()) {
GRAPH_INTRINSICS_LIST(EMIT_CASE)
default:
break;
}
#endif
#undef EMIT_INTRINSIC
}
#if !defined(TARGET_ARCH_DBC)
static intptr_t CidForRepresentation(Representation rep) {
switch (rep) {
case kUnboxedDouble:
return kDoubleCid;
case kUnboxedFloat32x4:
return kFloat32x4Cid;
case kUnboxedUint32:
return kDynamicCid; // smi or mint.
default:
UNREACHABLE();
return kIllegalCid;
}
}
// Notes about the graph intrinsics:
//
// IR instructions which would jump to a deoptimization sequence on failure
// instead branch to the intrinsic slow path.
//
class BlockBuilder : public ValueObject {
public:
BlockBuilder(FlowGraph* flow_graph, TargetEntryInstr* entry)
: flow_graph_(flow_graph), entry_(entry), current_(entry) { }
Definition* AddToInitialDefinitions(Definition* def) {
def->set_ssa_temp_index(flow_graph_->alloc_ssa_temp_index());
flow_graph_->AddToInitialDefinitions(def);
return def;
}
Definition* AddDefinition(Definition* def) {
def->set_ssa_temp_index(flow_graph_->alloc_ssa_temp_index());
current_ = current_->AppendInstruction(def);
return def;
}
Instruction* AddInstruction(Instruction* instr) {
current_ = current_->AppendInstruction(instr);
return instr;
}
void AddIntrinsicReturn(Value* value) {
ReturnInstr* instr = new ReturnInstr(TokenPos(), value);
AddInstruction(instr);
entry_->set_last_instruction(instr);
}
Definition* AddParameter(intptr_t index) {
intptr_t adjustment = Intrinsifier::ParameterSlotFromSp();
return AddToInitialDefinitions(
new ParameterInstr(adjustment + index,
flow_graph_->graph_entry(),
SPREG));
}
TokenPosition TokenPos() {
return flow_graph_->function().token_pos();
}
Definition* AddNullDefinition() {
return AddDefinition(
new ConstantInstr(Object::ZoneHandle(Object::null())));
}
Definition* AddUnboxInstr(Representation rep,
Value* value,
bool is_checked) {
Definition* unboxed_value = AddDefinition(
UnboxInstr::Create(rep, value, Thread::kNoDeoptId));
if (is_checked) {
// The type of |value| has already been checked and it is safe to
// adjust reaching type. This is done manually because there is no type
// propagation when building intrinsics.
unboxed_value->AsUnbox()->value()->SetReachingType(ZoneCompileType::Wrap(
CompileType::FromCid(CidForRepresentation(rep))));
}
return unboxed_value;
}
Definition* AddUnboxInstr(Representation rep,
Definition* boxed,
bool is_checked) {
return AddUnboxInstr(rep, new Value(boxed), is_checked);
}
Definition* InvokeMathCFunction(MethodRecognizer::Kind recognized_kind,
ZoneGrowableArray<Value*>* args) {
return InvokeMathCFunctionHelper(recognized_kind, args);
}
private:
Definition* InvokeMathCFunctionHelper(MethodRecognizer::Kind recognized_kind,
ZoneGrowableArray<Value*>* args) {
InvokeMathCFunctionInstr* invoke_math_c_function =
new InvokeMathCFunctionInstr(args,
Thread::kNoDeoptId,
recognized_kind,
TokenPos());
AddDefinition(invoke_math_c_function);
return invoke_math_c_function;
}
FlowGraph* flow_graph_;
BlockEntryInstr* entry_;
Instruction* current_;
};
static void PrepareIndexedOp(BlockBuilder* builder,
Definition* array,
Definition* index,
intptr_t length_offset) {
TokenPosition token_pos = builder->TokenPos();
builder->AddInstruction(
new CheckSmiInstr(new Value(index),
Thread::kNoDeoptId,
token_pos));
Definition* length = builder->AddDefinition(
new LoadFieldInstr(new Value(array),
length_offset,
Type::ZoneHandle(Type::SmiType()),
TokenPosition::kNoSource));
builder->AddInstruction(
new CheckArrayBoundInstr(new Value(length),
new Value(index),
Thread::kNoDeoptId));
}
bool Intrinsifier::Build_ObjectArrayGetIndexed(FlowGraph* flow_graph) {
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
Definition* index = builder.AddParameter(1);
Definition* array = builder.AddParameter(2);
PrepareIndexedOp(&builder, array, index, Array::length_offset());
Definition* result = builder.AddDefinition(
new LoadIndexedInstr(new Value(array),
new Value(index),
Instance::ElementSizeFor(kArrayCid), // index scale
kArrayCid,
Thread::kNoDeoptId,
builder.TokenPos()));
builder.AddIntrinsicReturn(new Value(result));
return true;
}
bool Intrinsifier::Build_ImmutableArrayGetIndexed(FlowGraph* flow_graph) {
return Build_ObjectArrayGetIndexed(flow_graph);
}
bool Intrinsifier::Build_Uint8ArrayGetIndexed(FlowGraph* flow_graph) {
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
Definition* index = builder.AddParameter(1);
Definition* array = builder.AddParameter(2);
PrepareIndexedOp(&builder, array, index, TypedData::length_offset());
Definition* result = builder.AddDefinition(
new LoadIndexedInstr(new Value(array),
new Value(index),
1, // index scale
kTypedDataUint8ArrayCid,
Thread::kNoDeoptId,
builder.TokenPos()));
builder.AddIntrinsicReturn(new Value(result));
return true;
}
bool Intrinsifier::Build_ExternalUint8ArrayGetIndexed(FlowGraph* flow_graph) {
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
Definition* index = builder.AddParameter(1);
Definition* array = builder.AddParameter(2);
PrepareIndexedOp(&builder, array, index, ExternalTypedData::length_offset());
Definition* elements = builder.AddDefinition(
new LoadUntaggedInstr(new Value(array),
ExternalTypedData::data_offset()));
Definition* result = builder.AddDefinition(
new LoadIndexedInstr(new Value(elements),
new Value(index),
1, // index scale
kExternalTypedDataUint8ArrayCid,
Thread::kNoDeoptId,
builder.TokenPos()));
builder.AddIntrinsicReturn(new Value(result));
return true;
}
bool Intrinsifier::Build_Uint8ArraySetIndexed(FlowGraph* flow_graph) {
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
Definition* value = builder.AddParameter(1);
Definition* index = builder.AddParameter(2);
Definition* array = builder.AddParameter(3);
PrepareIndexedOp(&builder, array, index, TypedData::length_offset());
builder.AddInstruction(
new CheckSmiInstr(new Value(value),
Thread::kNoDeoptId,
builder.TokenPos()));
builder.AddInstruction(
new StoreIndexedInstr(new Value(array),
new Value(index),
new Value(value),
kNoStoreBarrier,
1, // index scale
kTypedDataUint8ArrayCid,
Thread::kNoDeoptId,
builder.TokenPos()));
// Return null.
Definition* null_def = builder.AddNullDefinition();
builder.AddIntrinsicReturn(new Value(null_def));
return true;
}
bool Intrinsifier::Build_ExternalUint8ArraySetIndexed(FlowGraph* flow_graph) {
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
Definition* value = builder.AddParameter(1);
Definition* index = builder.AddParameter(2);
Definition* array = builder.AddParameter(3);
PrepareIndexedOp(&builder, array, index, ExternalTypedData::length_offset());
builder.AddInstruction(
new CheckSmiInstr(new Value(value),
Thread::kNoDeoptId,
builder.TokenPos()));
Definition* elements = builder.AddDefinition(
new LoadUntaggedInstr(new Value(array),
ExternalTypedData::data_offset()));
builder.AddInstruction(
new StoreIndexedInstr(new Value(elements),
new Value(index),
new Value(value),
kNoStoreBarrier,
1, // index scale
kExternalTypedDataUint8ArrayCid,
Thread::kNoDeoptId,
builder.TokenPos()));
// Return null.
Definition* null_def = builder.AddNullDefinition();
builder.AddIntrinsicReturn(new Value(null_def));
return true;
}
bool Intrinsifier::Build_Uint32ArraySetIndexed(FlowGraph* flow_graph) {
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
Definition* value = builder.AddParameter(1);
Definition* index = builder.AddParameter(2);
Definition* array = builder.AddParameter(3);
PrepareIndexedOp(&builder, array, index, TypedData::length_offset());
Definition* unboxed_value =
builder.AddUnboxInstr(kUnboxedUint32,
new Value(value),
/* is_checked = */ true);
builder.AddInstruction(
new StoreIndexedInstr(new Value(array),
new Value(index),
new Value(unboxed_value),
kNoStoreBarrier,
4, // index scale
kTypedDataUint32ArrayCid,
Thread::kNoDeoptId,
builder.TokenPos()));
// Return null.
Definition* null_def = builder.AddNullDefinition();
builder.AddIntrinsicReturn(new Value(null_def));
return true;
}
bool Intrinsifier::Build_Uint32ArrayGetIndexed(FlowGraph* flow_graph) {
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
Definition* index = builder.AddParameter(1);
Definition* array = builder.AddParameter(2);
PrepareIndexedOp(&builder, array, index, TypedData::length_offset());
Definition* unboxed_value = builder.AddDefinition(
new LoadIndexedInstr(new Value(array),
new Value(index),
4, // index scale
kTypedDataUint32ArrayCid,
Thread::kNoDeoptId,
builder.TokenPos()));
Definition* result = builder.AddDefinition(
BoxInstr::Create(kUnboxedUint32, new Value(unboxed_value)));
builder.AddIntrinsicReturn(new Value(result));
return true;
}
bool Intrinsifier::Build_Float64ArraySetIndexed(FlowGraph* flow_graph) {
if (!FlowGraphCompiler::SupportsUnboxedDoubles()) {
return false;
}
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
Definition* value = builder.AddParameter(1);
Definition* index = builder.AddParameter(2);
Definition* array = builder.AddParameter(3);
PrepareIndexedOp(&builder, array, index, TypedData::length_offset());
const ICData& value_check = ICData::ZoneHandle(ICData::New(
flow_graph->function(),
String::Handle(flow_graph->function().name()),
Object::empty_array(), // Dummy args. descr.
Thread::kNoDeoptId,
1,
false));
value_check.AddReceiverCheck(kDoubleCid, flow_graph->function());
builder.AddInstruction(
new CheckClassInstr(new Value(value),
Thread::kNoDeoptId,
value_check,
builder.TokenPos()));
Definition* double_value =
builder.AddUnboxInstr(kUnboxedDouble,
new Value(value),
/* is_checked = */ true);
builder.AddInstruction(
new StoreIndexedInstr(new Value(array),
new Value(index),
new Value(double_value),
kNoStoreBarrier,
8, // index scale
kTypedDataFloat64ArrayCid,
Thread::kNoDeoptId,
builder.TokenPos()));
// Return null.
Definition* null_def = builder.AddNullDefinition();
builder.AddIntrinsicReturn(new Value(null_def));
return true;
}
bool Intrinsifier::Build_Float64ArrayGetIndexed(FlowGraph* flow_graph) {
if (!FlowGraphCompiler::SupportsUnboxedDoubles()) {
return false;
}
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
Definition* index = builder.AddParameter(1);
Definition* array = builder.AddParameter(2);
PrepareIndexedOp(&builder, array, index, TypedData::length_offset());
Definition* unboxed_value = builder.AddDefinition(
new LoadIndexedInstr(new Value(array),
new Value(index),
8, // index scale
kTypedDataFloat64ArrayCid,
Thread::kNoDeoptId,
builder.TokenPos()));
Definition* result = builder.AddDefinition(
BoxInstr::Create(kUnboxedDouble, new Value(unboxed_value)));
builder.AddIntrinsicReturn(new Value(result));
return true;
}
static bool BuildCodeUnitAt(FlowGraph* flow_graph, intptr_t cid) {
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
Definition* index = builder.AddParameter(1);
Definition* str = builder.AddParameter(2);
PrepareIndexedOp(&builder, str, index, String::length_offset());
// For external strings: Load external data.
if (cid == kExternalOneByteStringCid) {
str = builder.AddDefinition(
new LoadUntaggedInstr(new Value(str),
ExternalOneByteString::external_data_offset()));
str = builder.AddDefinition(
new LoadUntaggedInstr(
new Value(str),
RawExternalOneByteString::ExternalData::data_offset()));
} else if (cid == kExternalTwoByteStringCid) {
str = builder.AddDefinition(
new LoadUntaggedInstr(new Value(str),
ExternalTwoByteString::external_data_offset()));
str = builder.AddDefinition(
new LoadUntaggedInstr(
new Value(str),
RawExternalTwoByteString::ExternalData::data_offset()));
}
Definition* result = builder.AddDefinition(
new LoadIndexedInstr(new Value(str),
new Value(index),
Instance::ElementSizeFor(cid),
cid,
Thread::kNoDeoptId,
builder.TokenPos()));
builder.AddIntrinsicReturn(new Value(result));
return true;
}
bool Intrinsifier::Build_OneByteStringCodeUnitAt(FlowGraph* flow_graph) {
return BuildCodeUnitAt(flow_graph, kOneByteStringCid);
}
bool Intrinsifier::Build_TwoByteStringCodeUnitAt(FlowGraph* flow_graph) {
return BuildCodeUnitAt(flow_graph, kTwoByteStringCid);
}
bool Intrinsifier::Build_ExternalOneByteStringCodeUnitAt(
FlowGraph* flow_graph) {
return BuildCodeUnitAt(flow_graph, kExternalOneByteStringCid);
}
bool Intrinsifier::Build_ExternalTwoByteStringCodeUnitAt(
FlowGraph* flow_graph) {
return BuildCodeUnitAt(flow_graph, kExternalTwoByteStringCid);
}
static bool BuildBinaryFloat32x4Op(FlowGraph* flow_graph, Token::Kind kind) {
if (!FlowGraphCompiler::SupportsUnboxedSimd128()) return false;
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
Definition* right = builder.AddParameter(1);
Definition* left = builder.AddParameter(2);
const ICData& value_check = ICData::ZoneHandle(ICData::New(
flow_graph->function(),
String::Handle(flow_graph->function().name()),
Object::empty_array(), // Dummy args. descr.
Thread::kNoDeoptId,
1,
false));
value_check.AddReceiverCheck(kFloat32x4Cid, flow_graph->function());
// Check argument. Receiver (left) is known to be a Float32x4.
builder.AddInstruction(
new CheckClassInstr(new Value(right),
Thread::kNoDeoptId,
value_check,
builder.TokenPos()));
Definition* left_simd =
builder.AddUnboxInstr(kUnboxedFloat32x4,
new Value(left),
/* is_checked = */ true);
Definition* right_simd =
builder.AddUnboxInstr(kUnboxedFloat32x4,
new Value(right),
/* is_checked = */ true);
Definition* unboxed_result = builder.AddDefinition(
new BinaryFloat32x4OpInstr(kind,
new Value(left_simd),
new Value(right_simd),
Thread::kNoDeoptId));
Definition* result = builder.AddDefinition(
BoxInstr::Create(kUnboxedFloat32x4, new Value(unboxed_result)));
builder.AddIntrinsicReturn(new Value(result));
return true;
}
bool Intrinsifier::Build_Float32x4Mul(FlowGraph* flow_graph) {
return BuildBinaryFloat32x4Op(flow_graph, Token::kMUL);
}
bool Intrinsifier::Build_Float32x4Sub(FlowGraph* flow_graph) {
return BuildBinaryFloat32x4Op(flow_graph, Token::kSUB);
}
bool Intrinsifier::Build_Float32x4Add(FlowGraph* flow_graph) {
return BuildBinaryFloat32x4Op(flow_graph, Token::kADD);
}
static bool BuildFloat32x4Shuffle(FlowGraph* flow_graph,
MethodRecognizer::Kind kind) {
if (!FlowGraphCompiler::SupportsUnboxedDoubles() ||
!FlowGraphCompiler::SupportsUnboxedSimd128()) {
return false;
}
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
Definition* receiver = builder.AddParameter(1);
Definition* unboxed_receiver =
builder.AddUnboxInstr(kUnboxedFloat32x4,
new Value(receiver),
/* is_checked = */ true);
Definition* unboxed_result = builder.AddDefinition(
new Simd32x4ShuffleInstr(kind,
new Value(unboxed_receiver),
0,
Thread::kNoDeoptId));
Definition* result = builder.AddDefinition(
BoxInstr::Create(kUnboxedDouble, new Value(unboxed_result)));
builder.AddIntrinsicReturn(new Value(result));
return true;
}
bool Intrinsifier::Build_Float32x4ShuffleX(FlowGraph* flow_graph) {
return BuildFloat32x4Shuffle(flow_graph,
MethodRecognizer::kFloat32x4ShuffleX);
}
bool Intrinsifier::Build_Float32x4ShuffleY(FlowGraph* flow_graph) {
return BuildFloat32x4Shuffle(flow_graph,
MethodRecognizer::kFloat32x4ShuffleY);
}
bool Intrinsifier::Build_Float32x4ShuffleZ(FlowGraph* flow_graph) {
return BuildFloat32x4Shuffle(flow_graph,
MethodRecognizer::kFloat32x4ShuffleZ);
}
bool Intrinsifier::Build_Float32x4ShuffleW(FlowGraph* flow_graph) {
return BuildFloat32x4Shuffle(flow_graph,
MethodRecognizer::kFloat32x4ShuffleW);
}
static bool BuildLoadField(FlowGraph* flow_graph, intptr_t offset) {
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
Definition* array = builder.AddParameter(1);
Definition* length = builder.AddDefinition(
new LoadFieldInstr(new Value(array),
offset,
Type::ZoneHandle(),
builder.TokenPos()));
builder.AddIntrinsicReturn(new Value(length));
return true;
}
bool Intrinsifier::Build_ObjectArrayLength(FlowGraph* flow_graph) {
return BuildLoadField(flow_graph, Array::length_offset());
}
bool Intrinsifier::Build_ImmutableArrayLength(FlowGraph* flow_graph) {
return BuildLoadField(flow_graph, Array::length_offset());
}
bool Intrinsifier::Build_GrowableArrayLength(FlowGraph* flow_graph) {
return BuildLoadField(flow_graph, GrowableObjectArray::length_offset());
}
bool Intrinsifier::Build_StringBaseLength(FlowGraph* flow_graph) {
return BuildLoadField(flow_graph, String::length_offset());
}
bool Intrinsifier::Build_TypedDataLength(FlowGraph* flow_graph) {
return BuildLoadField(flow_graph, TypedData::length_offset());
}
bool Intrinsifier::Build_GrowableArrayCapacity(FlowGraph* flow_graph) {
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
Definition* array = builder.AddParameter(1);
Definition* backing_store = builder.AddDefinition(
new LoadFieldInstr(new Value(array),
GrowableObjectArray::data_offset(),
Type::ZoneHandle(),
builder.TokenPos()));
Definition* capacity = builder.AddDefinition(
new LoadFieldInstr(new Value(backing_store),
Array::length_offset(),
Type::ZoneHandle(),
builder.TokenPos()));
builder.AddIntrinsicReturn(new Value(capacity));
return true;
}
bool Intrinsifier::Build_GrowableArrayGetIndexed(FlowGraph* flow_graph) {
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
Definition* index = builder.AddParameter(1);
Definition* growable_array = builder.AddParameter(2);
PrepareIndexedOp(
&builder, growable_array, index, GrowableObjectArray::length_offset());
Definition* backing_store = builder.AddDefinition(
new LoadFieldInstr(new Value(growable_array),
GrowableObjectArray::data_offset(),
Type::ZoneHandle(),
builder.TokenPos()));
Definition* result = builder.AddDefinition(
new LoadIndexedInstr(new Value(backing_store),
new Value(index),
Instance::ElementSizeFor(kArrayCid), // index scale
kArrayCid,
Thread::kNoDeoptId,
builder.TokenPos()));
builder.AddIntrinsicReturn(new Value(result));
return true;
}
bool Intrinsifier::Build_GrowableArraySetIndexed(FlowGraph* flow_graph) {
if (Isolate::Current()->type_checks()) {
return false;
}
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
Definition* value = builder.AddParameter(1);
Definition* index = builder.AddParameter(2);
Definition* array = builder.AddParameter(3);
PrepareIndexedOp(
&builder, array, index, GrowableObjectArray::length_offset());
Definition* backing_store = builder.AddDefinition(
new LoadFieldInstr(new Value(array),
GrowableObjectArray::data_offset(),
Type::ZoneHandle(),
builder.TokenPos()));
builder.AddInstruction(
new StoreIndexedInstr(new Value(backing_store),
new Value(index),
new Value(value),
kEmitStoreBarrier,
Instance::ElementSizeFor(kArrayCid), // index scale
kArrayCid,
Thread::kNoDeoptId,
builder.TokenPos()));
// Return null.
Definition* null_def = builder.AddNullDefinition();
builder.AddIntrinsicReturn(new Value(null_def));
return true;
}
bool Intrinsifier::Build_GrowableArraySetData(FlowGraph* flow_graph) {
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
Definition* data = builder.AddParameter(1);
Definition* growable_array = builder.AddParameter(2);
const ICData& value_check = ICData::ZoneHandle(ICData::New(
flow_graph->function(),
String::Handle(flow_graph->function().name()),
Object::empty_array(), // Dummy args. descr.
Thread::kNoDeoptId,
1,
false));
value_check.AddReceiverCheck(kArrayCid, flow_graph->function());
builder.AddInstruction(
new CheckClassInstr(new Value(data),
Thread::kNoDeoptId,
value_check,
builder.TokenPos()));
builder.AddInstruction(
new StoreInstanceFieldInstr(GrowableObjectArray::data_offset(),
new Value(growable_array),
new Value(data),
kEmitStoreBarrier,
builder.TokenPos()));
// Return null.
Definition* null_def = builder.AddNullDefinition();
builder.AddIntrinsicReturn(new Value(null_def));
return true;
}
bool Intrinsifier::Build_GrowableArraySetLength(FlowGraph* flow_graph) {
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
Definition* length = builder.AddParameter(1);
Definition* growable_array = builder.AddParameter(2);
builder.AddInstruction(
new CheckSmiInstr(new Value(length),
Thread::kNoDeoptId,
builder.TokenPos()));
builder.AddInstruction(
new StoreInstanceFieldInstr(GrowableObjectArray::length_offset(),
new Value(growable_array),
new Value(length),
kNoStoreBarrier,
builder.TokenPos()));
Definition* null_def = builder.AddNullDefinition();
builder.AddIntrinsicReturn(new Value(null_def));
return true;
}
bool Intrinsifier::Build_DoubleFlipSignBit(FlowGraph* flow_graph) {
if (!FlowGraphCompiler::SupportsUnboxedDoubles()) {
return false;
}
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
Definition* receiver = builder.AddParameter(1);
Definition* unboxed_value =
builder.AddUnboxInstr(kUnboxedDouble,
new Value(receiver),
/* is_checked = */ true);
Definition* unboxed_result = builder.AddDefinition(
new UnaryDoubleOpInstr(Token::kNEGATE,
new Value(unboxed_value),
Thread::kNoDeoptId));
Definition* result = builder.AddDefinition(
BoxInstr::Create(kUnboxedDouble, new Value(unboxed_result)));
builder.AddIntrinsicReturn(new Value(result));
return true;
}
static bool BuildInvokeMathCFunction(BlockBuilder* builder,
MethodRecognizer::Kind kind,
intptr_t num_parameters = 1) {
if (!FlowGraphCompiler::SupportsUnboxedDoubles()) {
return false;
}
ZoneGrowableArray<Value*>* args =
new ZoneGrowableArray<Value*>(num_parameters);
for (intptr_t i = 0; i < num_parameters; i++) {
const intptr_t parameter_index = (num_parameters - i);
Definition* value = builder->AddParameter(parameter_index);
Definition* unboxed_value =
builder->AddUnboxInstr(kUnboxedDouble, value, /* is_checked = */ false);
args->Add(new Value(unboxed_value));
}
Definition* unboxed_result =
builder->InvokeMathCFunction(kind, args);
Definition* result = builder->AddDefinition(
BoxInstr::Create(kUnboxedDouble, new Value(unboxed_result)));
builder->AddIntrinsicReturn(new Value(result));
return true;
}
bool Intrinsifier::Build_MathSin(FlowGraph* flow_graph) {
if (!FlowGraphCompiler::SupportsUnboxedDoubles()) return false;
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
return BuildInvokeMathCFunction(&builder,
MethodRecognizer::kMathSin);
}
bool Intrinsifier::Build_MathCos(FlowGraph* flow_graph) {
if (!FlowGraphCompiler::SupportsUnboxedDoubles()) return false;
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
return BuildInvokeMathCFunction(&builder,
MethodRecognizer::kMathCos);
}
bool Intrinsifier::Build_MathTan(FlowGraph* flow_graph) {
if (!FlowGraphCompiler::SupportsUnboxedDoubles()) return false;
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
return BuildInvokeMathCFunction(&builder,
MethodRecognizer::kMathTan);
}
bool Intrinsifier::Build_MathAsin(FlowGraph* flow_graph) {
if (!FlowGraphCompiler::SupportsUnboxedDoubles()) return false;
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
return BuildInvokeMathCFunction(&builder,
MethodRecognizer::kMathAsin);
}
bool Intrinsifier::Build_MathAcos(FlowGraph* flow_graph) {
if (!FlowGraphCompiler::SupportsUnboxedDoubles()) return false;
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
return BuildInvokeMathCFunction(&builder,
MethodRecognizer::kMathAcos);
}
bool Intrinsifier::Build_MathAtan(FlowGraph* flow_graph) {
if (!FlowGraphCompiler::SupportsUnboxedDoubles()) return false;
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
return BuildInvokeMathCFunction(&builder,
MethodRecognizer::kMathAtan);
}
bool Intrinsifier::Build_MathAtan2(FlowGraph* flow_graph) {
if (!FlowGraphCompiler::SupportsUnboxedDoubles()) return false;
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
return BuildInvokeMathCFunction(&builder,
MethodRecognizer::kMathAtan2,
/* num_parameters = */ 2);
}
bool Intrinsifier::Build_DoubleMod(FlowGraph* flow_graph) {
if (!FlowGraphCompiler::SupportsUnboxedDoubles()) return false;
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
return BuildInvokeMathCFunction(&builder,
MethodRecognizer::kDoubleMod,
/* num_parameters = */ 2);
}
bool Intrinsifier::Build_DoubleCeil(FlowGraph* flow_graph) {
if (!FlowGraphCompiler::SupportsUnboxedDoubles()) return false;
// TODO(johnmccutchan): On X86 this intrinsic can be written in a different
// way.
if (TargetCPUFeatures::double_truncate_round_supported()) return false;
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
return BuildInvokeMathCFunction(&builder,
MethodRecognizer::kDoubleCeil);
}
bool Intrinsifier::Build_DoubleFloor(FlowGraph* flow_graph) {
if (!FlowGraphCompiler::SupportsUnboxedDoubles()) return false;
// TODO(johnmccutchan): On X86 this intrinsic can be written in a different
// way.
if (TargetCPUFeatures::double_truncate_round_supported()) return false;
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
return BuildInvokeMathCFunction(&builder,
MethodRecognizer::kDoubleFloor);
}
bool Intrinsifier::Build_DoubleTruncate(FlowGraph* flow_graph) {
if (!FlowGraphCompiler::SupportsUnboxedDoubles()) return false;
// TODO(johnmccutchan): On X86 this intrinsic can be written in a different
// way.
if (TargetCPUFeatures::double_truncate_round_supported()) return false;
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
return BuildInvokeMathCFunction(&builder,
MethodRecognizer::kDoubleTruncate);
}
bool Intrinsifier::Build_DoubleRound(FlowGraph* flow_graph) {
if (!FlowGraphCompiler::SupportsUnboxedDoubles()) return false;
GraphEntryInstr* graph_entry = flow_graph->graph_entry();
TargetEntryInstr* normal_entry = graph_entry->normal_entry();
BlockBuilder builder(flow_graph, normal_entry);
return BuildInvokeMathCFunction(&builder,
MethodRecognizer::kDoubleRound);
}
#endif // !defined(TARGET_ARCH_DBC)
} // namespace dart