blob: c0ad62dc1e11227e973c48ca3ca58a26314c2293 [file] [log] [blame]
// Copyright (c) 2017, 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.
#error "AOT runtime should not use compiler sources (including header files)"
#include "vm/compiler/backend/flow_graph.h"
#include "vm/compiler/backend/il.h"
namespace dart {
class SpeculativeInliningPolicy;
// Call specialization pass is responsible for replacing instance calls by
// faster alternatives based on type feedback (JIT), type speculations (AOT),
// locally propagated type information or global type information.
// This pass for example can
// * Replace a call to a binary arithmetic operator with corresponding IL
// instructions and necessary checks;
// * Replace a dynamic call with a static call, if reciever is known
// to have a certain class id;
// * Replace type check with a range check
// CallSpecializer is a base class that contains logic shared between
// JIT and AOT compilation pipelines, see JitCallSpecializer for JIT specific
// optimizations and AotCallSpecializer for AOT specific optimizations.
class CallSpecializer : public FlowGraphVisitor {
CallSpecializer(FlowGraph* flow_graph,
SpeculativeInliningPolicy* speculative_policy,
bool should_clone_fields)
: FlowGraphVisitor(flow_graph->reverse_postorder()),
flow_graph_(flow_graph) {}
virtual ~CallSpecializer() {}
FlowGraph* flow_graph() const { return flow_graph_; }
void set_flow_graph(FlowGraph* flow_graph) {
flow_graph_ = flow_graph;
// Use ICData to optimize, replace or eliminate instructions.
void ApplyICData();
// Use propagated class ids to optimize, replace or eliminate instructions.
void ApplyClassIds();
virtual void ReplaceInstanceCallsWithDispatchTableCalls();
void InsertBefore(Instruction* next,
Instruction* instr,
Environment* env,
FlowGraph::UseKind use_kind) {
flow_graph_->InsertBefore(next, instr, env, use_kind);
virtual void VisitStaticCall(StaticCallInstr* instr);
// TODO( these methods have nothing to do with
// specialization of calls. They are here for historical reasons.
// Find a better place for them.
virtual void VisitLoadCodeUnits(LoadCodeUnitsInstr* instr);
Thread* thread() const { return flow_graph_->thread(); }
IsolateGroup* isolate_group() const { return flow_graph_->isolate_group(); }
Zone* zone() const { return flow_graph_->zone(); }
const Function& function() const { return flow_graph_->function(); }
bool TryReplaceWithIndexedOp(InstanceCallInstr* call);
bool TryReplaceWithBinaryOp(InstanceCallInstr* call, Token::Kind op_kind);
bool TryReplaceWithUnaryOp(InstanceCallInstr* call, Token::Kind op_kind);
bool TryReplaceWithEqualityOp(InstanceCallInstr* call, Token::Kind op_kind);
bool TryReplaceWithRelationalOp(InstanceCallInstr* call, Token::Kind op_kind);
bool TryInlineInstanceGetter(InstanceCallInstr* call);
bool TryInlineInstanceSetter(InstanceCallInstr* call);
bool TryInlineInstanceMethod(InstanceCallInstr* call);
void ReplaceWithInstanceOf(InstanceCallInstr* instr);
// Replaces a call where the replacement code does not end in a
// value-returning instruction, so we must specify what definition should be
// used instead to replace uses of the call return value.
void ReplaceCallWithResult(Definition* call,
Instruction* replacement,
Definition* result);
void ReplaceCall(Definition* call, Definition* replacement);
// Add a class check for the call's first argument (receiver).
void AddReceiverCheck(InstanceCallInstr* call) {
AddCheckClass(call->Receiver()->definition(), call->Targets(),
call->deopt_id(), call->env(), call);
// Insert a null check if needed.
void AddCheckNull(Value* to_check,
const String& function_name,
intptr_t deopt_id,
Environment* deopt_environment,
Instruction* insert_before);
// Attempt to build ICData for call using propagated class-ids.
virtual bool TryCreateICData(InstanceCallInstr* call);
virtual bool TryReplaceInstanceOfWithRangeCheck(InstanceCallInstr* call,
const AbstractType& type);
virtual bool TryOptimizeStaticCallUsingStaticTypes(StaticCallInstr* call) = 0;
void InlineImplicitInstanceGetter(Definition* call, const Field& field);
// Insert a check of 'to_check' determined by 'unary_checks'. If the
// check fails it will deoptimize to 'deopt_id' using the deoptimization
// environment 'deopt_environment'. The check is inserted immediately
// before 'insert_before'.
void AddCheckClass(Definition* to_check,
const Cids& cids,
intptr_t deopt_id,
Environment* deopt_environment,
Instruction* insert_before);
SpeculativeInliningPolicy* speculative_policy_;
const bool should_clone_fields_;
bool TypeCheckAsClassEquality(const AbstractType& type);
// Insert a Smi check if needed.
void AddCheckSmi(Definition* to_check,
intptr_t deopt_id,
Environment* deopt_environment,
Instruction* insert_before);
// Add a class check for a call's nth argument immediately before the
// call, using the call's IC data to determine the check, and the call's
// deopt ID and deoptimization environment if the check fails.
void AddChecksForArgNr(InstanceCallInstr* call,
Definition* argument,
int argument_number);
bool InlineSimdBinaryOp(InstanceCallInstr* call,
intptr_t cid,
Token::Kind op_kind);
bool TryInlineImplicitInstanceGetter(InstanceCallInstr* call);
BoolPtr InstanceOfAsBool(const ICData& ic_data,
const AbstractType& type,
ZoneGrowableArray<intptr_t>* results) const;
bool TryOptimizeInstanceOfUsingStaticTypes(InstanceCallInstr* call,
const AbstractType& type);
void ReplaceWithMathCFunction(InstanceCallInstr* call,
MethodRecognizer::Kind recognized_kind);
bool TryStringLengthOneEquality(InstanceCallInstr* call, Token::Kind op_kind);
void SpecializePolymorphicInstanceCall(PolymorphicInstanceCallInstr* call);
// Tries to add cid tests to 'results' so that no deoptimization is
// necessary for common number-related type tests. Unconditionally adds an
// entry for the Smi type to the start of the array.
static bool SpecializeTestCidsForNumericTypes(
ZoneGrowableArray<intptr_t>* results,
const AbstractType& type);
FlowGraph* flow_graph_;
V(Int8List, int8_list_type_, int_type_, kTypedDataInt8ArrayCid) \
V(Uint8List, uint8_list_type_, int_type_, kTypedDataUint8ArrayCid) \
V(Uint8ClampedList, uint8_clamped_type_, int_type_, \
kTypedDataUint8ClampedArrayCid) \
V(Int16List, int16_list_type_, int_type_, kTypedDataInt16ArrayCid) \
V(Uint16List, uint16_list_type_, int_type_, kTypedDataUint16ArrayCid) \
V(Int32List, int32_list_type_, int_type_, kTypedDataInt32ArrayCid) \
V(Uint32List, uint32_list_type_, int_type_, kTypedDataUint32ArrayCid) \
V(Int64List, int64_list_type_, int_type_, kTypedDataInt64ArrayCid) \
V(Uint64List, uint64_list_type_, int_type_, kTypedDataUint64ArrayCid) \
V(Float32List, float32_list_type_, double_type_, kTypedDataFloat32ArrayCid) \
V(Float64List, float64_list_type_, double_type_, kTypedDataFloat64ArrayCid)
// Specializes instance/static calls with receiver type being a typed data
// interface (if that interface is only implemented by internal/external/view
// typed data classes).
// For example:
// foo(Uint8List bytes) => bytes[0];
// Would be translated to something like this:
// v0 <- Constant(0)
// // Ensures the list is non-null.
// v1 <- ParameterInstr(0)
// v2 <- CheckNull(v1)
// // Load the length & perform bounds checks
// v3 <- LoadField(v2, "TypedDataBase.length");
// v4 <- GenericCheckBounds(v3, v0);
// // Directly access the byte, independent of whether `bytes` is
// // _Uint8List, _Uint8ArrayView or _ExternalUint8Array.
// v5 <- LoadUntagged(v1, "");
// v5 <- LoadIndexed(v5, v4)
class TypedDataSpecializer : public FlowGraphVisitor {
static void Optimize(FlowGraph* flow_graph);
virtual void VisitInstanceCall(InstanceCallInstr* instr);
virtual void VisitStaticCall(StaticCallInstr* instr);
// clang-format off
explicit TypedDataSpecializer(FlowGraph* flow_graph)
: FlowGraphVisitor(flow_graph->reverse_postorder()),
#define ALLOCATE_HANDLE(iface, member_name, type, cid) \
implementor_(Class::Handle()) {
// clang-format on
void EnsureIsInitialized();
bool HasThirdPartyImplementor(const GrowableObjectArray& direct_implementors);
void TryInlineCall(TemplateDartCall<0>* call);
void ReplaceWithLengthGetter(TemplateDartCall<0>* call);
void ReplaceWithIndexGet(TemplateDartCall<0>* call, classid_t cid);
void ReplaceWithIndexSet(TemplateDartCall<0>* call, classid_t cid);
void AppendNullCheck(TemplateDartCall<0>* call, Definition** array);
void AppendBoundsCheck(TemplateDartCall<0>* call,
Definition* array,
Definition** index);
Definition* AppendLoadLength(TemplateDartCall<0>* call, Definition* array);
Definition* AppendLoadIndexed(TemplateDartCall<0>* call,
Definition* array,
Definition* index,
classid_t cid);
void AppendStoreIndexed(TemplateDartCall<0>* call,
Definition* array,
Definition* index,
Definition* value,
classid_t cid);
Zone* zone() const { return zone_; }
Thread* thread_;
Zone* zone_;
FlowGraph* flow_graph_;
bool initialized_ = false;
#define DEF_HANDLE(iface, member_name, type, cid) AbstractType& member_name;
AbstractType& int_type_;
AbstractType& double_type_;
Class& implementor_;
} // namespace dart