// Copyright 2019 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. #ifndef V8_COMPILER_PROCESSED_FEEDBACK_H_ #define V8_COMPILER_PROCESSED_FEEDBACK_H_ #include "src/compiler/feedback-source.h" #include "src/compiler/heap-refs.h" namespace v8 { namespace internal { namespace compiler { class BinaryOperationFeedback; class CallFeedback; class CompareOperationFeedback; class ElementAccessFeedback; class ForInFeedback; class GlobalAccessFeedback; class InstanceOfFeedback; class LiteralFeedback; class NamedAccessFeedback; class RegExpLiteralFeedback; class TemplateObjectFeedback; class ProcessedFeedback : public ZoneObject { public: enum Kind { kInsufficient, kBinaryOperation, kCall, kCompareOperation, kElementAccess, kForIn, kGlobalAccess, kInstanceOf, kLiteral, kNamedAccess, kRegExpLiteral, kTemplateObject, }; Kind kind() const { return kind_; } FeedbackSlotKind slot_kind() const { return slot_kind_; } bool IsInsufficient() const { return kind() == kInsufficient; } BinaryOperationFeedback const& AsBinaryOperation() const; CallFeedback const& AsCall() const; CompareOperationFeedback const& AsCompareOperation() const; ElementAccessFeedback const& AsElementAccess() const; ForInFeedback const& AsForIn() const; GlobalAccessFeedback const& AsGlobalAccess() const; InstanceOfFeedback const& AsInstanceOf() const; NamedAccessFeedback const& AsNamedAccess() const; LiteralFeedback const& AsLiteral() const; RegExpLiteralFeedback const& AsRegExpLiteral() const; TemplateObjectFeedback const& AsTemplateObject() const; protected: ProcessedFeedback(Kind kind, FeedbackSlotKind slot_kind); private: Kind const kind_; FeedbackSlotKind const slot_kind_; }; class InsufficientFeedback final : public ProcessedFeedback { public: explicit InsufficientFeedback(FeedbackSlotKind slot_kind); }; class GlobalAccessFeedback : public ProcessedFeedback { public: GlobalAccessFeedback(PropertyCellRef cell, FeedbackSlotKind slot_kind); GlobalAccessFeedback(ContextRef script_context, int slot_index, bool immutable, FeedbackSlotKind slot_kind); explicit GlobalAccessFeedback(FeedbackSlotKind slot_kind); // Megamorphic bool IsMegamorphic() const; bool IsPropertyCell() const; PropertyCellRef property_cell() const; bool IsScriptContextSlot() const; ContextRef script_context() const; int slot_index() const; bool immutable() const; base::Optional GetConstantHint() const; private: base::Optional const cell_or_context_; int const index_and_immutable_; }; class KeyedAccessMode { public: static KeyedAccessMode FromNexus(FeedbackNexus const& nexus); AccessMode access_mode() const; bool IsLoad() const; bool IsStore() const; KeyedAccessLoadMode load_mode() const; KeyedAccessStoreMode store_mode() const; private: AccessMode const access_mode_; union LoadStoreMode { LoadStoreMode(KeyedAccessLoadMode load_mode); LoadStoreMode(KeyedAccessStoreMode store_mode); KeyedAccessLoadMode load_mode; KeyedAccessStoreMode store_mode; } const load_store_mode_; KeyedAccessMode(AccessMode access_mode, KeyedAccessLoadMode load_mode); KeyedAccessMode(AccessMode access_mode, KeyedAccessStoreMode store_mode); }; class ElementAccessFeedback : public ProcessedFeedback { public: ElementAccessFeedback(Zone* zone, KeyedAccessMode const& keyed_mode, FeedbackSlotKind slot_kind); KeyedAccessMode keyed_mode() const; // A transition group is a target and a possibly empty set of sources that can // transition to the target. It is represented as a non-empty vector with the // target at index 0. using TransitionGroup = ZoneVector>; ZoneVector const& transition_groups() const; bool HasOnlyStringMaps(JSHeapBroker* broker) const; void AddGroup(TransitionGroup&& group); // Refine {this} by trying to restrict it to the maps in {inferred_maps}. A // transition group's target is kept iff it is in {inferred_maps} or if more // than one of its sources is in {inferred_maps}. Here's an (unrealistic) // example showing all the possible situations: // // inferred_maps = [a0, a2, c1, c2, d1, e0, e1] // // Groups before: Groups after: // [a0, a1, a2] [a0, a2] // [b0] // [c0, c1, c2, c3] [c0, c1, c2] // [d0, d1] [d1] // [e0, e1] [e0, e1] // ElementAccessFeedback const& Refine( JSHeapBroker* broker, ZoneVector const& inferred_maps) const; private: KeyedAccessMode const keyed_mode_; ZoneVector transition_groups_; }; class NamedAccessFeedback : public ProcessedFeedback { public: NamedAccessFeedback(NameRef const& name, ZoneVector const& maps, FeedbackSlotKind slot_kind); NameRef const& name() const { return name_; } ZoneVector const& maps() const { return maps_; } private: NameRef const name_; ZoneVector const maps_; }; class CallFeedback : public ProcessedFeedback { public: CallFeedback(base::Optional target, float frequency, SpeculationMode mode, CallFeedbackContent call_feedback_content, FeedbackSlotKind slot_kind) : ProcessedFeedback(kCall, slot_kind), target_(target), frequency_(frequency), mode_(mode), content_(call_feedback_content) {} base::Optional target() const { return target_; } float frequency() const { return frequency_; } SpeculationMode speculation_mode() const { return mode_; } CallFeedbackContent call_feedback_content() const { return content_; } private: base::Optional const target_; float const frequency_; SpeculationMode const mode_; CallFeedbackContent const content_; }; template class SingleValueFeedback : public ProcessedFeedback { public: explicit SingleValueFeedback(T value, FeedbackSlotKind slot_kind) : ProcessedFeedback(K, slot_kind), value_(value) { DCHECK( (K == kBinaryOperation && slot_kind == FeedbackSlotKind::kBinaryOp) || (K == kCompareOperation && slot_kind == FeedbackSlotKind::kCompareOp) || (K == kForIn && slot_kind == FeedbackSlotKind::kForIn) || (K == kInstanceOf && slot_kind == FeedbackSlotKind::kInstanceOf) || ((K == kLiteral || K == kRegExpLiteral || K == kTemplateObject) && slot_kind == FeedbackSlotKind::kLiteral)); } T value() const { return value_; } private: T const value_; }; class InstanceOfFeedback : public SingleValueFeedback, ProcessedFeedback::kInstanceOf> { using SingleValueFeedback::SingleValueFeedback; }; class LiteralFeedback : public SingleValueFeedback { using SingleValueFeedback::SingleValueFeedback; }; class RegExpLiteralFeedback : public SingleValueFeedback { using SingleValueFeedback::SingleValueFeedback; }; class TemplateObjectFeedback : public SingleValueFeedback { using SingleValueFeedback::SingleValueFeedback; }; class BinaryOperationFeedback : public SingleValueFeedback { using SingleValueFeedback::SingleValueFeedback; }; class CompareOperationFeedback : public SingleValueFeedback { using SingleValueFeedback::SingleValueFeedback; }; class ForInFeedback : public SingleValueFeedback { using SingleValueFeedback::SingleValueFeedback; }; } // namespace compiler } // namespace internal } // namespace v8 #endif // V8_COMPILER_PROCESSED_FEEDBACK_H_