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// Copyright 2020 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_OBJECTS_JS_FUNCTION_H_
#define V8_OBJECTS_JS_FUNCTION_H_
#include "src/base/optional.h"
#include "src/objects/code-kind.h"
#include "src/objects/js-objects.h"
// Has to be the last include (doesn't have include guards):
#include "src/objects/object-macros.h"
namespace v8 {
namespace internal {
#include "torque-generated/src/objects/js-function-tq.inc"
// An abstract superclass for classes representing JavaScript function values.
// It doesn't carry any functionality but allows function classes to be
// identified in the type system.
class JSFunctionOrBoundFunctionOrWrappedFunction
: public TorqueGeneratedJSFunctionOrBoundFunctionOrWrappedFunction<
JSFunctionOrBoundFunctionOrWrappedFunction, JSObject> {
public:
static const int kLengthDescriptorIndex = 0;
static const int kNameDescriptorIndex = 1;
// https://tc39.es/proposal-shadowrealm/#sec-copynameandlength
static Maybe<bool> CopyNameAndLength(
Isolate* isolate,
Handle<JSFunctionOrBoundFunctionOrWrappedFunction> function,
Handle<JSReceiver> target, Handle<String> prefix, int arg_count);
static_assert(kHeaderSize == JSObject::kHeaderSize);
TQ_OBJECT_CONSTRUCTORS(JSFunctionOrBoundFunctionOrWrappedFunction)
};
// JSBoundFunction describes a bound function exotic object.
class JSBoundFunction
: public TorqueGeneratedJSBoundFunction<
JSBoundFunction, JSFunctionOrBoundFunctionOrWrappedFunction> {
public:
static MaybeHandle<String> GetName(Isolate* isolate,
Handle<JSBoundFunction> function);
static Maybe<int> GetLength(Isolate* isolate,
Handle<JSBoundFunction> function);
// Dispatched behavior.
DECL_PRINTER(JSBoundFunction)
DECL_VERIFIER(JSBoundFunction)
// The bound function's string representation implemented according
// to ES6 section 19.2.3.5 Function.prototype.toString ( ).
static Handle<String> ToString(Handle<JSBoundFunction> function);
TQ_OBJECT_CONSTRUCTORS(JSBoundFunction)
};
// JSWrappedFunction describes a wrapped function exotic object.
class JSWrappedFunction
: public TorqueGeneratedJSWrappedFunction<
JSWrappedFunction, JSFunctionOrBoundFunctionOrWrappedFunction> {
public:
static MaybeHandle<String> GetName(Isolate* isolate,
Handle<JSWrappedFunction> function);
static Maybe<int> GetLength(Isolate* isolate,
Handle<JSWrappedFunction> function);
// https://tc39.es/proposal-shadowrealm/#sec-wrappedfunctioncreate
static MaybeHandle<Object> Create(Isolate* isolate,
Handle<NativeContext> creation_context,
Handle<JSReceiver> value);
// Dispatched behavior.
DECL_PRINTER(JSWrappedFunction)
DECL_VERIFIER(JSWrappedFunction)
// The wrapped function's string representation implemented according
// to ES6 section 19.2.3.5 Function.prototype.toString ( ).
static Handle<String> ToString(Handle<JSWrappedFunction> function);
TQ_OBJECT_CONSTRUCTORS(JSWrappedFunction)
};
// JSFunction describes JavaScript functions.
class JSFunction : public TorqueGeneratedJSFunction<
JSFunction, JSFunctionOrBoundFunctionOrWrappedFunction> {
public:
// [prototype_or_initial_map]:
DECL_RELEASE_ACQUIRE_ACCESSORS(prototype_or_initial_map, Tagged<HeapObject>)
// [shared]: The information about the function that can be shared by
// instances.
DECL_ACCESSORS(shared, Tagged<SharedFunctionInfo>)
DECL_RELAXED_GETTER(shared, Tagged<SharedFunctionInfo>)
// Fast binding requires length and name accessors.
static const int kMinDescriptorsForFastBindAndWrap = 2;
// [context]: The context for this function.
inline Tagged<Context> context();
DECL_RELAXED_GETTER(context, Tagged<Context>)
inline bool has_context() const;
using TorqueGeneratedClass::context;
using TorqueGeneratedClass::set_context;
DECL_RELEASE_ACQUIRE_ACCESSORS(context, Tagged<Context>)
inline Tagged<JSGlobalProxy> global_proxy();
inline Tagged<NativeContext> native_context();
inline int length();
static Handle<String> GetName(Isolate* isolate, Handle<JSFunction> function);
// [code]: The generated code object for this function. Executed
// when the function is invoked, e.g. foo() or new foo(). See
// [[Call]] and [[Construct]] description in ECMA-262, section
// 8.6.2, page 27.
// Release/Acquire accessors are used when storing a newly-created
// optimized code object, or when reading from the background thread.
// Storing a builtin doesn't require release semantics because these objects
// are fully initialized.
DECL_ACCESSORS(code, Tagged<Code>)
DECL_RELEASE_ACQUIRE_ACCESSORS(code, Tagged<Code>)
// Returns the raw content of the Code field. When reading from a background
// thread, the code field may still be uninitialized, in which case the field
// contains Smi::zero().
inline Tagged<Object> raw_code() const;
inline Tagged<Object> raw_code(AcquireLoadTag) const;
// Returns the address of the function code's instruction start.
inline Address instruction_start() const;
// Get the abstract code associated with the function, which will either be
// a InstructionStream object or a BytecodeArray.
template <typename IsolateT>
inline Tagged<AbstractCode> abstract_code(IsolateT* isolate);
// The predicates for querying code kinds related to this function have
// specific terminology:
//
// - Attached: all code kinds that are directly attached to this JSFunction
// object.
// - Available: all code kinds that are either attached or available through
// indirect means such as the feedback vector's optimized code cache.
// - Active: the single code kind that would be executed if this function
// were called in its current state. Note that there may not be an active
// code kind if the function is not compiled. Also, asm/wasm functions are
// currently not supported.
//
// Note: code objects that are marked_for_deoptimization are not part of the
// attached/available/active sets. This is because the JSFunction might have
// been already deoptimized but its code() still needs to be unlinked, which
// will happen on its next activation.
bool HasAvailableHigherTierCodeThan(CodeKind kind) const;
// As above but only considers available code kinds passing the filter mask.
bool HasAvailableHigherTierCodeThanWithFilter(CodeKind kind,
CodeKinds filter_mask) const;
// True, iff any generated code kind is attached/available to this function.
V8_EXPORT_PRIVATE bool HasAttachedOptimizedCode() const;
bool HasAvailableOptimizedCode() const;
bool HasAttachedCodeKind(CodeKind kind) const;
bool HasAvailableCodeKind(CodeKind kind) const;
base::Optional<CodeKind> GetActiveTier() const;
V8_EXPORT_PRIVATE bool ActiveTierIsIgnition() const;
bool ActiveTierIsBaseline() const;
bool ActiveTierIsMaglev() const;
bool ActiveTierIsTurbofan() const;
// Similar to SharedFunctionInfo::CanDiscardCompiled. Returns true, if the
// attached code can be recreated at a later point by replacing it with
// CompileLazy.
bool CanDiscardCompiled() const;
// Tells whether function's code object checks its tiering state (some code
// kinds, e.g. TURBOFAN, ignore the tiering state).
inline bool ChecksTieringState();
inline TieringState tiering_state() const;
inline void set_tiering_state(TieringState state);
inline void reset_tiering_state();
// Mark this function for lazy recompilation. The function will be recompiled
// the next time it is executed.
void MarkForOptimization(Isolate* isolate, CodeKind target_kind,
ConcurrencyMode mode);
inline TieringState osr_tiering_state();
inline void set_osr_tiering_state(TieringState marker);
// Sets the interrupt budget based on whether the function has a feedback
// vector and any optimized code.
void SetInterruptBudget(Isolate* isolate,
base::Optional<CodeKind> override_active_tier = {});
// If slack tracking is active, it computes instance size of the initial map
// with minimum permissible object slack. If it is not active, it simply
// returns the initial map's instance size.
int ComputeInstanceSizeWithMinSlack(Isolate* isolate);
// Completes inobject slack tracking on initial map if it is active.
inline void CompleteInobjectSlackTrackingIfActive();
// [raw_feedback_cell]: Gives raw access to the FeedbackCell used to hold the
/// FeedbackVector eventually. Generally this shouldn't be used to get the
// feedback_vector, instead use feedback_vector() which correctly deals with
// the JSFunction's bytecode being flushed.
DECL_ACCESSORS(raw_feedback_cell, Tagged<FeedbackCell>)
// [raw_feedback_cell] (synchronized version) When this is initialized from a
// newly allocated object (instead of a root sentinel), it should
// be written with release store semantics.
DECL_RELEASE_ACQUIRE_ACCESSORS(raw_feedback_cell, Tagged<FeedbackCell>)
// Functions related to feedback vector. feedback_vector() can be used once
// the function has feedback vectors allocated. feedback vectors may not be
// available after compile when lazily allocating feedback vectors.
DECL_GETTER(feedback_vector, Tagged<FeedbackVector>)
DECL_GETTER(has_feedback_vector, bool)
V8_EXPORT_PRIVATE static void EnsureFeedbackVector(
Isolate* isolate, Handle<JSFunction> function,
IsCompiledScope* compiled_scope);
static void CreateAndAttachFeedbackVector(Isolate* isolate,
Handle<JSFunction> function,
IsCompiledScope* compiled_scope);
// Functions related to closure feedback cell array that holds feedback cells
// used to create closures from this function. We allocate closure feedback
// cell arrays after compile, when we want to allocate feedback vectors
// lazily.
inline bool has_closure_feedback_cell_array() const;
inline Tagged<ClosureFeedbackCellArray> closure_feedback_cell_array() const;
static void EnsureClosureFeedbackCellArray(
Handle<JSFunction> function, bool reset_budget_for_feedback_allocation);
// Initializes the feedback cell of |function|. In lite mode, this would be
// initialized to the closure feedback cell array that holds the feedback
// cells for create closure calls from this function. In the regular mode,
// this allocates feedback vector.
static void InitializeFeedbackCell(Handle<JSFunction> function,
IsCompiledScope* compiled_scope,
bool reset_budget_for_feedback_allocation);
// Unconditionally clear the type feedback vector, even those that we usually
// keep (e.g.: BinaryOp feedback).
void ClearAllTypeFeedbackInfoForTesting();
// Resets function to clear compiled data after bytecode has been flushed.
inline bool NeedsResetDueToFlushedBytecode();
inline void ResetIfCodeFlushed(
base::Optional<
std::function<void(Tagged<HeapObject> object, ObjectSlot slot,
Tagged<HeapObject> target)>>
gc_notify_updated_slot = base::nullopt);
// Returns if the closure's code field has to be updated because it has
// stale baseline code.
inline bool NeedsResetDueToFlushedBaselineCode();
// Returns if baseline code is a candidate for flushing. This method is called
// from concurrent marking so we should be careful when accessing data fields.
inline bool ShouldFlushBaselineCode(
base::EnumSet<CodeFlushMode> code_flush_mode);
DECL_GETTER(has_prototype_slot, bool)
// The initial map for an object created by this constructor.
DECL_GETTER(initial_map, Tagged<Map>)
static void SetInitialMap(Isolate* isolate, Handle<JSFunction> function,
Handle<Map> map, Handle<HeapObject> prototype);
static void SetInitialMap(Isolate* isolate, Handle<JSFunction> function,
Handle<Map> map, Handle<HeapObject> prototype,
Handle<JSFunction> constructor);
DECL_GETTER(has_initial_map, bool)
V8_EXPORT_PRIVATE static void EnsureHasInitialMap(
Handle<JSFunction> function);
// Creates a map that matches the constructor's initial map, but with
// [[prototype]] being new.target.prototype. Because new.target can be a
// JSProxy, this can call back into JavaScript.
V8_EXPORT_PRIVATE static V8_WARN_UNUSED_RESULT MaybeHandle<Map> GetDerivedMap(
Isolate* isolate, Handle<JSFunction> constructor,
Handle<JSReceiver> new_target);
// Like GetDerivedMap, but returns a map with a RAB / GSAB ElementsKind.
static V8_WARN_UNUSED_RESULT MaybeHandle<Map> GetDerivedRabGsabTypedArrayMap(
Isolate* isolate, Handle<JSFunction> constructor,
Handle<JSReceiver> new_target);
// Like GetDerivedMap, but can be used for DataViews for retrieving / creating
// a map with a JS_RAB_GSAB_DATA_VIEW instance type.
static V8_WARN_UNUSED_RESULT MaybeHandle<Map> GetDerivedRabGsabDataViewMap(
Isolate* isolate, Handle<JSReceiver> new_target);
// Get and set the prototype property on a JSFunction. If the
// function has an initial map the prototype is set on the initial
// map. Otherwise, the prototype is put in the initial map field
// until an initial map is needed.
DECL_GETTER(has_prototype, bool)
DECL_GETTER(has_instance_prototype, bool)
DECL_GETTER(prototype, Tagged<Object>)
DECL_GETTER(instance_prototype, Tagged<HeapObject>)
DECL_GETTER(has_prototype_property, bool)
DECL_GETTER(PrototypeRequiresRuntimeLookup, bool)
static void SetPrototype(Handle<JSFunction> function, Handle<Object> value);
// Returns if this function has been compiled to native code yet.
inline bool is_compiled() const;
static int GetHeaderSize(bool function_has_prototype_slot) {
return function_has_prototype_slot ? JSFunction::kSizeWithPrototype
: JSFunction::kSizeWithoutPrototype;
}
std::unique_ptr<char[]> DebugNameCStr();
void PrintName(FILE* out = stdout);
// Calculate the instance size and in-object properties count.
// {CalculateExpectedNofProperties} can trigger compilation.
static V8_WARN_UNUSED_RESULT int CalculateExpectedNofProperties(
Isolate* isolate, Handle<JSFunction> function);
static void CalculateInstanceSizeHelper(InstanceType instance_type,
bool has_prototype_slot,
int requested_embedder_fields,
int requested_in_object_properties,
int* instance_size,
int* in_object_properties);
// Dispatched behavior.
DECL_PRINTER(JSFunction)
DECL_VERIFIER(JSFunction)
static Handle<String> GetName(Handle<JSFunction> function);
// ES6 section 9.2.11 SetFunctionName
// Because of the way this abstract operation is used in the spec,
// it should never fail, but in practice it will fail if the generated
// function name's length exceeds String::kMaxLength.
static V8_WARN_UNUSED_RESULT bool SetName(Handle<JSFunction> function,
Handle<Name> name,
Handle<String> prefix);
// The function's name if it is configured, otherwise shared function info
// debug name.
static Handle<String> GetDebugName(Handle<JSFunction> function);
// The function's string representation implemented according to
// ES6 section 19.2.3.5 Function.prototype.toString ( ).
static Handle<String> ToString(Handle<JSFunction> function);
class BodyDescriptor;
private:
// JSFunction doesn't have a fixed header size:
// Hide TorqueGeneratedClass::kHeaderSize to avoid confusion.
static const int kHeaderSize;
// Hide generated accessors; custom accessors are called "shared".
DECL_ACCESSORS(shared_function_info, Tagged<SharedFunctionInfo>)
// Hide generated accessors; custom accessors are called "raw_feedback_cell".
DECL_ACCESSORS(feedback_cell, Tagged<FeedbackCell>)
// Returns the set of code kinds of compilation artifacts (bytecode,
// generated code) attached to this JSFunction.
// Note that attached code objects that are marked_for_deoptimization are not
// included in this set.
// TODO(jgruber): Currently at most one code kind can be attached. Consider
// adding a NOT_COMPILED kind and changing this function to simply return the
// kind if this becomes more convenient in the future.
CodeKinds GetAttachedCodeKinds() const;
// As above, but also considers locations outside of this JSFunction. For
// example the optimized code cache slot in the feedback vector, and the
// shared function info.
CodeKinds GetAvailableCodeKinds() const;
public:
static constexpr int kSizeWithoutPrototype = kPrototypeOrInitialMapOffset;
static constexpr int kSizeWithPrototype = TorqueGeneratedClass::kHeaderSize;
TQ_OBJECT_CONSTRUCTORS(JSFunction)
};
} // namespace internal
} // namespace v8
#include "src/objects/object-macros-undef.h"
#endif // V8_OBJECTS_JS_FUNCTION_H_
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