third_party/v8/src/builtins/builtins.h - cobalt - Git at Google

 // Copyright 2011 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_BUILTINS_BUILTINS_H_
 #define V8_BUILTINS_BUILTINS_H_

 #include "src/base/flags.h"
 #include "src/builtins/builtins-definitions.h"
 #include "src/common/globals.h"

 namespace v8 {
 namespace internal {

 class ByteArray;
 class CallInterfaceDescriptor;
 class Callable;
 template <typename T>
 class Handle;
 class Isolate;

 // Forward declarations.
 class BailoutId;
 class RootVisitor;
 enum class InterpreterPushArgsMode : unsigned;
 namespace compiler {
 class CodeAssemblerState;
 }  // namespace compiler

 template <typename T>
 static constexpr T FirstFromVarArgs(T x, ...) noexcept {
   return x;
 }

 // Convenience macro to avoid generating named accessors for all builtins.
 #define BUILTIN_CODE(isolate, name) \
   (isolate)->builtins()->builtin_handle(Builtins::k##name)

 class Builtins {
  public:
   explicit Builtins(Isolate* isolate) : isolate_(isolate) {}

   void TearDown();

   // Disassembler support.
   const char* Lookup(Address pc);

   enum Name : int32_t {
 #define DEF_ENUM(Name, ...) k##Name,
     BUILTIN_LIST(DEF_ENUM, DEF_ENUM, DEF_ENUM, DEF_ENUM, DEF_ENUM, DEF_ENUM,
                  DEF_ENUM)
 #undef DEF_ENUM
         builtin_count,

 #define EXTRACT_NAME(Name, ...) k##Name,
     // Define kFirstBytecodeHandler,
     kFirstBytecodeHandler =
         FirstFromVarArgs(BUILTIN_LIST_BYTECODE_HANDLERS(EXTRACT_NAME) 0)
 #undef EXTRACT_NAME
   };

   static const int32_t kNoBuiltinId = -1;

   static constexpr int kFirstWideBytecodeHandler =
       kFirstBytecodeHandler + kNumberOfBytecodeHandlers;
   static constexpr int kFirstExtraWideBytecodeHandler =
       kFirstWideBytecodeHandler + kNumberOfWideBytecodeHandlers;
   static constexpr int kLastBytecodeHandlerPlusOne =
       kFirstExtraWideBytecodeHandler + kNumberOfWideBytecodeHandlers;
   STATIC_ASSERT(kLastBytecodeHandlerPlusOne == builtin_count);

   static constexpr bool IsBuiltinId(int maybe_id) {
     return 0 <= maybe_id && maybe_id < builtin_count;
   }

   // The different builtin kinds are documented in builtins-definitions.h.
   enum Kind { CPP, TFJ, TFC, TFS, TFH, BCH, ASM };

   static BailoutId GetContinuationBailoutId(Name name);
   static Name GetBuiltinFromBailoutId(BailoutId);

   // Convenience wrappers.
   Handle<Code> CallFunction(ConvertReceiverMode = ConvertReceiverMode::kAny);
   Handle<Code> Call(ConvertReceiverMode = ConvertReceiverMode::kAny);
   Handle<Code> NonPrimitiveToPrimitive(
       ToPrimitiveHint hint = ToPrimitiveHint::kDefault);
   Handle<Code> OrdinaryToPrimitive(OrdinaryToPrimitiveHint hint);
   Handle<Code> JSConstructStubGeneric();

   // Used by CreateOffHeapTrampolines in isolate.cc.
   void set_builtin(int index, Code builtin);

   V8_EXPORT_PRIVATE Code builtin(int index);
   V8_EXPORT_PRIVATE Handle<Code> builtin_handle(int index);

   static CallInterfaceDescriptor CallInterfaceDescriptorFor(Name name);
   V8_EXPORT_PRIVATE static Callable CallableFor(Isolate* isolate, Name name);
   static bool HasJSLinkage(int index);

   static int GetStackParameterCount(Name name);

   static const char* name(int index);

   // Support for --print-builtin-size and --print-builtin-code.
   void PrintBuiltinCode();
   void PrintBuiltinSize();

   // Returns the C++ entry point for builtins implemented in C++, and the null
   // Address otherwise.
   static Address CppEntryOf(int index);

   static Kind KindOf(int index);
   static const char* KindNameOf(int index);

   static bool IsCpp(int index);

   // True, iff the given code object is a builtin. Note that this does not
   // necessarily mean that its kind is Code::BUILTIN.
   static bool IsBuiltin(const Code code);

   // As above, but safe to access off the main thread since the check is done
   // by handle location. Similar to Heap::IsRootHandle.
   bool IsBuiltinHandle(Handle<HeapObject> maybe_code, int* index) const;

   // True, iff the given code object is a builtin with off-heap embedded code.
   static bool IsIsolateIndependentBuiltin(const Code code);

   // True, iff the given builtin contains no isolate-specific code and can be
   // embedded into the binary.
   static constexpr bool kAllBuiltinsAreIsolateIndependent = true;
   static constexpr bool AllBuiltinsAreIsolateIndependent() {
     return kAllBuiltinsAreIsolateIndependent;
   }
   static constexpr bool IsIsolateIndependent(int index) {
     STATIC_ASSERT(kAllBuiltinsAreIsolateIndependent);
     return kAllBuiltinsAreIsolateIndependent;
   }

   // Initializes the table of builtin entry points based on the current contents
   // of the builtins table.
   static void InitializeBuiltinEntryTable(Isolate* isolate);

   // Emits a CodeCreateEvent for every builtin.
   static void EmitCodeCreateEvents(Isolate* isolate);

   bool is_initialized() const { return initialized_; }

   // Used by SetupIsolateDelegate and Deserializer.
   void MarkInitialized() {
     DCHECK(!initialized_);
     initialized_ = true;
   }

   V8_WARN_UNUSED_RESULT static MaybeHandle<Object> InvokeApiFunction(
       Isolate* isolate, bool is_construct, Handle<HeapObject> function,
       Handle<Object> receiver, int argc, Handle<Object> args[],
       Handle<HeapObject> new_target);

   static void Generate_Adaptor(MacroAssembler* masm, Address builtin_address);

   static void Generate_CEntry(MacroAssembler* masm, int result_size,
                               SaveFPRegsMode save_doubles, ArgvMode argv_mode,
                               bool builtin_exit_frame);

   static bool AllowDynamicFunction(Isolate* isolate, Handle<JSFunction> target,
                                    Handle<JSObject> target_global_proxy);

   // Creates a trampoline code object that jumps to the given off-heap entry.
   // The result should not be used directly, but only from the related Factory
   // function.
   // TODO(delphick): Come up with a better name since it may not generate an
   // executable trampoline.
   static Handle<Code> GenerateOffHeapTrampolineFor(
       Isolate* isolate, Address off_heap_entry, int32_t kind_specific_flags,
       bool generate_jump_to_instruction_stream);

   // Generate the RelocInfo ByteArray that would be generated for an offheap
   // trampoline.
   static Handle<ByteArray> GenerateOffHeapTrampolineRelocInfo(Isolate* isolate);

   // Only builtins with JS linkage should ever need to be called via their
   // trampoline Code object. The remaining builtins have non-executable Code
   // objects.
   static bool CodeObjectIsExecutable(int builtin_index);

   static bool IsJSEntryVariant(int builtin_index) {
     switch (builtin_index) {
       case kJSEntry:
       case kJSConstructEntry:
       case kJSRunMicrotasksEntry:
         return true;
       default:
         return false;
     }
     UNREACHABLE();
   }

   int js_entry_handler_offset() const {
     DCHECK_NE(js_entry_handler_offset_, 0);
     return js_entry_handler_offset_;
   }

   void SetJSEntryHandlerOffset(int offset) {
     // Check the stored offset is either uninitialized or unchanged (we
     // generate multiple variants of this builtin but they should all have the
     // same handler offset).
     CHECK(js_entry_handler_offset_ == 0 || js_entry_handler_offset_ == offset);
     js_entry_handler_offset_ = offset;
   }

  private:
   static void Generate_CallFunction(MacroAssembler* masm,
                                     ConvertReceiverMode mode);

   static void Generate_CallBoundFunctionImpl(MacroAssembler* masm);

   static void Generate_Call(MacroAssembler* masm, ConvertReceiverMode mode);

   enum class CallOrConstructMode { kCall, kConstruct };
   static void Generate_CallOrConstructVarargs(MacroAssembler* masm,
                                               Handle<Code> code);
   static void Generate_CallOrConstructForwardVarargs(MacroAssembler* masm,
                                                      CallOrConstructMode mode,
                                                      Handle<Code> code);

   static void Generate_InterpreterPushArgsThenCallImpl(
       MacroAssembler* masm, ConvertReceiverMode receiver_mode,
       InterpreterPushArgsMode mode);

   static void Generate_InterpreterPushArgsThenConstructImpl(
       MacroAssembler* masm, InterpreterPushArgsMode mode);

 #define DECLARE_ASM(Name, ...) \
   static void Generate_##Name(MacroAssembler* masm);
 #define DECLARE_TF(Name, ...) \
   static void Generate_##Name(compiler::CodeAssemblerState* state);

   BUILTIN_LIST(IGNORE_BUILTIN, DECLARE_TF, DECLARE_TF, DECLARE_TF, DECLARE_TF,
                IGNORE_BUILTIN, DECLARE_ASM)

 #undef DECLARE_ASM
 #undef DECLARE_TF

   Isolate* isolate_;
   bool initialized_ = false;

   // Stores the offset of exception handler entry point (the handler_entry
   // label) in JSEntry and its variants. It's used to generate the handler table
   // during codegen (mksnapshot-only).
   int js_entry_handler_offset_ = 0;

   friend class SetupIsolateDelegate;

   DISALLOW_COPY_AND_ASSIGN(Builtins);
 };

 Builtins::Name ExampleBuiltinForTorqueFunctionPointerType(
     size_t function_pointer_type_id);

 }  // namespace internal
 }  // namespace v8

 #endif  // V8_BUILTINS_BUILTINS_H_
	// Copyright 2011 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_BUILTINS_BUILTINS_H_
	#define V8_BUILTINS_BUILTINS_H_

	#include "src/base/flags.h"
	#include "src/builtins/builtins-definitions.h"
	#include "src/common/globals.h"

	namespace v8 {
	namespace internal {

	class ByteArray;
	class CallInterfaceDescriptor;
	class Callable;
	template <typename T>
	class Handle;
	class Isolate;

	// Forward declarations.
	class BailoutId;
	class RootVisitor;
	enum class InterpreterPushArgsMode : unsigned;
	namespace compiler {
	class CodeAssemblerState;
	} // namespace compiler

	template <typename T>
	static constexpr T FirstFromVarArgs(T x, ...) noexcept {
	return x;
	}

	// Convenience macro to avoid generating named accessors for all builtins.
	#define BUILTIN_CODE(isolate, name) \
	(isolate)->builtins()->builtin_handle(Builtins::k##name)

	class Builtins {
	public:
	explicit Builtins(Isolate* isolate) : isolate_(isolate) {}

	void TearDown();

	// Disassembler support.
	const char* Lookup(Address pc);

	enum Name : int32_t {
	#define DEF_ENUM(Name, ...) k##Name,
	BUILTIN_LIST(DEF_ENUM, DEF_ENUM, DEF_ENUM, DEF_ENUM, DEF_ENUM, DEF_ENUM,
	DEF_ENUM)
	#undef DEF_ENUM
	builtin_count,

	#define EXTRACT_NAME(Name, ...) k##Name,
	// Define kFirstBytecodeHandler,
	kFirstBytecodeHandler =
	FirstFromVarArgs(BUILTIN_LIST_BYTECODE_HANDLERS(EXTRACT_NAME) 0)
	#undef EXTRACT_NAME
	};

	static const int32_t kNoBuiltinId = -1;

	static constexpr int kFirstWideBytecodeHandler =
	kFirstBytecodeHandler + kNumberOfBytecodeHandlers;
	static constexpr int kFirstExtraWideBytecodeHandler =
	kFirstWideBytecodeHandler + kNumberOfWideBytecodeHandlers;
	static constexpr int kLastBytecodeHandlerPlusOne =
	kFirstExtraWideBytecodeHandler + kNumberOfWideBytecodeHandlers;
	STATIC_ASSERT(kLastBytecodeHandlerPlusOne == builtin_count);

	static constexpr bool IsBuiltinId(int maybe_id) {
	return 0 <= maybe_id && maybe_id < builtin_count;
	}

	// The different builtin kinds are documented in builtins-definitions.h.
	enum Kind { CPP, TFJ, TFC, TFS, TFH, BCH, ASM };

	static BailoutId GetContinuationBailoutId(Name name);
	static Name GetBuiltinFromBailoutId(BailoutId);

	// Convenience wrappers.
	Handle<Code> CallFunction(ConvertReceiverMode = ConvertReceiverMode::kAny);
	Handle<Code> Call(ConvertReceiverMode = ConvertReceiverMode::kAny);
	Handle<Code> NonPrimitiveToPrimitive(
	ToPrimitiveHint hint = ToPrimitiveHint::kDefault);
	Handle<Code> OrdinaryToPrimitive(OrdinaryToPrimitiveHint hint);
	Handle<Code> JSConstructStubGeneric();

	// Used by CreateOffHeapTrampolines in isolate.cc.
	void set_builtin(int index, Code builtin);

	V8_EXPORT_PRIVATE Code builtin(int index);
	V8_EXPORT_PRIVATE Handle<Code> builtin_handle(int index);

	static CallInterfaceDescriptor CallInterfaceDescriptorFor(Name name);
	V8_EXPORT_PRIVATE static Callable CallableFor(Isolate* isolate, Name name);
	static bool HasJSLinkage(int index);

	static int GetStackParameterCount(Name name);

	static const char* name(int index);

	// Support for --print-builtin-size and --print-builtin-code.
	void PrintBuiltinCode();
	void PrintBuiltinSize();

	// Returns the C++ entry point for builtins implemented in C++, and the null
	// Address otherwise.
	static Address CppEntryOf(int index);

	static Kind KindOf(int index);
	static const char* KindNameOf(int index);

	static bool IsCpp(int index);

	// True, iff the given code object is a builtin. Note that this does not
	// necessarily mean that its kind is Code::BUILTIN.
	static bool IsBuiltin(const Code code);

	// As above, but safe to access off the main thread since the check is done
	// by handle location. Similar to Heap::IsRootHandle.
	bool IsBuiltinHandle(Handle<HeapObject> maybe_code, int* index) const;

	// True, iff the given code object is a builtin with off-heap embedded code.
	static bool IsIsolateIndependentBuiltin(const Code code);

	// True, iff the given builtin contains no isolate-specific code and can be
	// embedded into the binary.
	static constexpr bool kAllBuiltinsAreIsolateIndependent = true;
	static constexpr bool AllBuiltinsAreIsolateIndependent() {
	return kAllBuiltinsAreIsolateIndependent;
	}
	static constexpr bool IsIsolateIndependent(int index) {
	STATIC_ASSERT(kAllBuiltinsAreIsolateIndependent);
	return kAllBuiltinsAreIsolateIndependent;
	}

	// Initializes the table of builtin entry points based on the current contents
	// of the builtins table.
	static void InitializeBuiltinEntryTable(Isolate* isolate);

	// Emits a CodeCreateEvent for every builtin.
	static void EmitCodeCreateEvents(Isolate* isolate);

	bool is_initialized() const { return initialized_; }

	// Used by SetupIsolateDelegate and Deserializer.
	void MarkInitialized() {
	DCHECK(!initialized_);
	initialized_ = true;
	}

	V8_WARN_UNUSED_RESULT static MaybeHandle<Object> InvokeApiFunction(
	Isolate* isolate, bool is_construct, Handle<HeapObject> function,
	Handle<Object> receiver, int argc, Handle<Object> args[],
	Handle<HeapObject> new_target);

	static void Generate_Adaptor(MacroAssembler* masm, Address builtin_address);

	static void Generate_CEntry(MacroAssembler* masm, int result_size,
	SaveFPRegsMode save_doubles, ArgvMode argv_mode,
	bool builtin_exit_frame);

	static bool AllowDynamicFunction(Isolate* isolate, Handle<JSFunction> target,
	Handle<JSObject> target_global_proxy);

	// Creates a trampoline code object that jumps to the given off-heap entry.
	// The result should not be used directly, but only from the related Factory
	// function.
	// TODO(delphick): Come up with a better name since it may not generate an
	// executable trampoline.
	static Handle<Code> GenerateOffHeapTrampolineFor(
	Isolate* isolate, Address off_heap_entry, int32_t kind_specific_flags,
	bool generate_jump_to_instruction_stream);

	// Generate the RelocInfo ByteArray that would be generated for an offheap
	// trampoline.
	static Handle<ByteArray> GenerateOffHeapTrampolineRelocInfo(Isolate* isolate);

	// Only builtins with JS linkage should ever need to be called via their
	// trampoline Code object. The remaining builtins have non-executable Code
	// objects.
	static bool CodeObjectIsExecutable(int builtin_index);

	static bool IsJSEntryVariant(int builtin_index) {
	switch (builtin_index) {
	case kJSEntry:
	case kJSConstructEntry:
	case kJSRunMicrotasksEntry:
	return true;
	default:
	return false;
	}
	UNREACHABLE();
	}

	int js_entry_handler_offset() const {
	DCHECK_NE(js_entry_handler_offset_, 0);
	return js_entry_handler_offset_;
	}

	void SetJSEntryHandlerOffset(int offset) {
	// Check the stored offset is either uninitialized or unchanged (we
	// generate multiple variants of this builtin but they should all have the
	// same handler offset).
	CHECK(js_entry_handler_offset_ == 0 \|\| js_entry_handler_offset_ == offset);
	js_entry_handler_offset_ = offset;
	}

	private:
	static void Generate_CallFunction(MacroAssembler* masm,
	ConvertReceiverMode mode);

	static void Generate_CallBoundFunctionImpl(MacroAssembler* masm);

	static void Generate_Call(MacroAssembler* masm, ConvertReceiverMode mode);

	enum class CallOrConstructMode { kCall, kConstruct };
	static void Generate_CallOrConstructVarargs(MacroAssembler* masm,
	Handle<Code> code);
	static void Generate_CallOrConstructForwardVarargs(MacroAssembler* masm,
	CallOrConstructMode mode,
	Handle<Code> code);

	static void Generate_InterpreterPushArgsThenCallImpl(
	MacroAssembler* masm, ConvertReceiverMode receiver_mode,
	InterpreterPushArgsMode mode);

	static void Generate_InterpreterPushArgsThenConstructImpl(
	MacroAssembler* masm, InterpreterPushArgsMode mode);

	#define DECLARE_ASM(Name, ...) \
	static void Generate_##Name(MacroAssembler* masm);
	#define DECLARE_TF(Name, ...) \
	static void Generate_##Name(compiler::CodeAssemblerState* state);

	BUILTIN_LIST(IGNORE_BUILTIN, DECLARE_TF, DECLARE_TF, DECLARE_TF, DECLARE_TF,
	IGNORE_BUILTIN, DECLARE_ASM)

	#undef DECLARE_ASM
	#undef DECLARE_TF

	Isolate* isolate_;
	bool initialized_ = false;

	// Stores the offset of exception handler entry point (the handler_entry
	// label) in JSEntry and its variants. It's used to generate the handler table
	// during codegen (mksnapshot-only).
	int js_entry_handler_offset_ = 0;

	friend class SetupIsolateDelegate;

	DISALLOW_COPY_AND_ASSIGN(Builtins);
	};

	Builtins::Name ExampleBuiltinForTorqueFunctionPointerType(
	size_t function_pointer_type_id);

	} // namespace internal
	} // namespace v8

	#endif // V8_BUILTINS_BUILTINS_H_