src/v8/src/macro-assembler.h - cobalt - Git at Google

 // Copyright 2012 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_MACRO_ASSEMBLER_H_
 #define V8_MACRO_ASSEMBLER_H_

 #include "src/assembler.h"
 #include "src/frames.h"

 // Helper types to make boolean flag easier to read at call-site.
 enum InvokeFlag {
   CALL_FUNCTION,
   JUMP_FUNCTION
 };


 // Flags used for the AllocateInNewSpace functions.
 enum AllocationFlags {
   // No special flags.
   NO_ALLOCATION_FLAGS = 0,
   // The content of the result register already contains the allocation top in
   // new space.
   RESULT_CONTAINS_TOP = 1 << 0,
   // Specify that the requested size of the space to allocate is specified in
   // words instead of bytes.
   SIZE_IN_WORDS = 1 << 1,
   // Align the allocation to a multiple of kDoubleSize
   DOUBLE_ALIGNMENT = 1 << 2,
   // Directly allocate in old space
   PRETENURE = 1 << 3,
 };

 #if V8_TARGET_ARCH_IA32
 #include "src/ia32/macro-assembler-ia32.h"
 #elif V8_TARGET_ARCH_X64
 #include "src/x64/macro-assembler-x64.h"
 #elif V8_TARGET_ARCH_ARM64
 #include "src/arm64/constants-arm64.h"
 #include "src/arm64/macro-assembler-arm64.h"
 #elif V8_TARGET_ARCH_ARM
 #include "src/arm/constants-arm.h"
 #include "src/arm/macro-assembler-arm.h"
 #elif V8_TARGET_ARCH_PPC
 #include "src/ppc/constants-ppc.h"
 #include "src/ppc/macro-assembler-ppc.h"
 #elif V8_TARGET_ARCH_MIPS
 #include "src/mips/constants-mips.h"
 #include "src/mips/macro-assembler-mips.h"
 #elif V8_TARGET_ARCH_MIPS64
 #include "src/mips64/constants-mips64.h"
 #include "src/mips64/macro-assembler-mips64.h"
 #elif V8_TARGET_ARCH_S390
 #include "src/s390/constants-s390.h"
 #include "src/s390/macro-assembler-s390.h"
 #else
 #error Unsupported target architecture.
 #endif

 namespace v8 {
 namespace internal {

 // Simulators only support C calls with up to kMaxCParameters parameters.
 static constexpr int kMaxCParameters = 9;

 class FrameScope {
  public:
   explicit FrameScope(TurboAssembler* tasm, StackFrame::Type type)
       : tasm_(tasm), type_(type), old_has_frame_(tasm->has_frame()) {
     tasm->set_has_frame(true);
     if (type != StackFrame::MANUAL && type_ != StackFrame::NONE) {
       tasm->EnterFrame(type);
     }
   }

   ~FrameScope() {
     if (type_ != StackFrame::MANUAL && type_ != StackFrame::NONE) {
       tasm_->LeaveFrame(type_);
     }
     tasm_->set_has_frame(old_has_frame_);
   }

   // Normally we generate the leave-frame code when this object goes
   // out of scope.  Sometimes we may need to generate the code somewhere else
   // in addition.  Calling this will achieve that, but the object stays in
   // scope, the MacroAssembler is still marked as being in a frame scope, and
   // the code will be generated again when it goes out of scope.
   void GenerateLeaveFrame() {
     DCHECK(type_ != StackFrame::MANUAL && type_ != StackFrame::NONE);
     tasm_->LeaveFrame(type_);
   }

  private:
   TurboAssembler* tasm_;
   StackFrame::Type type_;
   bool old_has_frame_;
 };

 class FrameAndConstantPoolScope {
  public:
   FrameAndConstantPoolScope(MacroAssembler* masm, StackFrame::Type type)
       : masm_(masm),
         type_(type),
         old_has_frame_(masm->has_frame()),
         old_constant_pool_available_(FLAG_enable_embedded_constant_pool &&
                                      masm->is_constant_pool_available()) {
     masm->set_has_frame(true);
     if (FLAG_enable_embedded_constant_pool) {
       masm->set_constant_pool_available(true);
     }
     if (type_ != StackFrame::MANUAL && type_ != StackFrame::NONE) {
       masm->EnterFrame(type, !old_constant_pool_available_);
     }
   }

   ~FrameAndConstantPoolScope() {
     masm_->LeaveFrame(type_);
     masm_->set_has_frame(old_has_frame_);
     if (FLAG_enable_embedded_constant_pool) {
       masm_->set_constant_pool_available(old_constant_pool_available_);
     }
   }

   // Normally we generate the leave-frame code when this object goes
   // out of scope.  Sometimes we may need to generate the code somewhere else
   // in addition.  Calling this will achieve that, but the object stays in
   // scope, the MacroAssembler is still marked as being in a frame scope, and
   // the code will be generated again when it goes out of scope.
   void GenerateLeaveFrame() {
     DCHECK(type_ != StackFrame::MANUAL && type_ != StackFrame::NONE);
     masm_->LeaveFrame(type_);
   }

  private:
   MacroAssembler* masm_;
   StackFrame::Type type_;
   bool old_has_frame_;
   bool old_constant_pool_available_;

   DISALLOW_IMPLICIT_CONSTRUCTORS(FrameAndConstantPoolScope);
 };

 // Class for scoping the the unavailability of constant pool access.
 class ConstantPoolUnavailableScope {
  public:
   explicit ConstantPoolUnavailableScope(Assembler* assembler)
       : assembler_(assembler),
         old_constant_pool_available_(FLAG_enable_embedded_constant_pool &&
                                      assembler->is_constant_pool_available()) {
     if (FLAG_enable_embedded_constant_pool) {
       assembler->set_constant_pool_available(false);
     }
   }
   ~ConstantPoolUnavailableScope() {
     if (FLAG_enable_embedded_constant_pool) {
       assembler_->set_constant_pool_available(old_constant_pool_available_);
     }
   }

  private:
   Assembler* assembler_;
   int old_constant_pool_available_;

   DISALLOW_IMPLICIT_CONSTRUCTORS(ConstantPoolUnavailableScope);
 };


 class AllowExternalCallThatCantCauseGC: public FrameScope {
  public:
   explicit AllowExternalCallThatCantCauseGC(MacroAssembler* masm)
       : FrameScope(masm, StackFrame::NONE) { }
 };


 class NoCurrentFrameScope {
  public:
   explicit NoCurrentFrameScope(MacroAssembler* masm)
       : masm_(masm), saved_(masm->has_frame()) {
     masm->set_has_frame(false);
   }

   ~NoCurrentFrameScope() {
     masm_->set_has_frame(saved_);
   }

  private:
   MacroAssembler* masm_;
   bool saved_;
 };

 // Wrapper class for passing expected and actual parameter counts as
 // either registers or immediate values. Used to make sure that the
 // caller provides exactly the expected number of parameters to the
 // callee.
 class ParameterCount BASE_EMBEDDED {
  public:
   explicit ParameterCount(Register reg) : reg_(reg), immediate_(0) {}
   explicit ParameterCount(int imm) : reg_(no_reg), immediate_(imm) {}

   bool is_reg() const { return reg_.is_valid(); }
   bool is_immediate() const { return !is_reg(); }

   Register reg() const {
     DCHECK(is_reg());
     return reg_;
   }
   int immediate() const {
     DCHECK(is_immediate());
     return immediate_;
   }

  private:
   const Register reg_;
   const int immediate_;

   DISALLOW_IMPLICIT_CONSTRUCTORS(ParameterCount);
 };

 }  // namespace internal
 }  // namespace v8

 #endif  // V8_MACRO_ASSEMBLER_H_
	// Copyright 2012 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_MACRO_ASSEMBLER_H_
	#define V8_MACRO_ASSEMBLER_H_

	#include "src/assembler.h"
	#include "src/frames.h"

	// Helper types to make boolean flag easier to read at call-site.
	enum InvokeFlag {
	CALL_FUNCTION,
	JUMP_FUNCTION
	};


	// Flags used for the AllocateInNewSpace functions.
	enum AllocationFlags {
	// No special flags.
	NO_ALLOCATION_FLAGS = 0,
	// The content of the result register already contains the allocation top in
	// new space.
	RESULT_CONTAINS_TOP = 1 << 0,
	// Specify that the requested size of the space to allocate is specified in
	// words instead of bytes.
	SIZE_IN_WORDS = 1 << 1,
	// Align the allocation to a multiple of kDoubleSize
	DOUBLE_ALIGNMENT = 1 << 2,
	// Directly allocate in old space
	PRETENURE = 1 << 3,
	};

	#if V8_TARGET_ARCH_IA32
	#include "src/ia32/macro-assembler-ia32.h"
	#elif V8_TARGET_ARCH_X64
	#include "src/x64/macro-assembler-x64.h"
	#elif V8_TARGET_ARCH_ARM64
	#include "src/arm64/constants-arm64.h"
	#include "src/arm64/macro-assembler-arm64.h"
	#elif V8_TARGET_ARCH_ARM
	#include "src/arm/constants-arm.h"
	#include "src/arm/macro-assembler-arm.h"
	#elif V8_TARGET_ARCH_PPC
	#include "src/ppc/constants-ppc.h"
	#include "src/ppc/macro-assembler-ppc.h"
	#elif V8_TARGET_ARCH_MIPS
	#include "src/mips/constants-mips.h"
	#include "src/mips/macro-assembler-mips.h"
	#elif V8_TARGET_ARCH_MIPS64
	#include "src/mips64/constants-mips64.h"
	#include "src/mips64/macro-assembler-mips64.h"
	#elif V8_TARGET_ARCH_S390
	#include "src/s390/constants-s390.h"
	#include "src/s390/macro-assembler-s390.h"
	#else
	#error Unsupported target architecture.
	#endif

	namespace v8 {
	namespace internal {

	// Simulators only support C calls with up to kMaxCParameters parameters.
	static constexpr int kMaxCParameters = 9;

	class FrameScope {
	public:
	explicit FrameScope(TurboAssembler* tasm, StackFrame::Type type)
	: tasm_(tasm), type_(type), old_has_frame_(tasm->has_frame()) {
	tasm->set_has_frame(true);
	if (type != StackFrame::MANUAL && type_ != StackFrame::NONE) {
	tasm->EnterFrame(type);
	}
	}

	~FrameScope() {
	if (type_ != StackFrame::MANUAL && type_ != StackFrame::NONE) {
	tasm_->LeaveFrame(type_);
	}
	tasm_->set_has_frame(old_has_frame_);
	}

	// Normally we generate the leave-frame code when this object goes
	// out of scope. Sometimes we may need to generate the code somewhere else
	// in addition. Calling this will achieve that, but the object stays in
	// scope, the MacroAssembler is still marked as being in a frame scope, and
	// the code will be generated again when it goes out of scope.
	void GenerateLeaveFrame() {
	DCHECK(type_ != StackFrame::MANUAL && type_ != StackFrame::NONE);
	tasm_->LeaveFrame(type_);
	}

	private:
	TurboAssembler* tasm_;
	StackFrame::Type type_;
	bool old_has_frame_;
	};

	class FrameAndConstantPoolScope {
	public:
	FrameAndConstantPoolScope(MacroAssembler* masm, StackFrame::Type type)
	: masm_(masm),
	type_(type),
	old_has_frame_(masm->has_frame()),
	old_constant_pool_available_(FLAG_enable_embedded_constant_pool &&
	masm->is_constant_pool_available()) {
	masm->set_has_frame(true);
	if (FLAG_enable_embedded_constant_pool) {
	masm->set_constant_pool_available(true);
	}
	if (type_ != StackFrame::MANUAL && type_ != StackFrame::NONE) {
	masm->EnterFrame(type, !old_constant_pool_available_);
	}
	}

	~FrameAndConstantPoolScope() {
	masm_->LeaveFrame(type_);
	masm_->set_has_frame(old_has_frame_);
	if (FLAG_enable_embedded_constant_pool) {
	masm_->set_constant_pool_available(old_constant_pool_available_);
	}
	}

	// Normally we generate the leave-frame code when this object goes
	// out of scope. Sometimes we may need to generate the code somewhere else
	// in addition. Calling this will achieve that, but the object stays in
	// scope, the MacroAssembler is still marked as being in a frame scope, and
	// the code will be generated again when it goes out of scope.
	void GenerateLeaveFrame() {
	DCHECK(type_ != StackFrame::MANUAL && type_ != StackFrame::NONE);
	masm_->LeaveFrame(type_);
	}

	private:
	MacroAssembler* masm_;
	StackFrame::Type type_;
	bool old_has_frame_;
	bool old_constant_pool_available_;

	DISALLOW_IMPLICIT_CONSTRUCTORS(FrameAndConstantPoolScope);
	};

	// Class for scoping the the unavailability of constant pool access.
	class ConstantPoolUnavailableScope {
	public:
	explicit ConstantPoolUnavailableScope(Assembler* assembler)
	: assembler_(assembler),
	old_constant_pool_available_(FLAG_enable_embedded_constant_pool &&
	assembler->is_constant_pool_available()) {
	if (FLAG_enable_embedded_constant_pool) {
	assembler->set_constant_pool_available(false);
	}
	}
	~ConstantPoolUnavailableScope() {
	if (FLAG_enable_embedded_constant_pool) {
	assembler_->set_constant_pool_available(old_constant_pool_available_);
	}
	}

	private:
	Assembler* assembler_;
	int old_constant_pool_available_;

	DISALLOW_IMPLICIT_CONSTRUCTORS(ConstantPoolUnavailableScope);
	};


	class AllowExternalCallThatCantCauseGC: public FrameScope {
	public:
	explicit AllowExternalCallThatCantCauseGC(MacroAssembler* masm)
	: FrameScope(masm, StackFrame::NONE) { }
	};


	class NoCurrentFrameScope {
	public:
	explicit NoCurrentFrameScope(MacroAssembler* masm)
	: masm_(masm), saved_(masm->has_frame()) {
	masm->set_has_frame(false);
	}

	~NoCurrentFrameScope() {
	masm_->set_has_frame(saved_);
	}

	private:
	MacroAssembler* masm_;
	bool saved_;
	};

	// Wrapper class for passing expected and actual parameter counts as
	// either registers or immediate values. Used to make sure that the
	// caller provides exactly the expected number of parameters to the
	// callee.
	class ParameterCount BASE_EMBEDDED {
	public:
	explicit ParameterCount(Register reg) : reg_(reg), immediate_(0) {}
	explicit ParameterCount(int imm) : reg_(no_reg), immediate_(imm) {}

	bool is_reg() const { return reg_.is_valid(); }
	bool is_immediate() const { return !is_reg(); }

	Register reg() const {
	DCHECK(is_reg());
	return reg_;
	}
	int immediate() const {
	DCHECK(is_immediate());
	return immediate_;
	}

	private:
	const Register reg_;
	const int immediate_;

	DISALLOW_IMPLICIT_CONSTRUCTORS(ParameterCount);
	};

	} // namespace internal
	} // namespace v8

	#endif // V8_MACRO_ASSEMBLER_H_