src/arm64/decoder-arm64.h - fp2-dev/platform/external/v8 - Gitiles

 // Copyright 2013 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_ARM64_DECODER_ARM64_H_
 #define V8_ARM64_DECODER_ARM64_H_

 #include <list>

 #include "src/arm64/instructions-arm64.h"
 #include "src/globals.h"

 namespace v8 {
 namespace internal {


 // List macro containing all visitors needed by the decoder class.

 #define VISITOR_LIST(V)            \
   V(PCRelAddressing)               \
   V(AddSubImmediate)               \
   V(LogicalImmediate)              \
   V(MoveWideImmediate)             \
   V(Bitfield)                      \
   V(Extract)                       \
   V(UnconditionalBranch)           \
   V(UnconditionalBranchToRegister) \
   V(CompareBranch)                 \
   V(TestBranch)                    \
   V(ConditionalBranch)             \
   V(System)                        \
   V(Exception)                     \
   V(LoadStorePairPostIndex)        \
   V(LoadStorePairOffset)           \
   V(LoadStorePairPreIndex)         \
   V(LoadLiteral)                   \
   V(LoadStoreUnscaledOffset)       \
   V(LoadStorePostIndex)            \
   V(LoadStorePreIndex)             \
   V(LoadStoreRegisterOffset)       \
   V(LoadStoreUnsignedOffset)       \
   V(LoadStoreAcquireRelease)       \
   V(LogicalShifted)                \
   V(AddSubShifted)                 \
   V(AddSubExtended)                \
   V(AddSubWithCarry)               \
   V(ConditionalCompareRegister)    \
   V(ConditionalCompareImmediate)   \
   V(ConditionalSelect)             \
   V(DataProcessing1Source)         \
   V(DataProcessing2Source)         \
   V(DataProcessing3Source)         \
   V(FPCompare)                     \
   V(FPConditionalCompare)          \
   V(FPConditionalSelect)           \
   V(FPImmediate)                   \
   V(FPDataProcessing1Source)       \
   V(FPDataProcessing2Source)       \
   V(FPDataProcessing3Source)       \
   V(FPIntegerConvert)              \
   V(FPFixedPointConvert)           \
   V(Unallocated)                   \
   V(Unimplemented)

 // The Visitor interface. Disassembler and simulator (and other tools)
 // must provide implementations for all of these functions.
 class DecoderVisitor {
  public:
   virtual ~DecoderVisitor() {}

   #define DECLARE(A) virtual void Visit##A(Instruction* instr) = 0;
   VISITOR_LIST(DECLARE)
   #undef DECLARE
 };


 // A visitor that dispatches to a list of visitors.
 class DispatchingDecoderVisitor : public DecoderVisitor {
  public:
   DispatchingDecoderVisitor() {}
   virtual ~DispatchingDecoderVisitor() {}

   // Register a new visitor class with the decoder.
   // Decode() will call the corresponding visitor method from all registered
   // visitor classes when decoding reaches the leaf node of the instruction
   // decode tree.
   // Visitors are called in the order.
   // A visitor can only be registered once.
   // Registering an already registered visitor will update its position.
   //
   //   d.AppendVisitor(V1);
   //   d.AppendVisitor(V2);
   //   d.PrependVisitor(V2);            // Move V2 at the start of the list.
   //   d.InsertVisitorBefore(V3, V2);
   //   d.AppendVisitor(V4);
   //   d.AppendVisitor(V4);             // No effect.
   //
   //   d.Decode(i);
   //
   // will call in order visitor methods in V3, V2, V1, V4.
   void AppendVisitor(DecoderVisitor* visitor);
   void PrependVisitor(DecoderVisitor* visitor);
   void InsertVisitorBefore(DecoderVisitor* new_visitor,
                            DecoderVisitor* registered_visitor);
   void InsertVisitorAfter(DecoderVisitor* new_visitor,
                           DecoderVisitor* registered_visitor);

   // Remove a previously registered visitor class from the list of visitors
   // stored by the decoder.
   void RemoveVisitor(DecoderVisitor* visitor);

   #define DECLARE(A) void Visit##A(Instruction* instr);
   VISITOR_LIST(DECLARE)
   #undef DECLARE

  private:
   // Visitors are registered in a list.
   std::list<DecoderVisitor*> visitors_;
 };


 template<typename V>
 class Decoder : public V {
  public:
   Decoder() {}
   virtual ~Decoder() {}

   // Top-level instruction decoder function. Decodes an instruction and calls
   // the visitor functions registered with the Decoder class.
   virtual void Decode(Instruction *instr);

  private:
   // Decode the PC relative addressing instruction, and call the corresponding
   // visitors.
   // On entry, instruction bits 27:24 = 0x0.
   void DecodePCRelAddressing(Instruction* instr);

   // Decode the add/subtract immediate instruction, and call the corresponding
   // visitors.
   // On entry, instruction bits 27:24 = 0x1.
   void DecodeAddSubImmediate(Instruction* instr);

   // Decode the branch, system command, and exception generation parts of
   // the instruction tree, and call the corresponding visitors.
   // On entry, instruction bits 27:24 = {0x4, 0x5, 0x6, 0x7}.
   void DecodeBranchSystemException(Instruction* instr);

   // Decode the load and store parts of the instruction tree, and call
   // the corresponding visitors.
   // On entry, instruction bits 27:24 = {0x8, 0x9, 0xC, 0xD}.
   void DecodeLoadStore(Instruction* instr);

   // Decode the logical immediate and move wide immediate parts of the
   // instruction tree, and call the corresponding visitors.
   // On entry, instruction bits 27:24 = 0x2.
   void DecodeLogical(Instruction* instr);

   // Decode the bitfield and extraction parts of the instruction tree,
   // and call the corresponding visitors.
   // On entry, instruction bits 27:24 = 0x3.
   void DecodeBitfieldExtract(Instruction* instr);

   // Decode the data processing parts of the instruction tree, and call the
   // corresponding visitors.
   // On entry, instruction bits 27:24 = {0x1, 0xA, 0xB}.
   void DecodeDataProcessing(Instruction* instr);

   // Decode the floating point parts of the instruction tree, and call the
   // corresponding visitors.
   // On entry, instruction bits 27:24 = {0xE, 0xF}.
   void DecodeFP(Instruction* instr);

   // Decode the Advanced SIMD (NEON) load/store part of the instruction tree,
   // and call the corresponding visitors.
   // On entry, instruction bits 29:25 = 0x6.
   void DecodeAdvSIMDLoadStore(Instruction* instr);

   // Decode the Advanced SIMD (NEON) data processing part of the instruction
   // tree, and call the corresponding visitors.
   // On entry, instruction bits 27:25 = 0x7.
   void DecodeAdvSIMDDataProcessing(Instruction* instr);
 };


 }  // namespace internal
 }  // namespace v8

 #endif  // V8_ARM64_DECODER_ARM64_H_
	// Copyright 2013 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_ARM64_DECODER_ARM64_H_
	#define V8_ARM64_DECODER_ARM64_H_

	#include <list>

	#include "src/arm64/instructions-arm64.h"
	#include "src/globals.h"

	namespace v8 {
	namespace internal {


	// List macro containing all visitors needed by the decoder class.

	#define VISITOR_LIST(V) \
	V(PCRelAddressing) \
	V(AddSubImmediate) \
	V(LogicalImmediate) \
	V(MoveWideImmediate) \
	V(Bitfield) \
	V(Extract) \
	V(UnconditionalBranch) \
	V(UnconditionalBranchToRegister) \
	V(CompareBranch) \
	V(TestBranch) \
	V(ConditionalBranch) \
	V(System) \
	V(Exception) \
	V(LoadStorePairPostIndex) \
	V(LoadStorePairOffset) \
	V(LoadStorePairPreIndex) \
	V(LoadLiteral) \
	V(LoadStoreUnscaledOffset) \
	V(LoadStorePostIndex) \
	V(LoadStorePreIndex) \
	V(LoadStoreRegisterOffset) \
	V(LoadStoreUnsignedOffset) \
	V(LoadStoreAcquireRelease) \
	V(LogicalShifted) \
	V(AddSubShifted) \
	V(AddSubExtended) \
	V(AddSubWithCarry) \
	V(ConditionalCompareRegister) \
	V(ConditionalCompareImmediate) \
	V(ConditionalSelect) \
	V(DataProcessing1Source) \
	V(DataProcessing2Source) \
	V(DataProcessing3Source) \
	V(FPCompare) \
	V(FPConditionalCompare) \
	V(FPConditionalSelect) \
	V(FPImmediate) \
	V(FPDataProcessing1Source) \
	V(FPDataProcessing2Source) \
	V(FPDataProcessing3Source) \
	V(FPIntegerConvert) \
	V(FPFixedPointConvert) \
	V(Unallocated) \
	V(Unimplemented)

	// The Visitor interface. Disassembler and simulator (and other tools)
	// must provide implementations for all of these functions.
	class DecoderVisitor {
	public:
	virtual ~DecoderVisitor() {}

	#define DECLARE(A) virtual void Visit##A(Instruction* instr) = 0;
	VISITOR_LIST(DECLARE)
	#undef DECLARE
	};


	// A visitor that dispatches to a list of visitors.
	class DispatchingDecoderVisitor : public DecoderVisitor {
	public:
	DispatchingDecoderVisitor() {}
	virtual ~DispatchingDecoderVisitor() {}

	// Register a new visitor class with the decoder.
	// Decode() will call the corresponding visitor method from all registered
	// visitor classes when decoding reaches the leaf node of the instruction
	// decode tree.
	// Visitors are called in the order.
	// A visitor can only be registered once.
	// Registering an already registered visitor will update its position.
	//
	// d.AppendVisitor(V1);
	// d.AppendVisitor(V2);
	// d.PrependVisitor(V2); // Move V2 at the start of the list.
	// d.InsertVisitorBefore(V3, V2);
	// d.AppendVisitor(V4);
	// d.AppendVisitor(V4); // No effect.
	//
	// d.Decode(i);
	//
	// will call in order visitor methods in V3, V2, V1, V4.
	void AppendVisitor(DecoderVisitor* visitor);
	void PrependVisitor(DecoderVisitor* visitor);
	void InsertVisitorBefore(DecoderVisitor* new_visitor,
	DecoderVisitor* registered_visitor);
	void InsertVisitorAfter(DecoderVisitor* new_visitor,
	DecoderVisitor* registered_visitor);

	// Remove a previously registered visitor class from the list of visitors
	// stored by the decoder.
	void RemoveVisitor(DecoderVisitor* visitor);

	#define DECLARE(A) void Visit##A(Instruction* instr);
	VISITOR_LIST(DECLARE)
	#undef DECLARE

	private:
	// Visitors are registered in a list.
	std::list<DecoderVisitor*> visitors_;
	};


	template<typename V>
	class Decoder : public V {
	public:
	Decoder() {}
	virtual ~Decoder() {}

	// Top-level instruction decoder function. Decodes an instruction and calls
	// the visitor functions registered with the Decoder class.
	virtual void Decode(Instruction *instr);

	private:
	// Decode the PC relative addressing instruction, and call the corresponding
	// visitors.
	// On entry, instruction bits 27:24 = 0x0.
	void DecodePCRelAddressing(Instruction* instr);

	// Decode the add/subtract immediate instruction, and call the corresponding
	// visitors.
	// On entry, instruction bits 27:24 = 0x1.
	void DecodeAddSubImmediate(Instruction* instr);

	// Decode the branch, system command, and exception generation parts of
	// the instruction tree, and call the corresponding visitors.
	// On entry, instruction bits 27:24 = {0x4, 0x5, 0x6, 0x7}.
	void DecodeBranchSystemException(Instruction* instr);

	// Decode the load and store parts of the instruction tree, and call
	// the corresponding visitors.
	// On entry, instruction bits 27:24 = {0x8, 0x9, 0xC, 0xD}.
	void DecodeLoadStore(Instruction* instr);

	// Decode the logical immediate and move wide immediate parts of the
	// instruction tree, and call the corresponding visitors.
	// On entry, instruction bits 27:24 = 0x2.
	void DecodeLogical(Instruction* instr);

	// Decode the bitfield and extraction parts of the instruction tree,
	// and call the corresponding visitors.
	// On entry, instruction bits 27:24 = 0x3.
	void DecodeBitfieldExtract(Instruction* instr);

	// Decode the data processing parts of the instruction tree, and call the
	// corresponding visitors.
	// On entry, instruction bits 27:24 = {0x1, 0xA, 0xB}.
	void DecodeDataProcessing(Instruction* instr);

	// Decode the floating point parts of the instruction tree, and call the
	// corresponding visitors.
	// On entry, instruction bits 27:24 = {0xE, 0xF}.
	void DecodeFP(Instruction* instr);

	// Decode the Advanced SIMD (NEON) load/store part of the instruction tree,
	// and call the corresponding visitors.
	// On entry, instruction bits 29:25 = 0x6.
	void DecodeAdvSIMDLoadStore(Instruction* instr);

	// Decode the Advanced SIMD (NEON) data processing part of the instruction
	// tree, and call the corresponding visitors.
	// On entry, instruction bits 27:25 = 0x7.
	void DecodeAdvSIMDDataProcessing(Instruction* instr);
	};


	} // namespace internal
	} // namespace v8

	#endif // V8_ARM64_DECODER_ARM64_H_