src/mips/codegen-mips.h - platform/external/v8 - Git at Google

 // Copyright 2010 the V8 project authors. All rights reserved.
 // Redistribution and use in source and binary forms, with or without
 // modification, are permitted provided that the following conditions are
 // met:
 //
 //     * Redistributions of source code must retain the above copyright
 //       notice, this list of conditions and the following disclaimer.
 //     * Redistributions in binary form must reproduce the above
 //       copyright notice, this list of conditions and the following
 //       disclaimer in the documentation and/or other materials provided
 //       with the distribution.
 //     * Neither the name of Google Inc. nor the names of its
 //       contributors may be used to endorse or promote products derived
 //       from this software without specific prior written permission.
 //
 // THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
 // "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
 // LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
 // A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
 // OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
 // SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
 // LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
 // DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
 // THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
 // (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
 // OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.


 #ifndef V8_MIPS_CODEGEN_MIPS_H_
 #define V8_MIPS_CODEGEN_MIPS_H_

 namespace v8 {
 namespace internal {

 // Forward declarations
 class CompilationInfo;
 class DeferredCode;
 class RegisterAllocator;
 class RegisterFile;

 enum InitState { CONST_INIT, NOT_CONST_INIT };
 enum TypeofState { INSIDE_TYPEOF, NOT_INSIDE_TYPEOF };


 // -------------------------------------------------------------------------
 // Code generation state

 // The state is passed down the AST by the code generator (and back up, in
 // the form of the state of the label pair).  It is threaded through the
 // call stack.  Constructing a state implicitly pushes it on the owning code
 // generator's stack of states, and destroying one implicitly pops it.

 class CodeGenState BASE_EMBEDDED {
  public:
   // Create an initial code generator state.  Destroying the initial state
   // leaves the code generator with a NULL state.
   explicit CodeGenState(CodeGenerator* owner);

   // Create a code generator state based on a code generator's current
   // state.  The new state has its own typeof state and pair of branch
   // labels.
   CodeGenState(CodeGenerator* owner,
                JumpTarget* true_target,
                JumpTarget* false_target);

   // Destroy a code generator state and restore the owning code generator's
   // previous state.
   ~CodeGenState();

   TypeofState typeof_state() const { return typeof_state_; }
   JumpTarget* true_target() const { return true_target_; }
   JumpTarget* false_target() const { return false_target_; }

  private:
   // The owning code generator.
   CodeGenerator* owner_;

   // A flag indicating whether we are compiling the immediate subexpression
   // of a typeof expression.
   TypeofState typeof_state_;

   JumpTarget* true_target_;
   JumpTarget* false_target_;

   // The previous state of the owning code generator, restored when
   // this state is destroyed.
   CodeGenState* previous_;
 };


 // -------------------------------------------------------------------------
 // CodeGenerator

 class CodeGenerator: public AstVisitor {
  public:
   // Compilation mode.  Either the compiler is used as the primary
   // compiler and needs to setup everything or the compiler is used as
   // the secondary compiler for split compilation and has to handle
   // bailouts.
   enum Mode {
     PRIMARY,
     SECONDARY
   };

   // Takes a function literal, generates code for it. This function should only
   // be called by compiler.cc.
   static Handle<Code> MakeCode(CompilationInfo* info);

   // Printing of AST, etc. as requested by flags.
   static void MakeCodePrologue(CompilationInfo* info);

   // Allocate and install the code.
   static Handle<Code> MakeCodeEpilogue(MacroAssembler* masm,
                                        Code::Flags flags,
                                        CompilationInfo* info);

 #ifdef ENABLE_LOGGING_AND_PROFILING
   static bool ShouldGenerateLog(Expression* type);
 #endif

   static void SetFunctionInfo(Handle<JSFunction> fun,
                               FunctionLiteral* lit,
                               bool is_toplevel,
                               Handle<Script> script);

   static void RecordPositions(MacroAssembler* masm, int pos);

   // Accessors
   MacroAssembler* masm() { return masm_; }
   VirtualFrame* frame() const { return frame_; }
   inline Handle<Script> script();

   bool has_valid_frame() const { return frame_ != NULL; }

   // Set the virtual frame to be new_frame, with non-frame register
   // reference counts given by non_frame_registers.  The non-frame
   // register reference counts of the old frame are returned in
   // non_frame_registers.
   void SetFrame(VirtualFrame* new_frame, RegisterFile* non_frame_registers);

   void DeleteFrame();

   RegisterAllocator* allocator() const { return allocator_; }

   CodeGenState* state() { return state_; }
   void set_state(CodeGenState* state) { state_ = state; }

   void AddDeferred(DeferredCode* code) { deferred_.Add(code); }

   static const int kUnknownIntValue = -1;

   // Number of instructions used for the JS return sequence. The constant is
   // used by the debugger to patch the JS return sequence.
   static const int kJSReturnSequenceLength = 6;

  private:
   // Construction/Destruction.
   explicit CodeGenerator(MacroAssembler* masm);
   virtual ~CodeGenerator() { delete masm_; }

   // Accessors.
   inline bool is_eval();
   Scope* scope() const { return scope_; }

   // Generating deferred code.
   void ProcessDeferred();

   // State
   bool has_cc() const  { return cc_reg_ != cc_always; }
   TypeofState typeof_state() const { return state_->typeof_state(); }
   JumpTarget* true_target() const  { return state_->true_target(); }
   JumpTarget* false_target() const  { return state_->false_target(); }

   // We don't track loop nesting level on mips yet.
   int loop_nesting() const { return 0; }

   // Node visitors.
   void VisitStatements(ZoneList<Statement*>* statements);

 #define DEF_VISIT(type) \
   void Visit##type(type* node);
   AST_NODE_LIST(DEF_VISIT)
 #undef DEF_VISIT

   // Main code generation function
   void Generate(CompilationInfo* info, Mode mode);

   struct InlineRuntimeLUT {
     void (CodeGenerator::*method)(ZoneList<Expression*>*);
     const char* name;
   };

   static InlineRuntimeLUT* FindInlineRuntimeLUT(Handle<String> name);
   bool CheckForInlineRuntimeCall(CallRuntime* node);
   static bool PatchInlineRuntimeEntry(Handle<String> name,
                                       const InlineRuntimeLUT& new_entry,
                                       InlineRuntimeLUT* old_entry);

   static Handle<Code> ComputeLazyCompile(int argc);
   void ProcessDeclarations(ZoneList<Declaration*>* declarations);

   Handle<Code> ComputeCallInitialize(int argc, InLoopFlag in_loop);

   // Declare global variables and functions in the given array of
   // name/value pairs.
   void DeclareGlobals(Handle<FixedArray> pairs);

   // Support for type checks.
   void GenerateIsSmi(ZoneList<Expression*>* args);
   void GenerateIsNonNegativeSmi(ZoneList<Expression*>* args);
   void GenerateIsArray(ZoneList<Expression*>* args);
   void GenerateIsRegExp(ZoneList<Expression*>* args);

   // Support for construct call checks.
   void GenerateIsConstructCall(ZoneList<Expression*>* args);

   // Support for arguments.length and arguments[?].
   void GenerateArgumentsLength(ZoneList<Expression*>* args);
   void GenerateArgumentsAccess(ZoneList<Expression*>* args);

   // Support for accessing the class and value fields of an object.
   void GenerateClassOf(ZoneList<Expression*>* args);
   void GenerateValueOf(ZoneList<Expression*>* args);
   void GenerateSetValueOf(ZoneList<Expression*>* args);

   // Fast support for charCodeAt(n).
   void GenerateFastCharCodeAt(ZoneList<Expression*>* args);

   // Fast support for object equality testing.
   void GenerateObjectEquals(ZoneList<Expression*>* args);

   void GenerateLog(ZoneList<Expression*>* args);

   // Fast support for Math.random().
   void GenerateRandomPositiveSmi(ZoneList<Expression*>* args);

   void GenerateIsObject(ZoneList<Expression*>* args);
   void GenerateIsFunction(ZoneList<Expression*>* args);
   void GenerateIsUndetectableObject(ZoneList<Expression*>* args);
   void GenerateStringAdd(ZoneList<Expression*>* args);
   void GenerateSubString(ZoneList<Expression*>* args);
   void GenerateStringCompare(ZoneList<Expression*>* args);
   void GenerateRegExpExec(ZoneList<Expression*>* args);
   void GenerateNumberToString(ZoneList<Expression*>* args);


   // Fast support for Math.sin and Math.cos.
   inline void GenerateMathSin(ZoneList<Expression*>* args);
   inline void GenerateMathCos(ZoneList<Expression*>* args);

   // Simple condition analysis.
   enum ConditionAnalysis {
     ALWAYS_TRUE,
     ALWAYS_FALSE,
     DONT_KNOW
   };
   ConditionAnalysis AnalyzeCondition(Expression* cond);

   // Methods used to indicate which source code is generated for. Source
   // positions are collected by the assembler and emitted with the relocation
   // information.
   void CodeForFunctionPosition(FunctionLiteral* fun);
   void CodeForReturnPosition(FunctionLiteral* fun);
   void CodeForStatementPosition(Statement* node);
   void CodeForDoWhileConditionPosition(DoWhileStatement* stmt);
   void CodeForSourcePosition(int pos);

 #ifdef DEBUG
   // True if the registers are valid for entry to a block.
   bool HasValidEntryRegisters();
 #endif

   bool is_eval_;  // Tells whether code is generated for eval.

   Handle<Script> script_;
   List<DeferredCode*> deferred_;

   // Assembler
   MacroAssembler* masm_;  // to generate code

   CompilationInfo* info_;

   // Code generation state
   Scope* scope_;
   VirtualFrame* frame_;
   RegisterAllocator* allocator_;
   Condition cc_reg_;
   CodeGenState* state_;

   // Jump targets
   BreakTarget function_return_;

   // True if the function return is shadowed (ie, jumping to the target
   // function_return_ does not jump to the true function return, but rather
   // to some unlinking code).
   bool function_return_is_shadowed_;

   static InlineRuntimeLUT kInlineRuntimeLUT[];

   friend class VirtualFrame;
   friend class JumpTarget;
   friend class Reference;
   friend class FastCodeGenerator;
   friend class FullCodeGenSyntaxChecker;

   DISALLOW_COPY_AND_ASSIGN(CodeGenerator);
 };


 } }  // namespace v8::internal

 #endif  // V8_MIPS_CODEGEN_MIPS_H_
	// Copyright 2010 the V8 project authors. All rights reserved.
	// Redistribution and use in source and binary forms, with or without
	// modification, are permitted provided that the following conditions are
	// met:
	//
	// * Redistributions of source code must retain the above copyright
	// notice, this list of conditions and the following disclaimer.
	// * Redistributions in binary form must reproduce the above
	// copyright notice, this list of conditions and the following
	// disclaimer in the documentation and/or other materials provided
	// with the distribution.
	// * Neither the name of Google Inc. nor the names of its
	// contributors may be used to endorse or promote products derived
	// from this software without specific prior written permission.
	//
	// THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS
	// "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT
	// LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR
	// A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT
	// OWNER OR CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL,
	// SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT
	// LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE,
	// DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY
	// THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	// (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	// OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.


	#ifndef V8_MIPS_CODEGEN_MIPS_H_
	#define V8_MIPS_CODEGEN_MIPS_H_

	namespace v8 {
	namespace internal {

	// Forward declarations
	class CompilationInfo;
	class DeferredCode;
	class RegisterAllocator;
	class RegisterFile;

	enum InitState { CONST_INIT, NOT_CONST_INIT };
	enum TypeofState { INSIDE_TYPEOF, NOT_INSIDE_TYPEOF };


	// -------------------------------------------------------------------------
	// Code generation state

	// The state is passed down the AST by the code generator (and back up, in
	// the form of the state of the label pair). It is threaded through the
	// call stack. Constructing a state implicitly pushes it on the owning code
	// generator's stack of states, and destroying one implicitly pops it.

	class CodeGenState BASE_EMBEDDED {
	public:
	// Create an initial code generator state. Destroying the initial state
	// leaves the code generator with a NULL state.
	explicit CodeGenState(CodeGenerator* owner);

	// Create a code generator state based on a code generator's current
	// state. The new state has its own typeof state and pair of branch
	// labels.
	CodeGenState(CodeGenerator* owner,
	JumpTarget* true_target,
	JumpTarget* false_target);

	// Destroy a code generator state and restore the owning code generator's
	// previous state.
	~CodeGenState();

	TypeofState typeof_state() const { return typeof_state_; }
	JumpTarget* true_target() const { return true_target_; }
	JumpTarget* false_target() const { return false_target_; }

	private:
	// The owning code generator.
	CodeGenerator* owner_;

	// A flag indicating whether we are compiling the immediate subexpression
	// of a typeof expression.
	TypeofState typeof_state_;

	JumpTarget* true_target_;
	JumpTarget* false_target_;

	// The previous state of the owning code generator, restored when
	// this state is destroyed.
	CodeGenState* previous_;
	};



	// -------------------------------------------------------------------------
	// CodeGenerator

	class CodeGenerator: public AstVisitor {
	public:
	// Compilation mode. Either the compiler is used as the primary
	// compiler and needs to setup everything or the compiler is used as
	// the secondary compiler for split compilation and has to handle
	// bailouts.
	enum Mode {
	PRIMARY,
	SECONDARY
	};

	// Takes a function literal, generates code for it. This function should only
	// be called by compiler.cc.
	static Handle<Code> MakeCode(CompilationInfo* info);

	// Printing of AST, etc. as requested by flags.
	static void MakeCodePrologue(CompilationInfo* info);

	// Allocate and install the code.
	static Handle<Code> MakeCodeEpilogue(MacroAssembler* masm,
	Code::Flags flags,
	CompilationInfo* info);

	#ifdef ENABLE_LOGGING_AND_PROFILING
	static bool ShouldGenerateLog(Expression* type);
	#endif

	static void SetFunctionInfo(Handle<JSFunction> fun,
	FunctionLiteral* lit,
	bool is_toplevel,
	Handle<Script> script);

	static void RecordPositions(MacroAssembler* masm, int pos);

	// Accessors
	MacroAssembler* masm() { return masm_; }
	VirtualFrame* frame() const { return frame_; }
	inline Handle<Script> script();

	bool has_valid_frame() const { return frame_ != NULL; }

	// Set the virtual frame to be new_frame, with non-frame register
	// reference counts given by non_frame_registers. The non-frame
	// register reference counts of the old frame are returned in
	// non_frame_registers.
	void SetFrame(VirtualFrame* new_frame, RegisterFile* non_frame_registers);

	void DeleteFrame();

	RegisterAllocator* allocator() const { return allocator_; }

	CodeGenState* state() { return state_; }
	void set_state(CodeGenState* state) { state_ = state; }

	void AddDeferred(DeferredCode* code) { deferred_.Add(code); }

	static const int kUnknownIntValue = -1;

	// Number of instructions used for the JS return sequence. The constant is
	// used by the debugger to patch the JS return sequence.
	static const int kJSReturnSequenceLength = 6;

	private:
	// Construction/Destruction.
	explicit CodeGenerator(MacroAssembler* masm);
	virtual ~CodeGenerator() { delete masm_; }

	// Accessors.
	inline bool is_eval();
	Scope* scope() const { return scope_; }

	// Generating deferred code.
	void ProcessDeferred();

	// State
	bool has_cc() const { return cc_reg_ != cc_always; }
	TypeofState typeof_state() const { return state_->typeof_state(); }
	JumpTarget* true_target() const { return state_->true_target(); }
	JumpTarget* false_target() const { return state_->false_target(); }

	// We don't track loop nesting level on mips yet.
	int loop_nesting() const { return 0; }

	// Node visitors.
	void VisitStatements(ZoneList<Statement> statements);

	#define DEF_VISIT(type) \
	void Visit##type(type* node);
	AST_NODE_LIST(DEF_VISIT)
	#undef DEF_VISIT

	// Main code generation function
	void Generate(CompilationInfo* info, Mode mode);

	struct InlineRuntimeLUT {
	void (CodeGenerator::method)(ZoneList<Expression>*);
	const char* name;
	};

	static InlineRuntimeLUT* FindInlineRuntimeLUT(Handle<String> name);
	bool CheckForInlineRuntimeCall(CallRuntime* node);
	static bool PatchInlineRuntimeEntry(Handle<String> name,
	const InlineRuntimeLUT& new_entry,
	InlineRuntimeLUT* old_entry);

	static Handle<Code> ComputeLazyCompile(int argc);
	void ProcessDeclarations(ZoneList<Declaration> declarations);

	Handle<Code> ComputeCallInitialize(int argc, InLoopFlag in_loop);

	// Declare global variables and functions in the given array of
	// name/value pairs.
	void DeclareGlobals(Handle<FixedArray> pairs);

	// Support for type checks.
	void GenerateIsSmi(ZoneList<Expression> args);
	void GenerateIsNonNegativeSmi(ZoneList<Expression> args);
	void GenerateIsArray(ZoneList<Expression> args);
	void GenerateIsRegExp(ZoneList<Expression> args);

	// Support for construct call checks.
	void GenerateIsConstructCall(ZoneList<Expression> args);

	// Support for arguments.length and arguments[?].
	void GenerateArgumentsLength(ZoneList<Expression> args);
	void GenerateArgumentsAccess(ZoneList<Expression> args);

	// Support for accessing the class and value fields of an object.
	void GenerateClassOf(ZoneList<Expression> args);
	void GenerateValueOf(ZoneList<Expression> args);
	void GenerateSetValueOf(ZoneList<Expression> args);

	// Fast support for charCodeAt(n).
	void GenerateFastCharCodeAt(ZoneList<Expression> args);

	// Fast support for object equality testing.
	void GenerateObjectEquals(ZoneList<Expression> args);

	void GenerateLog(ZoneList<Expression> args);

	// Fast support for Math.random().
	void GenerateRandomPositiveSmi(ZoneList<Expression> args);

	void GenerateIsObject(ZoneList<Expression> args);
	void GenerateIsFunction(ZoneList<Expression> args);
	void GenerateIsUndetectableObject(ZoneList<Expression> args);
	void GenerateStringAdd(ZoneList<Expression> args);
	void GenerateSubString(ZoneList<Expression> args);
	void GenerateStringCompare(ZoneList<Expression> args);
	void GenerateRegExpExec(ZoneList<Expression> args);
	void GenerateNumberToString(ZoneList<Expression> args);


	// Fast support for Math.sin and Math.cos.
	inline void GenerateMathSin(ZoneList<Expression> args);
	inline void GenerateMathCos(ZoneList<Expression> args);

	// Simple condition analysis.
	enum ConditionAnalysis {
	ALWAYS_TRUE,
	ALWAYS_FALSE,
	DONT_KNOW
	};
	ConditionAnalysis AnalyzeCondition(Expression* cond);

	// Methods used to indicate which source code is generated for. Source
	// positions are collected by the assembler and emitted with the relocation
	// information.
	void CodeForFunctionPosition(FunctionLiteral* fun);
	void CodeForReturnPosition(FunctionLiteral* fun);
	void CodeForStatementPosition(Statement* node);
	void CodeForDoWhileConditionPosition(DoWhileStatement* stmt);
	void CodeForSourcePosition(int pos);

	#ifdef DEBUG
	// True if the registers are valid for entry to a block.
	bool HasValidEntryRegisters();
	#endif

	bool is_eval_; // Tells whether code is generated for eval.

	Handle<Script> script_;
	List<DeferredCode*> deferred_;

	// Assembler
	MacroAssembler* masm_; // to generate code

	CompilationInfo* info_;

	// Code generation state
	Scope* scope_;
	VirtualFrame* frame_;
	RegisterAllocator* allocator_;
	Condition cc_reg_;
	CodeGenState* state_;

	// Jump targets
	BreakTarget function_return_;

	// True if the function return is shadowed (ie, jumping to the target
	// function_return_ does not jump to the true function return, but rather
	// to some unlinking code).
	bool function_return_is_shadowed_;

	static InlineRuntimeLUT kInlineRuntimeLUT[];

	friend class VirtualFrame;
	friend class JumpTarget;
	friend class Reference;
	friend class FastCodeGenerator;
	friend class FullCodeGenSyntaxChecker;

	DISALLOW_COPY_AND_ASSIGN(CodeGenerator);
	};


	} } // namespace v8::internal

	#endif // V8_MIPS_CODEGEN_MIPS_H_