runtime/vm/stack_frame.h - sdk.git - Git at Google

 // Copyright (c) 2011, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #ifndef RUNTIME_VM_STACK_FRAME_H_
 #define RUNTIME_VM_STACK_FRAME_H_

 #include "vm/allocation.h"
 #include "vm/frame_layout.h"
 #include "vm/object.h"
 #include "vm/stub_code.h"

 #if defined(TARGET_ARCH_IA32)
 #include "vm/stack_frame_ia32.h"
 #elif defined(TARGET_ARCH_X64)
 #include "vm/stack_frame_x64.h"
 #elif defined(TARGET_ARCH_ARM)
 #include "vm/stack_frame_arm.h"
 #elif defined(TARGET_ARCH_ARM64)
 #include "vm/stack_frame_arm64.h"
 #elif defined(TARGET_ARCH_RISCV32) || defined(TARGET_ARCH_RISCV64)
 #include "vm/stack_frame_riscv.h"
 #else
 #error Unknown architecture.
 #endif

 namespace dart {

 // Forward declarations.
 class ObjectPointerVisitor;
 class LocalVariable;

 extern UntaggedFrame runtime_frame_layout;

 // Generic stack frame.
 class StackFrame : public ValueObject {
  public:
   virtual ~StackFrame() {}

   // Accessors to get the pc, sp and fp of a frame.
   uword sp() const { return sp_; }
   uword fp() const { return fp_; }
   uword pc() const { return pc_; }

   // The pool pointer is not implemented on all architectures.
   static int SavedCallerPpSlotFromFp() {
     if (runtime_frame_layout.saved_caller_pp_from_fp !=
         kSavedCallerFpSlotFromFp) {
       return runtime_frame_layout.saved_caller_pp_from_fp;
     }
     UNREACHABLE();
     return 0;
   }

   bool IsMarkedForLazyDeopt() const {
     uword raw_pc =
         *reinterpret_cast<uword*>(sp() + (kSavedPcSlotFromSp * kWordSize));
     return raw_pc == StubCode::DeoptimizeLazyFromReturn().EntryPoint();
   }
   void MarkForLazyDeopt() {
     set_pc(StubCode::DeoptimizeLazyFromReturn().EntryPoint());
   }
   void UnmarkForLazyDeopt() {
     // If this frame was marked for lazy deopt, pc_ was computed to be the
     // original return address using the pending deopts table in GetCallerPc.
     // Write this value back into the frame.
     uword original_pc = pc();
     ASSERT(original_pc != StubCode::DeoptimizeLazyFromReturn().EntryPoint());
     set_pc(original_pc);
   }

   void set_pc(uword value) {
     *reinterpret_cast<uword*>(sp() + (kSavedPcSlotFromSp * kWordSize)) = value;
     pc_ = value;
   }

   void set_pc_marker(CodePtr code) {
     *reinterpret_cast<CodePtr*>(
         fp() + (runtime_frame_layout.code_from_fp * kWordSize)) = code;
   }

   // Visit objects in the frame.
   virtual void VisitObjectPointers(ObjectPointerVisitor* visitor);

   const char* ToCString() const;

   // Check validity of a frame, used for assertion purposes.
   virtual bool IsValid() const;

   // Returns true iff the current frame is a bare instructions dart frame.
   bool IsBareInstructionsDartFrame() const;

   // Returns true iff the current frame is a bare instructions stub frame.
   bool IsBareInstructionsStubFrame() const;

   // Frame type.
   virtual bool IsDartFrame(bool validate = true) const {
     ASSERT(!validate || IsValid());
     return !(IsEntryFrame() || IsExitFrame() || IsStubFrame());
   }
   virtual bool IsStubFrame() const;
   virtual bool IsEntryFrame() const { return false; }
   virtual bool IsExitFrame() const { return false; }

   FunctionPtr LookupDartFunction() const;
   CodePtr LookupDartCode() const;
   bool FindExceptionHandler(Thread* thread,
                             uword* handler_pc,
                             bool* needs_stacktrace,
                             bool* is_catch_all,
                             bool* is_optimized) const;
   // Returns token_pos of the pc(), or -1 if none exists.
   TokenPosition GetTokenPos() const;

   static void DumpCurrentTrace();

   uword GetCallerSp() const { return fp() + (kCallerSpSlotFromFp * kWordSize); }

  protected:
   explicit StackFrame(Thread* thread)
       : fp_(0), sp_(0), pc_(0), thread_(thread) {}

   // Name of the frame, used for generic frame printing functionality.
   virtual const char* GetName() const {
     if (IsBareInstructionsStubFrame()) return "bare-stub";
     if (IsStubFrame()) return "stub";
     return IsBareInstructionsDartFrame() ? "bare-dart" : "dart";
   }

   Isolate* isolate() const { return thread_->isolate(); }
   IsolateGroup* isolate_group() const { return thread_->isolate_group(); }

   Thread* thread() const { return thread_; }

  private:
   CodePtr GetCodeObject() const;

   uword GetCallerFp() const {
     return *(reinterpret_cast<uword*>(fp() +
                                       (kSavedCallerFpSlotFromFp * kWordSize)));
   }

   uword GetCallerPc() const {
     uword raw_pc = *(reinterpret_cast<uword*>(
         fp() + (kSavedCallerPcSlotFromFp * kWordSize)));
     ASSERT(raw_pc != StubCode::DeoptimizeLazyFromThrow().EntryPoint());
     if (raw_pc == StubCode::DeoptimizeLazyFromReturn().EntryPoint()) {
       return thread_->pending_deopts().FindPendingDeopt(GetCallerFp());
     }
     return raw_pc;
   }

   uword fp_;
   uword sp_;
   uword pc_;
   Thread* thread_;

   // The iterators FrameSetIterator and StackFrameIterator set the private
   // fields fp_ and sp_ when they return the respective frame objects.
   friend class FrameSetIterator;
   friend class StackFrameIterator;
   // UntaggedSuspendState::VisitSuspendStatePointers creates a temporary
   // StackFrame objects for the copied frames of the suspended functions.
   friend class UntaggedSuspendState;
   friend class ProfilerDartStackWalker;
   DISALLOW_COPY_AND_ASSIGN(StackFrame);
 };

 // Exit frame is used to mark the transition from dart code into dart VM
 // runtime code.
 class ExitFrame : public StackFrame {
  public:
   bool IsValid() const { return sp() == 0; }
   bool IsDartFrame(bool validate = true) const { return false; }
   bool IsStubFrame() const { return false; }
   bool IsExitFrame() const { return true; }

   // Visit objects in the frame.
   virtual void VisitObjectPointers(ObjectPointerVisitor* visitor);

  protected:
   virtual const char* GetName() const { return "exit"; }

  private:
   explicit ExitFrame(Thread* thread) : StackFrame(thread) {}

   friend class StackFrameIterator;
   DISALLOW_COPY_AND_ASSIGN(ExitFrame);
 };

 // Entry Frame is used to mark the transition from dart VM runtime code into
 // dart code.
 class EntryFrame : public StackFrame {
  public:
   bool IsValid() const { return StubCode::InInvocationStub(pc()); }
   bool IsDartFrame(bool validate = true) const { return false; }
   bool IsStubFrame() const { return false; }
   bool IsEntryFrame() const { return true; }

   // Visit objects in the frame.
   virtual void VisitObjectPointers(ObjectPointerVisitor* visitor);

  protected:
   virtual const char* GetName() const { return "entry"; }

  private:
   explicit EntryFrame(Thread* thread) : StackFrame(thread) {}

   friend class StackFrameIterator;
   DISALLOW_COPY_AND_ASSIGN(EntryFrame);
 };

 // A StackFrameIterator can be initialized with a thread other than the
 // current thread. Because this is generally a bad idea, it is only allowed on
 // Windows- where it is needed for the profiler. It is the responsibility of
 // users of StackFrameIterator to ensure that the thread given is not running
 // concurrently.
 class StackFrameIterator {
  public:
   enum CrossThreadPolicy {
     kNoCrossThreadIteration = 0,
     kAllowCrossThreadIteration = 1,
   };

   // Iterators for iterating over all frames from the last ExitFrame to the
   // first EntryFrame.
   StackFrameIterator(ValidationPolicy validation_policy,
                      Thread* thread,
                      CrossThreadPolicy cross_thread_policy);
   StackFrameIterator(uword last_fp,
                      ValidationPolicy validation_policy,
                      Thread* thread,
                      CrossThreadPolicy cross_thread_policy);

   // Iterator for iterating over all frames from the current frame (given by its
   // fp, sp, and pc) to the first EntryFrame.
   StackFrameIterator(uword fp,
                      uword sp,
                      uword pc,
                      ValidationPolicy validation_policy,
                      Thread* thread,
                      CrossThreadPolicy cross_thread_policy);

   explicit StackFrameIterator(const StackFrameIterator& orig);

   // Checks if a next frame exists.
   bool HasNextFrame() const { return frames_.fp_ != 0; }

   // Get next frame.
   StackFrame* NextFrame();

   bool validate() const { return validate_; }

  private:
   // Iterator for iterating over the set of frames (dart or stub) which exist
   // in one EntryFrame and ExitFrame block.
   class FrameSetIterator : public ValueObject {
    public:
     // Checks if a next non entry/exit frame exists in the set.
     bool HasNext() const {
       if (fp_ == 0) {
         return false;
       }
       const uword pc =
           *(reinterpret_cast<uword*>(sp_ + (kSavedPcSlotFromSp * kWordSize)));
       return !StubCode::InInvocationStub(pc);
     }

     // Get next non entry/exit frame in the set (assumes a next frame exists).
     StackFrame* NextFrame(bool validate);

    private:
     explicit FrameSetIterator(Thread* thread)
         : fp_(0), sp_(0), pc_(0), stack_frame_(thread), thread_(thread) {}
     void Unpoison();

     uword fp_;
     uword sp_;
     uword pc_;
     StackFrame stack_frame_;  // Singleton frame returned by NextFrame().
     Thread* thread_;

     friend class StackFrameIterator;
     DISALLOW_COPY_AND_ASSIGN(FrameSetIterator);
   };

   // Get next exit frame.
   ExitFrame* NextExitFrame();

   // Get next entry frame.
   EntryFrame* NextEntryFrame();

   // Get an iterator to the next set of frames between an entry and exit
   // frame.
   FrameSetIterator* NextFrameSet() { return &frames_; }

   // Setup last or next exit frames so that we are ready to iterate over
   // stack frames.
   void SetupLastExitFrameData();
   void SetupNextExitFrameData();

   bool validate_;     // Validate each frame as we traverse the frames.
   EntryFrame entry_;  // Singleton entry frame returned by NextEntryFrame().
   ExitFrame exit_;    // Singleton exit frame returned by NextExitFrame().
   FrameSetIterator frames_;
   StackFrame* current_frame_;  // Points to the current frame in the iterator.
   Thread* thread_;

   friend class ProfilerDartStackWalker;
 };

 // Iterator for iterating over all dart frames (skips over exit frames,
 // entry frames and stub frames).
 // A DartFrameIterator can be initialized with an isolate other than the
 // current thread's isolate. Because this is generally a bad idea,
 // it is only allowed on Windows- where it is needed for the profiler.
 // It is the responsibility of users of DartFrameIterator to ensure that the
 // isolate given is not running concurrently on another thread.
 class DartFrameIterator {
  public:
   explicit DartFrameIterator(
       Thread* thread,
       StackFrameIterator::CrossThreadPolicy cross_thread_policy)
       : frames_(ValidationPolicy::kDontValidateFrames,
                 thread,
                 cross_thread_policy) {}
   explicit DartFrameIterator(
       uword last_fp,
       Thread* thread,
       StackFrameIterator::CrossThreadPolicy cross_thread_policy)
       : frames_(last_fp,
                 ValidationPolicy::kDontValidateFrames,
                 thread,
                 cross_thread_policy) {}

   DartFrameIterator(uword fp,
                     uword sp,
                     uword pc,
                     Thread* thread,
                     StackFrameIterator::CrossThreadPolicy cross_thread_policy)
       : frames_(fp,
                 sp,
                 pc,
                 ValidationPolicy::kDontValidateFrames,
                 thread,
                 cross_thread_policy) {}

   explicit DartFrameIterator(const DartFrameIterator& orig)
       : frames_(orig.frames_) {}

   // Get next dart frame.
   StackFrame* NextFrame() {
     StackFrame* frame = frames_.NextFrame();
     while (frame != NULL && !frame->IsDartFrame(frames_.validate())) {
       frame = frames_.NextFrame();
     }
     return frame;
   }

  private:
   StackFrameIterator frames_;
 };

 // Iterator for iterating over all inlined dart functions in an optimized
 // dart frame (the iteration includes the function that is inlining the
 // other functions).
 class InlinedFunctionsIterator : public ValueObject {
  public:
   InlinedFunctionsIterator(const Code& code, uword pc);
   bool Done() const { return index_ == -1; }
   void Advance();

   FunctionPtr function() const {
     ASSERT(!Done());
     return function_.ptr();
   }

   uword pc() const {
     ASSERT(!Done());
     return pc_;
   }

   CodePtr code() const {
     ASSERT(!Done());
     return code_.ptr();
   }

 #if !defined(DART_PRECOMPILED_RUNTIME)
   intptr_t GetDeoptFpOffset() const;
 #endif  // !defined(DART_PRECOMPILED_RUNTIME)

  private:
   void SetDone() { index_ = -1; }

   intptr_t index_;
   intptr_t num_materializations_;
   intptr_t dest_frame_size_;
   Code& code_;
   TypedData& deopt_info_;
   Function& function_;
   uword pc_;
   GrowableArray<DeoptInstr*> deopt_instructions_;
   ObjectPool& object_table_;

   DISALLOW_COPY_AND_ASSIGN(InlinedFunctionsIterator);
 };

 #if defined(DEBUG)
 void ValidateFrames();
 #endif

 DART_FORCE_INLINE static intptr_t LocalVarIndex(intptr_t fp_offset,
                                                 intptr_t var_index) {
   return fp_offset + var_index;
 }

 DART_FORCE_INLINE static uword ParamAddress(uword fp, intptr_t reverse_index) {
   return fp + (kParamEndSlotFromFp * kWordSize) + (reverse_index * kWordSize);
 }

 // Both fp and other_fp are compiled code frame pointers.
 DART_FORCE_INLINE static bool IsCalleeFrameOf(uword fp, uword other_fp) {
   return other_fp < fp;
 }

 // Value for stack limit that is used to cause an interrupt.
 static const uword kInterruptStackLimit = ~static_cast<uword>(0);

 DART_FORCE_INLINE static uword LocalVarAddress(uword fp, intptr_t index) {
   return fp + LocalVarIndex(0, index) * kWordSize;
 }

 }  // namespace dart

 #endif  // RUNTIME_VM_STACK_FRAME_H_
	// Copyright (c) 2011, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#ifndef RUNTIME_VM_STACK_FRAME_H_
	#define RUNTIME_VM_STACK_FRAME_H_

	#include "vm/allocation.h"
	#include "vm/frame_layout.h"
	#include "vm/object.h"
	#include "vm/stub_code.h"

	#if defined(TARGET_ARCH_IA32)
	#include "vm/stack_frame_ia32.h"
	#elif defined(TARGET_ARCH_X64)
	#include "vm/stack_frame_x64.h"
	#elif defined(TARGET_ARCH_ARM)
	#include "vm/stack_frame_arm.h"
	#elif defined(TARGET_ARCH_ARM64)
	#include "vm/stack_frame_arm64.h"
	#elif defined(TARGET_ARCH_RISCV32) \|\| defined(TARGET_ARCH_RISCV64)
	#include "vm/stack_frame_riscv.h"
	#else
	#error Unknown architecture.
	#endif

	namespace dart {

	// Forward declarations.
	class ObjectPointerVisitor;
	class LocalVariable;

	extern UntaggedFrame runtime_frame_layout;

	// Generic stack frame.
	class StackFrame : public ValueObject {
	public:
	virtual ~StackFrame() {}

	// Accessors to get the pc, sp and fp of a frame.
	uword sp() const { return sp_; }
	uword fp() const { return fp_; }
	uword pc() const { return pc_; }

	// The pool pointer is not implemented on all architectures.
	static int SavedCallerPpSlotFromFp() {
	if (runtime_frame_layout.saved_caller_pp_from_fp !=
	kSavedCallerFpSlotFromFp) {
	return runtime_frame_layout.saved_caller_pp_from_fp;
	}
	UNREACHABLE();
	return 0;
	}

	bool IsMarkedForLazyDeopt() const {
	uword raw_pc =
	reinterpret_cast<uword>(sp() + (kSavedPcSlotFromSp * kWordSize));
	return raw_pc == StubCode::DeoptimizeLazyFromReturn().EntryPoint();
	}
	void MarkForLazyDeopt() {
	set_pc(StubCode::DeoptimizeLazyFromReturn().EntryPoint());
	}
	void UnmarkForLazyDeopt() {
	// If this frame was marked for lazy deopt, pc_ was computed to be the
	// original return address using the pending deopts table in GetCallerPc.
	// Write this value back into the frame.
	uword original_pc = pc();
	ASSERT(original_pc != StubCode::DeoptimizeLazyFromReturn().EntryPoint());
	set_pc(original_pc);
	}

	void set_pc(uword value) {
	reinterpret_cast<uword>(sp() + (kSavedPcSlotFromSp * kWordSize)) = value;
	pc_ = value;
	}

	void set_pc_marker(CodePtr code) {
	reinterpret_cast<CodePtr>(
	fp() + (runtime_frame_layout.code_from_fp * kWordSize)) = code;
	}

	// Visit objects in the frame.
	virtual void VisitObjectPointers(ObjectPointerVisitor* visitor);

	const char* ToCString() const;

	// Check validity of a frame, used for assertion purposes.
	virtual bool IsValid() const;

	// Returns true iff the current frame is a bare instructions dart frame.
	bool IsBareInstructionsDartFrame() const;

	// Returns true iff the current frame is a bare instructions stub frame.
	bool IsBareInstructionsStubFrame() const;

	// Frame type.
	virtual bool IsDartFrame(bool validate = true) const {
	ASSERT(!validate \|\| IsValid());
	return !(IsEntryFrame() \|\| IsExitFrame() \|\| IsStubFrame());
	}
	virtual bool IsStubFrame() const;
	virtual bool IsEntryFrame() const { return false; }
	virtual bool IsExitFrame() const { return false; }

	FunctionPtr LookupDartFunction() const;
	CodePtr LookupDartCode() const;
	bool FindExceptionHandler(Thread* thread,
	uword* handler_pc,
	bool* needs_stacktrace,
	bool* is_catch_all,
	bool* is_optimized) const;
	// Returns token_pos of the pc(), or -1 if none exists.
	TokenPosition GetTokenPos() const;

	static void DumpCurrentTrace();

	uword GetCallerSp() const { return fp() + (kCallerSpSlotFromFp * kWordSize); }

	protected:
	explicit StackFrame(Thread* thread)
	: fp_(0), sp_(0), pc_(0), thread_(thread) {}

	// Name of the frame, used for generic frame printing functionality.
	virtual const char* GetName() const {
	if (IsBareInstructionsStubFrame()) return "bare-stub";
	if (IsStubFrame()) return "stub";
	return IsBareInstructionsDartFrame() ? "bare-dart" : "dart";
	}

	Isolate* isolate() const { return thread_->isolate(); }
	IsolateGroup* isolate_group() const { return thread_->isolate_group(); }

	Thread* thread() const { return thread_; }

	private:
	CodePtr GetCodeObject() const;

	uword GetCallerFp() const {
	return (reinterpret_cast<uword>(fp() +
	(kSavedCallerFpSlotFromFp * kWordSize)));
	}

	uword GetCallerPc() const {
	uword raw_pc = (reinterpret_cast<uword>(
	fp() + (kSavedCallerPcSlotFromFp * kWordSize)));
	ASSERT(raw_pc != StubCode::DeoptimizeLazyFromThrow().EntryPoint());
	if (raw_pc == StubCode::DeoptimizeLazyFromReturn().EntryPoint()) {
	return thread_->pending_deopts().FindPendingDeopt(GetCallerFp());
	}
	return raw_pc;
	}

	uword fp_;
	uword sp_;
	uword pc_;
	Thread* thread_;

	// The iterators FrameSetIterator and StackFrameIterator set the private
	// fields fp_ and sp_ when they return the respective frame objects.
	friend class FrameSetIterator;
	friend class StackFrameIterator;
	// UntaggedSuspendState::VisitSuspendStatePointers creates a temporary
	// StackFrame objects for the copied frames of the suspended functions.
	friend class UntaggedSuspendState;
	friend class ProfilerDartStackWalker;
	DISALLOW_COPY_AND_ASSIGN(StackFrame);
	};

	// Exit frame is used to mark the transition from dart code into dart VM
	// runtime code.
	class ExitFrame : public StackFrame {
	public:
	bool IsValid() const { return sp() == 0; }
	bool IsDartFrame(bool validate = true) const { return false; }
	bool IsStubFrame() const { return false; }
	bool IsExitFrame() const { return true; }

	// Visit objects in the frame.
	virtual void VisitObjectPointers(ObjectPointerVisitor* visitor);

	protected:
	virtual const char* GetName() const { return "exit"; }

	private:
	explicit ExitFrame(Thread* thread) : StackFrame(thread) {}

	friend class StackFrameIterator;
	DISALLOW_COPY_AND_ASSIGN(ExitFrame);
	};

	// Entry Frame is used to mark the transition from dart VM runtime code into
	// dart code.
	class EntryFrame : public StackFrame {
	public:
	bool IsValid() const { return StubCode::InInvocationStub(pc()); }
	bool IsDartFrame(bool validate = true) const { return false; }
	bool IsStubFrame() const { return false; }
	bool IsEntryFrame() const { return true; }

	// Visit objects in the frame.
	virtual void VisitObjectPointers(ObjectPointerVisitor* visitor);

	protected:
	virtual const char* GetName() const { return "entry"; }

	private:
	explicit EntryFrame(Thread* thread) : StackFrame(thread) {}

	friend class StackFrameIterator;
	DISALLOW_COPY_AND_ASSIGN(EntryFrame);
	};

	// A StackFrameIterator can be initialized with a thread other than the
	// current thread. Because this is generally a bad idea, it is only allowed on
	// Windows- where it is needed for the profiler. It is the responsibility of
	// users of StackFrameIterator to ensure that the thread given is not running
	// concurrently.
	class StackFrameIterator {
	public:
	enum CrossThreadPolicy {
	kNoCrossThreadIteration = 0,
	kAllowCrossThreadIteration = 1,
	};

	// Iterators for iterating over all frames from the last ExitFrame to the
	// first EntryFrame.
	StackFrameIterator(ValidationPolicy validation_policy,
	Thread* thread,
	CrossThreadPolicy cross_thread_policy);
	StackFrameIterator(uword last_fp,
	ValidationPolicy validation_policy,
	Thread* thread,
	CrossThreadPolicy cross_thread_policy);

	// Iterator for iterating over all frames from the current frame (given by its
	// fp, sp, and pc) to the first EntryFrame.
	StackFrameIterator(uword fp,
	uword sp,
	uword pc,
	ValidationPolicy validation_policy,
	Thread* thread,
	CrossThreadPolicy cross_thread_policy);

	explicit StackFrameIterator(const StackFrameIterator& orig);

	// Checks if a next frame exists.
	bool HasNextFrame() const { return frames_.fp_ != 0; }

	// Get next frame.
	StackFrame* NextFrame();

	bool validate() const { return validate_; }

	private:
	// Iterator for iterating over the set of frames (dart or stub) which exist
	// in one EntryFrame and ExitFrame block.
	class FrameSetIterator : public ValueObject {
	public:
	// Checks if a next non entry/exit frame exists in the set.
	bool HasNext() const {
	if (fp_ == 0) {
	return false;
	}
	const uword pc =
	(reinterpret_cast<uword>(sp_ + (kSavedPcSlotFromSp * kWordSize)));
	return !StubCode::InInvocationStub(pc);
	}

	// Get next non entry/exit frame in the set (assumes a next frame exists).
	StackFrame* NextFrame(bool validate);

	private:
	explicit FrameSetIterator(Thread* thread)
	: fp_(0), sp_(0), pc_(0), stack_frame_(thread), thread_(thread) {}
	void Unpoison();

	uword fp_;
	uword sp_;
	uword pc_;
	StackFrame stack_frame_; // Singleton frame returned by NextFrame().
	Thread* thread_;

	friend class StackFrameIterator;
	DISALLOW_COPY_AND_ASSIGN(FrameSetIterator);
	};

	// Get next exit frame.
	ExitFrame* NextExitFrame();

	// Get next entry frame.
	EntryFrame* NextEntryFrame();

	// Get an iterator to the next set of frames between an entry and exit
	// frame.
	FrameSetIterator* NextFrameSet() { return &frames_; }

	// Setup last or next exit frames so that we are ready to iterate over
	// stack frames.
	void SetupLastExitFrameData();
	void SetupNextExitFrameData();

	bool validate_; // Validate each frame as we traverse the frames.
	EntryFrame entry_; // Singleton entry frame returned by NextEntryFrame().
	ExitFrame exit_; // Singleton exit frame returned by NextExitFrame().
	FrameSetIterator frames_;
	StackFrame* current_frame_; // Points to the current frame in the iterator.
	Thread* thread_;

	friend class ProfilerDartStackWalker;
	};

	// Iterator for iterating over all dart frames (skips over exit frames,
	// entry frames and stub frames).
	// A DartFrameIterator can be initialized with an isolate other than the
	// current thread's isolate. Because this is generally a bad idea,
	// it is only allowed on Windows- where it is needed for the profiler.
	// It is the responsibility of users of DartFrameIterator to ensure that the
	// isolate given is not running concurrently on another thread.
	class DartFrameIterator {
	public:
	explicit DartFrameIterator(
	Thread* thread,
	StackFrameIterator::CrossThreadPolicy cross_thread_policy)
	: frames_(ValidationPolicy::kDontValidateFrames,
	thread,
	cross_thread_policy) {}
	explicit DartFrameIterator(
	uword last_fp,
	Thread* thread,
	StackFrameIterator::CrossThreadPolicy cross_thread_policy)
	: frames_(last_fp,
	ValidationPolicy::kDontValidateFrames,
	thread,
	cross_thread_policy) {}

	DartFrameIterator(uword fp,
	uword sp,
	uword pc,
	Thread* thread,
	StackFrameIterator::CrossThreadPolicy cross_thread_policy)
	: frames_(fp,
	sp,
	pc,
	ValidationPolicy::kDontValidateFrames,
	thread,
	cross_thread_policy) {}

	explicit DartFrameIterator(const DartFrameIterator& orig)
	: frames_(orig.frames_) {}

	// Get next dart frame.
	StackFrame* NextFrame() {
	StackFrame* frame = frames_.NextFrame();
	while (frame != NULL && !frame->IsDartFrame(frames_.validate())) {
	frame = frames_.NextFrame();
	}
	return frame;
	}

	private:
	StackFrameIterator frames_;
	};

	// Iterator for iterating over all inlined dart functions in an optimized
	// dart frame (the iteration includes the function that is inlining the
	// other functions).
	class InlinedFunctionsIterator : public ValueObject {
	public:
	InlinedFunctionsIterator(const Code& code, uword pc);
	bool Done() const { return index_ == -1; }
	void Advance();

	FunctionPtr function() const {
	ASSERT(!Done());
	return function_.ptr();
	}

	uword pc() const {
	ASSERT(!Done());
	return pc_;
	}

	CodePtr code() const {
	ASSERT(!Done());
	return code_.ptr();
	}

	#if !defined(DART_PRECOMPILED_RUNTIME)
	intptr_t GetDeoptFpOffset() const;
	#endif // !defined(DART_PRECOMPILED_RUNTIME)

	private:
	void SetDone() { index_ = -1; }

	intptr_t index_;
	intptr_t num_materializations_;
	intptr_t dest_frame_size_;
	Code& code_;
	TypedData& deopt_info_;
	Function& function_;
	uword pc_;
	GrowableArray<DeoptInstr*> deopt_instructions_;
	ObjectPool& object_table_;

	DISALLOW_COPY_AND_ASSIGN(InlinedFunctionsIterator);
	};

	#if defined(DEBUG)
	void ValidateFrames();
	#endif

	DART_FORCE_INLINE static intptr_t LocalVarIndex(intptr_t fp_offset,
	intptr_t var_index) {
	return fp_offset + var_index;
	}

	DART_FORCE_INLINE static uword ParamAddress(uword fp, intptr_t reverse_index) {
	return fp + (kParamEndSlotFromFp * kWordSize) + (reverse_index * kWordSize);
	}

	// Both fp and other_fp are compiled code frame pointers.
	DART_FORCE_INLINE static bool IsCalleeFrameOf(uword fp, uword other_fp) {
	return other_fp < fp;
	}

	// Value for stack limit that is used to cause an interrupt.
	static const uword kInterruptStackLimit = ~static_cast<uword>(0);

	DART_FORCE_INLINE static uword LocalVarAddress(uword fp, intptr_t index) {
	return fp + LocalVarIndex(0, index) * kWordSize;
	}

	} // namespace dart

	#endif // RUNTIME_VM_STACK_FRAME_H_