src/jump-target.h - platform/external/v8 - Git at Google

 // Copyright 2008 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_JUMP_TARGET_H_
 #define V8_JUMP_TARGET_H_

 #include "macro-assembler.h"

 namespace v8 {
 namespace internal {

 // Forward declarations.
 class FrameElement;
 class Result;
 class VirtualFrame;

 // -------------------------------------------------------------------------
 // Jump targets
 //
 // A jump target is an abstraction of a basic-block entry in generated
 // code.  It collects all the virtual frames reaching the block by
 // forward jumps and pairs them with labels for the merge code along
 // all forward-reaching paths.  When bound, an expected frame for the
 // block is determined and code is generated to merge to the expected
 // frame.  For backward jumps, the merge code is generated at the edge
 // leaving the predecessor block.
 //
 // A jump target must have been reached via control flow (either by
 // jumping, branching, or falling through) at the time it is bound.
 // In particular, this means that at least one of the control-flow
 // graph edges reaching the target must be a forward edge.

 class JumpTarget : public ZoneObject {  // Shadows are dynamically allocated.
  public:
   // Forward-only jump targets can only be reached by forward CFG edges.
   enum Directionality { FORWARD_ONLY, BIDIRECTIONAL };

   // Construct a jump target used to generate code and to provide
   // access to a current frame.
   explicit JumpTarget(Directionality direction)
       : direction_(direction),
         reaching_frames_(0),
         merge_labels_(0),
         entry_frame_(NULL) {
   }

   // Construct a jump target.
   JumpTarget()
       : direction_(FORWARD_ONLY),
         reaching_frames_(0),
         merge_labels_(0),
         entry_frame_(NULL) {
   }

   virtual ~JumpTarget() {}

   // Set the direction of the jump target.
   virtual void set_direction(Directionality direction) {
     direction_ = direction;
   }

   // Treat the jump target as a fresh one.  The state is reset.
   void Unuse();

   inline CodeGenerator* cgen();

   Label* entry_label() { return &entry_label_; }

   VirtualFrame* entry_frame() const { return entry_frame_; }
   void set_entry_frame(VirtualFrame* frame) {
     entry_frame_ = frame;
   }

   // Predicates testing the state of the encapsulated label.
   bool is_bound() const { return entry_label_.is_bound(); }
   bool is_linked() const {
     return !is_bound() && !reaching_frames_.is_empty();
   }
   bool is_unused() const {
     // This is !is_bound() && !is_linked().
     return !is_bound() && reaching_frames_.is_empty();
   }

   // Emit a jump to the target.  There must be a current frame at the
   // jump and there will be no current frame after the jump.
   virtual void Jump();
   virtual void Jump(Result* arg);

   // Emit a conditional branch to the target.  There must be a current
   // frame at the branch.  The current frame will fall through to the
   // code after the branch.  The arg is a result that is live both at
   // the target and the fall-through.
   virtual void Branch(Condition cc, Hint hint = no_hint);
   virtual void Branch(Condition cc, Result* arg, Hint hint = no_hint);

   // Bind a jump target.  If there is no current frame at the binding
   // site, there must be at least one frame reaching via a forward
   // jump.
   virtual void Bind();
   virtual void Bind(Result* arg);

   // Emit a call to a jump target.  There must be a current frame at
   // the call.  The frame at the target is the same as the current
   // frame except for an extra return address on top of it.  The frame
   // after the call is the same as the frame before the call.
   void Call();

   static void set_compiling_deferred_code(bool flag) {
     compiling_deferred_code_ = flag;
   }

  protected:
   // Directionality flag set at initialization time.
   Directionality direction_;

   // A list of frames reaching this block via forward jumps.
   ZoneList<VirtualFrame*> reaching_frames_;

   // A parallel list of labels for merge code.
   ZoneList<Label> merge_labels_;

   // The frame used on entry to the block and expected at backward
   // jumps to the block.  Set when the jump target is bound, but may
   // or may not be set for forward-only blocks.
   VirtualFrame* entry_frame_;

   // The actual entry label of the block.
   Label entry_label_;

   // Implementations of Jump, Branch, and Bind with all arguments and
   // return values using the virtual frame.
   void DoJump();
   void DoBranch(Condition cc, Hint hint);
   void DoBind();

  private:
   static bool compiling_deferred_code_;

   // Add a virtual frame reaching this labeled block via a forward jump,
   // and a corresponding merge code label.
   void AddReachingFrame(VirtualFrame* frame);

   // Perform initialization required during entry frame computation
   // after setting the virtual frame element at index in frame to be
   // target.
   inline void InitializeEntryElement(int index, FrameElement* target);

   // Compute a frame to use for entry to this block.
   void ComputeEntryFrame();

   DISALLOW_COPY_AND_ASSIGN(JumpTarget);
 };


 // -------------------------------------------------------------------------
 // Break targets
 //
 // A break target is a jump target that can be used to break out of a
 // statement that keeps extra state on the stack (eg, for/in or
 // try/finally).  They know the expected stack height at the target
 // and will drop state from nested statements as part of merging.
 //
 // Break targets are used for return, break, and continue targets.

 class BreakTarget : public JumpTarget {
  public:
   // Construct a break target.
   BreakTarget() {}

   virtual ~BreakTarget() {}

   // Set the direction of the break target.
   virtual void set_direction(Directionality direction);

   // Copy the state of this break target to the destination.  The
   // lists of forward-reaching frames and merge-point labels are
   // copied.  All virtual frame pointers are copied, not the
   // pointed-to frames.  The previous state of the destination is
   // overwritten, without deallocating pointed-to virtual frames.
   void CopyTo(BreakTarget* destination);

   // Emit a jump to the target.  There must be a current frame at the
   // jump and there will be no current frame after the jump.
   virtual void Jump();
   virtual void Jump(Result* arg);

   // Emit a conditional branch to the target.  There must be a current
   // frame at the branch.  The current frame will fall through to the
   // code after the branch.
   virtual void Branch(Condition cc, Hint hint = no_hint);
   virtual void Branch(Condition cc, Result* arg, Hint hint = no_hint);

   // Bind a break target.  If there is no current frame at the binding
   // site, there must be at least one frame reaching via a forward
   // jump.
   virtual void Bind();
   virtual void Bind(Result* arg);

   // Setter for expected height.
   void set_expected_height(int expected) { expected_height_ = expected; }

  private:
   // The expected height of the expression stack where the target will
   // be bound, statically known at initialization time.
   int expected_height_;

   DISALLOW_COPY_AND_ASSIGN(BreakTarget);
 };


 // -------------------------------------------------------------------------
 // Shadow break targets
 //
 // A shadow break target represents a break target that is temporarily
 // shadowed by another one (represented by the original during
 // shadowing).  They are used to catch jumps to labels in certain
 // contexts, e.g. try blocks.  After shadowing ends, the formerly
 // shadowed target is again represented by the original and the
 // ShadowTarget can be used as a jump target in its own right,
 // representing the formerly shadowing target.

 class ShadowTarget : public BreakTarget {
  public:
   // Construct a shadow jump target.  After construction the shadow
   // target object holds the state of the original target, and the
   // original target is actually a fresh one that intercepts control
   // flow intended for the shadowed one.
   explicit ShadowTarget(BreakTarget* shadowed);

   virtual ~ShadowTarget() {}

   // End shadowing.  After shadowing ends, the original jump target
   // again gives access to the formerly shadowed target and the shadow
   // target object gives access to the formerly shadowing target.
   void StopShadowing();

   // During shadowing, the currently shadowing target.  After
   // shadowing, the target that was shadowed.
   BreakTarget* other_target() const { return other_target_; }

  private:
   // During shadowing, the currently shadowing target.  After
   // shadowing, the target that was shadowed.
   BreakTarget* other_target_;

 #ifdef DEBUG
   bool is_shadowing_;
 #endif

   DISALLOW_COPY_AND_ASSIGN(ShadowTarget);
 };


 } }  // namespace v8::internal

 #endif  // V8_JUMP_TARGET_H_
	// Copyright 2008 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_JUMP_TARGET_H_
	#define V8_JUMP_TARGET_H_

	#include "macro-assembler.h"

	namespace v8 {
	namespace internal {

	// Forward declarations.
	class FrameElement;
	class Result;
	class VirtualFrame;

	// -------------------------------------------------------------------------
	// Jump targets
	//
	// A jump target is an abstraction of a basic-block entry in generated
	// code. It collects all the virtual frames reaching the block by
	// forward jumps and pairs them with labels for the merge code along
	// all forward-reaching paths. When bound, an expected frame for the
	// block is determined and code is generated to merge to the expected
	// frame. For backward jumps, the merge code is generated at the edge
	// leaving the predecessor block.
	//
	// A jump target must have been reached via control flow (either by
	// jumping, branching, or falling through) at the time it is bound.
	// In particular, this means that at least one of the control-flow
	// graph edges reaching the target must be a forward edge.

	class JumpTarget : public ZoneObject { // Shadows are dynamically allocated.
	public:
	// Forward-only jump targets can only be reached by forward CFG edges.
	enum Directionality { FORWARD_ONLY, BIDIRECTIONAL };

	// Construct a jump target used to generate code and to provide
	// access to a current frame.
	explicit JumpTarget(Directionality direction)
	: direction_(direction),
	reaching_frames_(0),
	merge_labels_(0),
	entry_frame_(NULL) {
	}

	// Construct a jump target.
	JumpTarget()
	: direction_(FORWARD_ONLY),
	reaching_frames_(0),
	merge_labels_(0),
	entry_frame_(NULL) {
	}

	virtual ~JumpTarget() {}

	// Set the direction of the jump target.
	virtual void set_direction(Directionality direction) {
	direction_ = direction;
	}

	// Treat the jump target as a fresh one. The state is reset.
	void Unuse();

	inline CodeGenerator* cgen();

	Label* entry_label() { return &entry_label_; }

	VirtualFrame* entry_frame() const { return entry_frame_; }
	void set_entry_frame(VirtualFrame* frame) {
	entry_frame_ = frame;
	}

	// Predicates testing the state of the encapsulated label.
	bool is_bound() const { return entry_label_.is_bound(); }
	bool is_linked() const {
	return !is_bound() && !reaching_frames_.is_empty();
	}
	bool is_unused() const {
	// This is !is_bound() && !is_linked().
	return !is_bound() && reaching_frames_.is_empty();
	}

	// Emit a jump to the target. There must be a current frame at the
	// jump and there will be no current frame after the jump.
	virtual void Jump();
	virtual void Jump(Result* arg);

	// Emit a conditional branch to the target. There must be a current
	// frame at the branch. The current frame will fall through to the
	// code after the branch. The arg is a result that is live both at
	// the target and the fall-through.
	virtual void Branch(Condition cc, Hint hint = no_hint);
	virtual void Branch(Condition cc, Result* arg, Hint hint = no_hint);

	// Bind a jump target. If there is no current frame at the binding
	// site, there must be at least one frame reaching via a forward
	// jump.
	virtual void Bind();
	virtual void Bind(Result* arg);

	// Emit a call to a jump target. There must be a current frame at
	// the call. The frame at the target is the same as the current
	// frame except for an extra return address on top of it. The frame
	// after the call is the same as the frame before the call.
	void Call();

	static void set_compiling_deferred_code(bool flag) {
	compiling_deferred_code_ = flag;
	}

	protected:
	// Directionality flag set at initialization time.
	Directionality direction_;

	// A list of frames reaching this block via forward jumps.
	ZoneList<VirtualFrame*> reaching_frames_;

	// A parallel list of labels for merge code.
	ZoneList<Label> merge_labels_;

	// The frame used on entry to the block and expected at backward
	// jumps to the block. Set when the jump target is bound, but may
	// or may not be set for forward-only blocks.
	VirtualFrame* entry_frame_;

	// The actual entry label of the block.
	Label entry_label_;

	// Implementations of Jump, Branch, and Bind with all arguments and
	// return values using the virtual frame.
	void DoJump();
	void DoBranch(Condition cc, Hint hint);
	void DoBind();

	private:
	static bool compiling_deferred_code_;

	// Add a virtual frame reaching this labeled block via a forward jump,
	// and a corresponding merge code label.
	void AddReachingFrame(VirtualFrame* frame);

	// Perform initialization required during entry frame computation
	// after setting the virtual frame element at index in frame to be
	// target.
	inline void InitializeEntryElement(int index, FrameElement* target);

	// Compute a frame to use for entry to this block.
	void ComputeEntryFrame();

	DISALLOW_COPY_AND_ASSIGN(JumpTarget);
	};


	// -------------------------------------------------------------------------
	// Break targets
	//
	// A break target is a jump target that can be used to break out of a
	// statement that keeps extra state on the stack (eg, for/in or
	// try/finally). They know the expected stack height at the target
	// and will drop state from nested statements as part of merging.
	//
	// Break targets are used for return, break, and continue targets.

	class BreakTarget : public JumpTarget {
	public:
	// Construct a break target.
	BreakTarget() {}

	virtual ~BreakTarget() {}

	// Set the direction of the break target.
	virtual void set_direction(Directionality direction);

	// Copy the state of this break target to the destination. The
	// lists of forward-reaching frames and merge-point labels are
	// copied. All virtual frame pointers are copied, not the
	// pointed-to frames. The previous state of the destination is
	// overwritten, without deallocating pointed-to virtual frames.
	void CopyTo(BreakTarget* destination);

	// Emit a jump to the target. There must be a current frame at the
	// jump and there will be no current frame after the jump.
	virtual void Jump();
	virtual void Jump(Result* arg);

	// Emit a conditional branch to the target. There must be a current
	// frame at the branch. The current frame will fall through to the
	// code after the branch.
	virtual void Branch(Condition cc, Hint hint = no_hint);
	virtual void Branch(Condition cc, Result* arg, Hint hint = no_hint);

	// Bind a break target. If there is no current frame at the binding
	// site, there must be at least one frame reaching via a forward
	// jump.
	virtual void Bind();
	virtual void Bind(Result* arg);

	// Setter for expected height.
	void set_expected_height(int expected) { expected_height_ = expected; }

	private:
	// The expected height of the expression stack where the target will
	// be bound, statically known at initialization time.
	int expected_height_;

	DISALLOW_COPY_AND_ASSIGN(BreakTarget);
	};


	// -------------------------------------------------------------------------
	// Shadow break targets
	//
	// A shadow break target represents a break target that is temporarily
	// shadowed by another one (represented by the original during
	// shadowing). They are used to catch jumps to labels in certain
	// contexts, e.g. try blocks. After shadowing ends, the formerly
	// shadowed target is again represented by the original and the
	// ShadowTarget can be used as a jump target in its own right,
	// representing the formerly shadowing target.

	class ShadowTarget : public BreakTarget {
	public:
	// Construct a shadow jump target. After construction the shadow
	// target object holds the state of the original target, and the
	// original target is actually a fresh one that intercepts control
	// flow intended for the shadowed one.
	explicit ShadowTarget(BreakTarget* shadowed);

	virtual ~ShadowTarget() {}

	// End shadowing. After shadowing ends, the original jump target
	// again gives access to the formerly shadowed target and the shadow
	// target object gives access to the formerly shadowing target.
	void StopShadowing();

	// During shadowing, the currently shadowing target. After
	// shadowing, the target that was shadowed.
	BreakTarget* other_target() const { return other_target_; }

	private:
	// During shadowing, the currently shadowing target. After
	// shadowing, the target that was shadowed.
	BreakTarget* other_target_;

	#ifdef DEBUG
	bool is_shadowing_;
	#endif

	DISALLOW_COPY_AND_ASSIGN(ShadowTarget);
	};


	} } // namespace v8::internal

	#endif // V8_JUMP_TARGET_H_