compiler/dex/gvn_dead_code_elimination.h - platform/art - Git at Google

 /*
  * Copyright (C) 2015 The Android Open Source Project
  *
  * Licensed under the Apache License, Version 2.0 (the "License");
  * you may not use this file except in compliance with the License.
  * You may obtain a copy of the License at
  *
  *      http://www.apache.org/licenses/LICENSE-2.0
  *
  * Unless required by applicable law or agreed to in writing, software
  * distributed under the License is distributed on an "AS IS" BASIS,
  * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
  * See the License for the specific language governing permissions and
  * limitations under the License.
  */

 #ifndef ART_COMPILER_DEX_GVN_DEAD_CODE_ELIMINATION_H_
 #define ART_COMPILER_DEX_GVN_DEAD_CODE_ELIMINATION_H_

 #include "base/arena_object.h"
 #include "base/scoped_arena_containers.h"
 #include "global_value_numbering.h"

 namespace art {

 class ArenaBitVector;
 class BasicBlock;
 class LocalValueNumbering;
 class MIR;
 class MIRGraph;

 /**
  * @class DeadCodeElimination
  * @details Eliminate dead code based on the results of global value numbering.
  * Also get rid of MOVE insns when we can use the source instead of destination
  * without affecting the vreg values at safepoints; this is useful in methods
  * with a large number of vregs that frequently move values to and from low vregs
  * to accommodate insns that can work only with the low 16 or 256 vregs.
  */
 class GvnDeadCodeElimination : public DeletableArenaObject<kArenaAllocMisc> {
  public:
   GvnDeadCodeElimination(const GlobalValueNumbering* gvn, ScopedArenaAllocator* alloc);

   // Apply the DCE to a basic block.
   void Apply(BasicBlock* bb);

  private:
   static constexpr uint16_t kNoValue = GlobalValueNumbering::kNoValue;
   static constexpr uint16_t kNPos = 0xffffu;
   static constexpr size_t kMaxNumTopChangesToKill = 2;

   struct VRegValue {
     VRegValue() : value(kNoValue), change(kNPos) { }

     // Value name as reported by GVN, kNoValue if not available.
     uint16_t value;
     // Index of the change in mir_data_ that defined the value, kNPos if initial value for the BB.
     uint16_t change;
   };

   struct MIRData {
     explicit MIRData(MIR* m)
         : mir(m), uses_all_vregs(false), must_keep(false), is_move(false), is_move_src(false),
           has_def(false), wide_def(false),
           low_def_over_high_word(false), high_def_over_low_word(false), vreg_def(0u),
           prev_value(), prev_value_high() {
     }

     uint16_t PrevChange(int v_reg) const;
     void SetPrevChange(int v_reg, uint16_t change);
     void RemovePrevChange(int v_reg, MIRData* prev_data);

     MIR* mir;
     bool uses_all_vregs : 1;  // If mir uses all vregs, uses in mir->ssa_rep are irrelevant.
     bool must_keep : 1;
     bool is_move : 1;
     bool is_move_src : 1;
     bool has_def : 1;
     bool wide_def : 1;
     bool low_def_over_high_word : 1;
     bool high_def_over_low_word : 1;
     uint16_t vreg_def;
     VRegValue prev_value;
     VRegValue prev_value_high;   // For wide defs.
   };

   class VRegChains {
    public:
     VRegChains(uint32_t num_vregs, ScopedArenaAllocator* alloc);

     void Reset();

     void AddMIRWithDef(MIR* mir, int v_reg, bool wide, uint16_t new_value);
     void AddMIRWithoutDef(MIR* mir);
     void RemoveLastMIRData();
     void RemoveTrailingNops();

     size_t NumMIRs() const;
     MIRData* GetMIRData(size_t pos);
     MIRData* LastMIRData();

     uint32_t NumVRegs() const;
     void InsertInitialValueHigh(int v_reg, uint16_t value);
     void UpdateInitialVRegValue(int v_reg, bool wide, const LocalValueNumbering* lvn);
     uint16_t LastChange(int v_reg);
     uint16_t CurrentValue(int v_reg);

     uint16_t FindKillHead(int v_reg, uint16_t cutoff);
     uint16_t FindFirstChangeAfter(int v_reg, uint16_t change) const;
     void ReplaceChange(uint16_t old_change, uint16_t new_change);
     void RemoveChange(uint16_t change);
     bool IsTopChange(uint16_t change) const;
     bool IsSRegUsed(uint16_t first_change, uint16_t last_change, int s_reg) const;
     void RenameSRegUses(uint16_t first_change, uint16_t last_change,
                         int old_s_reg, int new_s_reg, bool wide);
     void RenameVRegUses(uint16_t first_change, uint16_t last_change,
                         int old_s_reg, int old_v_reg, int new_s_reg, int new_v_reg);

    private:
     const uint32_t num_vregs_;
     VRegValue* const vreg_data_;
     ScopedArenaVector<MIRData> mir_data_;
   };

   void RecordPass();
   void BackwardPass();

   void KillMIR(MIRData* data);
   static void KillMIR(MIR* mir);
   static void ChangeBinOp2AddrToPlainBinOp(MIR* mir);
   MIR* CreatePhi(int s_reg, bool fp);
   MIR* RenameSRegDefOrCreatePhi(uint16_t def_change, uint16_t last_change, MIR* mir_to_kill);

   // Update state variables going backwards through a MIR.
   void BackwardPassProcessLastMIR();

   uint16_t FindChangesToKill(uint16_t first_change, uint16_t last_change);
   void BackwardPassTryToKillRevertVRegs();
   bool BackwardPassTryToKillLastMIR();

   void RecordPassKillMoveByRenamingSrcDef(uint16_t src_change, uint16_t move_change);
   void RecordPassTryToKillOverwrittenMoveOrMoveSrc(uint16_t check_change);
   void RecordPassTryToKillOverwrittenMoveOrMoveSrc();
   void RecordPassTryToKillLastMIR();

   bool RecordMIR(MIR* mir);

   const GlobalValueNumbering* const gvn_;
   MIRGraph* const mir_graph_;

   VRegChains vreg_chains_;
   BasicBlock* bb_;
   const LocalValueNumbering* lvn_;
   size_t no_uses_all_since_;  // The change index after the last change with uses_all_vregs set.

   // Data used when processing MIRs in reverse order.
   ArenaBitVector* unused_vregs_;              // vregs that are not needed later.
   ArenaBitVector* vregs_to_kill_;             // vregs that revert to a previous value.
   uint16_t* kill_heads_;  // For each vreg in vregs_to_kill_, the first change to kill.
   ScopedArenaVector<uint16_t> changes_to_kill_;
   ArenaBitVector* dependent_vregs_;
 };

 }  // namespace art

 #endif  // ART_COMPILER_DEX_GVN_DEAD_CODE_ELIMINATION_H_
	/*
	* Copyright (C) 2015 The Android Open Source Project
	*
	* Licensed under the Apache License, Version 2.0 (the "License");
	* you may not use this file except in compliance with the License.
	* You may obtain a copy of the License at
	*
	* http://www.apache.org/licenses/LICENSE-2.0
	*
	* Unless required by applicable law or agreed to in writing, software
	* distributed under the License is distributed on an "AS IS" BASIS,
	* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
	* See the License for the specific language governing permissions and
	* limitations under the License.
	*/

	#ifndef ART_COMPILER_DEX_GVN_DEAD_CODE_ELIMINATION_H_
	#define ART_COMPILER_DEX_GVN_DEAD_CODE_ELIMINATION_H_

	#include "base/arena_object.h"
	#include "base/scoped_arena_containers.h"
	#include "global_value_numbering.h"

	namespace art {

	class ArenaBitVector;
	class BasicBlock;
	class LocalValueNumbering;
	class MIR;
	class MIRGraph;

	/**
	* @class DeadCodeElimination
	* @details Eliminate dead code based on the results of global value numbering.
	* Also get rid of MOVE insns when we can use the source instead of destination
	* without affecting the vreg values at safepoints; this is useful in methods
	* with a large number of vregs that frequently move values to and from low vregs
	* to accommodate insns that can work only with the low 16 or 256 vregs.
	*/
	class GvnDeadCodeElimination : public DeletableArenaObject<kArenaAllocMisc> {
	public:
	GvnDeadCodeElimination(const GlobalValueNumbering* gvn, ScopedArenaAllocator* alloc);

	// Apply the DCE to a basic block.
	void Apply(BasicBlock* bb);

	private:
	static constexpr uint16_t kNoValue = GlobalValueNumbering::kNoValue;
	static constexpr uint16_t kNPos = 0xffffu;
	static constexpr size_t kMaxNumTopChangesToKill = 2;

	struct VRegValue {
	VRegValue() : value(kNoValue), change(kNPos) { }

	// Value name as reported by GVN, kNoValue if not available.
	uint16_t value;
	// Index of the change in mir_data_ that defined the value, kNPos if initial value for the BB.
	uint16_t change;
	};

	struct MIRData {
	explicit MIRData(MIR* m)
	: mir(m), uses_all_vregs(false), must_keep(false), is_move(false), is_move_src(false),
	has_def(false), wide_def(false),
	low_def_over_high_word(false), high_def_over_low_word(false), vreg_def(0u),
	prev_value(), prev_value_high() {
	}

	uint16_t PrevChange(int v_reg) const;
	void SetPrevChange(int v_reg, uint16_t change);
	void RemovePrevChange(int v_reg, MIRData* prev_data);

	MIR* mir;
	bool uses_all_vregs : 1; // If mir uses all vregs, uses in mir->ssa_rep are irrelevant.
	bool must_keep : 1;
	bool is_move : 1;
	bool is_move_src : 1;
	bool has_def : 1;
	bool wide_def : 1;
	bool low_def_over_high_word : 1;
	bool high_def_over_low_word : 1;
	uint16_t vreg_def;
	VRegValue prev_value;
	VRegValue prev_value_high; // For wide defs.
	};

	class VRegChains {
	public:
	VRegChains(uint32_t num_vregs, ScopedArenaAllocator* alloc);

	void Reset();

	void AddMIRWithDef(MIR* mir, int v_reg, bool wide, uint16_t new_value);
	void AddMIRWithoutDef(MIR* mir);
	void RemoveLastMIRData();
	void RemoveTrailingNops();

	size_t NumMIRs() const;
	MIRData* GetMIRData(size_t pos);
	MIRData* LastMIRData();

	uint32_t NumVRegs() const;
	void InsertInitialValueHigh(int v_reg, uint16_t value);
	void UpdateInitialVRegValue(int v_reg, bool wide, const LocalValueNumbering* lvn);
	uint16_t LastChange(int v_reg);
	uint16_t CurrentValue(int v_reg);

	uint16_t FindKillHead(int v_reg, uint16_t cutoff);
	uint16_t FindFirstChangeAfter(int v_reg, uint16_t change) const;
	void ReplaceChange(uint16_t old_change, uint16_t new_change);
	void RemoveChange(uint16_t change);
	bool IsTopChange(uint16_t change) const;
	bool IsSRegUsed(uint16_t first_change, uint16_t last_change, int s_reg) const;
	void RenameSRegUses(uint16_t first_change, uint16_t last_change,
	int old_s_reg, int new_s_reg, bool wide);
	void RenameVRegUses(uint16_t first_change, uint16_t last_change,
	int old_s_reg, int old_v_reg, int new_s_reg, int new_v_reg);

	private:
	const uint32_t num_vregs_;
	VRegValue* const vreg_data_;
	ScopedArenaVector<MIRData> mir_data_;
	};

	void RecordPass();
	void BackwardPass();

	void KillMIR(MIRData* data);
	static void KillMIR(MIR* mir);
	static void ChangeBinOp2AddrToPlainBinOp(MIR* mir);
	MIR* CreatePhi(int s_reg, bool fp);
	MIR* RenameSRegDefOrCreatePhi(uint16_t def_change, uint16_t last_change, MIR* mir_to_kill);

	// Update state variables going backwards through a MIR.
	void BackwardPassProcessLastMIR();

	uint16_t FindChangesToKill(uint16_t first_change, uint16_t last_change);
	void BackwardPassTryToKillRevertVRegs();
	bool BackwardPassTryToKillLastMIR();

	void RecordPassKillMoveByRenamingSrcDef(uint16_t src_change, uint16_t move_change);
	void RecordPassTryToKillOverwrittenMoveOrMoveSrc(uint16_t check_change);
	void RecordPassTryToKillOverwrittenMoveOrMoveSrc();
	void RecordPassTryToKillLastMIR();

	bool RecordMIR(MIR* mir);

	const GlobalValueNumbering* const gvn_;
	MIRGraph* const mir_graph_;

	VRegChains vreg_chains_;
	BasicBlock* bb_;
	const LocalValueNumbering* lvn_;
	size_t no_uses_all_since_; // The change index after the last change with uses_all_vregs set.

	// Data used when processing MIRs in reverse order.
	ArenaBitVector* unused_vregs_; // vregs that are not needed later.
	ArenaBitVector* vregs_to_kill_; // vregs that revert to a previous value.
	uint16_t* kill_heads_; // For each vreg in vregs_to_kill_, the first change to kill.
	ScopedArenaVector<uint16_t> changes_to_kill_;
	ArenaBitVector* dependent_vregs_;
	};

	} // namespace art

	#endif // ART_COMPILER_DEX_GVN_DEAD_CODE_ELIMINATION_H_