src/compiler/Dataflow.h - platform/art - Git at Google

 /*
  * Copyright (C) 2011 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_SRC_COMPILER_DATAFLOW_H_
 #define ART_SRC_COMPILER_DATAFLOW_H_

 #include "Dalvik.h"
 #include "CompilerInternals.h"

 namespace art {

 enum DataFlowAttributePos {
   kUA = 0,
   kUB,
   kUC,
   kAWide,
   kBWide,
   kCWide,
   kDA,
   kIsMove,
   kSetsConst,
   kFormat35c,
   kFormat3rc,
   kNullCheckSrc0,        // Null check of uses[0]
   kNullCheckSrc1,        // Null check of uses[1]
   kNullCheckSrc2,        // Null check of uses[2]
   kNullCheckOut0,        // Null check out outgoing arg0
   kDstNonNull,           // May assume dst is non-null
   kRetNonNull,           // May assume retval is non-null
   kNullTransferSrc0,     // Object copy src[0] -> dst
   kNullTransferSrcN,     // Phi null check state transfer
   kRangeCheckSrc1,       // Range check of uses[1]
   kRangeCheckSrc2,       // Range check of uses[2]
   kRangeCheckSrc3,       // Range check of uses[3]
   kFPA,
   kFPB,
   kFPC,
   kCoreA,
   kCoreB,
   kCoreC,
   kRefA,
   kRefB,
   kRefC,
   kUsesMethodStar,       // Implicit use of Method*
 };

 #define DF_NOP                  0
 #define DF_UA                   (1 << kUA)
 #define DF_UB                   (1 << kUB)
 #define DF_UC                   (1 << kUC)
 #define DF_A_WIDE               (1 << kAWide)
 #define DF_B_WIDE               (1 << kBWide)
 #define DF_C_WIDE               (1 << kCWide)
 #define DF_DA                   (1 << kDA)
 #define DF_IS_MOVE              (1 << kIsMove)
 #define DF_SETS_CONST           (1 << kSetsConst)
 #define DF_FORMAT_35C           (1 << kFormat35c)
 #define DF_FORMAT_3RC           (1 << kFormat3rc)
 #define DF_NULL_CHK_0           (1 << kNullCheckSrc0)
 #define DF_NULL_CHK_1           (1 << kNullCheckSrc1)
 #define DF_NULL_CHK_2           (1 << kNullCheckSrc2)
 #define DF_NULL_CHK_OUT0        (1 << kNullCheckOut0)
 #define DF_NON_NULL_DST         (1 << kDstNonNull)
 #define DF_NON_NULL_RET         (1 << kRetNonNull)
 #define DF_NULL_TRANSFER_0      (1 << kNullTransferSrc0)
 #define DF_NULL_TRANSFER_N      (1 << kNullTransferSrcN)
 #define DF_RANGE_CHK_1          (1 << kRangeCheckSrc1)
 #define DF_RANGE_CHK_2          (1 << kRangeCheckSrc2)
 #define DF_RANGE_CHK_3          (1 << kRangeCheckSrc3)
 #define DF_FP_A                 (1 << kFPA)
 #define DF_FP_B                 (1 << kFPB)
 #define DF_FP_C                 (1 << kFPC)
 #define DF_CORE_A               (1 << kCoreA)
 #define DF_CORE_B               (1 << kCoreB)
 #define DF_CORE_C               (1 << kCoreC)
 #define DF_REF_A                (1 << kRefA)
 #define DF_REF_B                (1 << kRefB)
 #define DF_REF_C                (1 << kRefC)
 #define DF_UMS                  (1 << kUsesMethodStar)

 #define DF_HAS_USES             (DF_UA | DF_UB | DF_UC)

 #define DF_HAS_DEFS             (DF_DA)

 #define DF_HAS_NULL_CHKS        (DF_NULL_CHK_0 | \
                                  DF_NULL_CHK_1 | \
                                  DF_NULL_CHK_2 | \
                                  DF_NULL_CHK_OUT0)

 #define DF_HAS_NR_CHKS          (DF_HAS_NULL_CHKS | \
                                  DF_RANGE_CHK_1 | \
                                  DF_RANGE_CHK_2)

 #define DF_A_IS_REG             (DF_UA | DF_DA)
 #define DF_B_IS_REG             (DF_UB)
 #define DF_C_IS_REG             (DF_UC)
 #define DF_IS_GETTER_OR_SETTER  (DF_IS_GETTER | DF_IS_SETTER)
 #define DF_USES_FP              (DF_FP_A | DF_FP_B | DF_FP_C)

 extern const int oatDataFlowAttributes[kMirOpLast];

 struct BasicBlockDataFlow {
   ArenaBitVector* useV;
   ArenaBitVector* defV;
   ArenaBitVector* liveInV;
   ArenaBitVector* phiV;
   int* vRegToSSAMap;
   ArenaBitVector* endingNullCheckV;
 };

 struct SSARepresentation {
   int numUses;
   int* uses;
   bool* fpUse;
   int numDefs;
   int* defs;
   bool* fpDef;
 };

 /*
  * An induction variable is represented by "m*i + c", where i is a basic
  * induction variable.
  */
 struct InductionVariableInfo {
   int ssaReg;
   int basicSSAReg;
   int m;      // multiplier
   int c;      // constant
   int inc;    // loop increment
 };

 struct ArrayAccessInfo {
   int arrayReg;
   int ivReg;
   int maxC;                   // For DIV - will affect upper bound checking
   int minC;                   // For DIV - will affect lower bound checking
 };

 struct LoopInfo {
   BasicBlock* header;
   GrowableList incomingBackEdges;
   ArenaBitVector* blocks;
 };

 void oatMethodLoopDetection(CompilationUnit*);

 void oatMethodUseCount(CompilationUnit*);

 void oatMethodNullCheckElimination(CompilationUnit*);

 void oatMethodBasicBlockOptimization(CompilationUnit*);

 }  // namespace art

 #endif  // ART_SRC_COMPILER_DATAFLOW_H_
	/*
	* Copyright (C) 2011 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_SRC_COMPILER_DATAFLOW_H_
	#define ART_SRC_COMPILER_DATAFLOW_H_

	#include "Dalvik.h"
	#include "CompilerInternals.h"

	namespace art {

	enum DataFlowAttributePos {
	kUA = 0,
	kUB,
	kUC,
	kAWide,
	kBWide,
	kCWide,
	kDA,
	kIsMove,
	kSetsConst,
	kFormat35c,
	kFormat3rc,
	kNullCheckSrc0, // Null check of uses[0]
	kNullCheckSrc1, // Null check of uses[1]
	kNullCheckSrc2, // Null check of uses[2]
	kNullCheckOut0, // Null check out outgoing arg0
	kDstNonNull, // May assume dst is non-null
	kRetNonNull, // May assume retval is non-null
	kNullTransferSrc0, // Object copy src[0] -> dst
	kNullTransferSrcN, // Phi null check state transfer
	kRangeCheckSrc1, // Range check of uses[1]
	kRangeCheckSrc2, // Range check of uses[2]
	kRangeCheckSrc3, // Range check of uses[3]
	kFPA,
	kFPB,
	kFPC,
	kCoreA,
	kCoreB,
	kCoreC,
	kRefA,
	kRefB,
	kRefC,
	kUsesMethodStar, // Implicit use of Method*
	};

	#define DF_NOP 0
	#define DF_UA (1 << kUA)
	#define DF_UB (1 << kUB)
	#define DF_UC (1 << kUC)
	#define DF_A_WIDE (1 << kAWide)
	#define DF_B_WIDE (1 << kBWide)
	#define DF_C_WIDE (1 << kCWide)
	#define DF_DA (1 << kDA)
	#define DF_IS_MOVE (1 << kIsMove)
	#define DF_SETS_CONST (1 << kSetsConst)
	#define DF_FORMAT_35C (1 << kFormat35c)
	#define DF_FORMAT_3RC (1 << kFormat3rc)
	#define DF_NULL_CHK_0 (1 << kNullCheckSrc0)
	#define DF_NULL_CHK_1 (1 << kNullCheckSrc1)
	#define DF_NULL_CHK_2 (1 << kNullCheckSrc2)
	#define DF_NULL_CHK_OUT0 (1 << kNullCheckOut0)
	#define DF_NON_NULL_DST (1 << kDstNonNull)
	#define DF_NON_NULL_RET (1 << kRetNonNull)
	#define DF_NULL_TRANSFER_0 (1 << kNullTransferSrc0)
	#define DF_NULL_TRANSFER_N (1 << kNullTransferSrcN)
	#define DF_RANGE_CHK_1 (1 << kRangeCheckSrc1)
	#define DF_RANGE_CHK_2 (1 << kRangeCheckSrc2)
	#define DF_RANGE_CHK_3 (1 << kRangeCheckSrc3)
	#define DF_FP_A (1 << kFPA)
	#define DF_FP_B (1 << kFPB)
	#define DF_FP_C (1 << kFPC)
	#define DF_CORE_A (1 << kCoreA)
	#define DF_CORE_B (1 << kCoreB)
	#define DF_CORE_C (1 << kCoreC)
	#define DF_REF_A (1 << kRefA)
	#define DF_REF_B (1 << kRefB)
	#define DF_REF_C (1 << kRefC)
	#define DF_UMS (1 << kUsesMethodStar)

	#define DF_HAS_USES (DF_UA \| DF_UB \| DF_UC)

	#define DF_HAS_DEFS (DF_DA)

	#define DF_HAS_NULL_CHKS (DF_NULL_CHK_0 \| \
	DF_NULL_CHK_1 \| \
	DF_NULL_CHK_2 \| \
	DF_NULL_CHK_OUT0)

	#define DF_HAS_NR_CHKS (DF_HAS_NULL_CHKS \| \
	DF_RANGE_CHK_1 \| \
	DF_RANGE_CHK_2)

	#define DF_A_IS_REG (DF_UA \| DF_DA)
	#define DF_B_IS_REG (DF_UB)
	#define DF_C_IS_REG (DF_UC)
	#define DF_IS_GETTER_OR_SETTER (DF_IS_GETTER \| DF_IS_SETTER)
	#define DF_USES_FP (DF_FP_A \| DF_FP_B \| DF_FP_C)

	extern const int oatDataFlowAttributes[kMirOpLast];

	struct BasicBlockDataFlow {
	ArenaBitVector* useV;
	ArenaBitVector* defV;
	ArenaBitVector* liveInV;
	ArenaBitVector* phiV;
	int* vRegToSSAMap;
	ArenaBitVector* endingNullCheckV;
	};

	struct SSARepresentation {
	int numUses;
	int* uses;
	bool* fpUse;
	int numDefs;
	int* defs;
	bool* fpDef;
	};

	/*
	* An induction variable is represented by "m*i + c", where i is a basic
	* induction variable.
	*/
	struct InductionVariableInfo {
	int ssaReg;
	int basicSSAReg;
	int m; // multiplier
	int c; // constant
	int inc; // loop increment
	};

	struct ArrayAccessInfo {
	int arrayReg;
	int ivReg;
	int maxC; // For DIV - will affect upper bound checking
	int minC; // For DIV - will affect lower bound checking
	};

	struct LoopInfo {
	BasicBlock* header;
	GrowableList incomingBackEdges;
	ArenaBitVector* blocks;
	};

	void oatMethodLoopDetection(CompilationUnit*);

	void oatMethodUseCount(CompilationUnit*);

	void oatMethodNullCheckElimination(CompilationUnit*);

	void oatMethodBasicBlockOptimization(CompilationUnit*);

	} // namespace art

	#endif // ART_SRC_COMPILER_DATAFLOW_H_