vm/compiler/Compiler.h - platform/dalvik - Git at Google

 /*
  * Copyright (C) 2009 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.
  */

 #include <Thread.h>

 #ifndef _DALVIK_VM_COMPILER
 #define _DALVIK_VM_COMPILER

 #define MAX_JIT_RUN_LEN                 64
 #define COMPILER_WORK_QUEUE_SIZE        100
 #define COMPILER_IC_PATCH_QUEUE_SIZE    64

 #define COMPILER_TRACED(X)
 #define COMPILER_TRACEE(X)
 #define COMPILER_TRACE_CHAINING(X)

 typedef enum JitInstructionSetType {
     DALVIK_JIT_NONE = 0,
     DALVIK_JIT_ARM,
     DALVIK_JIT_THUMB,
     DALVIK_JIT_THUMB2,
     DALVIK_JIT_THUMB2EE,
     DALVIK_JIT_X86
 } JitInstructionSetType;

 /* Description of a compiled trace. */
 typedef struct JitTranslationInfo {
     void *codeAddress;
     JitInstructionSetType instructionSet;
     bool discardResult;         // Used for debugging divergence and IC patching
     Thread *requestingThread;   // For debugging purpose
 } JitTranslationInfo;

 typedef enum WorkOrderKind {
     kWorkOrderInvalid = 0,      // Should never see by the backend
     kWorkOrderMethod = 1,       // Work is to compile a whole method
     kWorkOrderTrace = 2,        // Work is to compile code fragment(s)
     kWorkOrderTraceDebug = 3,   // Work is to compile/debug code fragment(s)
 } WorkOrderKind;

 typedef struct CompilerWorkOrder {
     const u2* pc;
     WorkOrderKind kind;
     void* info;
     JitTranslationInfo result;
 } CompilerWorkOrder;

 /* Chain cell for predicted method invocation */
 typedef struct PredictedChainingCell {
     u4 branch;                  /* Branch to chained destination */
     const ClassObject *clazz;   /* key #1 for prediction */
     const Method *method;       /* key #2 to lookup native PC from dalvik PC */
     u4 counter;                 /* counter to patch the chaining cell */
 } PredictedChainingCell;

 /* Work order for inline cache patching */
 typedef struct ICPatchWorkOrder {
     PredictedChainingCell *cellAddr;    /* Address to be patched */
     PredictedChainingCell cellContent;  /* content of the new cell */
 } ICPatchWorkOrder;

 typedef enum JitState {
     kJitOff = 0,
     kJitNormal = 1,            // Profiling in mterp or running native
     kJitTSelectRequest = 2,    // Transition state - start trace selection
     kJitTSelect = 3,           // Actively selecting trace in dbg interp
     kJitTSelectAbort = 4,      // Something threw during selection - abort
     kJitTSelectEnd = 5,        // Done with the trace - wrap it up
     kJitSingleStep = 6,        // Single step interpretation
     kJitSingleStepEnd = 7,     // Done with single step, return to mterp
     kJitSelfVerification = 8,  // Self Verification Mode
 } JitState;

 #if defined(WITH_SELF_VERIFICATION)
 typedef enum SelfVerificationState {
     kSVSIdle = 0,           // Idle
     kSVSStart = 1,          // Shadow space set up, running compiled code
     kSVSPunt = 2,           // Exiting compiled code by punting
     kSVSSingleStep = 3,     // Exiting compiled code by single stepping
     kSVSTraceSelect = 4,    // Exiting compiled code by trace select
     kSVSNormal = 5,         // Exiting compiled code normally
     kSVSNoChain = 6,        // Exiting compiled code by no chain
     kSVSBackwardBranch = 7, // Exiting compiled code with backward branch trace
     kSVSDebugInterp = 8,    // Normal state restored, running debug interpreter
 } SelfVerificationState;
 #endif

 typedef enum JitHint {
    kJitHintNone = 0,
    kJitHintTaken = 1,         // Last inst in run was taken branch
    kJitHintNotTaken = 2,      // Last inst in run was not taken branch
    kJitHintNoBias = 3,        // Last inst in run was unbiased branch
 } jitHint;

 /*
  * Element of a Jit trace description.  Describes a contiguous
  * sequence of Dalvik byte codes, the last of which can be
  * associated with a hint.
  * Dalvik byte code
  */
 typedef struct {
     u2    startOffset;       // Starting offset for trace run
     unsigned numInsts:8;     // Number of Byte codes in run
     unsigned runEnd:1;       // Run ends with last byte code
     jitHint  hint:7;         // Hint to apply to final code of run
 } JitCodeDesc;

 typedef union {
     JitCodeDesc frag;
     void*       hint;
 } JitTraceRun;

 /*
  * Trace description as will appear in the translation cache.  Note
  * flexible array at end, as these will be of variable size.  To
  * conserve space in the translation cache, total length of JitTraceRun
  * array must be recomputed via seqential scan if needed.
  */
 typedef struct {
     const Method* method;
     JitTraceRun trace[];
 } JitTraceDescription;

 typedef struct CompilerMethodStats {
     const Method *method;       // Used as hash entry signature
     int dalvikSize;             // # of bytes for dalvik bytecodes
     int compiledDalvikSize;     // # of compiled dalvik bytecodes
     int nativeSize;             // # of bytes for produced native code
 } CompilerMethodStats;

 bool dvmCompilerSetupCodeCache(void);
 bool dvmCompilerArchInit(void);
 void dvmCompilerArchDump(void);
 bool dvmCompilerStartup(void);
 void dvmCompilerShutdown(void);
 bool dvmCompilerWorkEnqueue(const u2* pc, WorkOrderKind kind, void* info);
 void *dvmCheckCodeCache(void *method);
 bool dvmCompileMethod(const Method *method, JitTranslationInfo *info);
 bool dvmCompileTrace(JitTraceDescription *trace, int numMaxInsts,
                      JitTranslationInfo *info);
 void dvmCompilerDumpStats(void);
 void dvmCompilerDrainQueue(void);
 void dvmJitUnchainAll(void);
 void dvmCompilerSortAndPrintTraceProfiles(void);

 struct CompilationUnit;
 struct BasicBlock;
 struct SSARepresentation;
 struct GrowableList;

 void dvmInitializeSSAConversion(struct CompilationUnit *cUnit);
 int dvmConvertSSARegToDalvik(struct CompilationUnit *cUnit, int ssaReg);
 void dvmCompilerLoopOpt(struct CompilationUnit *cUnit);
 void dvmCompilerNonLoopAnalysis(struct CompilationUnit *cUnit);
 void dvmCompilerFindLiveIn(struct CompilationUnit *cUnit,
                            struct BasicBlock *bb);
 void dvmCompilerDoSSAConversion(struct CompilationUnit *cUnit,
                                 struct BasicBlock *bb);
 void dvmCompilerDoConstantPropagation(struct CompilationUnit *cUnit,
                                       struct BasicBlock *bb);
 void dvmCompilerFindInductionVariables(struct CompilationUnit *cUnit,
                                        struct BasicBlock *bb);
 char *dvmCompilerGetDalvikDisassembly(DecodedInstruction *insn);
 char *dvmCompilerGetSSAString(struct CompilationUnit *cUnit,
                               struct SSARepresentation *ssaRep);
 void dvmCompilerDataFlowAnalysisDispatcher(struct CompilationUnit *cUnit,
                 void (*func)(struct CompilationUnit *, struct BasicBlock *));
 void dvmCompilerStateRefresh(void);
 JitTraceDescription *dvmCopyTraceDescriptor(const u2 *pc);

 #endif /* _DALVIK_VM_COMPILER */
	/*
	* Copyright (C) 2009 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.
	*/

	#include <Thread.h>

	#ifndef _DALVIK_VM_COMPILER
	#define _DALVIK_VM_COMPILER

	#define MAX_JIT_RUN_LEN 64
	#define COMPILER_WORK_QUEUE_SIZE 100
	#define COMPILER_IC_PATCH_QUEUE_SIZE 64

	#define COMPILER_TRACED(X)
	#define COMPILER_TRACEE(X)
	#define COMPILER_TRACE_CHAINING(X)

	typedef enum JitInstructionSetType {
	DALVIK_JIT_NONE = 0,
	DALVIK_JIT_ARM,
	DALVIK_JIT_THUMB,
	DALVIK_JIT_THUMB2,
	DALVIK_JIT_THUMB2EE,
	DALVIK_JIT_X86
	} JitInstructionSetType;

	/* Description of a compiled trace. */
	typedef struct JitTranslationInfo {
	void *codeAddress;
	JitInstructionSetType instructionSet;
	bool discardResult; // Used for debugging divergence and IC patching
	Thread *requestingThread; // For debugging purpose
	} JitTranslationInfo;

	typedef enum WorkOrderKind {
	kWorkOrderInvalid = 0, // Should never see by the backend
	kWorkOrderMethod = 1, // Work is to compile a whole method
	kWorkOrderTrace = 2, // Work is to compile code fragment(s)
	kWorkOrderTraceDebug = 3, // Work is to compile/debug code fragment(s)
	} WorkOrderKind;

	typedef struct CompilerWorkOrder {
	const u2* pc;
	WorkOrderKind kind;
	void* info;
	JitTranslationInfo result;
	} CompilerWorkOrder;

	/* Chain cell for predicted method invocation */
	typedef struct PredictedChainingCell {
	u4 branch; /* Branch to chained destination */
	const ClassObject clazz; / key #1 for prediction */
	const Method method; / key #2 to lookup native PC from dalvik PC */
	u4 counter; /* counter to patch the chaining cell */
	} PredictedChainingCell;

	/* Work order for inline cache patching */
	typedef struct ICPatchWorkOrder {
	PredictedChainingCell cellAddr; / Address to be patched */
	PredictedChainingCell cellContent; /* content of the new cell */
	} ICPatchWorkOrder;

	typedef enum JitState {
	kJitOff = 0,
	kJitNormal = 1, // Profiling in mterp or running native
	kJitTSelectRequest = 2, // Transition state - start trace selection
	kJitTSelect = 3, // Actively selecting trace in dbg interp
	kJitTSelectAbort = 4, // Something threw during selection - abort
	kJitTSelectEnd = 5, // Done with the trace - wrap it up
	kJitSingleStep = 6, // Single step interpretation
	kJitSingleStepEnd = 7, // Done with single step, return to mterp
	kJitSelfVerification = 8, // Self Verification Mode
	} JitState;

	#if defined(WITH_SELF_VERIFICATION)
	typedef enum SelfVerificationState {
	kSVSIdle = 0, // Idle
	kSVSStart = 1, // Shadow space set up, running compiled code
	kSVSPunt = 2, // Exiting compiled code by punting
	kSVSSingleStep = 3, // Exiting compiled code by single stepping
	kSVSTraceSelect = 4, // Exiting compiled code by trace select
	kSVSNormal = 5, // Exiting compiled code normally
	kSVSNoChain = 6, // Exiting compiled code by no chain
	kSVSBackwardBranch = 7, // Exiting compiled code with backward branch trace
	kSVSDebugInterp = 8, // Normal state restored, running debug interpreter
	} SelfVerificationState;
	#endif

	typedef enum JitHint {
	kJitHintNone = 0,
	kJitHintTaken = 1, // Last inst in run was taken branch
	kJitHintNotTaken = 2, // Last inst in run was not taken branch
	kJitHintNoBias = 3, // Last inst in run was unbiased branch
	} jitHint;

	/*
	* Element of a Jit trace description. Describes a contiguous
	* sequence of Dalvik byte codes, the last of which can be
	* associated with a hint.
	* Dalvik byte code
	*/
	typedef struct {
	u2 startOffset; // Starting offset for trace run
	unsigned numInsts:8; // Number of Byte codes in run
	unsigned runEnd:1; // Run ends with last byte code
	jitHint hint:7; // Hint to apply to final code of run
	} JitCodeDesc;

	typedef union {
	JitCodeDesc frag;
	void* hint;
	} JitTraceRun;

	/*
	* Trace description as will appear in the translation cache. Note
	* flexible array at end, as these will be of variable size. To
	* conserve space in the translation cache, total length of JitTraceRun
	* array must be recomputed via seqential scan if needed.
	*/
	typedef struct {
	const Method* method;
	JitTraceRun trace[];
	} JitTraceDescription;

	typedef struct CompilerMethodStats {
	const Method *method; // Used as hash entry signature
	int dalvikSize; // # of bytes for dalvik bytecodes
	int compiledDalvikSize; // # of compiled dalvik bytecodes
	int nativeSize; // # of bytes for produced native code
	} CompilerMethodStats;

	bool dvmCompilerSetupCodeCache(void);
	bool dvmCompilerArchInit(void);
	void dvmCompilerArchDump(void);
	bool dvmCompilerStartup(void);
	void dvmCompilerShutdown(void);
	bool dvmCompilerWorkEnqueue(const u2* pc, WorkOrderKind kind, void* info);
	void dvmCheckCodeCache(void method);
	bool dvmCompileMethod(const Method method, JitTranslationInfo info);
	bool dvmCompileTrace(JitTraceDescription *trace, int numMaxInsts,
	JitTranslationInfo *info);
	void dvmCompilerDumpStats(void);
	void dvmCompilerDrainQueue(void);
	void dvmJitUnchainAll(void);
	void dvmCompilerSortAndPrintTraceProfiles(void);

	struct CompilationUnit;
	struct BasicBlock;
	struct SSARepresentation;
	struct GrowableList;

	void dvmInitializeSSAConversion(struct CompilationUnit *cUnit);
	int dvmConvertSSARegToDalvik(struct CompilationUnit *cUnit, int ssaReg);
	void dvmCompilerLoopOpt(struct CompilationUnit *cUnit);
	void dvmCompilerNonLoopAnalysis(struct CompilationUnit *cUnit);
	void dvmCompilerFindLiveIn(struct CompilationUnit *cUnit,
	struct BasicBlock *bb);
	void dvmCompilerDoSSAConversion(struct CompilationUnit *cUnit,
	struct BasicBlock *bb);
	void dvmCompilerDoConstantPropagation(struct CompilationUnit *cUnit,
	struct BasicBlock *bb);
	void dvmCompilerFindInductionVariables(struct CompilationUnit *cUnit,
	struct BasicBlock *bb);
	char dvmCompilerGetDalvikDisassembly(DecodedInstruction insn);
	char dvmCompilerGetSSAString(struct CompilationUnit cUnit,
	struct SSARepresentation *ssaRep);
	void dvmCompilerDataFlowAnalysisDispatcher(struct CompilationUnit *cUnit,
	void (func)(struct CompilationUnit , struct BasicBlock *));
	void dvmCompilerStateRefresh(void);
	JitTraceDescription dvmCopyTraceDescriptor(const u2 pc);

	#endif /* _DALVIK_VM_COMPILER */