src/arm64/instrument-arm64.cc - fp2-dev/platform/external/v8 - Gitiles

 // Copyright 2013 the V8 project authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "src/arm64/instrument-arm64.h"

 namespace v8 {
 namespace internal {

 Counter::Counter(const char* name, CounterType type)
     : count_(0), enabled_(false), type_(type) {
   DCHECK(name != NULL);
   strncpy(name_, name, kCounterNameMaxLength);
 }


 void Counter::Enable() {
   enabled_ = true;
 }


 void Counter::Disable() {
   enabled_ = false;
 }


 bool Counter::IsEnabled() {
   return enabled_;
 }


 void Counter::Increment() {
   if (enabled_) {
     count_++;
   }
 }


 uint64_t Counter::count() {
   uint64_t result = count_;
   if (type_ == Gauge) {
     // If the counter is a Gauge, reset the count after reading.
     count_ = 0;
   }
   return result;
 }


 const char* Counter::name() {
   return name_;
 }


 CounterType Counter::type() {
   return type_;
 }


 typedef struct {
   const char* name;
   CounterType type;
 } CounterDescriptor;


 static const CounterDescriptor kCounterList[] = {
   {"Instruction", Cumulative},

   {"Move Immediate", Gauge},
   {"Add/Sub DP", Gauge},
   {"Logical DP", Gauge},
   {"Other Int DP", Gauge},
   {"FP DP", Gauge},

   {"Conditional Select", Gauge},
   {"Conditional Compare", Gauge},

   {"Unconditional Branch", Gauge},
   {"Compare and Branch", Gauge},
   {"Test and Branch", Gauge},
   {"Conditional Branch", Gauge},

   {"Load Integer", Gauge},
   {"Load FP", Gauge},
   {"Load Pair", Gauge},
   {"Load Literal", Gauge},

   {"Store Integer", Gauge},
   {"Store FP", Gauge},
   {"Store Pair", Gauge},

   {"PC Addressing", Gauge},
   {"Other", Gauge},
   {"SP Adjust", Gauge},
 };


 Instrument::Instrument(const char* datafile, uint64_t sample_period)
     : output_stream_(stderr), sample_period_(sample_period) {

   // Set up the output stream. If datafile is non-NULL, use that file. If it
   // can't be opened, or datafile is NULL, use stderr.
   if (datafile != NULL) {
     output_stream_ = fopen(datafile, "w");
     if (output_stream_ == NULL) {
       fprintf(stderr, "Can't open output file %s. Using stderr.\n", datafile);
       output_stream_ = stderr;
     }
   }

   static const int num_counters = arraysize(kCounterList);

   // Dump an instrumentation description comment at the top of the file.
   fprintf(output_stream_, "# counters=%d\n", num_counters);
   fprintf(output_stream_, "# sample_period=%" PRIu64 "\n", sample_period_);

   // Construct Counter objects from counter description array.
   for (int i = 0; i < num_counters; i++) {
     Counter* counter = new Counter(kCounterList[i].name, kCounterList[i].type);
     counters_.push_back(counter);
   }

   DumpCounterNames();
 }


 Instrument::~Instrument() {
   // Dump any remaining instruction data to the output file.
   DumpCounters();

   // Free all the counter objects.
   std::list<Counter*>::iterator it;
   for (it = counters_.begin(); it != counters_.end(); it++) {
     delete *it;
   }

   if (output_stream_ != stderr) {
     fclose(output_stream_);
   }
 }


 void Instrument::Update() {
   // Increment the instruction counter, and dump all counters if a sample period
   // has elapsed.
   static Counter* counter = GetCounter("Instruction");
   DCHECK(counter->type() == Cumulative);
   counter->Increment();

   if (counter->IsEnabled() && (counter->count() % sample_period_) == 0) {
     DumpCounters();
   }
 }


 void Instrument::DumpCounters() {
   // Iterate through the counter objects, dumping their values to the output
   // stream.
   std::list<Counter*>::const_iterator it;
   for (it = counters_.begin(); it != counters_.end(); it++) {
     fprintf(output_stream_, "%" PRIu64 ",", (*it)->count());
   }
   fprintf(output_stream_, "\n");
   fflush(output_stream_);
 }


 void Instrument::DumpCounterNames() {
   // Iterate through the counter objects, dumping the counter names to the
   // output stream.
   std::list<Counter*>::const_iterator it;
   for (it = counters_.begin(); it != counters_.end(); it++) {
     fprintf(output_stream_, "%s,", (*it)->name());
   }
   fprintf(output_stream_, "\n");
   fflush(output_stream_);
 }


 void Instrument::HandleInstrumentationEvent(unsigned event) {
   switch (event) {
     case InstrumentStateEnable: Enable(); break;
     case InstrumentStateDisable: Disable(); break;
     default: DumpEventMarker(event);
   }
 }


 void Instrument::DumpEventMarker(unsigned marker) {
   // Dumpan event marker to the output stream as a specially formatted comment
   // line.
   static Counter* counter = GetCounter("Instruction");

   fprintf(output_stream_, "# %c%c @ %" PRId64 "\n", marker & 0xff,
           (marker >> 8) & 0xff, counter->count());
 }


 Counter* Instrument::GetCounter(const char* name) {
   // Get a Counter object by name from the counter list.
   std::list<Counter*>::const_iterator it;
   for (it = counters_.begin(); it != counters_.end(); it++) {
     if (strcmp((*it)->name(), name) == 0) {
       return *it;
     }
   }

   // A Counter by that name does not exist: print an error message to stderr
   // and the output file, and exit.
   static const char* error_message =
     "# Error: Unknown counter \"%s\". Exiting.\n";
   fprintf(stderr, error_message, name);
   fprintf(output_stream_, error_message, name);
   exit(1);
 }


 void Instrument::Enable() {
   std::list<Counter*>::iterator it;
   for (it = counters_.begin(); it != counters_.end(); it++) {
     (*it)->Enable();
   }
 }


 void Instrument::Disable() {
   std::list<Counter*>::iterator it;
   for (it = counters_.begin(); it != counters_.end(); it++) {
     (*it)->Disable();
   }
 }


 void Instrument::VisitPCRelAddressing(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("PC Addressing");
   counter->Increment();
 }


 void Instrument::VisitAddSubImmediate(Instruction* instr) {
   Update();
   static Counter* sp_counter = GetCounter("SP Adjust");
   static Counter* add_sub_counter = GetCounter("Add/Sub DP");
   if (((instr->Mask(AddSubOpMask) == SUB) ||
        (instr->Mask(AddSubOpMask) == ADD)) &&
       (instr->Rd() == 31) && (instr->Rn() == 31)) {
     // Count adjustments to the C stack pointer caused by V8 needing two SPs.
     sp_counter->Increment();
   } else {
     add_sub_counter->Increment();
   }
 }


 void Instrument::VisitLogicalImmediate(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Logical DP");
   counter->Increment();
 }


 void Instrument::VisitMoveWideImmediate(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Move Immediate");

   if (instr->IsMovn() && (instr->Rd() == kZeroRegCode)) {
     unsigned imm = instr->ImmMoveWide();
     HandleInstrumentationEvent(imm);
   } else {
     counter->Increment();
   }
 }


 void Instrument::VisitBitfield(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Other Int DP");
   counter->Increment();
 }


 void Instrument::VisitExtract(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Other Int DP");
   counter->Increment();
 }


 void Instrument::VisitUnconditionalBranch(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Unconditional Branch");
   counter->Increment();
 }


 void Instrument::VisitUnconditionalBranchToRegister(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Unconditional Branch");
   counter->Increment();
 }


 void Instrument::VisitCompareBranch(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Compare and Branch");
   counter->Increment();
 }


 void Instrument::VisitTestBranch(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Test and Branch");
   counter->Increment();
 }


 void Instrument::VisitConditionalBranch(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Conditional Branch");
   counter->Increment();
 }


 void Instrument::VisitSystem(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Other");
   counter->Increment();
 }


 void Instrument::VisitException(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Other");
   counter->Increment();
 }


 void Instrument::InstrumentLoadStorePair(Instruction* instr) {
   static Counter* load_pair_counter = GetCounter("Load Pair");
   static Counter* store_pair_counter = GetCounter("Store Pair");
   if (instr->Mask(LoadStorePairLBit) != 0) {
     load_pair_counter->Increment();
   } else {
     store_pair_counter->Increment();
   }
 }


 void Instrument::VisitLoadStorePairPostIndex(Instruction* instr) {
   Update();
   InstrumentLoadStorePair(instr);
 }


 void Instrument::VisitLoadStorePairOffset(Instruction* instr) {
   Update();
   InstrumentLoadStorePair(instr);
 }


 void Instrument::VisitLoadStorePairPreIndex(Instruction* instr) {
   Update();
   InstrumentLoadStorePair(instr);
 }


 void Instrument::VisitLoadLiteral(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Load Literal");
   counter->Increment();
 }


 void Instrument::InstrumentLoadStore(Instruction* instr) {
   static Counter* load_int_counter = GetCounter("Load Integer");
   static Counter* store_int_counter = GetCounter("Store Integer");
   static Counter* load_fp_counter = GetCounter("Load FP");
   static Counter* store_fp_counter = GetCounter("Store FP");

   switch (instr->Mask(LoadStoreOpMask)) {
     case STRB_w:    // Fall through.
     case STRH_w:    // Fall through.
     case STR_w:     // Fall through.
     case STR_x:     store_int_counter->Increment(); break;
     case STR_s:     // Fall through.
     case STR_d:     store_fp_counter->Increment(); break;
     case LDRB_w:    // Fall through.
     case LDRH_w:    // Fall through.
     case LDR_w:     // Fall through.
     case LDR_x:     // Fall through.
     case LDRSB_x:   // Fall through.
     case LDRSH_x:   // Fall through.
     case LDRSW_x:   // Fall through.
     case LDRSB_w:   // Fall through.
     case LDRSH_w:   load_int_counter->Increment(); break;
     case LDR_s:     // Fall through.
     case LDR_d:     load_fp_counter->Increment(); break;
     default: UNREACHABLE();
   }
 }


 void Instrument::VisitLoadStoreUnscaledOffset(Instruction* instr) {
   Update();
   InstrumentLoadStore(instr);
 }


 void Instrument::VisitLoadStorePostIndex(Instruction* instr) {
   Update();
   InstrumentLoadStore(instr);
 }


 void Instrument::VisitLoadStorePreIndex(Instruction* instr) {
   Update();
   InstrumentLoadStore(instr);
 }


 void Instrument::VisitLoadStoreRegisterOffset(Instruction* instr) {
   Update();
   InstrumentLoadStore(instr);
 }


 void Instrument::VisitLoadStoreUnsignedOffset(Instruction* instr) {
   Update();
   InstrumentLoadStore(instr);
 }

 void Instrument::VisitLoadStoreAcquireRelease(Instruction* instr) {
   Update();
   static Counter* load_counter = GetCounter("Load Acquire");
   static Counter* store_counter = GetCounter("Store Release");

   switch (instr->Mask(LoadStoreAcquireReleaseMask)) {
     case LDAR_b:   // Fall-through.
     case LDAR_h:   // Fall-through.
     case LDAR_w:   // Fall-through.
     case LDAR_x:   // Fall-through.
     case LDAXR_b:  // Fall-through.
     case LDAXR_h:  // Fall-through.
     case LDAXR_w:  // Fall-through.
     case LDAXR_x: load_counter->Increment(); break;
     case STLR_b:   // Fall-through.
     case STLR_h:   // Fall-through.
     case STLR_w:   // Fall-through.
     case STLR_x:   // Fall-through.
     case STLXR_b:  // Fall-through.
     case STLXR_h:  // Fall-through.
     case STLXR_w:  // Fall-through.
     case STLXR_x: store_counter->Increment(); break;
     default: UNREACHABLE();
   }
 }

 void Instrument::VisitLogicalShifted(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Logical DP");
   counter->Increment();
 }


 void Instrument::VisitAddSubShifted(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Add/Sub DP");
   counter->Increment();
 }


 void Instrument::VisitAddSubExtended(Instruction* instr) {
   Update();
   static Counter* sp_counter = GetCounter("SP Adjust");
   static Counter* add_sub_counter = GetCounter("Add/Sub DP");
   if (((instr->Mask(AddSubOpMask) == SUB) ||
        (instr->Mask(AddSubOpMask) == ADD)) &&
       (instr->Rd() == 31) && (instr->Rn() == 31)) {
     // Count adjustments to the C stack pointer caused by V8 needing two SPs.
     sp_counter->Increment();
   } else {
     add_sub_counter->Increment();
   }
 }


 void Instrument::VisitAddSubWithCarry(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Add/Sub DP");
   counter->Increment();
 }


 void Instrument::VisitConditionalCompareRegister(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Conditional Compare");
   counter->Increment();
 }


 void Instrument::VisitConditionalCompareImmediate(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Conditional Compare");
   counter->Increment();
 }


 void Instrument::VisitConditionalSelect(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Conditional Select");
   counter->Increment();
 }


 void Instrument::VisitDataProcessing1Source(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Other Int DP");
   counter->Increment();
 }


 void Instrument::VisitDataProcessing2Source(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Other Int DP");
   counter->Increment();
 }


 void Instrument::VisitDataProcessing3Source(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Other Int DP");
   counter->Increment();
 }


 void Instrument::VisitFPCompare(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("FP DP");
   counter->Increment();
 }


 void Instrument::VisitFPConditionalCompare(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Conditional Compare");
   counter->Increment();
 }


 void Instrument::VisitFPConditionalSelect(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Conditional Select");
   counter->Increment();
 }


 void Instrument::VisitFPImmediate(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("FP DP");
   counter->Increment();
 }


 void Instrument::VisitFPDataProcessing1Source(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("FP DP");
   counter->Increment();
 }


 void Instrument::VisitFPDataProcessing2Source(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("FP DP");
   counter->Increment();
 }


 void Instrument::VisitFPDataProcessing3Source(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("FP DP");
   counter->Increment();
 }


 void Instrument::VisitFPIntegerConvert(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("FP DP");
   counter->Increment();
 }


 void Instrument::VisitFPFixedPointConvert(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("FP DP");
   counter->Increment();
 }


 void Instrument::VisitUnallocated(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Other");
   counter->Increment();
 }


 void Instrument::VisitUnimplemented(Instruction* instr) {
   Update();
   static Counter* counter = GetCounter("Other");
   counter->Increment();
 }


 }  // namespace internal
 }  // namespace v8
	// Copyright 2013 the V8 project authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "src/arm64/instrument-arm64.h"

	namespace v8 {
	namespace internal {

	Counter::Counter(const char* name, CounterType type)
	: count_(0), enabled_(false), type_(type) {
	DCHECK(name != NULL);
	strncpy(name_, name, kCounterNameMaxLength);
	}


	void Counter::Enable() {
	enabled_ = true;
	}


	void Counter::Disable() {
	enabled_ = false;
	}


	bool Counter::IsEnabled() {
	return enabled_;
	}


	void Counter::Increment() {
	if (enabled_) {
	count_++;
	}
	}


	uint64_t Counter::count() {
	uint64_t result = count_;
	if (type_ == Gauge) {
	// If the counter is a Gauge, reset the count after reading.
	count_ = 0;
	}
	return result;
	}


	const char* Counter::name() {
	return name_;
	}


	CounterType Counter::type() {
	return type_;
	}


	typedef struct {
	const char* name;
	CounterType type;
	} CounterDescriptor;


	static const CounterDescriptor kCounterList[] = {
	{"Instruction", Cumulative},

	{"Move Immediate", Gauge},
	{"Add/Sub DP", Gauge},
	{"Logical DP", Gauge},
	{"Other Int DP", Gauge},
	{"FP DP", Gauge},

	{"Conditional Select", Gauge},
	{"Conditional Compare", Gauge},

	{"Unconditional Branch", Gauge},
	{"Compare and Branch", Gauge},
	{"Test and Branch", Gauge},
	{"Conditional Branch", Gauge},

	{"Load Integer", Gauge},
	{"Load FP", Gauge},
	{"Load Pair", Gauge},
	{"Load Literal", Gauge},

	{"Store Integer", Gauge},
	{"Store FP", Gauge},
	{"Store Pair", Gauge},

	{"PC Addressing", Gauge},
	{"Other", Gauge},
	{"SP Adjust", Gauge},
	};


	Instrument::Instrument(const char* datafile, uint64_t sample_period)
	: output_stream_(stderr), sample_period_(sample_period) {

	// Set up the output stream. If datafile is non-NULL, use that file. If it
	// can't be opened, or datafile is NULL, use stderr.
	if (datafile != NULL) {
	output_stream_ = fopen(datafile, "w");
	if (output_stream_ == NULL) {
	fprintf(stderr, "Can't open output file %s. Using stderr.\n", datafile);
	output_stream_ = stderr;
	}
	}

	static const int num_counters = arraysize(kCounterList);

	// Dump an instrumentation description comment at the top of the file.
	fprintf(output_stream_, "# counters=%d\n", num_counters);
	fprintf(output_stream_, "# sample_period=%" PRIu64 "\n", sample_period_);

	// Construct Counter objects from counter description array.
	for (int i = 0; i < num_counters; i++) {
	Counter* counter = new Counter(kCounterList[i].name, kCounterList[i].type);
	counters_.push_back(counter);
	}

	DumpCounterNames();
	}


	Instrument::~Instrument() {
	// Dump any remaining instruction data to the output file.
	DumpCounters();

	// Free all the counter objects.
	std::list<Counter*>::iterator it;
	for (it = counters_.begin(); it != counters_.end(); it++) {
	delete *it;
	}

	if (output_stream_ != stderr) {
	fclose(output_stream_);
	}
	}


	void Instrument::Update() {
	// Increment the instruction counter, and dump all counters if a sample period
	// has elapsed.
	static Counter* counter = GetCounter("Instruction");
	DCHECK(counter->type() == Cumulative);
	counter->Increment();

	if (counter->IsEnabled() && (counter->count() % sample_period_) == 0) {
	DumpCounters();
	}
	}


	void Instrument::DumpCounters() {
	// Iterate through the counter objects, dumping their values to the output
	// stream.
	std::list<Counter*>::const_iterator it;
	for (it = counters_.begin(); it != counters_.end(); it++) {
	fprintf(output_stream_, "%" PRIu64 ",", (*it)->count());
	}
	fprintf(output_stream_, "\n");
	fflush(output_stream_);
	}


	void Instrument::DumpCounterNames() {
	// Iterate through the counter objects, dumping the counter names to the
	// output stream.
	std::list<Counter*>::const_iterator it;
	for (it = counters_.begin(); it != counters_.end(); it++) {
	fprintf(output_stream_, "%s,", (*it)->name());
	}
	fprintf(output_stream_, "\n");
	fflush(output_stream_);
	}


	void Instrument::HandleInstrumentationEvent(unsigned event) {
	switch (event) {
	case InstrumentStateEnable: Enable(); break;
	case InstrumentStateDisable: Disable(); break;
	default: DumpEventMarker(event);
	}
	}


	void Instrument::DumpEventMarker(unsigned marker) {
	// Dumpan event marker to the output stream as a specially formatted comment
	// line.
	static Counter* counter = GetCounter("Instruction");

	fprintf(output_stream_, "# %c%c @ %" PRId64 "\n", marker & 0xff,
	(marker >> 8) & 0xff, counter->count());
	}


	Counter* Instrument::GetCounter(const char* name) {
	// Get a Counter object by name from the counter list.
	std::list<Counter*>::const_iterator it;
	for (it = counters_.begin(); it != counters_.end(); it++) {
	if (strcmp((*it)->name(), name) == 0) {
	return *it;
	}
	}

	// A Counter by that name does not exist: print an error message to stderr
	// and the output file, and exit.
	static const char* error_message =
	"# Error: Unknown counter \"%s\". Exiting.\n";
	fprintf(stderr, error_message, name);
	fprintf(output_stream_, error_message, name);
	exit(1);
	}


	void Instrument::Enable() {
	std::list<Counter*>::iterator it;
	for (it = counters_.begin(); it != counters_.end(); it++) {
	(*it)->Enable();
	}
	}


	void Instrument::Disable() {
	std::list<Counter*>::iterator it;
	for (it = counters_.begin(); it != counters_.end(); it++) {
	(*it)->Disable();
	}
	}


	void Instrument::VisitPCRelAddressing(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("PC Addressing");
	counter->Increment();
	}


	void Instrument::VisitAddSubImmediate(Instruction* instr) {
	Update();
	static Counter* sp_counter = GetCounter("SP Adjust");
	static Counter* add_sub_counter = GetCounter("Add/Sub DP");
	if (((instr->Mask(AddSubOpMask) == SUB) \|\|
	(instr->Mask(AddSubOpMask) == ADD)) &&
	(instr->Rd() == 31) && (instr->Rn() == 31)) {
	// Count adjustments to the C stack pointer caused by V8 needing two SPs.
	sp_counter->Increment();
	} else {
	add_sub_counter->Increment();
	}
	}


	void Instrument::VisitLogicalImmediate(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Logical DP");
	counter->Increment();
	}


	void Instrument::VisitMoveWideImmediate(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Move Immediate");

	if (instr->IsMovn() && (instr->Rd() == kZeroRegCode)) {
	unsigned imm = instr->ImmMoveWide();
	HandleInstrumentationEvent(imm);
	} else {
	counter->Increment();
	}
	}


	void Instrument::VisitBitfield(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Other Int DP");
	counter->Increment();
	}


	void Instrument::VisitExtract(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Other Int DP");
	counter->Increment();
	}


	void Instrument::VisitUnconditionalBranch(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Unconditional Branch");
	counter->Increment();
	}


	void Instrument::VisitUnconditionalBranchToRegister(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Unconditional Branch");
	counter->Increment();
	}


	void Instrument::VisitCompareBranch(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Compare and Branch");
	counter->Increment();
	}


	void Instrument::VisitTestBranch(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Test and Branch");
	counter->Increment();
	}


	void Instrument::VisitConditionalBranch(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Conditional Branch");
	counter->Increment();
	}


	void Instrument::VisitSystem(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Other");
	counter->Increment();
	}


	void Instrument::VisitException(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Other");
	counter->Increment();
	}


	void Instrument::InstrumentLoadStorePair(Instruction* instr) {
	static Counter* load_pair_counter = GetCounter("Load Pair");
	static Counter* store_pair_counter = GetCounter("Store Pair");
	if (instr->Mask(LoadStorePairLBit) != 0) {
	load_pair_counter->Increment();
	} else {
	store_pair_counter->Increment();
	}
	}


	void Instrument::VisitLoadStorePairPostIndex(Instruction* instr) {
	Update();
	InstrumentLoadStorePair(instr);
	}


	void Instrument::VisitLoadStorePairOffset(Instruction* instr) {
	Update();
	InstrumentLoadStorePair(instr);
	}


	void Instrument::VisitLoadStorePairPreIndex(Instruction* instr) {
	Update();
	InstrumentLoadStorePair(instr);
	}


	void Instrument::VisitLoadLiteral(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Load Literal");
	counter->Increment();
	}


	void Instrument::InstrumentLoadStore(Instruction* instr) {
	static Counter* load_int_counter = GetCounter("Load Integer");
	static Counter* store_int_counter = GetCounter("Store Integer");
	static Counter* load_fp_counter = GetCounter("Load FP");
	static Counter* store_fp_counter = GetCounter("Store FP");

	switch (instr->Mask(LoadStoreOpMask)) {
	case STRB_w: // Fall through.
	case STRH_w: // Fall through.
	case STR_w: // Fall through.
	case STR_x: store_int_counter->Increment(); break;
	case STR_s: // Fall through.
	case STR_d: store_fp_counter->Increment(); break;
	case LDRB_w: // Fall through.
	case LDRH_w: // Fall through.
	case LDR_w: // Fall through.
	case LDR_x: // Fall through.
	case LDRSB_x: // Fall through.
	case LDRSH_x: // Fall through.
	case LDRSW_x: // Fall through.
	case LDRSB_w: // Fall through.
	case LDRSH_w: load_int_counter->Increment(); break;
	case LDR_s: // Fall through.
	case LDR_d: load_fp_counter->Increment(); break;
	default: UNREACHABLE();
	}
	}


	void Instrument::VisitLoadStoreUnscaledOffset(Instruction* instr) {
	Update();
	InstrumentLoadStore(instr);
	}


	void Instrument::VisitLoadStorePostIndex(Instruction* instr) {
	Update();
	InstrumentLoadStore(instr);
	}


	void Instrument::VisitLoadStorePreIndex(Instruction* instr) {
	Update();
	InstrumentLoadStore(instr);
	}


	void Instrument::VisitLoadStoreRegisterOffset(Instruction* instr) {
	Update();
	InstrumentLoadStore(instr);
	}


	void Instrument::VisitLoadStoreUnsignedOffset(Instruction* instr) {
	Update();
	InstrumentLoadStore(instr);
	}

	void Instrument::VisitLoadStoreAcquireRelease(Instruction* instr) {
	Update();
	static Counter* load_counter = GetCounter("Load Acquire");
	static Counter* store_counter = GetCounter("Store Release");

	switch (instr->Mask(LoadStoreAcquireReleaseMask)) {
	case LDAR_b: // Fall-through.
	case LDAR_h: // Fall-through.
	case LDAR_w: // Fall-through.
	case LDAR_x: // Fall-through.
	case LDAXR_b: // Fall-through.
	case LDAXR_h: // Fall-through.
	case LDAXR_w: // Fall-through.
	case LDAXR_x: load_counter->Increment(); break;
	case STLR_b: // Fall-through.
	case STLR_h: // Fall-through.
	case STLR_w: // Fall-through.
	case STLR_x: // Fall-through.
	case STLXR_b: // Fall-through.
	case STLXR_h: // Fall-through.
	case STLXR_w: // Fall-through.
	case STLXR_x: store_counter->Increment(); break;
	default: UNREACHABLE();
	}
	}

	void Instrument::VisitLogicalShifted(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Logical DP");
	counter->Increment();
	}


	void Instrument::VisitAddSubShifted(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Add/Sub DP");
	counter->Increment();
	}


	void Instrument::VisitAddSubExtended(Instruction* instr) {
	Update();
	static Counter* sp_counter = GetCounter("SP Adjust");
	static Counter* add_sub_counter = GetCounter("Add/Sub DP");
	if (((instr->Mask(AddSubOpMask) == SUB) \|\|
	(instr->Mask(AddSubOpMask) == ADD)) &&
	(instr->Rd() == 31) && (instr->Rn() == 31)) {
	// Count adjustments to the C stack pointer caused by V8 needing two SPs.
	sp_counter->Increment();
	} else {
	add_sub_counter->Increment();
	}
	}


	void Instrument::VisitAddSubWithCarry(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Add/Sub DP");
	counter->Increment();
	}


	void Instrument::VisitConditionalCompareRegister(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Conditional Compare");
	counter->Increment();
	}


	void Instrument::VisitConditionalCompareImmediate(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Conditional Compare");
	counter->Increment();
	}


	void Instrument::VisitConditionalSelect(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Conditional Select");
	counter->Increment();
	}


	void Instrument::VisitDataProcessing1Source(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Other Int DP");
	counter->Increment();
	}


	void Instrument::VisitDataProcessing2Source(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Other Int DP");
	counter->Increment();
	}


	void Instrument::VisitDataProcessing3Source(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Other Int DP");
	counter->Increment();
	}


	void Instrument::VisitFPCompare(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("FP DP");
	counter->Increment();
	}


	void Instrument::VisitFPConditionalCompare(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Conditional Compare");
	counter->Increment();
	}


	void Instrument::VisitFPConditionalSelect(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Conditional Select");
	counter->Increment();
	}


	void Instrument::VisitFPImmediate(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("FP DP");
	counter->Increment();
	}


	void Instrument::VisitFPDataProcessing1Source(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("FP DP");
	counter->Increment();
	}


	void Instrument::VisitFPDataProcessing2Source(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("FP DP");
	counter->Increment();
	}


	void Instrument::VisitFPDataProcessing3Source(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("FP DP");
	counter->Increment();
	}


	void Instrument::VisitFPIntegerConvert(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("FP DP");
	counter->Increment();
	}


	void Instrument::VisitFPFixedPointConvert(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("FP DP");
	counter->Increment();
	}


	void Instrument::VisitUnallocated(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Other");
	counter->Increment();
	}


	void Instrument::VisitUnimplemented(Instruction* instr) {
	Update();
	static Counter* counter = GetCounter("Other");
	counter->Increment();
	}


	} // namespace internal
	} // namespace v8