runtime/vm/compiler/compiler_timings.cc - sdk.git - Git at Google

 // Copyright (c) 2021, the Dart project authors.  Please see the AUTHORS file
 // for details. All rights reserved. Use of this source code is governed by a
 // BSD-style license that can be found in the LICENSE file.

 #include "vm/compiler/compiler_timings.h"

 namespace dart {

 namespace {
 #define DEFINE_NAME(Name) #Name,
 const char* timer_names[] = {COMPILER_TIMERS_LIST(DEFINE_NAME)};
 #undef DEFINE_NAME

 }  // namespace

 void CompilerTimings::PrintTimers(
     Zone* zone,
     const std::unique_ptr<CompilerTimings::Timers>& timers,
     const Timer& total,
     intptr_t level) {
   const int64_t total_elapsed = total.TotalElapsedTime();

   int64_t total_accounted = 0;
   int64_t total_accounted_cpu = 0;
   for (intptr_t i = 0; i < kNumTimers; i++) {
     const auto& entry = timers->timers_[i];
     total_accounted += entry.TotalElapsedTime();
     total_accounted_cpu += entry.TotalElapsedTimeCpu();
   }

   if (level > 0) {
     // Print (self: ...) timing on the previous line if our amount of time
     // spent outside of nested timers is between 1% and 99%.
     const double kMinInterestingSelfPercent = 1.0;
     const double kMaxInterestingSelfPercent = 99.0;

     const int64_t self = total_elapsed - total_accounted;
     const auto self_pct =
         static_cast<double>(Utils::Abs(self)) * 100 / total_elapsed;
     if (kMinInterestingSelfPercent < self_pct &&
         self_pct < kMaxInterestingSelfPercent) {
       const int64_t self_cpu =
           total.TotalElapsedTimeCpu() - total_accounted_cpu;
       const auto self_timer = Timer(self, self_cpu);
       OS::PrintErr(" (self: [%6.2f%%] %s)\n", self_pct,
                    self_timer.FormatElapsedHumanReadable(zone));
     } else {
       OS::PrintErr("\n");
     }
   }

   // Sort timers by the amount of time elapsed within each one.
   Timer* by_elapsed[kNumTimers];
   for (intptr_t i = 0; i < kNumTimers; i++) {
     by_elapsed[i] = &timers->timers_[i];
   }
   qsort(by_elapsed, kNumTimers, sizeof(Timer*),
         [](const void* pa, const void* pb) -> int {
           const auto a_elapsed =
               (*static_cast<Timer* const*>(pa))->TotalElapsedTime();
           const auto b_elapsed =
               (*static_cast<Timer* const*>(pb))->TotalElapsedTime();
           return b_elapsed < a_elapsed ? -1 : b_elapsed > a_elapsed ? 1 : 0;
         });

   // Print sorted in descending order.
   for (intptr_t i = 0; i < kNumTimers; i++) {
     auto timer = by_elapsed[i];
     if (timer->TotalElapsedTime() > 0) {
       const auto timer_id = static_cast<TimerId>(timer - &timers->timers_[0]);
       const auto pct =
           static_cast<double>(timer->TotalElapsedTime()) * 100 / total_elapsed;
       // Must be int for * width specifier.
       const int indent = static_cast<int>(level * 2);

       // Note: don't emit EOL because PrintTimers can print self timing.
       OS::PrintErr(
           "%*s[%6.2f%%] %-*s %-10s", indent, "", pct, 60 - indent,
           timer_names[timer_id],
           Timer::FormatElapsedHumanReadable(zone, timer->TotalElapsedTime(),
                                             timer->TotalElapsedTimeCpu()));

       // Print nested timers if any or just emit EOL.
       if (timers->nested_[timer_id] != nullptr) {
         PrintTimers(zone, timers->nested_[timer_id], *timer, level + 1);
       } else {
         OS::PrintErr("\n");
       }
     }
   }
 }

 void CompilerTimings::Print() {
   Zone* zone = Thread::Current()->zone();

   OS::PrintErr("Precompilation took: %s\n",
                total_.FormatElapsedHumanReadable(zone));

   PrintTimers(zone, root_, total_, 0);

   OS::PrintErr("Inlining by outcome\n  Success: %s\n  Failure: %s\n",
                try_inlining_success_.FormatElapsedHumanReadable(zone),
                try_inlining_failure_.FormatElapsedHumanReadable(zone));
 }

 }  // namespace dart
	// Copyright (c) 2021, the Dart project authors. Please see the AUTHORS file
	// for details. All rights reserved. Use of this source code is governed by a
	// BSD-style license that can be found in the LICENSE file.

	#include "vm/compiler/compiler_timings.h"

	namespace dart {

	namespace {
	#define DEFINE_NAME(Name) #Name,
	const char* timer_names[] = {COMPILER_TIMERS_LIST(DEFINE_NAME)};
	#undef DEFINE_NAME

	} // namespace

	void CompilerTimings::PrintTimers(
	Zone* zone,
	const std::unique_ptr<CompilerTimings::Timers>& timers,
	const Timer& total,
	intptr_t level) {
	const int64_t total_elapsed = total.TotalElapsedTime();

	int64_t total_accounted = 0;
	int64_t total_accounted_cpu = 0;
	for (intptr_t i = 0; i < kNumTimers; i++) {
	const auto& entry = timers->timers_[i];
	total_accounted += entry.TotalElapsedTime();
	total_accounted_cpu += entry.TotalElapsedTimeCpu();
	}

	if (level > 0) {
	// Print (self: ...) timing on the previous line if our amount of time
	// spent outside of nested timers is between 1% and 99%.
	const double kMinInterestingSelfPercent = 1.0;
	const double kMaxInterestingSelfPercent = 99.0;

	const int64_t self = total_elapsed - total_accounted;
	const auto self_pct =
	static_cast<double>(Utils::Abs(self)) * 100 / total_elapsed;
	if (kMinInterestingSelfPercent < self_pct &&
	self_pct < kMaxInterestingSelfPercent) {
	const int64_t self_cpu =
	total.TotalElapsedTimeCpu() - total_accounted_cpu;
	const auto self_timer = Timer(self, self_cpu);
	OS::PrintErr(" (self: [%6.2f%%] %s)\n", self_pct,
	self_timer.FormatElapsedHumanReadable(zone));
	} else {
	OS::PrintErr("\n");
	}
	}

	// Sort timers by the amount of time elapsed within each one.
	Timer* by_elapsed[kNumTimers];
	for (intptr_t i = 0; i < kNumTimers; i++) {
	by_elapsed[i] = &timers->timers_[i];
	}
	qsort(by_elapsed, kNumTimers, sizeof(Timer*),
	[](const void* pa, const void* pb) -> int {
	const auto a_elapsed =
	(static_cast<Timer const*>(pa))->TotalElapsedTime();
	const auto b_elapsed =
	(static_cast<Timer const*>(pb))->TotalElapsedTime();
	return b_elapsed < a_elapsed ? -1 : b_elapsed > a_elapsed ? 1 : 0;
	});

	// Print sorted in descending order.
	for (intptr_t i = 0; i < kNumTimers; i++) {
	auto timer = by_elapsed[i];
	if (timer->TotalElapsedTime() > 0) {
	const auto timer_id = static_cast<TimerId>(timer - &timers->timers_[0]);
	const auto pct =
	static_cast<double>(timer->TotalElapsedTime()) * 100 / total_elapsed;
	// Must be int for * width specifier.
	const int indent = static_cast<int>(level * 2);

	// Note: don't emit EOL because PrintTimers can print self timing.
	OS::PrintErr(
	"%s[%6.2f%%] %-s %-10s", indent, "", pct, 60 - indent,
	timer_names[timer_id],
	Timer::FormatElapsedHumanReadable(zone, timer->TotalElapsedTime(),
	timer->TotalElapsedTimeCpu()));

	// Print nested timers if any or just emit EOL.
	if (timers->nested_[timer_id] != nullptr) {
	PrintTimers(zone, timers->nested_[timer_id], *timer, level + 1);
	} else {
	OS::PrintErr("\n");
	}
	}
	}
	}

	void CompilerTimings::Print() {
	Zone* zone = Thread::Current()->zone();

	OS::PrintErr("Precompilation took: %s\n",
	total_.FormatElapsedHumanReadable(zone));

	PrintTimers(zone, root_, total_, 0);

	OS::PrintErr("Inlining by outcome\n Success: %s\n Failure: %s\n",
	try_inlining_success_.FormatElapsedHumanReadable(zone),
	try_inlining_failure_.FormatElapsedHumanReadable(zone));
	}

	} // namespace dart