// Copyright 2012 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/counters.h" #include "src/base/platform/platform.h" #include "src/isolate.h" #include "src/log-inl.h" namespace v8 { namespace internal { StatsTable::StatsTable() : lookup_function_(NULL), create_histogram_function_(NULL), add_histogram_sample_function_(NULL) {} int* StatsCounter::FindLocationInStatsTable() const { return isolate_->stats_table()->FindLocation(name_); } void Histogram::AddSample(int sample) { if (Enabled()) { isolate()->stats_table()->AddHistogramSample(histogram_, sample); } } void* Histogram::CreateHistogram() const { return isolate()->stats_table()-> CreateHistogram(name_, min_, max_, num_buckets_); } // Start the timer. void HistogramTimer::Start() { if (Enabled()) { timer_.Start(); } Logger::CallEventLogger(isolate(), name(), Logger::START, true); } // Stop the timer and record the results. void HistogramTimer::Stop() { if (Enabled()) { int64_t sample = resolution_ == MICROSECOND ? timer_.Elapsed().InMicroseconds() : timer_.Elapsed().InMilliseconds(); // Compute the delta between start and stop, in microseconds. AddSample(static_cast<int>(sample)); timer_.Stop(); } Logger::CallEventLogger(isolate(), name(), Logger::END, true); } Counters::Counters(Isolate* isolate) { #define HR(name, caption, min, max, num_buckets) \ name##_ = Histogram(#caption, min, max, num_buckets, isolate); HISTOGRAM_RANGE_LIST(HR) #undef HR #define HT(name, caption, max, res) \ name##_ = HistogramTimer(#caption, 0, max, HistogramTimer::res, 50, isolate); HISTOGRAM_TIMER_LIST(HT) #undef HT #define AHT(name, caption) \ name##_ = AggregatableHistogramTimer(#caption, 0, 10000000, 50, isolate); AGGREGATABLE_HISTOGRAM_TIMER_LIST(AHT) #undef AHT #define HP(name, caption) \ name##_ = Histogram(#caption, 0, 101, 100, isolate); HISTOGRAM_PERCENTAGE_LIST(HP) #undef HP // Exponential histogram assigns bucket limits to points // p[1], p[2], ... p[n] such that p[i+1] / p[i] = constant. // The constant factor is equal to the n-th root of (high / low), // where the n is the number of buckets, the low is the lower limit, // the high is the upper limit. // For n = 50, low = 1000, high = 500000: the factor = 1.13. #define HM(name, caption) \ name##_ = Histogram(#caption, 1000, 500000, 50, isolate); HISTOGRAM_LEGACY_MEMORY_LIST(HM) #undef HM // For n = 100, low = 4000, high = 2000000: the factor = 1.06. #define HM(name, caption) \ name##_ = Histogram(#caption, 4000, 2000000, 100, isolate); HISTOGRAM_MEMORY_LIST(HM) #undef HM #define HM(name, caption) \ aggregated_##name##_ = AggregatedMemoryHistogram<Histogram>(&name##_); HISTOGRAM_MEMORY_LIST(HM) #undef HM #define SC(name, caption) \ name##_ = StatsCounter(isolate, "c:" #caption); STATS_COUNTER_LIST_1(SC) STATS_COUNTER_LIST_2(SC) #undef SC #define SC(name) \ count_of_##name##_ = StatsCounter(isolate, "c:" "V8.CountOf_" #name); \ size_of_##name##_ = StatsCounter(isolate, "c:" "V8.SizeOf_" #name); INSTANCE_TYPE_LIST(SC) #undef SC #define SC(name) \ count_of_CODE_TYPE_##name##_ = \ StatsCounter(isolate, "c:" "V8.CountOf_CODE_TYPE-" #name); \ size_of_CODE_TYPE_##name##_ = \ StatsCounter(isolate, "c:" "V8.SizeOf_CODE_TYPE-" #name); CODE_KIND_LIST(SC) #undef SC #define SC(name) \ count_of_FIXED_ARRAY_##name##_ = \ StatsCounter(isolate, "c:" "V8.CountOf_FIXED_ARRAY-" #name); \ size_of_FIXED_ARRAY_##name##_ = \ StatsCounter(isolate, "c:" "V8.SizeOf_FIXED_ARRAY-" #name); FIXED_ARRAY_SUB_INSTANCE_TYPE_LIST(SC) #undef SC #define SC(name) \ count_of_CODE_AGE_##name##_ = \ StatsCounter(isolate, "c:" "V8.CountOf_CODE_AGE-" #name); \ size_of_CODE_AGE_##name##_ = \ StatsCounter(isolate, "c:" "V8.SizeOf_CODE_AGE-" #name); CODE_AGE_LIST_COMPLETE(SC) #undef SC } void Counters::ResetCounters() { #define SC(name, caption) name##_.Reset(); STATS_COUNTER_LIST_1(SC) STATS_COUNTER_LIST_2(SC) #undef SC #define SC(name) \ count_of_##name##_.Reset(); \ size_of_##name##_.Reset(); INSTANCE_TYPE_LIST(SC) #undef SC #define SC(name) \ count_of_CODE_TYPE_##name##_.Reset(); \ size_of_CODE_TYPE_##name##_.Reset(); CODE_KIND_LIST(SC) #undef SC #define SC(name) \ count_of_FIXED_ARRAY_##name##_.Reset(); \ size_of_FIXED_ARRAY_##name##_.Reset(); FIXED_ARRAY_SUB_INSTANCE_TYPE_LIST(SC) #undef SC #define SC(name) \ count_of_CODE_AGE_##name##_.Reset(); \ size_of_CODE_AGE_##name##_.Reset(); CODE_AGE_LIST_COMPLETE(SC) #undef SC } void Counters::ResetHistograms() { #define HR(name, caption, min, max, num_buckets) name##_.Reset(); HISTOGRAM_RANGE_LIST(HR) #undef HR #define HT(name, caption, max, res) name##_.Reset(); HISTOGRAM_TIMER_LIST(HT) #undef HT #define AHT(name, caption) name##_.Reset(); AGGREGATABLE_HISTOGRAM_TIMER_LIST(AHT) #undef AHT #define HP(name, caption) name##_.Reset(); HISTOGRAM_PERCENTAGE_LIST(HP) #undef HP #define HM(name, caption) name##_.Reset(); HISTOGRAM_LEGACY_MEMORY_LIST(HM) #undef HM } } // namespace internal } // namespace v8