f18d56d130
BUG=v8:5614 Review-Url: https://codereview.chromium.org/2496913002 Cr-Commit-Position: refs/heads/master@{#40931}
299 lines
11 KiB
C++
299 lines
11 KiB
C++
// Copyright 2014 the V8 project authors. All rights reserved.
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// Use of this source code is governed by a BSD-style license that can be
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// found in the LICENSE file.
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#include <cmath>
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#include <limits>
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#include "src/globals.h"
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#include "src/heap/gc-tracer.h"
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#include "src/isolate.h"
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#include "test/unittests/test-utils.h"
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#include "testing/gtest/include/gtest/gtest.h"
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namespace v8 {
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namespace internal {
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typedef TestWithContext GCTracerTest;
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TEST(GCTracer, AverageSpeed) {
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base::RingBuffer<BytesAndDuration> buffer;
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EXPECT_EQ(100 / 2,
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GCTracer::AverageSpeed(buffer, MakeBytesAndDuration(100, 2), 0));
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buffer.Push(MakeBytesAndDuration(100, 8));
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EXPECT_EQ(100 / 2,
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GCTracer::AverageSpeed(buffer, MakeBytesAndDuration(100, 2), 2));
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EXPECT_EQ(200 / 10,
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GCTracer::AverageSpeed(buffer, MakeBytesAndDuration(100, 2), 3));
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const int max_speed = 1024 * MB;
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buffer.Reset();
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buffer.Push(MakeBytesAndDuration(max_speed, 0.5));
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EXPECT_EQ(max_speed,
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GCTracer::AverageSpeed(buffer, MakeBytesAndDuration(0, 0), 1));
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const int min_speed = 1;
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buffer.Reset();
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buffer.Push(MakeBytesAndDuration(1, 10000));
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EXPECT_EQ(min_speed,
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GCTracer::AverageSpeed(buffer, MakeBytesAndDuration(0, 0), 1));
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buffer.Reset();
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int sum = 0;
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for (int i = 0; i < buffer.kSize; i++) {
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sum += i + 1;
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buffer.Push(MakeBytesAndDuration(i + 1, 1));
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}
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EXPECT_EQ(
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sum * 1.0 / buffer.kSize,
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GCTracer::AverageSpeed(buffer, MakeBytesAndDuration(0, 0), buffer.kSize));
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buffer.Push(MakeBytesAndDuration(100, 1));
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EXPECT_EQ(
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(sum * 1.0 - 1 + 100) / buffer.kSize,
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GCTracer::AverageSpeed(buffer, MakeBytesAndDuration(0, 0), buffer.kSize));
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}
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namespace {
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void SampleAndAddAllocaton(v8::internal::GCTracer* tracer, double time_ms,
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size_t new_space_counter_bytes,
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size_t old_generation_counter_bytes) {
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tracer->SampleAllocation(time_ms, new_space_counter_bytes,
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old_generation_counter_bytes);
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tracer->AddAllocation(time_ms);
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}
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} // namespace
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TEST_F(GCTracerTest, AllocationThroughput) {
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GCTracer* tracer = i_isolate()->heap()->tracer();
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tracer->ResetForTesting();
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int time1 = 100;
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size_t counter1 = 1000;
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// First sample creates baseline but is not part of the recorded samples.
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tracer->SampleAllocation(time1, counter1, counter1);
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SampleAndAddAllocaton(tracer, time1, counter1, counter1);
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int time2 = 200;
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size_t counter2 = 2000;
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SampleAndAddAllocaton(tracer, time2, counter2, counter2);
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// Will only consider the current sample.
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size_t throughput = static_cast<size_t>(
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tracer->AllocationThroughputInBytesPerMillisecond(100));
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EXPECT_EQ(2 * (counter2 - counter1) / (time2 - time1), throughput);
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int time3 = 1000;
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size_t counter3 = 30000;
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SampleAndAddAllocaton(tracer, time3, counter3, counter3);
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// Considers last 2 samples.
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throughput = tracer->AllocationThroughputInBytesPerMillisecond(801);
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EXPECT_EQ(2 * (counter3 - counter1) / (time3 - time1), throughput);
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}
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TEST_F(GCTracerTest, NewSpaceAllocationThroughput) {
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GCTracer* tracer = i_isolate()->heap()->tracer();
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tracer->ResetForTesting();
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int time1 = 100;
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size_t counter1 = 1000;
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SampleAndAddAllocaton(tracer, time1, counter1, 0);
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int time2 = 200;
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size_t counter2 = 2000;
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SampleAndAddAllocaton(tracer, time2, counter2, 0);
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size_t throughput =
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tracer->NewSpaceAllocationThroughputInBytesPerMillisecond();
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EXPECT_EQ((counter2 - counter1) / (time2 - time1), throughput);
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int time3 = 1000;
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size_t counter3 = 30000;
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SampleAndAddAllocaton(tracer, time3, counter3, 0);
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throughput = tracer->NewSpaceAllocationThroughputInBytesPerMillisecond();
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EXPECT_EQ((counter3 - counter1) / (time3 - time1), throughput);
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}
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TEST_F(GCTracerTest, NewSpaceAllocationThroughputWithProvidedTime) {
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GCTracer* tracer = i_isolate()->heap()->tracer();
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tracer->ResetForTesting();
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int time1 = 100;
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size_t counter1 = 1000;
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// First sample creates baseline but is not part of the recorded samples.
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SampleAndAddAllocaton(tracer, time1, counter1, 0);
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int time2 = 200;
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size_t counter2 = 2000;
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SampleAndAddAllocaton(tracer, time2, counter2, 0);
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// Will only consider the current sample.
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size_t throughput =
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tracer->NewSpaceAllocationThroughputInBytesPerMillisecond(100);
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EXPECT_EQ((counter2 - counter1) / (time2 - time1), throughput);
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int time3 = 1000;
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size_t counter3 = 30000;
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SampleAndAddAllocaton(tracer, time3, counter3, 0);
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// Considers last 2 samples.
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throughput = tracer->NewSpaceAllocationThroughputInBytesPerMillisecond(801);
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EXPECT_EQ((counter3 - counter1) / (time3 - time1), throughput);
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}
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TEST_F(GCTracerTest, OldGenerationAllocationThroughputWithProvidedTime) {
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GCTracer* tracer = i_isolate()->heap()->tracer();
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tracer->ResetForTesting();
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int time1 = 100;
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size_t counter1 = 1000;
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// First sample creates baseline but is not part of the recorded samples.
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SampleAndAddAllocaton(tracer, time1, 0, counter1);
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int time2 = 200;
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size_t counter2 = 2000;
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SampleAndAddAllocaton(tracer, time2, 0, counter2);
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// Will only consider the current sample.
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size_t throughput = static_cast<size_t>(
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tracer->OldGenerationAllocationThroughputInBytesPerMillisecond(100));
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EXPECT_EQ((counter2 - counter1) / (time2 - time1), throughput);
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int time3 = 1000;
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size_t counter3 = 30000;
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SampleAndAddAllocaton(tracer, time3, 0, counter3);
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// Considers last 2 samples.
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throughput = static_cast<size_t>(
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tracer->OldGenerationAllocationThroughputInBytesPerMillisecond(801));
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EXPECT_EQ((counter3 - counter1) / (time3 - time1), throughput);
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}
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TEST_F(GCTracerTest, RegularScope) {
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GCTracer* tracer = i_isolate()->heap()->tracer();
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tracer->ResetForTesting();
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EXPECT_DOUBLE_EQ(0.0, tracer->current_.scopes[GCTracer::Scope::MC_MARK]);
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// Sample not added because it's not within a started tracer.
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tracer->AddScopeSample(GCTracer::Scope::MC_MARK, 100);
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tracer->Start(MARK_COMPACTOR, GarbageCollectionReason::kTesting,
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"collector unittest");
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tracer->AddScopeSample(GCTracer::Scope::MC_MARK, 100);
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tracer->Stop(MARK_COMPACTOR);
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EXPECT_DOUBLE_EQ(100.0, tracer->current_.scopes[GCTracer::Scope::MC_MARK]);
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}
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TEST_F(GCTracerTest, IncrementalScope) {
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GCTracer* tracer = i_isolate()->heap()->tracer();
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tracer->ResetForTesting();
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EXPECT_DOUBLE_EQ(
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0.0, tracer->current_.scopes[GCTracer::Scope::MC_INCREMENTAL_FINALIZE]);
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// Sample is added because its ScopeId is listed as incremental sample.
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tracer->AddScopeSample(GCTracer::Scope::MC_INCREMENTAL_FINALIZE, 100);
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tracer->Start(MARK_COMPACTOR, GarbageCollectionReason::kTesting,
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"collector unittest");
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// Switch to incremental MC to enable writing back incremental scopes.
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tracer->current_.type = GCTracer::Event::INCREMENTAL_MARK_COMPACTOR;
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tracer->AddScopeSample(GCTracer::Scope::MC_INCREMENTAL_FINALIZE, 100);
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tracer->Stop(MARK_COMPACTOR);
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EXPECT_DOUBLE_EQ(
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200.0, tracer->current_.scopes[GCTracer::Scope::MC_INCREMENTAL_FINALIZE]);
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}
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TEST_F(GCTracerTest, IncrementalMarkingDetails) {
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GCTracer* tracer = i_isolate()->heap()->tracer();
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tracer->ResetForTesting();
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// Round 1.
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tracer->AddScopeSample(GCTracer::Scope::MC_INCREMENTAL_FINALIZE, 50);
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// Scavenger has no impact on incremental marking details.
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tracer->Start(SCAVENGER, GarbageCollectionReason::kTesting,
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"collector unittest");
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tracer->Stop(SCAVENGER);
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tracer->Start(MARK_COMPACTOR, GarbageCollectionReason::kTesting,
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"collector unittest");
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// Switch to incremental MC to enable writing back incremental scopes.
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tracer->current_.type = GCTracer::Event::INCREMENTAL_MARK_COMPACTOR;
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tracer->AddScopeSample(GCTracer::Scope::MC_INCREMENTAL_FINALIZE, 100);
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tracer->Stop(MARK_COMPACTOR);
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EXPECT_DOUBLE_EQ(
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100,
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tracer->current_
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.incremental_marking_scopes[GCTracer::Scope::MC_INCREMENTAL_FINALIZE]
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.longest_step);
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EXPECT_EQ(
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2,
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tracer->current_
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.incremental_marking_scopes[GCTracer::Scope::MC_INCREMENTAL_FINALIZE]
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.steps);
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EXPECT_DOUBLE_EQ(
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150,
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tracer->current_
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.incremental_marking_scopes[GCTracer::Scope::MC_INCREMENTAL_FINALIZE]
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.duration);
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// Round 2. Numbers should be reset.
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tracer->AddScopeSample(GCTracer::Scope::MC_INCREMENTAL_FINALIZE, 13);
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tracer->AddScopeSample(GCTracer::Scope::MC_INCREMENTAL_FINALIZE, 15);
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tracer->Start(MARK_COMPACTOR, GarbageCollectionReason::kTesting,
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"collector unittest");
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// Switch to incremental MC to enable writing back incremental scopes.
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tracer->current_.type = GCTracer::Event::INCREMENTAL_MARK_COMPACTOR;
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tracer->AddScopeSample(GCTracer::Scope::MC_INCREMENTAL_FINALIZE, 122);
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tracer->Stop(MARK_COMPACTOR);
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EXPECT_DOUBLE_EQ(
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122,
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tracer->current_
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.incremental_marking_scopes[GCTracer::Scope::MC_INCREMENTAL_FINALIZE]
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.longest_step);
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EXPECT_EQ(
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3,
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tracer->current_
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.incremental_marking_scopes[GCTracer::Scope::MC_INCREMENTAL_FINALIZE]
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.steps);
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EXPECT_DOUBLE_EQ(
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150,
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tracer->current_
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.incremental_marking_scopes[GCTracer::Scope::MC_INCREMENTAL_FINALIZE]
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.duration);
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}
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TEST_F(GCTracerTest, IncrementalMarkingSpeed) {
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GCTracer* tracer = i_isolate()->heap()->tracer();
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tracer->ResetForTesting();
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// Round 1.
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// 1000000 bytes in 100ms.
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tracer->AddIncrementalMarkingStep(100, 1000000);
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EXPECT_EQ(1000000 / 100,
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tracer->IncrementalMarkingSpeedInBytesPerMillisecond());
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// 1000000 bytes in 100ms.
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tracer->AddIncrementalMarkingStep(100, 1000000);
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EXPECT_EQ(1000000 / 100,
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tracer->IncrementalMarkingSpeedInBytesPerMillisecond());
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// Scavenger has no impact on incremental marking details.
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tracer->Start(SCAVENGER, GarbageCollectionReason::kTesting,
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"collector unittest");
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tracer->Stop(SCAVENGER);
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// 1000000 bytes in 100ms.
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tracer->AddIncrementalMarkingStep(100, 1000000);
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EXPECT_EQ(300, tracer->incremental_marking_duration_);
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EXPECT_EQ(3000000u, tracer->incremental_marking_bytes_);
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EXPECT_EQ(1000000 / 100,
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tracer->IncrementalMarkingSpeedInBytesPerMillisecond());
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tracer->Start(MARK_COMPACTOR, GarbageCollectionReason::kTesting,
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"collector unittest");
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// Switch to incremental MC.
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tracer->current_.type = GCTracer::Event::INCREMENTAL_MARK_COMPACTOR;
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// 1000000 bytes in 100ms.
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tracer->AddIncrementalMarkingStep(100, 1000000);
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EXPECT_EQ(400, tracer->incremental_marking_duration_);
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EXPECT_EQ(4000000u, tracer->incremental_marking_bytes_);
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tracer->Stop(MARK_COMPACTOR);
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EXPECT_EQ(400, tracer->current_.incremental_marking_duration);
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EXPECT_EQ(4000000u, tracer->current_.incremental_marking_bytes);
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EXPECT_EQ(0, tracer->incremental_marking_duration_);
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EXPECT_EQ(0u, tracer->incremental_marking_bytes_);
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EXPECT_EQ(1000000 / 100,
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tracer->IncrementalMarkingSpeedInBytesPerMillisecond());
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// Round 2.
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tracer->AddIncrementalMarkingStep(2000, 1000);
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tracer->Start(MARK_COMPACTOR, GarbageCollectionReason::kTesting,
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"collector unittest");
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// Switch to incremental MC.
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tracer->current_.type = GCTracer::Event::INCREMENTAL_MARK_COMPACTOR;
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tracer->Stop(MARK_COMPACTOR);
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EXPECT_DOUBLE_EQ((4000000.0 / 400 + 1000.0 / 2000) / 2,
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static_cast<double>(
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tracer->IncrementalMarkingSpeedInBytesPerMillisecond()));
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}
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} // namespace internal
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} // namespace v8
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