// Copyright (c) 2006-2008 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. // Test of Histogram class #include "base/histogram.h" #include "base/string_util.h" #include "base/time.h" #include "testing/gtest/include/gtest/gtest.h" using base::TimeDelta; namespace { class HistogramTest : public testing::Test { }; // Check for basic syntax and use. TEST(HistogramTest, StartupShutdownTest) { // Try basic construction scoped_refptr histogram = Histogram::FactoryGet( "TestHistogram", 1, 1000, 10, Histogram::kNoFlags); scoped_refptr histogram1 = Histogram::FactoryGet( "Test1Histogram", 1, 1000, 10, Histogram::kNoFlags); scoped_refptr linear_histogram = LinearHistogram::FactoryGet( "TestLinearHistogram", 1, 1000, 10, Histogram::kNoFlags); scoped_refptr linear_histogram1 = LinearHistogram::FactoryGet( "Test1LinearHistogram", 1, 1000, 10, Histogram::kNoFlags); // Use standard macros (but with fixed samples) HISTOGRAM_TIMES("Test2Histogram", TimeDelta::FromDays(1)); HISTOGRAM_COUNTS("Test3Histogram", 30); DHISTOGRAM_TIMES("Test4Histogram", TimeDelta::FromDays(1)); DHISTOGRAM_COUNTS("Test5Histogram", 30); HISTOGRAM_ENUMERATION("Test6Histogram", 129, 130); // Try to construct samples. Histogram::SampleSet sample1; Histogram::SampleSet sample2; // Use copy constructor of SampleSet sample1 = sample2; Histogram::SampleSet sample3(sample1); // Finally test a statistics recorder, without really using it. StatisticsRecorder recorder; } // Repeat with a recorder present to register with. TEST(HistogramTest, RecordedStartupTest) { // Test a statistics recorder, by letting histograms register. StatisticsRecorder recorder; // This initializes the global state. StatisticsRecorder::Histograms histograms; EXPECT_EQ(0U, histograms.size()); StatisticsRecorder::GetHistograms(&histograms); // Load up lists EXPECT_EQ(0U, histograms.size()); // Try basic construction scoped_refptr histogram = Histogram::FactoryGet( "TestHistogram", 1, 1000, 10, Histogram::kNoFlags); histograms.clear(); StatisticsRecorder::GetHistograms(&histograms); // Load up lists EXPECT_EQ(1U, histograms.size()); scoped_refptr histogram1 = Histogram::FactoryGet( "Test1Histogram", 1, 1000, 10, Histogram::kNoFlags); histograms.clear(); StatisticsRecorder::GetHistograms(&histograms); // Load up lists EXPECT_EQ(2U, histograms.size()); scoped_refptr linear_histogram = LinearHistogram::FactoryGet( "TestLinearHistogram", 1, 1000, 10, Histogram::kNoFlags); scoped_refptr linear_histogram1 = LinearHistogram::FactoryGet( "Test1LinearHistogram", 1, 1000, 10, Histogram::kNoFlags); histograms.clear(); StatisticsRecorder::GetHistograms(&histograms); // Load up lists EXPECT_EQ(4U, histograms.size()); // Use standard macros (but with fixed samples) HISTOGRAM_TIMES("Test2Histogram", TimeDelta::FromDays(1)); HISTOGRAM_COUNTS("Test3Histogram", 30); histograms.clear(); StatisticsRecorder::GetHistograms(&histograms); // Load up lists EXPECT_EQ(6U, histograms.size()); HISTOGRAM_ENUMERATION("TestEnumerationHistogram", 20, 200); histograms.clear(); StatisticsRecorder::GetHistograms(&histograms); // Load up lists EXPECT_EQ(7U, histograms.size()); DHISTOGRAM_TIMES("Test4Histogram", TimeDelta::FromDays(1)); DHISTOGRAM_COUNTS("Test5Histogram", 30); histograms.clear(); StatisticsRecorder::GetHistograms(&histograms); // Load up lists #ifndef NDEBUG EXPECT_EQ(9U, histograms.size()); #else EXPECT_EQ(7U, histograms.size()); #endif } TEST(HistogramTest, RangeTest) { StatisticsRecorder recorder; StatisticsRecorder::Histograms histograms; recorder.GetHistograms(&histograms); EXPECT_EQ(0U, histograms.size()); scoped_refptr histogram = Histogram::FactoryGet( "Histogram", 1, 64, 8, Histogram::kNoFlags); // As per header file. // Check that we got a nice exponential when there was enough rooom. EXPECT_EQ(0, histogram->ranges(0)); int power_of_2 = 1; for (int i = 1; i < 8; i++) { EXPECT_EQ(power_of_2, histogram->ranges(i)); power_of_2 *= 2; } EXPECT_EQ(INT_MAX, histogram->ranges(8)); scoped_refptr short_histogram = Histogram::FactoryGet( "Histogram Shortened", 1, 7, 8, Histogram::kNoFlags); // Check that when the number of buckets is short, we get a linear histogram // for lack of space to do otherwise. for (int i = 0; i < 8; i++) EXPECT_EQ(i, short_histogram->ranges(i)); EXPECT_EQ(INT_MAX, short_histogram->ranges(8)); scoped_refptr linear_histogram = LinearHistogram::FactoryGet( "Linear", 1, 7, 8, Histogram::kNoFlags); // We also get a nice linear set of bucket ranges when we ask for it for (int i = 0; i < 8; i++) EXPECT_EQ(i, linear_histogram->ranges(i)); EXPECT_EQ(INT_MAX, linear_histogram->ranges(8)); scoped_refptr linear_broad_histogram = LinearHistogram::FactoryGet( "Linear widened", 2, 14, 8, Histogram::kNoFlags); // ...but when the list has more space, then the ranges naturally spread out. for (int i = 0; i < 8; i++) EXPECT_EQ(2 * i, linear_broad_histogram->ranges(i)); EXPECT_EQ(INT_MAX, linear_broad_histogram->ranges(8)); scoped_refptr transitioning_histogram = Histogram::FactoryGet("LinearAndExponential", 1, 32, 15, Histogram::kNoFlags); // When space is a little tight, we transition from linear to exponential. EXPECT_EQ(0, transitioning_histogram->ranges(0)); EXPECT_EQ(1, transitioning_histogram->ranges(1)); EXPECT_EQ(2, transitioning_histogram->ranges(2)); EXPECT_EQ(3, transitioning_histogram->ranges(3)); EXPECT_EQ(4, transitioning_histogram->ranges(4)); EXPECT_EQ(5, transitioning_histogram->ranges(5)); EXPECT_EQ(6, transitioning_histogram->ranges(6)); EXPECT_EQ(7, transitioning_histogram->ranges(7)); EXPECT_EQ(9, transitioning_histogram->ranges(8)); EXPECT_EQ(11, transitioning_histogram->ranges(9)); EXPECT_EQ(14, transitioning_histogram->ranges(10)); EXPECT_EQ(17, transitioning_histogram->ranges(11)); EXPECT_EQ(21, transitioning_histogram->ranges(12)); EXPECT_EQ(26, transitioning_histogram->ranges(13)); EXPECT_EQ(32, transitioning_histogram->ranges(14)); EXPECT_EQ(INT_MAX, transitioning_histogram->ranges(15)); recorder.GetHistograms(&histograms); EXPECT_EQ(5U, histograms.size()); } // Make sure histogram handles out-of-bounds data gracefully. TEST(HistogramTest, BoundsTest) { const size_t kBucketCount = 50; scoped_refptr histogram = Histogram::FactoryGet( "Bounded", 10, 100, kBucketCount, Histogram::kNoFlags); // Put two samples "out of bounds" above and below. histogram->Add(5); histogram->Add(-50); histogram->Add(100); histogram->Add(10000); // Verify they landed in the underflow, and overflow buckets. Histogram::SampleSet sample; histogram->SnapshotSample(&sample); EXPECT_EQ(2, sample.counts(0)); EXPECT_EQ(0, sample.counts(1)); size_t array_size = histogram->bucket_count(); EXPECT_EQ(kBucketCount, array_size); EXPECT_EQ(0, sample.counts(array_size - 2)); EXPECT_EQ(2, sample.counts(array_size - 1)); } // Check to be sure samples land as expected is "correct" buckets. TEST(HistogramTest, BucketPlacementTest) { scoped_refptr histogram = Histogram::FactoryGet( "Histogram", 1, 64, 8, Histogram::kNoFlags); // As per header file. // Check that we got a nice exponential since there was enough rooom. EXPECT_EQ(0, histogram->ranges(0)); int power_of_2 = 1; for (int i = 1; i < 8; i++) { EXPECT_EQ(power_of_2, histogram->ranges(i)); power_of_2 *= 2; } EXPECT_EQ(INT_MAX, histogram->ranges(8)); // Add i+1 samples to the i'th bucket. histogram->Add(0); power_of_2 = 1; for (int i = 1; i < 8; i++) { for (int j = 0; j <= i; j++) histogram->Add(power_of_2); power_of_2 *= 2; } // Leave overflow bucket empty. // Check to see that the bucket counts reflect our additions. Histogram::SampleSet sample; histogram->SnapshotSample(&sample); EXPECT_EQ(INT_MAX, histogram->ranges(8)); for (int i = 0; i < 8; i++) EXPECT_EQ(i + 1, sample.counts(i)); } } // namespace