// Copyright 2016 The Chromium Authors // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "base/metrics/histogram_functions.h" #include "base/metrics/histogram_macros.h" #include "base/test/metrics/histogram_tester.h" #include "base/time/time.h" #include "testing/gmock/include/gmock/gmock.h" #include "testing/gtest/include/gtest/gtest.h" namespace base { enum UmaHistogramTestingEnum { UMA_HISTOGRAM_TESTING_ENUM_FIRST, UMA_HISTOGRAM_TESTING_ENUM_SECOND, UMA_HISTOGRAM_TESTING_ENUM_THIRD }; TEST(HistogramFunctionsTest, ExactLinear) { std::string histogram("Testing.UMA.HistogramExactLinear"); HistogramTester tester; UmaHistogramExactLinear(histogram, 10, 100); tester.ExpectUniqueSample(histogram, 10, 1); UmaHistogramExactLinear(histogram, 20, 100); UmaHistogramExactLinear(histogram, 10, 100); tester.ExpectBucketCount(histogram, 10, 2); tester.ExpectBucketCount(histogram, 20, 1); tester.ExpectTotalCount(histogram, 3); // Test linear buckets overflow. UmaHistogramExactLinear(histogram, 200, 100); tester.ExpectBucketCount(histogram, 101, 1); tester.ExpectTotalCount(histogram, 4); // Test linear buckets underflow. UmaHistogramExactLinear(histogram, 0, 100); tester.ExpectBucketCount(histogram, 0, 1); tester.ExpectTotalCount(histogram, 5); } TEST(HistogramFunctionsTest, Enumeration) { std::string histogram("Testing.UMA.HistogramEnumeration"); HistogramTester tester; UmaHistogramEnumeration(histogram, UMA_HISTOGRAM_TESTING_ENUM_FIRST, UMA_HISTOGRAM_TESTING_ENUM_THIRD); tester.ExpectUniqueSample(histogram, UMA_HISTOGRAM_TESTING_ENUM_FIRST, 1); // Verify the overflow & underflow bucket exists. UMA_HISTOGRAM_ENUMERATION( histogram, static_cast(UMA_HISTOGRAM_TESTING_ENUM_THIRD) + 10, static_cast(UMA_HISTOGRAM_TESTING_ENUM_THIRD)); tester.ExpectBucketCount( histogram, static_cast(UMA_HISTOGRAM_TESTING_ENUM_THIRD) + 1, 1); tester.ExpectTotalCount(histogram, 2); } TEST(HistogramFunctionsTest, Boolean) { std::string histogram("Testing.UMA.HistogramBoolean"); HistogramTester tester; UmaHistogramBoolean(histogram, true); tester.ExpectUniqueSample(histogram, 1, 1); UmaHistogramBoolean(histogram, false); tester.ExpectBucketCount(histogram, 0, 1); tester.ExpectTotalCount(histogram, 2); } TEST(HistogramFunctionsTest, Percentage) { std::string histogram("Testing.UMA.HistogramPercentage"); HistogramTester tester; UmaHistogramPercentage(histogram, 1); tester.ExpectBucketCount(histogram, 1, 1); tester.ExpectTotalCount(histogram, 1); UmaHistogramPercentage(histogram, 50); tester.ExpectBucketCount(histogram, 50, 1); tester.ExpectTotalCount(histogram, 2); UmaHistogramPercentage(histogram, 100); tester.ExpectBucketCount(histogram, 100, 1); tester.ExpectTotalCount(histogram, 3); // Test overflows. UmaHistogramPercentage(histogram, 101); tester.ExpectBucketCount(histogram, 101, 1); tester.ExpectTotalCount(histogram, 4); UmaHistogramPercentage(histogram, 500); tester.ExpectBucketCount(histogram, 101, 2); tester.ExpectTotalCount(histogram, 5); } TEST(HistogramFunctionsTest, Counts) { std::string histogram("Testing.UMA.HistogramCount.Custom"); HistogramTester tester; // Add a sample that should go into the underflow bucket. UmaHistogramCustomCounts(histogram, 0, 1, 100, 10); // Add a sample that should go into the first bucket. UmaHistogramCustomCounts(histogram, 1, 1, 100, 10); // Add multiple samples that should go into the same bucket. UmaHistogramCustomCounts(histogram, 20, 1, 100, 10); UmaHistogramCustomCounts(histogram, 20, 1, 100, 10); UmaHistogramCustomCounts(histogram, 21, 1, 100, 10); // Add a sample that should go into the last bucket. UmaHistogramCustomCounts(histogram, 99, 1, 100, 10); // Add some samples that should go into the overflow bucket. UmaHistogramCustomCounts(histogram, 100, 1, 100, 10); UmaHistogramCustomCounts(histogram, 101, 1, 100, 10); // Verify the number of samples. tester.ExpectTotalCount(histogram, 8); // Verify the following: // (a) The underflow bucket [0, 1) contains one sample. // (b) The first and last buckets each contain one sample. // (c) The bucket for values in [16, 29) contains three samples. // (d) The overflow bucket contains two samples. EXPECT_THAT(tester.GetAllSamples(histogram), testing::ElementsAre(Bucket(0, 1), Bucket(1, 1), Bucket(16, 3), Bucket(54, 1), Bucket(100, 2))); } TEST(HistogramFunctionsTest, Times) { std::string histogram("Testing.UMA.HistogramTimes"); HistogramTester tester; UmaHistogramTimes(histogram, Seconds(1)); tester.ExpectTimeBucketCount(histogram, Seconds(1), 1); tester.ExpectTotalCount(histogram, 1); UmaHistogramTimes(histogram, Seconds(9)); tester.ExpectTimeBucketCount(histogram, Seconds(9), 1); tester.ExpectTotalCount(histogram, 2); UmaHistogramTimes(histogram, Seconds(10)); // Overflows tester.ExpectTimeBucketCount(histogram, Seconds(10), 1); UmaHistogramTimes(histogram, Seconds(20)); // Overflows. // Check the value by picking any overflow time. tester.ExpectTimeBucketCount(histogram, Seconds(11), 2); tester.ExpectTotalCount(histogram, 4); } TEST(HistogramFunctionsTest, Sparse_SupportsLargeRange) { std::string histogram("Testing.UMA.HistogramSparse"); HistogramTester tester; UmaHistogramSparse(histogram, 0); UmaHistogramSparse(histogram, 123456789); UmaHistogramSparse(histogram, 123456789); EXPECT_THAT(tester.GetAllSamples(histogram), testing::ElementsAre(Bucket(0, 1), Bucket(123456789, 2))); } TEST(HistogramFunctionsTest, Sparse_SupportsNegativeValues) { std::string histogram("Testing.UMA.HistogramSparse"); HistogramTester tester; UmaHistogramSparse(histogram, -1); tester.ExpectUniqueSample(histogram, -1, 1); } } // namespace base.