blob: 7aa5f9037fd4d2ef5494a628671c89e4a3378538 [file] [log] [blame] [edit]
/*
* Copyright (C) 2013 The Android Open Source Project
*
* Licensed under the Apache License, Version 2.0 (the "License");
* you may not use this file except in compliance with the License.
* You may obtain a copy of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS,
* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
* See the License for the specific language governing permissions and
* limitations under the License.
*/
#include <memory>
#include <sstream>
#include "gtest/gtest.h"
#include "histogram-inl.h"
namespace art {
// Simple usage:
// Histogram *hist(new Histogram("SimplePercentiles"));
// Percentile PerValue
// hist->AddValue(121);
// hist->AddValue(132);
// hist->AddValue(140);
// hist->AddValue(145);
// hist->AddValue(155);
// hist->CreateHistogram();
// PerValue = hist->PercentileVal(0.50); finds the 50th percentile(median).
TEST(Histtest, MeanTest) {
std::unique_ptr<Histogram<uint64_t>> hist(new Histogram<uint64_t>("MeanTest", 5));
double mean;
for (size_t Idx = 0; Idx < 90; Idx++) {
hist->AddValue(static_cast<uint64_t>(50));
}
mean = hist->Mean();
EXPECT_DOUBLE_EQ(mean, 50.0);
hist->Reset();
hist->AddValue(9);
hist->AddValue(17);
hist->AddValue(28);
hist->AddValue(28);
mean = hist->Mean();
EXPECT_DOUBLE_EQ(20.5, mean);
}
TEST(Histtest, VarianceTest) {
std::unique_ptr<Histogram<uint64_t>> hist(new Histogram<uint64_t>("VarianceTest", 5));
double variance;
hist->AddValue(9);
hist->AddValue(17);
hist->AddValue(28);
hist->AddValue(28);
variance = hist->Variance();
EXPECT_DOUBLE_EQ(64.25, variance);
}
TEST(Histtest, Percentile) {
std::unique_ptr<Histogram<uint64_t>> hist(new Histogram<uint64_t>("Percentile", 5));
Histogram<uint64_t>::CumulativeData data;
double PerValue;
hist->AddValue(20);
hist->AddValue(31);
hist->AddValue(42);
hist->AddValue(50);
hist->AddValue(60);
hist->AddValue(70);
hist->AddValue(98);
hist->AddValue(110);
hist->AddValue(121);
hist->AddValue(132);
hist->AddValue(140);
hist->AddValue(145);
hist->AddValue(155);
hist->CreateHistogram(&data);
PerValue = hist->Percentile(0.50, data);
EXPECT_EQ(875, static_cast<int>(PerValue * 10));
}
TEST(Histtest, UpdateRange) {
std::unique_ptr<Histogram<uint64_t>> hist(new Histogram<uint64_t>("UpdateRange", 5));
Histogram<uint64_t>::CumulativeData data;
double PerValue;
hist->AddValue(15);
hist->AddValue(17);
hist->AddValue(35);
hist->AddValue(50);
hist->AddValue(68);
hist->AddValue(75);
hist->AddValue(93);
hist->AddValue(110);
hist->AddValue(121);
hist->AddValue(132);
hist->AddValue(140); // Median value
hist->AddValue(145);
hist->AddValue(155);
hist->AddValue(163);
hist->AddValue(168);
hist->AddValue(175);
hist->AddValue(182);
hist->AddValue(193);
hist->AddValue(200);
hist->AddValue(205);
hist->AddValue(212);
hist->CreateHistogram(&data);
PerValue = hist->Percentile(0.50, data);
std::string text;
std::stringstream stream;
std::string expected("UpdateRange:\tSum: 2.654ms 99% C.I. 15us-212us Avg: 126.380us Max: 212us\n");
hist->PrintConfidenceIntervals(stream, 0.99, data);
EXPECT_EQ(expected, stream.str());
EXPECT_GE(PerValue, 132);
EXPECT_LE(PerValue, 145);
}
TEST(Histtest, Reset) {
std::unique_ptr<Histogram<uint64_t>> hist(new Histogram<uint64_t>("Reset", 5));
double PerValue;
hist->AddValue(0);
hist->AddValue(189);
hist->AddValue(389);
hist->Reset();
hist->AddValue(15);
hist->AddValue(17);
hist->AddValue(35);
hist->AddValue(50);
hist->AddValue(68);
hist->AddValue(75);
hist->AddValue(93);
hist->AddValue(110);
hist->AddValue(121);
hist->AddValue(132);
hist->AddValue(140); // Median value
hist->AddValue(145);
hist->AddValue(155);
hist->AddValue(163);
hist->AddValue(168);
hist->AddValue(175);
hist->AddValue(182);
hist->AddValue(193);
hist->AddValue(200);
hist->AddValue(205);
hist->AddValue(212);
Histogram<uint64_t>::CumulativeData data;
hist->CreateHistogram(&data);
PerValue = hist->Percentile(0.50, data);
std::string text;
std::stringstream stream;
std::string expected("Reset:\tSum: 2.654ms 99% C.I. 15us-212us Avg: 126.380us Max: 212us\n");
hist->PrintConfidenceIntervals(stream, 0.99, data);
EXPECT_EQ(expected, stream.str());
EXPECT_GE(PerValue, 132);
EXPECT_LE(PerValue, 145);
}
TEST(Histtest, MultipleCreateHist) {
std::unique_ptr<Histogram<uint64_t>> hist(new Histogram<uint64_t>("MultipleCreateHist", 5));
Histogram<uint64_t>::CumulativeData data;
double PerValue;
hist->AddValue(15);
hist->AddValue(17);
hist->AddValue(35);
hist->AddValue(50);
hist->AddValue(68);
hist->AddValue(75);
hist->AddValue(93);
hist->CreateHistogram(&data);
hist->AddValue(110);
hist->AddValue(121);
hist->AddValue(132);
hist->AddValue(140); // Median value
hist->AddValue(145);
hist->AddValue(155);
hist->AddValue(163);
hist->AddValue(168);
hist->CreateHistogram(&data);
hist->AddValue(175);
hist->AddValue(182);
hist->AddValue(193);
hist->AddValue(200);
hist->AddValue(205);
hist->AddValue(212);
hist->CreateHistogram(&data);
PerValue = hist->Percentile(0.50, data);
std::stringstream stream;
std::string expected("MultipleCreateHist:\tSum: 2.654ms 99% C.I. 15us-212us Avg: 126.380us Max: 212us\n");
hist->PrintConfidenceIntervals(stream, 0.99, data);
EXPECT_EQ(expected, stream.str());
EXPECT_GE(PerValue, 132);
EXPECT_LE(PerValue, 145);
}
TEST(Histtest, SingleValue) {
std::unique_ptr<Histogram<uint64_t>> hist(new Histogram<uint64_t>("SingleValue", 5));
Histogram<uint64_t>::CumulativeData data;
hist->AddValue(1);
hist->CreateHistogram(&data);
std::stringstream stream;
std::string expected = "SingleValue:\tSum: 1us 99% C.I. 1us-1us Avg: 1us Max: 1us\n";
hist->PrintConfidenceIntervals(stream, 0.99, data);
EXPECT_EQ(expected, stream.str());
}
TEST(Histtest, CappingPercentiles) {
std::unique_ptr<Histogram<uint64_t>> hist(new Histogram<uint64_t>("CappingPercentiles", 5));
Histogram<uint64_t>::CumulativeData data;
double per_995;
double per_005;
// All values are similar.
for (uint64_t idx = 0ull; idx < 150ull; idx++) {
hist->AddValue(0);
}
hist->CreateHistogram(&data);
per_995 = hist->Percentile(0.995, data);
EXPECT_DOUBLE_EQ(per_995, 0.0);
hist->Reset();
for (size_t idx = 0; idx < 200; idx++) {
for (uint64_t val = 1ull; val <= 4ull; val++) {
hist->AddValue(val);
}
}
hist->CreateHistogram(&data);
per_005 = hist->Percentile(0.005, data);
per_995 = hist->Percentile(0.995, data);
EXPECT_DOUBLE_EQ(1.0, per_005);
EXPECT_DOUBLE_EQ(4.0, per_995);
}
TEST(Histtest, SpikyValues) {
std::unique_ptr<Histogram<uint64_t>> hist(new Histogram<uint64_t>("SpikyValues", 5, 4096));
Histogram<uint64_t>::CumulativeData data;
for (uint64_t idx = 0ull; idx < 30ull; idx++) {
for (uint64_t idx_inner = 0ull; idx_inner < 5ull; idx_inner++) {
hist->AddValue(idx * idx_inner);
}
}
hist->AddValue(10000);
hist->CreateHistogram(&data);
std::stringstream stream;
std::string expected = "SpikyValues:\tSum: 14.350ms 99% C.I. 0.089us-2541.825us Avg: 95.033us Max: 10000us\n";
hist->PrintConfidenceIntervals(stream, 0.99, data);
EXPECT_EQ(expected, stream.str());
}
} // namespace art