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580 lines
18 KiB
C++
580 lines
18 KiB
C++
/*
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* Copyright 2012-present Facebook, Inc.
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*
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* Licensed under the Apache License, Version 2.0 (the "License");
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* you may not use this file except in compliance with the License.
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* You may obtain a copy of the License at
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*
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* http://www.apache.org/licenses/LICENSE-2.0
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*
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* Unless required by applicable law or agreed to in writing, software
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* distributed under the License is distributed on an "AS IS" BASIS,
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* WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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* See the License for the specific language governing permissions and
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* limitations under the License.
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*/
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#pragma once
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#include <folly/Portability.h>
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#include <folly/Preprocessor.h> // for FB_ANONYMOUS_VARIABLE
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#include <folly/ScopeGuard.h>
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#include <folly/Traits.h>
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#include <folly/functional/Invoke.h>
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#include <folly/portability/GFlags.h>
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#include <cassert>
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#include <chrono>
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#include <functional>
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#include <limits>
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#include <type_traits>
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#include <boost/function_types/function_arity.hpp>
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#include <glog/logging.h>
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DECLARE_bool(benchmark);
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namespace folly {
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/**
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* Runs all benchmarks defined. Usually put in main().
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*/
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void runBenchmarks();
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/**
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* Runs all benchmarks defined if and only if the --benchmark flag has
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* been passed to the program. Usually put in main().
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*/
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inline bool runBenchmarksOnFlag() {
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if (FLAGS_benchmark) {
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runBenchmarks();
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}
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return FLAGS_benchmark;
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}
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namespace detail {
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using TimeIterPair =
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std::pair<std::chrono::high_resolution_clock::duration, unsigned int>;
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using BenchmarkFun = std::function<detail::TimeIterPair(unsigned int)>;
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struct BenchmarkRegistration {
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std::string file;
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std::string name;
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BenchmarkFun func;
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};
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struct BenchmarkResult {
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std::string file;
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std::string name;
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double timeInNs;
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};
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/**
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* Adds a benchmark wrapped in a std::function. Only used
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* internally. Pass by value is intentional.
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*/
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void addBenchmarkImpl(
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const char* file,
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const char* name,
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std::function<TimeIterPair(unsigned int)>);
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} // namespace detail
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/**
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* Supporting type for BENCHMARK_SUSPEND defined below.
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*/
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struct BenchmarkSuspender {
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using Clock = std::chrono::high_resolution_clock;
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using TimePoint = Clock::time_point;
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using Duration = Clock::duration;
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BenchmarkSuspender() {
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start = Clock::now();
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}
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BenchmarkSuspender(const BenchmarkSuspender&) = delete;
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BenchmarkSuspender(BenchmarkSuspender&& rhs) noexcept {
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start = rhs.start;
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rhs.start = {};
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}
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BenchmarkSuspender& operator=(const BenchmarkSuspender&) = delete;
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BenchmarkSuspender& operator=(BenchmarkSuspender&& rhs) {
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if (start != TimePoint{}) {
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tally();
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}
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start = rhs.start;
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rhs.start = {};
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return *this;
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}
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~BenchmarkSuspender() {
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if (start != TimePoint{}) {
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tally();
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}
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}
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void dismiss() {
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assert(start != TimePoint{});
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tally();
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start = {};
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}
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void rehire() {
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assert(start == TimePoint{});
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start = Clock::now();
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}
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template <class F>
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auto dismissing(F f) -> invoke_result_t<F> {
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SCOPE_EXIT {
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rehire();
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};
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dismiss();
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return f();
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}
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/**
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* This is for use inside of if-conditions, used in BENCHMARK macros.
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* If-conditions bypass the explicit on operator bool.
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*/
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explicit operator bool() const {
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return false;
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}
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/**
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* Accumulates time spent outside benchmark.
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*/
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static Duration timeSpent;
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private:
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void tally() {
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auto end = Clock::now();
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timeSpent += end - start;
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start = end;
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}
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TimePoint start;
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};
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/**
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* Adds a benchmark. Usually not called directly but instead through
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* the macro BENCHMARK defined below. The lambda function involved
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* must take exactly one parameter of type unsigned, and the benchmark
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* uses it with counter semantics (iteration occurs inside the
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* function).
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*/
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template <typename Lambda>
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typename std::enable_if<
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boost::function_types::function_arity<
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decltype(&Lambda::operator())>::value == 2>::type
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addBenchmark(const char* file, const char* name, Lambda&& lambda) {
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auto execute = [=](unsigned int times) {
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BenchmarkSuspender::timeSpent = {};
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unsigned int niter;
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// CORE MEASUREMENT STARTS
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auto start = std::chrono::high_resolution_clock::now();
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niter = lambda(times);
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auto end = std::chrono::high_resolution_clock::now();
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// CORE MEASUREMENT ENDS
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return detail::TimeIterPair(
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(end - start) - BenchmarkSuspender::timeSpent, niter);
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};
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detail::addBenchmarkImpl(
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file, name, std::function<detail::TimeIterPair(unsigned int)>(execute));
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}
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/**
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* Adds a benchmark. Usually not called directly but instead through
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* the macro BENCHMARK defined below. The lambda function involved
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* must take zero parameters, and the benchmark calls it repeatedly
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* (iteration occurs outside the function).
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*/
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template <typename Lambda>
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typename std::enable_if<
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boost::function_types::function_arity<
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decltype(&Lambda::operator())>::value == 1>::type
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addBenchmark(const char* file, const char* name, Lambda&& lambda) {
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addBenchmark(file, name, [=](unsigned int times) {
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unsigned int niter = 0;
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while (times-- > 0) {
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niter += lambda();
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}
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return niter;
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});
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}
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/**
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* Call doNotOptimizeAway(var) to ensure that var will be computed even
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* post-optimization. Use it for variables that are computed during
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* benchmarking but otherwise are useless. The compiler tends to do a
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* good job at eliminating unused variables, and this function fools it
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* into thinking var is in fact needed.
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*
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* Call makeUnpredictable(var) when you don't want the optimizer to use
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* its knowledge of var to shape the following code. This is useful
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* when constant propagation or power reduction is possible during your
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* benchmark but not in real use cases.
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*/
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#ifdef _MSC_VER
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#pragma optimize("", off)
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inline void doNotOptimizeDependencySink(const void*) {}
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#pragma optimize("", on)
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template <class T>
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void doNotOptimizeAway(const T& datum) {
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doNotOptimizeDependencySink(&datum);
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}
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template <typename T>
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void makeUnpredictable(T& datum) {
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doNotOptimizeDependencySink(&datum);
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}
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#else
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namespace detail {
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template <typename T>
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struct DoNotOptimizeAwayNeedsIndirect {
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using Decayed = typename std::decay<T>::type;
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// First two constraints ensure it can be an "r" operand.
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// std::is_pointer check is because callers seem to expect that
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// doNotOptimizeAway(&x) is equivalent to doNotOptimizeAway(x).
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constexpr static bool value = !folly::is_trivially_copyable<Decayed>::value ||
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sizeof(Decayed) > sizeof(long) || std::is_pointer<Decayed>::value;
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};
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} // namespace detail
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template <typename T>
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auto doNotOptimizeAway(const T& datum) -> typename std::enable_if<
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!detail::DoNotOptimizeAwayNeedsIndirect<T>::value>::type {
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// The "r" constraint forces the compiler to make datum available
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// in a register to the asm block, which means that it must have
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// computed/loaded it. We use this path for things that are <=
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// sizeof(long) (they have to fit), trivial (otherwise the compiler
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// doesn't want to put them in a register), and not a pointer (because
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// doNotOptimizeAway(&foo) would otherwise be a foot gun that didn't
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// necessarily compute foo).
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//
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// An earlier version of this method had a more permissive input operand
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// constraint, but that caused unnecessary variation between clang and
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// gcc benchmarks.
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asm volatile("" ::"r"(datum));
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}
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template <typename T>
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auto doNotOptimizeAway(const T& datum) -> typename std::enable_if<
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detail::DoNotOptimizeAwayNeedsIndirect<T>::value>::type {
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// This version of doNotOptimizeAway tells the compiler that the asm
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// block will read datum from memory, and that in addition it might read
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// or write from any memory location. If the memory clobber could be
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// separated into input and output that would be preferrable.
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asm volatile("" ::"m"(datum) : "memory");
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}
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template <typename T>
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auto makeUnpredictable(T& datum) -> typename std::enable_if<
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!detail::DoNotOptimizeAwayNeedsIndirect<T>::value>::type {
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asm volatile("" : "+r"(datum));
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}
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template <typename T>
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auto makeUnpredictable(T& datum) -> typename std::enable_if<
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detail::DoNotOptimizeAwayNeedsIndirect<T>::value>::type {
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asm volatile("" ::"m"(datum) : "memory");
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}
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#endif
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struct dynamic;
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void benchmarkResultsToDynamic(
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const std::vector<detail::BenchmarkResult>& data,
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dynamic&);
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void benchmarkResultsFromDynamic(
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const dynamic&,
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std::vector<detail::BenchmarkResult>&);
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void printResultComparison(
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const std::vector<detail::BenchmarkResult>& base,
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const std::vector<detail::BenchmarkResult>& test);
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} // namespace folly
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/**
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* Introduces a benchmark function. Used internally, see BENCHMARK and
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* friends below.
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*/
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#define BENCHMARK_IMPL(funName, stringName, rv, paramType, paramName) \
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static void funName(paramType); \
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static bool FB_ANONYMOUS_VARIABLE(follyBenchmarkUnused) = \
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(::folly::addBenchmark( \
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__FILE__, \
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stringName, \
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[](paramType paramName) -> unsigned { \
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funName(paramName); \
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return rv; \
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}), \
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true); \
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static void funName(paramType paramName)
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/**
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* Introduces a benchmark function with support for returning the actual
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* number of iterations. Used internally, see BENCHMARK_MULTI and friends
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* below.
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*/
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#define BENCHMARK_MULTI_IMPL(funName, stringName, paramType, paramName) \
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static unsigned funName(paramType); \
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static bool FB_ANONYMOUS_VARIABLE(follyBenchmarkUnused) = \
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(::folly::addBenchmark( \
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__FILE__, \
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stringName, \
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[](paramType paramName) { return funName(paramName); }), \
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true); \
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static unsigned funName(paramType paramName)
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/**
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* Introduces a benchmark function. Use with either one or two arguments.
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* The first is the name of the benchmark. Use something descriptive, such
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* as insertVectorBegin. The second argument may be missing, or could be a
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* symbolic counter. The counter dictates how many internal iteration the
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* benchmark does. Example:
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*
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* BENCHMARK(vectorPushBack) {
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* vector<int> v;
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* v.push_back(42);
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* }
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*
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* BENCHMARK(insertVectorBegin, n) {
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* vector<int> v;
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* FOR_EACH_RANGE (i, 0, n) {
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* v.insert(v.begin(), 42);
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* }
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* }
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*/
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#define BENCHMARK(name, ...) \
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BENCHMARK_IMPL( \
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name, \
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FB_STRINGIZE(name), \
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FB_ARG_2_OR_1(1, ##__VA_ARGS__), \
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FB_ONE_OR_NONE(unsigned, ##__VA_ARGS__), \
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__VA_ARGS__)
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/**
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* Like BENCHMARK above, but allows the user to return the actual
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* number of iterations executed in the function body. This can be
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* useful if the benchmark function doesn't know upfront how many
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* iterations it's going to run or if it runs through a certain
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* number of test cases, e.g.:
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*
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* BENCHMARK_MULTI(benchmarkSomething) {
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* std::vector<int> testCases { 0, 1, 1, 2, 3, 5 };
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* for (int c : testCases) {
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* doSomething(c);
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* }
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* return testCases.size();
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* }
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*/
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#define BENCHMARK_MULTI(name, ...) \
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BENCHMARK_MULTI_IMPL( \
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name, \
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FB_STRINGIZE(name), \
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FB_ONE_OR_NONE(unsigned, ##__VA_ARGS__), \
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__VA_ARGS__)
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/**
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* Defines a benchmark that passes a parameter to another one. This is
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* common for benchmarks that need a "problem size" in addition to
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* "number of iterations". Consider:
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*
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* void pushBack(uint32_t n, size_t initialSize) {
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* vector<int> v;
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* BENCHMARK_SUSPEND {
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* v.resize(initialSize);
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* }
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* FOR_EACH_RANGE (i, 0, n) {
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* v.push_back(i);
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* }
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* }
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* BENCHMARK_PARAM(pushBack, 0)
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* BENCHMARK_PARAM(pushBack, 1000)
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* BENCHMARK_PARAM(pushBack, 1000000)
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*
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* The benchmark above estimates the speed of push_back at different
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* initial sizes of the vector. The framework will pass 0, 1000, and
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* 1000000 for initialSize, and the iteration count for n.
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*/
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#define BENCHMARK_PARAM(name, param) BENCHMARK_NAMED_PARAM(name, param, param)
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/**
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* Same as BENCHMARK_PARAM, but allows one to return the actual number of
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* iterations that have been run.
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*/
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#define BENCHMARK_PARAM_MULTI(name, param) \
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BENCHMARK_NAMED_PARAM_MULTI(name, param, param)
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/*
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* Like BENCHMARK_PARAM(), but allows a custom name to be specified for each
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* parameter, rather than using the parameter value.
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*
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* Useful when the parameter value is not a valid token for string pasting,
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* of when you want to specify multiple parameter arguments.
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*
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* For example:
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*
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* void addValue(uint32_t n, int64_t bucketSize, int64_t min, int64_t max) {
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* Histogram<int64_t> hist(bucketSize, min, max);
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* int64_t num = min;
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* FOR_EACH_RANGE (i, 0, n) {
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* hist.addValue(num);
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* ++num;
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* if (num > max) { num = min; }
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* }
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* }
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*
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* BENCHMARK_NAMED_PARAM(addValue, 0_to_100, 1, 0, 100)
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* BENCHMARK_NAMED_PARAM(addValue, 0_to_1000, 10, 0, 1000)
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* BENCHMARK_NAMED_PARAM(addValue, 5k_to_20k, 250, 5000, 20000)
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*/
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#define BENCHMARK_NAMED_PARAM(name, param_name, ...) \
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BENCHMARK_IMPL( \
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FB_CONCATENATE(name, FB_CONCATENATE(_, param_name)), \
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FB_STRINGIZE(name) "(" FB_STRINGIZE(param_name) ")", \
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iters, \
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unsigned, \
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iters) { \
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name(iters, ##__VA_ARGS__); \
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}
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/**
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* Same as BENCHMARK_NAMED_PARAM, but allows one to return the actual number
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* of iterations that have been run.
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*/
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#define BENCHMARK_NAMED_PARAM_MULTI(name, param_name, ...) \
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BENCHMARK_MULTI_IMPL( \
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FB_CONCATENATE(name, FB_CONCATENATE(_, param_name)), \
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FB_STRINGIZE(name) "(" FB_STRINGIZE(param_name) ")", \
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unsigned, \
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iters) { \
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return name(iters, ##__VA_ARGS__); \
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}
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/**
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* Just like BENCHMARK, but prints the time relative to a
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* baseline. The baseline is the most recent BENCHMARK() seen in
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* the current scope. Example:
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*
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* // This is the baseline
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* BENCHMARK(insertVectorBegin, n) {
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* vector<int> v;
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* FOR_EACH_RANGE (i, 0, n) {
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* v.insert(v.begin(), 42);
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* }
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* }
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*
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* BENCHMARK_RELATIVE(insertListBegin, n) {
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* list<int> s;
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* FOR_EACH_RANGE (i, 0, n) {
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* s.insert(s.begin(), 42);
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* }
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* }
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*
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* Any number of relative benchmark can be associated with a
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* baseline. Another BENCHMARK() occurrence effectively establishes a
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* new baseline.
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*/
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#define BENCHMARK_RELATIVE(name, ...) \
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BENCHMARK_IMPL( \
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name, \
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"%" FB_STRINGIZE(name), \
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FB_ARG_2_OR_1(1, ##__VA_ARGS__), \
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FB_ONE_OR_NONE(unsigned, ##__VA_ARGS__), \
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__VA_ARGS__)
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/**
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* Same as BENCHMARK_RELATIVE, but allows one to return the actual number
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* of iterations that have been run.
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*/
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#define BENCHMARK_RELATIVE_MULTI(name, ...) \
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BENCHMARK_MULTI_IMPL( \
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name, \
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"%" FB_STRINGIZE(name), \
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FB_ONE_OR_NONE(unsigned, ##__VA_ARGS__), \
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__VA_ARGS__)
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/**
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* A combination of BENCHMARK_RELATIVE and BENCHMARK_PARAM.
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*/
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#define BENCHMARK_RELATIVE_PARAM(name, param) \
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BENCHMARK_RELATIVE_NAMED_PARAM(name, param, param)
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/**
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* Same as BENCHMARK_RELATIVE_PARAM, but allows one to return the actual
|
|
* number of iterations that have been run.
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*/
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|
#define BENCHMARK_RELATIVE_PARAM_MULTI(name, param) \
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|
BENCHMARK_RELATIVE_NAMED_PARAM_MULTI(name, param, param)
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|
|
|
/**
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|
* A combination of BENCHMARK_RELATIVE and BENCHMARK_NAMED_PARAM.
|
|
*/
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|
#define BENCHMARK_RELATIVE_NAMED_PARAM(name, param_name, ...) \
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|
BENCHMARK_IMPL( \
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|
FB_CONCATENATE(name, FB_CONCATENATE(_, param_name)), \
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|
"%" FB_STRINGIZE(name) "(" FB_STRINGIZE(param_name) ")", \
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|
iters, \
|
|
unsigned, \
|
|
iters) { \
|
|
name(iters, ##__VA_ARGS__); \
|
|
}
|
|
|
|
/**
|
|
* Same as BENCHMARK_RELATIVE_NAMED_PARAM, but allows one to return the
|
|
* actual number of iterations that have been run.
|
|
*/
|
|
#define BENCHMARK_RELATIVE_NAMED_PARAM_MULTI(name, param_name, ...) \
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|
BENCHMARK_MULTI_IMPL( \
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|
FB_CONCATENATE(name, FB_CONCATENATE(_, param_name)), \
|
|
"%" FB_STRINGIZE(name) "(" FB_STRINGIZE(param_name) ")", \
|
|
unsigned, \
|
|
iters) { \
|
|
return name(iters, ##__VA_ARGS__); \
|
|
}
|
|
|
|
/**
|
|
* Draws a line of dashes.
|
|
*/
|
|
#define BENCHMARK_DRAW_LINE() \
|
|
static bool FB_ANONYMOUS_VARIABLE(follyBenchmarkUnused) = \
|
|
(::folly::addBenchmark(__FILE__, "-", []() -> unsigned { return 0; }), \
|
|
true)
|
|
|
|
/**
|
|
* Allows execution of code that doesn't count torward the benchmark's
|
|
* time budget. Example:
|
|
*
|
|
* BENCHMARK_START_GROUP(insertVectorBegin, n) {
|
|
* vector<int> v;
|
|
* BENCHMARK_SUSPEND {
|
|
* v.reserve(n);
|
|
* }
|
|
* FOR_EACH_RANGE (i, 0, n) {
|
|
* v.insert(v.begin(), 42);
|
|
* }
|
|
* }
|
|
*/
|
|
#define BENCHMARK_SUSPEND \
|
|
if (auto FB_ANONYMOUS_VARIABLE(BENCHMARK_SUSPEND) = \
|
|
::folly::BenchmarkSuspender()) { \
|
|
} else
|