forked from OSchip/llvm-project
233 lines
6.6 KiB
C++
233 lines
6.6 KiB
C++
//===----------------------------------------------------------------------===//
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//
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// The LLVM Compiler Infrastructure
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//
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// This file is dual licensed under the MIT and the University of Illinois Open
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// Source Licenses. See LICENSE.TXT for details.
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//
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//===----------------------------------------------------------------------===//
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#include <cstdint>
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#include <functional>
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#include <memory>
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#include <string>
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#include "CartesianBenchmarks.hpp"
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#include "benchmark/benchmark.h"
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#include "test_macros.h"
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namespace {
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enum class FunctionType {
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Null,
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FunctionPointer,
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MemberFunctionPointer,
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MemberPointer,
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SmallTrivialFunctor,
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SmallNonTrivialFunctor,
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LargeTrivialFunctor,
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LargeNonTrivialFunctor
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};
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struct AllFunctionTypes : EnumValuesAsTuple<AllFunctionTypes, FunctionType, 8> {
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static constexpr const char* Names[] = {"Null",
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"FuncPtr",
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"MemFuncPtr",
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"MemPtr",
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"SmallTrivialFunctor",
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"SmallNonTrivialFunctor",
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"LargeTrivialFunctor",
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"LargeNonTrivialFunctor"};
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};
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enum class Opacity { kOpaque, kTransparent };
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struct AllOpacity : EnumValuesAsTuple<AllOpacity, Opacity, 2> {
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static constexpr const char* Names[] = {"Opaque", "Transparent"};
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};
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struct S {
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int function() const { return 0; }
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int field;
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};
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int FunctionWithS(const S*) { return 0; }
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struct SmallTrivialFunctor {
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int operator()(const S*) const { return 0; }
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};
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struct SmallNonTrivialFunctor {
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SmallNonTrivialFunctor() {}
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SmallNonTrivialFunctor(const SmallNonTrivialFunctor&) {}
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~SmallNonTrivialFunctor() {}
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int operator()(const S*) const { return 0; }
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};
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struct LargeTrivialFunctor {
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LargeTrivialFunctor() {
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// Do not spend time initializing the padding.
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}
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int padding[16];
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int operator()(const S*) const { return 0; }
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};
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struct LargeNonTrivialFunctor {
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int padding[16];
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LargeNonTrivialFunctor() {
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// Do not spend time initializing the padding.
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}
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LargeNonTrivialFunctor(const LargeNonTrivialFunctor&) {}
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~LargeNonTrivialFunctor() {}
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int operator()(const S*) const { return 0; }
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};
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using Function = std::function<int(const S*)>;
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TEST_ALWAYS_INLINE
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inline Function MakeFunction(FunctionType type, bool opaque = false) {
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switch (type) {
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case FunctionType::Null:
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return nullptr;
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case FunctionType::FunctionPointer:
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return maybeOpaque(FunctionWithS, opaque);
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case FunctionType::MemberFunctionPointer:
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return maybeOpaque(&S::function, opaque);
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case FunctionType::MemberPointer:
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return maybeOpaque(&S::field, opaque);
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case FunctionType::SmallTrivialFunctor:
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return maybeOpaque(SmallTrivialFunctor{}, opaque);
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case FunctionType::SmallNonTrivialFunctor:
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return maybeOpaque(SmallNonTrivialFunctor{}, opaque);
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case FunctionType::LargeTrivialFunctor:
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return maybeOpaque(LargeTrivialFunctor{}, opaque);
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case FunctionType::LargeNonTrivialFunctor:
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return maybeOpaque(LargeNonTrivialFunctor{}, opaque);
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}
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}
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template <class Opacity, class FunctionType>
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struct ConstructAndDestroy {
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static void run(benchmark::State& state) {
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for (auto _ : state) {
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if (Opacity() == ::Opacity::kOpaque) {
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benchmark::DoNotOptimize(MakeFunction(FunctionType(), true));
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} else {
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MakeFunction(FunctionType());
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}
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}
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}
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static std::string name() {
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return "BM_ConstructAndDestroy" + FunctionType::name() + Opacity::name();
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}
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};
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template <class FunctionType>
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struct Copy {
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static void run(benchmark::State& state) {
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auto value = MakeFunction(FunctionType());
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for (auto _ : state) {
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benchmark::DoNotOptimize(value);
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auto copy = value; // NOLINT
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benchmark::DoNotOptimize(copy);
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}
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}
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static std::string name() { return "BM_Copy" + FunctionType::name(); }
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};
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template <class FunctionType>
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struct Move {
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static void run(benchmark::State& state) {
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Function values[2] = {MakeFunction(FunctionType())};
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int i = 0;
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for (auto _ : state) {
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benchmark::DoNotOptimize(values);
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benchmark::DoNotOptimize(values[i ^ 1] = std::move(values[i]));
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i ^= 1;
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}
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}
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static std::string name() {
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return "BM_Move" + FunctionType::name();
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}
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};
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template <class Function1, class Function2>
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struct Swap {
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static void run(benchmark::State& state) {
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Function values[2] = {MakeFunction(Function1()), MakeFunction(Function2())};
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for (auto _ : state) {
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benchmark::DoNotOptimize(values);
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values[0].swap(values[1]);
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}
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}
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static bool skip() { return Function1() > Function2(); }
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static std::string name() {
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return "BM_Swap" + Function1::name() + Function2::name();
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}
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};
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template <class FunctionType>
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struct OperatorBool {
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static void run(benchmark::State& state) {
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auto f = MakeFunction(FunctionType());
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for (auto _ : state) {
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benchmark::DoNotOptimize(f);
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benchmark::DoNotOptimize(static_cast<bool>(f));
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}
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}
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static std::string name() { return "BM_OperatorBool" + FunctionType::name(); }
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};
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template <class FunctionType>
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struct Invoke {
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static void run(benchmark::State& state) {
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S s;
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const auto value = MakeFunction(FunctionType());
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for (auto _ : state) {
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benchmark::DoNotOptimize(value);
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benchmark::DoNotOptimize(value(&s));
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}
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}
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static bool skip() { return FunctionType() == ::FunctionType::Null; }
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static std::string name() { return "BM_Invoke" + FunctionType::name(); }
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};
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template <class FunctionType>
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struct InvokeInlined {
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static void run(benchmark::State& state) {
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S s;
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for (auto _ : state) {
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MakeFunction(FunctionType())(&s);
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}
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}
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static bool skip() { return FunctionType() == ::FunctionType::Null; }
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static std::string name() {
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return "BM_InvokeInlined" + FunctionType::name();
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}
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};
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} // namespace
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int main(int argc, char** argv) {
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benchmark::Initialize(&argc, argv);
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if (benchmark::ReportUnrecognizedArguments(argc, argv))
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return 1;
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makeCartesianProductBenchmark<ConstructAndDestroy, AllOpacity,
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AllFunctionTypes>();
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makeCartesianProductBenchmark<Copy, AllFunctionTypes>();
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makeCartesianProductBenchmark<Move, AllFunctionTypes>();
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makeCartesianProductBenchmark<Swap, AllFunctionTypes, AllFunctionTypes>();
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makeCartesianProductBenchmark<OperatorBool, AllFunctionTypes>();
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makeCartesianProductBenchmark<Invoke, AllFunctionTypes>();
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makeCartesianProductBenchmark<InvokeInlined, AllFunctionTypes>();
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benchmark::RunSpecifiedBenchmarks();
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}
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