1*4d6fc14bSjoerg //===----------------------------------------------------------------------===//
2*4d6fc14bSjoerg //
3*4d6fc14bSjoerg // Part of the LLVM Project, under the Apache License v2.0 with LLVM Exceptions.
4*4d6fc14bSjoerg // See https://llvm.org/LICENSE.txt for license information.
5*4d6fc14bSjoerg // SPDX-License-Identifier: Apache-2.0 WITH LLVM-exception
6*4d6fc14bSjoerg //
7*4d6fc14bSjoerg //===----------------------------------------------------------------------===//
8*4d6fc14bSjoerg
9*4d6fc14bSjoerg
10*4d6fc14bSjoerg #include <string>
11*4d6fc14bSjoerg #include <tuple>
12*4d6fc14bSjoerg #include <type_traits>
13*4d6fc14bSjoerg #include <vector>
14*4d6fc14bSjoerg
15*4d6fc14bSjoerg #include "benchmark/benchmark.h"
16*4d6fc14bSjoerg #include "test_macros.h"
17*4d6fc14bSjoerg
18*4d6fc14bSjoerg namespace internal {
19*4d6fc14bSjoerg
20*4d6fc14bSjoerg template <class D, class E, size_t I>
21*4d6fc14bSjoerg struct EnumValue : std::integral_constant<E, static_cast<E>(I)> {
nameEnumValue22*4d6fc14bSjoerg static std::string name() { return std::string("_") + D::Names[I]; }
23*4d6fc14bSjoerg };
24*4d6fc14bSjoerg
25*4d6fc14bSjoerg template <class D, class E, size_t ...Idxs>
makeEnumValueTuple(std::index_sequence<Idxs...>)26*4d6fc14bSjoerg constexpr auto makeEnumValueTuple(std::index_sequence<Idxs...>) {
27*4d6fc14bSjoerg return std::make_tuple(EnumValue<D, E, Idxs>{}...);
28*4d6fc14bSjoerg }
29*4d6fc14bSjoerg
30*4d6fc14bSjoerg template <class B>
31*4d6fc14bSjoerg static auto skip(const B& Bench, int) -> decltype(Bench.skip()) {
32*4d6fc14bSjoerg return Bench.skip();
33*4d6fc14bSjoerg }
34*4d6fc14bSjoerg template <class B>
skip(const B & Bench,char)35*4d6fc14bSjoerg static auto skip(const B& Bench, char) {
36*4d6fc14bSjoerg return false;
37*4d6fc14bSjoerg }
38*4d6fc14bSjoerg
39*4d6fc14bSjoerg template <class B, class Args, size_t... Is>
makeBenchmarkFromValuesImpl(const Args & A,std::index_sequence<Is...>)40*4d6fc14bSjoerg void makeBenchmarkFromValuesImpl(const Args& A, std::index_sequence<Is...>) {
41*4d6fc14bSjoerg for (auto& V : A) {
42*4d6fc14bSjoerg B Bench{std::get<Is>(V)...};
43*4d6fc14bSjoerg if (!internal::skip(Bench, 0)) {
44*4d6fc14bSjoerg benchmark::RegisterBenchmark(Bench.name().c_str(),
45*4d6fc14bSjoerg [=](benchmark::State& S) { Bench.run(S); });
46*4d6fc14bSjoerg }
47*4d6fc14bSjoerg }
48*4d6fc14bSjoerg }
49*4d6fc14bSjoerg
50*4d6fc14bSjoerg template <class B, class... Args>
makeBenchmarkFromValues(const std::vector<std::tuple<Args...>> & A)51*4d6fc14bSjoerg void makeBenchmarkFromValues(const std::vector<std::tuple<Args...> >& A) {
52*4d6fc14bSjoerg makeBenchmarkFromValuesImpl<B>(A, std::index_sequence_for<Args...>());
53*4d6fc14bSjoerg }
54*4d6fc14bSjoerg
55*4d6fc14bSjoerg template <template <class...> class B, class Args, class... U>
makeBenchmarkImpl(const Args & A,std::tuple<U...> t)56*4d6fc14bSjoerg void makeBenchmarkImpl(const Args& A, std::tuple<U...> t) {
57*4d6fc14bSjoerg makeBenchmarkFromValues<B<U...> >(A);
58*4d6fc14bSjoerg }
59*4d6fc14bSjoerg
60*4d6fc14bSjoerg template <template <class...> class B, class Args, class... U,
61*4d6fc14bSjoerg class... T, class... Tuples>
makeBenchmarkImpl(const Args & A,std::tuple<U...>,std::tuple<T...>,Tuples...rest)62*4d6fc14bSjoerg void makeBenchmarkImpl(const Args& A, std::tuple<U...>, std::tuple<T...>,
63*4d6fc14bSjoerg Tuples... rest) {
64*4d6fc14bSjoerg (internal::makeBenchmarkImpl<B>(A, std::tuple<U..., T>(), rest...), ...);
65*4d6fc14bSjoerg }
66*4d6fc14bSjoerg
67*4d6fc14bSjoerg template <class R, class T>
allValueCombinations(R & Result,const T & Final)68*4d6fc14bSjoerg void allValueCombinations(R& Result, const T& Final) {
69*4d6fc14bSjoerg return Result.push_back(Final);
70*4d6fc14bSjoerg }
71*4d6fc14bSjoerg
72*4d6fc14bSjoerg template <class R, class T, class V, class... Vs>
allValueCombinations(R & Result,const T & Prev,const V & Value,const Vs &...Values)73*4d6fc14bSjoerg void allValueCombinations(R& Result, const T& Prev, const V& Value,
74*4d6fc14bSjoerg const Vs&... Values) {
75*4d6fc14bSjoerg for (const auto& E : Value) {
76*4d6fc14bSjoerg allValueCombinations(Result, std::tuple_cat(Prev, std::make_tuple(E)),
77*4d6fc14bSjoerg Values...);
78*4d6fc14bSjoerg }
79*4d6fc14bSjoerg }
80*4d6fc14bSjoerg
81*4d6fc14bSjoerg } // namespace internal
82*4d6fc14bSjoerg
83*4d6fc14bSjoerg // CRTP class that enables using enum types as a dimension for
84*4d6fc14bSjoerg // makeCartesianProductBenchmark below.
85*4d6fc14bSjoerg // The type passed to `B` will be a std::integral_constant<E, e>, with the
86*4d6fc14bSjoerg // additional static function `name()` that returns the stringified name of the
87*4d6fc14bSjoerg // label.
88*4d6fc14bSjoerg //
89*4d6fc14bSjoerg // Eg:
90*4d6fc14bSjoerg // enum class MyEnum { A, B };
91*4d6fc14bSjoerg // struct AllMyEnum : EnumValuesAsTuple<AllMyEnum, MyEnum, 2> {
92*4d6fc14bSjoerg // static constexpr absl::string_view Names[] = {"A", "B"};
93*4d6fc14bSjoerg // };
94*4d6fc14bSjoerg template <class Derived, class EnumType, size_t NumLabels>
95*4d6fc14bSjoerg using EnumValuesAsTuple =
96*4d6fc14bSjoerg decltype(internal::makeEnumValueTuple<Derived, EnumType>(
97*4d6fc14bSjoerg std::make_index_sequence<NumLabels>{}));
98*4d6fc14bSjoerg
99*4d6fc14bSjoerg // Instantiates B<T0, T1, ..., TN> where <Ti...> are the combinations in the
100*4d6fc14bSjoerg // cartesian product of `Tuples...`, and pass (arg0, ..., argN) as constructor
101*4d6fc14bSjoerg // arguments where `(argi...)` are the combination in the cartesian product of
102*4d6fc14bSjoerg // the runtime values of `A...`.
103*4d6fc14bSjoerg // B<T...> requires:
104*4d6fc14bSjoerg // - std::string name(args...): The name of the benchmark.
105*4d6fc14bSjoerg // - void run(benchmark::State&, args...): The body of the benchmark.
106*4d6fc14bSjoerg // It can also optionally provide:
107*4d6fc14bSjoerg // - bool skip(args...): When `true`, skips the combination. Default is false.
108*4d6fc14bSjoerg //
109*4d6fc14bSjoerg // Returns int to facilitate registration. The return value is unspecified.
110*4d6fc14bSjoerg template <template <class...> class B, class... Tuples, class... Args>
makeCartesianProductBenchmark(const Args &...A)111*4d6fc14bSjoerg int makeCartesianProductBenchmark(const Args&... A) {
112*4d6fc14bSjoerg std::vector<std::tuple<typename Args::value_type...> > V;
113*4d6fc14bSjoerg internal::allValueCombinations(V, std::tuple<>(), A...);
114*4d6fc14bSjoerg internal::makeBenchmarkImpl<B>(V, std::tuple<>(), Tuples()...);
115*4d6fc14bSjoerg return 0;
116*4d6fc14bSjoerg }
117*4d6fc14bSjoerg
118*4d6fc14bSjoerg template <class B, class... Args>
makeCartesianProductBenchmark(const Args &...A)119*4d6fc14bSjoerg int makeCartesianProductBenchmark(const Args&... A) {
120*4d6fc14bSjoerg std::vector<std::tuple<typename Args::value_type...> > V;
121*4d6fc14bSjoerg internal::allValueCombinations(V, std::tuple<>(), A...);
122*4d6fc14bSjoerg internal::makeBenchmarkFromValues<B>(V);
123*4d6fc14bSjoerg return 0;
124*4d6fc14bSjoerg }
125*4d6fc14bSjoerg
126*4d6fc14bSjoerg // When `opaque` is true, this function hides the runtime state of `value` from
127*4d6fc14bSjoerg // the optimizer.
128*4d6fc14bSjoerg // It returns `value`.
129*4d6fc14bSjoerg template <class T>
maybeOpaque(T value,bool opaque)130*4d6fc14bSjoerg TEST_ALWAYS_INLINE inline T maybeOpaque(T value, bool opaque) {
131*4d6fc14bSjoerg if (opaque) benchmark::DoNotOptimize(value);
132*4d6fc14bSjoerg return value;
133*4d6fc14bSjoerg }
134