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cc89063bff
LLVM uses .h as its extension for header files.
Files renamed using:
for f in libcxx/test/support/*.hpp; do git mv $f ${f%.hpp}.h; done
References to the files updated using:
for f in $(git diff master | grep 'rename from' | cut -f 3 -d ' '); do
a=$(basename $f);
echo $a;
rg -l $a libcxx | xargs sed -i '' "s/$a/${a%.hpp}.h/";
done
HPP include guards updated manually using:
for f in $(git diff master | grep 'rename from' | cut -f 3 -d ' '); do
echo ${f%.hpp}.h ;
done | xargs mvim
Differential Revision: https://reviews.llvm.org/D66104
llvm-svn: 369481
164 lines
4.8 KiB
C++
164 lines
4.8 KiB
C++
#include "benchmark/benchmark.h"
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#include "GenerateInput.hpp"
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#include "test_iterators.h"
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#include "filesystem_include.h"
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static const size_t TestNumInputs = 1024;
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template <class GenInputs>
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void BM_PathConstructString(benchmark::State &st, GenInputs gen) {
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using fs::path;
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const auto in = gen(st.range(0));
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path PP;
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for (auto& Part : in)
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PP /= Part;
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benchmark::DoNotOptimize(PP.native().data());
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while (st.KeepRunning()) {
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const path P(PP.native());
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benchmark::DoNotOptimize(P.native().data());
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}
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st.SetComplexityN(st.range(0));
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}
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BENCHMARK_CAPTURE(BM_PathConstructString, large_string,
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getRandomStringInputs)->Range(8, TestNumInputs)->Complexity();
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template <class GenInputs>
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void BM_PathConstructCStr(benchmark::State &st, GenInputs gen) {
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using fs::path;
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const auto in = gen(st.range(0));
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path PP;
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for (auto& Part : in)
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PP /= Part;
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benchmark::DoNotOptimize(PP.native().data());
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while (st.KeepRunning()) {
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const path P(PP.native().c_str());
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benchmark::DoNotOptimize(P.native().data());
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}
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}
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BENCHMARK_CAPTURE(BM_PathConstructCStr, large_string,
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getRandomStringInputs)->Arg(TestNumInputs);
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template <template <class...> class ItType, class GenInputs>
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void BM_PathConstructIter(benchmark::State &st, GenInputs gen) {
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using fs::path;
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using Iter = ItType<std::string::const_iterator>;
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const auto in = gen(st.range(0));
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path PP;
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for (auto& Part : in)
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PP /= Part;
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auto Start = Iter(PP.native().begin());
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auto End = Iter(PP.native().end());
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benchmark::DoNotOptimize(PP.native().data());
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benchmark::DoNotOptimize(Start);
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benchmark::DoNotOptimize(End);
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while (st.KeepRunning()) {
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const path P(Start, End);
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benchmark::DoNotOptimize(P.native().data());
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}
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st.SetComplexityN(st.range(0));
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}
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template <class GenInputs>
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void BM_PathConstructInputIter(benchmark::State &st, GenInputs gen) {
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BM_PathConstructIter<input_iterator>(st, gen);
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}
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template <class GenInputs>
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void BM_PathConstructForwardIter(benchmark::State &st, GenInputs gen) {
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BM_PathConstructIter<forward_iterator>(st, gen);
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}
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BENCHMARK_CAPTURE(BM_PathConstructInputIter, large_string,
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getRandomStringInputs)->Range(8, TestNumInputs)->Complexity();
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BENCHMARK_CAPTURE(BM_PathConstructForwardIter, large_string,
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getRandomStringInputs)->Range(8, TestNumInputs)->Complexity();
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template <class GenInputs>
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void BM_PathIterateMultipleTimes(benchmark::State &st, GenInputs gen) {
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using fs::path;
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const auto in = gen(st.range(0));
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path PP;
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for (auto& Part : in)
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PP /= Part;
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benchmark::DoNotOptimize(PP.native().data());
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while (st.KeepRunning()) {
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for (auto &E : PP) {
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benchmark::DoNotOptimize(E.native().data());
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}
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benchmark::ClobberMemory();
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}
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st.SetComplexityN(st.range(0));
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}
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BENCHMARK_CAPTURE(BM_PathIterateMultipleTimes, iterate_elements,
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getRandomStringInputs)->Range(8, TestNumInputs)->Complexity();
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template <class GenInputs>
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void BM_PathIterateOnce(benchmark::State &st, GenInputs gen) {
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using fs::path;
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const auto in = gen(st.range(0));
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path PP;
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for (auto& Part : in)
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PP /= Part;
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benchmark::DoNotOptimize(PP.native().data());
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while (st.KeepRunning()) {
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const path P = PP.native();
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for (auto &E : P) {
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benchmark::DoNotOptimize(E.native().data());
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}
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benchmark::ClobberMemory();
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}
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st.SetComplexityN(st.range(0));
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}
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BENCHMARK_CAPTURE(BM_PathIterateOnce, iterate_elements,
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getRandomStringInputs)->Range(8, TestNumInputs)->Complexity();
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template <class GenInputs>
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void BM_PathIterateOnceBackwards(benchmark::State &st, GenInputs gen) {
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using fs::path;
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const auto in = gen(st.range(0));
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path PP;
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for (auto& Part : in)
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PP /= Part;
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benchmark::DoNotOptimize(PP.native().data());
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while (st.KeepRunning()) {
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const path P = PP.native();
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const auto B = P.begin();
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auto I = P.end();
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while (I != B) {
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--I;
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benchmark::DoNotOptimize(*I);
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}
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benchmark::DoNotOptimize(*I);
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}
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}
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BENCHMARK_CAPTURE(BM_PathIterateOnceBackwards, iterate_elements,
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getRandomStringInputs)->Arg(TestNumInputs);
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static fs::path getRandomPaths(int NumParts, int PathLen) {
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fs::path Result;
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while (NumParts--) {
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std::string Part = getRandomString(PathLen);
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Result /= Part;
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}
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return Result;
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}
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template <class GenInput>
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void BM_LexicallyNormal(benchmark::State &st, GenInput gen, size_t PathLen) {
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using fs::path;
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auto In = gen(st.range(0), PathLen);
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benchmark::DoNotOptimize(&In);
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while (st.KeepRunning()) {
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benchmark::DoNotOptimize(In.lexically_normal());
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}
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st.SetComplexityN(st.range(0));
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}
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BENCHMARK_CAPTURE(BM_LexicallyNormal, small_path,
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getRandomPaths, /*PathLen*/5)->RangeMultiplier(2)->Range(2, 256)->Complexity();
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BENCHMARK_CAPTURE(BM_LexicallyNormal, large_path,
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getRandomPaths, /*PathLen*/32)->RangeMultiplier(2)->Range(2, 256)->Complexity();
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BENCHMARK_MAIN();
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