/* benchmark_compare256_rle.cc -- benchmark compare256_rle variants * Copyright (C) 2022 Nathan Moinvaziri * For conditions of distribution and use, see copyright notice in zlib.h */ #include extern "C" { # include "zbuild.h" # include "compare256_rle.h" } #define MAX_COMPARE_SIZE (256 + 64) class compare256_rle: public benchmark::Fixture { private: uint8_t *str1; uint8_t *str2; public: void SetUp(::benchmark::State& state) { str1 = (uint8_t *)malloc(MAX_COMPARE_SIZE); str2 = (uint8_t *)malloc(MAX_COMPARE_SIZE); if (str1 == NULL || str2 == NULL) { state.SkipWithError("malloc failed"); return; } memset(str1, 'a', MAX_COMPARE_SIZE); memset(str2, 'a', MAX_COMPARE_SIZE); } // Benchmark compare256_rle, with rolling buffer misalignment for consistent results void Bench(benchmark::State& state, compare256_rle_func compare256_rle) { int misalign = 0; int32_t match_len = (int32_t)state.range(0) - 1; uint32_t len = 0; for (auto _ : state) { str2[match_len + misalign] = 0; // Set new match limit len = compare256_rle((const uint8_t *)str1 + misalign, (const uint8_t *)str2 + misalign); str2[match_len + misalign] = 'a'; // Reset match limit if (misalign >= 63) misalign = 0; else misalign++; // Prevent the result from being optimized away benchmark::DoNotOptimize(len); } } void TearDown(const ::benchmark::State&) { free(str1); free(str2); } }; #define BENCHMARK_COMPARE256_RLE(name, comparefunc, support_flag) \ BENCHMARK_DEFINE_F(compare256_rle, name)(benchmark::State& state) { \ if (!(support_flag)) { \ state.SkipWithError("CPU does not support " #name); \ } \ Bench(state, comparefunc); \ } \ BENCHMARK_REGISTER_F(compare256_rle, name)->Arg(1)->Arg(10)->Arg(40)->Arg(80)->Arg(100)->Arg(175)->Arg(256);; BENCHMARK_COMPARE256_RLE(8, compare256_rle_8, 1); BENCHMARK_COMPARE256_RLE(64, compare256_rle_64, 1);