#include "counters/bench.h" #include "fast_float/fast_float.h" #include #include #include #include #include #include #include #include #include void pretty_print(size_t volume, size_t bytes, std::string name, counters::event_aggregate agg) { if (agg.inner_count > 1) { printf("# (inner count: %d)\n", agg.inner_count); } printf("%-40s : ", name.c_str()); printf(" %5.2f GB/s ", bytes / agg.fastest_elapsed_ns()); printf(" %5.1f Mip/s ", volume * 1000.0 / agg.fastest_elapsed_ns()); printf(" %5.2f ns/ip ", agg.fastest_elapsed_ns() / volume); if (counters::event_collector().has_events()) { printf(" %5.2f GHz ", agg.fastest_cycles() / agg.fastest_elapsed_ns()); printf(" %5.2f c/ip ", agg.fastest_cycles() / volume); printf(" %5.2f i/ip ", agg.fastest_instructions() / volume); printf(" %5.2f c/b ", agg.fastest_cycles() / bytes); printf(" %5.2f i/b ", agg.fastest_instructions() / bytes); printf(" %5.2f i/c ", agg.fastest_instructions() / agg.fastest_cycles()); } printf("\n"); } enum class parse_method { standard, fast_float }; void validate(const std::string &buffer, const std::vector &expected, char delimiter) { const char *p = buffer.data(); const char *pend = p + buffer.size(); for (size_t i = 0; i < expected.size(); i++) { uint16_t val; auto r = fast_float::from_chars(p, pend, val); if (r.ec != std::errc() || val != expected[i]) { printf("Validation failed at index %zu: expected %u, got %u\n", i, expected[i], val); std::abort(); } p = r.ptr; if (i + 1 < expected.size()) { if (p >= pend || *p != delimiter) { printf("Validation failed at index %zu: delimiter mismatch\n", i); std::abort(); } ++p; } } if (p != pend) { printf("Validation failed: trailing bytes remain\n"); std::abort(); } printf("Validation passed!\n"); } int main() { constexpr size_t N = 500000; constexpr char delimiter = ','; std::mt19937 rng(1234); std::uniform_int_distribution dist(0, 65535); std::vector expected; expected.reserve(N); std::string buffer; buffer.reserve(N * 6); // up to 5 digits + delimiter for (size_t i = 0; i < N; ++i) { uint16_t val = (uint16_t)dist(rng); expected.push_back(val); std::string s = std::to_string(val); buffer.append(s); if (i + 1 < N) { buffer.push_back(delimiter); } } size_t total_bytes = buffer.size(); validate(buffer, expected, delimiter); volatile uint64_t sink = 0; pretty_print(N, total_bytes, "parse_uint16_std_fromchars", counters::bench([&]() { uint64_t sum = 0; const char *p = buffer.data(); const char *pend = p + buffer.size(); for (size_t i = 0; i < N; ++i) { uint16_t value = 0; auto r = std::from_chars(p, pend, value); if (r.ec != std::errc()) std::abort(); sum += value; p = r.ptr; if (i + 1 < N) { if (p >= pend || *p != delimiter) std::abort(); ++p; } } if (p != pend) std::abort(); sink += sum; })); pretty_print(N, total_bytes, "parse_uint16_fastfloat", counters::bench([&]() { uint64_t sum = 0; const char *p = buffer.data(); const char *pend = p + buffer.size(); for (size_t i = 0; i < N; ++i) { uint16_t value = 0; auto r = fast_float::from_chars(p, pend, value); if (r.ec != std::errc()) std::abort(); sum += value; p = r.ptr; if (i + 1 < N) { if (p >= pend || *p != delimiter) std::abort(); ++p; } } if (p != pend) std::abort(); sink += sum; })); return EXIT_SUCCESS; }