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// Copyright 2015 Google Inc. All rights reserved.
//
// Licensed under the Apache License, Version 2.0 (the "License");
// you may not use this file except in compliance with the License.
// You may obtain a copy of the License at
//
// http://www.apache.org/licenses/LICENSE-2.0
//
// Unless required by applicable law or agreed to in writing, software
// distributed under the License is distributed on an "AS IS" BASIS,
// WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
// See the License for the specific language governing permissions and
// limitations under the License.
#include <algorithm>
#include <cmath>
#include <cstdint>
#include <iomanip> // for setprecision
#include <iostream>
#include <limits>
#include <string>
#include <tuple>
#include <vector>
#include "benchmark/benchmark.h"
#include "complexity.h"
#include "string_util.h"
#include "timers.h"
namespace benchmark {
namespace internal {
extern std::map<std::string, std::string>* global_context;
}
namespace {
std::string StrEscape(const std::string& s) {
std::string tmp;
tmp.reserve(s.size());
for (char c : s) {
switch (c) {
case '\b':
tmp += "\\b";
break;
case '\f':
tmp += "\\f";
break;
case '\n':
tmp += "\\n";
break;
case '\r':
tmp += "\\r";
break;
case '\t':
tmp += "\\t";
break;
case '\\':
tmp += "\\\\";
break;
case '"':
tmp += "\\\"";
break;
default:
tmp += c;
break;
}
}
return tmp;
}
std::string FormatKV(std::string const& key, std::string const& value) {
return StrFormat("\"%s\": \"%s\"", StrEscape(key).c_str(),
StrEscape(value).c_str());
}
std::string FormatKV(std::string const& key, const char* value) {
return StrFormat("\"%s\": \"%s\"", StrEscape(key).c_str(),
StrEscape(value).c_str());
}
std::string FormatKV(std::string const& key, bool value) {
return StrFormat("\"%s\": %s", StrEscape(key).c_str(),
value ? "true" : "false");
}
std::string FormatKV(std::string const& key, int64_t value) {
std::stringstream ss;
ss << '"' << StrEscape(key) << "\": " << value;
return ss.str();
}
std::string FormatKV(std::string const& key, double value) {
std::stringstream ss;
ss << '"' << StrEscape(key) << "\": ";
if (std::isnan(value))
ss << (value < 0 ? "-" : "") << "NaN";
else if (std::isinf(value))
ss << (value < 0 ? "-" : "") << "Infinity";
else {
const auto max_digits10 =
std::numeric_limits<decltype(value)>::max_digits10;
const auto max_fractional_digits10 = max_digits10 - 1;
ss << std::scientific << std::setprecision(max_fractional_digits10)
<< value;
}
return ss.str();
}
int64_t RoundDouble(double v) { return std::lround(v); }
} // end namespace
bool JSONReporter::ReportContext(const Context& context) {
std::ostream& out = GetOutputStream();
out << "{\n";
std::string inner_indent(2, ' ');
// Open context block and print context information.
out << inner_indent << "\"context\": {\n";
std::string indent(4, ' ');
std::string walltime_value = LocalDateTimeString();
out << indent << FormatKV("date", walltime_value) << ",\n";
out << indent << FormatKV("host_name", context.sys_info.name) << ",\n";
if (Context::executable_name) {
out << indent << FormatKV("executable", Context::executable_name) << ",\n";
}
CPUInfo const& info = context.cpu_info;
out << indent << FormatKV("num_cpus", static_cast<int64_t>(info.num_cpus))
<< ",\n";
out << indent
<< FormatKV("mhz_per_cpu",
RoundDouble(info.cycles_per_second / 1000000.0))
<< ",\n";
if (CPUInfo::Scaling::UNKNOWN != info.scaling) {
out << indent
<< FormatKV("cpu_scaling_enabled",
info.scaling == CPUInfo::Scaling::ENABLED ? true : false)
<< ",\n";
}
out << indent << "\"caches\": [\n";
indent = std::string(6, ' ');
std::string cache_indent(8, ' ');
for (size_t i = 0; i < info.caches.size(); ++i) {
auto& CI = info.caches[i];
out << indent << "{\n";
out << cache_indent << FormatKV("type", CI.type) << ",\n";
out << cache_indent << FormatKV("level", static_cast<int64_t>(CI.level))
<< ",\n";
out << cache_indent << FormatKV("size", static_cast<int64_t>(CI.size))
<< ",\n";
out << cache_indent
<< FormatKV("num_sharing", static_cast<int64_t>(CI.num_sharing))
<< "\n";
out << indent << "}";
if (i != info.caches.size() - 1) out << ",";
out << "\n";
}
indent = std::string(4, ' ');
out << indent << "],\n";
out << indent << "\"load_avg\": [";
for (auto it = info.load_avg.begin(); it != info.load_avg.end();) {
out << *it++;
if (it != info.load_avg.end()) out << ",";
}
out << "],\n";
#if defined(NDEBUG)
const char build_type[] = "release";
#else
const char build_type[] = "debug";
#endif
out << indent << FormatKV("library_build_type", build_type);
if (internal::global_context != nullptr) {
for (const auto& kv : *internal::global_context) {
out << ",\n";
out << indent << FormatKV(kv.first, kv.second);
}
}
out << "\n";
// Close context block and open the list of benchmarks.
out << inner_indent << "},\n";
out << inner_indent << "\"benchmarks\": [\n";
return true;
}
void JSONReporter::ReportRuns(std::vector<Run> const& reports) {
if (reports.empty()) {
return;
}
std::string indent(4, ' ');
std::ostream& out = GetOutputStream();
if (!first_report_) {
out << ",\n";
}
first_report_ = false;
for (auto it = reports.begin(); it != reports.end(); ++it) {
out << indent << "{\n";
PrintRunData(*it);
out << indent << '}';
auto it_cp = it;
if (++it_cp != reports.end()) {
out << ",\n";
}
}
}
void JSONReporter::Finalize() {
// Close the list of benchmarks and the top level object.
GetOutputStream() << "\n ]\n}\n";
}
void JSONReporter::PrintRunData(Run const& run) {
std::string indent(6, ' ');
std::ostream& out = GetOutputStream();
out << indent << FormatKV("name", run.benchmark_name()) << ",\n";
out << indent << FormatKV("family_index", run.family_index) << ",\n";
out << indent
<< FormatKV("per_family_instance_index", run.per_family_instance_index)
<< ",\n";
out << indent << FormatKV("run_name", run.run_name.str()) << ",\n";
out << indent << FormatKV("run_type", [&run]() -> const char* {
switch (run.run_type) {
case BenchmarkReporter::Run::RT_Iteration:
return "iteration";
case BenchmarkReporter::Run::RT_Aggregate:
return "aggregate";
}
BENCHMARK_UNREACHABLE();
}()) << ",\n";
out << indent << FormatKV("repetitions", run.repetitions) << ",\n";
if (run.run_type != BenchmarkReporter::Run::RT_Aggregate) {
out << indent << FormatKV("repetition_index", run.repetition_index)
<< ",\n";
}
out << indent << FormatKV("threads", run.threads) << ",\n";
if (run.run_type == BenchmarkReporter::Run::RT_Aggregate) {
out << indent << FormatKV("aggregate_name", run.aggregate_name) << ",\n";
out << indent << FormatKV("aggregate_unit", [&run]() -> const char* {
switch (run.aggregate_unit) {
case StatisticUnit::kTime:
return "time";
case StatisticUnit::kPercentage:
return "percentage";
}
BENCHMARK_UNREACHABLE();
}()) << ",\n";
}
if (run.error_occurred) {
out << indent << FormatKV("error_occurred", run.error_occurred) << ",\n";
out << indent << FormatKV("error_message", run.error_message) << ",\n";
}
if (!run.report_big_o && !run.report_rms) {
out << indent << FormatKV("iterations", run.iterations) << ",\n";
if (run.run_type != Run::RT_Aggregate ||
run.aggregate_unit == StatisticUnit::kTime) {
out << indent << FormatKV("real_time", run.GetAdjustedRealTime())
<< ",\n";
out << indent << FormatKV("cpu_time", run.GetAdjustedCPUTime());
} else {
assert(run.aggregate_unit == StatisticUnit::kPercentage);
out << indent << FormatKV("real_time", run.real_accumulated_time)
<< ",\n";
out << indent << FormatKV("cpu_time", run.cpu_accumulated_time);
}
out << ",\n"
<< indent << FormatKV("time_unit", GetTimeUnitString(run.time_unit));
} else if (run.report_big_o) {
out << indent << FormatKV("cpu_coefficient", run.GetAdjustedCPUTime())
<< ",\n";
out << indent << FormatKV("real_coefficient", run.GetAdjustedRealTime())
<< ",\n";
out << indent << FormatKV("big_o", GetBigOString(run.complexity)) << ",\n";
out << indent << FormatKV("time_unit", GetTimeUnitString(run.time_unit));
} else if (run.report_rms) {
out << indent << FormatKV("rms", run.GetAdjustedCPUTime());
}
for (auto& c : run.counters) {
out << ",\n" << indent << FormatKV(c.first, c.second);
}
if (run.memory_result) {
const MemoryManager::Result memory_result = *run.memory_result;
out << ",\n" << indent << FormatKV("allocs_per_iter", run.allocs_per_iter);
out << ",\n"
<< indent << FormatKV("max_bytes_used", memory_result.max_bytes_used);
auto report_if_present = [&out, &indent](const char* label, int64_t val) {
if (val != MemoryManager::TombstoneValue)
out << ",\n" << indent << FormatKV(label, val);
};
report_if_present("total_allocated_bytes",
memory_result.total_allocated_bytes);
report_if_present("net_heap_growth", memory_result.net_heap_growth);
}
if (!run.report_label.empty()) {
out << ",\n" << indent << FormatKV("label", run.report_label);
}
out << '\n';
}
const int64_t MemoryManager::TombstoneValue =
std::numeric_limits<int64_t>::max();
} // end namespace benchmark
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