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#include "../access_benchmark.h"
#include "perfcpp/sampler.h"
#include <iostream>
int
main()
{
std::cout << "libperf-cpp example: Record perf samples including performance "
"counters for single-threaded random access to an in-memory array."
<< std::endl;
/// Initialize counter definitions.
/// Note that the perf::CounterDefinition holds all counter names and must be
/// alive until the benchmark finishes.
auto counter_definition = perf::CounterDefinition{};
/// Add metric that calculates the L1d miss ratio.
counter_definition.add("L1d-misses-per-load", "'L1-dcache-load-misses'/'L1-dcache-loads'");
auto sampler = perf::Sampler{ counter_definition };
/// Setup the event that will trigger writing samples.
sampler.trigger("cycles", perf::Precision::AllowArbitrarySkid, perf::Period{ 50000 });
/// Setup which data should be included (L1 hit and miss counter, timestamp).
sampler.values().counter({ "L1-dcache-loads", "L1-dcache-load-misses", "L1d-misses-per-load" }).timestamp(true);
/// Create random access benchmark.
auto benchmark = perf::example::AccessBenchmark{ /*randomize the accesses*/ true,
/* create benchmark of 512 MB */ 512U };
/// Start sampling.
try {
sampler.start();
} catch (std::runtime_error& exception) {
std::cerr << exception.what() << std::endl;
return 1;
}
/// Execute the benchmark (accessing cache lines in a random order).
auto value = 0ULL;
for (auto index = 0U; index < benchmark.size(); ++index) {
value += benchmark[index].value;
}
/// We do not want the compiler to optimize away this (otherwise) unused value (and consequently the loop above).
benchmark.pretend_to_use(value);
/// Stop sampling.
sampler.stop();
/// Get all the recorded samples.
const auto samples = sampler.result();
/// Print the first samples.
const auto count_show_samples = std::min<std::size_t>(samples.size(), 40U);
std::cout << "\nRecorded " << samples.size() << " samples." << std::endl;
std::cout << "Here are the first " << count_show_samples << " recorded samples:\n" << std::endl;
std::optional<perf::CounterResult> last_counter_result = std::nullopt; /// Remember the last counter result to show
/// only the difference.
for (auto index = 0U; index < count_show_samples; ++index) {
const auto& sample = samples[index];
/// Since we recorded the time, period, the instruction pointer, and the CPU
/// id, we can only read these values.
if (sample.metadata().timestamp().has_value() && sample.counter().has_value()) {
if (last_counter_result.has_value()) {
std::cout << "Time = " << sample.metadata().timestamp().value() << " | cycles (diff) = "
<< sample.counter()->get("cycles").value_or(.0) - last_counter_result->get("cycles").value_or(.0)
<< " | L1-dcache-loads (diff) = "
<< sample.counter()->get("L1-dcache-loads").value_or(.0) -
last_counter_result->get("L1-dcache-loads").value_or(.0)
<< " | L1-dcache-load-misses (diff) = "
<< sample.counter()->get("L1-dcache-load-misses").value_or(.0) -
last_counter_result->get("L1-dcache-load-misses").value_or(.0)
<< " | L1d-misses-per-load = " << sample.counter()->get("L1d-misses-per-load").value_or(.0) << "\n";
}
last_counter_result = sample.counter();
}
}
std::cout << std::flush;
/// Close the sampler.
/// Note that the sampler can only be closed after reading the samples.
sampler.close();
return 0;
}