/* vim:set ts=2 sw=2 sts=2 et: */
/**
* \author Marcus Holland-Moritz (github@mhxnet.de)
* \copyright Copyright (c) Marcus Holland-Moritz
*
* This file is part of ricepp.
*
* ricepp is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* ricepp is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with ricepp. If not, see .
*/
#include
#include
#include
#include
#include
#include
#include
#include
#include
#include
namespace {
std::filesystem::path const g_testdata_dir{
"/home/mhx/git/github/dwarfs/@ricepp-testdata"};
struct config {
unsigned component_stream_count;
unsigned unused_lsb_count;
};
std::map const g_camera_info = {
{"ASI178MC", {2, 0}}, {"ASI294MC", {2, 2}}, {"ASI1600MM", {1, 4}},
{"ASI2600MC", {2, 0}}, {"ASI2600MM", {1, 0}}, {"ASI6200MC", {2, 0}},
};
std::string format_percentage(double value) {
std::ostringstream oss;
oss << std::fixed << std::setprecision(2) << "(" << value << "%)";
return oss.str();
}
class ricepp_bm : public ::benchmark::Fixture {
public:
void SetUp(::benchmark::State const& state) {
if (state.thread_index() > 0) {
latch_->wait();
return;
}
auto const [camera, test, operation] = [&] {
std::string name{state.name()};
auto const pos1 = name.find('/');
auto const pos2 = name.find('/', pos1 + 1);
return std::make_tuple(name.substr(0, pos1),
name.substr(pos1 + 1, pos2 - pos1 - 1),
name.substr(pos2 + 1));
}();
auto const& camera_info = g_camera_info.at(camera);
codec_ = ricepp::create_codec({
.block_size = 128,
.component_stream_count = camera_info.component_stream_count,
.byteorder = std::endian::big,
.unused_lsb_count = camera_info.unused_lsb_count,
});
if (data_.empty()) {
std::filesystem::path testdata_dir;
if (auto dir = std::getenv("RICEPP_FITS_TESTDATA_DIR")) {
testdata_dir = dir;
} else {
testdata_dir = g_testdata_dir;
}
data_ = load_fits_data(testdata_dir / camera / (test + ".fit"));
encoded_ = codec_->encode(data_);
}
latch_->count_down();
}
void TearDown(::benchmark::State const& state) {
latch_.reset();
latch_.emplace(1);
}
std::vector load_fits_data(std::filesystem::path const& path) {
static constexpr size_t kBlockSize = 2880;
static constexpr size_t kDataSize = 8 * 1024 * 1024;
std::ifstream ifs{path, std::ios::binary};
if (!ifs) {
throw std::runtime_error{"failed to open file: " + path.string()};
}
// skip a bunch of header blocks
ifs.seekg(8 * kBlockSize, std::ios::beg);
std::vector data;
data.resize(kDataSize / sizeof(data[0]));
ifs.read(reinterpret_cast(data.data()), kDataSize);
if (!ifs) {
throw std::runtime_error{"failed to read data from file: " +
path.string()};
}
return data;
}
std::unique_ptr> codec_;
std::vector data_;
std::vector encoded_;
std::optional latch_{1};
};
} // namespace
#define RICEPP_BENCHMARK(camera, test) \
BENCHMARK_DEFINE_F(ricepp_bm, encode_##camera##_##test) \
(::benchmark::State & state) { \
thread_local std::vector encoded; \
encoded.resize(codec_->worst_case_encoded_bytes(data_)); \
for (auto _ : state) { \
auto r = codec_->encode(encoded, data_); \
::benchmark::DoNotOptimize(r); \
} \
state.SetBytesProcessed(static_cast(state.iterations()) * \
data_.size() * sizeof(data_[0])); \
state.SetLabel(format_percentage(100.0 * encoded_.size() / \
(data_.size() * sizeof(data_[0])))); \
} \
BENCHMARK_DEFINE_F(ricepp_bm, decode_##camera##_##test) \
(::benchmark::State & state) { \
thread_local std::vector decoded; \
decoded.resize(data_.size()); \
for (auto _ : state) { \
codec_->decode(decoded, encoded_); \
} \
state.SetBytesProcessed(static_cast(state.iterations()) * \
data_.size() * sizeof(data_[0])); \
} \
BENCHMARK_REGISTER_F(ricepp_bm, encode_##camera##_##test) \
->Unit(benchmark::kMillisecond) \
->ThreadRange(1, 8) \
->UseRealTime() \
->Name(#camera "/" #test "/encode"); \
BENCHMARK_REGISTER_F(ricepp_bm, decode_##camera##_##test) \
->Unit(benchmark::kMillisecond) \
->ThreadRange(1, 8) \
->UseRealTime() \
->Name(#camera "/" #test "/decode");
RICEPP_BENCHMARK(ASI1600MM, dark_120s_g139)
RICEPP_BENCHMARK(ASI1600MM, dark_1s_g0)
RICEPP_BENCHMARK(ASI1600MM, flat_h_2s_g0)
RICEPP_BENCHMARK(ASI1600MM, light_g_60s_g0)
RICEPP_BENCHMARK(ASI1600MM, light_s_120s_g139)
RICEPP_BENCHMARK(ASI178MC, bias_g0)
RICEPP_BENCHMARK(ASI178MC, dark_60s_g0)
RICEPP_BENCHMARK(ASI178MC, flat_g0)
RICEPP_BENCHMARK(ASI178MC, light_60s_g0)
RICEPP_BENCHMARK(ASI2600MC, flat_g0)
RICEPP_BENCHMARK(ASI2600MC, light_180s_g100)
RICEPP_BENCHMARK(ASI2600MM, bias_g0)
RICEPP_BENCHMARK(ASI2600MM, bias_g100)
RICEPP_BENCHMARK(ASI2600MM, bias_g300)
RICEPP_BENCHMARK(ASI2600MM, dark_900s_g300)
RICEPP_BENCHMARK(ASI2600MM, flat_h_g0)
RICEPP_BENCHMARK(ASI2600MM, light_b_30s_g0)
RICEPP_BENCHMARK(ASI2600MM, light_h_120s_g300)
RICEPP_BENCHMARK(ASI294MC, light_120s_g200)
RICEPP_BENCHMARK(ASI294MC, light_180s_g0)
RICEPP_BENCHMARK(ASI294MC, light_60s_g0)
RICEPP_BENCHMARK(ASI6200MC, light_60s_g100)
BENCHMARK_MAIN();