#include "choosegenerators.h"
#include "ui_choosegenerators.h"
#include "Hardware.h"
#include <QComboBox>
#include <QRegExp>
#include <QRegExpValidator>
#include <QMessageBox>
mnd::MandelViewport Benchmarker::benchViewport(void)
{
return mnd::MandelViewport{ -1.250000598933854152929, 0.0001879894057291665530, 0.0000003839916666666565, 0.0000003839916666666565 };
}
const std::vector<mnd::MandelInfo> Benchmarker::benches {
mnd::MandelInfo{ benchViewport(), 25, 25, 15, false },
mnd::MandelInfo{ benchViewport(), 25, 25, 25, false },
mnd::MandelInfo{ benchViewport(), 25, 25, 75, false },
mnd::MandelInfo{ benchViewport(), 25, 25, 125, false },
mnd::MandelInfo{ benchViewport(), 25, 25, 250, false },
mnd::MandelInfo{ benchViewport(), 50, 25, 250, false },
mnd::MandelInfo{ benchViewport(), 50, 50, 250, false },
mnd::MandelInfo{ benchViewport(), 50, 50, 500, false },
mnd::MandelInfo{ benchViewport(), 50, 100, 500, false },
mnd::MandelInfo{ benchViewport(), 100, 100, 500, false },
mnd::MandelInfo{ benchViewport(), 100, 100, 1000, false },
mnd::MandelInfo{ benchViewport(), 100, 200, 1000, false },
mnd::MandelInfo{ benchViewport(), 200, 200, 1000, false },
mnd::MandelInfo{ benchViewport(), 200, 200, 2000, false },
mnd::MandelInfo{ benchViewport(), 200, 400, 2000, false },
mnd::MandelInfo{ benchViewport(), 400, 400, 2000, false },
mnd::MandelInfo{ benchViewport(), 400, 400, 4000, false },
mnd::MandelInfo{ benchViewport(), 400, 800, 4000, false },
mnd::MandelInfo{ benchViewport(), 800, 800, 4000, false },
mnd::MandelInfo{ benchViewport(), 800, 800, 8000, false },
mnd::MandelInfo{ benchViewport(), 800, 800, 16000, false },
mnd::MandelInfo{ benchViewport(), 800, 1600, 16000, false },
mnd::MandelInfo{ benchViewport(), 1600, 1600, 16000, false },
mnd::MandelInfo{ benchViewport(), 1600, 1600, 32000, false },
mnd::MandelInfo{ benchViewport(), 1600, 1600, 64000, false },
mnd::MandelInfo{ benchViewport(), 1600, 1600, 128000, false },
mnd::MandelInfo{ benchViewport(), 1600, 1600, 256000, false },
mnd::MandelInfo{ benchViewport(), 1600, 1600, 512000, false },
mnd::MandelInfo{ benchViewport(), 1600, 1600, 1024000, false },
mnd::MandelInfo{ benchViewport(), 1600, 1600, 4096000, false },
mnd::MandelInfo{ benchViewport(), 1600, 1600, 8192000, false },
mnd::MandelInfo{ benchViewport(), 1600, 1600, 16384000, false },
mnd::MandelInfo{ benchViewport(), 1600, 1600, 32768000, false },
mnd::MandelInfo{ benchViewport(), 1600, 1600, 65536000, false },
mnd::MandelInfo{ benchViewport(), 1600, 1600, 131072000, false },
mnd::MandelInfo{ benchViewport(), 1600, 1600, 262144000, false },
mnd::MandelInfo{ benchViewport(), 1600, 1600, 524288000, false },
mnd::MandelInfo{ benchViewport(), 1600, 1600, 1048576000, false },
mnd::MandelInfo{ benchViewport(), 1600, 1600, 2097152000, false },
};
Benchmarker::~Benchmarker(void)
{
}
std::pair<long long, std::chrono::nanoseconds> Benchmarker::measureMips(const std::function<Bitmap<float>*()>& bench) const
{
using namespace std::chrono;
auto before = high_resolution_clock::now();
auto* bitmap = bench();
auto after = high_resolution_clock::now();
long long sum = 0;
for (int i = 0; i < bitmap->width * bitmap->height; i++) {
sum += static_cast<long long>(std::floor(bitmap->pixels[size_t(i)]));
}
return std::make_pair(sum, duration_cast<nanoseconds>(after - before));
}
double Benchmarker::benchmarkResult(mnd::Generator& mg) const
{
size_t testIndex = 0;
for (size_t i = 0; i < benches.size(); i++) {
const mnd::MandelInfo& mi = benches[i];
Bitmap<float> bmp(mi.bWidth, mi.bHeight);
auto [iters, time] = measureMips([&mg, &mi, &bmp]() {
mg.generate(mi, bmp.pixels.get());
return &bmp;
});
if (time > std::chrono::milliseconds(500)) {
testIndex = i + 2;
//printf("testing index %d\n", testIndex);
fflush(stdout);
break;
}
else if (time < std::chrono::milliseconds(10)) {
i += 7;
}
}
const mnd::MandelInfo& mi = benches[(testIndex >= benches.size()) ? (benches.size() - 1) : testIndex];
Bitmap<float> bmp(mi.bWidth, mi.bHeight);
auto [iters, time] = measureMips([&mg, &mi, &bmp]() {
mg.generate(mi, bmp.pixels.get());
return &bmp;
});
return double(iters) / time.count() * 1000;
}
void Benchmarker::run(void)
{
double result = benchmarkResult(generator);
emit finished(row, percentage, result);
}
ChooseGenerators::ChooseGenerators(mnd::MandelContext& mndCtxt, QWidget *parent) :
QDialog{ parent },
ui{ std::make_unique<Ui::ChooseGenerators>() },
mndCtxt{ mndCtxt },
tableContent{}
{
ui->setupUi(this);
ui->progressBar->setRange(0, 1000);
benchmarker.setMaxThreadCount(1);
QRegExp floatingpoint{ "^[-+]?(\\d*\\.?\\d+|\\d+\\.?\\d*)([eE][-+]\\d+)?$" };
floatValidator = std::make_unique<QRegExpValidator>(floatingpoint, this);
for (auto genType : mndCtxt.getSupportedTypes()) {
const std::string& typeName = mnd::getGeneratorName(genType);
generators.insert({ QString::fromStdString(typeName), mndCtxt.getCpuGenerator(genType) });
}
for (auto& device : mndCtxt.getDevices()) {
for (auto genType : device.getSupportedTypes()) {
const std::string& typeName = mnd::getGeneratorName(genType) + " [" + device.getName() + "]";
generators.insert({ QString::fromStdString(typeName), device.getGenerator(genType) });
}
}
auto& defGen = mndCtxt.getDefaultGenerator();
for (auto it = defGen.getGenerators().rbegin(); it != defGen.getGenerators().rend(); it++) {
auto& [prec, gen] = *it;
ui->table->insertRow(0);
QLineEdit* le = createFloatText();
QComboBox* comboBox = createComboBox();
le->setSizePolicy(QSizePolicy::Policy::Preferred, QSizePolicy::Policy::Preferred);
comboBox->setSizePolicy(QSizePolicy::Policy::Preferred, QSizePolicy::Policy::Preferred);
ui->table->setCellWidget(0, 0, le);
ui->table->setCellWidget(0, 1, comboBox);
tableContent.push_back({ le, comboBox });
for (auto [n, g] : generators) {
if (gen == g) {
comboBox->setCurrentText(n);
}
}
le->setText(QString::fromStdString(mnd::toLegibleString(prec)));
comboBox->adjustSize();
le->adjustSize();
}
ui->table->resizeColumnsToContents();
std::vector<mnd::GeneratorType> generatorTypes = mndCtxt.getSupportedTypes();
for (size_t i = 0; i < generatorTypes.size(); i++) {
int rowCount = ui->generatorTable->rowCount();
ui->generatorTable->insertRow(rowCount);
ui->generatorTable->setItem(rowCount, 0, new QTableWidgetItem);
ui->generatorTable->setItem(rowCount, 1, new QTableWidgetItem);
const std::string& genName = mnd::getGeneratorName(generatorTypes[i]);
const mnd::Real& prec = mndCtxt.getCpuGenerator(generatorTypes[i])->getPrecision();
ui->generatorTable->item(rowCount, 0)->setText(QString::fromStdString(genName));
ui->generatorTable->item(rowCount, 1)->setText(QString::fromStdString(mnd::toLegibleString(prec)));
actualGenerators.push_back(mndCtxt.getCpuGenerator(generatorTypes[i]));
}
for (auto& device : mndCtxt.getDevices()) {
std::vector<mnd::GeneratorType> generatorTypes = device.getSupportedTypes();
for (size_t i = 0; i < generatorTypes.size(); i++) {
int rowCount = ui->generatorTable->rowCount();
ui->generatorTable->insertRow(rowCount);
ui->generatorTable->setItem(rowCount, 0, new QTableWidgetItem);
ui->generatorTable->setItem(rowCount, 1, new QTableWidgetItem);
const std::string& genName = mnd::getGeneratorName(generatorTypes[i]) + " [" + device.getName() + "]";
const mnd::Real& prec = device.getGenerator(generatorTypes[i])->getPrecision();
ui->generatorTable->item(rowCount, 0)->setText(QString::fromStdString(genName));
ui->generatorTable->item(rowCount, 1)->setText(QString::fromStdString(mnd::toLegibleString(prec)));
actualGenerators.push_back(device.getGenerator(generatorTypes[i]));
}
}
//ui->addRow->setIcon(ui->addRow->style()->standardIcon(QStyle::SP_));
//ui->moveRowUp->setIcon(ui->moveRowUp->style()->standardIcon(QStyle::SP_ArrowUp));
//ui->moveRowDown->setIcon(ui->moveRowDown->style()->standardIcon(QStyle::SP_ArrowDown));
}
ChooseGenerators::~ChooseGenerators()
{
}
QComboBox* ChooseGenerators::createComboBox(void)
{
QComboBox* qcb = new QComboBox(ui->table);
for (auto [name, type] : generators) {
qcb->addItem(name);
}
return qcb;
}
QLineEdit* ChooseGenerators::createFloatText(void)
{
QLineEdit* le = new QLineEdit(ui->table);
le->setValidator(floatValidator.get());
return le;
}
void ChooseGenerators::setBenchmarkResult(int row, float percentage, double result)
{
this->ui->generatorTable->setItem(row, 2, new QTableWidgetItem);
this->ui->generatorTable->item(row, 2)->setText(QString::number(result));
ui->progressBar->setValue(int(percentage * 10.0f));
}
void ChooseGenerators::on_buttonBox_accepted()
{
if (!createdGenerator)
createdGenerator = std::make_unique<mnd::AdaptiveGenerator>();
createdGenerator->clear();
try {
for (size_t i = 0; i < tableContent.size(); i++) {
QString precString = tableContent.at(i).first->text();
QString genString = tableContent.at(i).second->currentText();
mnd::Real precision = mnd::Real(precString.toStdString().c_str());
mnd::Generator* generator = generators.at(genString);
if (generator)
createdGenerator->addGenerator(precision, *generator);
}
}
catch(...) {
// TODO
createdGenerator = nullptr;
}
}
void ChooseGenerators::on_run_clicked()
{
ui->progressBar->setValue(0);
for (int i = 0; i < ui->generatorTable->rowCount(); i++) {
mnd::Generator* gen = actualGenerators.at(i);
if (gen != nullptr) {
Benchmarker* bench = new Benchmarker(mndCtxt, *gen, i, 100.0f * (i + 1) / ui->generatorTable->rowCount());
QObject::connect(bench, &Benchmarker::finished, this, &ChooseGenerators::setBenchmarkResult);
benchmarker.start(bench);
}
}
}
void ChooseGenerators::on_generatorTable_cellDoubleClicked(int row, int column)
{
if (column == 2) {
QMessageBox msgBox{ this };
msgBox.setText("Would you like to benchmark this generator?");
msgBox.setStandardButtons(QMessageBox::Yes | QMessageBox::No);
int response = msgBox.exec();
if (response == QMessageBox::Yes) {
mnd::Generator* gen = actualGenerators.at(row);
if (gen != nullptr) {
ui->progressBar->setValue(0);
Benchmarker* bench = new Benchmarker(mndCtxt, *gen, row, 100.0f);
QObject::connect(bench, &Benchmarker::finished, this, &ChooseGenerators::setBenchmarkResult);
benchmarker.start(bench);
}
}
}
}