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diff --git a/FixedOrderGen/src/main.cc b/FixedOrderGen/src/main.cc
index 1b024c4..0f74575 100644
--- a/FixedOrderGen/src/main.cc
+++ b/FixedOrderGen/src/main.cc
@@ -1,228 +1,234 @@
/**
* Name: main.cc
* Authors: Jeppe R. Andersen
*/
#include <fstream>
#include <algorithm>
#include <memory>
#include <chrono>
#include <iostream>
#include <map>
#include "yaml-cpp/yaml.h"
#include "config.hh"
#include "LHEF/LHEF.h"
#include "RHEJ/CombinedEventWriter.hh"
#include "RHEJ/get_analysis.hh"
#include "RHEJ/utility.hh"
//#include "RHEJ/EventReweighter.hh"
#include "RHEJ/stream.hh"
#include "RHEJ/LesHouchesWriter.hh"
#include "EventGenerator.hh"
#include "PhaseSpacePoint.hh"
#include "Ranlux64Engine.hh"
#include "ProgressBar.hh"
#include "Unweighter.hh"
#include "CrossSectionAccumulator.hh"
namespace{
constexpr auto banner =
" __ ___ __ ______ __ __ \n"
" / / / (_)___ _/ /_ / ____/___ ___ _________ ___ __ / /__ / /______ \n"
" / /_/ / / __ `/ __ \\ / __/ / __ \\/ _ \\/ ___/ __ `/ / / / __ / / _ \\/ __/ ___/ \n"
" / __ / / /_/ / / / / / /___/ / / / __/ / / /_/ / /_/ / / /_/ / __/ /_(__ ) \n"
" /_/ /_/_/\\__, /_/ /_/ /_____/_/ /_/\\___/_/ \\__, /\\__, / \\____/\\___/\\__/____/ \n"
" ____///__/ __ ____ ///__//____/ ______ __ \n"
" / ____(_) _____ ____/ / / __ \\_________/ /__ _____ / ____/__ ____ ___ _________ _/ /_____ _____\n"
" / /_ / / |/_/ _ \\/ __ / / / / / ___/ __ / _ \\/ ___/ / / __/ _ \\/ __ \\/ _ \\/ ___/ __ `/ __/ __ \\/ ___/\n"
" / __/ / /> </ __/ /_/ / / /_/ / / / /_/ / __/ / / /_/ / __/ / / / __/ / / /_/ / /_/ /_/ / / \n"
" /_/ /_/_/|_|\\___/\\__,_/ \\____/_/ \\__,_/\\___/_/ \\____/\\___/_/ /_/\\___/_/ \\__,_/\\__/\\____/_/ \n"
;
constexpr double invGeV2_to_pb = 389379292.;
constexpr long long max_warmup_events = 10000;
}
HEJFOG::Config load_config(char const * filename){
try{
return HEJFOG::load_config(filename);
}
catch(std::exception const & exc){
std::cerr << "Error: " << exc.what() << '\n';
std::exit(EXIT_FAILURE);
}
}
std::unique_ptr<RHEJ::Analysis> get_analysis(
YAML::Node const & parameters
){
try{
return RHEJ::get_analysis(parameters);
}
catch(std::exception const & exc){
std::cerr << "Failed to load analysis: " << exc.what() << '\n';
std::exit(EXIT_FAILURE);
}
}
void rescale_weights(RHEJ::Event & ev, double factor) {
ev.central().weight *= factor;
for(auto & var: ev.variations()){
var.weight *= factor;
}
}
int main(int argn, char** argv) {
using namespace std::string_literals;
if (argn < 2) {
std::cerr << "\n# Usage:\n.FOgen config_file\n";
return EXIT_FAILURE;
}
std::cout << banner;
fastjet::ClusterSequence::print_banner();
using clock = std::chrono::system_clock;
const auto start_time = clock::now();
// read configuration
auto config = load_config(argv[1]);
std::unique_ptr<RHEJ::Analysis> analysis = get_analysis(
config.analysis_parameters
);
assert(analysis != nullptr);
auto ran = HEJFOG::make_Ranlux64Engine();
if(config.RanLux_init) ran.restoreStatus(config.RanLux_init->c_str());
HEJFOG::EventGenerator generator{
config.process,
config.beam,
config.scale_gen,
config.jets,
config.pdf_id,
config.unordered_fraction,
config.Higgs_properties,
config.Higgs_coupling,
ran
};
//TODO: fix Les Houches init block (HEPRUP)
LHEF::HEPRUP lhefheprup;
lhefheprup.IDBMUP=std::pair<long,long>(config.beam.particles[0], config.beam.particles[1]);
lhefheprup.EBMUP=std::make_pair(config.beam.energy, config.beam.energy);
lhefheprup.PDFGUP=std::make_pair(0,0);
lhefheprup.PDFSUP=std::make_pair(config.pdf_id,config.pdf_id);
lhefheprup.NPRUP=1;
lhefheprup.XSECUP=std::vector<double>(1.);
lhefheprup.XERRUP=std::vector<double>(1.);
lhefheprup.LPRUP=std::vector<int>{1};
RHEJ::CombinedEventWriter writer{config.output, lhefheprup};
RHEJ::optional<HEJFOG::Unweighter> unweighter{};
std::map<HEJFOG::Status, int> status_counter;
std::vector<RHEJ::Event> events;
int trials = 0;
// warm-up phase to train unweighter
if(config.unweight) {
std::cout << "Calibrating unweighting ...\n";
const auto warmup_start = clock::now();
const size_t warmup_events = config.unweight->sample_size;
HEJFOG::ProgressBar<size_t> warmup_progress{std::cout, warmup_events};
for(; events.size() < warmup_events; ++trials){
auto ev = generator.gen_event();
++status_counter[generator.status()];
if(generator.status() == HEJFOG::good && analysis->pass_cuts(ev, ev)) {
events.emplace_back(std::move(ev));
++warmup_progress;
}
}
std::cout << std::endl;
unweighter = HEJFOG::Unweighter{
begin(events), end(events), config.unweight->max_dev, ran
};
std::vector<RHEJ::Event> unweighted_events;
for(auto && ev: events) {
auto unweighted = unweighter->unweight(std::move(ev));
if(unweighted) {
unweighted_events.emplace_back(std::move(*unweighted));
}
}
events = std::move(unweighted_events);
+ if(events.empty()) {
+ std::cerr <<
+ "Failed to generate events. Please increase \"unweight: sample size\""
+ " or reduce \"unweight: max deviation\"\n";
+ return EXIT_FAILURE;
+ }
const auto warmup_end = clock::now();
const double completion = static_cast<double>(events.size())/config.events;
const std::chrono::duration<double> remaining_time =
(warmup_end- warmup_start)*(1./completion - 1);
const auto finish = clock::to_time_t(
std::chrono::time_point_cast<std::chrono::seconds>(warmup_end + remaining_time)
);
std::cout
<< "Generated " << events.size() << "/" << config.events << " events ("
<< static_cast<int>(std::round(100*completion)) << "%)\n"
<< "Estimated remaining generation time: "
<< remaining_time.count() << " seconds ("
<< std::put_time(std::localtime(&finish), "%c") << ")\n\n";
}
HEJFOG::ProgressBar<long long> progress{std::cout, config.events};
progress.increment(events.size());
events.reserve(config.events);
for(; events.size() < static_cast<size_t>(config.events); ++trials){
auto ev = generator.gen_event();
++status_counter[generator.status()];
if(generator.status() == HEJFOG::good && analysis->pass_cuts(ev, ev)) {
if(unweighter) {
auto unweighted = unweighter->unweight(std::move(ev));
if(! unweighted) continue;
ev = std::move(*unweighted);
}
events.emplace_back(std::move(ev));
++progress;
}
}
std::cout << std::endl;
HEJFOG::CrossSectionAccumulator xs;
for(auto & ev: events){
rescale_weights(ev, invGeV2_to_pb/trials);
analysis->fill(ev, ev);
writer.write(ev);
xs.fill(ev);
}
const std::chrono::duration<double> run_time = (clock::now() - start_time);
std::cout << "\nTask Runtime: " << run_time.count() << " seconds.\n\n";
std::cout.precision(10);
std::cout.setf(std::ios::fixed);
std::cout
<< " " << std::left << std::setw(20)
<< "Cross section: " << xs.total().value
<< " +- " << std::sqrt(xs.total().error) << " (pb)\n";
for(auto const & xs_type: xs) {
std::cout
<< " " << std::left << std::setw(20)
<< (RHEJ::event_type::names[xs_type.first] + ": "s)
<< xs_type.second.value << " +- "
<< std::sqrt(xs_type.second.error) << " (pb)\n";
}
std::cout << '\n';
for(auto && entry: status_counter){
const double fraction = static_cast<double>(entry.second)/trials;
const int percent = std::round(100*fraction);
std::cout << "status "
<< std::left << std::setw(16) << (to_string(entry.first) + ":")
<< " [";
for(int i = 0; i < percent/2; ++i) std::cout << '#';
for(int i = percent/2; i < 50; ++i) std::cout << ' ';
std::cout << "] " << percent << "%\n";
}
}
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