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	diff --git a/src/bin/HEJ.cc b/src/bin/HEJ.cc
	index ed90104..a5699ee 100644
	--- a/src/bin/HEJ.cc
	+++ b/src/bin/HEJ.cc
	@@ -1,211 +1,211 @@
	/**
	* \authors The HEJ collaboration (see AUTHORS for details)
	* \date 2019
	* \copyright GPLv2 or later
	*/
	#include <array>
	#include <chrono>
	#include <iostream>
	#include <limits>
	#include <memory>
	#include <numeric>

	#include "yaml-cpp/yaml.h"

	#include "fastjet/ClusterSequence.hh"

	#include "HEJ/CombinedEventWriter.hh"
	#include "HEJ/config.hh"
	#include "HEJ/CrossSectionAccumulator.hh"
	#include "HEJ/Event.hh"
	#include "HEJ/EventReader.hh"
	#include "HEJ/EventReweighter.hh"
	#include "HEJ/get_analysis.hh"
	#include "HEJ/make_RNG.hh"
	#include "HEJ/ProgressBar.hh"
	#include "HEJ/stream.hh"
	#include "HEJ/Version.hh"
	#include "HEJ/YAMLreader.hh"

	int event_number(std::string const & record){
	size_t start = record.rfind("Number of Events");
	start = record.find_first_of("123456789", start);
	if(start == std::string::npos) {
	throw std::invalid_argument("no event number record found");
	}
	const size_t end = record.find_first_not_of("0123456789", start);
	return std::stoi(record.substr(start, end - start));
	}

	HEJ::Config load_config(char const * filename){
	try{
	return HEJ::load_config(filename);
	}
	catch(std::exception const & exc){
	std::cerr << "Error: " << exc.what() << '\n';
	std::exit(EXIT_FAILURE);
	}
	}

	std::unique_ptr<HEJ::Analysis> get_analysis(
	YAML::Node const & parameters
	){
	try{
	return HEJ::get_analysis(parameters);
	}
	catch(std::exception const & exc){
	std::cerr << "Failed to load analysis: " << exc.what() << '\n';
	std::exit(EXIT_FAILURE);
	}
	}

	// unique_ptr is a workaround:
	// HEJ::optional is a better fit, but gives spurious errors with g++ 7.3.0
	std::unique_ptr<HEJ::ProgressBar<double>> make_progress_bar(
	std::vector<double> const & xs
	) {
	if(xs.empty()) return {};
	const double Born_xs = std::accumulate(begin(xs), end(xs), 0.);
	return std::make_unique<HEJ::ProgressBar<double>>(std::cout, Born_xs);
	}

	std::string time_to_string(const time_t time){
	char s[30];
	struct tm * p = localtime(&time);
	strftime(s, 30, "%a %b %d %Y %H:%M:%S", p);
	return s;
	}

	int main(int argn, char** argv) {
	using clock = std::chrono::system_clock;

	if (argn < 3) {
	std::cerr << "\n# Usage:\n."<< argv[0] <<" config_file input_file\n\n";
	return EXIT_FAILURE;
	}

	const auto start_time = clock::now();
	{
	std::cout << "Starting " << HEJ::Version::package_name_full()
	<< ", revision " << HEJ::Version::revision() << " ("
	<< time_to_string(clock::to_time_t(start_time)) << ")" << std::endl;
	}
	fastjet::ClusterSequence::print_banner();

	// read configuration
	const HEJ::Config config = load_config(argv[1]);
	auto reader = HEJ::make_reader(argv[2]);
	assert(reader);

	std::unique_ptr<HEJ::Analysis> analysis = get_analysis(
	config.analysis_parameters
	);
	assert(analysis != nullptr);

	auto heprup = reader->heprup();
	heprup.generators.emplace_back(LHEF::XMLTag{});
	heprup.generators.back().name = HEJ::Version::package_name();
	heprup.generators.back().version = HEJ::Version::String();
	HEJ::CombinedEventWriter writer{config.output, std::move(heprup)};

	double global_reweight = 1.;
	int max_events = std::numeric_limits<int>::max();
	if(argn > 3){
	max_events = std::stoi(argv[3]);
	const int input_events = event_number(reader->header());
	global_reweight = input_events/static_cast<double>(max_events);
	std::cout << "Processing " << max_events
	<< " out of " << input_events << " events\n";
	}
	HEJ::ScaleGenerator scale_gen{
	config.scales.base,
	config.scales.factors,
	config.scales.max_ratio
	};
	auto ran = HEJ::make_RNG(config.rng.name, config.rng.seed);
	assert(ran != nullptr);
	HEJ::EventReweighter hej{
	reader->heprup(),
	std::move(scale_gen),
	to_EventReweighterConfig(config),
	*ran
	};

	// status infos & eye candy
	int nevent = 0;
	std::array<int, HEJ::event_type::last_type + 1>
	nevent_type{0}, nfailed_type{0};
	auto progress = make_progress_bar(reader->heprup().XSECUP);
	HEJ::CrossSectionAccumulator xs;
	std::map<HEJ::StatusCode, int> status_counter;
	size_t total_trials = 0;

	// Loop over the events in the input file
	while(reader->read_event()){
	// reweight events so that the total cross section is conserved
	auto hepeup = reader->hepeup();
	hepeup.setWeight(0, global_reweight * hepeup.weight());

	if(nevent == max_events) break;
	++nevent;

	HEJ::Event::EventData event_data{hepeup};
	event_data.reconstruct_intermediate();

	// calculate HEJ weight
	HEJ::Event FO_event{
	std::move(event_data).cluster(
	config.fixed_order_jets.def, config.fixed_order_jets.min_pt
	)
	};
	auto resummed_events = hej.reweight(FO_event, config.trials);
	for(auto const & s: hej.status())
	++status_counter[s];
	total_trials+=hej.status().size();
	++nevent_type[FO_event.type()];

	if(resummed_events.empty()) ++nfailed_type[FO_event.type()];

	for(auto const & ev: resummed_events){
	//TODO: move pass_cuts to after phase space point generation
	if(analysis->pass_cuts(ev, FO_event)){
	analysis->fill(ev, FO_event);
	writer.write(ev);
	xs.fill(ev);
	}
	}
	if(progress) progress->increment(FO_event.central().weight);
	} // main event loop
	std::cout << '\n';
	analysis->finalise();

	using namespace HEJ::event_type;
	std::cout<< "Events processed: " << nevent << '\n';
	for(size_t ev_type = first_type; ev_type <= last_type; ++ev_type){
	std::cout << '\t' << names[ev_type] << ": " << nevent_type[ev_type]
	<< ", failed to reconstruct " << nfailed_type[ev_type]
	<< '\n';
	}

	std::cout << '\n' << xs << '\n';

	std::cout << "Generation statistic: "
	<< status_counter[HEJ::StatusCode::good] << "/" << total_trials
	<< " trials successful.\n";
	for(auto && entry: status_counter){
	const double fraction = static_cast<double>(entry.second)/total_trials;
	const int percent = std::round(100*fraction);
	- std::cout << std::left << std::setw(16) << (to_string(entry.first) + ":")
	+ std::cout << std::left << std::setw(17) << (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";
	+ std::cout << "] " <<std::setw(2)<<std::right<< percent << "%\n";
	}

	std::chrono::duration<double> run_time = (clock::now() - start_time);
	std::cout << "\nFinished " << HEJ::Version::package_name() << " at "
	<< time_to_string(clock::to_time_t(clock::now()))
	<< "\n=> Runtime: " << run_time.count() << " sec ("
	<< nevent/run_time.count() << " Events/sec).\n";

	}

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