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	diff --git a/LesHouches/LesHouchesFileReader.cc b/LesHouches/LesHouchesFileReader.cc
	--- a/LesHouches/LesHouchesFileReader.cc
	+++ b/LesHouches/LesHouchesFileReader.cc
	@@ -1,873 +1,874 @@
	// -- C++ --
	//
	// LesHouchesFileReader.cc is a part of ThePEG - Toolkit for HEP Event Generation
	// Copyright (C) 1999-2011 Leif Lonnblad
	//
	// ThePEG is licenced under version 2 of the GPL, see COPYING for details.
	// Please respect the MCnet academic guidelines, see GUIDELINES for details.
	//
	//
	// This is the implementation of the non-inlined, non-templated member
	// functions of the LesHouchesFileReader class.
	//

	#include "LesHouchesFileReader.h"
	#include "ThePEG/Interface/ClassDocumentation.h"
	#include "ThePEG/Interface/Reference.h"
	#include "ThePEG/Interface/Switch.h"
	#include "ThePEG/Interface/Parameter.h"
	#include "ThePEG/Utilities/Throw.h"
	#include "ThePEG/PDT/DecayMode.h"
	#include "ThePEG/Persistency/PersistentOStream.h"
	#include "ThePEG/Persistency/PersistentIStream.h"
	#include <boost/algorithm/string.hpp>
	#include <boost/lexical_cast.hpp>
	#include <sstream>
	#include <iostream>

	using namespace ThePEG;

	LesHouchesFileReader::
	LesHouchesFileReader(const LesHouchesFileReader & x)
	: LesHouchesReader(x), neve(x.neve), ieve(0),
	LHFVersion(x.LHFVersion), outsideBlock(x.outsideBlock),
	headerBlock(x.headerBlock), initComments(x.initComments),
	initAttributes(x.initAttributes), eventComments(x.eventComments),
	eventAttributes(x.eventAttributes),
	theFileName(x.theFileName), theQNumbers(x.theQNumbers),
	theDecayer(x.theDecayer) {}

	LesHouchesFileReader::~LesHouchesFileReader() {}

	IBPtr LesHouchesFileReader::clone() const {
	return new_ptr(*this);
	}

	IBPtr LesHouchesFileReader::fullclone() const {
	return new_ptr(*this);
	}

	bool LesHouchesFileReader::preInitialize() const {
	return true;
	}

	void LesHouchesFileReader::doinit() {
	LesHouchesReader::doinit();
	//cout << "theDecayer->fullName() = " << theDecayer->fullName() << endl;
	//if(theDecayer) {
	// cout << "DECAYER RETURNS TRUE" << endl;
	// }
	// are we using QNUMBERS
	if(!theQNumbers) return;
	// parse the header block and create
	// any new particles needed in QNUMBERS blocks
	string block = headerBlock;
	string line = "";
	bool readingSLHA = false;
	int (*pf)(int) = tolower;
	unsigned int newNumber(0);
	do {
	line = StringUtils::car(block,"\r\n");
	block = StringUtils::cdr(block,"\r\n");
	if(line[0]=='#') continue;
	// are we reading the SLHA block
	if(readingSLHA) {
	// reached the end of slha block ?
	if(line.find("</slha") != string::npos) {
	readingSLHA = false;
	break;
	}
	// remove trailing comment from line
	vector<string> split = StringUtils::split(line,"#");
	// check for a qnumbers block
	transform(split[0].begin(), split[0].end(), split[0].begin(), pf);
	// if not contine
	if(split[0].find("block qnumbers")==string::npos)
	continue;
	// get name from comment
	string name;
	if(split.size()>=2) {
	name = StringUtils::stripws(split[1]);
	}
	else {
	++newNumber;
	ostringstream tname;
	tname << "NP" << newNumber;
	name = tname.str();
	}
	// extract the PDG code
	split = StringUtils::split(split[0]," ");
	istringstream is(split[2]);
	long PDGCode(0);
	is >> PDGCode;
	// get the charge, spin, colour and whether an antiparticle
	int charge(0),spin(0),colour(0),anti(0);
	for(unsigned int ix=0;ix<4;++ix) {
	line = StringUtils::car(block,"\r\n");
	block = StringUtils::cdr(block,"\r\n");
	int dummy[2];
	istringstream is(line);
	is >> dummy[0] >> dummy[1];
	switch (dummy[0]) {
	case 1:
	charge = dummy[1];
	break;
	case 2:
	spin = dummy[1];
	break;
	case 3:
	colour = dummy[1];
	break;
	case 4:
	anti = dummy[1];
	break;
	default:
	assert(false);
	}
	}
	// check if particles already exist
	PDPair newParticle;
	newParticle.first = getParticleData(PDGCode);
	if(newParticle.first) Throw<SetupException>()
	<< "Particle with PDG code " << PDGCode
	<< " whose creation was requested in a QNUMBERS Block"
	<< " already exists. Retaining the original particle"
	<< Exception::warning;
	if(anti) {
	newParticle.second = getParticleData(-PDGCode);
	if(newParticle.second) Throw<SetupException>()
	<< "Anti-particle with PDG code " << -PDGCode
	<< " whose creation was requested in a QNUMBERS Block"
	<< " already exists. Retaining the original particle"
	<< Exception::warning;
	if(( newParticle.first && !newParticle.second ) \|\|
	( newParticle.second && !newParticle.first ) )
	Throw<SetupException>()
	<< "Either particle or anti-particle with PDG code " << PDGCode
	<< " whose creation was requested in a QNUMBERS Block"
	<< " already exists, but not both the particle and antiparticle. "
	<< " Something dodgy here stopping"
	<< Exception::runerror;
	}
	// already exists continue
	if(newParticle.first) continue;
	// create the particles
	// particle with no anti particle
	if( anti == 0 ) {
	// construct the name
	if(name=="") {
	ostringstream temp;
	temp << PDGCode;
	name = temp.str();
	}
	// create the ParticleData object
	newParticle.first = ParticleData::Create(PDGCode,name);
	}
	// particle anti-particle pair
	else {
	// construct the names
	string nameAnti;
	if(name=="") {
	ostringstream temp;
	temp << PDGCode;
	name = temp.str();
	ostringstream temp2;
	temp << -PDGCode;
	nameAnti = temp2.str();
	}
	else {
	nameAnti=name;
	for(string::iterator it=nameAnti.begin();it!=nameAnti.end();++it) {
	if(*it=='+') nameAnti.replace(it,it+1,"-");
	else if(*it=='-') nameAnti.replace(it,it+1,"+");
	}
	if(nameAnti==name) nameAnti += "bar";
	}
	// create the ParticleData objects
	newParticle = ParticleData::Create(PDGCode,name,nameAnti);
	}
	// set the particle properties
	if(colour==1) colour = 0;
	newParticle.first->iColour(PDT::Colour(colour));
	newParticle.first->iSpin (PDT::Spin (spin ));
	newParticle.first->iCharge(PDT::Charge(charge));
	// register it
	generator()->preinitRegister(newParticle.first,
	"/Herwig/Particles/"+newParticle.first->PDGName());
	// set the antiparticle properties
	if(newParticle.second) {
	if(colour==3\|\|colour==6) colour *= -1;
	charge = -charge;
	newParticle.second->iColour(PDT::Colour(colour));
	newParticle.second->iSpin (PDT::Spin (spin ));
	newParticle.second->iCharge(PDT::Charge(charge));
	// register it
	generator()->preinitRegister(newParticle.second,
	"/Herwig/Particles/"+newParticle.second->PDGName());
	}
	}
	// start of SLHA block ?
	else if(line.find("<slha") != string::npos) {
	readingSLHA = true;
	}
	}
	while(line!="");
	// now set any masses/decay modes
	block = headerBlock;
	line="";
	readingSLHA=false;
	bool ok=true;
	do {
	line = StringUtils::car(block,"\r\n");
	block = StringUtils::cdr(block,"\r\n");
	// are we reading the SLHA block
	if(readingSLHA) {
	// reached the end?
	if(line.find("</slha") == 0 ) {
	readingSLHA = false;
	break;
	}
	// make lower case
	transform(line.begin(),line.end(),line.begin(), pf);
	// found the mass block ?
	if(line.find("block mass")!=string::npos) {
	// read it
	line = StringUtils::car(block,"\r\n");
	// check not at end
	while(line[0] != 'D' && line[0] != 'B' &&
	line[0] != 'd' && line[0] != 'b' &&
	line != "") {
	// skip comment lines
	if(line[0] == '#') {
	block = StringUtils::cdr(block,"\r\n");
	line = StringUtils::car(block,"\r\n");
	continue;
	}
	// get the mass and PGD code
	istringstream temp(line);
	long id;
	double mass;
	temp >> id >> mass;
	// skip resetting masses on SM particles
	// as it can cause problems later on in event generation
	if(abs(id)<=6 \|\| (abs(id)>=11 && abs(id)<=16) \|\|
	abs(id)==23 \|\| abs(id)==24) {
	// Throw<SetupException>() << "Standard model mass for PID "
	// << id
	// << " will not be changed."
	// << Exception::warning;
	block = StringUtils::cdr(block,"\r\n");
	line = StringUtils::car(block,"\r\n");
	continue;
	}
	// magnitude of mass for susy models
	mass = abs(mass);
	// set the mass
	tPDPtr particle = getParticleData(id);
	if(!particle) throw SetupException()
	<< "LesHouchesFileReader::doinit() - Particle with PDG code not"
	<< id << " not found." << Exception::runerror;
	const InterfaceBase * ifb = BaseRepository::FindInterface(particle,
	"NominalMass");
	ostringstream os;
	os << mass;
	ifb->exec(*particle, "set", os.str());
	// read the next line
	block = StringUtils::cdr(block,"\r\n");
	line = StringUtils::car(block,"\r\n");
	};
	}
	// found a decay block
	else if(line.find("decay") == 0) {
	// get PGD code and width
	istringstream iss(line);
	string dummy;
	long parent(0);
	Energy width(ZERO);
	iss >> dummy >> parent >> iunit(width, GeV);
	// get the ParticleData object
	PDPtr inpart = getParticleData(parent);
	if(!inpart) {
	throw SetupException()
	<< "LesHouchesFileReader::doinit() - A ParticleData object with the PDG code "
	<< parent << " does not exist. " << Exception::runerror;
	return;
	}
	if ( abs(inpart->id()) == 6 \|\|
	abs(inpart->id()) == 15 \|\|
	abs(inpart->id()) == 23 \|\|
	abs(inpart->id()) == 24 \|\|
	abs(inpart->id()) == 25 ) {
	Throw<SetupException>() << "\n"
	"************************************************************************\n"
	"* Your LHE file changes the width of " << inpart->PDGName() << ".\n"
	"* This can cause serious problems in the event generation!\n"
	"************************************************************************\n"
	"\n" << Exception::warning;
	}
	else if (inpart->width() > ZERO && width <= ZERO) {
	Throw<SetupException>() << "\n"
	"************************************************************************\n"
	"* Your LHE file zeroes the non-zero width of " << inpart->PDGName() << ".\n"
	"* If " << inpart->PDGName() << " is a decaying SM particle,\n"
	"* this can cause serious problems in the event generation!\n"
	"************************************************************************\n"
	"\n" << Exception::warning;
	}
	// set the width
	inpart->width(width);
	if( width > ZERO ) {
	inpart->cTau(hbarc/width);
	inpart->widthCut(5.*width);
	inpart->stable(false);
	}
	// construct prefix for DecayModes
	string prefix(inpart->name() + "->"), tag(prefix),line("");
	unsigned int nmode(0);
	// read any decay modes
	line = StringUtils::car(block,"\r\n");
	while(line[0] != 'D' && line[0] != 'B' &&
	line[0] != 'd' && line[0] != 'b' &&
	line[0] != '<' && line != "") {
	// skip comments
	if(line[0] == '#') {
	block = StringUtils::cdr(block,"\r\n");
	line = StringUtils::car(block,"\r\n");
	continue;
	}
	// read decay mode and construct the tag
	istringstream is(line);
	double brat(0.);
	unsigned int nda(0),npr(0);
	is >> brat >> nda;
	while( true ) {
	long t;
	is >> t;
	if( is.fail() ) break;
	if( t == abs(parent) )
	throw SetupException()
	<< "An error occurred while read a decay of the "
	<< inpart->PDGName() << ". One of its products has the same PDG code "
	<< "as the parent particle in LesHouchesFileReader::doinit()."
	<< " Please check the Les Houches file.\n"
	<< Exception::runerror;
	tcPDPtr p = getParticleData(t);
	if( !p )
	throw SetupException()
	<< "LesHouchesFileReader::doinit() -"
	<< " An unknown PDG code has been encounterd "
	<< "while reading a decay mode. ID: " << t
	<< Exception::runerror;
	++npr;
	tag += p->name() + ",";
	}
	if( npr != nda )
	throw SetupException()
	<< "LesHouchesFileReader::doinit() - While reading a decay of the "
	<< inpart->PDGName() << " from an SLHA file, an inconsistency "
	<< "between the number of decay products and the value in "
	<< "the 'NDA' column was found. Please check if the spectrum "
	<< "file is correct.\n"
	<< Exception::warning;
	// create the DecayMode
	if( npr > 1 ) {
	if( nmode==0 ) {
	generator()->preinitInterface(inpart, "VariableRatio" , "set","false");
	if(inpart->massGenerator()) {
	ok = false;
	Throw<SetupException>()
	<< inpart->PDGName() << " already has a MassGenerator set"
	<< " this is incompatible with using QNUMBERS "
	<< "Use\n"
	<< "set " << inpart->fullName() << ":Mass_generator NULL\n"
	<< "to fix this." << Exception::warning;
	}
	if(inpart->widthGenerator()) {
	ok = false;
	Throw<SetupException>()
	<< inpart->PDGName() << " already has a WidthGenerator set"
	<< " this is incompatible with using QNUMBERS "
	<< "Use\n"
	<< "set " << inpart->fullName() << ":Width_generator NULL\n"
	<< "to fix this." << Exception::warning;
	}
	unsigned int ntemp=0;
	for(DecaySet::const_iterator dit = inpart->decayModes().begin();
	dit != inpart->decayModes().end(); ++dit ) {
	if((**dit).on()) ++ntemp;
	}
	if(ntemp!=0) {
	ok = false;
	Throw<SetupException>()
	<< inpart->PDGName() << " already has DecayModes"
	<< " this is incompatible with using QNUMBERS "
	<< "Use\n"
	<< "do " << inpart->fullName() << ":SelectDecayModes none\n"
	<< " to fix this." << Exception::warning;
	}
	}
	inpart->stable(false);
	tag.replace(tag.size() - 1, 1, ";");
	DMPtr dm = generator()->findDecayMode(tag);
	if(!theDecayer) Throw<SetupException>()
	<< "LesHouchesFileReader::doinit() Decayer must be set using the "
	<< "LesHouchesFileReader:Decayer"
	<< " must be set to allow the creation of new"
	<< " decay modes."
	<< Exception::runerror;
	if(!dm) {
	dm = generator()->preinitCreateDecayMode(tag);
	if(!dm)
	Throw<SetupException>()
	<< "LesHouchesFileReader::doinit() - Needed to create "
	<< "new decaymode but one could not be created for the tag "
	<< tag << Exception::warning;
	}
	generator()->preinitInterface(dm, "Decayer", "set",
	theDecayer->fullName());
	ostringstream br;
	br << setprecision(13) << brat;
	generator()->preinitInterface(dm, "BranchingRatio", "set", br.str());
	generator()->preinitInterface(dm, "OnOff", "set", "On");
	if(dm->CC()) {
	generator()->preinitInterface(dm->CC(), "BranchingRatio", "set", br.str());
	generator()->preinitInterface(dm->CC(), "OnOff", "set", "On");
	}
	++nmode;
	}
	tag=prefix;
	// read the next line
	block = StringUtils::cdr(block,"\r\n");
	line = StringUtils::car(block,"\r\n");
	};
	if(nmode>0) {
	inpart->update();
	if(inpart->CC())
	inpart->CC()->update();
	}
	}
	}
	// start of SLHA block ?
	else if(line.find("<slha") != string::npos) {
	readingSLHA = true;
	}
	}
	while(line!="");
	if(!ok)
	throw SetupException() << "Problem reading QNUMBERS blocks in LesHouchesFileReader::doinit()"
	<< Exception::runerror;
	}

	void LesHouchesFileReader::initialize(LesHouchesEventHandler & eh) {
	LesHouchesReader::initialize(eh);
	if ( LHFVersion.empty() )
	Throw<LesHouchesFileError>()
	<< "The file associated with '" << name() << "' does not contain a "
	<< "proper formatted Les Houches event file. The events may not be "
	<< "properly sampled." << Exception::warning;
	}

	//vector<string> LesHouchesFileReader::optWeightNamesFunc() { return optionalWeightsNames; }
	vector<string> LesHouchesFileReader::optWeightsNamesFunc() { return optionalWeightsNames; }

	void LesHouchesFileReader::open() {
	if ( filename().empty() )
	throw LesHouchesFileError()
	<< "No Les Houches file name. "
	<< "Use 'set " << name() << ":FileName'."
	<< Exception::runerror;
	cfile.open(filename());
	if ( !cfile )
	throw LesHouchesFileError()
	<< "The LesHouchesFileReader '" << name() << "' could not open the "
	<< "event file called '" << theFileName << "'."
	<< Exception::runerror;

	cfile.readline();
	if ( !cfile.find("<LesHouchesEvents") ) return;
	map<string,string> attributes =
	StringUtils::xmlAttributes("LesHouchesEvents", cfile.getline());
	LHFVersion = attributes["version"];
	//cout << LHFVersion << endl;
	if ( LHFVersion.empty() ) return;

	bool readingHeader = false;
	bool readingInit = false;
	headerBlock = "";

	char (cwgtinfo_weights_info[250][15]);
	string hs;
	int cwgtinfo_nn(0);

	// Loop over all lines until we hit the </init> tag.
	bool readingInitWeights = false, readingInitWeights_sc = false;
	string weightinfo;
	while ( cfile.readline() ) {

	// found the init block for multiple weights
	if(cfile.find("<initrwgt")) { /cout << "reading weights" << endl;/ readingInitWeights = true; }

	// found end of init block for multiple weights: end the while loop
	if(cfile.find("</initrwgt")) { readingInitWeights = false; readingInitWeights_sc = false; continue;}

	// found the end of init block
	if(cfile.find("</init")) { readingInit = false; break; }

	/* read the weight information block
	* optionalWeightNames will contain information about the weights
	* this will be appended to the weight information
	*/
	if(readingInitWeights) {
	string scalename = "";
	if(cfile.find("<weightgroup")) {
	/* we found a weight group
	* start reading the information
	* within it
	*/
	readingInitWeights_sc = true;
	weightinfo = cfile.getline();
	/* to make it shorter, erase some stuff
	*/
	boost::erase_all(weightinfo, "<weightgroup");
	boost::erase_all(weightinfo, ">");
	boost::erase_all(weightinfo, "\n");
	}
	/* if we are reading a new weightgroup, go on
	* until we find the end of it
	*/
	if(readingInitWeights_sc && !cfile.find("</weightgroup")) {
	// cout << "weightinfo = " << weightinfo << endl;
	hs = cfile.getline();
	istringstream isc(hs);
	int ws = 0;
	/* get the name that will be used to identify the scale
	*/
	do {
	string sub; isc >> sub;
	if(ws==1) { boost::erase_all(sub, ">"); scalename = sub; }
	++ws;
	} while (isc);
	/* now get the relevant information
	* e.g. scales or PDF sets used
	*/
	string startDEL = "'>"; //starting delimiter
	string stopDEL = "</weight>"; //end delimiter
	unsigned firstLim = hs.find(startDEL); //find start of delimiter
	unsigned lastLim = hs.find(stopDEL); //find end of delimitr
	string scinfo = hs.substr(firstLim); //define the information for the scale
	boost::erase_all(scinfo,stopDEL);
	boost::erase_all(scinfo,startDEL);
	scinfo = weightinfo + scinfo;
	/* fill in the map
	* indicating the information to be appended to each scale
	* i.e. scinfo for each scalname
	*/
	scalemap[scalename] = scinfo.c_str();
	boost::erase_all(scalename, "id=");
	boost::erase_all(scalename, "'");
	optionalWeightsNames.push_back(scalename);
	}
	}

	if ( cfile.find("<header") ) {
	// We have hit the header block, so we should dump this and all
	// following lines to headerBlock until we hit the end of it.
	readingHeader = true;
	headerBlock = cfile.getline() + "\n";
	}
	if ( (cfile.find("<init ") && !cfile.find("<initrwgt")) \|\| cfile.find("<init>") ) {
	//cout << "found init block" << endl;
	// We have hit the init block, so we should expect to find the
	// standard information in the following. But first check for
	// attributes.
	initAttributes = StringUtils::xmlAttributes("init", cfile.getline());
	readingInit = true;
	cfile.readline();
	if ( !( cfile >> heprup.IDBMUP.first >> heprup.IDBMUP.second
	>> heprup.EBMUP.first >> heprup.EBMUP.second
	>> heprup.PDFGUP.first >> heprup.PDFGUP.second
	>> heprup.PDFSUP.first >> heprup.PDFSUP.second
	>> heprup.IDWTUP >> heprup.NPRUP ) ) {
	heprup.NPRUP = -42;
	LHFVersion = "";
	return;
	}
	heprup.resize();
	for ( int i = 0; i < heprup.NPRUP; ++i ) {
	cfile.readline();
	if ( !( cfile >> heprup.XSECUP[i] >> heprup.XERRUP[i]
	>> heprup.XMAXUP[i] >> heprup.LPRUP[i] ) ) {
	heprup.NPRUP = -42;
	LHFVersion = "";
	return;
	}
	}
	}
	if ( cfile.find("</header") ) {
	readingHeader = false;
	headerBlock += cfile.getline() + "\n";
	}
	if ( readingHeader ) {
	/* We are in the process of reading the header block. Dump the
	line to headerBlock.*/
	headerBlock += cfile.getline() + "\n";
	}
	if ( readingInit ) {
	// Here we found a comment line. Dump it to initComments.
	initComments += cfile.getline() + "\n";
	}
	}
	string central = "central";
	optionalWeightsNames.push_back(central);

	// cout << "reading init finished" << endl;
	if ( !cfile ) {
	heprup.NPRUP = -42;
	LHFVersion = "";
	return;
	}

	}

	bool LesHouchesFileReader::doReadEvent() {
	if ( !cfile ) return false;
	if ( LHFVersion.empty() ) return false;
	if ( heprup.NPRUP < 0 ) return false;
	eventComments = "";
	outsideBlock = "";
	hepeup.NUP = 0;
	hepeup.XPDWUP.first = hepeup.XPDWUP.second = 0.0;
	optionalWeights.clear();
	optionalWeightsTemp.clear();

	// Keep reading lines until we hit the next event or the end of
	// the event block. Save any inbetween lines. Exit if we didn't
	// find an event.
	while ( cfile.readline() && !cfile.find("<event") )
	outsideBlock += cfile.getline() + "\n";

	// We found an event. First scan for attributes.
	eventAttributes = StringUtils::xmlAttributes("event", cfile.getline());

	/* information necessary for FxFx merging:
	* the npLO and npNLO tags
	*/
	istringstream ievat(cfile.getline());
	- int we(0), npLO(-10), npNLO(-10);
	+ int we(0), npLO(-99), npNLO(-99);
	do {
	string sub; ievat >> sub;
	if(we==2) { npLO = atoi(sub.c_str()); }
	if(we==5) { npNLO = atoi(sub.c_str()); }
	++we;
	} while (ievat);
	optionalnpLO = npLO;
	optionalnpNLO = npNLO;
	std::stringstream npstringstream;
	npstringstream << "np " << npLO << " " << npNLO;
	std::string npstrings = npstringstream.str();
	/* the FxFx merging information
	* becomes part of the optionalWeights, labelled -999
	* for future reference
	*/
	optionalWeights[npstrings.c_str()] = -999;

	if ( !cfile.readline() ) return false;

	// The first line determines how many subsequent particle lines we
	// have.
	if ( !( cfile >> hepeup.NUP >> hepeup.IDPRUP >> hepeup.XWGTUP
	>> hepeup.SCALUP >> hepeup.AQEDUP >> hepeup.AQCDUP ) )
	return false;
	hepeup.resize();
	// Read all particle lines.
	for ( int i = 0; i < hepeup.NUP; ++i ) {
	if ( !cfile.readline() ) return false;
	if ( !( cfile >> hepeup.IDUP[i] >> hepeup.ISTUP[i]
	>> hepeup.MOTHUP[i].first >> hepeup.MOTHUP[i].second
	>> hepeup.ICOLUP[i].first >> hepeup.ICOLUP[i].second
	>> hepeup.PUP[i][0] >> hepeup.PUP[i][1] >> hepeup.PUP[i][2]
	>> hepeup.PUP[i][3] >> hepeup.PUP[i][4]
	>> hepeup.VTIMUP[i] >> hepeup.SPINUP[i] ) )
	return false;
	//print momenta for debugging
	// cout << hepeup.PUP[i][0] << " " << hepeup.PUP[i][1] << " " << hepeup.PUP[i][2] << " " << hepeup.PUP[i][3] << " " << hepeup.PUP[i][4] << endl;
	if(isnan(hepeup.PUP[i][0])\|\|isnan(hepeup.PUP[i][1])\|\|
	isnan(hepeup.PUP[i][2])\|\|isnan(hepeup.PUP[i][3])\|\|
	isnan(hepeup.PUP[i][4]))
	throw Exception()
	<< "nan's as momenta in Les Houches file "
	<< Exception::eventerror;
	if(hepeup.MOTHUP[i].first -1==i \|\|
	hepeup.MOTHUP[i].second-1==i) {
	throw Exception()
	<< "Particle has itself as a mother in Les Houches "
	<< "file, this is not allowed\n"
	<< Exception::eventerror;
	}
	}

	// Now read any additional comments and named weights.
	// read until the end of rwgt is found
	bool readingWeights = false, readingaMCFast = false, readingMG5ClusInfo = false;
	while ( cfile.readline() && !cfile.find("</event>")) {

	if(cfile.find("</applgrid")) { readingaMCFast=false; } //aMCFast weights end
	if(cfile.find("</rwgt")) { readingWeights=false; } //optional weights end
	if(cfile.find("</clustering")) { readingMG5ClusInfo=false; } // mg5 mclustering scale info end

	/* reading of optional weights
	*/
	if(readingWeights) {
	if(!cfile.find("<wgt")) { continue; }
	istringstream iss(cfile.getline());
	int wi = 0;
	double weightValue(0);
	string weightName = "";
	// we need to put the actual weight value into a double
	do {
	string sub; iss >> sub;
	if(wi==1) { boost::erase_all(sub, ">"); weightName = sub; }
	if(wi==2) weightValue = atof(sub.c_str());
	++wi;
	} while (iss);
	// store the optional weights found in the temporary map
	optionalWeightsTemp[weightName] = weightValue;
	}

	/* reading of aMCFast weights
	*/
	if(readingaMCFast) {
	std::stringstream amcfstringstream;
	amcfstringstream << "aMCFast " << cfile.getline();
	std::string amcfstrings = amcfstringstream.str();
	+ boost::erase_all(amcfstrings,"\n");
	optionalWeights[amcfstrings.c_str()] = -111; //for the aMCFast we give them a weight -111 for future identification
	}

	/* read additional MG5 Clustering information
	* used in LO merging
	*/
	if(readingMG5ClusInfo) {
	string hs = cfile.getline();
	string startDEL = "<clus scale="; //starting delimiter
	string stopDEL = "</clus>"; //end delimiter
	unsigned firstLim = hs.find(startDEL); //find start of delimiter
	// unsigned lastLim = hs.find(stopDEL); //find end of delimitr
	string mg5clusinfo = hs.substr(firstLim); //define the information for the scale
	boost::erase_all(mg5clusinfo,stopDEL);
	boost::erase_all(mg5clusinfo,startDEL);
	boost::erase_all(mg5clusinfo,">");
	boost::erase_all(mg5clusinfo,"\"");
	optionalWeights[mg5clusinfo.c_str()] = -222; //for the mg5 scale info weights we give them a weight -222 for future identification
	}

	//store MG5 clustering information
	if(cfile.find("<scales")) {
	string hs = cfile.getline();
	string startDEL = "<scales"; //starting delimiter
	string stopDEL = "</scales>"; //end delimiter
	unsigned firstLim = hs.find(startDEL); //find start of delimiter
	// unsigned lastLim = hs.find(stopDEL); //find end of delimitr
	string mg5scinfo = hs.substr(firstLim); //define the information for the scale
	boost::erase_all(mg5scinfo,stopDEL);
	boost::erase_all(mg5scinfo,startDEL);
	boost::erase_all(mg5scinfo,">");
	optionalWeights[mg5scinfo.c_str()] = -333; //for the mg5 scale info weights we give them a weight -333 for future identification
	}

	//determine start of aMCFast weights
	if(cfile.find("<applgrid")) { readingaMCFast = true;}
	//determine start of optional weights
	if(cfile.find("<rwgt")) { readingWeights = true; }
	//determine start of MG5 clustering scale information
	if(cfile.find("<clustering")) { readingMG5ClusInfo = true;}
	}
	// loop over the optional weights and add the extra information as found in the init
	for (map<string,double>::const_iterator it=optionalWeightsTemp.begin(); it!=optionalWeightsTemp.end(); ++it){
	for (map<string,string>::const_iterator it2=scalemap.begin(); it2!=scalemap.end(); ++it2){
	//find the scale id in the scale information and add this information
	if(it->first==it2->first) {
	string info = it2->second + " " + it->first;
	boost::erase_all(info, "\n");
	//set the optional weights
	optionalWeights[info] = it->second;
	/*cout << "info = " << info << endl;
	std::cout << it->first << " => " << it->second << '\n';*/
	}
	}
	}
	/* additionally, we set the "central" scale
	* this is actually the default event weight
	*/
	string central = "central";
	optionalWeights[central] = hepeup.XWGTUP;

	if ( !cfile ) return false;
	return true;

	}

	void LesHouchesFileReader::close() {
	cfile.close();
	}

	void LesHouchesFileReader::persistentOutput(PersistentOStream & os) const {
	os << neve << LHFVersion << outsideBlock << headerBlock << initComments
	<< initAttributes << eventComments << eventAttributes << theFileName
	- << theQNumbers << theDecayer;
	+ << theQNumbers << theDecayer ;
	}

	void LesHouchesFileReader::persistentInput(PersistentIStream & is, int) {
	is >> neve >> LHFVersion >> outsideBlock >> headerBlock >> initComments
	>> initAttributes >> eventComments >> eventAttributes >> theFileName
	>> theQNumbers >> theDecayer;
	ieve = 0;
	}

	ClassDescription<LesHouchesFileReader>
	LesHouchesFileReader::initLesHouchesFileReader;
	// Definition of the static class description member.

	void LesHouchesFileReader::Init() {

	static ClassDocumentation<LesHouchesFileReader> documentation
	("ThePEG::LesHouchesFileReader is an base class to be used for objects "
	"which reads event files from matrix element generators. This class is "
	"able to read plain event files conforming to the Les Houches Event File "
	"accord.");

	static Parameter<LesHouchesFileReader,string> interfaceFileName
	("FileName",
	"The name of a file containing events conforming to the Les Houches "
	"protocol to be read into ThePEG. A file name ending in "
	"<code>.gz</code> will be read from a pipe which uses "
	"<code>zcat</code>. If a file name ends in <code>\|</code> the "
	"preceeding string is interpreted as a command, the output of which "
	"will be read through a pipe.",
	&LesHouchesFileReader::theFileName, "", false, false);

	interfaceFileName.fileType();
	interfaceFileName.rank(11);

	static Switch<LesHouchesFileReader,bool> interfaceQNumbers
	("QNumbers",
	"Whether or not to read search for and read a QNUMBERS"
	" block in the header of the file.",
	&LesHouchesFileReader::theQNumbers, false, false, false);
	static SwitchOption interfaceQNumbersYes
	(interfaceQNumbers,
	"Yes",
	"Use QNUMBERS",
	true);
	static SwitchOption interfaceQNumbersNo
	(interfaceQNumbers,
	"No",
	"Don't use QNUMBERS",
	false);

	static Reference<LesHouchesFileReader,Decayer> interfaceDecayer
	("Decayer",
	"Decayer to use for any decays read from the QNUMBERS Blocks",
	&LesHouchesFileReader::theDecayer, false, false, true, true, false);

	}

	diff --git a/LesHouches/LesHouchesReader.cc b/LesHouches/LesHouchesReader.cc
	--- a/LesHouches/LesHouchesReader.cc
	+++ b/LesHouches/LesHouchesReader.cc
	@@ -1,1566 +1,1566 @@
	// -- C++ --
	//
	// LesHouchesReader.cc is a part of ThePEG - Toolkit for HEP Event Generation
	// Copyright (C) 1999-2011 Leif Lonnblad
	//
	// ThePEG is licenced under version 2 of the GPL, see COPYING for details.
	// Please respect the MCnet academic guidelines, see GUIDELINES for details.
	//
	//
	// This is the implementation of the non-inlined, non-templated member
	// functions of the LesHouchesReader class.
	//

	#include "LesHouchesReader.h"
	#include "ThePEG/Interface/ClassDocumentation.h"
	#include "ThePEG/Interface/Parameter.h"
	#include "ThePEG/Interface/Reference.h"
	#include "ThePEG/Interface/RefVector.h"
	#include "ThePEG/Interface/Switch.h"
	#include "ThePEG/Interface/Command.h"
	#include "config.h"
	#include "ThePEG/Persistency/PersistentOStream.h"
	#include "ThePEG/Persistency/PersistentIStream.h"
	#include "ThePEG/PDF/PartonExtractor.h"
	#include "ThePEG/PDF/NoPDF.h"
	#include "ThePEG/Cuts/Cuts.h"
	#include "ThePEG/EventRecord/TmpTransform.h"
	#include "ThePEG/Utilities/UtilityBase.h"
	#include "ThePEG/Handlers/XComb.h"
	#include "ThePEG/Handlers/CascadeHandler.h"
	#include "LesHouchesEventHandler.h"
	#include "ThePEG/Utilities/Throw.h"
	#include "ThePEG/Utilities/HoldFlag.h"
	#include "ThePEG/Utilities/Debug.h"
	#include "ThePEG/Helicity/WaveFunction/SpinorWaveFunction.h"

	using namespace ThePEG;

	LesHouchesReader::LesHouchesReader(bool active)
	: theNEvents(0), position(0), reopened(0), theMaxScan(-1), scanning(false),
	isActive(active), theCacheFileName(""), doCutEarly(true),
	preweight(1.0), reweightPDF(false), doInitPDFs(false),
	theMaxMultCKKW(0), theMinMultCKKW(0), lastweight(1.0), maxFactor(1.0), optionalnpLO(0), optionalnpNLO(0),
	weightScale(1.0*picobarn), skipping(false), theMomentumTreatment(0),
	useWeightWarnings(true),theReOpenAllowed(true), theIncludeSpin(true) {}

	LesHouchesReader::LesHouchesReader(const LesHouchesReader & x)
	: HandlerBase(x), LastXCombInfo<>(x), heprup(x.heprup), hepeup(x.hepeup),
	inData(x.inData), inPDF(x.inPDF), outPDF(x.outPDF),
	thePartonExtractor(x.thePartonExtractor), thePartonBins(x.thePartonBins),
	theXCombs(x.theXCombs), theCuts(x.theCuts),
	theNEvents(x.theNEvents), position(x.position), reopened(x.reopened),
	theMaxScan(x.theMaxScan), scanning(false),
	isActive(x.isActive),
	theCacheFileName(x.theCacheFileName), doCutEarly(x.doCutEarly),
	stats(x.stats), statmap(x.statmap),
	thePartonBinInstances(x.thePartonBinInstances),
	reweights(x.reweights), preweights(x.preweights),
	preweight(x.preweight), reweightPDF(x.reweightPDF),
	doInitPDFs(x.doInitPDFs),
	theMaxMultCKKW(x.theMaxMultCKKW), theMinMultCKKW(x.theMinMultCKKW),
	lastweight(x.lastweight), maxFactor(x.maxFactor),
	weightScale(x.weightScale), xSecWeights(x.xSecWeights),
	maxWeights(x.maxWeights), skipping(x.skipping),
	theMomentumTreatment(x.theMomentumTreatment),
	useWeightWarnings(x.useWeightWarnings),
	theReOpenAllowed(x.theReOpenAllowed),
	theIncludeSpin(x.theIncludeSpin) {}

	LesHouchesReader::~LesHouchesReader() {}

	void LesHouchesReader::doinitrun() {
	HandlerBase::doinitrun();
	stats.reset();
	for ( StatMap::iterator i = statmap.begin(); i != statmap.end(); ++i )
	i->second.reset();
	open();
	if ( cacheFileName().length() ) openReadCacheFile();
	position = 0;
	reopened = 0;
	}

	bool LesHouchesReader::preInitialize() const {
	if ( HandlerBase::preInitialize() ) return true;
	if ( doInitPDFs && ! ( inPDF.first && inPDF.second ) ) return true;
	return false;
	}

	void LesHouchesReader::doinit() {
	HandlerBase::doinit();
	open();
	close();
	if ( !heprup.IDBMUP.first \|\| !heprup.IDBMUP.second )
	Throw<LesHouchesInitError>()
	<< "No information about incoming particles were found in "
	<< "LesHouchesReader '" << name() << "'." << Exception::warning;
	inData = make_pair(getParticleData(heprup.IDBMUP.first),
	getParticleData(heprup.IDBMUP.second));
	if ( heprup.EBMUP.first <= 0.0 \|\| heprup.EBMUP.second <= 0.0 )
	Throw<LesHouchesInitError>()
	<< "No information about the energy of incoming particles were found in "
	<< "LesHouchesReader '" << name() << "'." << Exception::warning;

	if ( doInitPDFs && ! ( inPDF.first && inPDF.second ) ) {
	initPDFs();
	if ( ! ( inPDF.first && inPDF.second ) ) Throw<InitException>()
	<< "LesHouchesReader '" << name()
	<< "' could not create PDFBase objects in pre-initialization."
	<< Exception::warning;
	}
	else if ( !inPDF.first \|\| !inPDF.second ) Throw<LesHouchesInitError>()
	<< "No information about the PDFs of incoming particles were found in "
	<< "LesHouchesReader '" << name() << "'." << Exception::warning;
	}

	void LesHouchesReader::initPDFs() {
	if ( inPDF.first && inPDF.second ) return;

	string remhname;
	if ( heprup.PDFSUP.first && !inPDF.first) {
	inPDF.first = dynamic_ptr_cast<PDFPtr>
	(generator()->preinitCreate("ThePEG::LHAPDF", fullName() + "/PDFA",
	"ThePEGLHAPDF.so"));
	if ( !inPDF.first ) {
	Throw<InitException>()
	<< "LesHouchesReader '" << name() << "' could not use information "
	<< "about the PDFs used because the LHAPDF library was not properly "
	"defined." << Exception::warning;
	return;
	}
	remhname = fullName() + "/DummyRemH";
	generator()->preinitCreate("ThePEG::NoRemnants", remhname);
	generator()->preinitInterface(inPDF.first, "RemnantHandler",
	"set", remhname);
	if ( heprup.PDFGUP.first > 0 && heprup.PDFGUP.first < 10 ) {
	ostringstream os;
	os << heprup.PDFGUP.first << " " << heprup.PDFSUP.first;
	generator()->preinitInterface(inPDF.first, "PDFLIBNumbers",
	"set", os.str());
	} else {
	ostringstream os;
	os << heprup.PDFGUP.first*1000 + heprup.PDFSUP.first;
	generator()->preinitInterface(inPDF.first, "PDFNumber",
	"set", os.str());
	}
	generator()->preinitInterface(inPDF.first, "RangeException",
	"newdef", "Freeze");
	}

	if ( heprup.PDFSUP.second && !inPDF.second) {
	inPDF.second = dynamic_ptr_cast<PDFPtr>
	(generator()->preinitCreate("ThePEG::LHAPDF", fullName() + "/PDFB",
	"ThePEGLHAPDF.so"));
	if ( !inPDF.second ) {
	Throw<InitException>()
	<< "LesHouchesReader '" << name() << "' could not use information "
	<< "about the PDFs used because the LHAPDF library was not properly "
	"defined." << Exception::warning;
	return;
	}
	if ( remhname == "" ) {
	remhname = fullName() + "/DummyRemH";
	generator()->preinitCreate("ThePEG::NoRemnants", remhname);
	}
	generator()->preinitInterface(inPDF.second, "RemnantHandler",
	"set", remhname);
	if ( heprup.PDFGUP.second > 0 && heprup.PDFGUP.second < 10 ) {
	ostringstream os;
	os << heprup.PDFGUP.second << " " << heprup.PDFSUP.second;
	generator()->preinitInterface(inPDF.second, "PDFLIBNumbers",
	"set", os.str());
	} else {
	ostringstream os;
	os << heprup.PDFGUP.second*1000 + heprup.PDFSUP.second;
	generator()->preinitInterface(inPDF.second, "PDFNumber",
	"set", os.str());
	}
	generator()->preinitInterface(inPDF.second, "RangeException",
	"newdef", "Freeze");
	}

	if ( ! ( inPDF.first && inPDF.second ) ) Throw<InitException>()
	<< "LesHouchesReader '" << name()
	<< "' could not find information about the PDFs used."
	<< Exception::warning;
	}

	void LesHouchesReader::initialize(LesHouchesEventHandler & eh) {
	Energy2 Smax = ZERO;
	double Y = 0.0;
	if ( !theCuts ) {
	theCuts = eh.cuts();
	if ( !theCuts ) Throw<LesHouchesInitError>()
	<< "No Cuts object was assigned to the LesHouchesReader '"
	<< name() << "' nor was one\nassigned to the controlling "
	<< "LesHouchesEventHandler '" << eh.name() << "'.\nAt least one of them "
	<< "needs to have a Cuts object." << Exception::runerror;

	Smax = cuts().SMax();
	Y = cuts().Y();
	}

	theCKKW = eh.CKKWHandler();

	if ( !partonExtractor() ) {
	thePartonExtractor = eh.partonExtractor();
	if ( !partonExtractor() ) Throw<LesHouchesInitError>()
	<< "No PartonExtractor object was assigned to the LesHouchesReader '"
	<< name() << "' nor was one\nassigned to the controlling "
	<< "LesHouchesEventHandler '" << eh.name() << "'.\nAt least one of them "
	<< "needs to have a PartonExtractor object." << Exception::runerror;
	}
	open();

	Energy emax = 2.0sqrt(heprup.EBMUP.firstheprup.EBMUP.second)*GeV;
	theCuts->initialize(sqr(emax),
	0.5*log(heprup.EBMUP.first/heprup.EBMUP.second));
	if ( Smax > ZERO && ( Smax != cuts().SMax() \|\| Y != cuts().Y() ) )
	Throw<LesHouchesInitError>()
	<< "The LesHouchesReader '" << name() << "' uses the same Cuts object "
	<< "as another LesHouchesReader which has not got the same energies of "
	<< "the colliding particles. For the generation to work properly "
	<< "different LesHouchesReader object with different colliding particles "
	<< "must be assigned different (although possibly identical) Cuts "
	<< "objects." << Exception::warning;

	thePartonBins = partonExtractor()->getPartons(emax, inData, cuts());
	for ( int i = 0, N = partonBins().size(); i < N; ++i ) {
	theXCombs[partonBins()[i]] =
	new_ptr(XComb(emax, inData, &eh, partonExtractor(), CKKWHandler(),
	partonBins()[i], theCuts));
	partonExtractor()->nDims(partonBins()[i]);
	}
	outPDF = make_pair(partonExtractor()->getPDF(inData.first),
	partonExtractor()->getPDF(inData.second));

	// SP: re-interpret 3/4 -> 1/2; see discussion w/ Leif and Keith at LH 2013

	if ( abs(heprup.IDWTUP) == 3 )
	heprup.IDWTUP = heprup.IDWTUP < 0 ? -1 : 1;

	if ( abs(heprup.IDWTUP) == 4 )
	heprup.IDWTUP = heprup.IDWTUP < 0 ? -2 : 2;

	close();

	if ( !heprup.IDWTUP && useWeightWarnings )
	Throw<LesHouchesInitError>()
	<< "No information about the weighting scheme was found. The events "
	<< "produced by LesHouchesReader " << name()
	<< " may not be sampled correctly." << Exception::warning;

	if ( abs(heprup.IDWTUP) > 1 && !eh.weighted() && useWeightWarnings )
	Throw<LesHouchesInitError>()
	<< "LesHouchesReader " << name() << " has the IDWTUP flag set to "
	<< heprup.IDWTUP << " which is not supported by this reader, the "
	<< "produced events may not be sampled correctly. It is up to "
	<< "sub-classes of LesHouchesReader to correctly convert to match IDWTUP "
	<< "+/- 1. Will try to make intelligent guesses to get "
	<< "correct statistics.\nIn most cases this should be sufficient. "
	<< "Unset <interface>WeightWarnings</interface> to avoid this message,"
	<< "or set <interface>Weighted</interface> to on."
	<< Exception::warning;

	if ( heprup.IDWTUP != eh.weightOption() && abs(heprup.IDWTUP) < 3 &&
	useWeightWarnings )
	Throw<LesHouchesInitError>()
	<< "LesHouchesReader " << name() << " has the IDWTUP flag set to "
	<< heprup.IDWTUP
	<< ", which does not correspond\nto the weight option "
	<< eh.weightOption() << " set in "
	<< "the LesHouchesEventHandler " << eh.name() << ".\n\n"
	<< "Use the following handler setting instead:\n"
	<< " set " << eh.name() << ":WeightOption " << heprup.IDWTUP
	<< "\nWill try to make intelligent guesses to get "
	<< "correct statistics. In most cases this should be sufficient. "
	<< "Unset <interface>WeightWarnings</interface> to avoid this message"
	<< Exception::warning;

	scan();
	initStat();
	}


	long LesHouchesReader::scan() {

	open();

	// Shall we write the events to a cache file for fast reading? If so
	// we write to a temporary file if the caches events should be
	// randomized.
	if ( cacheFileName().length() ) openWriteCacheFile();

	// Keep track of the number of events scanned.
	long neve = 0;
	long cuteve = 0;
	bool negw = false;

	// If the open() has not already gotten information about subprocesses
	// and cross sections we have to scan through the events.
	if ( !heprup.NPRUP \|\| cacheFile() \|\| abs(heprup.IDWTUP) != 1 ) { // why scan if IDWTUP != 1?

	HoldFlag<> isScanning(scanning);

	double oldsum = 0.0;
	vector<int> lprup;
	vector<double> newmax;
	vector<long> oldeve;
	vector<long> neweve;
	for ( int i = 0; ( maxScan() < 0 \|\| i < maxScan() ) && readEvent(); ++i ) {
	if ( !checkPartonBin() ) Throw<LesHouchesInitError>()
	<< "Found event in LesHouchesReader '" << name()
	<< "' which cannot be handeled by the assigned PartonExtractor '"
	<< partonExtractor()->name() << "'." << Exception::runerror;
	vector<int>::iterator idit =
	find(lprup.begin(), lprup.end(), hepeup.IDPRUP);
	int id = lprup.size();
	if ( idit == lprup.end() ) {
	lprup.push_back(hepeup.IDPRUP);
	newmax.push_back(0.0);
	neweve.push_back(0);
	oldeve.push_back(0);
	} else {
	id = idit - lprup.begin();
	}
	++neve;
	++oldeve[id];
	oldsum += hepeup.XWGTUP;
	if ( cacheFile() ) {
	if ( eventWeight() == 0.0 ) {
	++cuteve;
	continue;
	}
	cacheEvent();
	}
	++neweve[id];
	newmax[id] = max(newmax[id], abs(eventWeight()));
	if ( eventWeight() < 0.0 ) negw = true;
	}
	// std::cout << "eventWeight() = " << eventWeight() << endl;
	xSecWeights.resize(oldeve.size(), 1.0);
	for ( int i = 0, N = oldeve.size(); i < N; ++i )
	if ( oldeve[i] ) xSecWeights[i] = double(neweve[i])/double(oldeve[i]);

	if ( maxScan() < 0 \|\| neve > NEvents() ) NEvents(neve - cuteve);

	if ( lprup.size() == heprup.LPRUP.size() ) {
	for ( int id = 0, N = lprup.size(); id < N; ++id ) {
	vector<int>::iterator idit =
	find(heprup.LPRUP.begin(), heprup.LPRUP.end(), hepeup.IDPRUP);
	if ( idit == heprup.LPRUP.end() ) {
	Throw<LesHouchesInitError>()
	<< "When scanning events, the LesHouschesReader '" << name()
	<< "' found undeclared processes." << Exception::warning;
	heprup.NPRUP = 0;
	break;
	}
	int idh = idit - heprup.LPRUP.begin();
	heprup.XMAXUP[idh] = newmax[id];
	}
	}
	if ( heprup.NPRUP == 0 ) {
	// No heprup block was supplied or something went wrong.
	heprup.NPRUP = lprup.size();
	heprup.LPRUP.resize(lprup.size());
	heprup.XMAXUP.resize(lprup.size());
	for ( int id = 0, N = lprup.size(); id < N; ++id ) {
	heprup.LPRUP[id] = lprup[id];
	heprup.XMAXUP[id] = newmax[id];
	}
	} else if ( abs(heprup.IDWTUP) != 1 ) {
	// Try to fix things if abs(heprup.IDWTUP) != 1.
	double sumxsec = 0.0;
	for ( int id = 0; id < heprup.NPRUP; ++id ) sumxsec += heprup.XSECUP[id];
	weightScale = picobarnnevesumxsec/oldsum;
	}
	}

	if ( cacheFile() ) closeCacheFile();

	if ( negw ) heprup.IDWTUP = min(-abs(heprup.IDWTUP), -1);

	return neve;

	}

	void LesHouchesReader::setWeightScale(long) {}

	void LesHouchesReader::initStat() {

	stats.reset();
	statmap.clear();
	if ( heprup.NPRUP <= 0 ) return;

	double sumx = 0.0;
	xSecWeights.resize(heprup.NPRUP, 1.0);
	maxWeights.clear();
	for ( int ip = 0; ip < heprup.NPRUP; ++ip ) {
	sumx = max(heprup.XMAXUP[ip]*xSecWeights[ip], sumx);
	statmap[heprup.LPRUP[ip]] =
	XSecStat(heprup.XMAXUP[ip]weightScalexSecWeights[ip]);
	maxWeights[heprup.LPRUP[ip]] = heprup.XMAXUP[ip];
	}
	stats.maxXSec(sumx*weightScale);
	maxFactor = 1.0;
	}

	void LesHouchesReader::increaseMaxXSec(CrossSection maxxsec) {
	for ( int i = 0; i < heprup.NPRUP; ++i )
	statmap[heprup.LPRUP[i]].maxXSec(statmap[heprup.LPRUP[i]].maxXSec()*
	maxxsec/stats.maxXSec());
	maxFactor *= maxxsec/stats.maxXSec();
	stats.maxXSec(maxxsec);
	}

	tXCombPtr LesHouchesReader::getXComb() {
	if ( lastXCombPtr() ) return lastXCombPtr();
	fillEvent();
	connectMothers();
	tcPBPair sel = createPartonBinInstances();
	tXCombPtr lastXC = xCombs()[sel];
	// clean up the old XComb object before switching to a new one
	if ( theLastXComb && theLastXComb != lastXC )
	theLastXComb->clean();
	theLastXComb = lastXC;
	lastXCombPtr()->subProcess(SubProPtr());
	lastXCombPtr()->setPartonBinInstances(partonBinInstances(),
	sqr(hepeup.SCALUP)*GeV2);
	lastXCombPtr()->lastAlphaS(hepeup.AQCDUP);
	lastXCombPtr()->lastAlphaEM(hepeup.AQEDUP);
	return lastXCombPtr();
	}

	tSubProPtr LesHouchesReader::getSubProcess() {
	getXComb();
	if ( subProcess() ) return subProcess();
	lastXCombPtr()->subProcess(new_ptr(SubProcess(lastPartons(), tCollPtr(), this)));
	subProcess()->setOutgoing(outgoing().begin(), outgoing().end());
	subProcess()->setIntermediates(intermediates().begin(),
	intermediates().end());
	return subProcess();
	}

	void LesHouchesReader::fillEvent() {
	if ( !particleIndex.empty() ) return;
	particleIndex.clear();
	colourIndex.clear();
	colourIndex(0, tColinePtr());
	createParticles();
	createBeams();

	}

	void LesHouchesReader::reopen() {
	// If we didn't know how many events there were, we know now.
	if ( NEvents() <= 0 ) NEvents(position);
	++reopened;
	// How large fraction of the events have we actually used? And how
	// large will we have used if we go through the file again?
	double frac = double(stats.attempts())/double(NEvents());
	if ( frac*double(reopened + 1)/double(reopened) > 1.0 &&
	NEvents() - stats.attempts() <
	generator()->N() - generator()->currentEventNumber() ) {
	if(theReOpenAllowed)
	generator()->logWarning(LesHouchesReopenWarning()
	<< "Reopening LesHouchesReader '" << name()
	<< "' after accessing " << stats.attempts()
	<< " events out of "
	<< NEvents() << Exception::warning);
	else
	throw LesHouchesReopenWarning()
	<< "More events requested than available in LesHouchesReader "
	<< name() << Exception::runerror;
	}
	if ( cacheFile() ) {
	closeCacheFile();
	openReadCacheFile();
	if ( !uncacheEvent() ) Throw<LesHouchesReopenError>()
	<< "Could not reopen LesHouchesReader '" << name()
	<< "'." << Exception::runerror;
	} else {
	close();
	open();
	if ( !readEvent() ) Throw<LesHouchesReopenError>()
	<< "Could not reopen LesHouchesReader '" << name()
	<< "'." << Exception::runerror;
	}
	}

	void LesHouchesReader::reset() {
	particleIndex.clear();
	colourIndex.clear();
	if ( theLastXComb ) theLastXComb->clean();
	theLastXComb = tXCombPtr();
	}

	bool LesHouchesReader::readEvent() {

	reset();

	if ( !doReadEvent() ) return false;

	// If we are just skipping event we do not need to reweight or do
	// anything fancy.
	if ( skipping ) { return true; }

	if ( cacheFile() && !scanning ) { return true; }

	// Reweight according to the re- and pre-weights objects in the
	// LesHouchesReader base class.
	lastweight = reweight();

	if ( !reweightPDF && !cutEarly() ) return true;
	// We should try to reweight the PDFs or make early cuts here.

	fillEvent();

	double x1 = incoming().first->momentum().plus()/
	beams().first->momentum().plus();

	if ( reweightPDF &&
	inPDF.first && outPDF.first && inPDF.first != outPDF.first ) {
	if ( hepeup.XPDWUP.first <= 0.0 )
	hepeup.XPDWUP.first =
	inPDF.first->xfx(inData.first, incoming().first->dataPtr(),
	sqr(hepeup.SCALUP*GeV), x1);
	double xf = outPDF.first->xfx(inData.first, incoming().first->dataPtr(),
	sqr(hepeup.SCALUP*GeV), x1);
	lastweight *= xf/hepeup.XPDWUP.first;
	hepeup.XPDWUP.first = xf;
	}

	double x2 = incoming().second->momentum().minus()/
	beams().second->momentum().minus();

	if ( reweightPDF &&
	inPDF.second && outPDF.second && inPDF.second != outPDF.second ) {
	if ( hepeup.XPDWUP.second <= 0.0 )
	hepeup.XPDWUP.second =
	inPDF.second->xfx(inData.second, incoming().second->dataPtr(),
	sqr(hepeup.SCALUP*GeV), x2);
	double xf =
	outPDF.second->xfx(inData.second, incoming().second->dataPtr(),
	sqr(hepeup.SCALUP*GeV), x2);
	lastweight *= xf/hepeup.XPDWUP.second;
	hepeup.XPDWUP.second = xf;
	}

	if ( cutEarly() ) {
	if ( !cuts().initSubProcess((incoming().first->momentum() +
	incoming().second->momentum()).m2(),
	0.5*log(x1/x2)) ) lastweight = 0.0;
	tSubProPtr sub = getSubProcess();
	TmpTransform<tSubProPtr> tmp(sub, Utilities::getBoostToCM(sub->incoming()));
	if ( !cuts().passCuts(*sub) ) lastweight = 0.0;
	}

	return true;
	}

	double LesHouchesReader::getEvent() {
	if ( cacheFile() ) {
	if ( !uncacheEvent() ) reopen();
	} else {
	if ( !readEvent() ) reopen();
	}
	++position;

	double max = maxWeights[hepeup.IDPRUP]*maxFactor;

	return max != 0.0? eventWeight()/max: 0.0;

	}

	void LesHouchesReader::skip(long n) {
	HoldFlag<> skipflag(skipping);
	while ( n-- ) getEvent();
	}

	double LesHouchesReader::reweight() {
	preweight = 1.0;
	if ( reweights.empty() && preweights.empty() &&
	!( CKKWHandler() && maxMultCKKW() > 0 && maxMultCKKW() > minMultCKKW() ) )
	return 1.0;
	fillEvent();
	getSubProcess();
	for ( int i = 0, N = preweights.size(); i < N; ++i ) {
	preweights[i]->setXComb(lastXCombPtr());
	preweight *= preweights[i]->weight();
	}
	double weight = preweight;
	for ( int i = 0, N = reweights.size(); i < N; ++i ) {
	reweights[i]->setXComb(lastXCombPtr());
	weight *= reweights[i]->weight();
	}

	// If we are caching events we do not want to do CKKW reweighting.
	if ( cacheFile() ) return weight;

	if ( CKKWHandler() && maxMultCKKW() > 0 && maxMultCKKW() > minMultCKKW() ) {
	CKKWHandler()->setXComb(lastXCombPtr());
	weight *= CKKWHandler()->reweightCKKW(minMultCKKW(), maxMultCKKW());
	}
	return weight;
	}

	bool LesHouchesReader::checkPartonBin() {

	// First find the positions of the incoming partons.
	pair< vector<int>, vector<int> > inc;
	for ( int i = 0; i < hepeup.NUP; ++i ) {
	if ( hepeup.ISTUP[i] == -9 ) {
	if ( inc.first.empty() ) inc.first.push_back(i);
	else if ( inc.second.empty() ) inc.second.push_back(i);
	}
	else if ( hepeup.ISTUP[i] == -1 ) {
	if ( inc.first.size() &&
	hepeup.MOTHUP[i].first == inc.first.back() + 1 )
	inc.first.push_back(i);
	else if ( inc.second.size() &&
	hepeup.MOTHUP[i].first == inc.second.back() + 1 )
	inc.second.push_back(i);
	else if ( inc.first.empty() ) {
	inc.first.push_back(-1);
	inc.first.push_back(i);
	}
	else if ( inc.second.empty() ) {
	inc.second.push_back(-1);
	inc.second.push_back(i);
	}
	else if ( inc.first.size() <= inc.second.size() )
	inc.first.push_back(i);
	else
	inc.second.push_back(i);
	}
	}

	// Now store the corresponding id numbers
	pair< vector<long>, vector<long> > ids;
	ids.first.push_back(inc.first[0] < 0? heprup.IDBMUP.first:
	hepeup.IDUP[inc.first[0]]);
	for ( int i = 1, N = inc.first.size(); i < N; ++i )
	ids.first.push_back(hepeup.IDUP[inc.first[i]]);
	ids.second.push_back(inc.second[0] < 0? heprup.IDBMUP.second:
	hepeup.IDUP[inc.second[0]]);
	for ( int i = 1, N = inc.second.size(); i < N; ++i )
	ids.second.push_back(hepeup.IDUP[inc.second[i]]);

	// Find the correct pair of parton bins.
	PBPair pbp;
	for ( int i = 0, N = partonBins().size(); i < N; ++i ) {
	tcPBPtr curr = partonBins()[i].first;
	int icurr = inc.first.size() - 1;
	while ( curr && icurr >= 0 ) {
	if ( curr->parton()->id () != ids.first[icurr] ) break;
	curr = curr->incoming();
	--icurr;
	}
	if(!(!partonBins()[i].first->incoming() &&
	!partonBins()[i].first->particle() &&
	partonBins()[i].first->parton()->id () == ids.first[0] &&
	( inc.first.size()==1 \|\|
	(inc.first.size()==2 && ids.first[0]==ids.first[1]))) &&
	( curr \|\| icurr >= 0 ) ) continue;

	curr = partonBins()[i].second;
	icurr = inc.second.size() - 1;
	while ( curr && icurr >= 0 ) {
	if ( curr->parton()->id () != ids.second[icurr] ) break;
	curr = curr->incoming();
	--icurr;
	}
	if(!(!partonBins()[i].second->incoming() &&
	!partonBins()[i].second->particle() &&
	partonBins()[i].second->parton()->id () == ids.second[0] &&
	( inc.second.size()==1 \|\|
	(inc.second.size()==2 && ids.second[0]==ids.second[1]))) &&
	( curr \|\| icurr >= 0 ) ) continue;

	pbp = partonBins()[i];
	}

	// If we are only checking we return here.
	return ( pbp.first && pbp.second );

	}

	namespace {
	bool recursionNotNull(tcPBPtr bin, tcPPtr p) {
	while ( bin && p ) {
	if ( p->dataPtr() != bin->parton() ) break;
	bin = bin->incoming();
	p = p->parents().size()? p->parents()[0]: tPPtr();
	}
	return bin \|\| p;
	}
	}


	tcPBPair LesHouchesReader::createPartonBinInstances() {
	tcPBPair sel;
	for ( int i = 0, N = partonBins().size(); i < N; ++i ) {
	tcPBPtr bin = partonBins()[i].first;
	tcPPtr p = incoming().first;
	if ( recursionNotNull(bin,p) ) continue;
	bin = partonBins()[i].second;
	p = incoming().second;
	if ( recursionNotNull(bin,p) ) continue;
	sel = partonBins()[i];
	break;
	}
	if ( !sel.first \|\| !sel.second ) Throw<LesHouchesInconsistencyError>()
	<< "Could not find appropriate PartonBin objects for event produced by "
	<< "LesHouchesReader '" << name() << "'." << Exception::runerror;

	Direction<0> dir(true);
	thePartonBinInstances.first =
	new_ptr(PartonBinInstance(incoming().first, sel.first,
	-sqr(hepeup.SCALUP*GeV)));
	if ( thePartonBinInstances.first->xi() > 1.00001 ) {
	Throw<LesHouchesInconsistencyError>()
	<< "Found an event with momentum fraction larger than unity (x1="
	<< thePartonBinInstances.first->xi()
	<< "). The event will be skipped." << Exception::warning;
	throw Veto();
	}
	dir.reverse();
	thePartonBinInstances.second =
	new_ptr(PartonBinInstance(incoming().second, sel.second,
	-sqr(hepeup.SCALUP*GeV)));

	if ( thePartonBinInstances.second->xi() > 1.00001 ) {
	Throw<LesHouchesInconsistencyError>()
	<< "Found an event with momentum fraction larger than unity (x2="
	<< thePartonBinInstances.second->xi()
	<< "). The event will be skipped." << Exception::warning;
	throw Veto();
	}
	return sel;

	}


	void LesHouchesReader::createParticles() {
	theBeams = PPair();
	theIncoming = PPair();
	theOutgoing = PVector();
	theIntermediates = PVector();
	for ( int i = 0, N = hepeup.IDUP.size(); i < N; ++i ) {
	if ( !hepeup.IDUP[i] ) continue;
	Lorentz5Momentum mom(hepeup.PUP[i][0]GeV, hepeup.PUP[i][1]GeV,
	hepeup.PUP[i][2]GeV, hepeup.PUP[i][3]GeV,
	hepeup.PUP[i][4]*GeV);
	// cout << hepeup.PUP[i][0] << " " << hepeup.PUP[i][1] << " " << hepeup.PUP[i][2] << " " << hepeup.PUP[i][3] << " " << hepeup.PUP[i][4] << endl;
	if(theMomentumTreatment == 1) mom.rescaleEnergy();
	else if(theMomentumTreatment == 2) mom.rescaleMass();
	// cout << hepeup.PUP[i][0] << " " << hepeup.PUP[i][1] << " " << hepeup.PUP[i][2] << " " << hepeup.PUP[i][3] << " " << hepeup.PUP[i][4] << endl;
	PDPtr pd = getParticleData(hepeup.IDUP[i]);
	if (!pd) {
	Throw<LesHouchesInitError>()
	<< "LesHouchesReader '" << name() << "' found unknown particle ID "
	<< hepeup.IDUP[i]
	<< " in Les Houches common block structure.\n"
	<< "You need to define the new particle in an input file.\n"
	<< Exception::runerror;
	}
	if ( ! pd->coloured()
	&& ( hepeup.ICOLUP[i].first != 0 \|\| hepeup.ICOLUP[i].second != 0 ) ) {
	Throw<LesHouchesInconsistencyError>()
	<< "LesHouchesReader " << name() << ": " << pd->PDGName()
	<< " is not a coloured particle.\nIt should not have "
	<< "(anti-)colour lines " << hepeup.ICOLUP[i].first
	<< ' ' << hepeup.ICOLUP[i].second
	<< " set; the event file needs to be fixed."
	<< Exception::runerror;
	}
	PPtr p = pd->produceParticle(mom);
	if(hepeup.ICOLUP[i].first>=0 && hepeup.ICOLUP[i].second >=0) {
	tColinePtr c = colourIndex(hepeup.ICOLUP[i].first);
	if ( c ) {
	c->addColoured(p);
	}
	c = colourIndex(hepeup.ICOLUP[i].second);
	if ( c ) c->addAntiColoured(p);
	}
	else {
	tColinePtr c1 = colourIndex(abs(hepeup.ICOLUP[i].first ));
	tColinePtr c2 = colourIndex(abs(hepeup.ICOLUP[i].second));
	if(pd->hasColour()) {
	c1->addColouredIndexed(p,1);
	c2->addColouredIndexed(p,2);
	}
	else {
	c1->addAntiColouredIndexed(p,1);
	c2->addAntiColouredIndexed(p,2);
	}
	}
	particleIndex(i + 1, p);
	switch ( hepeup.ISTUP[i] ) {
	case -9:
	if ( !theBeams.first ) theBeams.first = p;
	else if ( !theBeams.second ) theBeams.second = p;
	else Throw<LesHouchesInconsistencyError>()
	<< "To many incoming beam particles in the LesHouchesReader '"
	<< name() << "'." << Exception::runerror;
	break;
	case -1:
	if ( !theIncoming.first ) theIncoming.first = p;
	else if ( !theIncoming.second ) theIncoming.second = p;
	else if ( particleIndex(theIncoming.first) == hepeup.MOTHUP[i].first )
	theIncoming.first = p;
	else if ( particleIndex(theIncoming.second) == hepeup.MOTHUP[i].first )
	theIncoming.second = p;
	else Throw<LesHouchesInconsistencyError>()
	<< "To many incoming particles to hard subprocess in the "
	<< "LesHouchesReader '" << name() << "'." << Exception::runerror;
	p->scale(sqr(hepeup.SCALUP*GeV));
	break;
	case 1:
	theOutgoing.push_back(p);
	p->scale(sqr(hepeup.SCALUP*GeV));
	break;
	case -2:
	case 2:
	case 3:
	theIntermediates.push_back(p);
	break;
	default:
	Throw<LesHouchesInconsistencyError>()
	<< "Unknown status code (" << hepeup.ISTUP[i]
	<< ") in the LesHouchesReader '" << name() << "'."
	<< Exception::runerror;
	}

	// value 9 is defined as "Unknown or unpolarized particles"
	double spinup = hepeup.SPINUP[i];
	if ( abs(spinup - 9) < 1.0e-3 )
	spinup = 0.;
	if ( spinup < -1. \|\| spinup > 1. ) {
	Throw<LesHouchesInconsistencyError>()
	<< "Polarization must be between -1 and 1, not "
	<< spinup << " as found in the "
	<< "LesHouches event file.\nThe event file needs to be fixed."
	<< Exception::runerror;
	}
	if( theIncludeSpin
	&& abs(pd->id()) == ParticleID::tauminus
	&& spinup !=0) {
	if(pd->iSpin() == PDT::Spin1Half ) {
	vector<Helicity::SpinorWaveFunction> wave;
	Helicity::SpinorWaveFunction(wave,p,Helicity::outgoing,true);
	RhoDMatrix rho(pd->iSpin(),true);
	rho(0,0) = 0.5*(1.-spinup);
	rho(1,1) = 0.5*(1.+spinup);
	p->spinInfo()->rhoMatrix() = rho;
	p->spinInfo()-> DMatrix() = rho;
	}
	}
	}

	// check the colour flows, and if necessary create any sources/sinks
	// hard process
	// get the particles in the hard process
	PVector external;
	for ( int i = 0, N = hepeup.IDUP.size(); i < N; ++i ) {
	unsigned int moth;
	switch ( hepeup.ISTUP[i] ) {
	case -1:
	external.push_back(particleIndex.find(i+1));
	break;
	case 1: case 2: case 3:
	moth = hepeup.MOTHUP[i].first;
	if(moth!=0 && (hepeup.ISTUP[moth]==-1\|\|hepeup.ISTUP[moth]==-2\|\|
	hepeup.ISTUP[moth]==-9))
	external.push_back(particleIndex.find(i+1));
	moth = hepeup.MOTHUP[i].second;
	if(moth!=0 && (hepeup.ISTUP[moth]==-1\|\|hepeup.ISTUP[moth]==-2\|\|
	hepeup.ISTUP[moth]==-9))
	external.push_back(particleIndex.find(i+1));
	break;
	case -2: case -9: default:
	break;
	}
	}
	// check the incoming/outgoing lines match
	vector<tColinePtr> unMatchedColour,unMatchedAntiColour;
	for(unsigned int ix=0;ix<external.size();++ix) {
	vector<tcColinePtr>
	col = external[ix]->colourInfo()-> colourLines();
	vector<tcColinePtr>
	anti = external[ix]->colourInfo()->antiColourLines();
	if(hepeup.ISTUP[particleIndex(external[ix])-1]<0)
	swap(col,anti);
	if(!col.empty()) {
	for(unsigned int ic1=0;ic1<col.size();++ic1) {
	bool matched=false;
	for(unsigned int iy=0;iy<external.size();++iy) {
	vector<tcColinePtr> col2;
	if(hepeup.ISTUP[particleIndex(external[iy])-1]<0) {
	if(external[iy]->colourInfo()->colourLines().empty()) continue;
	col2 = external[iy]->colourInfo()->colourLines();
	}
	else if(hepeup.ISTUP[particleIndex(external[iy])-1]>0) {
	if(external[iy]->colourInfo()->antiColourLines().empty()) continue;
	col2 = external[iy]->colourInfo()->antiColourLines();
	}
	for(unsigned int ic2=0;ic2<col2.size();++ic2) {
	if(col[ic1]==col2[ic2]) {
	matched=true;
	break;
	}
	}
	if(matched) break;
	}
	if(!matched) unMatchedColour.push_back(const_ptr_cast<tColinePtr>(col[ic1]));
	}
	}
	if(!anti.empty()) {
	for(unsigned int ic1=0;ic1<col.size();++ic1) {
	bool matched=false;
	for(unsigned int iy=0;iy<external.size();++iy) {
	vector<tcColinePtr> anti2;
	if(hepeup.ISTUP[particleIndex(external[iy])-1]<0) {
	if(external[iy]->colourInfo()->colourLines().empty()) continue;
	anti2 = external[iy]->colourInfo()->antiColourLines();
	}
	else if(hepeup.ISTUP[particleIndex(external[iy])-1]>0) {
	if(external[iy]->colourInfo()->antiColourLines().empty()) continue;
	anti2 = external[iy]->colourInfo()->colourLines();
	}
	for(unsigned int ic2=0;ic2<anti2.size();++ic2) {
	if(col[ic1]==anti2[ic2]) {
	matched=true;
	break;
	}
	}
	if(matched) break;
	}
	if(!matched) unMatchedAntiColour.push_back(const_ptr_cast<tColinePtr>(anti[ic1]));
	}
	}
	}

	// might have source/sink
	if( unMatchedColour.size() + unMatchedAntiColour.size() != 0) {
	if(unMatchedColour.size() == 3 ) {
	unMatchedColour[0]->setSourceNeighbours(unMatchedColour[1],
	unMatchedColour[2]);
	}
	else if(unMatchedColour.size() != 0 && ThePEG_DEBUG_LEVEL) {
	Throw<LesHouchesInconsistencyError>()
	<< "LesHouchesReader '" << name() << "' found inconsistent colour "
	<< "flow in Les Houches common block structure for hard process.\n"
	<< hepeup << Exception::runerror;
	}
	if(unMatchedAntiColour.size() == 3 ) {
	unMatchedAntiColour[0]->setSinkNeighbours(unMatchedAntiColour[1],
	unMatchedAntiColour[2]);
	}
	else if(unMatchedAntiColour.size() != 0 && ThePEG_DEBUG_LEVEL) {
	Throw<LesHouchesInconsistencyError>()
	<< "LesHouchesReader '" << name() << "' found inconsistent colour "
	<< "flow in Les Houches common block structure for hard process.\n"
	<< hepeup << Exception::runerror;
	}
	}

	// any subsequent decays
	for ( int i = 0, N = hepeup.IDUP.size(); i < N; ++i ) {
	if(hepeup.ISTUP[i] !=2 && hepeup.ISTUP[i] !=3) continue;
	PVector external;
	external.push_back(particleIndex.find(i+1));
	for ( int j = 0; j < N; ++j ) {
	if(hepeup.MOTHUP[j].first==i+1\|\| hepeup.MOTHUP[j].second==i+1)
	external.push_back(particleIndex.find(j+1));
	}
	// check the incoming/outgoing lines match
	vector<tColinePtr> unMatchedColour,unMatchedAntiColour;
	for(unsigned int ix=0;ix<external.size();++ix) {
	vector<tcColinePtr>
	col = external[ix]->colourInfo()-> colourLines();
	vector<tcColinePtr>
	anti = external[ix]->colourInfo()->antiColourLines();
	if(ix==0) swap(col,anti);
	if(!col.empty()) {
	for(unsigned int ic1=0;ic1<col.size();++ic1) {
	bool matched=false;
	for(unsigned int iy=0;iy<external.size();++iy) {
	if(iy==ix) continue;
	vector<tcColinePtr> col2;
	if(iy==0) {
	if(external[iy]->colourInfo()->colourLines().empty()) continue;
	col2 = external[iy]->colourInfo()->colourLines();
	}
	else {
	if(external[iy]->colourInfo()->antiColourLines().empty()) continue;
	col2 = external[iy]->colourInfo()->antiColourLines();
	}
	for(unsigned int ic2=0;ic2<col2.size();++ic2) {
	if(col[ic1]==col2[ic2]) {
	matched=true;
	break;
	}
	}
	if(matched) break;
	}
	if(!matched) unMatchedColour.push_back(const_ptr_cast<tColinePtr>(col[ic1]));
	}
	}
	if(!anti.empty()) {
	for(unsigned int ic1=0;ic1<anti.size();++ic1) {
	bool matched=false;
	for(unsigned int iy=0;iy<external.size();++iy) {
	if(iy==ix) continue;
	vector<tcColinePtr> anti2;
	if(iy==0) {
	if(external[iy]->colourInfo()->antiColourLines().empty()) continue;
	anti2 = external[iy]->colourInfo()->antiColourLines();
	}
	else {
	if(external[iy]->colourInfo()->colourLines().empty()) continue;
	anti2 = external[iy]->colourInfo()->colourLines();
	}
	for(unsigned int ic2=0;ic2<anti2.size();++ic2) {
	if(anti[ic1]==anti2[ic2]) {
	matched=true;
	break;
	}
	}
	if(matched) break;
	}
	if(!matched) unMatchedAntiColour.push_back(const_ptr_cast<tColinePtr>(anti[ic1]));
	}
	}
	}
	// might have source/sink
	if( unMatchedColour.size() + unMatchedAntiColour.size() != 0) {
	if(unMatchedColour.size() == 3 ) {
	unMatchedColour[0]->setSourceNeighbours(unMatchedColour[1],
	unMatchedColour[2]);
	}
	else if(unMatchedColour.size() != 0 && ThePEG_DEBUG_LEVEL) {
	Throw<LesHouchesInconsistencyError>()
	<< "LesHouchesReader '" << name() << "' found inconsistent colour "
	<< "flow in Les Houches common block structure for decay of \n"
	<< *external[0] << "\n"
	<< hepeup << Exception::runerror;
	}
	if(unMatchedAntiColour.size() == 3 ) {
	unMatchedAntiColour[0]->setSinkNeighbours(unMatchedAntiColour[1],
	unMatchedAntiColour[2]);
	}
	else if(unMatchedAntiColour.size() != 0 && ThePEG_DEBUG_LEVEL) {
	Throw<LesHouchesInconsistencyError>()
	<< "LesHouchesReader '" << name() << "' found inconsistent colour "
	<< "flow in Les Houches common block structure for decay of\n"
	<< *external[0] << "\n"
	<< hepeup << Exception::runerror;
	}
	}
	}

	}

	void LesHouchesReader::createBeams() {

	if ( !theBeams.first && dynamic_ptr_cast<Ptr<NoPDF>::tcp>(inPDF.first) ) {
	theBeams.first = theIncoming.first;
	}
	else if ( !theBeams.first ) {
	theBeams.first = getParticleData(heprup.IDBMUP.first)->produceParticle();
	double m = theBeams.first->mass()/GeV;
	theBeams.first->set5Momentum
	(Lorentz5Momentum(ZERO, ZERO,
	sqrt(sqr(heprup.EBMUP.first) - sqr(m))*GeV,
	heprup.EBMUP.firstGeV, mGeV));
	hepeup.IDUP.push_back(heprup.IDBMUP.first);
	hepeup.ISTUP.push_back(-9);
	hepeup.MOTHUP.push_back(make_pair(0, 0));
	hepeup.ICOLUP.push_back(make_pair(0, 0));
	hepeup.VTIMUP.push_back(0.0);
	hepeup.SPINUP.push_back(0.0);
	particleIndex(hepeup.IDUP.size(), theBeams.first);
	hepeup.MOTHUP[particleIndex(theIncoming.first) - 1].first =
	hepeup.IDUP.size();
	}
	if ( !theBeams.second && dynamic_ptr_cast<Ptr<NoPDF>::tcp>(inPDF.second) ) {
	theBeams.second = theIncoming.second;
	}
	else if ( !theBeams.second ) {
	theBeams.second = getParticleData(heprup.IDBMUP.second)->produceParticle();
	double m = theBeams.second->mass()/GeV;
	theBeams.second->set5Momentum
	(Lorentz5Momentum(ZERO, ZERO,
	-sqrt(sqr(heprup.EBMUP.second) - sqr(m))*GeV,
	heprup.EBMUP.secondGeV, mGeV));
	hepeup.IDUP.push_back(heprup.IDBMUP.second);
	hepeup.ISTUP.push_back(-9);
	hepeup.MOTHUP.push_back(make_pair(0, 0));
	hepeup.ICOLUP.push_back(make_pair(0, 0));
	hepeup.VTIMUP.push_back(0.0);
	hepeup.SPINUP.push_back(0.0);
	particleIndex(hepeup.IDUP.size(), theBeams.second);
	hepeup.MOTHUP[particleIndex(theIncoming.second) - 1].first =
	hepeup.IDUP.size();
	}
	}

	void LesHouchesReader::connectMothers() {
	const ObjectIndexer<long,Particle> & pi = particleIndex;
	for ( int i = 0, N = hepeup.IDUP.size(); i < N; ++i ) {
	if ( pi(hepeup.MOTHUP[i].first) )
	pi(hepeup.MOTHUP[i].first)->addChild(pi(i + 1));
	if ( pi(hepeup.MOTHUP[i].second)
	&& hepeup.MOTHUP[i].second != hepeup.MOTHUP[i].first )
	pi(hepeup.MOTHUP[i].second)->addChild(pi(i + 1));
	}
	}

	void LesHouchesReader::openReadCacheFile() {
	if ( cacheFile() ) closeCacheFile();
	cacheFile().open(cacheFileName(), "r");
	position = 0;
	}

	void LesHouchesReader::openWriteCacheFile() {
	if ( cacheFile() ) closeCacheFile();
	cacheFile().open(cacheFileName(), "w");
	}

	void LesHouchesReader::closeCacheFile() {
	cacheFile().close();
	}

	void LesHouchesReader::cacheEvent() const {
	static vector<char> buff;
	cacheFile().write(&hepeup.NUP, sizeof(hepeup.NUP));
	buff.resize(eventSize(hepeup.NUP));
	char * pos = &buff[0];
	pos = mwrite(pos, hepeup.IDPRUP);
	pos = mwrite(pos, hepeup.XWGTUP);
	pos = mwrite(pos, hepeup.XPDWUP);
	pos = mwrite(pos, hepeup.SCALUP);
	pos = mwrite(pos, hepeup.AQEDUP);
	pos = mwrite(pos, hepeup.AQCDUP);
	pos = mwrite(pos, hepeup.IDUP[0], hepeup.NUP);
	pos = mwrite(pos, hepeup.ISTUP[0], hepeup.NUP);
	pos = mwrite(pos, hepeup.MOTHUP[0], hepeup.NUP);
	pos = mwrite(pos, hepeup.ICOLUP[0], hepeup.NUP);
	for ( int i = 0; i < hepeup.NUP; ++i )
	pos = mwrite(pos, hepeup.PUP[i][0], 5);
	pos = mwrite(pos, hepeup.VTIMUP[0], hepeup.NUP);
	pos = mwrite(pos, hepeup.SPINUP[0], hepeup.NUP);
	pos = mwrite(pos, lastweight);
	pos = mwrite(pos, optionalWeights);
	for(int ff = 0; ff < optionalWeightsNames.size(); ff++) {
	pos = mwrite(pos, optionalWeightsNames[ff]);
	}
	pos = mwrite(pos, optionalnpLO);
	pos = mwrite(pos, optionalnpNLO);
	pos = mwrite(pos, preweight);
	cacheFile().write(&buff[0], buff.size(), 1);
	}

	bool LesHouchesReader::uncacheEvent() {
	reset();
	static vector<char> buff;
	if ( cacheFile().read(&hepeup.NUP, sizeof(hepeup.NUP)) != 1 )
	return false;
	buff.resize(eventSize(hepeup.NUP));
	if ( cacheFile().read(&buff[0], buff.size()) != 1 ) return false;
	const char * pos = &buff[0];
	pos = mread(pos, hepeup.IDPRUP);
	pos = mread(pos, hepeup.XWGTUP);
	pos = mread(pos, hepeup.XPDWUP);
	pos = mread(pos, hepeup.SCALUP);
	pos = mread(pos, hepeup.AQEDUP);
	pos = mread(pos, hepeup.AQCDUP);
	hepeup.IDUP.resize(hepeup.NUP);
	pos = mread(pos, hepeup.IDUP[0], hepeup.NUP);
	hepeup.ISTUP.resize(hepeup.NUP);
	pos = mread(pos, hepeup.ISTUP[0], hepeup.NUP);
	hepeup.MOTHUP.resize(hepeup.NUP);
	pos = mread(pos, hepeup.MOTHUP[0], hepeup.NUP);
	hepeup.ICOLUP.resize(hepeup.NUP);
	pos = mread(pos, hepeup.ICOLUP[0], hepeup.NUP);
	hepeup.PUP.resize(hepeup.NUP, vector<double>(5));
	for ( int i = 0; i < hepeup.NUP; ++i )
	pos = mread(pos, hepeup.PUP[i][0], 5);
	hepeup.VTIMUP.resize(hepeup.NUP);
	pos = mread(pos, hepeup.VTIMUP[0], hepeup.NUP);
	hepeup.SPINUP.resize(hepeup.NUP);
	pos = mread(pos, hepeup.SPINUP[0], hepeup.NUP);
	pos = mread(pos, lastweight);
	pos = mread(pos, optionalWeights);
	for(int ff = 0; ff < optionalWeightsNames.size(); ff++) {
	pos = mread(pos, optionalWeightsNames[ff]);
	}
	pos = mread(pos, optionalnpLO);
	pos = mread(pos, optionalnpNLO);
	pos = mread(pos, preweight);

	// If we are skipping, we do not have to do anything else.
	if ( skipping ) return true;

	if ( CKKWHandler() && maxMultCKKW() > 0 && maxMultCKKW() > minMultCKKW() ) {
	// The cached event has not been submitted to CKKW reweighting, so
	// we do that now.
	fillEvent();
	getSubProcess();
	CKKWHandler()->setXComb(lastXCombPtr());
	lastweight *= CKKWHandler()->reweightCKKW(minMultCKKW(), maxMultCKKW());
	}
	return true;
	}

	void LesHouchesReader::persistentOutput(PersistentOStream & os) const {
	os << heprup.IDBMUP << heprup.EBMUP << heprup.PDFGUP << heprup.PDFSUP
	<< heprup.IDWTUP << heprup.NPRUP << heprup.XSECUP << heprup.XERRUP
	<< heprup.XMAXUP << heprup.LPRUP << hepeup.NUP << hepeup.IDPRUP
	<< hepeup.XWGTUP << hepeup.XPDWUP << hepeup.SCALUP << hepeup.AQEDUP
	<< hepeup.AQCDUP << hepeup.IDUP << hepeup.ISTUP << hepeup.MOTHUP
	<< hepeup.ICOLUP << hepeup.PUP << hepeup.VTIMUP << hepeup.SPINUP
	<< inData << inPDF << outPDF << thePartonExtractor << theCKKW
	<< thePartonBins << theXCombs << theCuts << theNEvents << position
	<< reopened << theMaxScan << isActive
	<< theCacheFileName << doCutEarly << stats << statmap
	<< thePartonBinInstances
	<< theBeams << theIncoming << theOutgoing << theIntermediates
	<< reweights << preweights << preweight << reweightPDF << doInitPDFs
	<< theLastXComb << theMaxMultCKKW << theMinMultCKKW << lastweight << optionalWeights << optionalnpLO << optionalnpNLO
	<< maxFactor << ounit(weightScale, picobarn) << xSecWeights << maxWeights
	<< theMomentumTreatment << useWeightWarnings << theReOpenAllowed
	<< theIncludeSpin;
	}

	void LesHouchesReader::persistentInput(PersistentIStream & is, int) {
	if ( cacheFile() ) closeCacheFile();
	is >> heprup.IDBMUP >> heprup.EBMUP >> heprup.PDFGUP >> heprup.PDFSUP
	>> heprup.IDWTUP >> heprup.NPRUP >> heprup.XSECUP >> heprup.XERRUP
	>> heprup.XMAXUP >> heprup.LPRUP >> hepeup.NUP >> hepeup.IDPRUP
	>> hepeup.XWGTUP >> hepeup.XPDWUP >> hepeup.SCALUP >> hepeup.AQEDUP
	>> hepeup.AQCDUP >> hepeup.IDUP >> hepeup.ISTUP >> hepeup.MOTHUP
	>> hepeup.ICOLUP >> hepeup.PUP >> hepeup.VTIMUP >> hepeup.SPINUP
	>> inData >> inPDF >> outPDF >> thePartonExtractor >> theCKKW
	>> thePartonBins >> theXCombs >> theCuts >> theNEvents >> position
	>> reopened >> theMaxScan >> isActive
	>> theCacheFileName >> doCutEarly >> stats >> statmap
	>> thePartonBinInstances
	>> theBeams >> theIncoming >> theOutgoing >> theIntermediates
	>> reweights >> preweights >> preweight >> reweightPDF >> doInitPDFs
	>> theLastXComb >> theMaxMultCKKW >> theMinMultCKKW >> lastweight >> optionalWeights >> optionalnpLO >> optionalnpNLO
	>> maxFactor >> iunit(weightScale, picobarn) >> xSecWeights >> maxWeights
	>> theMomentumTreatment >> useWeightWarnings >> theReOpenAllowed
	>> theIncludeSpin;
	}

	AbstractClassDescription<LesHouchesReader>
	LesHouchesReader::initLesHouchesReader;
	// Definition of the static class description member.

	void LesHouchesReader::setBeamA(long id) { heprup.IDBMUP.first = id; }
	long LesHouchesReader::getBeamA() const { return heprup.IDBMUP.first; }
	void LesHouchesReader::setBeamB(long id) { heprup.IDBMUP.second = id; }
	long LesHouchesReader::getBeamB() const { return heprup.IDBMUP.second; }
	void LesHouchesReader::setEBeamA(Energy e) { heprup.EBMUP.first = e/GeV; }
	Energy LesHouchesReader::getEBeamA() const { return heprup.EBMUP.first*GeV; }
	void LesHouchesReader::setEBeamB(Energy e) { heprup.EBMUP.second = e/GeV; }
	Energy LesHouchesReader::getEBeamB() const { return heprup.EBMUP.second*GeV; }
	void LesHouchesReader::setPDFA(PDFPtr pdf) { inPDF.first = pdf; }
	PDFPtr LesHouchesReader::getPDFA() const { return inPDF.first; }
	void LesHouchesReader::setPDFB(PDFPtr pdf) { inPDF.second = pdf; }
	PDFPtr LesHouchesReader::getPDFB() const { return inPDF.second; }

	void LesHouchesReader::Init() {

	static ClassDocumentation<LesHouchesReader> documentation
	("ThePEG::LesHouchesReader is an abstract base class to be used "
	"for objects which reads event files or streams from matrix element "
	"generators.");

	static Parameter<LesHouchesReader,long> interfaceBeamA
	("BeamA",
	"The PDG id of the incoming particle along the positive z-axis. "
	"If zero the corresponding information is to be deduced from the "
	"event stream/file.",
	0, 0, 0, 0,
	true, false, false,
	&LesHouchesReader::setBeamA,
	&LesHouchesReader::getBeamA, 0, 0, 0);

	static Parameter<LesHouchesReader,long> interfaceBeamB
	("BeamB",
	"The PDG id of the incoming particle along the negative z-axis. "
	"If zero the corresponding information is to be deduced from the "
	"event stream/file.",
	0, 0, 0, 0,
	true, false, false,
	&LesHouchesReader::setBeamB,
	&LesHouchesReader::getBeamB, 0, 0, 0);

	static Parameter<LesHouchesReader,Energy> interfaceEBeamA
	("EBeamA",
	"The energy of the incoming particle along the positive z-axis. "
	"If zero the corresponding information is to be deduced from the "
	"event stream/file.",
	0, GeV, ZERO, ZERO, 1000000000.0*GeV,
	true, false, true,
	&LesHouchesReader::setEBeamA, &LesHouchesReader::getEBeamA, 0, 0, 0);

	static Parameter<LesHouchesReader,Energy> interfaceEBeamB
	("EBeamB",
	"The energy of the incoming particle along the negative z-axis. "
	"If zero the corresponding information is to be deduced from the "
	"event stream/file.",
	0, GeV, ZERO, ZERO, 1000000000.0*GeV,
	true, false, true,
	&LesHouchesReader::setEBeamB, &LesHouchesReader::getEBeamB, 0, 0, 0);

	static Reference<LesHouchesReader,PDFBase> interfacePDFA
	("PDFA",
	"The PDF used for incoming particle along the positive z-axis. "
	"If null the corresponding information is to be deduced from the "
	"event stream/file.",
	0, true, false, true, true, false,
	&LesHouchesReader::setPDFA, &LesHouchesReader::getPDFA, 0);

	static Reference<LesHouchesReader,PDFBase> interfacePDFB
	("PDFB",
	"The PDF used for incoming particle along the negative z-axis. "
	"If null the corresponding information is to be deduced from the "
	"event stream/file.",
	0, true, false, true, true, false,
	&LesHouchesReader::setPDFB, &LesHouchesReader::getPDFB, 0);

	static Parameter<LesHouchesReader,long> interfaceMaxScan
	("MaxScan",
	"The maximum number of events to scan to obtain information about "
	"processes and cross section in the intialization.",
	&LesHouchesReader::theMaxScan, -1, 0, 0,
	true, false, false);

	static Parameter<LesHouchesReader,string> interfaceCacheFileName
	("CacheFileName",
	- "Name of file used to cache the events form the reader in a fast-readable "
	+ "Name of file used to cache the events from the reader in a fast-readable "
	"form. If empty, no cache file will be generated.",
	&LesHouchesReader::theCacheFileName, "",
	true, false);
	interfaceCacheFileName.fileType();

	static Switch<LesHouchesReader,bool> interfaceCutEarly
	("CutEarly",
	"Determines whether to apply cuts to events before converting to "
	"ThePEG format.",
	&LesHouchesReader::doCutEarly, true, true, false);
	static SwitchOption interfaceCutEarlyYes
	(interfaceCutEarly,
	"Yes",
	"Event are cut before converted.",
	true);
	static SwitchOption interfaceCutEarlyNo
	(interfaceCutEarly,
	"No",
	"Events are not cut before converted.",
	false);

	static Reference<LesHouchesReader,PartonExtractor> interfacePartonExtractor
	("PartonExtractor",
	"The PartonExtractor object used to construct remnants. If no object is "
	"provided the LesHouchesEventHandler object must provide one instead.",
	&LesHouchesReader::thePartonExtractor, true, false, true, true, false);


	static Reference<LesHouchesReader,Cuts> interfaceCuts
	("Cuts",
	"The Cuts object to be used for this reader. Note that these "
	"must not be looser cuts than those used in the actual generation. "
	"If no object is provided the LesHouchesEventHandler object must "
	"provide one instead.",
	&LesHouchesReader::theCuts, true, false, true, true, false);

	static RefVector<LesHouchesReader,ReweightBase> interfaceReweights
	("Reweights",
	"A list of ThePEG::ReweightBase objects to modify this the weight of "
	"this reader.",
	&LesHouchesReader::reweights, 0, false, false, true, false);

	static RefVector<LesHouchesReader,ReweightBase> interfacePreweights
	("Preweights",
	"A list of ThePEG::ReweightBase objects to bias the phase space for this "
	"reader without influencing the actual cross section.",
	&LesHouchesReader::preweights, 0, false, false, true, false);

	static Switch<LesHouchesReader,bool> interfaceReweightPDF
	("ReweightPDF",
	"If the PDFs used in the generation for this reader is different "
	"from the ones assumed by the associated PartonExtractor object, "
	"should the events be reweighted to fit the latter?",
	&LesHouchesReader::reweightPDF, false, true, false);
	static SwitchOption interfaceReweightPDFNo
	(interfaceReweightPDF, "No", "The event weights are kept as they are.",
	false);
	static SwitchOption interfaceReweightPDFYes
	(interfaceReweightPDF,
	"Yes", "The events are reweighted.", true);

	static Switch<LesHouchesReader,bool> interfaceInitPDFs
	("InitPDFs",
	"If no PDFs were specified in <interface>PDFA</interface> or "
	"<interface>PDFB</interface>for this reader, try to extract the "
	"information from the event file and assign the relevant PDFBase"
	"objects when the reader is initialized.",
	&LesHouchesReader::doInitPDFs, false, true, false);
	static SwitchOption interfaceInitPDFsYes
	(interfaceInitPDFs,
	"Yes",
	"Extract PDFs during initialization.",
	true);
	static SwitchOption interfaceInitPDFsNo
	(interfaceInitPDFs,
	"No",
	"Do not extract PDFs during initialization.",
	false);

	static Parameter<LesHouchesReader,int> interfaceMaxMultCKKW
	("MaxMultCKKW",
	"If this reader is to be used (possibly together with others) for CKKW-"
	"reweighting and veto, this should give the multiplicity of outgoing "
	"particles in the highest multiplicity matrix element in the group. "
	"If set to zero, no CKKW procedure should be applied.",
	&LesHouchesReader::theMaxMultCKKW, 0, 0, 0,
	true, false, Interface::lowerlim);

	static Parameter<LesHouchesReader,int> interfaceMinMultCKKW
	("MinMultCKKW",
	"If this reader is to be used (possibly together with others) for CKKW-"
	"reweighting and veto, this should give the multiplicity of outgoing "
	"particles in the lowest multiplicity matrix element in the group. If "
	"larger or equal to <interface>MaxMultCKKW</interface>, no CKKW "
	"procedure should be applied.",
	&LesHouchesReader::theMinMultCKKW, 0, 0, 0,
	true, false, Interface::lowerlim);


	static Switch<LesHouchesReader,unsigned int> interfaceMomentumTreatment
	("MomentumTreatment",
	"Treatment of the momenta supplied by the interface",
	&LesHouchesReader::theMomentumTreatment, 0, false, false);
	static SwitchOption interfaceMomentumTreatmentAccept
	(interfaceMomentumTreatment,
	"Accept",
	"Just accept the momenta given",
	0);
	static SwitchOption interfaceMomentumTreatmentRescaleEnergy
	(interfaceMomentumTreatment,
	"RescaleEnergy",
	"Rescale the energy supplied so it is consistent with the mass",
	1);
	static SwitchOption interfaceMomentumTreatmentRescaleMass
	(interfaceMomentumTreatment,
	"RescaleMass",
	"Rescale the mass supplied so it is consistent with the"
	" energy and momentum",
	2);


	static Switch<LesHouchesReader,bool> interfaceWeightWarnings
	("WeightWarnings",
	"Determines if warnings about possible weight incompatibilities should "
	"be issued when this reader is initialized.",
	&LesHouchesReader::useWeightWarnings, true, true, false);
	static SwitchOption interfaceWeightWarningsWarnAboutWeights
	(interfaceWeightWarnings,
	"WarnAboutWeights",
	"Warn about possible incompatibilities with the weight option in the "
	"Les Houches common block and the requested weight treatment.",
	true);
	static SwitchOption interfaceWeightWarningsDontWarnAboutWeights
	(interfaceWeightWarnings,
	"DontWarnAboutWeights",
	"Do not warn about possible incompatibilities with the weight option "
	"in the Les Houches common block and the requested weight treatment.",
	false);

	static Switch<LesHouchesReader,bool> interfaceAllowedTopReOpen
	("AllowedToReOpen",
	"Can the file be reopened if more events are requested than the file contains?",
	&LesHouchesReader::theReOpenAllowed, true, false, false);
	static SwitchOption interfaceAllowedTopReOpenYes
	(interfaceAllowedTopReOpen,
	"Yes",
	"Allowed to reopen the file",
	true);
	static SwitchOption interfaceAllowedTopReOpenNo
	(interfaceAllowedTopReOpen,
	"No",
	"Not allowed to reopen the file",
	false);

	static Switch<LesHouchesReader,bool> interfaceIncludeSpin
	("IncludeSpin",
	"Use the spin information present in the event file, for tau leptons"
	" only as this is the only case which makes any sense",
	&LesHouchesReader::theIncludeSpin, true, false, false);
	static SwitchOption interfaceIncludeSpinYes
	(interfaceIncludeSpin,
	"Yes",
	"Use the spin information",
	true);
	static SwitchOption interfaceIncludeSpinNo
	(interfaceIncludeSpin,
	"No",
	"Don't use the spin information",
	false);



	interfaceCuts.rank(8);
	interfacePartonExtractor.rank(7);
	interfaceBeamA.rank(5);
	interfaceBeamB.rank(4);
	interfaceEBeamA.rank(3);
	interfaceEBeamB.rank(2);
	interfaceMaxMultCKKW.rank(1.5);
	interfaceMinMultCKKW.rank(1.0);

	interfaceBeamA.setHasDefault(false);
	interfaceBeamB.setHasDefault(false);
	interfaceEBeamA.setHasDefault(false);
	interfaceEBeamB.setHasDefault(false);
	interfaceMaxMultCKKW.setHasDefault(false);
	interfaceMinMultCKKW.setHasDefault(false);

	}

	namespace ThePEG {

	ostream & operator<<(ostream & os, const HEPEUP & h) {
	os << "<event>\n"
	<< " " << setw(4) << h.NUP
	<< " " << setw(6) << h.IDPRUP
	<< " " << setw(14) << h.XWGTUP
	<< " " << setw(14) << h.SCALUP
	<< " " << setw(14) << h.AQEDUP
	<< " " << setw(14) << h.AQCDUP << "\n";

	for ( int i = 0; i < h.NUP; ++i )
	os << " " << setw(8) << h.IDUP[i]
	<< " " << setw(2) << h.ISTUP[i]
	<< " " << setw(4) << h.MOTHUP[i].first
	<< " " << setw(4) << h.MOTHUP[i].second
	<< " " << setw(4) << h.ICOLUP[i].first
	<< " " << setw(4) << h.ICOLUP[i].second
	<< " " << setw(14) << h.PUP[i][0]
	<< " " << setw(14) << h.PUP[i][1]
	<< " " << setw(14) << h.PUP[i][2]
	<< " " << setw(14) << h.PUP[i][3]
	<< " " << setw(14) << h.PUP[i][4]
	<< " " << setw(1) << h.VTIMUP[i]
	<< " " << setw(1) << h.SPINUP[i] << std::endl;
	os << "</event>" << std::endl;
	return os;
	}

	}

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