Herwig 7.3.0
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IFMqqxDipole implements the D^{q,qbar}_k subtraction dipole. More...
#include <IFMqqxDipole.h>
Public Member Functions | |
IFMqqxDipole () | |
The default constructor. | |
virtual bool | canHandleEmitter (const cPDVector &partons, int emitter) const |
Return true, if this dipole can possibly handle the indicated emitter. | |
virtual bool | canHandleSplitting (const cPDVector &partons, int emitter, int emission) const |
Return true, if this dipole can possibly handle the indicated splitting. | |
virtual bool | canHandleSpectator (const cPDVector &partons, int spectator) const |
Return true, if this dipole can possibly handle the indicated spectator. | |
virtual bool | canHandle (const cPDVector &partons, int emitter, int emission, int spectator) const |
Return true, if this dipole applies to the selected configuration. | |
virtual int | samplingZ () const |
How to sample the z-distribution. | |
virtual double | me2 () const |
Return the matrix element for the kinematical configuation previously provided by the last call to setKinematics(), suitably scaled by sHat() to give a dimension-less number. | |
virtual double | me2Avg (double ccme2) const |
Return the matrix element averaged over spin correlations. | |
Public Member Functions inherited from Herwig::SubtractionDipole | |
SubtractionDipole () | |
The default constructor. | |
virtual | ~SubtractionDipole () |
The destructor. | |
Ptr< MatchboxFactory >::tptr | factory () const |
Return the factory which produced this matrix element. | |
virtual void | setXComb (tStdXCombPtr xc) |
Set the XComb object to be used in the next call to generateKinematics() and dSigHatDR(). | |
virtual void | setKinematics () |
Set the typed and momenta of the incoming and outgoing partons to be used in subsequent calls to me() and colourGeometries() according to the associated XComb object. | |
virtual bool | generateKinematics (const double *r) |
Generate internal degrees of freedom given nDim() uniform random numbers in the interval ]0,1[. | |
virtual int | nDim () const |
The number of internal degreed of freedom used in the matrix element. | |
virtual bool | wantCMS () const |
Return true, if this matrix element expects the incoming partons in their center-of-mass system. | |
virtual void | clearKinematics () |
Clear the information previously provided by a call to setKinematics(...). | |
virtual bool | ignoreCuts () const |
If this is a dependent matrix element in a ME group, return true, if cuts should be ignored. | |
void | doIgnoreCuts (bool is=true) |
Indicate that cuts should be ignored. | |
Ptr< TildeKinematics >::tcptr | tildeKinematics () const |
Return the TildeKinematics object used. | |
void | tildeKinematics (Ptr< TildeKinematics >::tptr) |
Set the TildeKinematics object used. | |
virtual bool | generateTildeKinematics () |
Generate the tilde kinematics from real emission kinematics accessible through the XComb's head object and store it in meMomenta(). | |
Ptr< InvertedTildeKinematics >::tcptr | invertedTildeKinematics () const |
Return the InvertedTildeKinematics object used. | |
void | invertedTildeKinematics (Ptr< InvertedTildeKinematics >::tptr) |
Set the InvertedTildeKinematics object used. | |
virtual int | nDimRadiation () const |
Return the number of additional random numbers needed to generate real emission kinematics off the tilde kinematics previously supplied through the XComb object. | |
virtual bool | generateRadiationKinematics (const double *) |
Generate the real emission kinematics off the Born kinematics accessible through the XComb's head object and store it in meMomenta(); store the single particle phasespace in units of lastHeadXComb()->lastSHat() in jacobian(). | |
void | ptCut (Energy cut) |
Set a pt cut when splitting. | |
Energy | lastDipoleScale () const |
Return the relevant dipole scale. | |
Energy | lastPt () const |
Return the relevant pt. | |
double | lastZ () const |
Return the relevant momentum fractions. | |
bool | splitting () const |
Return true, if this dipole acts in splitting mode. | |
void | doSplitting () |
Switch on splitting mode for this dipole. | |
void | doSubtraction () |
Switch off splitting mode for this dipole. | |
const vector< double > & | subtractionParameters () const |
Return the subtraction parameters. | |
vector< double > & | subtractionParameters () |
Access the subtraction parameters. | |
Energy | showerHardScale () const |
Return the shower hard scale encountered. | |
void | showerHardScale (Energy s) |
Set the shower hard scale encountered. | |
Energy | showerScale () const |
Return the shower evolution scale encountered. | |
void | showerScale (Energy s) |
Set the shower evolution scale encountered. | |
const vector< double > & | showerParameters () const |
Return the shower splitting variables encountered. | |
vector< double > & | showerParameters () |
Access the shower splitting variables encountered. | |
bool | isInShowerPhasespace () const |
Return true, if this configuration is in the shower phase space. | |
void | isInShowerPhasespace (bool yes) |
Indicate whether this configuration is in the shower phase space. | |
bool | isAboveCutoff () const |
Return true, if this configuration is above the shower infrared cutoff. | |
void | isAboveCutoff (bool yes) |
Indicate whether this configuration is above the shower infrared cutoff. | |
bool | realEmissionScales () const |
Return true, if scales should be calculated from real emission kinematics. | |
void | doRealEmissionScales (bool on=true) |
Switch on or off that scales should be calculated from real emission kinematics. | |
virtual Energy2 | scale () const |
Return the scale associated with the phase space point provided by the last call to setKinematics(). | |
virtual double | alphaS () const |
Return the value of \(\alpha_S\) associated with the phase space point provided by the last call to setKinematics(). | |
virtual double | alphaEM () const |
Return the value of \(\alpha_EM\) associated with the phase space point provided by the last call to setKinematics(). | |
virtual bool | havePDFWeight1 () const |
Return true, if this matrix element provides the PDF weight for the first incoming parton itself. | |
virtual bool | havePDFWeight2 () const |
Return true, if this matrix element provides the PDF weight for the second incoming parton itself. | |
Ptr< MatchboxMEBase >::tcptr | realEmissionME () const |
Return the real emission matrix element. | |
Ptr< MatchboxMEBase >::tptr | realEmissionME () |
Return the real emission matrix element. | |
void | realEmissionME (Ptr< MatchboxMEBase >::tptr me) |
Set the real emission matrix element. | |
Ptr< MatchboxMEBase >::tcptr | underlyingBornME () const |
Return the underlying Born matrix element. | |
Ptr< MatchboxMEBase >::tptr | underlyingBornME () |
Return the underlying Born matrix element. | |
void | underlyingBornME (Ptr< MatchboxMEBase >::tptr me) |
Set the underlying Born matrix element. | |
void | partnerDipoles (const vector< Ptr< SubtractionDipole >::tptr > &p) |
Set the dipoles which have been found along with this dipole. | |
const vector< Ptr< SubtractionDipole >::tptr > & | partnerDipoles () const |
Return the dipoles which have been found along with this dipole. | |
virtual CrossSection | dSigHatDR (Energy2 factorizationScale) const |
Return the matrix element squared differential in the variables given by the last call to generateKinematics(). | |
virtual CrossSection | dSigHatDR () const |
Return the matrix element squared differential in the variables given by the last call to generateKinematics(). | |
CrossSection | prefactor (Energy2 factorizationScale) const |
calculate the general prefactor for merging. | |
CrossSection | ps (Energy2 factorizationScale, Ptr< ColourBasis >::tptr largeNBasis) const |
Calculate the parton shower approximation for this dipole. | |
CrossSection | dip (Energy2 factorizationScale) const |
Calculate the dipole with clusterfsafe flag. | |
pair< CrossSection, CrossSection > | dipandPs (Energy2 factorizationScale, Ptr< ColourBasis >::tptr largeNBasis) const |
Calculate the dipole dSigDR and the parton shower approximation for this dipole. | |
void | showerApproximation (Ptr< ShowerApproximation >::tptr app) |
Set the shower approximation. | |
Ptr< ShowerApproximation >::tptr | showerApproximation () const |
Return the shower approximation. | |
void | doRealShowerSubtraction () |
Indicate that the shower real emission contribution should be subtracted. | |
bool | realShowerSubtraction () const |
Return true, if the shower real emission contribution should be subtracted. | |
void | doVirtualShowerSubtraction () |
Indicate that the shower virtual contribution should be subtracted. | |
bool | virtualShowerSubtraction () const |
Return true, if the shower virtual contribution should be subtracted. | |
void | doLoopSimSubtraction () |
Indicate that the loopsim matched virtual contribution should be subtracted. | |
bool | loopSimSubtraction () const |
Return true, if the loopsim matched virtual contribution should be subtracted. | |
virtual void | flushCaches () |
Inform this matrix element that a new phase space point is about to be generated, so all caches should be flushed. | |
void | doTestSubtraction () |
Indicate that the subtraction is being tested. | |
bool | testSubtraction () const |
Return true, if the subtraction is being tested. | |
bool | verbose () const |
Return true, if verbose. | |
void | print (ostream &) const |
Dump the setup to an ostream. | |
virtual void | printLastEvent (ostream &) const |
Print debug information on the last event. | |
void | logGenerateTildeKinematics () const |
Write out diagnostic information for generateTildeKinematics. | |
void | logGenerateRadiationKinematics (const double *r) const |
Write out diagnostic information for generateRadiationKinematics. | |
void | logME2 () const |
Write out diagnostic information for me2 evaluation. | |
void | logDSigHatDR (double effectiveJac) const |
Write out diagnostic information for dsigdr evaluation. | |
void | addReweight (Ptr< MatchboxReweightBase >::ptr rw) |
Insert a reweight object. | |
const vector< Ptr< MatchboxReweightBase >::ptr > & | reweights () const |
Return the reweight objects. | |
vector< Ptr< MatchboxReweightBase >::ptr > & | reweights () |
Access the reweight objects. | |
Ptr< SubtractionDipole >::ptr | cloneMe () const |
Clone this dipole. | |
void | cloneDependencies (const std::string &prefix="", bool slim=false) |
Clone the dependencies, using a given prefix. | |
virtual void | constructVertex (tSubProPtr sub) |
construct the spin information for the interaction | |
virtual void | constructVertex (tSubProPtr sub, const ColourLines *cl) |
construct the spin information for the interaction | |
virtual void | generateSubCollision (SubProcess &sub) |
Comlete a SubProcess object using the internal degrees of freedom generated in the last generateKinematics() (and possible other degrees of freedom which was intergated over in dSigHatDR(). | |
double | alpha () const |
Alpha parameter as in Nagy (http://arxiv.org/pdf/hep-ph/0307268v2.pdf) to restrict dipole phase space. | |
bool | aboveAlpha () const |
virtual bool | isSymmetric () const |
Return true, if this dipole is symmetric with respect to emitter and emission. | |
virtual bool | apply () const |
If this is a dependent matrix element in a ME group, return true, if it applies to the process set in lastXComb() | |
void | clearBookkeeping () |
Clear the bookkeeping. | |
void | setupBookkeeping (const map< Ptr< DiagramBase >::ptr, MergeInfo > &mergeInfo, bool slim) |
Setup bookkeeping maps. | |
void | subtractionBookkeeping () |
Get bookkeeping information for the given real emission diagram. | |
void | splittingBookkeeping () |
Determine bookkeeping information for the underlying Born process supplied through the lastHeadXComb() object. | |
virtual StdXCombPtr | makeXComb (Energy newMaxEnergy, const cPDPair &inc, tEHPtr newEventHandler, tSubHdlPtr newSubProcessHandler, tPExtrPtr newExtractor, tCascHdlPtr newCKKW, const PBPair &newPartonBins, tCutsPtr newCuts, const DiagramVector &newDiagrams, bool mir, const PartonPairVec &allPBins, tStdXCombPtr newHead=tStdXCombPtr(), tMEPtr newME=tMEPtr()) |
For the given event generation setup return a xcomb object appropriate to this matrix element. | |
virtual StdXCombPtr | makeXComb (tStdXCombPtr newHead, const PBPair &newPartonBins, const DiagramVector &newDiagrams, tMEPtr newME=tMEPtr()) |
For the given event generation setup return a dependent xcomb object appropriate to this matrix element. | |
StdXCombPtr | makeBornXComb (tStdXCombPtr realXC) |
Create a dependent xcomb object for the underlying Born process, given a XComb driving the real emission. | |
vector< StdXCombPtr > | makeRealXCombs (tStdXCombPtr bornXC) |
Create dependent xcomb objects for the real emission process, given a XComb driving the underlying Born. | |
bool | empty () const |
Return true, if bookkeeping did not find a non-trivial setup. | |
int | realEmitter () const |
Return the emitter as referred to by the real emission matrix element. | |
void | realEmitter (int id) |
Set the emitter as referred to by the real emission matrix element. | |
int | realEmission () const |
Return the emission as referred to by the real emission matrix element. | |
void | realEmission (int id) |
Set the emission as referred to by the real emission matrix element. | |
int | realSpectator () const |
Return the spectator as referred to by the real emission matrix element. | |
void | realSpectator (int id) |
Set the spectator as referred to by the real emission matrix element. | |
int | bornEmitter () const |
Return the emitter as referred to by the underlying Born process. | |
void | bornEmitter (int id) |
Set the emitter as referred to by the underlying Born process. | |
int | bornSpectator () const |
Return the spectator as referred to by the underlying Born process. | |
void | bornSpectator (int id) |
Set the spectator as referred to by the underlying Born process. | |
const map< RealEmissionKey, UnderlyingBornInfo > & | mergingMap () const |
Return the merging map. | |
const multimap< UnderlyingBornKey, RealEmissionInfo > & | splittingMap () const |
Return the splitting map. | |
const DiagramVector & | underlyingBornDiagrams (const cPDVector &real) const |
Return the underlying Born diagrams to be considered for the given real emission process. | |
tcDiagPtr | underlyingBornDiagram (tcDiagPtr realDiag) const |
Find the underlying Born diagram for the given real emission diagram. | |
const DiagramVector & | realEmissionDiagrams (const cPDVector &born) const |
Return the real emission diagrams to be considered for the given Born process. | |
tcDiagPtr | realEmissionDiagram (tcDiagPtr bornDiag) const |
Find the real emission diagram for the given underlying Born diagram. | |
virtual void | getDiagrams () const |
Add all possible diagrams with the add() function. | |
virtual bool | noMirror () const |
Return true, if this matrix element does not want to make use of mirroring processes; in this case all possible partonic subprocesses with a fixed assignment of incoming particles need to be provided through the diagrams added with the add(...) method. | |
virtual Selector< DiagramIndex > | diagrams (const DiagramVector &dv) const |
With the information previously supplied with the setKinematics(...) method, a derived class may optionally override this method to weight the given diagrams with their (although certainly not physical) relative probabilities. | |
virtual Selector< const ColourLines * > | colourGeometries (tcDiagPtr diag) const |
Return a Selector with possible colour geometries for the selected diagram weighted by their relative probabilities. | |
virtual const ColourLines & | selectColourGeometry (tcDiagPtr diag) const |
Select a ColpurLines geometry. | |
virtual unsigned int | orderInAlphaS () const |
Return the order in \(\alpha_S\) in which this matrix element is given. | |
virtual unsigned int | orderInAlphaEW () const |
Return the order in \(\alpha_{EM}\) in which this matrix element is given. | |
void | persistentOutput (PersistentOStream &os) const |
Function used to write out object persistently. | |
void | persistentInput (PersistentIStream &is, int version) |
Function used to read in object persistently. | |
Public Member Functions inherited from ThePEG::MEBase | |
virtual unsigned int | orderInAlphaS () const=0 |
virtual unsigned int | orderInAlphaEW () const=0 |
virtual double | me2 () const=0 |
virtual Energy2 | scale () const=0 |
virtual double | alphaS () const |
virtual double | alphaEM () const |
void | setKinematics (tPPair in, const PVector &out) |
virtual void | setKinematics () |
virtual void | constructVertex (tSubProPtr sub) |
virtual void | constructVertex (tSubProPtr sub, const ColourLines *cl) |
virtual int | nDim () const |
virtual bool | generateKinematics (const double *r)=0 |
virtual bool | wantCMS () const |
virtual bool | headCuts () const |
virtual bool | ignoreCuts () const |
virtual bool | apply () const |
virtual CrossSection | dSigHatDR () const=0 |
virtual map< string, double > | generateOptionalWeights () |
virtual bool | haveX1X2 () const |
virtual bool | havePDFWeight1 () const |
virtual bool | havePDFWeight2 () const |
virtual bool | keepRandomNumbers () const |
virtual void | generateSubCollision (SubProcess &) |
virtual void | clearKinematics () |
virtual void | getDiagrams () const=0 |
virtual bool | noMirror () const |
const DiagramVector & | diagrams () const |
virtual Selector< const ColourLines * > | colourGeometries (tcDiagPtr diag) const=0 |
virtual const ColourLines & | selectColourGeometry (tcDiagPtr diag) const |
virtual Selector< DiagramIndex > | diagrams (const DiagramVector &) const |
virtual DiagramIndex | diagram (const DiagramVector &) const |
bool | reweighted () const |
double | reWeight () const |
double | preWeight () const |
void | addReweighter (tReweightPtr rw) |
void | addPreweighter (tReweightPtr rw) |
Ptr< Amplitude >::pointer | amplitude () const |
void | amplitude (Ptr< Amplitude >::pointer amp) |
Energy2 | sHat () const |
double | preweight () const |
virtual void | flushCaches () |
virtual StdXCombPtr | makeXComb (Energy newMaxEnergy, const cPDPair &inc, tEHPtr newEventHandler, tSubHdlPtr newSubProcessHandler, tPExtrPtr newExtractor, tCascHdlPtr newCKKW, const PBPair &newPartonBins, tCutsPtr newCuts, const DiagramVector &newDiagrams, bool mir, const PartonPairVec &allPBins, tStdXCombPtr newHead=tStdXCombPtr(), tMEPtr newME=tMEPtr()) |
virtual StdXCombPtr | makeXComb (tStdXCombPtr newHead, const PBPair &newPartonBins, const DiagramVector &newDiagrams, tMEPtr newME=tMEPtr()) |
virtual void | fillProjectors () |
virtual void | setXComb (tStdXCombPtr) |
const DVector & | meInfo () const |
void | meInfo (const DVector &info) const |
virtual int | maxMultCKKW () const |
virtual int | minMultCKKW () const |
virtual void | maxMultCKKW (int mult) |
virtual void | minMultCKKW (int mult) |
virtual void | setVetoScales (tSubProPtr) const |
virtual unsigned int | orderInAlphaS () const=0 |
virtual unsigned int | orderInAlphaEW () const=0 |
virtual double | me2 () const=0 |
virtual Energy2 | scale () const=0 |
virtual double | alphaS () const |
virtual double | alphaEM () const |
void | setKinematics (tPPair in, const PVector &out) |
virtual void | setKinematics () |
virtual void | constructVertex (tSubProPtr sub) |
virtual void | constructVertex (tSubProPtr sub, const ColourLines *cl) |
virtual int | nDim () const |
virtual bool | generateKinematics (const double *r)=0 |
virtual bool | wantCMS () const |
virtual bool | headCuts () const |
virtual bool | ignoreCuts () const |
virtual bool | apply () const |
virtual CrossSection | dSigHatDR () const=0 |
virtual map< string, double > | generateOptionalWeights () |
virtual bool | haveX1X2 () const |
virtual bool | havePDFWeight1 () const |
virtual bool | havePDFWeight2 () const |
virtual bool | keepRandomNumbers () const |
virtual void | generateSubCollision (SubProcess &) |
virtual void | clearKinematics () |
virtual void | getDiagrams () const=0 |
virtual bool | noMirror () const |
const DiagramVector & | diagrams () const |
virtual Selector< const ColourLines * > | colourGeometries (tcDiagPtr diag) const=0 |
virtual const ColourLines & | selectColourGeometry (tcDiagPtr diag) const |
virtual Selector< DiagramIndex > | diagrams (const DiagramVector &) const |
virtual DiagramIndex | diagram (const DiagramVector &) const |
bool | reweighted () const |
double | reWeight () const |
double | preWeight () const |
void | addReweighter (tReweightPtr rw) |
void | addPreweighter (tReweightPtr rw) |
Ptr< Amplitude >::pointer | amplitude () const |
void | amplitude (Ptr< Amplitude >::pointer amp) |
Energy2 | sHat () const |
double | preweight () const |
virtual void | flushCaches () |
virtual StdXCombPtr | makeXComb (Energy newMaxEnergy, const cPDPair &inc, tEHPtr newEventHandler, tSubHdlPtr newSubProcessHandler, tPExtrPtr newExtractor, tCascHdlPtr newCKKW, const PBPair &newPartonBins, tCutsPtr newCuts, const DiagramVector &newDiagrams, bool mir, const PartonPairVec &allPBins, tStdXCombPtr newHead=tStdXCombPtr(), tMEPtr newME=tMEPtr()) |
virtual StdXCombPtr | makeXComb (tStdXCombPtr newHead, const PBPair &newPartonBins, const DiagramVector &newDiagrams, tMEPtr newME=tMEPtr()) |
virtual void | fillProjectors () |
virtual void | setXComb (tStdXCombPtr) |
const DVector & | meInfo () const |
void | meInfo (const DVector &info) const |
virtual int | maxMultCKKW () const |
virtual int | minMultCKKW () const |
virtual void | maxMultCKKW (int mult) |
virtual void | minMultCKKW (int mult) |
virtual void | setVetoScales (tSubProPtr) const |
void | persistentOutput (PersistentOStream &os) const |
void | persistentInput (PersistentIStream &is, int version) |
Public Member Functions inherited from ThePEG::HandlerBaseT< UseRandom > | |
double | rnd () const |
double | rnd (double xu) const |
double | rnd (double xl, double xu) const |
bool | rndbool () const |
bool | rndbool (double p) const |
bool | rndbool (double p1, double p2) const |
int | rndsign (double p1, double p2, double p3) const |
int | rnd2 (double p0, double p1) const |
int | rnd3 (double p0, double p1, double p2) const |
int | rnd4 (double p0, double p1, double p2, double p3) const |
long | irnd (long xu=2) const |
long | irnd (long xl, long xu) const |
const StandardModelBase & | SM () const |
tSMPtr | standardModel () const |
Public Member Functions inherited from ThePEG::Interfaced | |
virtual bool | defaultInit () |
PPtr | getParticle (PID) const |
PDPtr | getParticleData (PID) const |
bool | used () const |
void | useMe () const |
tEGPtr | generator () const |
void | persistentOutput (PersistentOStream &os) const |
void | persistentInput (PersistentIStream &is, int version) |
PPtr | getParticle (PID) const |
PDPtr | getParticleData (PID) const |
bool | used () const |
void | useMe () const |
tEGPtr | generator () const |
Public Member Functions inherited from ThePEG::InterfacedBase | |
string | fullName () const |
string | name () const |
string | path () const |
string | comment () const |
void | setup (istream &is) |
void | update () |
void | init () |
virtual bool | preInitialize () const |
void | initrun () |
void | finish () |
void | touch () |
void | reset () |
void | clear () |
InitState | state () const |
bool | locked () const |
bool | touched () const |
virtual IBPtr | fullclone () const |
void | persistentOutput (PersistentOStream &os) const |
void | persistentInput (PersistentIStream &is, int version) |
virtual void | debugme () const |
void | update () |
void | init () |
virtual bool | preInitialize () const |
void | initrun () |
void | finish () |
void | touch () |
void | reset () |
void | clear () |
InitState | state () const |
bool | locked () const |
bool | touched () const |
virtual IBPtr | fullclone () const |
Public Member Functions inherited from ThePEG::Base | |
void | debug () const |
virtual void | debugme () const |
Public Member Functions inherited from ThePEG::Pointer::ReferenceCounted | |
CounterType | referenceCount () const |
Public Member Functions inherited from ThePEG::Named | |
Named (const string &newName=string()) | |
Named (const Named &)=default | |
const string & | name () const |
bool | operator== (const Named &other) const |
bool | operator< (const Named &other) const |
Public Member Functions inherited from ThePEG::LastXCombInfo< StandardXComb > | |
const XC & | lastXComb () const |
const XC & | lastXComb () const |
tXCPtr | lastXCombPtr () const |
tXCPtr | lastXCombPtr () const |
const XC & | lastHeadXComb () const |
const XC & | lastHeadXComb () const |
tXCPtr | lastHeadXCombPtr () const |
tXCPtr | lastHeadXCombPtr () const |
const EventHandler & | lastEventHandler () const |
const EventHandler & | lastEventHandler () const |
tPExtrPtr | lastExtractor () const |
tPExtrPtr | lastExtractor () const |
PDFT | pdf (tcPPtr parton) const |
PDFT | pdf (tcPPtr parton) const |
const Cuts & | lastCuts () const |
const Cuts & | lastCuts () const |
tCutsPtr | lastCutsPtr () const |
tCutsPtr | lastCutsPtr () const |
const PPair & | lastParticles () const |
const PPair & | lastParticles () const |
Energy2 | lastS () const |
Energy2 | lastS () const |
const PPair & | lastPartons () const |
const PPair & | lastPartons () const |
Energy2 | lastSHat () const |
Energy2 | lastSHat () const |
double | lastTau () const |
double | lastTau () const |
double | lastY () const |
double | lastY () const |
double | lastP1 () const |
double | lastP1 () const |
double | lastP2 () const |
double | lastP2 () const |
double | lastL1 () const |
double | lastL1 () const |
double | lastL2 () const |
double | lastL2 () const |
double | lastX1 () const |
double | lastX1 () const |
double | lastX2 () const |
double | lastX2 () const |
double | lastE1 () const |
double | lastE1 () const |
double | lastE2 () const |
double | lastE2 () const |
double | lastFL1L2 () const |
double | lastFL1L2 () const |
Energy2 | lastScale () const |
double | lastAlphaS () const |
double | lastAlphaEM () const |
const vector< Lorentz5Momentum > & | meMomenta () const |
double | lastME2 () const |
double | lastPreweight () const |
double | jacobian () const |
CrossSection | lastMECrossSection () const |
double | lastMEPDFWeight () const |
double | lastMECouplings () const |
tSubProPtr | subProcess () const |
const cPDVector & | mePartonData () const |
Public Member Functions inherited from Herwig::LastMatchboxXCombInfo | |
LastMatchboxXCombInfo () | |
Default constructor. | |
MatchboxXCombData * | lastMatchboxXComb () const |
Return a pointer to the last selected XComb. | |
MatchboxXCombData * | lastHeadMatchboxXComb () const |
If the last selected XComb object belongs to a group of XComb's return a pointer to the head XComb object for this group. | |
const vector< int > & | crossingMap () const |
The crossing information as filled by the last call to fillCrossingMap() | |
const map< size_t, size_t > & | amplitudeToColourMap () const |
The colour crossing information as filled by the last call to fillCrossingMap() | |
const map< size_t, size_t > & | colourToAmplitudeMap () const |
The colour crossing information as filled by the last call to fillCrossingMap() | |
double | crossingSign () const |
The crossing sign as filled by the last call to fillCrossingMap() | |
Energy2 | lastRenormalizationScale () const |
The last renormalization scale. | |
const cPDVector & | amplitudePartonData () const |
The amplitude parton data. | |
const vector< Lorentz5Momentum > & | amplitudeMomenta () const |
The crossed momenta. | |
bool | calculateTreeAmplitudes () const |
True, if the the tree level amplitudes need to be calculated. | |
const map< vector< int >, CVector > & | lastAmplitudes () const |
The amplitude values which have been contributing to the last call of prepareAmplitudes. | |
const map< vector< int >, CVector > & | lastLargeNAmplitudes () const |
The leading N amplitude values which have been contributing to the last call of prepareAmplitudes. | |
bool | calculateOneLoopAmplitudes () const |
True, if the the one-loop amplitudes need to be calculated. | |
const map< vector< int >, CVector > & | lastOneLoopAmplitudes () const |
The one-loop amplitude values which have been contributing to the last call of prepareAmplitudes. | |
bool | calculateTreeME2 () const |
True, if the tree-level matrix element squared needs to be calculated. | |
double | lastTreeME2 () const |
The last tree-level matrix element squared. | |
bool | calculateLargeNME2 () const |
True, if the tree-level matrix element squared needs to be calculated. | |
double | lastLargeNME2 () const |
The last tree-level matrix element squared. | |
bool | calculateOneLoopInterference () const |
True, if the one-loop/tree-level interference. | |
double | lastOneLoopInterference () const |
The last one-loop/tree-level interference. | |
bool | calculateOneLoopPoles () const |
True, if the one-loop/tree-level interference. | |
pair< double, double > | lastOneLoopPoles () const |
The last one-loop/tree-level interference. | |
bool | calculateColourCorrelator (const pair< int, int > &ij) const |
True, if the indexed colour correlated matrix element needs to be calculated. | |
double | lastColourCorrelator (const pair< int, int > &ij) const |
The colour correlated matrix element. | |
bool | calculateLargeNColourCorrelator (const pair< int, int > &ij) const |
True, if the indexed large-N colour correlated matrix element needs to be calculated. | |
double | lastLargeNColourCorrelator (const pair< int, int > &ij) const |
The large-N colour correlated matrix element. | |
bool | calculateColourSpinCorrelator (const pair< int, int > &ij) const |
True, if the indexed colour/spin correlated matrix element needs to be calculated. | |
Complex | lastColourSpinCorrelator (const pair< int, int > &ij) const |
The colour/spin correlated matrix element. | |
bool | calculateSpinCorrelator (const pair< int, int > &ij) const |
True, if the indexed spin correlated matrix element needs to be calculated. | |
Complex | lastSpinCorrelator (const pair< int, int > &ij) const |
The spin correlated matrix element. | |
unsigned int | nLight () const |
Return the number of light flavours to be considered for this process. | |
vector< long > | nLightJetVec () const |
Return the vector that contains the PDG ids of the light flavours, which are contained in the jet particle group. | |
vector< long > | nHeavyJetVec () const |
Return the vector that contains the PDG ids of the heavy flavours, which are contained in the jet particle group. | |
vector< long > | nLightProtonVec () const |
Return the vector that contains the PDG ids of the light flavours, which are contained in the proton particle group. | |
size_t | colourBasisDim () const |
Get the dimensionality of the colour basis for this process. | |
int | nDimPhasespace () const |
Return the number of degrees of freedom required by the phase space generator. | |
int | nDimAmplitude () const |
Return the number of degrees of freedom required by the amplitude. | |
int | nDimInsertions () const |
Return the number of degrees of freedom required by the insertion operators. | |
const vector< double > & | amplitudeRandomNumbers () const |
Get the additional random numbers required by the amplitude. | |
const vector< double > & | insertionRandomNumbers () const |
Get the additional random numbers required by the insertion operator. | |
const map< int, double > & | diagramWeights () const |
Return the diagram weights indexed by diagram id. | |
const set< pair< size_t, size_t > > & | singularLimits () const |
Return the singular limits. | |
const set< pair< size_t, size_t > >::const_iterator & | lastSingularLimit () const |
Return the last matched singular limit. | |
Ptr< StandardModel >::tcptr | hwStandardModel () const |
Get the Herwig StandardModel object. | |
double | symmetryFactor () const |
Return the symmetry factor. | |
const vector< int > & | olpId () const |
Return the OLP process id. | |
double * | olpMomenta () const |
Return the olp momentum vector. | |
void | fillOLPMomenta (const vector< Lorentz5Momentum > &mm, const cPDVector &mePartonData, const map< long, Energy > &reshuffleMap) const |
Fill the olp momentum vector. | |
Functions used by the persistent I/O system. | |
void | persistentOutput (PersistentOStream &os) const |
Function used to write out object persistently. | |
void | persistentInput (PersistentIStream &is, int version) |
Function used to read in object persistently. | |
static void | Init () |
The standard Init function used to initialize the interfaces. | |
Clone Methods. | |
virtual IBPtr | clone () const |
Make a simple clone of this object. | |
virtual IBPtr | fullclone () const |
Make a clone of this object, possibly modifying the cloned object to make it sane. | |
IFMqqxDipole & | operator= (const IFMqqxDipole &)=delete |
The assignment operator is private and must never be called. | |
Additional Inherited Members | |
Public Types inherited from Herwig::SubtractionDipole | |
typedef pair< pair< cPDVector, int >, pair< int, int > > | RealEmissionKey |
Define the real emission key type. | |
typedef pair< cPDVector, pair< int, int > > | UnderlyingBornKey |
Define the underlying Born key type. | |
typedef pair< RealEmissionKey, map< int, int > > | RealEmissionInfo |
Define real emission key and index dictionary for partons not involved in the given dipole. | |
typedef pair< UnderlyingBornKey, map< int, int > > | UnderlyingBornInfo |
Define underlying Born key and index dictionary for partons not involved in the given dipole. | |
Public Types inherited from ThePEG::MEBase | |
typedef vector< DiagPtr > | DiagramVector |
typedef DiagramVector::size_type | DiagramIndex |
typedef vector< ReweightPtr > | ReweightVector |
Public Types inherited from ThePEG::InterfacedBase | |
enum | InitState |
Public Types inherited from ThePEG::Pointer::ReferenceCounted | |
typedef unsigned int | CounterType |
Public Types inherited from ThePEG::LastXCombInfo< StandardXComb > | |
typedef ThePEG::Ptr< XC >::pointer | XCPtr |
typedef ThePEG::Ptr< XC >::const_pointer | cXCPtr |
typedef ThePEG::Ptr< XC >::transient_pointer | tXCPtr |
typedef ThePEG::Ptr< XC >::transient_const_pointer | tcXCPtr |
Static Public Member Functions inherited from Herwig::SubtractionDipole | |
static RealEmissionKey | realEmissionKey (const cPDVector &proc, int em, int emm, int sp) |
Create a real emission key. | |
static const cPDVector & | process (const RealEmissionKey &key) |
Return the diagram of a real emission key. | |
static int | emission (const RealEmissionKey &key) |
Return the emission id of a real emission key. | |
static int | emitter (const RealEmissionKey &key) |
Return the emitter id of a real emission key. | |
static int | spectator (const RealEmissionKey &key) |
Return the spectator id of a real emission key. | |
static UnderlyingBornKey | underlyingBornKey (const cPDVector &proc, int em, int sp) |
Create a underlying Born key. | |
static const cPDVector & | process (const UnderlyingBornKey &key) |
Return the diagram of a underlying Born key. | |
static int | emitter (const UnderlyingBornKey &key) |
Return the emitter id of a underlying Born key. | |
static int | spectator (const UnderlyingBornKey &key) |
Return the spectator id of a underlying Born key. | |
static void | Init () |
The standard Init function used to initialize the interfaces. | |
Static Public Member Functions inherited from ThePEG::MEBase | |
static void | Init () |
Static Public Member Functions inherited from ThePEG::HandlerBase | |
static void | Init () |
Static Public Member Functions inherited from ThePEG::Interfaced | |
static void | Init () |
Static Public Member Functions inherited from ThePEG::InterfacedBase | |
static void | Init () |
Static Public Member Functions inherited from ThePEG::Base | |
static void | Init () |
Public Attributes inherited from ThePEG::InterfacedBase | |
initializing | |
uninitialized | |
initialized | |
runready | |
Public Attributes inherited from ThePEG::Pointer::ReferenceCounted | |
const unsigned long | uniqueId |
Protected Member Functions inherited from Herwig::SubtractionDipole | |
virtual void | doinit () |
Initialize this object after the setup phase before saving an EventGenerator to disk. | |
virtual void | doinitrun () |
Initialize this object. | |
Protected Member Functions inherited from ThePEG::MEBase | |
virtual void | doinit () |
virtual void | doinitrun () |
void | add (DiagPtr dp) const |
vector< Lorentz5Momentum > & | meMomenta () |
void | lastME2 (double v) const |
void | lastPreweight (double w) const |
void | lastMECrossSection (CrossSection v) const |
void | lastMEPDFWeight (double v) const |
void | lastMECouplings (double v) const |
void | jacobian (double j) |
void | use (tcMEPtr other) |
void | useDiagrams (tcMEPtr other) const |
Protected Member Functions inherited from ThePEG::Interfaced | |
void | reporeg (IBPtr object, string name) const |
bool | setDefaultReference (PtrT &ptr, string classname, string objectname) |
Interfaced (const string &newName) | |
Interfaced (const Interfaced &i) | |
void | setGenerator (tEGPtr generator) |
Protected Member Functions inherited from ThePEG::InterfacedBase | |
virtual void | readSetup (istream &is) |
virtual void | doupdate () |
virtual void | doinit () |
virtual void | doinitrun () |
virtual void | dofinish () |
virtual IVector | getReferences () |
virtual void | rebind (const TranslationMap &) |
virtual IBPtr | clone () const=0 |
InterfacedBase (string newName) | |
InterfacedBase (const InterfacedBase &i) | |
virtual void | readSetup (istream &is) |
virtual void | doupdate () |
virtual void | doinit () |
virtual void | doinitrun () |
virtual void | dofinish () |
virtual IVector | getReferences () |
virtual void | rebind (const TranslationMap &) |
Protected Member Functions inherited from ThePEG::Pointer::ReferenceCounted | |
ReferenceCounted (const ReferenceCounted &) | |
ReferenceCounted & | operator= (const ReferenceCounted &) |
Protected Member Functions inherited from ThePEG::Named | |
const Named & | operator= (const Named &other) |
const string & | name (const string &newName) |
Protected Member Functions inherited from Herwig::LastMatchboxXCombInfo | |
vector< int > & | crossingMap () |
The crossing information as filled by the last call to fillCrossingMap() | |
map< size_t, size_t > & | amplitudeToColourMap () |
The colour crossing information as filled by the last call to fillCrossingMap() | |
map< size_t, size_t > & | colourToAmplitudeMap () |
The colour crossing information as filled by the last call to fillCrossingMap() | |
void | crossingSign (double c) |
The crossing sign as filled by the last call to fillCrossingMap() | |
void | lastRenormalizationScale (Energy2 lrs) |
The last renormalization scale. | |
cPDVector & | amplitudePartonData () |
The amplitude parton data. | |
vector< Lorentz5Momentum > & | amplitudeMomenta () |
The crossed momenta. | |
void | haveTreeAmplitudes (bool f=true) |
True, if the the tree level amplitudes need to be calculated. | |
map< vector< int >, CVector > & | lastAmplitudes () |
The amplitude values which have been contributing to the last call of prepareAmplitudes. | |
map< vector< int >, CVector > & | lastLargeNAmplitudes () |
The leading N amplitude values which have been contributing to the last call of prepareAmplitudes. | |
void | haveOneLoopAmplitudes (bool f=true) |
True, if the the one-loop amplitudes need to be calculated. | |
map< vector< int >, CVector > & | lastOneLoopAmplitudes () |
The one-loop amplitude values which have been contributing to the last call of prepareAmplitudes. | |
void | lastTreeME2 (double v) const |
The last tree-level matrix element squared. | |
void | lastLargeNME2 (double v) const |
The last tree-level matrix element squared. | |
void | lastOneLoopInterference (double v) const |
The last one-loop/tree-level interference. | |
void | lastOneLoopPoles (pair< double, double > v) const |
The last one-loop/tree-level interference. | |
void | lastColourCorrelator (const pair< int, int > &ij, double v) const |
The colour correlated matrix element. | |
void | lastLargeNColourCorrelator (const pair< int, int > &ij, double v) const |
The large-N colour correlated matrix element. | |
void | lastColourSpinCorrelator (const pair< int, int > &ij, Complex v) const |
The colour/spin correlated matrix element. | |
void | lastSpinCorrelator (const pair< int, int > &ij, Complex v) const |
The spin correlated matrix element. | |
void | nLight (unsigned int n) |
Set the number of light flavours to be considered for this process. | |
void | nLightJetVec (int n) |
Set the elements of the vector that contains the PDG ids of the light flavours, which are contained in the jet particle group. | |
void | nHeavyJetVec (int n) |
Set the elements of the vector that contains the PDG ids of the heavy flavours, which are contained in the jet particle group. | |
void | nLightProtonVec (int n) |
Set the elements of the vector that contains the PDG ids of the light flavours, which are contained in the proton particle group. | |
void | colourBasisDim (size_t d) |
Set the dimensionality of the colour basis for this process. | |
void | nDimPhasespace (int d) |
Set the number of degrees of freedom required by the phase space generator. | |
void | nDimAmplitude (int d) |
Set the number of degrees of freedom required by the amplitude. | |
void | nDimInsertions (int d) |
Set the number of degrees of freedom required by the insertion operators. | |
vector< double > & | amplitudeRandomNumbers () |
Access the additional random numbers required by the amplitude. | |
vector< double > & | insertionRandomNumbers () |
Access the additional random numbers required by the insertion operator. | |
map< int, double > & | diagramWeights () |
Access the diagram weights indexed by diagram id. | |
set< pair< size_t, size_t > > & | singularLimits () |
Access the singular limits. | |
set< pair< size_t, size_t > >::const_iterator & | lastSingularLimit () |
Access the last matched singular limit. | |
void | hwStandardModel (Ptr< StandardModel >::tcptr sm) |
Set the Herwig StandardModel object. | |
void | symmetryFactor (double f) const |
Set the symmetry factor. | |
void | olpId (int pType, int id) |
Set the OLP process id. | |
void | lastMatchboxXComb (tStdXCombPtr xc) |
Set the XComb pointer cast to MatchboxXComb. | |
Static Protected Member Functions inherited from ThePEG::Interfaced | |
static void | registerRepository (IBPtr) |
static void | registerRepository (IBPtr, string newName) |
Protected Attributes inherited from ThePEG::LastXCombInfo< StandardXComb > | |
XCPtr | theLastXComb |
Protected Attributes inherited from Herwig::LastMatchboxXCombInfo | |
MatchboxXCombData * | theLastMatchboxXComb |
The XComb pointer cast to MatchboxXComb. | |
MatchboxXCombData * | theLastHeadMatchboxXComb |
The head XComb pointer cast to MatchboxXComb. | |
IFMqqxDipole implements the D^{q,qbar}_k subtraction dipole.
Definition at line 28 of file IFMqqxDipole.h.
|
virtual |
Return true, if this dipole applies to the selected configuration.
Implements Herwig::SubtractionDipole.
|
inlinevirtual |
Return true, if this dipole can possibly handle the indicated emitter.
Implements Herwig::SubtractionDipole.
Definition at line 43 of file IFMqqxDipole.h.
References Herwig::SubtractionDipole::emitter().
Referenced by canHandleSplitting().
|
inlinevirtual |
Return true, if this dipole can possibly handle the indicated spectator.
Implements Herwig::SubtractionDipole.
Definition at line 61 of file IFMqqxDipole.h.
References Herwig::SubtractionDipole::spectator().
|
inlinevirtual |
Return true, if this dipole can possibly handle the indicated splitting.
Implements Herwig::SubtractionDipole.
Definition at line 51 of file IFMqqxDipole.h.
References canHandleEmitter(), Herwig::SubtractionDipole::emission(), and Herwig::SubtractionDipole::emitter().
|
protectedvirtual |
Make a simple clone of this object.
Implements ThePEG::InterfacedBase.
|
protectedvirtual |
Make a clone of this object, possibly modifying the cloned object to make it sane.
Reimplemented from ThePEG::InterfacedBase.
|
static |
The standard Init function used to initialize the interfaces.
Called exactly once for each class by the class description system before the main function starts or when this class is dynamically loaded.
|
virtual |
Return the matrix element for the kinematical configuation previously provided by the last call to setKinematics(), suitably scaled by sHat() to give a dimension-less number.
Implements ThePEG::MEBase.
|
virtual |
Return the matrix element averaged over spin correlations.
Implements Herwig::SubtractionDipole.
|
privatedelete |
The assignment operator is private and must never be called.
In fact, it should not even be implemented.
void Herwig::IFMqqxDipole::persistentInput | ( | PersistentIStream & | is, |
int | version | ||
) |
Function used to read in object persistently.
is | the persistent input stream read from. |
version | the version number of the object when written. |
void Herwig::IFMqqxDipole::persistentOutput | ( | PersistentOStream & | os | ) | const |
Function used to write out object persistently.
os | the persistent output stream written to. |
|
inlinevirtual |
How to sample the z-distribution.
FlatZ = 1 OneOverZ = 2 OneOverOneMinusZ = 3 OneOverZOneMinusZ = 4
Reimplemented from Herwig::SubtractionDipole.
Definition at line 80 of file IFMqqxDipole.h.