Uses of Class hep.geant4.jni.G4HEVector (G4 Java 4.8.2-1-SNAPSHOT API)

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Uses of Class
hep.geant4.jni.G4HEVector

Packages that use G4HEVector
hep.geant4.jni

Uses of G4HEVector in hep.geant4.jni

Methods in hep.geant4.jni that return G4HEVector
`G4HEVector`	`G4HEInelastic.getAlpha()`
`G4HEVector`	`G4HEInelastic.getAntiKaonZero()`
`G4HEVector`	`G4HEInelastic.getAntiLambda()`
`G4HEVector`	`G4HEInelastic.getAntiNeutron()`
`G4HEVector`	`G4HEInelastic.getAntiOmegaMinus()`
`G4HEVector`	`G4HEInelastic.getAntiProton()`
`G4HEVector`	`G4HEInelastic.getAntiSigmaMinus()`
`G4HEVector`	`G4HEInelastic.getAntiSigmaPlus()`
`G4HEVector`	`G4HEInelastic.getAntiSigmaZero()`
`G4HEVector`	`G4HEInelastic.getAntiXiMinus()`
`G4HEVector`	`G4HEInelastic.getAntiXiZero()`
`G4HEVector`	`G4HEInelastic.getDeuteron()`
`G4HEVector`	`G4HEInelastic.getGamma()`
`G4HEVector`	`G4HEInelastic.getKaonMinus()`
`G4HEVector`	`G4HEInelastic.getKaonPlus()`
`G4HEVector`	`G4HEInelastic.getKaonZero()`
`G4HEVector`	`G4HEInelastic.getKaonZeroLong()`
`G4HEVector`	`G4HEInelastic.getKaonZeroShort()`
`G4HEVector`	`G4HEInelastic.getLambda()`
`G4HEVector`	`G4HEInelastic.getNeutron()`
`G4HEVector`	`G4HEInelastic.getOmegaMinus()`
`G4HEVector`	`G4HEInelastic.getPionMinus()`
`G4HEVector`	`G4HEInelastic.getPionPlus()`
`G4HEVector`	`G4HEInelastic.getPionZero()`
`G4HEVector`	`G4HEInelastic.getProton()`
`G4HEVector`	`G4HEInelastic.getSigmaMinus()`
`G4HEVector`	`G4HEInelastic.getSigmaPlus()`
`G4HEVector`	`G4HEInelastic.getSigmaZero()`
`G4HEVector`	`G4HEInelastic.getTriton()`
`G4HEVector`	`G4HEInelastic.getXiMinus()`
`G4HEVector`	`G4HEInelastic.getXiZero()`

Methods in hep.geant4.jni with parameters of type G4HEVector
`void`	`G4HEVector.add(G4HEVector p1, G4HEVector p2)`
`void`	`G4HEVector.add3(G4HEVector p1, G4HEVector p2)`
`double`	`G4HEVector.ang(G4HEVector p)`
`double`	`G4HEVector.cosAng(G4HEVector p)`
`void`	`G4HEVector.cross(G4HEVector p1, G4HEVector p2)`
`void`	`G4HEVector.defs(G4HEVector p1, G4HEVector p2, G4HEVector my, G4HEVector mz)`
`void`	`G4HEVector.defs1(G4HEVector p1, G4HEVector p2)`
`double`	`G4HEVector.dot(G4HEVector p1, G4HEVector p2)`
`double`	`G4HEVector.dot4(G4HEVector p1, G4HEVector p2)`
`void`	`G4HEInelastic.elasticScattering(SWIGTYPE_p_bool successful, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, double atomicWeight, double atomicNumber)`
`void`	`G4HEVector.exch(G4HEVector p1)`
`void`	`G4HEInelastic.fillParticleChange(G4HEVector pv, int aVecLength)`
`void`	`G4HEAntiLambdaInelastic.firstIntInCasAntiLambda(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight)`
`void`	`G4HEAntiNeutronInelastic.firstIntInCasAntiNeutron(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight)`
`void`	`G4HEAntiOmegaMinusInelastic.firstIntInCasAntiOmegaMinus(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight)`
`void`	`G4HEAntiProtonInelastic.firstIntInCasAntiProton(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight)`
`void`	`G4HEAntiSigmaMinusInelastic.firstIntInCasAntiSigmaMinus(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight)`
`void`	`G4HEAntiSigmaPlusInelastic.firstIntInCasAntiSigmaPlus(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight)`
`void`	`G4HEAntiXiMinusInelastic.firstIntInCasAntiXiMinus(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight)`
`void`	`G4HEAntiXiZeroInelastic.firstIntInCasAntiXiZero(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight)`
`void`	`G4HEKaonMinusInelastic.firstIntInCasKaonMinus(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle)`
`void`	`G4HEKaonPlusInelastic.firstIntInCasKaonPlus(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight)`
`void`	`G4HEKaonZeroInelastic.firstIntInCasKaonZero(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight)`
`void`	`G4HELambdaInelastic.firstIntInCasLambda(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight)`
`void`	`G4HENeutronInelastic.firstIntInCasNeutron(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight)`
`void`	`G4HEOmegaMinusInelastic.firstIntInCasOmegaMinus(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight)`
`void`	`G4HEPionMinusInelastic.firstIntInCasPionMinus(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle)`
`void`	`G4HEPionPlusInelastic.firstIntInCasPionPlus(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight)`
`void`	`G4HEProtonInelastic.firstIntInCasProton(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight)`
`void`	`G4HESigmaMinusInelastic.firstIntInCasSigmaMinus(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight)`
`void`	`G4HESigmaPlusInelastic.firstIntInCasSigmaPlus(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight)`
`void`	`G4HEXiMinusInelastic.firstIntInCasXiMinus(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight)`
`void`	`G4HEXiZeroInelastic.firstIntInCasXiZero(SWIGTYPE_p_bool inElastic, double availableEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight)`
`static long`	`G4HEVector.getCPtr(G4HEVector obj)`
`void`	`G4HEInelastic.highEnergyCascading(SWIGTYPE_p_bool successful, G4HEVector pv, SWIGTYPE_p_int vecLen, SWIGTYPE_p_double excitationEnergyGNP, SWIGTYPE_p_double excitationEnergyDTA, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight, double atomicNumber)`
`void`	`G4HEInelastic.highEnergyClusterProduction(SWIGTYPE_p_bool successful, G4HEVector pv, SWIGTYPE_p_int vecLen, SWIGTYPE_p_double excitationEnergyGNP, SWIGTYPE_p_double excitationEnergyDTA, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight, double atomicNumber)`
`double`	`G4HEVector.impu(G4HEVector p1, G4HEVector p2)`
`void`	`G4HEVector.lor(G4HEVector p1, G4HEVector p2)`
`void`	`G4HEInelastic.mediumEnergyCascading(SWIGTYPE_p_bool successful, G4HEVector pv, SWIGTYPE_p_int vecLen, SWIGTYPE_p_double excitationEnergyGNP, SWIGTYPE_p_double excitationEnergyDTA, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight, double atomicNumber)`
`void`	`G4HEInelastic.mediumEnergyClusterProduction(SWIGTYPE_p_bool successful, G4HEVector pv, SWIGTYPE_p_int vecLen, SWIGTYPE_p_double excitationEnergyGNP, SWIGTYPE_p_double excitationEnergyDTA, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight, double atomicNumber)`
`double`	`G4HEInelastic.nBodyPhaseSpace(double totalEnergy, boolean constantCrossSection, G4HEVector pv, SWIGTYPE_p_int vecLen)`
`double`	`G4HEInelastic.nBodyPhaseSpace(int npart, G4HEVector pv, double wmax, double wfcn, int maxtrial, int ntrial)`
`void`	`G4HEVector.norz(G4HEVector p)`
`void`	`G4HEInelastic.quasiElasticScattering(SWIGTYPE_p_bool successful, G4HEVector pv, SWIGTYPE_p_int vecLen, SWIGTYPE_p_double excitationEnergyGNP, SWIGTYPE_p_double excitationEnergyDTA, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight, double atomicNumber)`
`void`	`G4HEInelastic.setAlpha(G4HEVector value)`
`void`	`G4HEInelastic.setAntiKaonZero(G4HEVector value)`
`void`	`G4HEInelastic.setAntiLambda(G4HEVector value)`
`void`	`G4HEInelastic.setAntiNeutron(G4HEVector value)`
`void`	`G4HEInelastic.setAntiOmegaMinus(G4HEVector value)`
`void`	`G4HEInelastic.setAntiProton(G4HEVector value)`
`void`	`G4HEInelastic.setAntiSigmaMinus(G4HEVector value)`
`void`	`G4HEInelastic.setAntiSigmaPlus(G4HEVector value)`
`void`	`G4HEInelastic.setAntiSigmaZero(G4HEVector value)`
`void`	`G4HEInelastic.setAntiXiMinus(G4HEVector value)`
`void`	`G4HEInelastic.setAntiXiZero(G4HEVector value)`
`void`	`G4HEInelastic.setDeuteron(G4HEVector value)`
`void`	`G4HEInelastic.setGamma(G4HEVector value)`
`void`	`G4HEInelastic.setKaonMinus(G4HEVector value)`
`void`	`G4HEInelastic.setKaonPlus(G4HEVector value)`
`void`	`G4HEInelastic.setKaonZero(G4HEVector value)`
`void`	`G4HEInelastic.setKaonZeroLong(G4HEVector value)`
`void`	`G4HEInelastic.setKaonZeroShort(G4HEVector value)`
`void`	`G4HEInelastic.setLambda(G4HEVector value)`
`void`	`G4HEInelastic.setNeutron(G4HEVector value)`
`void`	`G4HEInelastic.setOmegaMinus(G4HEVector value)`
`void`	`G4HEInelastic.setPionMinus(G4HEVector value)`
`void`	`G4HEInelastic.setPionPlus(G4HEVector value)`
`void`	`G4HEInelastic.setPionZero(G4HEVector value)`
`void`	`G4HEInelastic.setProton(G4HEVector value)`
`void`	`G4HEInelastic.setSigmaMinus(G4HEVector value)`
`void`	`G4HEInelastic.setSigmaPlus(G4HEVector value)`
`void`	`G4HEInelastic.setSigmaZero(G4HEVector value)`
`void`	`G4HEInelastic.setTriton(G4HEVector value)`
`void`	`G4HEInelastic.setXiMinus(G4HEVector value)`
`void`	`G4HEInelastic.setXiZero(G4HEVector value)`
`void`	`G4HEVector.smul(G4HEVector p, double h)`
`void`	`G4HEVector.smulAndUpdate(G4HEVector p, double h)`
`void`	`G4HEInelastic.strangeParticlePairProduction(double availableEnergy, double centerOfMassEnergy, G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle)`
`void`	`G4HEVector.sub(G4HEVector p1, G4HEVector p2)`
`void`	`G4HEVector.sub3(G4HEVector p1, G4HEVector p2)`
`void`	`G4HEVector.trac(G4HEVector p1, G4HEVector mx, G4HEVector my, G4HEVector mz)`
`void`	`G4HEInelastic.tuningOfHighEnergyCascading(G4HEVector pv, SWIGTYPE_p_int vecLen, G4HEVector incidentParticle, G4HEVector targetParticle, double atomicWeight, double atomicNumber)`

Constructors in hep.geant4.jni with parameters of type G4HEVector
`G4HEVector(G4HEVector p)`

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Uses of Classhep.geant4.jni.G4HEVector

Uses of Class
hep.geant4.jni.G4HEVector