Package org.jmol.api
Interface SymmetryInterface
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- All Known Implementing Classes:
Symmetry
public interface SymmetryInterface
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Method Summary
All Methods Instance Methods Abstract Methods Modifier and Type Method Description intaddBioMoleculeOperation(javajs.util.M4 mat, boolean isReverse)booleanaddLatticeVectors(javajs.util.Lst<float[]> lattvecs)intaddSpaceGroupOperation(java.lang.String xyz, int opId)java.lang.StringaddSubSystemOp(java.lang.String code, javajs.util.Matrix rs, javajs.util.Matrix vs, javajs.util.Matrix sigma)voidcalculateCIPChiralityForAtoms(Viewer vwr, javajs.util.BS bsAtoms)java.lang.String[]calculateCIPChiralityForSmiles(Viewer vwr, java.lang.String smiles)booleancheckDistance(javajs.util.P3 f1, javajs.util.P3 f2, float distance, float dx, int iRange, int jRange, int kRange, javajs.util.P3 ptOffset)booleancreateSpaceGroup(int desiredSpaceGroupIndex, java.lang.String name, java.lang.Object data, int modDim)java.lang.Stringfcoord(javajs.util.T3 p)java.lang.ObjectfindSpaceGroup(Viewer vwr, javajs.util.BS atoms, java.lang.String op, boolean asString)javajs.util.Lst<javajs.util.P3>generateCrystalClass(javajs.util.P3 pt0)javajs.util.P3[]getCanonicalCopy(float scale, boolean withOffset)javajs.util.P3getCartesianOffset()int[]getCellRange()javajs.util.T3[]getConventionalUnitCell(java.lang.String latticeType, javajs.util.M3 primitiveToCryst)booleangetCoordinatesAreFractional()voidgetEquivPointList(javajs.util.Lst<javajs.util.P3> pts, int nIgnore, java.lang.String flags)javajs.util.Lst<javajs.util.P3>getEquivPoints(javajs.util.Lst<javajs.util.P3> pts, javajs.util.P3 pt, java.lang.String flags)javajs.util.P3getFractionalOffset()javajs.util.T3getFractionalOrigin()java.lang.StringgetIntTableNumber()int[]getInvariantSymops(javajs.util.P3 p3, int[] v0)AtomIndexIteratorgetIterator(Viewer vwr, Atom atom, javajs.util.BS bstoms, float radius)javajs.util.Lst<javajs.util.P3>getLatticeCentering()java.lang.ObjectgetLatticeDesignation()intgetLatticeOp()chargetLatticeType()java.lang.StringgetMatrixFromString(java.lang.String xyz, float[] temp, boolean allowScaling, int modDim)javajs.util.Lst<java.lang.String>getMoreInfo()javajs.util.MatrixgetOperationRsVs(int op)java.lang.ObjectgetPointGroupInfo(int modelIndex, java.lang.String drawID, boolean asInfo, java.lang.String type, int index, float scale)java.lang.StringgetPointGroupName()javajs.util.QuatgetQuaternionRotation(java.lang.String abc)intgetSiteMultiplicity(javajs.util.P3 a)java.lang.ObjectgetSpaceGroup()java.util.Map<java.lang.String,java.lang.Object>getSpaceGroupInfo(ModelSet modelSet, java.lang.String spaceGroup, int modelIndex, boolean isFull, float[] cellParams)java.lang.ObjectgetSpaceGroupInfoObj(java.lang.String name, SymmetryInterface cellInfo, boolean isFull, boolean addNonstandard)java.lang.StringgetSpaceGroupName()java.lang.StringgetSpaceGroupNameType(java.lang.String type)javajs.util.M4getSpaceGroupOperation(int i)java.lang.StringgetSpaceGroupOperationCode(int op)intgetSpaceGroupOperationCount()javajs.util.M4getSpaceGroupOperationRaw(int i)java.lang.StringgetSpaceGroupXyz(int i, boolean doNormalize)floatgetSpinOp(int op)booleangetState(ModelSet ms, int modelIndex, javajs.util.SB commands)java.lang.ObjectgetSymmetryInfoAtom(ModelSet ms, int iatom, java.lang.String xyz, int op, javajs.util.P3 translation, javajs.util.P3 pt, javajs.util.P3 pt2, java.lang.String id, int type, float scaleFactor, int nth, int options)java.lang.StringgetSymmetryInfoStr()javajs.util.M4[]getSymmetryOperations()TensorgetTensor(Viewer vwr, float[] anisoBorU)javajs.util.M4getTransform(javajs.util.P3 fracA, javajs.util.P3 fracB, boolean debug)SymmetryInterfacegetUnitCell(javajs.util.T3[] points, boolean setRelative, java.lang.String name)float[]getUnitCellAsArray(boolean vectorsOnly)java.lang.StringgetUnitCellInfo(boolean scaled)java.util.Map<java.lang.String,java.lang.Object>getUnitCellInfoMap()floatgetUnitCellInfoType(int infoType)SymmetryInterfacegetUnitCellMultiplied()javajs.util.T3getUnitCellMultiplier()float[]getUnitCellParams()java.lang.StringgetUnitCellState()javajs.util.P3[]getUnitCellVectors()javajs.util.P3[]getUnitCellVerticesNoOffset()javajs.util.T3[]getV0abc(java.lang.Object def, javajs.util.M4 m)booleanhaveUnitCell()voidinitializeOrientation(javajs.util.M3 matUnitCellOrientation)booleanisBio()booleanisPolymer()booleanisSimple()booleanisSlab()booleanisSupercell()voidnewSpaceGroupPoint(javajs.util.P3 pt, int i, javajs.util.M4 o, int transX, int transY, int transZ, javajs.util.P3 retPoint)javajs.util.BSnotInCentroid(ModelSet modelSet, javajs.util.BS bsAtoms, int[] minmax)javajs.util.BSremoveDuplicates(ModelSet ms, javajs.util.BS bs)javajs.util.V3[]rotateAxes(int iop, javajs.util.V3[] axes, javajs.util.P3 ptTemp, javajs.util.M3 mTemp)voidsetFinalOperations(int dim, java.lang.String name, javajs.util.P3[] atoms, int iAtomFirst, int noSymmetryCount, boolean doNormalize, java.lang.String filterSymop)voidsetLattice(int latt)set symmetry lattice type using Hall rotationsvoidsetOffset(int nnn)voidsetOffsetPt(javajs.util.T3 pt)SymmetryInterfacesetPointGroup(SymmetryInterface pointGroupPrevious, javajs.util.T3 center, javajs.util.T3[] atomset, javajs.util.BS bsAtoms, boolean haveVibration, float distanceTolerance, float linearTolerance, boolean localEnvOnly)voidsetSpaceGroup(boolean doNormalize)voidsetSpaceGroupName(java.lang.String name)voidsetSpaceGroupTo(java.lang.Object spaceGroup)SymmetryInterfacesetSymmetryInfo(int modelIndex, java.util.Map<java.lang.String,java.lang.Object> modelAuxiliaryInfo, float[] notionalCell)voidsetTimeReversal(int op, int val)SymmetryInterfacesetUnitCell(float[] params, boolean setRelative)voidsetUnitCell(SymmetryInterface uc)voidtoCartesian(javajs.util.T3 pt, boolean asAbsolute)voidtoFractional(javajs.util.T3 pt, boolean asAbsolute)voidtoFractionalM(javajs.util.M4 m)booleantoFromPrimitive(boolean toPrimitive, char type, javajs.util.T3[] oabc, javajs.util.M3 primitiveToCrystal)javajs.util.P3toSupercell(javajs.util.P3 fpt)voidtoUnitCell(javajs.util.T3 pt, javajs.util.T3 offset)voidtoUnitCellRnd(javajs.util.T3 pt, javajs.util.T3 offset)booleanunitCellEquals(SymmetryInterface uc2)voidunitize(javajs.util.T3 ptFrac)
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Method Detail
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addBioMoleculeOperation
int addBioMoleculeOperation(javajs.util.M4 mat, boolean isReverse)
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addLatticeVectors
boolean addLatticeVectors(javajs.util.Lst<float[]> lattvecs)
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addSpaceGroupOperation
int addSpaceGroupOperation(java.lang.String xyz, int opId)
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addSubSystemOp
java.lang.String addSubSystemOp(java.lang.String code, javajs.util.Matrix rs, javajs.util.Matrix vs, javajs.util.Matrix sigma)
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calculateCIPChiralityForAtoms
void calculateCIPChiralityForAtoms(Viewer vwr, javajs.util.BS bsAtoms)
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calculateCIPChiralityForSmiles
java.lang.String[] calculateCIPChiralityForSmiles(Viewer vwr, java.lang.String smiles) throws java.lang.Exception
- Throws:
java.lang.Exception
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checkDistance
boolean checkDistance(javajs.util.P3 f1, javajs.util.P3 f2, float distance, float dx, int iRange, int jRange, int kRange, javajs.util.P3 ptOffset)
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createSpaceGroup
boolean createSpaceGroup(int desiredSpaceGroupIndex, java.lang.String name, java.lang.Object data, int modDim)
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fcoord
java.lang.String fcoord(javajs.util.T3 p)
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findSpaceGroup
java.lang.Object findSpaceGroup(Viewer vwr, javajs.util.BS atoms, java.lang.String op, boolean asString)
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generateCrystalClass
javajs.util.Lst<javajs.util.P3> generateCrystalClass(javajs.util.P3 pt0)
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getCanonicalCopy
javajs.util.P3[] getCanonicalCopy(float scale, boolean withOffset)
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getCartesianOffset
javajs.util.P3 getCartesianOffset()
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getCellRange
int[] getCellRange()
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getConventionalUnitCell
javajs.util.T3[] getConventionalUnitCell(java.lang.String latticeType, javajs.util.M3 primitiveToCryst)
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getCoordinatesAreFractional
boolean getCoordinatesAreFractional()
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getEquivPointList
void getEquivPointList(javajs.util.Lst<javajs.util.P3> pts, int nIgnore, java.lang.String flags)
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getEquivPoints
javajs.util.Lst<javajs.util.P3> getEquivPoints(javajs.util.Lst<javajs.util.P3> pts, javajs.util.P3 pt, java.lang.String flags)
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getFractionalOffset
javajs.util.P3 getFractionalOffset()
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getFractionalOrigin
javajs.util.T3 getFractionalOrigin()
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getIntTableNumber
java.lang.String getIntTableNumber()
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getInvariantSymops
int[] getInvariantSymops(javajs.util.P3 p3, int[] v0)
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getIterator
AtomIndexIterator getIterator(Viewer vwr, Atom atom, javajs.util.BS bstoms, float radius)
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getLatticeCentering
javajs.util.Lst<javajs.util.P3> getLatticeCentering()
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getLatticeDesignation
java.lang.Object getLatticeDesignation()
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getLatticeOp
int getLatticeOp()
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getLatticeType
char getLatticeType()
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getMatrixFromString
java.lang.String getMatrixFromString(java.lang.String xyz, float[] temp, boolean allowScaling, int modDim)
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getMoreInfo
javajs.util.Lst<java.lang.String> getMoreInfo()
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getOperationRsVs
javajs.util.Matrix getOperationRsVs(int op)
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getPointGroupInfo
java.lang.Object getPointGroupInfo(int modelIndex, java.lang.String drawID, boolean asInfo, java.lang.String type, int index, float scale)
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getPointGroupName
java.lang.String getPointGroupName()
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getQuaternionRotation
javajs.util.Quat getQuaternionRotation(java.lang.String abc)
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getSiteMultiplicity
int getSiteMultiplicity(javajs.util.P3 a)
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getSpaceGroup
java.lang.Object getSpaceGroup()
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getSpaceGroupInfo
java.util.Map<java.lang.String,java.lang.Object> getSpaceGroupInfo(ModelSet modelSet, java.lang.String spaceGroup, int modelIndex, boolean isFull, float[] cellParams)
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getSpaceGroupInfoObj
java.lang.Object getSpaceGroupInfoObj(java.lang.String name, SymmetryInterface cellInfo, boolean isFull, boolean addNonstandard)
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getSpaceGroupName
java.lang.String getSpaceGroupName()
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getSpaceGroupNameType
java.lang.String getSpaceGroupNameType(java.lang.String type)
- Parameters:
type- "Hall" or "HM" or "ITA"- Returns:
- type or null
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getSpaceGroupOperation
javajs.util.M4 getSpaceGroupOperation(int i)
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getSpaceGroupOperationCode
java.lang.String getSpaceGroupOperationCode(int op)
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getSpaceGroupOperationCount
int getSpaceGroupOperationCount()
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getSpaceGroupOperationRaw
javajs.util.M4 getSpaceGroupOperationRaw(int i)
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getSpaceGroupXyz
java.lang.String getSpaceGroupXyz(int i, boolean doNormalize)
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getSpinOp
float getSpinOp(int op)
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getState
boolean getState(ModelSet ms, int modelIndex, javajs.util.SB commands)
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getSymmetryInfoAtom
java.lang.Object getSymmetryInfoAtom(ModelSet ms, int iatom, java.lang.String xyz, int op, javajs.util.P3 translation, javajs.util.P3 pt, javajs.util.P3 pt2, java.lang.String id, int type, float scaleFactor, int nth, int options)
- Parameters:
ms-iatom-xyz-op-translation- TODOpt-pt2- a second point or an offsetid-type- T.point, T.lattice, or T.draw, T.matrix4f, T.label, T.list, T.info, T.translation, T.axis, T.plane, T.angle, T.centerscaleFactor-nth- TODOoptions- could be T.offset- Returns:
- a variety of object types
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getSymmetryInfoStr
java.lang.String getSymmetryInfoStr()
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getSymmetryOperations
javajs.util.M4[] getSymmetryOperations()
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getTransform
javajs.util.M4 getTransform(javajs.util.P3 fracA, javajs.util.P3 fracB, boolean debug)
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getUnitCell
SymmetryInterface getUnitCell(javajs.util.T3[] points, boolean setRelative, java.lang.String name)
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getUnitCellAsArray
float[] getUnitCellAsArray(boolean vectorsOnly)
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getUnitCellInfo
java.lang.String getUnitCellInfo(boolean scaled)
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getUnitCellInfoMap
java.util.Map<java.lang.String,java.lang.Object> getUnitCellInfoMap()
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getUnitCellInfoType
float getUnitCellInfoType(int infoType)
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getUnitCellMultiplied
SymmetryInterface getUnitCellMultiplied()
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getUnitCellMultiplier
javajs.util.T3 getUnitCellMultiplier()
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getUnitCellParams
float[] getUnitCellParams()
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getUnitCellState
java.lang.String getUnitCellState()
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getUnitCellVectors
javajs.util.P3[] getUnitCellVectors()
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getUnitCellVerticesNoOffset
javajs.util.P3[] getUnitCellVerticesNoOffset()
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getV0abc
javajs.util.T3[] getV0abc(java.lang.Object def, javajs.util.M4 m)
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haveUnitCell
boolean haveUnitCell()
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initializeOrientation
void initializeOrientation(javajs.util.M3 matUnitCellOrientation)
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isBio
boolean isBio()
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isPolymer
boolean isPolymer()
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isSimple
boolean isSimple()
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isSlab
boolean isSlab()
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isSupercell
boolean isSupercell()
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newSpaceGroupPoint
void newSpaceGroupPoint(javajs.util.P3 pt, int i, javajs.util.M4 o, int transX, int transY, int transZ, javajs.util.P3 retPoint)
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notInCentroid
javajs.util.BS notInCentroid(ModelSet modelSet, javajs.util.BS bsAtoms, int[] minmax)
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removeDuplicates
javajs.util.BS removeDuplicates(ModelSet ms, javajs.util.BS bs)
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rotateAxes
javajs.util.V3[] rotateAxes(int iop, javajs.util.V3[] axes, javajs.util.P3 ptTemp, javajs.util.M3 mTemp)
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setFinalOperations
void setFinalOperations(int dim, java.lang.String name, javajs.util.P3[] atoms, int iAtomFirst, int noSymmetryCount, boolean doNormalize, java.lang.String filterSymop)
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setLattice
void setLattice(int latt)
set symmetry lattice type using Hall rotations- Parameters:
latt- SHELX index or character lattice character P I R F A B C S T or \0
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setOffset
void setOffset(int nnn)
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setOffsetPt
void setOffsetPt(javajs.util.T3 pt)
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setPointGroup
SymmetryInterface setPointGroup(SymmetryInterface pointGroupPrevious, javajs.util.T3 center, javajs.util.T3[] atomset, javajs.util.BS bsAtoms, boolean haveVibration, float distanceTolerance, float linearTolerance, boolean localEnvOnly)
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setSpaceGroup
void setSpaceGroup(boolean doNormalize)
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setSpaceGroupName
void setSpaceGroupName(java.lang.String name)
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setSpaceGroupTo
void setSpaceGroupTo(java.lang.Object spaceGroup)
- Parameters:
spaceGroup- ITA number, ITA full name ("48:1")
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setSymmetryInfo
SymmetryInterface setSymmetryInfo(int modelIndex, java.util.Map<java.lang.String,java.lang.Object> modelAuxiliaryInfo, float[] notionalCell)
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setTimeReversal
void setTimeReversal(int op, int val)
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setUnitCell
SymmetryInterface setUnitCell(float[] params, boolean setRelative)
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setUnitCell
void setUnitCell(SymmetryInterface uc)
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toCartesian
void toCartesian(javajs.util.T3 pt, boolean asAbsolute)
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toFractional
void toFractional(javajs.util.T3 pt, boolean asAbsolute)
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toFractionalM
void toFractionalM(javajs.util.M4 m)
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toFromPrimitive
boolean toFromPrimitive(boolean toPrimitive, char type, javajs.util.T3[] oabc, javajs.util.M3 primitiveToCrystal)
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toSupercell
javajs.util.P3 toSupercell(javajs.util.P3 fpt)
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toUnitCell
void toUnitCell(javajs.util.T3 pt, javajs.util.T3 offset)
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toUnitCellRnd
void toUnitCellRnd(javajs.util.T3 pt, javajs.util.T3 offset)
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unitCellEquals
boolean unitCellEquals(SymmetryInterface uc2)
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unitize
void unitize(javajs.util.T3 ptFrac)
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