Exemplo n.º 1
0
def convertMFnDagNodes( nodeNames ):
    
    dagNodes = []
    for nodeName in nodeNames:
        dagNode = om.MFnDagNode( sgModelDag.getDagPath( nodeName ) )
        dagNodes.append( dagNode )
    return dagNodes
Exemplo n.º 2
0
def makeCenterCurveFromCurves(crvs, rebuildSpanRate=1.0):

    crvShapes = []
    for crv in crvs:
        crvShape = sgModelDag.getShape(crv)
        if not crvShape: continue

        crvShapes.append(crvShape)

    lengthAll = 0.0
    crvInfo = cmds.createNode('curveInfo')
    for crvShape in crvShapes:
        if not cmds.isConnected(crvShape + '.local', crvInfo + '.inputCurve'):
            cmds.connectAttr(crvShape + '.local', crvInfo + '.inputCurve', f=1)
        length = cmds.getAttr(crvInfo + '.arcLength')
        lengthAll += length
    cmds.delete(crvInfo)

    lengthAverage = lengthAll / len(crvShapes)

    rebuildSpans = int(lengthAverage * rebuildSpanRate)

    for crvShape in crvShapes:
        cmds.rebuildCurve(crvShape,
                          constructionHistory=0,
                          replaceOriginal=1,
                          rebuildType=0,
                          endKnots=1,
                          keepRange=0,
                          keepControlPoints=0,
                          keepEndPoints=1,
                          keepTangents=0,
                          s=rebuildSpans,
                          d=3,
                          tol=0.01)

    fnNurbsCurve = om.MFnNurbsCurve(sgModelDag.getDagPath(crvShapes[0]))
    numCVs = fnNurbsCurve.numCVs()

    points = []
    for i in range(numCVs):
        points.append([0, 0, 0])

    curve = cmds.curve(p=points, d=3)

    for i in range(numCVs):
        sumPoints = om.MVector(0, 0, 0)
        for crvShape in crvShapes:
            sumPoints += om.MVector(*cmds.xform(
                crvShape + '.controlPoints[%d]' % i, q=1, ws=1, t=1))
        averagePoints = sumPoints / len(crvShapes)
        cmds.move(averagePoints.x,
                  averagePoints.y,
                  averagePoints.z,
                  curve + '.controlPoints[%d]' % i,
                  os=1)

    return curve
Exemplo n.º 3
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def removePositiveNormalInfluence(selectedObjs):

    mesh, vtxIndices = sgModelMesh.getMeshAndIndicesPoints(selectedObjs)

    skinClusterNode = sgModelDag.getNodeFromHistory(mesh, 'skinCluster')
    if not skinClusterNode: return None
    skinClusterNode = skinClusterNode[0]

    influenceAndWeightList = sgModelSkinCluster.getInfluenceAndWeightList(mesh)

    fnMesh = sgModelMesh.getFnMesh(mesh)
    meshInvMatrix = sgModelDag.getDagPath(mesh).inclusiveMatrixInverse()
    meshPoints = sgModelMesh.getLocalPoints(mesh)
    plugMatrix = sgModelSkinCluster.getPlugMatrix(mesh)

    #normal = om.MVector()
    percentRate = 100.0 / len(vtxIndices)
    currentRate = 0.0
    for i in vtxIndices:

        influenceList, childInfluenceList, weights = influenceAndWeightList[i]

        for j in range(len(influenceList)):
            jointMatrix = sgModelDg.getMatrixFromPlug(
                plugMatrix.elementByLogicalIndex(influenceList[j]))
            jointPointOnLocalMesh = om.MPoint(jointMatrix(
                3, 0), jointMatrix(3, 1), jointMatrix(3, 2)) * meshInvMatrix

            vMeshPoint = om.MVector(meshPoints[i] - jointPointOnLocalMesh)
            interPoints = om.MPointArray()
            fnMesh.intersect(om.MPoint(jointPointOnLocalMesh), vMeshPoint,
                             interPoints)
            lengthMeshPoint = vMeshPoint.length() * 0.99999

            if not interPoints.length(): continue
            if om.MVector(interPoints[0] -
                          jointPointOnLocalMesh).length() < lengthMeshPoint:
                weights[j] = 0

        allWeights = 0.0
        for weight in weights:
            allWeights += weight
        if allWeights == 0:
            continue

        for j in range(len(weights)):
            logicalIndex = influenceList[j]
            cmds.setAttr(
                skinClusterNode + '.weightList[%d].weights[%d]' %
                (i, logicalIndex), weights[j] / allWeights)

        currentRate += percentRate

        print "%6.2f" % currentRate + "% caculated"
Exemplo n.º 4
0
def makeCenterCurveFromCurves( crvs, rebuildSpanRate= 1.0 ):
    
    crvShapes = []
    for crv in crvs:
        crvShape = sgModelDag.getShape( crv )
        if not crvShape: continue
        
        crvShapes.append( crvShape )
        
    lengthAll = 0.0
    crvInfo = cmds.createNode( 'curveInfo' )
    for crvShape in crvShapes:
        if not cmds.isConnected( crvShape+'.local', crvInfo+'.inputCurve' ):
            cmds.connectAttr( crvShape+'.local', crvInfo+'.inputCurve', f=1 )
        length = cmds.getAttr( crvInfo+'.arcLength' )
        lengthAll += length
    cmds.delete( crvInfo )
    
    lengthAverage = lengthAll / len( crvShapes )
    
    rebuildSpans = int( lengthAverage * rebuildSpanRate )
    
    for crvShape in crvShapes:
        cmds.rebuildCurve( crvShape, constructionHistory=0, 
                           replaceOriginal=1, 
                           rebuildType=0, 
                           endKnots=1, 
                           keepRange=0, 
                           keepControlPoints=0, 
                           keepEndPoints=1, 
                           keepTangents=0,
                           s=rebuildSpans, d=3, tol=0.01 )
    
    fnNurbsCurve = om.MFnNurbsCurve( sgModelDag.getDagPath( crvShapes[0] ) )
    numCVs = fnNurbsCurve.numCVs()
    
    points = []
    for i in range( numCVs ):
        points.append( [0,0,0] )
    
    curve = cmds.curve( p=points, d=3 )
    
    for i in range( numCVs ):
        sumPoints = om.MVector(0,0,0)
        for crvShape in crvShapes:
            sumPoints += om.MVector( *cmds.xform( crvShape+'.controlPoints[%d]' % i, q=1, ws=1, t=1 ) )
        averagePoints = sumPoints / len( crvShapes )
        cmds.move( averagePoints.x, averagePoints.y, averagePoints.z, curve+'.controlPoints[%d]' % i, os=1 )
        
    return curve
Exemplo n.º 5
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    def flip(self, meshName):

        points = om.MPointArray()
        fnMesh = om.MFnMesh(sgModelDag.getDagPath(meshName))
        fnMesh.getPoints(points)

        for i in range(points.length()):
            mirrorIndex = self.mirrorIndices[i]
            targetPoint = points[mirrorIndex]

            cmds.move(-targetPoint.x,
                      targetPoint.y,
                      targetPoint.z,
                      meshName + '.vtx[%d]' % i,
                      os=1)
Exemplo n.º 6
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def setPivotToLowerPoint( target ):
    
    dagPath = sgModelDag.getDagPath( sgModelDag.getShape( target ) ) 
    fnMesh = om.MFnMesh( dagPath )
    points = om.MPointArray()
    fnMesh.getPoints( points )
    
    lowerHeight = 1000000.0
    lowerIndex = 0
    for i in range( points.length() ):
        if lowerHeight > points[i].y:
            lowerHeight = points[i].y
            lowerIndex = i
    lowerPoint = points[ lowerIndex ]*dagPath.inclusiveMatrix()
    cmds.move( lowerPoint.x, lowerPoint.y, lowerPoint.z, target+'.rotatePivot', target+'.scalePivot' )
Exemplo n.º 7
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def removePositiveNormalInfluence( selectedObjs ):
    
    mesh, vtxIndices = sgModelMesh.getMeshAndIndicesPoints( selectedObjs )
    
    skinClusterNode = sgModelDag.getNodeFromHistory( mesh, 'skinCluster' )
    if not skinClusterNode: return None
    skinClusterNode = skinClusterNode[0]
    
    influenceAndWeightList = sgModelSkinCluster.getInfluenceAndWeightList( mesh )
    
    fnMesh = sgModelMesh.getFnMesh( mesh )
    meshInvMatrix = sgModelDag.getDagPath( mesh ).inclusiveMatrixInverse()
    meshPoints = sgModelMesh.getLocalPoints( mesh )
    plugMatrix = sgModelSkinCluster.getPlugMatrix( mesh )
    
    #normal = om.MVector()
    percentRate = 100.0/len( vtxIndices )
    currentRate = 0.0
    for i in vtxIndices:
        
        influenceList, childInfluenceList, weights = influenceAndWeightList[i]
        
        for j in range( len( influenceList ) ):
            jointMatrix = sgModelDg.getMatrixFromPlug( plugMatrix.elementByLogicalIndex( influenceList[j] ) )
            jointPointOnLocalMesh = om.MPoint( jointMatrix(3,0), jointMatrix(3,1), jointMatrix(3,2) )*meshInvMatrix
            
            vMeshPoint = om.MVector( meshPoints[i]-jointPointOnLocalMesh )
            interPoints = om.MPointArray()
            fnMesh.intersect( om.MPoint( jointPointOnLocalMesh ), vMeshPoint, interPoints )
            lengthMeshPoint = vMeshPoint.length()*0.99999
            
            if not interPoints.length(): continue
            if om.MVector( interPoints[0] - jointPointOnLocalMesh ).length() < lengthMeshPoint:
                weights[j] = 0
        
        allWeights = 0.0
        for weight in weights:
            allWeights += weight
        if allWeights == 0:
            continue
        
        for j in range( len( weights ) ):
            logicalIndex = influenceList[j]
            cmds.setAttr( skinClusterNode+'.weightList[%d].weights[%d]' %( i, logicalIndex ), weights[j]/allWeights )
        
        currentRate += percentRate
        
        print "%6.2f" %currentRate +  "% caculated" 
Exemplo n.º 8
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def setPivotToLowerPoint(target):

    dagPath = sgModelDag.getDagPath(sgModelDag.getShape(target))
    fnMesh = om.MFnMesh(dagPath)
    points = om.MPointArray()
    fnMesh.getPoints(points)

    lowerHeight = 1000000.0
    lowerIndex = 0
    for i in range(points.length()):
        if lowerHeight > points[i].y:
            lowerHeight = points[i].y
            lowerIndex = i
    lowerPoint = points[lowerIndex] * dagPath.inclusiveMatrix()
    cmds.move(lowerPoint.x, lowerPoint.y, lowerPoint.z,
              target + '.rotatePivot', target + '.scalePivot')
Exemplo n.º 9
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def getTangentAtParam( curve, paramValue, **options ):
    
    curveShape = sgModelDag.getShape( curve )
    
    objectSpace = sgModelData.getValueFromDict( options, 'os' )
    
    fnCurve= om.MFnNurbsCurve( sgModelDag.getDagPath( curveShape ) )
    
    tangentValue = om.MVector()
    if objectSpace:
        tangentValue = fnCurve.tangent( paramValue )
    else:
        worldMatrix = cmds.getAttr( curve+'.wm')
        worldMMatrix = sgModelConvert.convertMatrixToMMatrix( worldMatrix )
        tangentValue = fnCurve.tangent( paramValue ) * worldMMatrix
    
    return tangentValue
Exemplo n.º 10
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def getPointAtParam( curve, paramValue, **options ):
    
    curveShape = sgModelDag.getShape( curve )
    
    objectSpace = sgModelData.getValueFromDict( options, 'os' )
    
    fnCurve= om.MFnNurbsCurve( sgModelDag.getDagPath( curveShape ) )
    
    pointValue = om.MPoint()
    if objectSpace:
        fnCurve.getPointAtParam( paramValue, pointValue )
    else:
        worldMatrix = cmds.getAttr( curve+'.wm')
        worldMMatrix = sgModelConvert.convertMatrixToMMatrix( worldMatrix )
        fnCurve.getPointAtParam( paramValue, pointValue )
        pointValue *= worldMMatrix

    return pointValue
Exemplo n.º 11
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 def __init__(self, mesh ):
     
     import sgModelDag
     
     fnMesh = om.MFnMesh( sgModelDag.getDagPath( mesh ) )
     
     numVtx  = fnMesh.numVertices()
     numPoly = fnMesh.numPolygons()
     
     verticesPolygons  = []
     polygonsVertices = []
     
     for i in range( numVtx ):
         verticesPolygons.append( om.MIntArray() )
     
     for i in range( numPoly ):
         intArr = om.MIntArray()
         fnMesh.getPolygonVertices( i, intArr )
         polygonsVertices.append( intArr )
         
         for j in range( intArr.length() ):
             vtxIndex = intArr[j]
             faceIndices = verticesPolygons[vtxIndex]
             
             faceIndexExists = False
             for k in range( faceIndices.length() ):
                 if i == faceIndices[k]:
                     faceIndexExists = True
                     break
             if not faceIndexExists:
                 verticesPolygons[vtxIndex].append( i )
     
     self.verticesPolygons = verticesPolygons
     self.polygonsVertices = polygonsVertices
     self.fnMesh = fnMesh
     
     self.verticesCheckList = []
     for i in range( numVtx ):
         self.verticesCheckList.append( False )
     self.numVtx = numVtx
     self.expendLoofVertices = []
Exemplo n.º 12
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    def __init__(self, mesh):

        import sgModelDag

        fnMesh = om.MFnMesh(sgModelDag.getDagPath(mesh))

        numVtx = fnMesh.numVertices()
        numPoly = fnMesh.numPolygons()

        verticesPolygons = []
        polygonsVertices = []

        for i in range(numVtx):
            verticesPolygons.append(om.MIntArray())

        for i in range(numPoly):
            intArr = om.MIntArray()
            fnMesh.getPolygonVertices(i, intArr)
            polygonsVertices.append(intArr)

            for j in range(intArr.length()):
                vtxIndex = intArr[j]
                faceIndices = verticesPolygons[vtxIndex]

                faceIndexExists = False
                for k in range(faceIndices.length()):
                    if i == faceIndices[k]:
                        faceIndexExists = True
                        break
                if not faceIndexExists:
                    verticesPolygons[vtxIndex].append(i)

        self.verticesPolygons = verticesPolygons
        self.polygonsVertices = polygonsVertices
        self.fnMesh = fnMesh

        self.verticesCheckList = []
        for i in range(numVtx):
            self.verticesCheckList.append(False)
        self.numVtx = numVtx
        self.expendLoofVertices = []
Exemplo n.º 13
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def moveObjectToClosestPoint( targets, base ):
    
    if not type( targets ) in [ type([]), type(()) ]:
        targets = [targets]
    
    dagPathBase = sgModelDag.getDagPath( sgModelDag.getShape( base ) )
    baseMatrix = dagPathBase.inclusiveMatrix()
    baseInvMatrix = dagPathBase.inclusiveMatrixInverse()
    
    intersector = om.MMeshIntersector()
    intersector.create( sgModelDag.getMObject( sgModelDag.getShape( base ) ) )
    
    pointOnMesh = om.MPointOnMesh()
    for target in targets:
        pivPoint = om.MPoint( *cmds.xform( target, q=1, ws=1, piv=1 )[:3] )*baseInvMatrix
        intersector.getClosestPoint( pivPoint, pointOnMesh )
        point = pointOnMesh.getPoint()
        
        pointDiff = (om.MVector( point ) - om.MVector( pivPoint ))*baseMatrix
        
        cmds.move( pointDiff.x, pointDiff.y, pointDiff.z, target, ws=1, r=1 )
Exemplo n.º 14
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def MeshSetClosestPoint(baseName, targetName):

    baseName = sgModelDag.getShape(baseName)
    oBase = sgModelDg.getMObject(baseName)

    intersector = om.MMeshIntersector()
    fnMeshBase = om.MFnMesh(oBase)
    intersector.create(oBase)

    pointsBase = om.MPointArray()
    fnMeshBase.getPoints(pointsBase)

    dagPathTarget = sgModelDag.getDagPath(targetName)
    fnMeshTarget = om.MFnMesh(dagPathTarget)

    pointsTarget = om.MPointArray()
    fnMeshTarget.getPoints(pointsTarget)

    pointOnMesh = om.MPointOnMesh()
    indicesVtx = om.MIntArray()
    for i in range(pointsTarget.length()):
        intersector.getClosestPoint(pointsTarget[i], pointOnMesh)
        faceIndex = pointOnMesh.faceIndex()
        fnMeshBase.getPolygonVertices(faceIndex, indicesVtx)

        closeDist = 1000000.0
        closeIndex = 0
        for j in range(indicesVtx.length()):
            dist = pointsTarget[i].distanceTo(pointsBase[indicesVtx[j]])
            if dist < closeDist:
                closeDist = dist
                closeIndex = indicesVtx[j]

        pointBase = pointsBase[closeIndex]
        cmds.move(pointBase.x,
                  pointBase.y,
                  pointBase.z,
                  targetName + '.vtx[%d]' % i,
                  os=1)
Exemplo n.º 15
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def moveObjectToClosestPoint(targets, base):

    if not type(targets) in [type([]), type(())]:
        targets = [targets]

    dagPathBase = sgModelDag.getDagPath(sgModelDag.getShape(base))
    baseMatrix = dagPathBase.inclusiveMatrix()
    baseInvMatrix = dagPathBase.inclusiveMatrixInverse()

    intersector = om.MMeshIntersector()
    intersector.create(sgModelDag.getMObject(sgModelDag.getShape(base)))

    pointOnMesh = om.MPointOnMesh()
    for target in targets:
        pivPoint = om.MPoint(
            *cmds.xform(target, q=1, ws=1, piv=1)[:3]) * baseInvMatrix
        intersector.getClosestPoint(pivPoint, pointOnMesh)
        point = pointOnMesh.getPoint()

        pointDiff = (om.MVector(point) - om.MVector(pivPoint)) * baseMatrix

        cmds.move(pointDiff.x, pointDiff.y, pointDiff.z, target, ws=1, r=1)
Exemplo n.º 16
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def createRivetBasedOnSkinWeights(selectedObjs):

    import sgModelMesh
    import sgModelDag
    import sgModelSkinCluster
    import sgModelConvert

    def getJointMultMatrix(jnt, mtxBindPre):
        cons = cmds.listConnections(jnt + '.wm', type='multMatrix')

        if cons:
            for con in cons:
                if cmds.attributeQuery('skinWeightInfluenceMatrix',
                                       node=con,
                                       ex=1):
                    if mtxBindPre == cmds.getAttr(con + '.i[0]'):
                        return con

        mmtxNode = cmds.createNode('multMatrix')
        cmds.setAttr(mmtxNode + '.i[0]', mtxBindPre, type='matrix')
        cmds.connectAttr(jnt + '.wm', mmtxNode + '.i[1]')

        cmds.addAttr(mmtxNode, ln='skinWeightInfluenceMatrix', at='message')

        return mmtxNode

    mesh, vtxIndices = sgModelMesh.getMeshAndIndicesPoints(selectedObjs)

    skinClusterNode = sgModelDag.getNodeFromHistory(mesh, 'skinCluster')
    if not skinClusterNode: return None
    skinClusterNode = skinClusterNode[0]

    influenceAndWeightList, phygicalMap = sgModelSkinCluster.getInfluenceAndWeightList(
        mesh, vtxIndices)

    meshMatrix = sgModelDag.getDagPath(mesh).inclusiveMatrix()
    meshPoints = sgModelMesh.getLocalPoints(mesh)
    plugMatrix = sgModelSkinCluster.getPlugMatrix(mesh)
    plugBindPre = sgModelSkinCluster.getPlugBindPre(mesh)

    BB = om.MBoundingBox()

    wtAddMtx = cmds.createNode('wtAddMatrix')
    mtxPlugIndidcesAndWeights = {}
    allWeights = 0.0
    for i in vtxIndices:
        influenceList, weights = influenceAndWeightList[phygicalMap[i]]

        for j in range(len(influenceList)):
            mtxPlugIndex = influenceList[j]
            if mtxPlugIndex in mtxPlugIndidcesAndWeights.keys():
                mtxPlugIndidcesAndWeights[mtxPlugIndex] += weights[j]
            else:
                mtxPlugIndidcesAndWeights.update({mtxPlugIndex: weights[j]})
            allWeights += weights[j]
        BB.expand(meshPoints[i])
    worldPoint = BB.center() * meshMatrix

    items = mtxPlugIndidcesAndWeights.items()
    for i in range(len(items)):
        influence, weight = items[i]

        plugMatrixElement = plugMatrix.elementByLogicalIndex(influence)
        plugBindPreElement = plugBindPre.elementByLogicalIndex(influence)

        jnt = cmds.listConnections(plugMatrixElement.name(),
                                   s=1,
                                   d=0,
                                   type='joint')[0]
        mtxBindPre = cmds.getAttr(plugBindPreElement.name())
        mmtxNode = getJointMultMatrix(jnt, mtxBindPre)
        cmds.connectAttr(mmtxNode + '.o', wtAddMtx + '.i[%d].m' % i)
        cmds.setAttr(wtAddMtx + '.i[%d].w' % i, weight / allWeights)

    origObj = cmds.createNode('transform', n='OrigObject')
    destObj = cmds.createNode('transform', n='destObject')
    cmds.setAttr(destObj + '.dh', 1)
    cmds.setAttr(destObj + '.dla', 1)
    mmNode = cmds.createNode('multMatrix')
    dcmp = cmds.createNode('decomposeMatrix')
    mtxWtAdd = cmds.getAttr(wtAddMtx + '.o')

    cmds.connectAttr(origObj + '.wm', mmNode + '.i[0]')
    cmds.connectAttr(wtAddMtx + '.o', mmNode + '.i[1]')
    cmds.connectAttr(destObj + '.pim', mmNode + '.i[2]')

    cmds.connectAttr(mmNode + '.o', dcmp + '.imat')

    cmds.connectAttr(dcmp + '.ot', destObj + '.t')
    cmds.connectAttr(dcmp + '.or', destObj + '.r')

    mmtxWtAdd = sgModelConvert.convertMatrixToMMatrix(mtxWtAdd)
    worldPoint *= mmtxWtAdd.inverse()
    cmds.setAttr(origObj + '.t', worldPoint.x, worldPoint.y, worldPoint.z)
Exemplo n.º 17
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def getFnMesh(mesh):

    mesh = sgModelDag.getShape(mesh)
    return om.MFnMesh(sgModelDag.getDagPath(mesh))
Exemplo n.º 18
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def getFnMesh( mesh ):
    
    mesh = sgModelDag.getShape( mesh )
    return om.MFnMesh( sgModelDag.getDagPath( mesh ) )
Exemplo n.º 19
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def createRivetBasedOnSkinWeights( selectedObjs ):
    
    import sgModelMesh
    import sgModelDag
    import sgModelSkinCluster
    import sgModelConvert
    
    def getJointMultMatrix( jnt, mtxBindPre ):
        cons = cmds.listConnections( jnt+'.wm', type='multMatrix' )

        if cons:
            for con in cons:
                if cmds.attributeQuery( 'skinWeightInfluenceMatrix', node=con, ex=1 ):
                    if mtxBindPre == cmds.getAttr( con+'.i[0]' ):
                        return con
        
        mmtxNode = cmds.createNode( 'multMatrix' )
        cmds.setAttr( mmtxNode+'.i[0]', mtxBindPre, type='matrix' )
        cmds.connectAttr( jnt+'.wm', mmtxNode+'.i[1]' )
        
        cmds.addAttr( mmtxNode, ln='skinWeightInfluenceMatrix', at='message' )
        
        return mmtxNode


    mesh, vtxIndices = sgModelMesh.getMeshAndIndicesPoints( selectedObjs )
    
    skinClusterNode = sgModelDag.getNodeFromHistory( mesh, 'skinCluster' )
    if not skinClusterNode: return None
    skinClusterNode = skinClusterNode[0]
    
    influenceAndWeightList, phygicalMap = sgModelSkinCluster.getInfluenceAndWeightList( mesh, vtxIndices )
    
    meshMatrix = sgModelDag.getDagPath( mesh ).inclusiveMatrix()
    meshPoints = sgModelMesh.getLocalPoints( mesh )
    plugMatrix = sgModelSkinCluster.getPlugMatrix( mesh )
    plugBindPre = sgModelSkinCluster.getPlugBindPre( mesh )
    
    BB = om.MBoundingBox()
    
    wtAddMtx = cmds.createNode( 'wtAddMatrix' )
    mtxPlugIndidcesAndWeights = {}
    allWeights = 0.0
    for i in vtxIndices:
        influenceList, weights = influenceAndWeightList[ phygicalMap[i] ]
        
        for j in range( len( influenceList ) ):
            mtxPlugIndex = influenceList[j]
            if mtxPlugIndex in mtxPlugIndidcesAndWeights.keys():
                mtxPlugIndidcesAndWeights[mtxPlugIndex] += weights[j]
            else:
                mtxPlugIndidcesAndWeights.update( {mtxPlugIndex:weights[j]} )
            allWeights += weights[j]
        BB.expand( meshPoints[i] )
    worldPoint = BB.center()*meshMatrix
    
    items = mtxPlugIndidcesAndWeights.items()
    for i in range( len( items ) ):
        influence, weight = items[i]
        
        plugMatrixElement = plugMatrix.elementByLogicalIndex( influence )
        plugBindPreElement = plugBindPre.elementByLogicalIndex( influence )
        
        jnt = cmds.listConnections( plugMatrixElement.name(), s=1, d=0, type='joint' )[0]
        mtxBindPre = cmds.getAttr( plugBindPreElement.name() )
        mmtxNode = getJointMultMatrix( jnt, mtxBindPre )
        cmds.connectAttr( mmtxNode+'.o', wtAddMtx+'.i[%d].m' % i )
        cmds.setAttr( wtAddMtx+'.i[%d].w' % i, weight/allWeights )
    
    origObj = cmds.createNode( 'transform', n='OrigObject' )
    destObj = cmds.createNode( 'transform', n='destObject' )
    cmds.setAttr( destObj+'.dh' , 1 )
    cmds.setAttr( destObj+'.dla', 1 )
    mmNode = cmds.createNode( 'multMatrix' )
    dcmp = cmds.createNode( 'decomposeMatrix' )
    mtxWtAdd = cmds.getAttr( wtAddMtx+'.o' )
    
    cmds.connectAttr( origObj+'.wm', mmNode+'.i[0]' )
    cmds.connectAttr( wtAddMtx+'.o', mmNode+'.i[1]' )
    cmds.connectAttr( destObj+'.pim', mmNode+'.i[2]' )
    
    cmds.connectAttr( mmNode+'.o', dcmp+'.imat' )
    
    cmds.connectAttr( dcmp+'.ot', destObj+'.t' )
    cmds.connectAttr( dcmp+'.or', destObj+'.r' )
    
    mmtxWtAdd = sgModelConvert.convertMatrixToMMatrix( mtxWtAdd )
    worldPoint *= mmtxWtAdd.inverse()
    cmds.setAttr( origObj+'.t', worldPoint.x, worldPoint.y, worldPoint.z )