Ejemplo n.º 1
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def importCache( targets, cacheFolderPath ):
    
    import sgFunctionCache
    import random
    
    for target in targets:
        target = sgModelDag.getTransform( target )
        attrNum = cmds.getAttr( target+'.cacheAttr' )
        
        xmlFileName = 'riceType_%02dShape.xml' % ( attrNum )
        xmlFilePath = cacheFolderPath + '/' + xmlFileName
        
        animCurve = sgModelDg.getRoofLinearCurve( 1, 32, 1, 32 )
        addNode = cmds.createNode( 'addDoubleLinear' )
        sgFunctionCache.importCache( target, xmlFilePath )

        time1 = sgModelDag.getNodeFromHistory( target, 'time' )[0]
        cacheFile = sgModelDag.getNodeFromHistory( target, 'cacheFile' )[0]
        
        sgRigAttribute.addAttr( target, ln='cacheOffset', k=1, dv=random.uniform( 1, 32 ) )
        
        cmds.connectAttr( time1+'.outTime', addNode+'.input1' )
        cmds.connectAttr( target+'.cacheOffset', addNode+'.input2' )
        cmds.connectAttr( addNode+'.output', animCurve+'.input' )
        cmds.connectAttr( animCurve+'.output', cacheFile+'.time', f=1 )
Ejemplo n.º 2
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def addCacheAttr( sels ):
    
    attrName = 'cacheAttr'
    index= 0
    for sel in sels:
        sel = cmds.rename( sel, 'riceType_%02d' % index )
        sgRigAttribute.addAttr( sel, ln=attrName, at='long', dv=index )
        index += 1
Ejemplo n.º 3
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def modelAsReference( worldCtl, model ):
    
    sgRigAttribute.addAttr( worldCtl, ln='modelAsReference', at='long', min=0, max=1, cb=1, dv=1 )
    
    cmds.setAttr( model+'.overrideEnabled', 1 )
    
    condition = cmds.createNode( 'condition' )
    
    cmds.connectAttr( worldCtl+'.modelAsReference', condition+'.firstTerm' )
    
    cmds.setAttr( condition+'.colorIfTrueR', 0 )
    cmds.setAttr( condition+'.colorIfFalseR', 2 )
    
    cmds.connectAttr( condition+'.outColorR', model+'.overrideDisplayType')
Ejemplo n.º 4
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def connectGear( objs, jnt ):
    
    import sgModelDag
    import sgRigDag
    import sgRigAttribute
    
    for obj in objs:
        size = sgModelDag.getBoundingBoxSize( obj, ws=1 )
        
        sgRigAttribute.addAttr( jnt, ln='size', dv=size[0] )
        
        constJnt = getConstJnt( jnt )
        geometryConstObj = sgRigDag.getGeometryConstObj( constJnt )
        
        obj = sgModelDag.getTransform( obj )
        cmds.parent( obj, geometryConstObj )
Ejemplo n.º 5
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 def makeAnimCurveScene():
     animCurves = []
     for k in range( len( bakeTargetList ) ):
         #print "bakeTrargetList : ", bakeTargetList[k]
         tr = bakeTargetList[k][0]
         
         for j in range( len( bakeTargetList[k][3] ) ):
             attr = bakeTargetList[k][3][j][0]
             info = bakeTargetList[k][3][j][1]
             animCurve = info.createAnimCurve()
             #animCurve = cmds.rename( animCurve, 'sceneBake_animCurve_for_%s' %( tr.split( '|' )[-1]+'_'+attr ) )
             sgRigAttribute.addAttr( animCurve, ln='bakeTargetAttrName', dt='string' )
             cmds.setAttr( animCurve+'.bakeTargetAttrName', tr+'.'+attr, type='string' )
             animCurves.append( animCurve )
     
     if not animCurves: animCurves = [cmds.createNode( 'animCurveUU' )]
     cmds.select( animCurves )
     cmds.file( animCurvesPath, force=1, options="v=0;", typ="mayaAscii", es=1 )
     cmds.delete( animCurves )
Ejemplo n.º 6
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 def getMultDoubleLinear( attr ):
     multNodes = cmds.listConnections( attr, type='multDoubleLinear', s=1, d=0 )
     if not multNodes:
         multNode = cmds.createNode( 'multDoubleLinear' )
         sgRigAttribute.addAttr( multNode, ln='clumpWidthMult', at='message' )
         attrValue = cmds.getAttr( attr )
         cmds.setAttr( multNode+'.input1', attrValue )
         cmds.connectAttr( multNode+'.output', attr )
         return multNode
     else:
         if not cmds.attributeQuery( 'clumpWidthMult', node=multNodes[0], ex=1 ):
             multNode = cmds.createNode( 'multDoubleLinear' )
             sgRigAttribute.addAttr( multNode, ln='clumpWidthMult', at='message' )
             attrValue = cmds.getAttr( attr )
             cmds.setAttr( multNode+'.input1', attrValue )
             cmds.connectAttr( multNode+'.output', attr )
             return multNode
         else:
             return multNodes[0]
Ejemplo n.º 7
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def getConstJnt( jnt ):
    
    import sgRigAttribute
    
    sgRigAttribute.addAttr( jnt, ln='ConstJnt', at='message' )
    
    cons = cmds.listConnections( jnt+'.ConstJnt', s=1, d=0 )
    if cons: return cons[0]
    
    mmdc = cmds.createNode( 'sgMultMatrixDecompose' )
    constJnt = cmds.createNode( 'joint' )
    constJntGrp = cmds.group( constJnt )
    cmds.setAttr( constJnt+'.radius', 2 )
    
    cmds.connectAttr( jnt+'.wm', mmdc+'.i[0]' )
    cmds.connectAttr( constJntGrp+'.pim', mmdc+'.i[1]' )
    cmds.connectAttr( mmdc+'.ot', constJntGrp+'.t' )
    cmds.connectAttr( mmdc+'.or', constJntGrp+'.r' )

    cmds.connectAttr( constJnt+'.message', jnt+'.ConstJnt' )

    return constJnt
Ejemplo n.º 8
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def followMatrixConnection( ctl, others ):
    
    ctlP = cmds.listRelatives( ctl, p=1 )[0]
    
    followMatrix = cmds.createNode( 'followMatrix' )
    mmdc = cmds.createNode( 'multMatrixDecompose' )
    
    cmds.connectAttr( others[0]+'.wm', followMatrix+'.originalMatrix' )
    
    sgRigAttribute.addAttr( ctl, ln='_______', at='enum', en='Parent:', cb=1 )
    
    for other in others[1:]:
        i = others.index( other ) - 1
        cmds.connectAttr( other+'.wm', followMatrix+'.inputMatrix[%d]' % i )
        
        attrName = 'parent' + other.split( '_' )[-1][2:]
        sgRigAttribute.addAttr( ctl, ln= attrName, min=0, max=10, k=1 )
        cmds.connectAttr( ctl+'.'+attrName, followMatrix+'.inputWeight[%d]' % i )
    
    cmds.connectAttr( followMatrix+'.outputMatrix', mmdc+'.i[0]' )
    cmds.connectAttr( ctlP+'.pim', mmdc+'.i[1]' )
    cmds.connectAttr( mmdc+'.ot', ctlP+'.t' )
    cmds.connectAttr( mmdc+'.or', ctlP+'.r' )
Ejemplo n.º 9
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def connectVisibilty( ctl, mesh, outputCurves, pfxHairs ):
    
    sgRigAttribute.addAttr( ctl, ln='meshVis', at='long', min=0, max=1, cb=1 )
    sgRigAttribute.addAttr( ctl, ln='outputCurves', at='long', min=0, max=1, cb=1 )
    sgRigAttribute.addAttr( ctl, ln='pfxHairs', at='long', min=0, max=1, cb=1 )
    
    sgRigConnection.connectAttrCommon( ctl+'.meshVis',      mesh+'.v' )
    sgRigConnection.connectAttrCommon( ctl+'.outputCurves', outputCurves+'.v' )
    sgRigConnection.connectAttrCommon( ctl+'.pfxHairs',     pfxHairs+'.v' )
Ejemplo n.º 10
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def followMatrixConnection(ctl, others):

    ctlP = cmds.listRelatives(ctl, p=1)[0]

    followMatrix = cmds.createNode('followMatrix')
    mmdc = cmds.createNode('multMatrixDecompose')

    cmds.connectAttr(others[0] + '.wm', followMatrix + '.originalMatrix')

    sgRigAttribute.addAttr(ctl, ln='_______', at='enum', en='Parent:', cb=1)

    for other in others[1:]:
        i = others.index(other) - 1
        cmds.connectAttr(other + '.wm', followMatrix + '.inputMatrix[%d]' % i)

        attrName = 'parent' + other.split('_')[-1][2:]
        sgRigAttribute.addAttr(ctl, ln=attrName, min=0, max=10, k=1)
        cmds.connectAttr(ctl + '.' + attrName,
                         followMatrix + '.inputWeight[%d]' % i)

    cmds.connectAttr(followMatrix + '.outputMatrix', mmdc + '.i[0]')
    cmds.connectAttr(ctlP + '.pim', mmdc + '.i[1]')
    cmds.connectAttr(mmdc + '.ot', ctlP + '.t')
    cmds.connectAttr(mmdc + '.or', ctlP + '.r')
Ejemplo n.º 11
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def connectRotateGearAttr(ctl, others):

    import sgRigAttribute

    sgRigAttribute.addAttr(ctl, ln='rotateGear', k=1)

    for other in others:

        sgRigAttribute.addAttr(other, ln='rotateGear', k=1)
        sgRigAttribute.addAttr(other, ln='globalMult', k=1, dv=1)

        addNode = cmds.createNode('addDoubleLinear')
        multNode = cmds.createNode('multDoubleLinear')

        cmds.connectAttr(other + '.rotateGear', addNode + '.input1')
        cmds.connectAttr(ctl + '.rotateGear', multNode + '.input1')
        cmds.connectAttr(other + '.globalMult', multNode + '.input2')
        cmds.connectAttr(multNode + '.output', addNode + '.input2')

        cmds.connectAttr(addNode + '.output', other + '.rotateZ')
Ejemplo n.º 12
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def connectRotateGearAttr( ctl, others ):
    
    import sgRigAttribute
    
    sgRigAttribute.addAttr( ctl, ln='rotateGear', k=1 )
    
    for other in others:
        
        sgRigAttribute.addAttr( other, ln='rotateGear', k=1 )
        sgRigAttribute.addAttr( other, ln='globalMult', k=1, dv=1 )
    
        addNode = cmds.createNode( 'addDoubleLinear' )
        multNode = cmds.createNode( 'multDoubleLinear' )
        
        cmds.connectAttr( other+'.rotateGear', addNode+'.input1' )
        cmds.connectAttr( ctl+'.rotateGear', multNode+'.input1' )
        cmds.connectAttr( other+'.globalMult', multNode+'.input2' )
        cmds.connectAttr( multNode+'.output', addNode+'.input2' )
        
        cmds.connectAttr( addNode+'.output', other+'.rotateZ' )
Ejemplo n.º 13
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def createRoofPointers(crv, numPointer, roofLength=None):

    if not roofLength: roofLength = numPointer

    crv = sgModelDag.getTransform(crv)
    crvShape = sgModelDag.getShape(crv)

    sgRigAttribute.addAttr(crv, ln='roofValue', k=1)

    minValue = cmds.getAttr(crvShape + '.minValue')
    maxValue = cmds.getAttr(crvShape + '.maxValue')

    eachInputOffset = float(roofLength) / numPointer

    pointers = []
    for i in range(numPointer):
        curveInfo = cmds.createNode('pointOnCurveInfo')
        pointer = cmds.createNode('transform', n=crv + '_pointer_%d' % i)
        sgRigAttribute.addAttr(pointer, ln='roofPointerNum', dv=i)
        sgRigAttribute.addAttr(pointer,
                               ln='parameter',
                               dv=i * eachInputOffset,
                               k=1)
        cmds.setAttr(pointer + '.dh', 1)
        cmds.connectAttr(crvShape + '.local', curveInfo + '.inputCurve')

        addNode = cmds.createNode('plusMinusAverage')

        animCurve = sgModelDg.getRoofLinearCurve(0, float(roofLength),
                                                 minValue, maxValue)

        cmds.connectAttr(crv + '.roofValue', addNode + '.input1D[0]')
        cmds.connectAttr(pointer + '.parameter', addNode + '.input1D[1]')
        cmds.connectAttr(addNode + '.output1D', animCurve + '.input')
        cmds.connectAttr(animCurve + '.output', curveInfo + '.parameter')
        cmds.connectAttr(curveInfo + '.position', pointer + '.t')
        pointer = cmds.parent(pointer, crv)[0]

        pointers.append(pointer)
    return pointers
Ejemplo n.º 14
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def createRoofPointers( crv, numPointer, roofLength=None ):
    
    if not roofLength: roofLength = numPointer
    
    crv     = sgModelDag.getTransform( crv )
    crvShape= sgModelDag.getShape( crv )
    
    sgRigAttribute.addAttr( crv, ln='roofValue', k=1 )
    
    minValue = cmds.getAttr( crvShape+'.minValue' )
    maxValue = cmds.getAttr( crvShape+'.maxValue' )
    
    eachInputOffset = float( roofLength ) / numPointer
    
    pointers = []
    for i in range( numPointer ):
        curveInfo = cmds.createNode( 'pointOnCurveInfo' )
        pointer = cmds.createNode( 'transform', n= crv+'_pointer_%d' % i )
        sgRigAttribute.addAttr( pointer, ln='roofPointerNum', dv=i )
        sgRigAttribute.addAttr( pointer, ln='parameter', dv=i*eachInputOffset, k=1 )
        cmds.setAttr( pointer+'.dh', 1 )
        cmds.connectAttr( crvShape+'.local', curveInfo+'.inputCurve' )
        
        addNode = cmds.createNode( 'plusMinusAverage' )
        
        animCurve = sgModelDg.getRoofLinearCurve( 0, float( roofLength ), minValue, maxValue )
        
        cmds.connectAttr( crv+'.roofValue', addNode+'.input1D[0]' )
        cmds.connectAttr( pointer+'.parameter', addNode+'.input1D[1]' )
        cmds.connectAttr( addNode+'.output1D', animCurve+'.input' )
        cmds.connectAttr( animCurve+'.output', curveInfo+'.parameter' )
        cmds.connectAttr( curveInfo+'.position', pointer+'.t' )
        pointer = cmds.parent( pointer, crv )[0]
        
        pointers.append( pointer )
    return pointers
Ejemplo n.º 15
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def createConveyerBeltSet(meshName, firstEdgeIndex, secondEdgeIndex):

    firstEdges = cmds.polySelectSp(meshName + '.e[%d]' % firstEdgeIndex,
                                   loop=1)
    secondEdges = cmds.polySelectSp(meshName + '.e[%d]' % secondEdgeIndex,
                                    loop=1)

    cmds.select(firstEdges)
    firstCurve = cmds.polyToCurve(form=2,
                                  degree=3,
                                  n=meshName + '_loopCurve_First')[0]
    cmds.select(secondEdges)
    secondCurve = cmds.polyToCurve(form=2,
                                   degree=3,
                                   n=meshName + '_loopCurve_Second')[0]

    firstCurveShape = sgModelDag.getShape(firstCurve)
    secondCurveShape = sgModelDag.getShape(secondCurve)

    firstSpans = cmds.getAttr(firstCurveShape + '.spans')
    secondSpans = cmds.getAttr(secondCurveShape + '.spans')

    firstTangent = sgModelCurve.getTangentAtParam(firstCurveShape, 0.0)
    firstParamPoint = sgModelCurve.getPointAtParam(firstCurveShape, 0.0)
    secondParam = sgModelCurve.getParamAtPoint(secondCurveShape,
                                               firstParamPoint)
    secondTangent = sgModelCurve.getTangentAtParam(secondCurveShape,
                                                   secondParam)

    if firstTangent * secondTangent < 0:
        cmds.reverseCurve(secondCurve, ch=1, rpo=1)

    firstPointers = sgRigCurve.createRoofPointers(firstCurve, firstSpans)
    secondPointers = sgRigCurve.createRoofPointers(secondCurve, secondSpans)

    fPos = cmds.xform(firstPointers[0], q=1, ws=1, t=1)

    minDistPointer = secondPointers[0]
    minDist = 1000000000.0
    for secondPointer in secondPointers:
        sPos = cmds.xform(secondPointer, q=1, ws=1, t=1)
        dist = (fPos[0] - sPos[0])**2 + (fPos[1] - sPos[1])**2 + (fPos[2] -
                                                                  sPos[2])**2
        if dist < minDist:
            minDistPointer = secondPointer
            minDist = dist

    offset = int(minDistPointer.split('_')[-1])

    crvs = []
    for i in range(len(firstPointers)):
        firstPointer = firstPointers[i]
        secondPointer = '_'.join(secondPointers[i].split('_')[:-1]) + '_%d' % (
            (i + offset) % firstSpans)

        crv = sgRigCurve.createCurveOnTargetPoints(
            [firstPointer, secondPointer])
        crv = cmds.rename(crv, meshName + '_line_%d' % i)
        crvs.append(crv)

    cmds.select(crvs)
    loftSurf = cmds.loft(n=meshName + '_loft')[0]
    resultObject = cmds.nurbsToPoly(loftSurf,
                                    mnd=1,
                                    ch=1,
                                    f=3,
                                    pt=0,
                                    pc=200,
                                    chr=0.9,
                                    ft=0.01,
                                    mel=0.001,
                                    d=0.1,
                                    ut=1,
                                    un=3,
                                    vt=1,
                                    vn=3,
                                    uch=0,
                                    ucr=0,
                                    cht=0.2,
                                    es=0,
                                    ntr=0,
                                    mrt=0,
                                    uss=1,
                                    n=meshName + '_conveyorBelt')
    crvGrp = cmds.group(crvs, n=meshName + '_lines')
    conveyorRig = cmds.group(firstCurve,
                             secondCurve,
                             crvGrp,
                             loftSurf,
                             resultObject,
                             meshName,
                             n=meshName + '_conveyorRig')

    import sgRigAttribute
    sgRigAttribute.addAttr(conveyorRig, ln='offset', k=1)
    cmds.connectAttr(conveyorRig + '.offset', firstCurve + '.roofValue')
    cmds.connectAttr(conveyorRig + '.offset', secondCurve + '.roofValue')

    cmds.setAttr(conveyorRig + '.v', 0)
Ejemplo n.º 16
0
def addControllerToBag( bagObject ):
    
    PBagObject = cmds.listRelatives( bagObject, p=1 )[0]

    bagObject, PivBagObject = sgRigDag.addParent( bagObject, 'Piv' )
    cmds.setAttr( bagObject+'.ty',    -0.16 )
    cmds.setAttr( PivBagObject+'.ty',  0.16 )
    
    cons = cmds.listConnections( bagObject, s=1, d=0, type='animCurve' )
    if cons: cmds.delete( cons )

    mainCtl = cmds.circle( n='Ctl_' + bagObject, normal=[0,0,1], center=[0,0,1.4] )[0]
    mainCtl, pmainCtl = sgRigDag.addParent( mainCtl )
    mainCtl, omainCtl  = sgRigDag.addParent( mainCtl )
    cmds.setAttr( mainCtl+'.overrideEnabled', 1 )
    cmds.setAttr( mainCtl+'.overrideColor', 6 )
    
    cmds.setAttr( omainCtl+'.ty', 0.16 )
    
    pointDCtl    = [[0.0, 0.53619110199777498, -0.080351999999999979], 
                    [0.0, 0.53619110199777498, -0.16070399999999996], 
                    [0.0, 0.73851681927679846, 0.0], 
                    [0.0, 0.53619110199777498, 0.16071360000000001], 
                    [0.0, 0.53619110199777498, 0.080356800000000006], 
                    [0.0, -0.53616508520269901, 0.080356800000000117], 
                    [1.1102230246251568e-16, -0.53616508520269901, 0.16071360000000018], 
                    [0.0, -0.73851215501375644, 0.0], 
                    [0.0, -0.53616508520269901, -0.1607039999999999], 
                    [-1.1102230246251568e-16, -0.53616508520269901, -0.080351999999999923], 
                    [0.0, 0.53619110199777498, -0.080351999999999979], 
                    [0.0, 0.53619110199777498, -0.080351999999999979]]
    
    dCtl = cmds.curve( n='Ctl_DirObj_'+bagObject, p=pointDCtl, d=1 )
    cmds.setAttr( dCtl+'.overrideEnabled', 1 )
    cmds.setAttr( dCtl+'.overrideColor', 18 )
    dCtlChild = sgRigDag.addChild( dCtl )
    dCtl, PdCtl = sgRigDag.addParent( dCtl )
    
    shakeObject = sgRigDag.addChild( mainCtl )
    shakeObject, pshakeObject = sgRigDag.addParent( shakeObject )
    cshakeObject = sgRigDag.addChild( shakeObject )
    
    sgRigConnection.constraint( PdCtl, dCtlChild )
    sgRigConnection.constraintAll( mainCtl, PdCtl )
    sgRigConnection.constraint( PBagObject, pmainCtl )
    sgRigConnection.constraintAll( cshakeObject, PivBagObject )
    
    sgRigConnection.constraint( dCtl, pshakeObject )
    cmds.connectAttr( dCtlChild+'.r', cshakeObject+'.r')
    
    sgRigAttribute.addAttr( mainCtl, ln='globalShake', k=1, dv=1 )
    sgRigAttribute.addAttr( mainCtl, ln='globalTimeMult', k=1, dv=1 )
    sgRigAttribute.addAttr( mainCtl, ln='globalOffset', k=1 )
    sgRigAttribute.addAttr( mainCtl, ln='shake', k=1, dv=1 )
    sgRigAttribute.addAttr( mainCtl, ln='timeMult', k=1, dv=1 )
    sgRigAttribute.addAttr( mainCtl, ln='offset', k=1 )
    sgRigAttribute.addAttr( mainCtl, ln='showBag', at='long', k=1, min=0, max=1, dv=1 )
    
    mdForTime1 = cmds.createNode( 'multDoubleLinear' )
    mdForTime2 = cmds.createNode( 'multDoubleLinear' )
    mdForShake1 = cmds.createNode( 'multDoubleLinear' )
    mdForShake2 = cmds.createNode( 'multDoubleLinear' )
    addForOfs1 = cmds.createNode( 'addDoubleLinear' )
    addForOfs2 = cmds.createNode( 'addDoubleLinear' )
    animCurve = sgModelDg.getRoofSineCurve( 0, 10, -10, 10 )
    
    cmds.connectAttr( mainCtl+'.globalTimeMult', mdForTime1+'.input1' )
    cmds.connectAttr( mainCtl+'.timeMult',       mdForTime1+'.input2' )
    cmds.connectAttr( mdForTime1+'.output', mdForTime2+'.input1' )
    cmds.connectAttr( 'time1.outTime',      mdForTime2+'.input2' )
    cmds.connectAttr( mainCtl+'.globalOffset', addForOfs1+'.input1' )
    cmds.connectAttr( mainCtl+'.offset', addForOfs1+'.input2' )
    cmds.connectAttr( addForOfs1+'.output', addForOfs2+'.input1' )
    cmds.connectAttr( mdForTime2+'.output', addForOfs2+'.input2' )
    cmds.connectAttr( addForOfs2+'.output', animCurve+'.input' )
    cmds.connectAttr( mainCtl+'.globalShake', mdForShake1+'.input1' )
    cmds.connectAttr( mainCtl+'.shake', mdForShake1+'.input2' )
    cmds.connectAttr( mdForShake1+'.output', mdForShake2+'.input1' )
    cmds.connectAttr( animCurve+'.output', mdForShake2+'.input2' )
    cmds.connectAttr( mainCtl+'.showBag', bagObject+'.v' )
    
    cmds.connectAttr( mdForShake2+'.output', shakeObject+'.rx' )
    
    cmds.setAttr( mainCtl+'.v', e=1, lock=1 )
Ejemplo n.º 17
0
def createBendToCurve( curve ):
    
    import math
    
    curve = sgModelDag.getTransform( curve )
    
    cvs = cmds.ls( curve+'.cv[*]', fl=1 )

    startPoint= cmds.xform( cvs[0], q=1, ws=1, t=1 )
    endPoint  = cmds.xform( cvs[-1], q=1, ws=1, t=1 )
    
    bend, handle = cmds.nonLinear( curve, type='bend',  lowBound=0, highBound=1, curvature=0)
    
    cmds.xform( handle, ws=1, t=startPoint )
    
    vStartPoint = sgModelConvert.convertMVectorFromPointList( startPoint )
    vEndPoint   = sgModelConvert.convertMVectorFromPointList( endPoint )
    
    vAim = vEndPoint - vStartPoint
    yVector = om.MVector( *[0,1,0] )
    zVector = om.MVector( *[1,0,0] )
    
    dotY = math.fabs(vAim * yVector)
    dotZ = math.fabs(vAim * zVector)
    
    vUp = None
    if dotY > dotZ:
        vUp = zVector
    else:
        vUp = yVector
    
    vCross = vAim ^ vUp
    vUp = vCross ^ vAim
    
    lengthAim = vAim.length()
    
    vUp.normalize()
    vCross.normalize()
    
    vUp *= lengthAim
    vCross *= lengthAim
    
    mtx = [ vCross.x,      vCross.y,      vCross.z,      0,
            vAim.x,        vAim.y,        vAim.z,        0,
            vUp.x,         vUp.y,         vUp.z,         0,
            vStartPoint.x, vStartPoint.y, vStartPoint.z, 1 ]
    
    cmds.xform( handle, ws=1, matrix=mtx )

    handle, handleGrp = sgRigDag.addParent( handle )
    
    sgRigAttribute.addAttr( curve, ln='globalTwist', k=1 )
    sgRigAttribute.addAttr( curve, ln='globalBend',  k=1 )
    sgRigAttribute.addAttr( curve, ln='twist', k=1, dv=0 )
    sgRigAttribute.addAttr( curve, ln='bend', k=1, dv=1 )
    
    addTwist = cmds.createNode( 'addDoubleLinear' )
    multBend = cmds.createNode( 'multDoubleLinear' )
    
    cmds.connectAttr( curve+'.globalTwist', addTwist+'.input1' )
    cmds.connectAttr( curve+'.twist', addTwist+'.input2' )
    cmds.connectAttr( curve+'.globalBend', multBend+'.input1' )
    cmds.connectAttr( curve+'.bend', multBend+'.input2' )
    
    cmds.connectAttr( multBend+'.output', bend+'.curvature' )
    cmds.connectAttr( addTwist+'.output', handle+'.ry' )
Ejemplo n.º 18
0
def addSurfaceLineObject( targetCurve, multValue = 1, range = 1 ):
    
    crvShape = sgModelDag.getShape( targetCurve )
    rebuildCurveNode = cmds.createNode( 'rebuildCurve' )
    detachCurveNode  = cmds.createNode( 'detachCurve' )
    circleNode       = cmds.createNode( 'makeNurbCircle' )
    extrudeNode      = cmds.createNode( 'extrude' )
    surfaceNode      = cmds.createNode( 'nurbsSurface' )
    curveInfo        = cmds.createNode( 'curveInfo' )
    
    cmds.connectAttr( crvShape+'.worldSpace', curveInfo+'.inputCurve' )
    multValue = cmds.getAttr( curveInfo+'.arcLength' ) * multValue
    
    cmds.setAttr( rebuildCurveNode+'.spans', multValue )
    cmds.setAttr( rebuildCurveNode+'.keepRange', 0 )
    
    cmds.setAttr( detachCurveNode+'.parameter[0]', 0.25 )
    cmds.setAttr( detachCurveNode+'.parameter[1]', 0.75 )
    
    cmds.setAttr( extrudeNode+'.fixedPath', 1 )
    cmds.setAttr( extrudeNode+'.useProfileNormal', 1 )
    cmds.setAttr( extrudeNode+'.useComponentPivot', 1 )
    
    cmds.connectAttr( crvShape+'.local', rebuildCurveNode+'.inputCurve' )
    
    cmds.connectAttr( rebuildCurveNode+'.outputCurve', detachCurveNode+'.inputCurve' )
    
    cmds.connectAttr( circleNode+'.outputCurve', extrudeNode+'.profile' )
    cmds.connectAttr( detachCurveNode+'.outputCurve[1]', extrudeNode+'.path' )
    cmds.connectAttr( extrudeNode+'.outputSurface', surfaceNode+'.create' )
    
    surfNodeParent = cmds.listRelatives( surfaceNode, p=1 )[0]
    
    sgRigAttribute.addAttr( surfNodeParent, ln='radius', min=0, dv=1, k=1 )
    sgRigAttribute.addAttr( surfNodeParent, ln='parameter', min= 0, max=range, k=1 )
    sgRigAttribute.addAttr( surfNodeParent, ln='length', min=0, max=range, dv=range*0.5, k=1 )
    
    cmds.connectAttr( surfNodeParent+'.radius',     circleNode+'.radius' )

    rangeNode = cmds.createNode( 'setRange' )
    minusMultNode = cmds.createNode( 'multDoubleLinear' )
    plusMultNode = cmds.createNode( 'multDoubleLinear' )
    minusAddNode = cmds.createNode( 'addDoubleLinear' )
    plusAddNode = cmds.createNode( 'addDoubleLinear' )
    
    cmds.connectAttr( surfNodeParent+'.parameter', rangeNode+'.valueX' )
    cmds.connectAttr( surfNodeParent+'.length', minusMultNode+'.input1' )
    cmds.connectAttr( surfNodeParent+'.length', plusMultNode+'.input1' )
    cmds.setAttr( minusMultNode+'.input2', -0.5 )
    cmds.setAttr( plusMultNode+'.input2',   0.5 )
    cmds.connectAttr( minusMultNode+'.output', minusAddNode+'.input1' )
    cmds.connectAttr( plusMultNode+'.output', plusAddNode+'.input1' )
    cmds.setAttr( minusAddNode+'.input2', 0 )
    cmds.setAttr( plusAddNode +'.input2', range )
    
    cmds.connectAttr( minusAddNode+'.output', rangeNode+'.minX' )
    cmds.connectAttr( plusAddNode+'.output',  rangeNode+'.maxX' )
    cmds.setAttr( rangeNode+'.oldMinX', 0 )
    cmds.setAttr( rangeNode+'.oldMaxX', range )
    
    addMinNode = cmds.createNode( 'addDoubleLinear' )
    addMaxNode = cmds.createNode( 'addDoubleLinear' )
    cmds.connectAttr( rangeNode+'.outValueX', addMinNode+'.input1' )
    cmds.connectAttr( rangeNode+'.outValueX', addMaxNode+'.input1' )
    cmds.connectAttr( minusMultNode+'.output', addMinNode+'.input2' )
    cmds.connectAttr( plusMultNode+'.output', addMaxNode+'.input2' )
    
    minConditionFirst  = cmds.createNode( 'condition' )
    minConditionSecond = cmds.createNode( 'condition' )
    maxConditionFirst  = cmds.createNode( 'condition' )
    maxConditionSecond = cmds.createNode( 'condition' )
    
    cmds.connectAttr( addMinNode+'.output', minConditionFirst+'.firstTerm' )
    cmds.connectAttr( addMinNode+'.output', minConditionFirst+'.colorIfFalseR' )
    cmds.setAttr( minConditionFirst+'.secondTerm', range-0.0001 )
    cmds.setAttr( minConditionFirst+'.colorIfTrueR', range-0.0001 )
    cmds.setAttr( minConditionFirst+'.op', 2 )
    
    cmds.connectAttr( minConditionFirst+'.outColorR', minConditionSecond+'.firstTerm' )
    cmds.connectAttr( minConditionFirst+'.outColorR', minConditionSecond+'.colorIfFalseR' )
    cmds.setAttr( minConditionSecond+'.secondTerm', 0 )
    cmds.setAttr( minConditionSecond+'.colorIfTrueR', 0 )
    cmds.setAttr( minConditionSecond+'.op', 4 )
    
    cmds.connectAttr( addMaxNode+'.output', maxConditionFirst+'.firstTerm' )
    cmds.connectAttr( addMaxNode+'.output', maxConditionFirst+'.colorIfFalseR' )
    cmds.setAttr( maxConditionFirst+'.secondTerm', range )
    cmds.setAttr( maxConditionFirst+'.colorIfTrueR', range )
    cmds.setAttr( maxConditionFirst+'.op', 2 )
    
    cmds.connectAttr( maxConditionFirst+'.outColorR', maxConditionSecond+'.firstTerm' )
    cmds.connectAttr( maxConditionFirst+'.outColorR', maxConditionSecond+'.colorIfFalseR' )
    cmds.setAttr( maxConditionSecond+'.secondTerm', 0.0001 )
    cmds.setAttr( maxConditionSecond+'.colorIfTrueR', 0.0001 )
    cmds.setAttr( maxConditionSecond+'.op', 4 )
    
    minMult = cmds.createNode( 'multDoubleLinear' )
    maxMult = cmds.createNode( 'multDoubleLinear' )
    cmds.connectAttr( minConditionSecond+'.outColorR', minMult+'.input1' )
    cmds.connectAttr( maxConditionSecond+'.outColorR', maxMult+'.input1' )
    cmds.setAttr( minMult+'.input2', 1.0/range )
    cmds.setAttr( maxMult+'.input2', 1.0/range )
    
    cmds.connectAttr( minMult+'.output', detachCurveNode+'.parameter[0]' )
    cmds.connectAttr( maxMult+'.output', detachCurveNode+'.parameter[1]' )
    
    cmds.select( surfNodeParent )
Ejemplo n.º 19
0
def connectHairControl(ctl, hairSystem):

    hairSystem = sgModelDag.getNodeFromHistory(hairSystem, 'hairSystem')[0]

    try:
        sgRigAttribute.addAttr(ctl, ln='________', en='Hair:', at='enum', cb=1)
    except:
        pass
    sgRigAttribute.addAttr(ctl, ln='dynamicOn', min=0, max=1, at='long', cb=1)
    sgRigAttribute.addAttr(ctl, ln='startFrame', dv=1, at='long', cb=1)
    sgRigAttribute.addAttr(ctl, ln='attraction', min=0, max=1, dv=1, k=1)
    sgRigAttribute.addAttr(ctl, ln='attractionDamp', min=0, dv=0.5, k=1)
    sgRigAttribute.addAttr(ctl, ln='stiffness', min=0, max=1, dv=0.15, k=1)
    sgRigAttribute.addAttr(ctl, ln='mass', min=0.1, dv=1, k=1)
    sgRigAttribute.addAttr(ctl, ln='drag', min=0, dv=0.05, k=1)

    condition = cmds.createNode('condition')
    cmds.setAttr(condition + '.secondTerm', 0)
    cmds.setAttr(condition + '.colorIfTrueR', 1)
    cmds.setAttr(condition + '.colorIfFalseR', 3)

    connectAttrCommon(ctl + '.dynamicOn', condition + '.firstTerm')
    connectAttrCommon(ctl + '.startFrame', hairSystem + '.startFrame')
    connectAttrCommon(condition + '.outColorR',
                      hairSystem + '.simulationMethod')
    connectAttrCommon(ctl + '.attraction', hairSystem + '.startCurveAttract')
    connectAttrCommon(ctl + '.stiffness', hairSystem + '.stiffness')
    connectAttrCommon(ctl + '.attractionDamp', hairSystem + '.attractionDamp')
    connectAttrCommon(ctl + '.mass', hairSystem + '.mass')
    connectAttrCommon(ctl + '.drag', hairSystem + '.drag')
Ejemplo n.º 20
0
def connectHairControl( ctl, hairSystem ):
    
    hairSystem = sgModelDag.getNodeFromHistory( hairSystem, 'hairSystem' )[0]
    
    try:sgRigAttribute.addAttr( ctl, ln='________', en='Hair:', at='enum', cb=1 )
    except:pass
    sgRigAttribute.addAttr( ctl, ln='dynamicOn', min=0, max=1, at='long', cb=1 )
    sgRigAttribute.addAttr( ctl, ln='startFrame', dv=1, at='long', cb=1 )
    sgRigAttribute.addAttr( ctl, ln='attraction', min=0, max=1, dv=1, k=1 )
    sgRigAttribute.addAttr( ctl, ln='attractionDamp', min=0, dv=0.5, k=1 )
    sgRigAttribute.addAttr( ctl, ln='stiffness', min=0, max=1, dv=0.15, k=1 )
    sgRigAttribute.addAttr( ctl, ln='mass', min=0.1, dv=1, k=1 )
    sgRigAttribute.addAttr( ctl, ln='drag', min=0, dv=0.05, k=1 )
    
    condition = cmds.createNode( 'condition' )
    cmds.setAttr( condition+'.secondTerm', 0 )
    cmds.setAttr( condition+'.colorIfTrueR', 1 )
    cmds.setAttr( condition+'.colorIfFalseR', 3 )
    
    connectAttrCommon( ctl+'.dynamicOn', condition+'.firstTerm' )
    connectAttrCommon( ctl+'.startFrame', hairSystem+'.startFrame' )
    connectAttrCommon( condition+'.outColorR', hairSystem+'.simulationMethod' )
    connectAttrCommon( ctl+'.attraction', hairSystem+'.startCurveAttract' )
    connectAttrCommon( ctl+'.stiffness', hairSystem+'.stiffness' )
    connectAttrCommon( ctl+'.attractionDamp', hairSystem+'.attractionDamp' )
    connectAttrCommon( ctl+'.mass', hairSystem+'.mass' )
    connectAttrCommon( ctl+'.drag', hairSystem+'.drag' )
Ejemplo n.º 21
0
def createRoofPointers(surface, numPointer, aimDirection='v', roofLength=10):

    surface = sgModelDag.getTransform(surface)
    surfaceShape = sgModelDag.getShape(surface)

    dStr = aimDirection.upper()
    if dStr == 'V':
        upStr = 'U'
    else:
        upStr = 'V'

    sgRigAttribute.addAttr(surface, ln='roofValue', k=1)

    minValue, maxValue = cmds.getAttr(surfaceShape + '.minMaxRange%s' %
                                      (dStr))[0]

    eachInputOffset = float(roofLength) / (numPointer - 1)

    for i in range(numPointer):
        surfaceInfo = cmds.createNode('pointOnSurfaceInfo')
        pointer = cmds.createNode('transform', n=surface + '_pointer%d' % i)
        cmds.setAttr(pointer + '.dh', 1)
        cmds.setAttr(pointer + '.dla', 1)
        cmds.connectAttr(surfaceShape + '.local',
                         surfaceInfo + '.inputSurface')

        addNode = cmds.createNode('addDoubleLinear')
        cmds.setAttr(addNode + '.input2', eachInputOffset * i)

        animCurve = sgModelDg.getRoofLinearCurve(0, float(roofLength),
                                                 minValue, maxValue)

        cmds.connectAttr(surface + '.roofValue', addNode + '.input1')
        cmds.connectAttr(addNode + '.output', animCurve + '.input')
        cmds.connectAttr(animCurve + '.output',
                         surfaceInfo + '.parameter%s' % (dStr))

        fbfMtx = cmds.createNode('fourByFourMatrix')
        vProduct = cmds.createNode('vectorProduct')
        mmdc = cmds.createNode('multMatrixDecompose')

        cmds.setAttr(vProduct + '.op', 2)

        cmds.connectAttr(surfaceInfo + '.tangent%sx' % (dStr), fbfMtx + '.i00')
        cmds.connectAttr(surfaceInfo + '.tangent%sy' % (dStr), fbfMtx + '.i01')
        cmds.connectAttr(surfaceInfo + '.tangent%sz' % (dStr), fbfMtx + '.i02')
        cmds.connectAttr(surfaceInfo + '.tangent%sx' % (upStr),
                         fbfMtx + '.i10')
        cmds.connectAttr(surfaceInfo + '.tangent%sy' % (upStr),
                         fbfMtx + '.i11')
        cmds.connectAttr(surfaceInfo + '.tangent%sz' % (upStr),
                         fbfMtx + '.i12')
        cmds.connectAttr(surfaceInfo + '.positionX', fbfMtx + '.i30')
        cmds.connectAttr(surfaceInfo + '.positionY', fbfMtx + '.i31')
        cmds.connectAttr(surfaceInfo + '.positionZ', fbfMtx + '.i32')
        cmds.connectAttr(surfaceInfo + '.tangent%s' % (dStr),
                         vProduct + '.input1')
        cmds.connectAttr(surfaceInfo + '.tangent%s' % (upStr),
                         vProduct + '.input2')
        cmds.connectAttr(vProduct + '.outputX', fbfMtx + '.i20')
        cmds.connectAttr(vProduct + '.outputY', fbfMtx + '.i21')
        cmds.connectAttr(vProduct + '.outputZ', fbfMtx + '.i22')

        cmds.connectAttr(fbfMtx + '.output', mmdc + '.i[0]')
        cmds.connectAttr(pointer + '.pim', mmdc + '.i[1]')

        cmds.connectAttr(mmdc + '.ot', pointer + '.t')
        cmds.connectAttr(mmdc + '.or', pointer + '.r')

        cmds.parent(pointer, surface)
Ejemplo n.º 22
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def createConveyerBeltSet( meshName, firstEdgeIndex, secondEdgeIndex ):
    
    firstEdges = cmds.polySelectSp( meshName+'.e[%d]' % firstEdgeIndex,  loop=1 )
    secondEdges = cmds.polySelectSp( meshName+'.e[%d]' % secondEdgeIndex, loop=1 )
    
    cmds.select( firstEdges )
    firstCurve  = cmds.polyToCurve( form=2, degree=3, n=meshName+'_loopCurve_First' )[0]
    cmds.select( secondEdges )
    secondCurve = cmds.polyToCurve( form=2, degree=3, n=meshName+'_loopCurve_Second' )[0]
    
    firstCurveShape = sgModelDag.getShape( firstCurve )
    secondCurveShape = sgModelDag.getShape( secondCurve )
    
    firstSpans  = cmds.getAttr( firstCurveShape +'.spans' )
    secondSpans = cmds.getAttr( secondCurveShape+'.spans' )
    
    firstTangent = sgModelCurve.getTangentAtParam( firstCurveShape, 0.0 )
    firstParamPoint = sgModelCurve.getPointAtParam( firstCurveShape, 0.0 )
    secondParam = sgModelCurve.getParamAtPoint( secondCurveShape, firstParamPoint )
    secondTangent = sgModelCurve.getTangentAtParam( secondCurveShape, secondParam )
    
    if firstTangent * secondTangent < 0:
        cmds.reverseCurve( secondCurve, ch = 1, rpo = 1 )
    
    firstPointers = sgRigCurve.createRoofPointers( firstCurve, firstSpans )
    secondPointers = sgRigCurve.createRoofPointers( secondCurve, secondSpans )
    
    fPos = cmds.xform( firstPointers[0], q=1, ws=1, t=1 )
    
    minDistPointer = secondPointers[0]
    minDist = 1000000000.0
    for secondPointer in secondPointers:
        sPos = cmds.xform( secondPointer, q=1, ws=1, t=1 )
        dist = (fPos[0]-sPos[0])**2+(fPos[1]-sPos[1])**2+(fPos[2]-sPos[2])**2
        if dist < minDist:
            minDistPointer = secondPointer
            minDist = dist
    
    offset = int( minDistPointer.split( '_' )[-1] )
    
    crvs = []
    for i in range( len( firstPointers ) ):
        firstPointer = firstPointers[i]
        secondPointer = '_'.join( secondPointers[i].split( '_' )[:-1] ) + '_%d' %( (i + offset)%firstSpans )
        
        crv = sgRigCurve.createCurveOnTargetPoints( [firstPointer, secondPointer] )
        crv = cmds.rename( crv, meshName+'_line_%d' % i )
        crvs.append( crv )
        
    cmds.select( crvs )
    loftSurf = cmds.loft( n=meshName+'_loft' )[0]
    resultObject = cmds.nurbsToPoly( loftSurf ,mnd=1 ,ch=1,f=3,pt=0,pc=200,chr=0.9,ft=0.01,mel=0.001, d=0.1, 
                                    ut=1, un=3, vt=1, vn=3, uch=0, ucr=0, cht=0.2, es=0,ntr=0,mrt=0, uss=1, n=meshName+'_conveyorBelt' )
    crvGrp = cmds.group( crvs, n=meshName+'_lines' )
    conveyorRig = cmds.group( firstCurve, secondCurve, crvGrp, loftSurf, resultObject, meshName, n=meshName+'_conveyorRig' )
    
    import sgRigAttribute
    sgRigAttribute.addAttr( conveyorRig, ln='offset', k=1 )
    cmds.connectAttr( conveyorRig+'.offset', firstCurve+'.roofValue' )
    cmds.connectAttr( conveyorRig+'.offset', secondCurve+'.roofValue' )

    cmds.setAttr( conveyorRig+'.v', 0 )
Ejemplo n.º 23
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def createRoofPointers( surface, numPointer, aimDirection = 'v', roofLength = 10 ):

    surface      = sgModelDag.getTransform( surface )
    surfaceShape = sgModelDag.getShape( surface )
    
    dStr = aimDirection.upper()
    if dStr == 'V':
        upStr = 'U'
    else:
        upStr = 'V'
    
    sgRigAttribute.addAttr( surface, ln='roofValue', k=1 )
    
    minValue, maxValue = cmds.getAttr( surfaceShape+'.minMaxRange%s' % ( dStr ) )[0]
    
    eachInputOffset = float( roofLength ) / ( numPointer-1 )
    
    for i in range( numPointer ):
        surfaceInfo = cmds.createNode( 'pointOnSurfaceInfo' )
        pointer = cmds.createNode( 'transform', n= surface+'_pointer%d' % i )
        cmds.setAttr( pointer+'.dh', 1 )
        cmds.setAttr( pointer+'.dla', 1 )
        cmds.connectAttr( surfaceShape+'.local', surfaceInfo+'.inputSurface' )
        
        addNode = cmds.createNode( 'addDoubleLinear' )
        cmds.setAttr( addNode+'.input2', eachInputOffset * i )
        
        animCurve = sgModelDg.getRoofLinearCurve( 0, float( roofLength ), minValue, maxValue )
        
        cmds.connectAttr( surface+'.roofValue', addNode+'.input1' )
        cmds.connectAttr( addNode+'.output', animCurve+'.input' )
        cmds.connectAttr( animCurve+'.output', surfaceInfo+'.parameter%s' %( dStr ) )
        
        fbfMtx = cmds.createNode( 'fourByFourMatrix' )
        vProduct = cmds.createNode( 'vectorProduct' )
        mmdc = cmds.createNode( 'multMatrixDecompose' )
        
        cmds.setAttr( vProduct+'.op', 2 )
        
        cmds.connectAttr( surfaceInfo + '.tangent%sx' % ( dStr ), fbfMtx+'.i00'  )
        cmds.connectAttr( surfaceInfo + '.tangent%sy' % ( dStr ), fbfMtx+'.i01'  )
        cmds.connectAttr( surfaceInfo + '.tangent%sz' % ( dStr ), fbfMtx+'.i02'  )
        cmds.connectAttr( surfaceInfo + '.tangent%sx' % ( upStr ), fbfMtx+'.i10'  )
        cmds.connectAttr( surfaceInfo + '.tangent%sy' % ( upStr ), fbfMtx+'.i11'  )
        cmds.connectAttr( surfaceInfo + '.tangent%sz' % ( upStr ), fbfMtx+'.i12'  )
        cmds.connectAttr( surfaceInfo + '.positionX', fbfMtx+'.i30'  )
        cmds.connectAttr( surfaceInfo + '.positionY', fbfMtx+'.i31'  )
        cmds.connectAttr( surfaceInfo + '.positionZ', fbfMtx+'.i32'  )
        cmds.connectAttr( surfaceInfo+'.tangent%s' % ( dStr ), vProduct+'.input1' )
        cmds.connectAttr( surfaceInfo+'.tangent%s' % ( upStr ), vProduct+'.input2' )
        cmds.connectAttr( vProduct+'.outputX', fbfMtx+'.i20' )
        cmds.connectAttr( vProduct+'.outputY', fbfMtx+'.i21' )
        cmds.connectAttr( vProduct+'.outputZ', fbfMtx+'.i22' )
        
        cmds.connectAttr( fbfMtx+'.output', mmdc+'.i[0]' )
        cmds.connectAttr( pointer+'.pim', mmdc+'.i[1]' )
        
        cmds.connectAttr( mmdc+'.ot', pointer+'.t' )
        cmds.connectAttr( mmdc+'.or', pointer+'.r' )
        
        cmds.parent( pointer, surface )
Ejemplo n.º 24
0
def createBendToCurve(curve):

    import math

    curve = sgModelDag.getTransform(curve)

    cvs = cmds.ls(curve + '.cv[*]', fl=1)

    startPoint = cmds.xform(cvs[0], q=1, ws=1, t=1)
    endPoint = cmds.xform(cvs[-1], q=1, ws=1, t=1)

    bend, handle = cmds.nonLinear(curve,
                                  type='bend',
                                  lowBound=0,
                                  highBound=1,
                                  curvature=0)

    cmds.xform(handle, ws=1, t=startPoint)

    vStartPoint = sgModelConvert.convertMVectorFromPointList(startPoint)
    vEndPoint = sgModelConvert.convertMVectorFromPointList(endPoint)

    vAim = vEndPoint - vStartPoint
    yVector = om.MVector(*[0, 1, 0])
    zVector = om.MVector(*[1, 0, 0])

    dotY = math.fabs(vAim * yVector)
    dotZ = math.fabs(vAim * zVector)

    vUp = None
    if dotY > dotZ:
        vUp = zVector
    else:
        vUp = yVector

    vCross = vAim ^ vUp
    vUp = vCross ^ vAim

    lengthAim = vAim.length()

    vUp.normalize()
    vCross.normalize()

    vUp *= lengthAim
    vCross *= lengthAim

    mtx = [
        vCross.x, vCross.y, vCross.z, 0, vAim.x, vAim.y, vAim.z, 0, vUp.x,
        vUp.y, vUp.z, 0, vStartPoint.x, vStartPoint.y, vStartPoint.z, 1
    ]

    cmds.xform(handle, ws=1, matrix=mtx)

    handle, handleGrp = sgRigDag.addParent(handle)

    sgRigAttribute.addAttr(curve, ln='globalTwist', k=1)
    sgRigAttribute.addAttr(curve, ln='globalBend', k=1)
    sgRigAttribute.addAttr(curve, ln='twist', k=1, dv=0)
    sgRigAttribute.addAttr(curve, ln='bend', k=1, dv=1)

    addTwist = cmds.createNode('addDoubleLinear')
    multBend = cmds.createNode('multDoubleLinear')

    cmds.connectAttr(curve + '.globalTwist', addTwist + '.input1')
    cmds.connectAttr(curve + '.twist', addTwist + '.input2')
    cmds.connectAttr(curve + '.globalBend', multBend + '.input1')
    cmds.connectAttr(curve + '.bend', multBend + '.input2')

    cmds.connectAttr(multBend + '.output', bend + '.curvature')
    cmds.connectAttr(addTwist + '.output', handle + '.ry')
    bakeTargetList = cPickle.load(f)
    f.close()

    bakeInfoPath = bakeInfoPath.replace('\\', '/')
    sceneInfoPath = '/'.join(
        bakeInfoPath.split('/')[:-1]) + '/sceneInfo.sceneInfo'

    f = open(sceneInfoPath, 'r')
    timeUnit, minTime, maxTime = cPickle.load(f)
    f.close()

    cmds.currentUnit(time=timeUnit)

    for k in range(len(bakeTargetList)):
        #print "bakeTrargetList : ", bakeTargetList[k]
        tr = bakeTargetList[k][0]

        for j in range(len(bakeTargetList[k][3])):
            attr = bakeTargetList[k][3][j][0]
            info = bakeTargetList[k][3][j][1]
            animCurve = info.createAnimCurve()
            #animCurve = cmds.rename( animCurve, 'sceneBake_animCurve_for_%s' %( tr.split( '|' )[-1]+'_'+attr ) )
            sgRigAttribute.addAttr(animCurve,
                                   ln='bakeTargetAttrName',
                                   dt='string')
            cmds.setAttr(animCurve + '.bakeTargetAttrName',
                         tr + '.' + attr,
                         type='string')

    cmds.file(rename=scenePath)
    cmds.file(f=1, save=1, options="v=0;", type="mayaAscii")
Ejemplo n.º 26
0
def addSurfaceLineObject(targetCurve, multValue=1, range=1):

    crvShape = sgModelDag.getShape(targetCurve)
    rebuildCurveNode = cmds.createNode('rebuildCurve')
    detachCurveNode = cmds.createNode('detachCurve')
    circleNode = cmds.createNode('makeNurbCircle')
    extrudeNode = cmds.createNode('extrude')
    surfaceNode = cmds.createNode('nurbsSurface')
    curveInfo = cmds.createNode('curveInfo')

    cmds.connectAttr(crvShape + '.worldSpace', curveInfo + '.inputCurve')
    multValue = cmds.getAttr(curveInfo + '.arcLength') * multValue

    cmds.setAttr(rebuildCurveNode + '.spans', multValue)
    cmds.setAttr(rebuildCurveNode + '.keepRange', 0)

    cmds.setAttr(detachCurveNode + '.parameter[0]', 0.25)
    cmds.setAttr(detachCurveNode + '.parameter[1]', 0.75)

    cmds.setAttr(extrudeNode + '.fixedPath', 1)
    cmds.setAttr(extrudeNode + '.useProfileNormal', 1)
    cmds.setAttr(extrudeNode + '.useComponentPivot', 1)

    cmds.connectAttr(crvShape + '.local', rebuildCurveNode + '.inputCurve')

    cmds.connectAttr(rebuildCurveNode + '.outputCurve',
                     detachCurveNode + '.inputCurve')

    cmds.connectAttr(circleNode + '.outputCurve', extrudeNode + '.profile')
    cmds.connectAttr(detachCurveNode + '.outputCurve[1]',
                     extrudeNode + '.path')
    cmds.connectAttr(extrudeNode + '.outputSurface', surfaceNode + '.create')

    surfNodeParent = cmds.listRelatives(surfaceNode, p=1)[0]

    sgRigAttribute.addAttr(surfNodeParent, ln='radius', min=0, dv=1, k=1)
    sgRigAttribute.addAttr(surfNodeParent,
                           ln='parameter',
                           min=0,
                           max=range,
                           k=1)
    sgRigAttribute.addAttr(surfNodeParent,
                           ln='length',
                           min=0,
                           max=range,
                           dv=range * 0.5,
                           k=1)

    cmds.connectAttr(surfNodeParent + '.radius', circleNode + '.radius')

    rangeNode = cmds.createNode('setRange')
    minusMultNode = cmds.createNode('multDoubleLinear')
    plusMultNode = cmds.createNode('multDoubleLinear')
    minusAddNode = cmds.createNode('addDoubleLinear')
    plusAddNode = cmds.createNode('addDoubleLinear')

    cmds.connectAttr(surfNodeParent + '.parameter', rangeNode + '.valueX')
    cmds.connectAttr(surfNodeParent + '.length', minusMultNode + '.input1')
    cmds.connectAttr(surfNodeParent + '.length', plusMultNode + '.input1')
    cmds.setAttr(minusMultNode + '.input2', -0.5)
    cmds.setAttr(plusMultNode + '.input2', 0.5)
    cmds.connectAttr(minusMultNode + '.output', minusAddNode + '.input1')
    cmds.connectAttr(plusMultNode + '.output', plusAddNode + '.input1')
    cmds.setAttr(minusAddNode + '.input2', 0)
    cmds.setAttr(plusAddNode + '.input2', range)

    cmds.connectAttr(minusAddNode + '.output', rangeNode + '.minX')
    cmds.connectAttr(plusAddNode + '.output', rangeNode + '.maxX')
    cmds.setAttr(rangeNode + '.oldMinX', 0)
    cmds.setAttr(rangeNode + '.oldMaxX', range)

    addMinNode = cmds.createNode('addDoubleLinear')
    addMaxNode = cmds.createNode('addDoubleLinear')
    cmds.connectAttr(rangeNode + '.outValueX', addMinNode + '.input1')
    cmds.connectAttr(rangeNode + '.outValueX', addMaxNode + '.input1')
    cmds.connectAttr(minusMultNode + '.output', addMinNode + '.input2')
    cmds.connectAttr(plusMultNode + '.output', addMaxNode + '.input2')

    minConditionFirst = cmds.createNode('condition')
    minConditionSecond = cmds.createNode('condition')
    maxConditionFirst = cmds.createNode('condition')
    maxConditionSecond = cmds.createNode('condition')

    cmds.connectAttr(addMinNode + '.output', minConditionFirst + '.firstTerm')
    cmds.connectAttr(addMinNode + '.output',
                     minConditionFirst + '.colorIfFalseR')
    cmds.setAttr(minConditionFirst + '.secondTerm', range - 0.0001)
    cmds.setAttr(minConditionFirst + '.colorIfTrueR', range - 0.0001)
    cmds.setAttr(minConditionFirst + '.op', 2)

    cmds.connectAttr(minConditionFirst + '.outColorR',
                     minConditionSecond + '.firstTerm')
    cmds.connectAttr(minConditionFirst + '.outColorR',
                     minConditionSecond + '.colorIfFalseR')
    cmds.setAttr(minConditionSecond + '.secondTerm', 0)
    cmds.setAttr(minConditionSecond + '.colorIfTrueR', 0)
    cmds.setAttr(minConditionSecond + '.op', 4)

    cmds.connectAttr(addMaxNode + '.output', maxConditionFirst + '.firstTerm')
    cmds.connectAttr(addMaxNode + '.output',
                     maxConditionFirst + '.colorIfFalseR')
    cmds.setAttr(maxConditionFirst + '.secondTerm', range)
    cmds.setAttr(maxConditionFirst + '.colorIfTrueR', range)
    cmds.setAttr(maxConditionFirst + '.op', 2)

    cmds.connectAttr(maxConditionFirst + '.outColorR',
                     maxConditionSecond + '.firstTerm')
    cmds.connectAttr(maxConditionFirst + '.outColorR',
                     maxConditionSecond + '.colorIfFalseR')
    cmds.setAttr(maxConditionSecond + '.secondTerm', 0.0001)
    cmds.setAttr(maxConditionSecond + '.colorIfTrueR', 0.0001)
    cmds.setAttr(maxConditionSecond + '.op', 4)

    minMult = cmds.createNode('multDoubleLinear')
    maxMult = cmds.createNode('multDoubleLinear')
    cmds.connectAttr(minConditionSecond + '.outColorR', minMult + '.input1')
    cmds.connectAttr(maxConditionSecond + '.outColorR', maxMult + '.input1')
    cmds.setAttr(minMult + '.input2', 1.0 / range)
    cmds.setAttr(maxMult + '.input2', 1.0 / range)

    cmds.connectAttr(minMult + '.output', detachCurveNode + '.parameter[0]')
    cmds.connectAttr(maxMult + '.output', detachCurveNode + '.parameter[1]')

    cmds.select(surfNodeParent)
 sgFunctionFileAndPath.makeFile( scenePath, False )
 
 cmds.file( f=1, new=1 )
 
 f = open( bakeInfoPath, 'r' )
 bakeTargetList = cPickle.load( f )
 f.close()
 
 bakeInfoPath = bakeInfoPath.replace( '\\', '/' )
 sceneInfoPath = '/'.join( bakeInfoPath.split( '/' )[:-1]) + '/sceneInfo.sceneInfo'
 
 f = open( sceneInfoPath, 'r' )
 timeUnit, minTime, maxTime = cPickle.load( f )
 f.close()
 
 cmds.currentUnit( time = timeUnit )
 
 for k in range( len( bakeTargetList ) ):
     #print "bakeTrargetList : ", bakeTargetList[k]
     tr = bakeTargetList[k][0]
     
     for j in range( len( bakeTargetList[k][3] ) ):
         attr = bakeTargetList[k][3][j][0]
         info = bakeTargetList[k][3][j][1]
         animCurve = info.createAnimCurve()
         #animCurve = cmds.rename( animCurve, 'sceneBake_animCurve_for_%s' %( tr.split( '|' )[-1]+'_'+attr ) )
         sgRigAttribute.addAttr( animCurve, ln='bakeTargetAttrName', dt='string' )
         cmds.setAttr( animCurve+'.bakeTargetAttrName', tr+'.'+attr, type='string' )
         
 cmds.file( rename=scenePath )
 cmds.file( f=1, save=1,  options="v=0;", type="mayaAscii" )