コード例 #1
0
ファイル: sgBFunction_rivet.py プロジェクト: jonntd/mayadev-1
def createFollicleFromVertex(vertices):

    import sgCFnc_dag
    import sgBFunction_mesh
    import sgBFunction_dag

    cmds.select(vertices)

    pathAndComps = sgCFnc_dag.getMDagPathAndComponent()

    for mDagPath, mIntArrU, mIntArrV, mIntArrW in pathAndComps:

        fnMesh = om.MFnMesh(mDagPath)
        meshShape = fnMesh.name()
        meshObj = sgBFunction_dag.getTransform(meshShape)

        for i in range(len(mIntArrU)):
            index = mIntArrU[i]
            pos = cmds.xform(meshShape + '.vtx[%d]' % index, q=1, ws=1, t=1)

            u, v = sgBFunction_mesh.getUVAtPoint(pos, meshObj)

            follicle = cmds.createNode('follicle')
            follicleObj = sgBFunction_dag.getTransform(follicle)
            cmds.connectAttr(follicle + '.ot', follicleObj + '.t')
            cmds.connectAttr(follicle + '.or', follicleObj + '.r')

            cmds.connectAttr(meshShape + '.outMesh', follicle + '.inputMesh')
            cmds.connectAttr(meshShape + '.wm', follicle + '.inputWorldMatrix')
            cmds.setAttr(follicle + '.parameterU', u)
            cmds.setAttr(follicle + '.parameterV', v)
            cmds.setAttr(follicleObj + '.inheritsTransform', 0)
コード例 #2
0
ファイル: sgBFunction_rivet.py プロジェクト: jonntd/mayadev-1
def createFollicleFromVertex( vertices ):
    
    import sgCFnc_dag
    import sgBFunction_mesh
    import sgBFunction_dag
    
    cmds.select( vertices )
    
    pathAndComps = sgCFnc_dag.getMDagPathAndComponent()
    
    for mDagPath, mIntArrU, mIntArrV, mIntArrW in pathAndComps:
    
        fnMesh = om.MFnMesh( mDagPath )
        meshShape   = fnMesh.name()
        meshObj= sgBFunction_dag.getTransform( meshShape )
        
        for i in range( len( mIntArrU ) ):
            index = mIntArrU[i]
            pos = cmds.xform( meshShape+'.vtx[%d]' % index, q=1, ws=1, t=1 )
        
            u, v = sgBFunction_mesh.getUVAtPoint( pos, meshObj )
        
            follicle = cmds.createNode( 'follicle' )
            follicleObj = sgBFunction_dag.getTransform( follicle )
            cmds.connectAttr( follicle+'.ot', follicleObj+'.t' )
            cmds.connectAttr( follicle+'.or', follicleObj+'.r' )
            
            cmds.connectAttr( meshShape+'.outMesh', follicle+'.inputMesh' )
            cmds.connectAttr( meshShape+'.wm', follicle+'.inputWorldMatrix' )
            cmds.setAttr( follicle+'.parameterU', u )
            cmds.setAttr( follicle+'.parameterV', v )
            cmds.setAttr( follicleObj+'.inheritsTransform', 0 )
コード例 #3
0
def duplicateShaderToOther( first, second ):
    
    import maya.mel as mel
    import sgBFunction_dag
    
    if not cmds.objExists( first ): return None
    if not cmds.objExists( second ): return None
    
    first = sgBFunction_dag.getTransform( first )
    second = sgBFunction_dag.getTransform( second )
    firstShape = sgBFunction_dag.getShape( first )
    secondShape = sgBFunction_dag.getShape( second )
    
    engines = cmds.listConnections( firstShape, type='shadingEngine' )
    
    if not engines: return None
    
    engines = list( set( engines ) )
    
    for engine in engines:
        shaders = cmds.listConnections( engine+'.surfaceShader', s=1, d=0 )
        
        engine = cmds.duplicate( engine, n= 'du_'+engine )[0]
        
        if shaders:
            shader = shaders[0]
            
            cmds.hyperShade( objects = shader )
            selObjs = cmds.ls( sl=1, l=1 )
            
            targetObjs = []
            for selObj in selObjs:
                if selObj.find( '.' ) != -1:
                    trNode, components = selObj.split( '.' )
                    if trNode == first:
                        targetObjs.append( second+'.'+components )
                elif selObj == firstShape:
                    targetObjs.append( secondShape )
            
            cmds.select( shader )
            mel.eval( 'hyperShadePanelMenuCommand("hyperShadePanel1", "duplicateShadingNetwork")' )
            shader = cmds.ls( sl=1 )[0]
            cmds.connectAttr( shader+'.outColor', engine+'.surfaceShader' )
        
        aiShaders = cmds.listConnections( engine+'.aiSurfaceShader', s=1, d=0 )

        if aiShaders:
            aiShader = aiShaders[0]
            
            cmds.hyperShade( objects = aiShader )
            selObjs = cmds.ls( sl=1, l=1 )
            
            cmds.select( aiShader )
            mel.eval( 'hyperShadePanelMenuCommand("hyperShadePanel1", "duplicateShadingNetwork")' )
            aiShader = cmds.ls( sl=1 )[0]
            cmds.connectAttr( aiShader+'.outColor', engine+'.aiSurfaceShader' )
        
        for targetObj in targetObjs:
            cmds.sets( targetObj, e=1, forceElement=engine )
コード例 #4
0
ファイル: sgBFunction_rivet.py プロジェクト: jonntd/mayadev-1
def createFollicleFromSurfacePoint(surfacePoint):

    import sgBFunction_dag
    surfaceNode, noneArrangeStr = surfacePoint.split('.uv[')
    uvStrs = noneArrangeStr.replace(']', '').split('[')

    uv = [float(uvStrs[0]), float(uvStrs[1])]

    surfaceNode = sgBFunction_dag.getShape(surfaceNode)

    minMaxRangeU = cmds.getAttr(surfaceNode + '.minMaxRangeU')[0]
    minMaxRangeV = cmds.getAttr(surfaceNode + '.minMaxRangeV')[0]

    divRateU = minMaxRangeU[1] - minMaxRangeU[0]
    divRateV = minMaxRangeV[1] - minMaxRangeV[0]

    follicleNode = cmds.createNode('follicle')
    cmds.setAttr(follicleNode + '.parameterU', uv[0] / divRateU)
    cmds.setAttr(follicleNode + '.parameterV', uv[1] / divRateV)
    cmds.connectAttr(surfaceNode + '.local', follicleNode + '.inputSurface')
    cmds.connectAttr(surfaceNode + '.wm', follicleNode + '.inputWorldMatrix')

    follicleObj = sgBFunction_dag.getTransform(follicleNode)
    cmds.setAttr(follicleObj + '.inheritsTransform', 0)
    cmds.connectAttr(follicleNode + '.outTranslate', follicleObj + '.t')
    cmds.connectAttr(follicleNode + '.outRotate', follicleObj + '.r')

    return follicleObj
コード例 #5
0
ファイル: sgBFunction_rivet.py プロジェクト: jonntd/mayadev-1
def createCurveFromSelPoints():

    import sgBFunction_base
    import sgBModel_data
    import sgBFunction_curve
    import sgBFunction_surface
    import sgBFunction_mesh
    import sgBFunction_dag

    sgBFunction_base.autoLoadPlugin('sgRigAddition')

    def getPointAttributeFromObject(obj):
        import sgCFnc_dag
        if obj.find('.') == -1: return None
        cmds.select(obj)
        mDagPath, mIntArrU, mIntArrV, mIntArrW = sgCFnc_dag.getMDagPathAndComponent(
        )[0]
        dagNode = om.MFnDagNode(mDagPath)

        if not len(mIntArrU): return None
        nodeName = dagNode.fullPathName()

        if cmds.nodeType(dagNode.fullPathName()) == 'nurbsCurve':
            curveInfo = sgBFunction_curve.getCurveInfo_worldSpace(nodeName)
            return curveInfo + '.controlPoints[%d]' % mIntArrU[0]
        elif cmds.nodeType(nodeName) == 'nurbsSurface':
            surfInfo = sgBFunction_surface.getSurfaceInfo_worldSpace(nodeName)
            spanV = cmds.getAttr(nodeName + '.spansV')
            degreeV = cmds.getAttr(nodeName + '.degreeV')
            vLength = spanV + degreeV
            index = mIntArrU[0] * vLength + mIntArrV[0]
            return surfInfo + '.controlPoints[%d]' % index
        elif cmds.nodeType(nodeName) == 'mesh':
            return sgBFunction_mesh.getPointAttrFromVertex(obj)

    def getMatrixAttributeFromObject(obj):
        if obj.find('.') != -1: return None
        cmds.select(obj)
        return obj + '.wm'

    import copy
    selObjs = copy.copy(sgBModel_data.orderedObjects)

    node = cmds.createNode('sgCurveFromPoints')
    curve = cmds.createNode('nurbsCurve')
    cmds.connectAttr(node + '.outputCurve', curve + '.create')

    cmds.setAttr(node + '.createType', 1)
    cmds.setAttr(node + '.degrees', 2)

    for i in range(len(selObjs)):
        pointAttr = getPointAttributeFromObject(selObjs[i])
        mtxAttr = getMatrixAttributeFromObject(selObjs[i])

        if pointAttr:
            cmds.connectAttr(pointAttr, node + '.input[%d].inputPoint' % i)
        else:
            cmds.connectAttr(mtxAttr, node + '.input[%d].inputMatrix' % i)

    return sgBFunction_dag.getTransform(curve)
コード例 #6
0
ファイル: sgBFunction_rivet.py プロジェクト: jonntd/mayadev-1
def createCurveFromSelPoints():
    
    import sgBFunction_base
    import sgBModel_data
    import sgBFunction_curve
    import sgBFunction_surface
    import sgBFunction_mesh
    import sgBFunction_dag

    sgBFunction_base.autoLoadPlugin( 'sgRigAddition' )
    
    def getPointAttributeFromObject( obj ):
        import sgCFnc_dag
        if obj.find( '.' ) == -1: return None
        cmds.select( obj )
        mDagPath, mIntArrU, mIntArrV, mIntArrW = sgCFnc_dag.getMDagPathAndComponent()[0]
        dagNode = om.MFnDagNode( mDagPath )
        
        if not len( mIntArrU ): return None
        nodeName = dagNode.fullPathName()
        
        if cmds.nodeType( dagNode.fullPathName() ) == 'nurbsCurve':
            curveInfo = sgBFunction_curve.getCurveInfo_worldSpace( nodeName )
            return curveInfo+'.controlPoints[%d]' % mIntArrU[0]
        elif cmds.nodeType( nodeName ) == 'nurbsSurface':
            surfInfo  = sgBFunction_surface.getSurfaceInfo_worldSpace( nodeName )
            spanV = cmds.getAttr( nodeName + '.spansV' )
            degreeV = cmds.getAttr( nodeName + '.degreeV' )
            vLength = spanV + degreeV
            index = mIntArrU[0] * vLength + mIntArrV[0]
            return surfInfo+'.controlPoints[%d]' % index
        elif cmds.nodeType( nodeName ) == 'mesh':
            return sgBFunction_mesh.getPointAttrFromVertex( obj )


    def getMatrixAttributeFromObject( obj ):
        if obj.find( '.' ) != -1: return None
        cmds.select( obj )
        return obj+'.wm'

    import copy
    selObjs = copy.copy( sgBModel_data.orderedObjects )
    
    node  = cmds.createNode( 'sgCurveFromPoints' )
    curve = cmds.createNode( 'nurbsCurve' )
    cmds.connectAttr( node+'.outputCurve', curve+'.create' )
    
    cmds.setAttr( node + '.createType', 1 )
    cmds.setAttr( node + '.degrees', 2 )
    
    for i in range( len( selObjs ) ):
        pointAttr = getPointAttributeFromObject( selObjs[i] )
        mtxAttr   = getMatrixAttributeFromObject( selObjs[i] )

        if pointAttr:
            cmds.connectAttr( pointAttr, node+'.input[%d].inputPoint' % i )
        else:
            cmds.connectAttr( mtxAttr, node+'.input[%d].inputMatrix' % i )
    
    return sgBFunction_dag.getTransform( curve )
コード例 #7
0
ファイル: sgBFunction_rivet.py プロジェクト: jonntd/mayadev-1
def createFollicleFromSurfacePoint( surfacePoint ):
    
    import sgBFunction_dag
    surfaceNode, noneArrangeStr = surfacePoint.split( '.uv[' )
    uvStrs = noneArrangeStr.replace( ']', '' ).split( '[' )
    
    uv = [ float( uvStrs[0] ), float( uvStrs[1] ) ]
    
    surfaceNode = sgBFunction_dag.getShape( surfaceNode )
    
    minMaxRangeU = cmds.getAttr( surfaceNode+'.minMaxRangeU' )[0]
    minMaxRangeV = cmds.getAttr( surfaceNode+'.minMaxRangeV' )[0]
    
    divRateU = minMaxRangeU[1] - minMaxRangeU[0]
    divRateV = minMaxRangeV[1] - minMaxRangeV[0]
    
    follicleNode = cmds.createNode( 'follicle' )
    cmds.setAttr( follicleNode+'.parameterU', uv[0]/divRateU )
    cmds.setAttr( follicleNode+'.parameterV', uv[1]/divRateV )
    cmds.connectAttr( surfaceNode+'.local', follicleNode+'.inputSurface' )
    cmds.connectAttr( surfaceNode+'.wm', follicleNode+'.inputWorldMatrix' )
    
    follicleObj = sgBFunction_dag.getTransform( follicleNode )
    cmds.setAttr( follicleObj+'.inheritsTransform', 0 )
    cmds.connectAttr( follicleNode+'.outTranslate', follicleObj+'.t' )
    cmds.connectAttr( follicleNode+'.outRotate', follicleObj+'.r' )
    
    return follicleObj
コード例 #8
0
ファイル: sgBFunction_curve.py プロジェクト: jonntd/mayadev-1
def duplicateOnlyCurve( curves ):
    
    import sgBFunction_dag
    curves = sgBFunction_dag.getChildrenCurveExists( curves )
    
    newCurves = []
    for curve in curves:
        curveP = sgBFunction_dag.getParent( curve )
        if curveP:
            newCurveParent = sgBFunction_dag.makeCloneObject( curveP )
        else:
            newCurveParent = None
        
        newCurveShape = cmds.createNode( 'nurbsCurve' )
        curveShape = sgBFunction_dag.getShape( curve )
        cmds.connectAttr( curveShape+'.local', newCurveShape+'.create' )
        
        newCurve = sgBFunction_dag.getTransform( newCurveShape )
        newCurve = cmds.rename( newCurve, 'du_' + curve.split( '|' )[-1] )
        if newCurveParent:
            newCurve = cmds.parent( newCurve, newCurveParent )[0]
        newCurves.append( newCurve )
    
    cmds.refresh()
    
    for i in range( len( newCurves ) ):
        curveShape = sgBFunction_dag.getShape( curves[i] )
        newCurveShape = sgBFunction_dag.getShape( newCurves[i] )
        if cmds.isConnected( curveShape+'.local', newCurveShape+'.create' ):
            cmds.disconnectAttr( curveShape+'.local', newCurveShape+'.create' )
    
    return newCurves
コード例 #9
0
ファイル: sgBProject_coc.py プロジェクト: jonntd/mayadev-1
def removeUiSeparateView( cam ):
    
    import sgBFunction_attribute
    import sgBFunction_dag
    
    uiPrefix = 'separatedViewCam_'
    
    uis = cmds.lsUI( wnd=1 )
    for ui in uis:
        if not len( ui ) > len( uiPrefix ): continue
        if ui[ : len( uiPrefix ) ] != uiPrefix: continue
        cmds.deleteUI( ui, wnd=1 )
    
    if not cmds.objExists( cam ): return None
    
    for cam in cmds.ls( type='camera' ):
        if not cmds.objExists( cam ): continue
        cam = sgBFunction_dag.getTransform( cam )
        sgBFunction_attribute.addAttr( cam, ln='filmTranslateCams', at='message' )
        sgBFunction_attribute.addAttr( cam, ln='aniamtionCam', at='message' )
        cons1 = cmds.listConnections( cam+'.filmTranslateCams', d=1, s=0 )
        cons2 = cmds.listConnections( cam+'.aniamtionCam', d=1, s=0 )

        if cons1: cmds.delete( cons1 )
        if cons2: cmds.delete( cons2 )
コード例 #10
0
ファイル: sgBProject_coc.py プロジェクト: jonntd/mayadev-1
def removeUiSeparateView(cam):

    import sgBFunction_attribute
    import sgBFunction_dag

    uiPrefix = 'separatedViewCam_'

    uis = cmds.lsUI(wnd=1)
    for ui in uis:
        if not len(ui) > len(uiPrefix): continue
        if ui[:len(uiPrefix)] != uiPrefix: continue
        cmds.deleteUI(ui, wnd=1)

    if not cmds.objExists(cam): return None

    for cam in cmds.ls(type='camera'):
        if not cmds.objExists(cam): continue
        cam = sgBFunction_dag.getTransform(cam)
        sgBFunction_attribute.addAttr(cam,
                                      ln='filmTranslateCams',
                                      at='message')
        sgBFunction_attribute.addAttr(cam, ln='aniamtionCam', at='message')
        cons1 = cmds.listConnections(cam + '.filmTranslateCams', d=1, s=0)
        cons2 = cmds.listConnections(cam + '.aniamtionCam', d=1, s=0)

        if cons1: cmds.delete(cons1)
        if cons2: cmds.delete(cons2)
コード例 #11
0
ファイル: sgBFunction_curve.py プロジェクト: jonntd/mayadev-1
def duplicateOnlyCurve(curves):

    import sgBFunction_dag
    curves = sgBFunction_dag.getChildrenCurveExists(curves)

    newCurves = []
    for curve in curves:
        curveP = sgBFunction_dag.getParent(curve)
        if curveP:
            newCurveParent = sgBFunction_dag.makeCloneObject(curveP)
        else:
            newCurveParent = None

        newCurveShape = cmds.createNode('nurbsCurve')
        curveShape = sgBFunction_dag.getShape(curve)
        cmds.connectAttr(curveShape + '.local', newCurveShape + '.create')

        newCurve = sgBFunction_dag.getTransform(newCurveShape)
        newCurve = cmds.rename(newCurve, 'du_' + curve.split('|')[-1])
        if newCurveParent:
            newCurve = cmds.parent(newCurve, newCurveParent)[0]
        newCurves.append(newCurve)

    cmds.refresh()

    for i in range(len(newCurves)):
        curveShape = sgBFunction_dag.getShape(curves[i])
        newCurveShape = sgBFunction_dag.getShape(newCurves[i])
        if cmds.isConnected(curveShape + '.local', newCurveShape + '.create'):
            cmds.disconnectAttr(curveShape + '.local',
                                newCurveShape + '.create')

    return newCurves
コード例 #12
0
ファイル: sgBFunction_rivet.py プロジェクト: jonntd/mayadev-1
def createClosestFollicle(trObj, meshObj):

    import sgBFunction_mesh
    import sgBFunction_dag

    trObjPos = cmds.xform(trObj, q=1, ws=1, t=1)
    u, v = sgBFunction_mesh.getUVAtPoint(trObjPos, meshObj)

    follicle = cmds.createNode('follicle')
    follicleObj = sgBFunction_dag.getTransform(follicle)
    cmds.connectAttr(follicle + '.ot', follicleObj + '.t')
    cmds.connectAttr(follicle + '.or', follicleObj + '.r')

    meshShape = sgBFunction_dag.getShape(meshObj)
    cmds.connectAttr(meshShape + '.outMesh', follicle + '.inputMesh')
    cmds.setAttr(follicle + '.parameterU', u)
    cmds.setAttr(follicle + '.parameterV', v)

    return follicleObj
コード例 #13
0
ファイル: sgBFunction_rivet.py プロジェクト: jonntd/mayadev-1
def createClosestFollicle( trObj, meshObj ):
    
    import sgBFunction_mesh
    import sgBFunction_dag
    
    trObjPos = cmds.xform( trObj, q=1, ws=1, t=1 )
    u, v = sgBFunction_mesh.getUVAtPoint( trObjPos, meshObj )
    
    follicle = cmds.createNode( 'follicle' )
    follicleObj = sgBFunction_dag.getTransform( follicle )
    cmds.connectAttr( follicle+'.ot', follicleObj+'.t' )
    cmds.connectAttr( follicle+'.or', follicleObj+'.r' )
    
    meshShape = sgBFunction_dag.getShape( meshObj )
    cmds.connectAttr( meshShape+'.outMesh', follicle+'.inputMesh' )
    cmds.setAttr( follicle+'.parameterU', u )
    cmds.setAttr( follicle+'.parameterV', v )
    
    return follicleObj
コード例 #14
0
ファイル: sgBFunction_curve.py プロジェクト: jonntd/mayadev-1
def setKeyCurves( curves ):
    
    import sgBFunction_dag
    import sgBFunction_attribute
    import math
    
    curves = sgBFunction_dag.getChildrenCurveExists( curves )
    
    currentFrame = str( '%.2f' % cmds.currentTime( q=1 ) ).replace( '.', '_' ).replace( '-', 'm' )
    
    frameGroup = 'keyCurveGroup_%s' % currentFrame
    if not cmds.objExists( frameGroup ):
        cmds.group( em =1, n=frameGroup )
        sgBFunction_attribute.addAttr( frameGroup, ln='frameValue', dt='string' )
        cmds.setAttr( frameGroup+'.frameValue', currentFrame, type='string' )
        
        cmds.setAttr( frameGroup+'.overrideEnabled', 1 )
        cmds.setAttr( frameGroup+'.overrideColor', int( math.fabs( cmds.currentTime( q=1 ) ) )%32 )
        
    
    keyCurves = []
    for curve in curves:
        sgBFunction_attribute.addAttr( curve, ln='keyCurveBase', at='message' )
        cons = cmds.listConnections( curve+'.keyCurveBase', d=1, s=0  )
        if cons:
            targetCurve = None
            for con in cons:
                conP = cmds.listRelatives( con, p=1, f=1 )[0]
                if cmds.getAttr( conP+'.frameValue' ) == currentFrame:
                    targetCurve = con
            if targetCurve:
                keyCurves.append( targetCurve )
                continue
        
        keyCurveShape = cmds.createNode( 'nurbsCurve' )
        curveShape = sgBFunction_dag.getShape( curve )
        cmds.connectAttr( curveShape+'.local', keyCurveShape+'.create' )
        keyCurve = sgBFunction_dag.getTransform( keyCurveShape )
        
        curveName = curve.split( '|' )[-1]
        keyCurve = cmds.rename( keyCurve, curveName+'_'+currentFrame )
        keyCurves.append( keyCurve )
        
        sgBFunction_attribute.addAttr( keyCurve, ln='keyCurve', at='message' )
        cmds.connectAttr( curve+'.keyCurveBase', keyCurve+'.keyCurve' )
    
    cmds.refresh()
    
    for i in range( len( curves ) ):
        baseCurve = sgBFunction_dag.getShape( curves[i] )
        keyCurve  = sgBFunction_dag.getShape( keyCurves[i] )
        if cmds.isConnected( baseCurve+'.local', keyCurve+'.create' ):
            cmds.disconnectAttr( baseCurve+'.local', keyCurve+'.create' )
        try:keyCurves[i] = cmds.parent( keyCurves[i], frameGroup )[0]
        except:continue
    
    targetKeyCurves = []
    for i in range( len( curves ) ):
        baseCurve = curves[i]
        keyCurve  = keyCurves[i]
        if not cmds.attributeQuery( 'mtxObj_forKeyCurve', node=baseCurve, ex=1 ): 
            cmds.delete( keyCurve )
            continue
        mtxObj = cmds.listConnections( baseCurve + '.mtxObj_forKeyCurve', s=1, d=0 )
        if not mtxObj:
            cmds.delete( keyCurve )
            continue
        targetKeyCurves.append( keyCurve )
        setKeyCurve( keyCurve, baseCurve, mtxObj[0] )
    
    return targetKeyCurves
コード例 #15
0
def duplicateShaderToOther(first, second):

    import maya.mel as mel
    import sgBFunction_dag

    if not cmds.objExists(first): return None
    if not cmds.objExists(second): return None

    first = sgBFunction_dag.getTransform(first)
    second = sgBFunction_dag.getTransform(second)
    firstShape = sgBFunction_dag.getShape(first)
    secondShape = sgBFunction_dag.getShape(second)

    engines = cmds.listConnections(firstShape, type='shadingEngine')

    if not engines: return None

    engines = list(set(engines))

    for engine in engines:
        shaders = cmds.listConnections(engine + '.surfaceShader', s=1, d=0)

        engine = cmds.duplicate(engine, n='du_' + engine)[0]

        if shaders:
            shader = shaders[0]

            cmds.hyperShade(objects=shader)
            selObjs = cmds.ls(sl=1, l=1)

            targetObjs = []
            for selObj in selObjs:
                if selObj.find('.') != -1:
                    trNode, components = selObj.split('.')
                    if trNode == first:
                        targetObjs.append(second + '.' + components)
                elif selObj == firstShape:
                    targetObjs.append(secondShape)

            cmds.select(shader)
            mel.eval(
                'hyperShadePanelMenuCommand("hyperShadePanel1", "duplicateShadingNetwork")'
            )
            shader = cmds.ls(sl=1)[0]
            cmds.connectAttr(shader + '.outColor', engine + '.surfaceShader')

        aiShaders = cmds.listConnections(engine + '.aiSurfaceShader', s=1, d=0)

        if aiShaders:
            aiShader = aiShaders[0]

            cmds.hyperShade(objects=aiShader)
            selObjs = cmds.ls(sl=1, l=1)

            cmds.select(aiShader)
            mel.eval(
                'hyperShadePanelMenuCommand("hyperShadePanel1", "duplicateShadingNetwork")'
            )
            aiShader = cmds.ls(sl=1)[0]
            cmds.connectAttr(aiShader + '.outColor',
                             engine + '.aiSurfaceShader')

        for targetObj in targetObjs:
            cmds.sets(targetObj, e=1, forceElement=engine)
コード例 #16
0
ファイル: sgBFunction_curve.py プロジェクト: jonntd/mayadev-1
def setKeyCurves(curves):

    import sgBFunction_dag
    import sgBFunction_attribute
    import math

    curves = sgBFunction_dag.getChildrenCurveExists(curves)

    currentFrame = str('%.2f' % cmds.currentTime(q=1)).replace('.',
                                                               '_').replace(
                                                                   '-', 'm')

    frameGroup = 'keyCurveGroup_%s' % currentFrame
    if not cmds.objExists(frameGroup):
        cmds.group(em=1, n=frameGroup)
        sgBFunction_attribute.addAttr(frameGroup, ln='frameValue', dt='string')
        cmds.setAttr(frameGroup + '.frameValue', currentFrame, type='string')

        cmds.setAttr(frameGroup + '.overrideEnabled', 1)
        cmds.setAttr(frameGroup + '.overrideColor',
                     int(math.fabs(cmds.currentTime(q=1))) % 32)

    keyCurves = []
    for curve in curves:
        sgBFunction_attribute.addAttr(curve, ln='keyCurveBase', at='message')
        cons = cmds.listConnections(curve + '.keyCurveBase', d=1, s=0)
        if cons:
            targetCurve = None
            for con in cons:
                conP = cmds.listRelatives(con, p=1, f=1)[0]
                if cmds.getAttr(conP + '.frameValue') == currentFrame:
                    targetCurve = con
            if targetCurve:
                keyCurves.append(targetCurve)
                continue

        keyCurveShape = cmds.createNode('nurbsCurve')
        curveShape = sgBFunction_dag.getShape(curve)
        cmds.connectAttr(curveShape + '.local', keyCurveShape + '.create')
        keyCurve = sgBFunction_dag.getTransform(keyCurveShape)

        curveName = curve.split('|')[-1]
        keyCurve = cmds.rename(keyCurve, curveName + '_' + currentFrame)
        keyCurves.append(keyCurve)

        sgBFunction_attribute.addAttr(keyCurve, ln='keyCurve', at='message')
        cmds.connectAttr(curve + '.keyCurveBase', keyCurve + '.keyCurve')

    cmds.refresh()

    for i in range(len(curves)):
        baseCurve = sgBFunction_dag.getShape(curves[i])
        keyCurve = sgBFunction_dag.getShape(keyCurves[i])
        if cmds.isConnected(baseCurve + '.local', keyCurve + '.create'):
            cmds.disconnectAttr(baseCurve + '.local', keyCurve + '.create')
        try:
            keyCurves[i] = cmds.parent(keyCurves[i], frameGroup)[0]
        except:
            continue

    targetKeyCurves = []
    for i in range(len(curves)):
        baseCurve = curves[i]
        keyCurve = keyCurves[i]
        if not cmds.attributeQuery('mtxObj_forKeyCurve', node=baseCurve, ex=1):
            cmds.delete(keyCurve)
            continue
        mtxObj = cmds.listConnections(baseCurve + '.mtxObj_forKeyCurve',
                                      s=1,
                                      d=0)
        if not mtxObj:
            cmds.delete(keyCurve)
            continue
        targetKeyCurves.append(keyCurve)
        setKeyCurve(keyCurve, baseCurve, mtxObj[0])

    return targetKeyCurves
コード例 #17
0
ファイル: sgBFunction_rivet.py プロジェクト: jonntd/mayadev-1
def createRivetFromCurves(curves):

    import sgBFunction_dag

    loft = cmds.createNode('loft')
    info = cmds.createNode('pointOnSurfaceInfo')
    fbfm = cmds.createNode('fourByFourMatrix')
    mmdc = cmds.createNode('multMatrixDecompose')
    null = cmds.createNode('transform')
    vp = cmds.createNode('vectorProduct')

    surfShape = cmds.createNode('nurbsSurface')
    surfObj = sgBFunction_dag.getTransform(surfShape)

    for i in range(len(curves)):
        curve = curves[i]
        shape = sgBFunction_dag.getShape(curve)

        srcCons = cmds.listConnections(shape + '.create', p=1, c=1)
        if not srcCons:
            cmds.connectAttr(shape + '.local', loft + '.inputCurve[%d]' % i)
        else:
            cmds.connectAttr(srcCons[1], loft + '.inputCurve[%d]' % i)

    cmds.setAttr(vp + '.operation', 2)
    cmds.setAttr(info + '.top', 1)
    cmds.setAttr(info + '.u', 0.5)
    cmds.setAttr(info + '.v', 0.5)

    cmds.connectAttr(loft + '.outputSurface', info + '.inputSurface')
    cmds.connectAttr(loft + '.outputSurface', surfShape + '.create')

    cmds.connectAttr(info + '.nnx', fbfm + '.i00')
    cmds.connectAttr(info + '.nny', fbfm + '.i01')
    cmds.connectAttr(info + '.nnz', fbfm + '.i02')

    cmds.connectAttr(info + '.nvx', fbfm + '.i10')
    cmds.connectAttr(info + '.nvy', fbfm + '.i11')
    cmds.connectAttr(info + '.nvz', fbfm + '.i12')

    cmds.connectAttr(info + '.nnx', vp + '.input1X')
    cmds.connectAttr(info + '.nny', vp + '.input1Y')
    cmds.connectAttr(info + '.nnz', vp + '.input1Z')

    cmds.connectAttr(info + '.nvx', vp + '.input2X')
    cmds.connectAttr(info + '.nvy', vp + '.input2Y')
    cmds.connectAttr(info + '.nvz', vp + '.input2Z')

    cmds.connectAttr(vp + '.outputX', fbfm + '.i20')
    cmds.connectAttr(vp + '.outputY', fbfm + '.i21')
    cmds.connectAttr(vp + '.outputZ', fbfm + '.i22')

    cmds.connectAttr(info + '.px', fbfm + '.i30')
    cmds.connectAttr(info + '.py', fbfm + '.i31')
    cmds.connectAttr(info + '.pz', fbfm + '.i32')

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

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

    cmds.addAttr(null, ln='parameterU', min=0, max=1, dv=0.5)
    cmds.setAttr(null + '.parameterU', e=1, k=1)
    cmds.addAttr(null, ln='parameterV', min=0, max=1, dv=0.5)
    cmds.setAttr(null + '.parameterV', e=1, k=1)

    cmds.connectAttr(null + '.parameterU', info + '.u')
    cmds.connectAttr(null + '.parameterV', info + '.v')
    cmds.setAttr(null + '.dh', 1)

    cmds.select(null)
    return null, surfObj
コード例 #18
0
ファイル: sgBFunction_rivet.py プロジェクト: jonntd/mayadev-1
def createRivetFromCurves( curves ):
    
    import sgBFunction_dag
    
    loft = cmds.createNode( 'loft' )
    info = cmds.createNode( 'pointOnSurfaceInfo' )
    fbfm = cmds.createNode( 'fourByFourMatrix' )
    mmdc = cmds.createNode( 'multMatrixDecompose' )
    null = cmds.createNode( 'transform' )
    vp   = cmds.createNode( 'vectorProduct' )
    
    surfShape = cmds.createNode( 'nurbsSurface' )
    surfObj   = sgBFunction_dag.getTransform( surfShape )
    
    for i in range( len( curves ) ):
        curve = curves[i]
        shape = sgBFunction_dag.getShape( curve )
        
        srcCons = cmds.listConnections( shape + '.create', p=1, c=1 )
        if not srcCons:
            cmds.connectAttr( shape+'.local', loft+'.inputCurve[%d]' % i )
        else:
            cmds.connectAttr( srcCons[1], loft+'.inputCurve[%d]' % i )
    
    cmds.setAttr( vp+'.operation', 2 )
    cmds.setAttr( info+'.top', 1 )
    cmds.setAttr( info+'.u', 0.5 )
    cmds.setAttr( info+'.v', 0.5 )
    
    cmds.connectAttr( loft + '.outputSurface', info+'.inputSurface' )
    cmds.connectAttr( loft + '.outputSurface', surfShape+'.create' )
    
    cmds.connectAttr( info+'.nnx', fbfm+'.i00' )
    cmds.connectAttr( info+'.nny', fbfm+'.i01' )
    cmds.connectAttr( info+'.nnz', fbfm+'.i02' )
    
    cmds.connectAttr( info+'.nvx', fbfm+'.i10' )
    cmds.connectAttr( info+'.nvy', fbfm+'.i11' )
    cmds.connectAttr( info+'.nvz', fbfm+'.i12' )
    
    cmds.connectAttr( info+'.nnx', vp+'.input1X' )
    cmds.connectAttr( info+'.nny', vp+'.input1Y' )
    cmds.connectAttr( info+'.nnz', vp+'.input1Z' )
    
    cmds.connectAttr( info+'.nvx', vp+'.input2X' )
    cmds.connectAttr( info+'.nvy', vp+'.input2Y' )
    cmds.connectAttr( info+'.nvz', vp+'.input2Z' )
    
    cmds.connectAttr( vp+'.outputX', fbfm+'.i20' )
    cmds.connectAttr( vp+'.outputY', fbfm+'.i21' )
    cmds.connectAttr( vp+'.outputZ', fbfm+'.i22' )
    
    cmds.connectAttr( info+'.px', fbfm+'.i30' )
    cmds.connectAttr( info+'.py', fbfm+'.i31' )
    cmds.connectAttr( info+'.pz', fbfm+'.i32' )
    
    cmds.connectAttr( fbfm+'.output', mmdc+'.i[0]' )
    cmds.connectAttr( null+'.pim',   mmdc+'.i[1]' )
    
    cmds.connectAttr( mmdc+'.ot', null+'.t' )
    cmds.connectAttr( mmdc+'.or', null+'.r' )
    
    cmds.addAttr( null, ln='parameterU', min=0, max=1, dv=0.5 )
    cmds.setAttr( null+'.parameterU', e=1, k=1 )
    cmds.addAttr( null, ln='parameterV', min=0, max=1, dv=0.5 )
    cmds.setAttr( null+'.parameterV', e=1, k=1 )
    
    cmds.connectAttr( null+'.parameterU', info+'.u' )
    cmds.connectAttr( null+'.parameterV', info+'.v' )
    cmds.setAttr( null+'.dh', 1 )
    
    cmds.select( null )
    return null, surfObj