Ejemplo n.º 1
0
            def find_results_roots():

                for i in range(len(result_list)):
                    if mxs.isValidNode(result_list[i].parent) == False or mxs.isValidNode(result_list[i].parent) and \
                            result_list[i].parent not in result_list:
                        # print(f"#{i} - Search root", result_list[i].name)
                        results_roots.append(result_list[i])
Ejemplo n.º 2
0
 def convertList_Name2Node(self, nameList):
     nodeList = []
     for nm in nameList:
         nd = rt.getNodeByName(nm)
         if rt.isValidNode(nd):
             nodeList.append(nd)
     return nodeList
Ejemplo n.º 3
0
 def find_node_in_chain():
     for i in range(len(out_of_groups)):
         if mxs.isValidNode(
                 out_of_groups[i].parent
         ) == True or out_of_groups[i].children.count != 0:
             nodes_in_chain.append(out_of_groups[i])
             result_list.append(out_of_groups[i])
Ejemplo n.º 4
0
            def find_independent_nodes():

                for i in range(len(out_of_groups)):
                    if mxs.isValidNode(
                            out_of_groups[i].parent
                    ) == False and out_of_groups[i].children.count == 0:
                        independent_nodes.append(nodes[i])
                        result_list.append(nodes[i])
Ejemplo n.º 5
0
            def find_head_roots():

                for i in range(len(group_heads)):
                    if mxs.isValidNode(group_heads[i].parent
                                       ) == False or mxs.isGroupMember(
                                           group_heads[i]) == False:
                        head_root.append(group_heads[i])
                        result_list.append(group_heads[i])
Ejemplo n.º 6
0
def node_exists(node):
    """
    Returns whether given object exists or not
    :return: bool
    """

    node = node_utils.get_pymxs_node(node)
    return rt.isValidNode(node)
Ejemplo n.º 7
0
    def old_recreate(self):
        with pymxs.undo(True):

            if len(self.result) > 0:
                self.newNodes = []
                self.dict = {}
                temp = mxs.Array()
                lastNode = None
                index = 0

                rootNode = mxs.point()
                rootNode.size = 2
                rootNode.showlinks = True
                rootNode.Box = True
                rootNode.cross = False
                rootNode.axistripod = False
                rootNode.centermarker = False
                mxs.join(temp, rootNode)

            def create_constraints(node, nNode):

                # Position
                sub = mxs.getSubAnim(nNode, 3)
                secsub = mxs.getSubAnim(sub, 1)
                secsub.controller = mxs.Position_List()
                posCtrl = mxs.Position_Constraint()
                thirdsub = mxs.getSubAnim(secsub, 2)
                thirdsub.controller = posCtrl
                posConstraintInterface = posCtrl.constraints
                posConstraintInterface.appendTarget(node, 100)

                # Rotation
                sub = mxs.getSubAnim(nNode, 3)
                secsub = mxs.getSubAnim(sub, 2)
                secsub.controller = mxs.rotation_list()
                posCtrl = mxs.Orientation_Constraint()
                thirdsub = mxs.getSubAnim(secsub, 2)
                thirdsub.controller = posCtrl
                posConstraintInterface = posCtrl.constraints
                posConstraintInterface.appendTarget(node, 100)

            for i in self.result:
                # Create new nodes and add them to list and dict
                nNode = mxs.point()
                nNode.showlinks = True
                nNode.size = 2
                nNode.transform = i.transform
                nNode.name = i.name
                nNode.wireColor = i.wireColor
                self.dict[i] = nNode
                self.newNodes.append(i)

                # Create parent connections
                if mxs.isValidNode(i.parent):
                    nNode.parent = self.dict[i.parent]

                else:
                    nNode.parent = rootNode

                # Create Constraints
                create_constraints(i, nNode)

                # final part
                mxs.join(temp, nNode)
                lastNode = nNode
                index += 1

            mxs.select(temp)

        mxs.redrawViews()
Ejemplo n.º 8
0
    def recreate(self):
        defaultSize = 2
        bones = mxs.Array()

        if len(self.result) > 0:
            self.newNodes = []
            self.dict = {}
            temp = mxs.Array()
            lastNode = None
            index = 0

            rootNode = mxs.BoneSys.createBone(mxs.point3(0, 0, 0),
                                              mxs.point3(0, 1, 0),
                                              mxs.point3(0, 1, 0))
            rootNode.transform = mxs.Matrix3(1)
            rootNode.size = 2
            rootNode.name = "rootBone"
            mxs.join(temp, rootNode)

        def new_create_constraints(node, nNode):

            posList = mxs.position_list()  # Create Pos_List
            const = mxs.Position_Constraint()  # Create  Pos_Constraint
            const.appendTarget(nNode, 100)  # Add target to Constraint
            secsub = mxs.setPropertyController(node.controller, "Position",
                                               posList)  # Add PosList to node
            mxs.setPropertyController(secsub, 'Available', const)

            posList = mxs.rotation_list()  # Create Pos_List
            const = mxs.Orientation_Constraint()  # Create  Pos_Constraint
            const.appendTarget(nNode, 100)  # Add target to Constraint
            secsub = mxs.setPropertyController(node.controller, "Rotation",
                                               posList)  # Add PosList to node
            mxs.setPropertyController(secsub, 'Available', const)

        def create_constraints(nNode, node):
            # Position
            posList = mxs.position_list()  # Create Pos_List
            const = mxs.Position_Constraint()  # Create  Pos_Constraint
            const.appendTarget(nNode, 100)  # Add target to Constraint
            secsub = mxs.setPropertyController(node.controller, "Position",
                                               posList)  # Add PosList to node
            mxs.setPropertyController(secsub, 'Available', const)

            # Rotation
            posList = mxs.rotation_list()  # Create Pos_List
            const = mxs.Orientation_Constraint()  # Create  Pos_Constraint
            const.appendTarget(nNode, 100)  # Add target to Constraint
            secsub = mxs.setPropertyController(node.controller, "Rotation",
                                               posList)  # Add PosList to node
            mxs.setPropertyController(secsub, 'Available', const)

        for obj in self.result:
            endPos = mxs.point3(0, 0, 0)

            if obj.children.count > 0:
                endPos = obj.children[0].transform.pos

            else:
                endPos = (mxs.transmatrix(mxs.point3(defaultSize, 0, 0)) *
                          obj.transform).pos

            zPos = (mxs.transmatrix(mxs.point3(0, 0, 1)) * obj.transform).pos
            d = mxs.BoneSys.createBone(obj.transform.pos, endPos, zPos)
            d.transform = obj.transform
            d.name = obj.name
            d.wirecolor = obj.wirecolor
            mxs.join(bones, d)
            self.dict[obj] = d
            self.newNodes.append(obj)

            # Create parent connections
            if mxs.isValidNode(obj.parent):
                d.parent = self.dict[obj.parent]

            else:
                d.parent = rootNode

            create_constraints(obj, d)

        mxs.select(bones)
        mxs.selectmore(rootNode)
        mxs.redrawViews()