def execute(self, **kwargs):
        shapes = getObjects(selection(), types=[Shape])

        if len(shapes) > 0:
            optype = kwargs["mode"] if "mode" in kwargs.keys(
            ) else self.from_action_menu

            if optype == "copy":
                self.savedkeys = {}  ## start with fresh dict

            beginUndo("KMFX Shape Keyframe Paste")
            actualframe = player.frame

            for shape in shapes:
                path = shape.property("path")
                if optype == "copy":
                    self.savedkeys[shape.id] = path.getValue(actualframe)
                elif optype == "paste":
                    if shape.id in self.savedkeys.keys():
                        path.setValue(self.savedkeys[shape.id], actualframe)

            if optype == "paste":
                status("KMFX: pasted select shapes keyframes")
            else:
                status("KMFX: copied select shapes keyframes")

            #alternating the actions if run from action menu
            # self.from_action_menu = "paste" if self.from_action_menu == "copy" else "copy"
            endUndo()
        else:
            status("KMFX: no shapes selected")
 def available(self):
     node = activeNode()
     session = activeSession()
     assert session, "Select a Session"
     rotoNode = session.node(type="RotoNode")
     assert rotoNode, "The session does not contain a Roto Node"
     shapes = getObjects(selection())
     assert len(shapes) > 0, "There must be one or more selected shapes/layers"
    def execute(self, **kwargs):
        shapes = getObjects(selection(), types=[Shape])

        if len(shapes) > 0:
            fx.actions["KMFXcopyShapeKeyframe"].execute(**{"mode": "paste"})

        else:
            status("KMFX: no shapes selected")
Exemple #4
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    def execute(self, **kwargs):
        beginUndo("KMFX move shape")
        node = activeNode()
        session = node.session
        session_size = session.size
        shapes = getObjects(selection(), types=[Shape])

        optype = kwargs["mode"] if "mode" in kwargs.keys() else "TL"

        multiplier = kwargs["modifier"] if "modifier" in kwargs.keys(
        ) else fx.prefs["nudging.distance"]

        if multiplier == "shift":
            multiplier = fx.prefs["nudging.extendedDistance"]
        elif multiplier == "ctrl":
            multiplier = fx.prefs["nudging.ctrlDistance"]

        mx = {
            "L": -1,
            "T": 0,
            "R": 1,
            "B": 0,
            "BL": -1,
            "TL": -1,
            "TR": 1,
            "BR": 1
        }
        my = {
            "L": 0,
            "T": -1,
            "R": 0,
            "B": 1,
            "BL": 1,
            "TL": -1,
            "TR": -1,
            "BR": 1
        }

        actualframe = player.frame
        for shape in shapes:
            selectedpoints = False if fx.viewer.toolName != "Reshape" else True
            pathProp = shape.property("path")
            pathEditor = PropertyEditor(pathProp)
            path = shape.evalPath(actualframe)
            matrix = Matrix()
            matrix.translate(
                1 / session.size[0] / fx.viewer.zoom * mx[optype] * multiplier,
                1 / session.size[1] / fx.viewer.zoom * my[optype] * multiplier)
            path.transform(matrix, selected=selectedpoints)
            pathEditor.setValue(path, actualframe)
            pathEditor.execute()

        endUndo()
Exemple #5
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	def execute(self,**kwargs):
		shapes = getObjects(selection(), types=[Shape])
		optype= kwargs["mode"] if "mode" in kwargs.keys() else "default"

	
		beginUndo("Keyframe Visibility ON/OFF") 
		node = activeNode()
		session = node.session
		startFrame = session.startFrame

		actualframe = player.frame
		wasConstant = False
		for shape in shapes:			
			opacity = shape.property("opacity")
			if opacity.constant:
				opacity.constant = False		
				wasConstant = True
				
			if optype == "default":	
				if opacity.getValue(actualframe) > 0:
					opacity.setValue(0, actualframe)
				else:
					opacity.setValue(100, actualframe)
				if wasConstant and actualframe != 0:
					editor = PropertyEditor(opacity)				
					editor.deleteKey(0)
					editor.execute()
						
			if optype == "singleframe":
				if actualframe not in (0,session.duration):
					if opacity.getValue(actualframe) > 0:
						opacity.setValue(0, actualframe-1)
						opacity.setValue(100, actualframe)
						opacity.setValue(0, actualframe+1)
						if actualframe != 1 and wasConstant:
							editor = PropertyEditor(opacity)				
							editor.deleteKey(0)
							editor.execute()
				elif actualframe == 0:
					if opacity.getValue(actualframe) > 0:
						opacity.setValue(100, actualframe)
						opacity.setValue(0, actualframe+1)
				elif actualframe == session.duration:
					if opacity.getValue(actualframe) > 0:
						opacity.setValue(0, actualframe-1)
						opacity.setValue(100, actualframe)
						editor = PropertyEditor(opacity)				
						editor.deleteKey(0)
						editor.execute()


		endUndo()
Exemple #6
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    def execute(self):
        if fx.selection() == []:
            displayError("KMFXNode Time Offset: Select some nodes",
                         title="Error")
            return

        num = {"id": "num", "label": "Frames to offset", "value": 0}
        direction = {
            "id": "list",
            "label": "Direction",
            "value": "Head",
            "items": ["Head", "Tail"]
        }

        fields = [num, direction]
        result = getInput(title="Offset Node Keyframes", fields=fields)

        if result != None:
            fx.beginUndo("KMFX Node time offset")

            offset = result['num'] * -1 if result[
                "list"] == "Head" else result['num']

            nodes = fx.selection()
            for node in nodes:
                if node.isType("PaintNode"):
                    pass  ## cant change paint nodes at this time

                elif node.type in ["RotoNode", "MorphNode"]:
                    child = node.children
                    objects = getObjects(child)
                    selectedlist = []  ## selection is just to refresh timeline

                    for o in objects:
                        if o.selected == True:
                            selectedlist.append(o)

                        for p in o.properties:
                            if o.property(p).constant != True:
                                o.property(p).moveKeys(offset)

                ### this is for all nodes properties

                for p in node.properties:
                    if node.property(p).constant != True:
                        node.property(p).moveKeys(offset)
                x = fx.selection()
                fx.select([])
                fx.select(x)

            fx.endUndo()
Exemple #7
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    def execute(self, deletekeys=True, propertiesList=["opacity"]):
        beginUndo("KMFX Clone Shapes in Place")
        shapes = getObjects(selection(), types=[Shape])
        activelayer = activeLayer()

        if activelayer != None:
            thisframe_matrix = activelayer.getTransform(player.frame)
        else:  ##shape is on the root of the node
            thisframe_matrix = Matrix()
            activelayer = activeNode()

        selectionlist = []
        avoid_duplicates = []
        for shape in shapes:
            # if shape.parent != activelayer and shape not in avoid_duplicates:
            if shape not in avoid_duplicates:
                copy = shape.clone()
                activelayer.property("objects").addObjects([copy])
                pathProp = copy.property("path")
                pathEditor = PropertyEditor(pathProp)
                path = copy.evalPath(player.frame)
                if shape.parent.type == "Layer":
                    identity = Matrix()
                    reverseparent = shape.parent.getTransform(player.frame)
                    offset_matrix = -thisframe_matrix * reverseparent
                    path.transform(offset_matrix)
                elif shape.parent.type == "RotoNode":
                    identity = Matrix()
                    reverseparent = identity
                    offset_matrix = -thisframe_matrix * reverseparent
                    path.transform(offset_matrix)

                pathEditor.setValue(path, player.frame)
                keysn = pathProp.numKeys
                keys = pathProp.keys
                for t in reversed(range(keysn)):
                    if keys[t] != player.frame:
                        pathEditor.deleteKey(t)
                pathEditor.execute()

                if deletekeys:
                    remove_keys(copy, propertiesList)

                selectionlist.append(copy)
                avoid_duplicates.append(shape)
        select(selectionlist)
        endUndo()
def doExport(self, path):

	sel = selection()
	if len(sel) == 0:
		status("Select some shapes before trying to export!")
	else:
		if not os.path.exists(path):
			print "\nWARNING\n**************\nExportNukeShapes Script: The path does not exists, set it correctly on the script"

		path = os.path.abspath(path)

		# get the "Nuke 6.2+" module
		module = io_modules["Nuke 6.2+ Shapes"]
		shapes = getObjects(selection(), types=[Shape])
		self.counter += 1
		name = "sfx_shapes" + str(self.counter)#"s.label
		ext = ".nk"
		shapePath = os.path.join(path, name + ext)
		module.export(shapePath)
		status("Nuke 6.2+ Shapes exported to " + path)
Exemple #9
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 def available(self):
     shapes = getObjects(selection(), types=[Shape])
     assert len(shapes) > 0, "There must be one or more selected shapes"