Beispiel #1
0
    def _convertSavitarNodeToUMNode(
            self,
            savitar_node: Savitar.SceneNode,
            file_name: str = "") -> Optional[SceneNode]:
        node_name = savitar_node.getName()
        node_id = savitar_node.getId()
        if node_name == "":
            if file_name != "":
                node_name = os.path.basename(file_name)
            else:
                node_name = "Object {}".format(node_id)

        active_build_plate = CuraApplication.getInstance(
        ).getMultiBuildPlateModel().activeBuildPlate

        um_node = CuraSceneNode()  # This adds a SettingOverrideDecorator
        um_node.addDecorator(BuildPlateDecorator(active_build_plate))
        um_node.setName(node_name)
        um_node.setId(node_id)
        transformation = self._createMatrixFromTransformationString(
            savitar_node.getTransformation())
        um_node.setTransformation(transformation)
        mesh_builder = MeshBuilder()

        data = numpy.fromstring(
            savitar_node.getMeshData().getFlatVerticesAsBytes(),
            dtype=numpy.float32)

        vertices = numpy.resize(data, (int(data.size / 3), 3))
        mesh_builder.setVertices(vertices)
        mesh_builder.calculateNormals(fast=True)
        if file_name:
            # The filename is used to give the user the option to reload the file if it is changed on disk
            # It is only set for the root node of the 3mf file
            mesh_builder.setFileName(file_name)
        mesh_data = mesh_builder.build()

        if len(mesh_data.getVertices()):
            um_node.setMeshData(mesh_data)

        for child in savitar_node.getChildren():
            child_node = self._convertSavitarNodeToUMNode(child)
            if child_node:
                um_node.addChild(child_node)

        if um_node.getMeshData() is None and len(um_node.getChildren()) == 0:
            return None

        settings = savitar_node.getSettings()

        # Add the setting override decorator, so we can add settings to this node.
        if settings:
            global_container_stack = CuraApplication.getInstance(
            ).getGlobalContainerStack()

            # Ensure the correct next container for the SettingOverride decorator is set.
            if global_container_stack:
                default_stack = ExtruderManager.getInstance().getExtruderStack(
                    0)

                if default_stack:
                    um_node.callDecoration("setActiveExtruder",
                                           default_stack.getId())

                # Get the definition & set it
                definition_id = ContainerTree.getInstance().machines[
                    global_container_stack.definition.getId(
                    )].quality_definition
                um_node.callDecoration("getStack").getTop().setDefinition(
                    definition_id)

            setting_container = um_node.callDecoration("getStack").getTop()

            for key in settings:
                setting_value = settings[key]

                # Extruder_nr is a special case.
                if key == "extruder_nr":
                    extruder_stack = ExtruderManager.getInstance(
                    ).getExtruderStack(int(setting_value))
                    if extruder_stack:
                        um_node.callDecoration("setActiveExtruder",
                                               extruder_stack.getId())
                    else:
                        Logger.log("w",
                                   "Unable to find extruder in position %s",
                                   setting_value)
                    continue
                setting_container.setProperty(key, "value", setting_value)

        if len(um_node.getChildren()) > 0 and um_node.getMeshData() is None:
            group_decorator = GroupDecorator()
            um_node.addDecorator(group_decorator)
        um_node.setSelectable(True)
        if um_node.getMeshData():
            # Assuming that all nodes with mesh data are printable objects
            # affects (auto) slicing
            sliceable_decorator = SliceableObjectDecorator()
            um_node.addDecorator(sliceable_decorator)
        return um_node
Beispiel #2
0
    def _convertSavitarNodeToUMNode(
            self,
            savitar_node: Savitar.SceneNode,
            file_name: str = "") -> Optional[SceneNode]:
        """Convenience function that converts a SceneNode object (as obtained from libSavitar) to a scene node.

        :returns: Scene node.
        """
        try:
            node_name = savitar_node.getName()
            node_id = savitar_node.getId()
        except AttributeError:
            Logger.log(
                "e",
                "Outdated version of libSavitar detected! Please update to the newest version!"
            )
            node_name = ""
            node_id = ""

        if node_name == "":
            if file_name != "":
                node_name = os.path.basename(file_name)
            else:
                node_name = "Object {}".format(node_id)

        active_build_plate = CuraApplication.getInstance(
        ).getMultiBuildPlateModel().activeBuildPlate

        um_node = CuraSceneNode()  # This adds a SettingOverrideDecorator
        um_node.addDecorator(BuildPlateDecorator(active_build_plate))
        try:
            um_node.addDecorator(ConvexHullDecorator())
        except:
            pass
        um_node.setName(node_name)
        um_node.setId(node_id)
        transformation = self._createMatrixFromTransformationString(
            savitar_node.getTransformation())
        um_node.setTransformation(transformation)
        mesh_builder = MeshBuilder()

        data = numpy.fromstring(
            savitar_node.getMeshData().getFlatVerticesAsBytes(),
            dtype=numpy.float32)

        vertices = numpy.resize(data, (int(data.size / 3), 3))
        mesh_builder.setVertices(vertices)
        mesh_builder.calculateNormals(fast=True)
        if file_name:
            # The filename is used to give the user the option to reload the file if it is changed on disk
            # It is only set for the root node of the 3mf file
            mesh_builder.setFileName(file_name)
        mesh_data = mesh_builder.build()

        if len(mesh_data.getVertices()):
            um_node.setMeshData(mesh_data)

        for child in savitar_node.getChildren():
            child_node = self._convertSavitarNodeToUMNode(child)
            if child_node:
                um_node.addChild(child_node)

        if um_node.getMeshData() is None and len(um_node.getChildren()) == 0:
            return None

        settings = savitar_node.getSettings()

        # Add the setting override decorator, so we can add settings to this node.
        if settings:
            global_container_stack = CuraApplication.getInstance(
            ).getGlobalContainerStack()

            # Ensure the correct next container for the SettingOverride decorator is set.
            if global_container_stack:
                default_stack = ExtruderManager.getInstance().getExtruderStack(
                    0)

                if default_stack:
                    um_node.callDecoration("setActiveExtruder",
                                           default_stack.getId())

                # Get the definition & set it
                definition_id = ContainerTree.getInstance().machines[
                    global_container_stack.definition.getId(
                    )].quality_definition
                um_node.callDecoration("getStack").getTop().setDefinition(
                    definition_id)

            setting_container = um_node.callDecoration("getStack").getTop()
            known_setting_keys = um_node.callDecoration(
                "getStack").getAllKeys()
            for key in settings:
                setting_value = settings[key].value

                # Extruder_nr is a special case.
                if key == "extruder_nr":
                    extruder_stack = ExtruderManager.getInstance(
                    ).getExtruderStack(int(setting_value))
                    if extruder_stack:
                        um_node.callDecoration("setActiveExtruder",
                                               extruder_stack.getId())
                    else:
                        Logger.log("w",
                                   "Unable to find extruder in position %s",
                                   setting_value)
                    continue
                if key in known_setting_keys:
                    setting_container.setProperty(key, "value", setting_value)
                else:
                    um_node.metadata[key] = settings[key]

        if len(um_node.getChildren()) > 0 and um_node.getMeshData() is None:
            if len(um_node.getAllChildren()) == 1:
                # We don't want groups of one, so move the node up one "level"
                child_node = um_node.getChildren()[0]
                parent_transformation = um_node.getLocalTransformation()
                child_transformation = child_node.getLocalTransformation()
                child_node.setTransformation(
                    parent_transformation.multiply(child_transformation))
                um_node = cast(CuraSceneNode, um_node.getChildren()[0])
            else:
                group_decorator = GroupDecorator()
                um_node.addDecorator(group_decorator)
        um_node.setSelectable(True)
        if um_node.getMeshData():
            # Assuming that all nodes with mesh data are printable objects
            # affects (auto) slicing
            sliceable_decorator = SliceableObjectDecorator()
            um_node.addDecorator(sliceable_decorator)
        return um_node
Beispiel #3
0
    def _convertSavitarNodeToUMNode(self, savitar_node: Savitar.SceneNode) -> Optional[SceneNode]:
        self._object_count += 1
        node_name = "Object %s" % self._object_count

        active_build_plate = CuraApplication.getInstance().getMultiBuildPlateModel().activeBuildPlate

        um_node = CuraSceneNode() # This adds a SettingOverrideDecorator
        um_node.addDecorator(BuildPlateDecorator(active_build_plate))
        um_node.setName(node_name)
        transformation = self._createMatrixFromTransformationString(savitar_node.getTransformation())
        um_node.setTransformation(transformation)
        mesh_builder = MeshBuilder()

        data = numpy.fromstring(savitar_node.getMeshData().getFlatVerticesAsBytes(), dtype=numpy.float32)

        vertices = numpy.resize(data, (int(data.size / 3), 3))
        mesh_builder.setVertices(vertices)
        mesh_builder.calculateNormals(fast=True)
        mesh_data = mesh_builder.build()

        if len(mesh_data.getVertices()):
            um_node.setMeshData(mesh_data)

        for child in savitar_node.getChildren():
            child_node = self._convertSavitarNodeToUMNode(child)
            if child_node:
                um_node.addChild(child_node)

        if um_node.getMeshData() is None and len(um_node.getChildren()) == 0:
            return None

        settings = savitar_node.getSettings()

        # Add the setting override decorator, so we can add settings to this node.
        if settings:
            global_container_stack = CuraApplication.getInstance().getGlobalContainerStack()

            # Ensure the correct next container for the SettingOverride decorator is set.
            if global_container_stack:
                default_stack = ExtruderManager.getInstance().getExtruderStack(0)

                if default_stack:
                    um_node.callDecoration("setActiveExtruder", default_stack.getId())

                # Get the definition & set it
                definition_id = getMachineDefinitionIDForQualitySearch(global_container_stack.definition)
                um_node.callDecoration("getStack").getTop().setDefinition(definition_id)

            setting_container = um_node.callDecoration("getStack").getTop()

            for key in settings:
                setting_value = settings[key]

                # Extruder_nr is a special case.
                if key == "extruder_nr":
                    extruder_stack = ExtruderManager.getInstance().getExtruderStack(int(setting_value))
                    if extruder_stack:
                        um_node.callDecoration("setActiveExtruder", extruder_stack.getId())
                    else:
                        Logger.log("w", "Unable to find extruder in position %s", setting_value)
                    continue
                setting_container.setProperty(key, "value", setting_value)

        if len(um_node.getChildren()) > 0 and um_node.getMeshData() is None:
            group_decorator = GroupDecorator()
            um_node.addDecorator(group_decorator)
        um_node.setSelectable(True)
        if um_node.getMeshData():
            # Assuming that all nodes with mesh data are printable objects
            # affects (auto) slicing
            sliceable_decorator = SliceableObjectDecorator()
            um_node.addDecorator(sliceable_decorator)
        return um_node