123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230231232233234235236237238239240241242243244245246247248249250251252253254255256257258259260261262263264265266267268269270271272273274275276277278279280281282283284285286287288289290291292293294295296297298299300301302303304305306307308309310311312313314315316317318319320321322323324325326327328329330331332333334335336337338339340341342343344345346347348349350351352353354355356357358359360361362363364365366367368369370371372373374375376377378379380381382383384385386387388389390391392393394395396397398399400401402403404405406407408409410411412413414415416417418419420421422423424425426427428429430431432433434435436437438439440441442443444445446447448449450451452453454455456457458459460461462463464465466467468469470471472473474475476477478479480481482483484485486487488489490491492493494495496497498499500501502503504505 |
- # Copyright (c) 2020 Ultimaker B.V.
- # Cura is released under the terms of the LGPLv3 or higher.
- from PyQt5.QtCore import QTimer
- from UM.Application import Application
- from UM.Math.Polygon import Polygon
- from UM.Scene.SceneNodeDecorator import SceneNodeDecorator
- from UM.Settings.ContainerRegistry import ContainerRegistry
- from cura.Settings.ExtruderManager import ExtruderManager
- from cura.Scene import ConvexHullNode
- import numpy
- from typing import TYPE_CHECKING, Any, Optional
- if TYPE_CHECKING:
- from UM.Scene.SceneNode import SceneNode
- from cura.Settings.GlobalStack import GlobalStack
- from UM.Mesh.MeshData import MeshData
- from UM.Math.Matrix import Matrix
- class ConvexHullDecorator(SceneNodeDecorator):
- """The convex hull decorator is a scene node decorator that adds the convex hull functionality to a scene node.
- If a scene node has a convex hull decorator, it will have a shadow in which other objects can not be printed.
- """
- def __init__(self) -> None:
- super().__init__()
- self._convex_hull_node = None # type: Optional["SceneNode"]
- self._init2DConvexHullCache()
- self._global_stack = None # type: Optional[GlobalStack]
- # Make sure the timer is created on the main thread
- self._recompute_convex_hull_timer = None # type: Optional[QTimer]
- self._timer_scheduled_to_be_created = False
- from cura.CuraApplication import CuraApplication
- if CuraApplication.getInstance() is not None:
- self._timer_scheduled_to_be_created = True
- CuraApplication.getInstance().callLater(self.createRecomputeConvexHullTimer)
- self._raft_thickness = 0.0
- self._build_volume = CuraApplication.getInstance().getBuildVolume()
- self._build_volume.raftThicknessChanged.connect(self._onChanged)
- CuraApplication.getInstance().globalContainerStackChanged.connect(self._onGlobalStackChanged)
- controller = CuraApplication.getInstance().getController()
- controller.toolOperationStarted.connect(self._onChanged)
- controller.toolOperationStopped.connect(self._onChanged)
- #CuraApplication.getInstance().sceneBoundingBoxChanged.connect(self._onChanged)
- self._root = Application.getInstance().getController().getScene().getRoot()
- self._onGlobalStackChanged()
- def createRecomputeConvexHullTimer(self) -> None:
- self._recompute_convex_hull_timer = QTimer()
- self._recompute_convex_hull_timer.setInterval(200)
- self._recompute_convex_hull_timer.setSingleShot(True)
- self._recompute_convex_hull_timer.timeout.connect(self.recomputeConvexHull)
- def setNode(self, node: "SceneNode") -> None:
- previous_node = self._node
- # Disconnect from previous node signals
- if previous_node is not None and node is not previous_node:
- previous_node.boundingBoxChanged.disconnect(self._onChanged)
- super().setNode(node)
- node.boundingBoxChanged.connect(self._onChanged)
- per_object_stack = node.callDecoration("getStack")
- if per_object_stack:
- per_object_stack.propertyChanged.connect(self._onSettingValueChanged)
- self._onChanged()
- def __deepcopy__(self, memo):
- """Force that a new (empty) object is created upon copy."""
- return ConvexHullDecorator()
- def getAdhesionArea(self) -> Optional[Polygon]:
- """The polygon representing the 2D adhesion area.
- If no adhesion is used, the regular convex hull is returned
- """
- if self._node is None:
- return None
- hull = self._compute2DConvexHull()
- if hull is None:
- return None
- return self._add2DAdhesionMargin(hull)
- def getConvexHull(self) -> Optional[Polygon]:
- """Get the unmodified 2D projected convex hull of the node (if any)
- In case of one-at-a-time, this includes adhesion and head+fans clearance
- """
- if self._node is None:
- return None
- if self._node.callDecoration("isNonPrintingMesh"):
- return None
- # Parent can be None if node is just loaded.
- if self._isSingularOneAtATimeNode():
- hull = self.getConvexHullHeadFull()
- if hull is None:
- return None
- hull = self._add2DAdhesionMargin(hull)
- return hull
- return self._compute2DConvexHull()
- def getConvexHullHeadFull(self) -> Optional[Polygon]:
- """For one at the time this is the convex hull of the node with the full head size
- In case of printing all at once this is None.
- """
- if self._node is None:
- return None
- if self._isSingularOneAtATimeNode():
- return self._compute2DConvexHeadFull()
- return None
- @staticmethod
- def hasGroupAsParent(node: "SceneNode") -> bool:
- parent = node.getParent()
- if parent is None:
- return False
- return bool(parent.callDecoration("isGroup"))
- def getConvexHullHead(self) -> Optional[Polygon]:
- """Get convex hull of the object + head size
- In case of printing all at once this is None.
- For one at the time this is area with intersection of mirrored head
- """
- if self._node is None:
- return None
- if self._node.callDecoration("isNonPrintingMesh"):
- return None
- if self._isSingularOneAtATimeNode():
- head_with_fans = self._compute2DConvexHeadMin()
- if head_with_fans is None:
- return None
- head_with_fans_with_adhesion_margin = self._add2DAdhesionMargin(head_with_fans)
- return head_with_fans_with_adhesion_margin
- return None
- def getConvexHullBoundary(self) -> Optional[Polygon]:
- """Get convex hull of the node
- In case of printing all at once this None??
- For one at the time this is the area without the head.
- """
- if self._node is None:
- return None
- if self._node.callDecoration("isNonPrintingMesh"):
- return None
- if self._isSingularOneAtATimeNode():
- # Printing one at a time and it's not an object in a group
- return self._compute2DConvexHull()
- return None
- def getPrintingArea(self) -> Optional[Polygon]:
- """Get the buildplate polygon where will be printed
- In case of printing all at once this is the same as convex hull (no individual adhesion)
- For one at the time this includes the adhesion area
- """
- if self._isSingularOneAtATimeNode():
- # In one-at-a-time mode, every printed object gets it's own adhesion
- printing_area = self.getAdhesionArea()
- else:
- printing_area = self.getConvexHull()
- return printing_area
- def recomputeConvexHullDelayed(self) -> None:
- """The same as recomputeConvexHull, but using a timer if it was set."""
- if self._recompute_convex_hull_timer is not None:
- self._recompute_convex_hull_timer.start()
- else:
- from cura.CuraApplication import CuraApplication
- if not self._timer_scheduled_to_be_created:
- # The timer is not created and we never scheduled it. Time to create it now!
- CuraApplication.getInstance().callLater(self.createRecomputeConvexHullTimer)
- # Now we know for sure that the timer has been scheduled for creation, so we can try this again.
- CuraApplication.getInstance().callLater(self.recomputeConvexHullDelayed)
- def recomputeConvexHull(self) -> None:
- if self._node is None or not self.__isDescendant(self._root, self._node):
- if self._convex_hull_node:
- # Convex hull node still exists, but the node is removed or no longer in the scene.
- self._convex_hull_node.setParent(None)
- self._convex_hull_node = None
- return
- if self._convex_hull_node:
- self._convex_hull_node.setParent(None)
- hull_node = ConvexHullNode.ConvexHullNode(self._node, self.getPrintingArea(), self._raft_thickness, self._root)
- self._convex_hull_node = hull_node
- def _onSettingValueChanged(self, key: str, property_name: str) -> None:
- if property_name != "value": # Not the value that was changed.
- return
- if key in self._affected_settings:
- self._onChanged()
- if key in self._influencing_settings:
- self._init2DConvexHullCache() # Invalidate the cache.
- self._onChanged()
- def _init2DConvexHullCache(self) -> None:
- # Cache for the group code path in _compute2DConvexHull()
- self._2d_convex_hull_group_child_polygon = None # type: Optional[Polygon]
- self._2d_convex_hull_group_result = None # type: Optional[Polygon]
- # Cache for the mesh code path in _compute2DConvexHull()
- self._2d_convex_hull_mesh = None # type: Optional[MeshData]
- self._2d_convex_hull_mesh_world_transform = None # type: Optional[Matrix]
- self._2d_convex_hull_mesh_result = None # type: Optional[Polygon]
- def _compute2DConvexHull(self) -> Optional[Polygon]:
- if self._node is None:
- return None
- if self._node.callDecoration("isGroup"):
- points = numpy.zeros((0, 2), dtype = numpy.int32)
- for child in self._node.getChildren():
- child_hull = child.callDecoration("_compute2DConvexHull")
- if child_hull:
- try:
- points = numpy.append(points, child_hull.getPoints(), axis = 0)
- except ValueError:
- pass
- if points.size < 3:
- return None
- child_polygon = Polygon(points)
- # Check the cache
- if child_polygon == self._2d_convex_hull_group_child_polygon:
- return self._2d_convex_hull_group_result
- convex_hull = child_polygon.getConvexHull() #First calculate the normal convex hull around the points.
- offset_hull = self._offsetHull(convex_hull) #Then apply the offset from the settings.
- # Store the result in the cache
- self._2d_convex_hull_group_child_polygon = child_polygon
- self._2d_convex_hull_group_result = offset_hull
- return offset_hull
- else:
- convex_hull = Polygon([])
- offset_hull = Polygon([])
- mesh = self._node.getMeshData()
- if mesh is None:
- return Polygon([]) # Node has no mesh data, so just return an empty Polygon.
- world_transform = self._node.getWorldTransformation(copy = True)
- # Check the cache
- if mesh is self._2d_convex_hull_mesh and world_transform == self._2d_convex_hull_mesh_world_transform:
- return self._offsetHull(self._2d_convex_hull_mesh_result)
- vertex_data = mesh.getConvexHullTransformedVertices(world_transform)
- # Don't use data below 0.
- # TODO; We need a better check for this as this gives poor results for meshes with long edges.
- # Do not throw away vertices: the convex hull may be too small and objects can collide.
- # vertex_data = vertex_data[vertex_data[:,1] >= -0.01]
- if vertex_data is not None and len(vertex_data) >= 4: # type: ignore # mypy and numpy don't play along well just yet.
- # Round the vertex data to 1/10th of a mm, then remove all duplicate vertices
- # This is done to greatly speed up further convex hull calculations as the convex hull
- # becomes much less complex when dealing with highly detailed models.
- vertex_data = numpy.round(vertex_data, 1)
- vertex_data = vertex_data[:, [0, 2]] # Drop the Y components to project to 2D.
- # Grab the set of unique points.
- #
- # This basically finds the unique rows in the array by treating them as opaque groups of bytes
- # which are as long as the 2 float64s in each row, and giving this view to numpy.unique() to munch.
- # See http://stackoverflow.com/questions/16970982/find-unique-rows-in-numpy-array
- vertex_byte_view = numpy.ascontiguousarray(vertex_data).view(
- numpy.dtype((numpy.void, vertex_data.dtype.itemsize * vertex_data.shape[1])))
- _, idx = numpy.unique(vertex_byte_view, return_index = True)
- vertex_data = vertex_data[idx] # Select the unique rows by index.
- hull = Polygon(vertex_data)
- if len(vertex_data) >= 3:
- convex_hull = hull.getConvexHull()
- offset_hull = self._offsetHull(convex_hull)
- # Store the result in the cache
- self._2d_convex_hull_mesh = mesh
- self._2d_convex_hull_mesh_world_transform = world_transform
- self._2d_convex_hull_mesh_result = convex_hull
- return offset_hull
- def _getHeadAndFans(self) -> Polygon:
- if not self._global_stack:
- return Polygon()
- polygon = Polygon(numpy.array(self._global_stack.getHeadAndFansCoordinates(), numpy.float32))
- offset_x = self._getSettingProperty("machine_nozzle_offset_x", "value")
- offset_y = self._getSettingProperty("machine_nozzle_offset_y", "value")
- return polygon.translate(-offset_x, -offset_y)
- def _compute2DConvexHeadFull(self) -> Optional[Polygon]:
- convex_hull = self._compute2DConvexHull()
- if convex_hull:
- return convex_hull.getMinkowskiHull(self._getHeadAndFans())
- return None
- def _compute2DConvexHeadMin(self) -> Optional[Polygon]:
- head_and_fans = self._getHeadAndFans()
- mirrored = head_and_fans.mirror([0, 0], [0, 1]).mirror([0, 0], [1, 0]) # Mirror horizontally & vertically.
- head_and_fans = self._getHeadAndFans().intersectionConvexHulls(mirrored)
- # Min head hull is used for the push free
- convex_hull = self._compute2DConvexHull()
- if convex_hull:
- return convex_hull.getMinkowskiHull(head_and_fans)
- return None
- def _add2DAdhesionMargin(self, poly: Polygon) -> Polygon:
- """Compensate given 2D polygon with adhesion margin
- :return: 2D polygon with added margin
- """
- if not self._global_stack:
- return Polygon()
- # Compensate for raft/skirt/brim
- # Add extra margin depending on adhesion type
- adhesion_type = self._global_stack.getProperty("adhesion_type", "value")
- max_length_available = 0.5 * min(
- self._getSettingProperty("machine_width", "value"),
- self._getSettingProperty("machine_depth", "value")
- )
- if adhesion_type == "raft":
- extra_margin = min(max_length_available, max(0, self._getSettingProperty("raft_margin", "value")))
- elif adhesion_type == "brim":
- extra_margin = min(max_length_available, max(0, self._getSettingProperty("brim_line_count", "value") * self._getSettingProperty("skirt_brim_line_width", "value")))
- elif adhesion_type == "none":
- extra_margin = 0
- elif adhesion_type == "skirt":
- extra_margin = min(max_length_available, max(
- 0, self._getSettingProperty("skirt_gap", "value") +
- self._getSettingProperty("skirt_line_count", "value") * self._getSettingProperty("skirt_brim_line_width", "value")))
- else:
- raise Exception("Unknown bed adhesion type. Did you forget to update the convex hull calculations for your new bed adhesion type?")
- # Adjust head_and_fans with extra margin
- if extra_margin > 0:
- extra_margin_polygon = Polygon.approximatedCircle(extra_margin)
- poly = poly.getMinkowskiHull(extra_margin_polygon)
- return poly
- def _offsetHull(self, convex_hull: Polygon) -> Polygon:
- """Offset the convex hull with settings that influence the collision area.
- :param convex_hull: Polygon of the original convex hull.
- :return: New Polygon instance that is offset with everything that
- influences the collision area.
- """
- # Shrinkage compensation.
- if not self._global_stack: # Should never happen.
- return convex_hull
- scale_factor = self._global_stack.getProperty("material_shrinkage_percentage", "value") / 100.0
- result = convex_hull
- if scale_factor != 1.0 and not self.getNode().callDecoration("isGroup"):
- center = None
- if self._global_stack.getProperty("print_sequence", "value") == "one_at_a_time":
- # Find the root node that's placed in the scene; the root of the mesh group.
- ancestor = self.getNode()
- while ancestor.getParent() != self._root:
- ancestor = ancestor.getParent()
- center = ancestor.getBoundingBox().center
- else:
- # Find the bounding box of the entire scene, which is all one mesh group then.
- aabb = None
- for printed_node in self._root.getChildren():
- if not printed_node.callDecoration("isSliceable") and not printed_node.callDecoration("isGroup"):
- continue # Not a printed node.
- if aabb is None:
- aabb = printed_node.getBoundingBox()
- else:
- aabb = aabb + printed_node.getBoundingBox()
- if aabb:
- center = aabb.center
- if center:
- result = convex_hull.scale(scale_factor, [center.x, center.z]) # Yes, use Z instead of Y. Mixed conventions there with how the OpenGL coordinates are transmitted.
- # Horizontal expansion.
- horizontal_expansion = max(
- self._getSettingProperty("xy_offset", "value"),
- self._getSettingProperty("xy_offset_layer_0", "value")
- )
- # Mold.
- mold_width = 0
- if self._getSettingProperty("mold_enabled", "value"):
- mold_width = self._getSettingProperty("mold_width", "value")
- hull_offset = horizontal_expansion + mold_width
- if hull_offset > 0: #TODO: Implement Minkowski subtraction for if the offset < 0.
- expansion_polygon = Polygon(numpy.array([
- [-hull_offset, -hull_offset],
- [-hull_offset, hull_offset],
- [hull_offset, hull_offset],
- [hull_offset, -hull_offset]
- ], numpy.float32))
- return result.getMinkowskiHull(expansion_polygon)
- else:
- return result
- def _onChanged(self, *args) -> None:
- self._raft_thickness = self._build_volume.getRaftThickness()
- self.recomputeConvexHullDelayed()
- def _onGlobalStackChanged(self) -> None:
- if self._global_stack:
- self._global_stack.propertyChanged.disconnect(self._onSettingValueChanged)
- self._global_stack.containersChanged.disconnect(self._onChanged)
- extruders = ExtruderManager.getInstance().getActiveExtruderStacks()
- for extruder in extruders:
- extruder.propertyChanged.disconnect(self._onSettingValueChanged)
- self._global_stack = Application.getInstance().getGlobalContainerStack()
- if self._global_stack:
- self._global_stack.propertyChanged.connect(self._onSettingValueChanged)
- self._global_stack.containersChanged.connect(self._onChanged)
- extruders = ExtruderManager.getInstance().getActiveExtruderStacks()
- for extruder in extruders:
- extruder.propertyChanged.connect(self._onSettingValueChanged)
- self._onChanged()
- def _getSettingProperty(self, setting_key: str, prop: str = "value") -> Any:
- """Private convenience function to get a setting from the correct extruder (as defined by limit_to_extruder property)."""
- if self._global_stack is None or self._node is None:
- return None
- per_mesh_stack = self._node.callDecoration("getStack")
- if per_mesh_stack:
- return per_mesh_stack.getProperty(setting_key, prop)
- extruder_index = self._global_stack.getProperty(setting_key, "limit_to_extruder")
- if extruder_index == "-1":
- # No limit_to_extruder
- extruder_stack_id = self._node.callDecoration("getActiveExtruder")
- if not extruder_stack_id:
- # Decoration doesn't exist
- extruder_stack_id = ExtruderManager.getInstance().extruderIds["0"]
- extruder_stack = ContainerRegistry.getInstance().findContainerStacks(id = extruder_stack_id)[0]
- return extruder_stack.getProperty(setting_key, prop)
- else:
- # Limit_to_extruder is set. The global stack handles this then
- return self._global_stack.getProperty(setting_key, prop)
- def __isDescendant(self, root: "SceneNode", node: Optional["SceneNode"]) -> bool:
- """Returns True if node is a descendant or the same as the root node."""
- if node is None:
- return False
- if root is node:
- return True
- return self.__isDescendant(root, node.getParent())
- def _isSingularOneAtATimeNode(self) -> bool:
- """True if print_sequence is one_at_a_time and _node is not part of a group"""
- if self._node is None:
- return False
- return self._global_stack is not None \
- and self._global_stack.getProperty("print_sequence", "value") == "one_at_a_time" \
- and not self.hasGroupAsParent(self._node)
- _affected_settings = [
- "adhesion_type", "raft_margin", "print_sequence",
- "skirt_gap", "skirt_line_count", "skirt_brim_line_width", "skirt_distance", "brim_line_count"]
- _influencing_settings = {"xy_offset", "xy_offset_layer_0", "mold_enabled", "mold_width", "anti_overhang_mesh", "infill_mesh", "cutting_mesh", "material_shrinkage_percentage"}
- """Settings that change the convex hull.
- If these settings change, the convex hull should be recalculated.
- """
|