mirror of
https://git.mirrors.martin98.com/https://github.com/Ultimaker/Cura
synced 2025-04-23 14:19:37 +08:00
154 lines
6.9 KiB
Python
154 lines
6.9 KiB
Python
# Copyright (c) 2015 Ultimaker B.V.
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# Cura is released under the terms of the AGPLv3 or higher.
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from PyQt5.QtCore import QTimer
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from UM.Scene.SceneNode import SceneNode
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from UM.Scene.Iterator.BreadthFirstIterator import BreadthFirstIterator
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from UM.Operations.TranslateOperation import TranslateOperation
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from UM.Math.Float import Float
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from UM.Math.Vector import Vector
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from UM.Math.AxisAlignedBox import AxisAlignedBox
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from UM.Application import Application
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from UM.Scene.Selection import Selection
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from UM.Preferences import Preferences
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from cura.ConvexHullDecorator import ConvexHullDecorator
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from . import PlatformPhysicsOperation
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from . import ConvexHullJob
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import time
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import threading
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import copy
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class PlatformPhysics:
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def __init__(self, controller, volume):
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super().__init__()
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self._controller = controller
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self._controller.getScene().sceneChanged.connect(self._onSceneChanged)
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self._controller.toolOperationStarted.connect(self._onToolOperationStarted)
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self._controller.toolOperationStopped.connect(self._onToolOperationStopped)
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self._build_volume = volume
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self._enabled = True
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self._change_timer = QTimer()
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self._change_timer.setInterval(100)
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self._change_timer.setSingleShot(True)
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self._change_timer.timeout.connect(self._onChangeTimerFinished)
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Preferences.getInstance().addPreference("physics/automatic_push_free", True)
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def _onSceneChanged(self, source):
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self._change_timer.start()
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def _onChangeTimerFinished(self):
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if not self._enabled:
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return
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root = self._controller.getScene().getRoot()
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for node in BreadthFirstIterator(root):
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if node is root or type(node) is not SceneNode:
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continue
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bbox = node.getBoundingBox()
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if not bbox or not bbox.isValid():
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self._change_timer.start()
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continue
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build_volume_bounding_box = copy.deepcopy(self._build_volume.getBoundingBox())
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build_volume_bounding_box.setBottom(-9001) # Ignore intersections with the bottom
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# Mark the node as outside the build volume if the bounding box test fails.
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if build_volume_bounding_box.intersectsBox(bbox) != AxisAlignedBox.IntersectionResult.FullIntersection:
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node._outside_buildarea = True
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else:
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node._outside_buildarea = False
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# Move it downwards if bottom is above platform
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move_vector = Vector()
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if not (node.getParent() and node.getParent().callDecoration("isGroup")): #If an object is grouped, don't move it down
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if bbox.bottom > 0:
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move_vector.setY(-bbox.bottom)
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#if not Float.fuzzyCompare(bbox.bottom, 0.0):
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# pass#move_vector.setY(-bbox.bottom)
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# If there is no convex hull for the node, start calculating it and continue.
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if not node.getDecorator(ConvexHullDecorator):
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node.addDecorator(ConvexHullDecorator())
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if not node.callDecoration("getConvexHull"):
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if not node.callDecoration("getConvexHullJob"):
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job = ConvexHullJob.ConvexHullJob(node)
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job.start()
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node.callDecoration("setConvexHullJob", job)
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elif Selection.isSelected(node):
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pass
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elif Preferences.getInstance().getValue("physics/automatic_push_free"):
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# Check for collisions between convex hulls
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for other_node in BreadthFirstIterator(root):
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# Ignore root, ourselves and anything that is not a normal SceneNode.
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if other_node is root or type(other_node) is not SceneNode or other_node is node:
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continue
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# Ignore colissions of a group with it's own children
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if other_node in node.getAllChildren() or node in other_node.getAllChildren():
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continue
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# Ignore colissions within a group
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if other_node.getParent().callDecoration("isGroup") is not None:
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if node.getParent().callDecoration("isGroup") is other_node.getParent().callDecoration("isGroup"):
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continue
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# Ignore nodes that do not have the right properties set.
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if not other_node.callDecoration("getConvexHull") or not other_node.getBoundingBox():
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continue
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# Check to see if the bounding boxes intersect. If not, we can ignore the node as there is no way the hull intersects.
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#if node.getBoundingBox().intersectsBox(other_node.getBoundingBox()) == AxisAlignedBox.IntersectionResult.NoIntersection:
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# continue
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# Get the overlap distance for both convex hulls. If this returns None, there is no intersection.
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try:
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head_hull = node.callDecoration("getConvexHullHead")
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if head_hull:
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overlap = head_hull.intersectsPolygon(other_node.callDecoration("getConvexHull"))
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if not overlap:
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other_head_hull = other_node.callDecoration("getConvexHullHead")
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if other_head_hull:
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overlap = node.callDecoration("getConvexHull").intersectsPolygon(other_head_hull)
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else:
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overlap = node.callDecoration("getConvexHull").intersectsPolygon(other_node.callDecoration("getConvexHull"))
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except:
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overlap = None #It can sometimes occur that the caclulated convex hull has no size, in which case there is no overlap.
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if overlap is None:
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continue
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move_vector.setX(overlap[0] * 1.1)
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move_vector.setZ(overlap[1] * 1.1)
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convex_hull = node.callDecoration("getConvexHull")
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if convex_hull:
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if not convex_hull.isValid():
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return
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# Check for collisions between disallowed areas and the object
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for area in self._build_volume.getDisallowedAreas():
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overlap = convex_hull.intersectsPolygon(area)
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if overlap is None:
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continue
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node._outside_buildarea = True
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if move_vector != Vector():
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op = PlatformPhysicsOperation.PlatformPhysicsOperation(node, move_vector)
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op.push()
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def _onToolOperationStarted(self, tool):
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self._enabled = False
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def _onToolOperationStopped(self, tool):
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self._enabled = True
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self._onChangeTimerFinished()
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