# Copyright (c) 2020 Ultimaker B.V.
# Cura is released under the terms of the LGPLv3 or higher.
from unittest.mock import MagicMock, patch
import pytest
from UM.Math.Polygon import Polygon
from UM.Math.Vector import Vector
from cura.BuildVolume import BuildVolume, PRIME_CLEARANCE
import numpy
@pytest.fixture
def build_volume() -> BuildVolume:
mocked_application = MagicMock()
mocked_platform = MagicMock(name="platform")
with patch("cura.BuildVolume.Platform", mocked_platform):
return BuildVolume(mocked_application)
def test_buildVolumeSetSizes(build_volume):
build_volume.setWidth(10)
assert build_volume.getDiagonalSize() == 10
build_volume.setWidth(0)
build_volume.setHeight(100)
assert build_volume.getDiagonalSize() == 100
build_volume.setHeight(0)
build_volume.setDepth(200)
assert build_volume.getDiagonalSize() == 200
def test_buildMesh(build_volume):
mesh = build_volume._buildMesh(0, 100, 0, 100, 0, 100, 1)
result_vertices = numpy.array([[0., 0., 0.], [100., 0., 0.], [0., 0., 0.], [0., 100., 0.], [0., 100., 0.], [100., 100., 0.], [100., 0., 0.], [100., 100., 0.], [0., 0., 100.], [100., 0., 100.], [0., 0., 100.], [0., 100., 100.], [0., 100., 100.], [100., 100., 100.], [100., 0., 100.], [100., 100., 100.], [0., 0., 0.], [0., 0., 100.], [100., 0., 0.], [100., 0., 100.], [0., 100., 0.], [0., 100., 100.], [100., 100., 0.], [100., 100., 100.]], dtype=numpy.float32)
assert numpy.array_equal(result_vertices, mesh.getVertices())
def test_buildGridMesh(build_volume):
mesh = build_volume._buildGridMesh(0, 100, 0, 100, 0, 100, 1)
result_vertices = numpy.array([[0., -1., 0.], [100., -1., 100.], [100., -1., 0.], [0., -1., 0.], [0., -1., 100.], [100., -1., 100.]])
assert numpy.array_equal(result_vertices, mesh.getVertices())
def test_clamp(build_volume):
assert build_volume._clamp(0, 0, 200) == 0
assert build_volume._clamp(0, -200, 200) == 0
assert build_volume._clamp(300, -200, 200) == 200
class TestCalculateBedAdhesionSize:
setting_property_dict = {"adhesion_type": {"value": "brim"},
"skirt_brim_line_width": {"value": 0},
"initial_layer_line_width_factor": {"value": 0},
"brim_line_count": {"value": 0},
"machine_width": {"value": 200},
"machine_depth": {"value": 200},
"skirt_line_count": {"value": 0},
"skirt_gap": {"value": 0},
"brim_gap": {"value": 0},
"raft_margin": {"value": 0},
"material_shrinkage_percentage": {"value": 100.0},
"material_shrinkage_percentage_xy": {"value": 100.0},
"material_shrinkage_percentage_z": {"value": 100.0},
}
def getPropertySideEffect(*args, **kwargs):
properties = TestCalculateBedAdhesionSize.setting_property_dict.get(args[1])
if properties:
return properties.get(args[2])
def createAndSetGlobalStack(self, build_volume):
mocked_stack = MagicMock(name = "mocked_stack")
mocked_stack.getProperty = MagicMock(side_effect=self.getPropertySideEffect)
mocked_extruder = MagicMock(name = "mocked_extruder")
mocked_extruder.getProperty = MagicMock(side_effect=self.getPropertySideEffect)
mocked_stack.extruderList = [mocked_extruder]
build_volume._global_container_stack = mocked_stack
def test_noGlobalStack(self, build_volume: BuildVolume):
assert build_volume._calculateBedAdhesionSize([]) is None
@pytest.mark.parametrize("setting_dict, result", [
({}, 0),
({"adhesion_type": {"value": "skirt"}}, 0),
({"adhesion_type": {"value": "raft"}}, 0),
({"adhesion_type": {"value": "none"}}, 0),
({"adhesion_type": {"value": "skirt"}, "skirt_line_count": {"value": 2}, "initial_layer_line_width_factor": {"value": 1}, "skirt_brim_line_width": {"value": 2}}, 0),
# Even though it's marked as skirt, it should behave as a brim as the prime tower has a brim (skirt line count is still at 0!)
({"adhesion_type": {"value": "skirt"}, "prime_tower_brim_enable": {"value": True}, "skirt_brim_line_width": {"value": 2}, "initial_layer_line_width_factor": {"value": 3}}, 0),
({"brim_line_count": {"value": 1}, "skirt_brim_line_width": {"value": 2}, "initial_layer_line_width_factor": {"value": 3}}, 0),
({"brim_line_count": {"value": 2}, "skirt_brim_line_width": {"value": 2}, "initial_layer_line_width_factor": {"value": 3}}, 0),
({"brim_line_count": {"value": 9000000}, "skirt_brim_line_width": {"value": 90000}, "initial_layer_line_width_factor": {"value": 9000}}, 0), # Clamped at half the max size of buildplate
])
def test_singleExtruder(self, build_volume: BuildVolume, setting_dict, result):
self.createAndSetGlobalStack(build_volume)
patched_dictionary = self.setting_property_dict.copy()
patched_dictionary.update(setting_dict)
patched_dictionary.update({
"skirt_brim_extruder_nr": {"value": 0},
"raft_base_extruder_nr": {"value": 0},
"raft_interface_extruder_nr": {"value": 0},
"raft_surface_extruder_nr": {"value": 0}
})
with patch.dict(self.setting_property_dict, patched_dictionary):
assert build_volume._calculateBedAdhesionSize([]) == result
class TestComputeDisallowedAreasStatic:
setting_property_dict = {"machine_disallowed_areas": {"value": [[[-200, 112.5], [ -82, 112.5], [ -84, 102.5], [-115, 102.5]]]},
"machine_width": {"value": 200},
"machine_depth": {"value": 200},
"material_shrinkage_percentage": {"value": 100.0},
"material_shrinkage_percentage_xy": {"value": 100.0},
"material_shrinkage_percentage_z": {"value": 100.0},
}
def getPropertySideEffect(*args, **kwargs):
properties = TestComputeDisallowedAreasStatic.setting_property_dict.get(args[1])
if properties:
return properties.get(args[2])
def test_computeDisallowedAreasStaticNoExtruder(self, build_volume: BuildVolume):
mocked_stack = MagicMock()
mocked_stack.getProperty = MagicMock(side_effect=self.getPropertySideEffect)
build_volume._global_container_stack = mocked_stack
assert build_volume._computeDisallowedAreasStatic(0, []) == {}
def test_computeDisalowedAreasStaticSingleExtruder(self, build_volume: BuildVolume):
mocked_stack = MagicMock()
mocked_stack.getProperty = MagicMock(side_effect=self.getPropertySideEffect)
mocked_extruder = MagicMock()
mocked_extruder.getProperty = MagicMock(side_effect=self.getPropertySideEffect)
mocked_extruder.getId = MagicMock(return_value = "zomg")
build_volume._global_container_stack = mocked_stack
with patch("cura.Settings.ExtruderManager.ExtruderManager.getInstance"):
result = build_volume._computeDisallowedAreasStatic(0, [mocked_extruder])
assert result == {"zomg": [Polygon([[-84.0,102.5], [-115.0,102.5], [-200.0,112.5], [-82.0,112.5]]), Polygon([[-100.0,-100.0], [-100.0,100.0], [-99.9,99.9], [-99.9,-99.9]]), Polygon([[100.0,100.0], [100.0,-100.0], [99.9,-99.9], [99.9,99.9]]), Polygon([[-100.0,100.0], [100.0,100.0], [99.9,99.9], [-99.9,99.9]]), Polygon([[100.0,-100.0], [-100.0,-100.0], [-99.9,-99.9], [99.9,-99.9]])]}
def test_computeDisalowedAreasMutliExtruder(self, build_volume):
mocked_stack = MagicMock()
mocked_stack.getProperty = MagicMock(side_effect=self.getPropertySideEffect)
mocked_extruder = MagicMock()
mocked_extruder.getProperty = MagicMock(side_effect=self.getPropertySideEffect)
mocked_extruder.getId = MagicMock(return_value="zomg")
extruder_manager = MagicMock()
extruder_manager.getActiveExtruderStacks = MagicMock(return_value = [mocked_stack])
build_volume._global_container_stack = mocked_stack
with patch("cura.Settings.ExtruderManager.ExtruderManager.getInstance", MagicMock(return_value = extruder_manager)):
result = build_volume._computeDisallowedAreasStatic(0, [mocked_extruder])
assert result == {"zomg": [Polygon([[-84.0, 102.5], [-115.0, 102.5], [-200.0, 112.5], [-82.0, 112.5]]),
Polygon([[-100.0, -100.0], [-100.0, 100.0], [-99.9, 99.9], [-99.9, -99.9]]),
Polygon([[100.0, 100.0], [100.0, -100.0], [99.9, -99.9], [99.9, 99.9]]),
Polygon([[-100.0, 100.0], [100.0, 100.0], [99.9, 99.9], [-99.9, 99.9]]),
Polygon([[100.0, -100.0], [-100.0, -100.0], [-99.9, -99.9], [99.9, -99.9]])]}
class TestUpdateRaftThickness:
setting_property_dict = {"raft_base_thickness": {"value": 1},
"raft_interface_layers": {"value": 2},
"raft_interface_thickness": {"value": 1},
"raft_surface_layers": {"value": 3},
"raft_surface_thickness": {"value": 1},
"raft_airgap": {"value": 1},
"layer_0_z_overlap": {"value": 1},
"adhesion_type": {"value": "raft"},
"material_shrinkage_percentage": {"value": 100.0},
"material_shrinkage_percentage_xy": {"value": 100.0},
"material_shrinkage_percentage_z": {"value": 100.0},
}
def getPropertySideEffect(*args, **kwargs):
properties = TestUpdateRaftThickness.setting_property_dict.get(args[1])
if properties:
return properties.get(args[2])
def createMockedStack(self):
mocked_global_stack = MagicMock(name = "mocked_global_stack")
mocked_global_stack.getProperty = MagicMock(side_effect = self.getPropertySideEffect)
extruder_stack = MagicMock()
return mocked_global_stack
def test_simple(self, build_volume: BuildVolume):
build_volume.raftThicknessChanged = MagicMock()
mocked_global_stack = self.createMockedStack()
build_volume._global_container_stack = mocked_global_stack
assert build_volume.getRaftThickness() == 0
build_volume._updateRaftThickness()
assert build_volume.getRaftThickness() == 6 # 1 base layer of 1mm, 2 interface layers of 1mm each, 3 surface layer of 1mm.
assert build_volume.raftThicknessChanged.emit.call_count == 1
def test_adhesionIsNotRaft(self, build_volume: BuildVolume):
patched_dictionary = self.setting_property_dict.copy()
patched_dictionary["adhesion_type"] = {"value": "not_raft"}
mocked_global_stack = self.createMockedStack()
build_volume._global_container_stack = mocked_global_stack
assert build_volume.getRaftThickness() == 0
with patch.dict(self.setting_property_dict, patched_dictionary):
build_volume._updateRaftThickness()
assert build_volume.getRaftThickness() == 0
def test_noGlobalStack(self, build_volume: BuildVolume):
build_volume.raftThicknessChanged = MagicMock()
assert build_volume.getRaftThickness() == 0
build_volume._updateRaftThickness()
assert build_volume.getRaftThickness() == 0
assert build_volume.raftThicknessChanged.emit.call_count == 0
class TestComputeDisallowedAreasPrimeBlob:
setting_property_dict = {"machine_width": {"value": 50},
"machine_depth": {"value": 100},
"prime_blob_enable": {"value": True},
"extruder_prime_pos_x": {"value": 25},
"extruder_prime_pos_y": {"value": 50},
"machine_center_is_zero": {"value": True},
"material_shrinkage_percentage": {"value": 100.0},
"material_shrinkage_percentage_xy": {"value": 100.0},
"material_shrinkage_percentage_z": {"value": 100.0},
}
def getPropertySideEffect(*args, **kwargs):
properties = TestComputeDisallowedAreasPrimeBlob.setting_property_dict.get(args[1])
if properties:
return properties.get(args[2])
def test_noGlobalContainer(self, build_volume: BuildVolume):
# No global container and no extruders, so we expect no blob areas
assert build_volume._computeDisallowedAreasPrimeBlob(12, []) == {}
def test_noExtruders(self, build_volume: BuildVolume):
mocked_stack = MagicMock()
mocked_stack.getProperty = MagicMock(side_effect=self.getPropertySideEffect)
build_volume._global_container_stack = mocked_stack
# No extruders, so still expect that we get no area
assert build_volume._computeDisallowedAreasPrimeBlob(12, []) == {}
def test_singleExtruder(self, build_volume: BuildVolume):
mocked_global_stack = MagicMock(name = "mocked_global_stack")
mocked_global_stack.getProperty = MagicMock(side_effect=self.getPropertySideEffect)
mocked_extruder_stack = MagicMock(name = "mocked_extruder_stack")
mocked_extruder_stack.getId = MagicMock(return_value = "0")
mocked_extruder_stack.getProperty = MagicMock(side_effect=self.getPropertySideEffect)
build_volume._global_container_stack = mocked_global_stack
# Create a polygon that should be the result
resulting_polygon = Polygon.approximatedCircle(PRIME_CLEARANCE)
# Since we want a blob of size 12;
resulting_polygon = resulting_polygon.getMinkowskiHull(Polygon.approximatedCircle(12))
# In the The translation result is 25, -50 (due to the settings used)
resulting_polygon = resulting_polygon.translate(25, -50)
assert build_volume._computeDisallowedAreasPrimeBlob(12, [mocked_extruder_stack]) == {"0": [resulting_polygon]}
class TestCalculateExtraZClearance:
setting_property_dict = {"retraction_hop": {"value": 12},
"retraction_hop_enabled": {"value": True},
"material_shrinkage_percentage": {"value": 100.0},
"material_shrinkage_percentage_xy": {"value": 100.0},
"material_shrinkage_percentage_z": {"value": 100.0},
}
def getPropertySideEffect(*args, **kwargs):
properties = TestCalculateExtraZClearance.setting_property_dict.get(args[1])
if properties:
return properties.get(args[2])
def test_noContainerStack(self, build_volume: BuildVolume):
assert build_volume._calculateExtraZClearance([]) == 0
def test_withRetractionHop(self, build_volume: BuildVolume):
mocked_global_stack = MagicMock(name="mocked_global_stack")
mocked_extruder = MagicMock()
mocked_extruder.getProperty = MagicMock(side_effect=self.getPropertySideEffect)
build_volume._global_container_stack = mocked_global_stack
# It should be 12 because we have the hop enabled and the hop distance is set to 12
assert build_volume._calculateExtraZClearance([mocked_extruder]) == 12
def test_withoutRetractionHop(self, build_volume: BuildVolume):
mocked_global_stack = MagicMock(name="mocked_global_stack")
mocked_extruder = MagicMock()
mocked_extruder.getProperty = MagicMock(side_effect=self.getPropertySideEffect)
build_volume._global_container_stack = mocked_global_stack
patched_dictionary = self.setting_property_dict.copy()
patched_dictionary["retraction_hop_enabled"] = {"value": False}
with patch.dict(self.setting_property_dict, patched_dictionary):
# It should be 12 because we have the hop enabled and the hop distance is set to 12
assert build_volume._calculateExtraZClearance([mocked_extruder]) == 0
class TestRebuild:
setting_property_dict = {
"material_shrinkage_percentage": {"value": 100.0},
"material_shrinkage_percentage_xy": {"value": 100.0},
"material_shrinkage_percentage_z": {"value": 100.0},
}
def getPropertySideEffect(*args, **kwargs):
properties = TestCalculateExtraZClearance.setting_property_dict.get(args[1])
if properties:
return properties.get(args[2])
def test_zeroWidthHeightDepth(self, build_volume: BuildVolume):
build_volume.rebuild()
assert build_volume.getMeshData() is None
def test_engineIsNotRead(self, build_volume: BuildVolume):
build_volume.setWidth(10)
build_volume.setHeight(10)
build_volume.setDepth(10)
build_volume.rebuild()
assert build_volume.getMeshData() is None
def test_noGlobalStack(self, build_volume: BuildVolume):
build_volume.setWidth(10)
build_volume.setHeight(10)
build_volume.setDepth(10)
# Fake the the "engine is created callback"
build_volume._onEngineCreated()
build_volume.rebuild()
assert build_volume.getMeshData() is None
def test_updateBoundingBox(self, build_volume: BuildVolume):
build_volume.setWidth(10)
build_volume.setHeight(10)
build_volume.setDepth(10)
mocked_global_stack = MagicMock()
mocked_global_stack.getProperty = MagicMock(side_effect=self.getPropertySideEffect)
build_volume._global_container_stack = mocked_global_stack
build_volume.getEdgeDisallowedSize = MagicMock(return_value = 0)
build_volume.updateNodeBoundaryCheck = MagicMock()
# Fake the the "engine is created callback"
build_volume._onEngineCreated()
build_volume.rebuild()
bounding_box = build_volume.getBoundingBox()
assert bounding_box.minimum == Vector(-5.0, -1.0, -5.0)
assert bounding_box.maximum == Vector(5.0, 10.0, 5.0)
class TestUpdateMachineSizeProperties:
setting_property_dict = {"machine_width": {"value": 50},
"machine_depth": {"value": 100},
"machine_height": {"value": 200},
"machine_shape": {"value": "DERP!"},
"material_shrinkage_percentage": {"value": 100.0},
"material_shrinkage_percentage_xy": {"value": 100.0},
"material_shrinkage_percentage_z": {"value": 100.0},
}
def getPropertySideEffect(*args, **kwargs):
properties = TestUpdateMachineSizeProperties.setting_property_dict.get(args[1])
if properties:
return properties.get(args[2])
def test_noGlobalStack(self, build_volume: BuildVolume):
build_volume._updateMachineSizeProperties()
assert build_volume._width == 0
assert build_volume._height == 0
assert build_volume._depth == 0
assert build_volume._shape == ""
def test_happy(self, build_volume: BuildVolume):
mocked_global_stack = MagicMock(name="mocked_global_stack")
mocked_global_stack.getProperty = MagicMock(side_effect=self.getPropertySideEffect)
build_volume._global_container_stack = mocked_global_stack
build_volume._updateMachineSizeProperties()
assert build_volume._width == 50
assert build_volume._height == 200
assert build_volume._depth == 100
assert build_volume._shape == "DERP!"
class TestGetEdgeDisallowedSize:
setting_property_dict = {}
bed_adhesion_size = 1
@pytest.fixture()
def build_volume(self, build_volume):
build_volume._calculateBedAdhesionSize = MagicMock(return_value = 1)
return build_volume
def getPropertySideEffect(*args, **kwargs):
properties = TestGetEdgeDisallowedSize.setting_property_dict.get(args[1])
if properties:
return properties.get(args[2])
def createMockedStack(self):
mocked_global_stack = MagicMock(name="mocked_global_stack")
mocked_global_stack.getProperty = MagicMock(side_effect=self.getPropertySideEffect)
return mocked_global_stack
def test_noGlobalContainer(self, build_volume: BuildVolume):
assert build_volume.getEdgeDisallowedSize() == 0
def test_unknownAdhesion(self, build_volume: BuildVolume):
build_volume._global_container_stack = self.createMockedStack()
with patch("cura.Settings.ExtruderManager.ExtruderManager.getInstance"):
#with pytest.raises(Exception):
# Since we don't have any adhesion set, this should break.
build_volume.getEdgeDisallowedSize()
def test_oneAtATime(self, build_volume: BuildVolume):
build_volume._global_container_stack = self.createMockedStack()
with patch("cura.Settings.ExtruderManager.ExtruderManager.getInstance"):
with patch.dict(self.setting_property_dict, {"print_sequence": {"value": "one_at_a_time"}}):
assert build_volume.getEdgeDisallowedSize() == 0.1