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# ##### BEGIN GPL LICENSE BLOCK #####
#
# This program is free software; you can redistribute it and/or
# modify it under the terms of the GNU General Public License
# as published by the Free Software Foundation; either version 2
# of the License, or (at your option) any later version.
#
# This program is distributed in the hope that it will be useful,
# but WITHOUT ANY WARRANTY; without even the implied warranty of
# MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
# GNU General Public License for more details.
#
# You should have received a copy of the GNU General Public License
# along with this program; if not, write to the Free Software Foundation,
# Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
#
# ##### END GPL LICENSE BLOCK #####
# <pep8 compliant>
import bpy
import os
import sys
from random import shuffle, seed
seed(0)
sys.path.append(os.path.dirname(os.path.realpath(__file__)))
from modules.mesh_test import MeshTest, OperatorSpecEditMode, RunTest
# Central vertical loop of Suzanne
MONKEY_LOOP_VERT = {68, 69, 71, 73, 74, 75, 76, 77, 90, 129, 136, 175, 188, 189, 198, 207,
216, 223, 230, 301, 302, 303, 304, 305, 306, 307, 308}
MONKEY_LOOP_EDGE = {131, 278, 299, 305, 307, 334, 337, 359, 384, 396, 399, 412, 415, 560,
567, 572, 577, 615, 622, 627, 632, 643, 648, 655, 660, 707}
def main():
tests = [
#### 0
# bisect
MeshTest("CubeBisect", "testCubeBisect", "expectedCubeBisect",
[OperatorSpecEditMode("bisect",
{"plane_co": (0, 0, 0), "plane_no": (0, 1, 1), "clear_inner": True,
"use_fill": True}, 'FACE', {0, 1, 2, 3, 4, 5}, )]),
# blend from shape
MeshTest("CubeBlendFromShape", "testCubeBlendFromShape", "expectedCubeBlendFromShape",
[OperatorSpecEditMode("blend_from_shape", {"shape": "Key 1"}, 'FACE', {0, 1, 2, 3, 4, 5})]),
# bridge edge loops
MeshTest("CubeBridgeEdgeLoop", "testCubeBrigeEdgeLoop", "expectedCubeBridgeEdgeLoop",
[OperatorSpecEditMode("bridge_edge_loops", {}, "FACE", {0, 1})]),
# decimate
MeshTest("MonkeyDecimate", "testMonkeyDecimate", "expectedMonkeyDecimate",
[OperatorSpecEditMode("decimate",
{"ratio": 0.1}, "FACE", {i for i in range(500)})]),
### 4
# delete
MeshTest("CubeDeleteVertices", "testCubeDeleteVertices", "expectedCubeDeleteVertices",
[OperatorSpecEditMode("delete", {}, "VERT", {3})]),
MeshTest("CubeDeleteFaces", "testCubeDeleteFaces", "expectedCubeDeleteFaces",
[OperatorSpecEditMode("delete", {}, "FACE", {0})]),
MeshTest("CubeDeleteEdges", "testCubeDeleteEdges", "expectedCubeDeleteEdges",
[OperatorSpecEditMode("delete", {}, "EDGE", {0, 1, 2, 3})]),
# delete edge loop
MeshTest("MonkeyDeleteEdgeLoopVertices", "testMokneyDeleteEdgeLoopVertices",
"expectedMonkeyDeleteEdgeLoopVertices",
[OperatorSpecEditMode("delete_edgeloop", {}, "VERT", MONKEY_LOOP_VERT)]),
MeshTest("MonkeyDeleteEdgeLoopEdges", "testMokneyDeleteEdgeLoopEdges",
"expectedMonkeyDeleteEdgeLoopEdges",
[OperatorSpecEditMode("delete_edgeloop", {}, "EDGE", MONKEY_LOOP_EDGE)]),
### 9
# delete loose
MeshTest("CubeDeleteLooseVertices", "testCubeDeleteLooseVertices",
"expectedCubeDeleteLooseVertices",
[OperatorSpecEditMode("delete_loose", {"use_verts": True, "use_edges": False, "use_faces": False},
"VERT",
{i for i in range(12)})]),
MeshTest("CubeDeleteLooseEdges", "testCubeDeleteLooseEdges",
"expectedCubeDeleteLooseEdges",
[OperatorSpecEditMode("delete_loose", {"use_verts": False, "use_edges": True, "use_faces": False},
"EDGE",
{i for i in range(14)})]),
MeshTest("CubeDeleteLooseFaces", "testCubeDeleteLooseFaces",
"expectedCubeDeleteLooseFaces",
[OperatorSpecEditMode("delete_loose", {"use_verts": False, "use_edges": False, "use_faces": True},
"FACE",
{i for i in range(7)})]),
# dissolve degenerate
MeshTest("CubeDissolveDegenerate", "testCubeDissolveDegenerate",
"expectedCubeDissolveDegenerate",
[OperatorSpecEditMode("dissolve_degenerate", {}, "VERT", {i for i in range(8)})]),
### 13
# dissolve edges
MeshTest("CylinderDissolveEdges", "testCylinderDissolveEdges", "expectedCylinderDissolveEdges",
[OperatorSpecEditMode("dissolve_edges", {}, "EDGE", {0, 5, 6, 9})]),
# dissolve faces
MeshTest("CubeDissolveFaces", "testCubeDissolveFaces", "expectedCubeDissolveFaces",
[OperatorSpecEditMode("dissolve_faces", {}, "VERT", {5, 34, 47, 49, 83, 91, 95})]),
### 15
# dissolve verts
MeshTest("CubeDissolveVerts", "testCubeDissolveVerts", "expectedCubeDissolveVerts",
[OperatorSpecEditMode("dissolve_verts", {}, "VERT", {16, 20, 22, 23, 25})]),
# duplicate
MeshTest("ConeDuplicateVertices", "testConeDuplicateVertices",
"expectedConeDuplicateVertices",
[OperatorSpecEditMode("duplicate", {}, "VERT", {i for i in range(33)} - {23})]),
MeshTest("ConeDuplicateOneVertex", "testConeDuplicateOneVertex", "expectedConeDuplicateOneVertex",
[OperatorSpecEditMode("duplicate", {}, "VERT", {23})]),
MeshTest("ConeDuplicateFaces", "testConeDuplicateFaces", "expectedConeDuplicateFaces",
[OperatorSpecEditMode("duplicate", {}, "FACE", {6, 9})]),
MeshTest("ConeDuplicateEdges", "testConeDuplicateEdges", "expectedConeDuplicateEdges",
[OperatorSpecEditMode("duplicate", {}, "EDGE", {i for i in range(64)})]),
### 20
# edge collapse
MeshTest("CylinderEdgeCollapse", "testCylinderEdgeCollapse", "expectedCylinderEdgeCollapse",
[OperatorSpecEditMode("edge_collapse", {}, "EDGE", {1, 9, 4})]),
# edge face add
MeshTest("CubeEdgeFaceAddFace", "testCubeEdgeFaceAddFace", "expectedCubeEdgeFaceAddFace",
[OperatorSpecEditMode("edge_face_add", {}, "VERT", {1, 3, 4, 5, 7})]),
MeshTest("CubeEdgeFaceAddEdge", "testCubeEdgeFaceAddEdge", "expectedCubeEdgeFaceAddEdge",
[OperatorSpecEditMode("edge_face_add", {}, "VERT", {4, 5})]),
# edge rotate
MeshTest("CubeEdgeRotate", "testCubeEdgeRotate", "expectedCubeEdgeRotate",
[OperatorSpecEditMode("edge_rotate", {}, "EDGE", {1})]),
# edge split
MeshTest("CubeEdgeSplit", "testCubeEdgeSplit", "expectedCubeEdgeSplit",
[OperatorSpecEditMode("edge_split", {}, "EDGE", {2, 5, 8, 11, 14, 17, 20, 23})]),
### 25
# face make planar
MeshTest("MonkeyFaceMakePlanar", "testMonkeyFaceMakePlanar",
"expectedMonkeyFaceMakePlanar",
[OperatorSpecEditMode("face_make_planar", {}, "FACE", {i for i in range(500)})]),
# face split by edges
MeshTest("PlaneFaceSplitByEdges", "testPlaneFaceSplitByEdges",
"expectedPlaneFaceSplitByEdges",
[OperatorSpecEditMode("face_split_by_edges", {}, "VERT", {i for i in range(6)})]),
# fill
MeshTest("IcosphereFill", "testIcosphereFill", "expectedIcosphereFill",
[OperatorSpecEditMode("fill", {}, "EDGE", {20, 21, 22, 23, 24, 45, 46, 47, 48, 49})]),
MeshTest("IcosphereFillUseBeautyFalse",
"testIcosphereFillUseBeautyFalse", "expectedIcosphereFillUseBeautyFalse",
[OperatorSpecEditMode("fill", {"use_beauty": False}, "EDGE",
{20, 21, 22, 23, 24, 45, 46, 47, 48, 49})]),
# fill grid
MeshTest("PlaneFillGrid", "testPlaneFillGrid",
"expectedPlaneFillGrid",
[OperatorSpecEditMode("fill_grid", {}, "EDGE", {1, 2, 3, 4, 5, 7, 9, 10, 11, 12, 13, 15})]),
MeshTest("PlaneFillGridSimpleBlending",
"testPlaneFillGridSimpleBlending",
"expectedPlaneFillGridSimpleBlending",
[OperatorSpecEditMode("fill_grid", {"use_interp_simple": True}, "EDGE",
{1, 2, 3, 4, 5, 7, 9, 10, 11, 12, 13, 15})]),
### 31
# fill holes
MeshTest("SphereFillHoles", "testSphereFillHoles", "expectedSphereFillHoles",
[OperatorSpecEditMode("fill_holes", {"sides": 9}, "VERT", {i for i in range(481)})]),
# inset faces
MeshTest("CubeInset",
"testCubeInset", "expectedCubeInset", [OperatorSpecEditMode("inset", {"thickness": 0.2}, "VERT",
{5, 16, 17, 19, 20, 22, 23, 34, 47, 49, 50,
52,
59, 61, 62, 65, 83, 91, 95})]),
MeshTest("CubeInsetEvenOffsetFalse",
"testCubeInsetEvenOffsetFalse", "expectedCubeInsetEvenOffsetFalse",
[OperatorSpecEditMode("inset", {"thickness": 0.2, "use_even_offset": False}, "VERT",
{5, 16, 17, 19, 20, 22, 23, 34, 47, 49, 50, 52, 59, 61, 62, 65, 83, 91, 95})]),
MeshTest("CubeInsetDepth",
"testCubeInsetDepth",
"expectedCubeInsetDepth", [OperatorSpecEditMode("inset", {"thickness": 0.2, "depth": 0.2}, "VERT",
{5, 16, 17, 19, 20, 22, 23, 34, 47, 49, 50, 52, 59, 61,
62,
65, 83, 91, 95})]),
MeshTest("GridInsetRelativeOffset", "testGridInsetRelativeOffset",
"expectedGridInsetRelativeOffset",
[OperatorSpecEditMode("inset", {"thickness": 0.4,
"use_relative_offset": True}, "FACE",
{35, 36, 37, 45, 46, 47, 55, 56, 57})]),
]
operators_test = RunTest(tests)
command = list(sys.argv)
for i, cmd in enumerate(command):
if cmd == "--run-all-tests":
operators_test.do_compare = True
operators_test.run_all_tests()
break
elif cmd == "--run-test":
operators_test.do_compare = False
name = command[i + 1]
operators_test.run_test(name)
break
if __name__ == "__main__":
main()
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