886 lines
35 KiB
Python
886 lines
35 KiB
Python
# SPDX-FileCopyrightText: 2020-2023 Blender Foundation
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#
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# SPDX-License-Identifier: GPL-2.0-or-later
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# A framework to run regression tests on mesh modifiers and operators based on howardt's mesh_ops_test.py
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#
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# General idea:
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# A test is:
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# Object mode
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# Select <test_object>
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# Duplicate the object
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# Select the object
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# Apply operation for each operation in <operations_stack> with given parameters
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# (an operation is either a modifier or an operator)
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# test_mesh = <test_object>.data
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# run test_mesh.unit_test_compare(<expected object>.data)
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# delete the duplicate object
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#
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# The words in angle brackets are parameters of the test, and are specified in
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# the abstract class MeshTest.
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#
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# If the environment variable BLENDER_TEST_UPDATE is set to 1, the <expected_object>
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# is updated with the new test result.
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# Tests are verbose when the environment variable BLENDER_VERBOSE is set.
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from abc import ABC, abstractmethod
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import bpy
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import bmesh
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import functools
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import inspect
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import os
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# Output from this module and from blender itself will occur during tests.
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# We need to flush python so that the output is properly interleaved, otherwise
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# blender's output for one test will end up showing in the middle of another test...
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print = functools.partial(print, flush=True)
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class ModifierSpec:
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"""
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Holds a Generate or Deform or Physics modifier type and its parameters.
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"""
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def __init__(self, modifier_name: str, modifier_type: str, modifier_parameters: dict, frame_end=0):
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"""
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Constructs a modifier spec.
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:arg modifier_name: str - name of object modifier, e.g. "myFirstSubsurfModif"
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:arg modifier_type: str - type of object modifier, e.g. "SUBSURF"
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:arg modifier_parameters: dict - {name : val} dictionary giving modifier parameters, e.g. {"quality" : 4}
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:arg frame_end: int - frame at which simulation needs to be baked or modifier needs to be applied.
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"""
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self.modifier_name = modifier_name
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self.modifier_type = modifier_type
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self.modifier_parameters = modifier_parameters
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self.frame_end = frame_end
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def __str__(self):
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return "Modifier: " + self.modifier_name + " of type " + self.modifier_type + \
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" with parameters: " + str(self.modifier_parameters)
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class ParticleSystemSpec:
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"""
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Holds a Particle System modifier and its parameters.
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"""
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def __init__(self, modifier_name: str, modifier_type: str, modifier_parameters: dict, frame_end: int):
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"""
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Constructs a particle system spec.
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:arg modifier_name: str - name of object modifier, e.g. "Particles"
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:arg modifier_type: str - type of object modifier, e.g. "PARTICLE_SYSTEM"
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:arg modifier_parameters: dict - {name : val} dictionary giving modifier parameters, e.g. {"seed" : 1}
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:arg frame_end: int - the last frame of the simulation at which the modifier is applied
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"""
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self.modifier_name = modifier_name
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self.modifier_type = modifier_type
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self.modifier_parameters = modifier_parameters
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self.frame_end = frame_end
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def __str__(self):
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return "Physics Modifier: " + self.modifier_name + " of type " + self.modifier_type + \
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" with parameters: " + str(self.modifier_parameters) + " with frame end: " + str(self.frame_end)
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class OperatorSpecEditMode:
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"""
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Holds one operator and its parameters.
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"""
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def __init__(
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self,
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operator_name: str,
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operator_parameters: dict,
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select_mode: str,
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selection,
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*,
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select_history: bool = False,
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):
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"""
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Constructs an OperatorSpecEditMode. Raises ValueError if selec_mode is invalid.
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:arg operator_name: str - name of mesh operator from bpy.ops.mesh, e.g. "bevel" or "fill"
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:arg operator_parameters: dict - {name : val} dictionary containing operator parameters.
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:arg select_mode: str - mesh selection mode, must be either 'VERT', 'EDGE' or 'FACE'
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:arg selection: sequence - vertices/edges/faces indices to select, e.g. [0, 9, 10].
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:arg: select_history: bool - load selection into bmesh selection history.
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"""
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self.operator_name = operator_name
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self.operator_parameters = operator_parameters
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if select_mode not in {'VERT', 'EDGE', 'FACE'}:
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raise ValueError("select_mode must be either {}, {} or {}".format('VERT', 'EDGE', 'FACE'))
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self.select_mode = select_mode
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self.selection = selection
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self.select_history = select_history
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def __str__(self):
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return "Operator: " + self.operator_name + " with parameters: " + str(self.operator_parameters) + \
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" in selection mode: " + self.select_mode + ", selecting " + str(self.selection) + \
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("and loading bmesh selection history" if (self.select_history) else "")
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class OperatorSpecObjectMode:
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"""
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Holds an object operator and its parameters. Helper class for DeformModifierSpec.
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Needed to support operations in Object Mode and not Edit Mode which is supported by OperatorSpecEditMode.
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"""
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def __init__(self, operator_name: str, operator_parameters: dict):
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"""
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:arg operator_name: str - name of the object operator from bpy.ops.object, e.g. "shade_smooth" or "shape_keys"
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:arg operator_parameters: dict - contains operator parameters.
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"""
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self.operator_name = operator_name
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self.operator_parameters = operator_parameters
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def __str__(self):
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return "Operator: " + self.operator_name + " with parameters: " + str(self.operator_parameters)
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class DeformModifierSpec:
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"""
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Holds a list of deform modifier and OperatorSpecObjectMode.
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For deform modifiers which have an object operator
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"""
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def __init__(self, frame_number: int, modifier_list: list, object_operator_spec: OperatorSpecObjectMode = None):
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"""
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Constructs a Deform Modifier spec (for user input).
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:arg frame_number: int - the frame at which animated keyframe is inserted
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:arg modifier_list: ModifierSpec - contains modifiers
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:arg object_operator_spec: OperatorSpecObjectMode - contains object operators
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"""
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self.frame_number = frame_number
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self.modifier_list = modifier_list
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self.object_operator_spec = object_operator_spec
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def __str__(self):
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return "Modifier: " + str(self.modifier_list) + " with object operator " + str(self.object_operator_spec)
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class MeshTest(ABC):
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"""
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A mesh testing Abstract class that hold common functionalities for testting operations.
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"""
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def __init__(self, test_object_name, exp_object_name, test_name=None, threshold=None, do_compare=True):
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"""
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:arg test_object_name: str - Name of object of mesh type to run the operations on.
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:arg exp_object_name: str - Name of object of mesh type that has the expected
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geometry after running the operations.
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:arg test_name: str - Name of the test.
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:arg threshold: exponent: To allow variations and accept difference to a certain degree.
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:arg do_compare: bool - True if we want to compare the test and expected objects, False otherwise.
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"""
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self.test_object_name = test_object_name
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self.exp_object_name = exp_object_name
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if test_name:
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self.test_name = test_name
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else:
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filepath = bpy.data.filepath
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self.test_name = bpy.path.display_name_from_filepath(filepath)
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self.threshold = threshold
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self.do_compare = do_compare
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self.update = os.getenv("BLENDER_TEST_UPDATE") is not None
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self.verbose = os.getenv("BLENDER_VERBOSE") is not None
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self.test_updated_counter = 0
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objects = bpy.data.objects
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self.evaluated_object = None
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self.test_object = objects[self.test_object_name]
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if self.update:
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if exp_object_name in objects:
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self.expected_object = objects[self.exp_object_name]
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else:
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self.create_expected_object()
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else:
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self.expected_object = objects[self.exp_object_name]
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def create_expected_object(self):
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"""
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Creates an expected object 10 units away
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in Y direction from test object.
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"""
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if self.verbose:
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print("Creating expected object...")
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self.create_evaluated_object()
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self.expected_object = self.evaluated_object
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self.expected_object.name = self.exp_object_name
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x, y, z = self.test_object.location
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self.expected_object.location = (x, y + 10, z)
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bpy.ops.wm.save_as_mainfile(filepath=bpy.data.filepath)
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def create_evaluated_object(self):
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"""
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Creates an evaluated object.
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"""
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bpy.context.view_layer.objects.active = self.test_object
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# Duplicate test object.
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bpy.ops.object.mode_set(mode="OBJECT")
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bpy.ops.object.select_all(action="DESELECT")
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bpy.context.view_layer.objects.active = self.test_object
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self.test_object.select_set(True)
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bpy.ops.object.duplicate()
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self.evaluated_object = bpy.context.active_object
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self.evaluated_object.name = "evaluated_object"
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@staticmethod
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def _print_result(result):
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"""
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Prints the comparison, selection and validation result.
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"""
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print("Results:")
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for key in result:
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print("{} : {}".format(key, result[key][1]))
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print()
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def run_test(self):
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"""
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Runs a single test, runs it again if test file is updated.
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"""
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print("\nSTART {} test.".format(self.test_name))
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self.create_evaluated_object()
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self.apply_operations(self.evaluated_object.name)
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if not self.do_compare:
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print("\nVisualization purpose only: Open Blender in GUI mode")
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print("Compare evaluated and expected object in Blender.\n")
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return False
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result = self.compare_meshes(self.evaluated_object, self.expected_object, self.threshold)
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# Initializing with True to get correct resultant of result_code booleans.
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success = True
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inside_loop_flag = False
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for key in result:
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inside_loop_flag = True
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success = success and result[key][0]
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# Check "success" is actually evaluated and is not the default True value.
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if not inside_loop_flag:
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success = False
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if success:
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self.print_passed_test_result(result)
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# Clean up.
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if self.verbose:
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print("Cleaning up...")
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# Delete evaluated_test_object.
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bpy.ops.object.delete()
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return True
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elif self.update:
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self.print_failed_test_result(result)
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self.update_failed_test()
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# Check for testing the blend file is updated and re-running.
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# Also safety check to avoid infinite recursion loop.
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if self.test_updated_counter == 1:
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print("Re-running test...")
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self.run_test()
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else:
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print("The test fails consistently. Exiting...")
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return False
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else:
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self.print_failed_test_result(result)
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return False
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def print_failed_test_result(self, result):
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"""
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Print results for failed test.
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"""
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print("FAILED {} test with the following: ".format(self.test_name))
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self._print_result(result)
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def print_passed_test_result(self, result):
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"""
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Print results for passing test.
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"""
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print("PASSED {} test successfully.".format(self.test_name))
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self._print_result(result)
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def do_selection(self, mesh: bpy.types.Mesh, select_mode: str, selection, select_history: bool):
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"""
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Do selection on a mesh.
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:arg mesh: bpy.types.Mesh - input mesh
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:arg: select_mode: str - selection mode. Must be 'VERT', 'EDGE' or 'FACE'
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:arg: selection: sequence - indices of selection.
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:arg: select_history: bool - load selection into bmesh selection history
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Example: select_mode='VERT' and selection={1,2,3} selects veritces 1, 2 and 3 of input mesh
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"""
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if select_history and isinstance(selection, set):
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raise Exception("'selection' must be an ordered sequence, not a 'set' type when 'select_history=True'")
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# Deselect all objects.
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bpy.ops.object.mode_set(mode='EDIT')
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bpy.ops.mesh.select_all(action='DESELECT')
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bm = bmesh.from_edit_mesh(mesh)
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# bpy.ops.object.mode_set(mode='OBJECT')
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bpy.context.tool_settings.mesh_select_mode = (select_mode == 'VERT',
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select_mode == 'EDGE',
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select_mode == 'FACE')
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items = (
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bm.verts if select_mode == 'VERT' else
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bm.edges if select_mode == 'EDGE' else
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bm.faces if select_mode == 'FACE' else None
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)
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items.ensure_lookup_table()
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if items is None:
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raise ValueError("Invalid selection mode")
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for index in selection:
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items[index].select = True
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if select_history:
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for index in selection:
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bm.select_history.add(items[index])
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bm.select_history.validate()
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bpy.ops.object.mode_set(mode='OBJECT')
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def update_failed_test(self):
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"""
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Updates expected object.
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"""
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self.evaluated_object.location = self.expected_object.location
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expected_object_name = self.expected_object.name
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evaluated_selection = {
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v.index for v in self.evaluated_object.data.vertices if v.select}
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bpy.data.objects.remove(self.expected_object, do_unlink=True)
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self.evaluated_object.name = expected_object_name
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self.do_selection(self.evaluated_object.data, "VERT", evaluated_selection, False)
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# Save file.
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bpy.ops.wm.save_as_mainfile(filepath=bpy.data.filepath)
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self.test_updated_counter += 1
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self.expected_object = self.evaluated_object
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@staticmethod
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def compare_meshes(evaluated_object, expected_object, threshold):
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"""
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Compares evaluated object mesh with expected object mesh.
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:arg evaluated_object: first object for comparison.
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:arg expected_object: second object for comparison.
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:arg threshold: exponent: To allow variations and accept difference to a certain degree.
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:return: dict: Contains results of different comparisons.
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"""
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objects = bpy.data.objects
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evaluated_test_mesh = objects[evaluated_object.name].data
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expected_mesh = expected_object.data
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result_codes = {}
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# Mesh Comparison.
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if threshold:
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result_mesh = expected_mesh.unit_test_compare(
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mesh=evaluated_test_mesh, threshold=threshold)
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else:
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result_mesh = expected_mesh.unit_test_compare(
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mesh=evaluated_test_mesh)
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if result_mesh == "Same":
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result_codes['Mesh Comparison'] = (True, result_mesh)
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else:
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result_codes['Mesh Comparison'] = (False, result_mesh)
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# Selection comparison.
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selected_evaluated_verts = [
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v.index for v in evaluated_test_mesh.vertices if v.select]
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selected_expected_verts = [
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v.index for v in expected_mesh.vertices if v.select]
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if selected_evaluated_verts == selected_expected_verts:
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result_selection = "Same"
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result_codes['Selection Comparison'] = (True, result_selection)
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else:
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result_selection = "Selection doesn't match."
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result_codes['Selection Comparison'] = (False, result_selection)
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# Validation check.
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result_validation = evaluated_test_mesh.validate(verbose=True)
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if result_validation:
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result_validation = "Invalid Mesh"
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result_codes['Mesh Validation'] = (False, result_validation)
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else:
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result_validation = "Valid"
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result_codes['Mesh Validation'] = (True, result_validation)
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return result_codes
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@abstractmethod
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def apply_operations(self, object_name):
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"""
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Apply operations on this object.
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object_name (str): Name of the test object on which operations will be applied.
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"""
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pass
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class SpecMeshTest(MeshTest):
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"""
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A mesh testing class inherited from MeshTest class targeted at testing modifiers and operators on a single object.
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It holds a stack of mesh operations, i.e. modifiers or operators. The test is executed using MeshTest's run_test.
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"""
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def __init__(self, test_name,
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test_object_name,
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exp_object_name,
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operations_stack=None,
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apply_modifier=True,
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threshold=None):
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"""
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Constructor for SpecMeshTest.
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:arg test_name: str - Name of the test.
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:arg test_object_name: str - Name of object of mesh type to run the operations on.
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:arg exp_object_name: str - Name of object of mesh type that has the expected
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geometry after running the operations.
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:arg operations_stack: list - stack holding operations to perform on the test_object.
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:arg apply_modifier: bool - True if we want to apply the modifiers right after adding them to the object.
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- True if we want to apply the modifier to list of modifiers, after some operation.
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This affects operations of type ModifierSpec and DeformModifierSpec.
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"""
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super().__init__(test_object_name, exp_object_name, test_name, threshold)
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self.test_name = test_name
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if operations_stack is None:
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self.operations_stack = []
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else:
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self.operations_stack = operations_stack
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self.apply_modifier = apply_modifier
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def apply_operations(self, evaluated_test_object_name):
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# Add modifiers and operators.
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SpecMeshTest.apply_operations.__doc__ = MeshTest.apply_operations.__doc__
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evaluated_test_object = bpy.data.objects[evaluated_test_object_name]
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if self.verbose:
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print("Applying operations...")
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for operation in self.operations_stack:
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if isinstance(operation, ModifierSpec):
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self._add_modifier(evaluated_test_object, operation)
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if self.apply_modifier:
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self._apply_modifier(
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evaluated_test_object, operation.modifier_name)
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elif isinstance(operation, OperatorSpecEditMode):
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self._apply_operator_edit_mode(
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evaluated_test_object, operation)
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elif isinstance(operation, OperatorSpecObjectMode):
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self._apply_operator_object_mode(operation)
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elif isinstance(operation, DeformModifierSpec):
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self._apply_deform_modifier(evaluated_test_object, operation)
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elif isinstance(operation, ParticleSystemSpec):
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self._apply_particle_system(evaluated_test_object, operation)
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else:
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raise ValueError("Expected operation of type {} or {} or {} or {}. Got {}".
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format(type(ModifierSpec), type(OperatorSpecEditMode),
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type(OperatorSpecObjectMode), type(ParticleSystemSpec), type(operation)))
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|
def _set_parameters_impl(self, modifier, modifier_parameters, nested_settings_path, modifier_name):
|
|
"""
|
|
Doing a depth first traversal of the modifier parameters and setting their values.
|
|
:arg: modifier: Of type modifier, its altered to become a setting in recursion.
|
|
:arg: modifier_parameters : dict or sequence, a simple/nested dictionary of modifier parameters.
|
|
:arg: nested_settings_path : list(stack): helps in tracing path to each node.
|
|
"""
|
|
if not isinstance(modifier_parameters, dict):
|
|
param_setting = None
|
|
for i, setting in enumerate(nested_settings_path):
|
|
|
|
# We want to set the attribute only when we have reached the last setting.
|
|
# Applying of intermediate settings is meaningless.
|
|
if i == len(nested_settings_path) - 1:
|
|
setattr(modifier, setting, modifier_parameters)
|
|
|
|
elif hasattr(modifier, setting):
|
|
param_setting = getattr(modifier, setting)
|
|
# getattr doesn't accept canvas_surfaces["Surface"], but we need to pass it to setattr.
|
|
if setting == "canvas_surfaces":
|
|
modifier = param_setting.active
|
|
else:
|
|
modifier = param_setting
|
|
else:
|
|
# Clean up first
|
|
bpy.ops.object.delete()
|
|
raise Exception("Modifier '{}' has no parameter named '{}'".
|
|
format(modifier_name, setting))
|
|
|
|
# It pops the current node before moving on to its sibling.
|
|
nested_settings_path.pop()
|
|
return
|
|
|
|
for key in modifier_parameters:
|
|
nested_settings_path.append(key)
|
|
self._set_parameters_impl(
|
|
modifier, modifier_parameters[key], nested_settings_path, modifier_name)
|
|
|
|
if nested_settings_path:
|
|
nested_settings_path.pop()
|
|
|
|
def set_parameters(self, modifier, modifier_parameters):
|
|
"""
|
|
Wrapper for _set_parameters_impl.
|
|
"""
|
|
settings = []
|
|
modifier_name = modifier.name
|
|
self._set_parameters_impl(modifier, modifier_parameters, settings, modifier_name)
|
|
|
|
def _add_modifier(self, test_object, modifier_spec: ModifierSpec):
|
|
"""
|
|
Add modifier to object.
|
|
|
|
:arg test_object: bpy.types.Object - Blender object to apply modifier on.
|
|
:arg modifier_spec: ModifierSpec - ModifierSpec object with parameters
|
|
"""
|
|
bakers_list = ['CLOTH', 'SOFT_BODY', 'DYNAMIC_PAINT', 'FLUID']
|
|
scene = bpy.context.scene
|
|
scene.frame_set(1)
|
|
modifier = test_object.modifiers.new(modifier_spec.modifier_name,
|
|
modifier_spec.modifier_type)
|
|
|
|
if modifier is None:
|
|
raise Exception("This modifier type is already added on the Test Object, please remove it and try again.")
|
|
|
|
if self.verbose:
|
|
print("Created modifier '{}' of type '{}'.".
|
|
format(modifier_spec.modifier_name, modifier_spec.modifier_type))
|
|
|
|
# Special case for Dynamic Paint, need to toggle Canvas on.
|
|
if modifier.type == "DYNAMIC_PAINT":
|
|
bpy.ops.dpaint.type_toggle(type='CANVAS')
|
|
|
|
self.set_parameters(modifier, modifier_spec.modifier_parameters)
|
|
|
|
if modifier.type in bakers_list:
|
|
self._bake_current_simulation(test_object, modifier.name, modifier_spec.frame_end)
|
|
|
|
scene.frame_set(modifier_spec.frame_end)
|
|
|
|
def _apply_modifier(self, test_object, modifier_name):
|
|
# Modifier automatically gets applied when converting from Curve to Mesh.
|
|
if test_object.type == 'CURVE':
|
|
bpy.ops.object.convert(target='MESH')
|
|
elif test_object.type == 'MESH':
|
|
bpy.ops.object.modifier_apply(modifier=modifier_name)
|
|
else:
|
|
raise Exception("This object type is not yet supported!")
|
|
|
|
def _bake_current_simulation(self, test_object, test_modifier_name, frame_end):
|
|
"""
|
|
FLUID: Bakes the simulation
|
|
SOFT BODY, CLOTH, DYNAMIC PAINT: Overrides the point_cache context and then bakes.
|
|
"""
|
|
|
|
for scene in bpy.data.scenes:
|
|
for modifier in test_object.modifiers:
|
|
if modifier.type == 'FLUID':
|
|
bpy.ops.fluid.bake_all()
|
|
break
|
|
|
|
elif modifier.type == 'CLOTH' or modifier.type == 'SOFT_BODY':
|
|
test_object.modifiers[test_modifier_name].point_cache.frame_end = frame_end
|
|
override_setting = modifier.point_cache
|
|
context_override = {'scene': scene, 'active_object': test_object, 'point_cache': override_setting}
|
|
with bpy.context.temp_override(**context_override):
|
|
bpy.ops.ptcache.bake(bake=True)
|
|
break
|
|
|
|
elif modifier.type == 'DYNAMIC_PAINT':
|
|
dynamic_paint_setting = modifier.canvas_settings.canvas_surfaces.active
|
|
override_setting = dynamic_paint_setting.point_cache
|
|
context_override = {'scene': scene, 'active_object': test_object, 'point_cache': override_setting}
|
|
with bpy.context.temp_override(**context_override):
|
|
bpy.ops.ptcache.bake(bake=True)
|
|
break
|
|
|
|
def _apply_particle_system(self, test_object, particle_sys_spec: ParticleSystemSpec):
|
|
"""
|
|
Applies Particle System settings to test objects
|
|
"""
|
|
bpy.context.scene.frame_set(1)
|
|
bpy.ops.object.select_all(action='DESELECT')
|
|
|
|
test_object.modifiers.new(particle_sys_spec.modifier_name, particle_sys_spec.modifier_type)
|
|
|
|
settings_name = test_object.particle_systems.active.settings.name
|
|
particle_setting = bpy.data.particles[settings_name]
|
|
if self.verbose:
|
|
print("Created modifier '{}' of type '{}'.".
|
|
format(particle_sys_spec.modifier_name, particle_sys_spec.modifier_type))
|
|
|
|
for param_name in particle_sys_spec.modifier_parameters:
|
|
try:
|
|
if param_name == "seed":
|
|
system_setting = test_object.particle_systems[particle_sys_spec.modifier_name]
|
|
setattr(system_setting, param_name, particle_sys_spec.modifier_parameters[param_name])
|
|
else:
|
|
setattr(particle_setting, param_name, particle_sys_spec.modifier_parameters[param_name])
|
|
|
|
if self.verbose:
|
|
print("\t set parameter '{}' with value '{}'".
|
|
format(param_name, particle_sys_spec.modifier_parameters[param_name]))
|
|
except AttributeError:
|
|
# Clean up first
|
|
bpy.ops.object.delete()
|
|
raise AttributeError("Modifier '{}' has no parameter named '{}'".
|
|
format(particle_sys_spec.modifier_type, param_name))
|
|
|
|
bpy.context.scene.frame_set(particle_sys_spec.frame_end)
|
|
test_object.select_set(True)
|
|
bpy.ops.object.duplicates_make_real()
|
|
test_object.select_set(True)
|
|
bpy.ops.object.join()
|
|
if self.apply_modifier:
|
|
self._apply_modifier(test_object, particle_sys_spec.modifier_name)
|
|
|
|
def _apply_operator_edit_mode(self, test_object, operator: OperatorSpecEditMode):
|
|
"""
|
|
Apply operator on test object.
|
|
|
|
:arg test_object: bpy.types.Object - Blender object to apply operator on.
|
|
:arg operator: OperatorSpecEditMode - OperatorSpecEditMode object with parameters.
|
|
"""
|
|
self.do_selection(
|
|
test_object.data,
|
|
operator.select_mode,
|
|
operator.selection,
|
|
select_history=operator.select_history,
|
|
)
|
|
|
|
# Apply operator in edit mode.
|
|
bpy.ops.object.mode_set(mode='EDIT')
|
|
bpy.ops.mesh.select_mode(type=operator.select_mode)
|
|
mesh_operator = getattr(bpy.ops.mesh, operator.operator_name)
|
|
|
|
try:
|
|
retval = mesh_operator(**operator.operator_parameters)
|
|
except AttributeError:
|
|
raise AttributeError("bpy.ops.mesh has no attribute {}".format(operator.operator_name))
|
|
except TypeError as ex:
|
|
raise TypeError("Incorrect operator parameters {!r} raised {!r}".format(operator.operator_parameters, ex))
|
|
|
|
if retval != {'FINISHED'}:
|
|
raise RuntimeError("Unexpected operator return value: {}".format(operator.operator_name))
|
|
if self.verbose:
|
|
print("Applied {}".format(operator))
|
|
|
|
bpy.ops.object.mode_set(mode='OBJECT')
|
|
|
|
def _apply_operator_object_mode(self, operator: OperatorSpecObjectMode):
|
|
"""
|
|
Applies the object operator.
|
|
"""
|
|
bpy.ops.object.mode_set(mode='OBJECT')
|
|
object_operator = getattr(bpy.ops.object, operator.operator_name)
|
|
|
|
try:
|
|
retval = object_operator(**operator.operator_parameters)
|
|
except AttributeError:
|
|
raise AttributeError("bpy.ops.object has no attribute {}".format(operator.operator_name))
|
|
except TypeError as ex:
|
|
raise TypeError("Incorrect operator parameters {!r} raised {!r}".format(operator.operator_parameters, ex))
|
|
|
|
if retval != {'FINISHED'}:
|
|
raise RuntimeError("Unexpected operator return value: {}".format(retval))
|
|
if self.verbose:
|
|
print("Applied operator {}".format(operator))
|
|
|
|
def _apply_deform_modifier(self, test_object, operation: list):
|
|
"""
|
|
arg: operation: list: List of modifiers or combination of modifier and object operator.
|
|
"""
|
|
|
|
scene = bpy.context.scene
|
|
scene.frame_set(1)
|
|
bpy.ops.object.mode_set(mode='OBJECT')
|
|
modifier_operations_list = operation.modifier_list
|
|
modifier_names = []
|
|
object_operations = operation.object_operator_spec
|
|
for modifier_operations in modifier_operations_list:
|
|
if isinstance(modifier_operations, ModifierSpec):
|
|
self._add_modifier(test_object, modifier_operations)
|
|
modifier_names.append(modifier_operations.modifier_name)
|
|
|
|
if isinstance(object_operations, OperatorSpecObjectMode):
|
|
self._apply_operator_object_mode(object_operations)
|
|
|
|
scene.frame_set(operation.frame_number)
|
|
|
|
if self.apply_modifier:
|
|
for mod_name in modifier_names:
|
|
self._apply_modifier(test_object, mod_name)
|
|
|
|
|
|
class BlendFileTest(MeshTest):
|
|
"""
|
|
A mesh testing class inherited from MeshTest aimed at testing operations like modifiers loaded directly from
|
|
blend file i.e. without adding them from scratch or without adding specifications.
|
|
"""
|
|
|
|
def apply_operations(self, evaluated_test_object_name):
|
|
|
|
BlendFileTest.apply_operations.__doc__ = MeshTest.apply_operations.__doc__
|
|
evaluated_test_object = bpy.data.objects[evaluated_test_object_name]
|
|
modifiers_list = evaluated_test_object.modifiers
|
|
if not modifiers_list:
|
|
raise Exception("No modifiers are added to test object.")
|
|
for modifier in modifiers_list:
|
|
bpy.ops.object.modifier_apply(modifier=modifier.name)
|
|
|
|
|
|
class GeoNodesSimulationTest(MeshTest):
|
|
"""
|
|
A mesh test that works similar to BlendFileTest but evaluates the scene at multiple
|
|
frames so that simulations can run.
|
|
"""
|
|
|
|
def __init__(self, test_object_name, exp_object_name, *, frames_num, **kwargs):
|
|
super().__init__(test_object_name, exp_object_name, **kwargs)
|
|
self.frames_num = frames_num
|
|
|
|
def apply_operations(self, evaluated_test_object_name):
|
|
GeoNodesSimulationTest.apply_operations.__doc__ = MeshTest.apply_operations.__doc__
|
|
|
|
evaluated_test_object = bpy.data.objects[evaluated_test_object_name]
|
|
modifiers_list = evaluated_test_object.modifiers
|
|
if not modifiers_list:
|
|
raise Exception("The object has no modifiers.")
|
|
|
|
scene = bpy.context.scene
|
|
for frame in range(1, self.frames_num + 1):
|
|
scene.frame_set(frame)
|
|
|
|
for modifier in modifiers_list:
|
|
bpy.ops.object.modifier_apply(modifier=modifier.name)
|
|
|
|
|
|
class RunTest:
|
|
"""
|
|
Helper class that stores and executes SpecMeshTest tests.
|
|
|
|
Example usage:
|
|
|
|
>>> modifier_list = [
|
|
>>> ModifierSpec("firstSUBSURF", "SUBSURF", {"quality": 5}),
|
|
>>> ModifierSpec("firstSOLIDIFY", "SOLIDIFY", {"thickness_clamp": 0.9, "thickness": 1})
|
|
>>> ]
|
|
>>> operator_list = [
|
|
>>> OperatorSpecEditMode("delete_edgeloop", {}, "EDGE", MONKEY_LOOP_EDGE),
|
|
>>> ]
|
|
>>> tests = [
|
|
>>> SpecMeshTest("Test1", "testCube", "expectedCube", modifier_list),
|
|
>>> SpecMeshTest("Test2", "testCube_2", "expectedCube_2", modifier_list),
|
|
>>> SpecMeshTest("MonkeyDeleteEdge", "testMonkey","expectedMonkey", operator_list)
|
|
>>> ]
|
|
>>> modifiers_test = RunTest(tests)
|
|
>>> modifiers_test.run_all_tests()
|
|
"""
|
|
|
|
def __init__(self, tests, apply_modifiers=False, do_compare=False):
|
|
"""
|
|
Construct a test suite.
|
|
|
|
:arg tests: list - list of modifier or operator test cases. Each element in the list must contain the
|
|
following in the correct order:
|
|
0) test_name: str - unique test name
|
|
1) test_object_name: bpy.Types.Object - test object
|
|
2) expected_object_name: bpy.Types.Object - expected object
|
|
3) modifiers or operators: list - list of mesh_test.ModifierSpec objects or
|
|
mesh_test.OperatorSpecEditMode objects
|
|
"""
|
|
self.tests = tests
|
|
self._ensure_unique_test_name_or_raise_error()
|
|
self.apply_modifiers = apply_modifiers
|
|
self.do_compare = do_compare
|
|
self.verbose = os.environ.get("BLENDER_VERBOSE") is not None
|
|
self._failed_tests_list = []
|
|
|
|
def _ensure_unique_test_name_or_raise_error(self):
|
|
"""
|
|
Check if the test name is unique else raise an error.
|
|
"""
|
|
all_test_names = []
|
|
for each_test in self.tests:
|
|
test_name = each_test.test_name
|
|
all_test_names.append(test_name)
|
|
|
|
seen_name = set()
|
|
for ele in all_test_names:
|
|
if ele in seen_name:
|
|
raise ValueError("{} is a duplicate, write a new unique name.".format(ele))
|
|
else:
|
|
seen_name.add(ele)
|
|
|
|
def run_all_tests(self):
|
|
"""
|
|
Run all tests in self.tests list. Displays all failed tests at bottom.
|
|
"""
|
|
for test_number, each_test in enumerate(self.tests):
|
|
test_name = each_test.test_name
|
|
if self.verbose:
|
|
print()
|
|
print("Running test {}/{}: {}...".format(test_number + 1, len(self.tests), test_name))
|
|
success = self.run_test(test_name)
|
|
|
|
if not success:
|
|
self._failed_tests_list.append(test_name)
|
|
|
|
if len(self._failed_tests_list) != 0:
|
|
print("\nFollowing tests failed: {}".format(self._failed_tests_list))
|
|
|
|
blender_path = bpy.app.binary_path
|
|
blend_path = bpy.data.filepath
|
|
frame = inspect.stack()[1]
|
|
module = inspect.getmodule(frame[0])
|
|
python_path = module.__file__
|
|
|
|
print("Run following command to open Blender and run the failing test:")
|
|
print("{} {} --python {} -- {} {}"
|
|
.format(blender_path, blend_path, python_path, "--run-test", "<test_name>"))
|
|
|
|
raise Exception("Tests {} failed".format(self._failed_tests_list))
|
|
|
|
def run_test(self, test_name: str):
|
|
"""
|
|
Run a single test from self.tests list.
|
|
|
|
:arg test_name: int - name of test
|
|
:return: bool - True if test passed, False otherwise.
|
|
"""
|
|
case = None
|
|
for index, each_test in enumerate(self.tests):
|
|
if test_name == each_test.test_name:
|
|
case = self.tests[index]
|
|
break
|
|
|
|
if case is None:
|
|
raise Exception('No test called {} found!'.format(test_name))
|
|
|
|
test = case
|
|
test.apply_modifier = self.apply_modifiers
|
|
test.do_compare = self.do_compare
|
|
|
|
success = test.run_test()
|
|
return success
|