# Copyright (c) 2019 Ultimaker B.V. # Cura is released under the terms of the LGPLv3 or higher. import collections # For OrderedDict to ensure that the first iteration of preferred material is dependable. from unittest.mock import patch, MagicMock import pytest from cura.Machines.VariantNode import VariantNode import copy instance_container_metadata_dict = {"fdmprinter": {"no_variant": [{"base_file": "material_1", "id": "material_1"}, {"base_file": "material_2", "id": "material_2"}]}, "machine_1": {"no_variant": [{"base_file": "material_1", "id": "material_1"}, {"base_file": "material_2", "id": "material_2"}], "Variant One": [{"base_file": "material_1", "id": "material_1"}, {"base_file": "material_2", "id": "material_2"}]}} material_node_added_test_data = [({"type": "Not a material"}, ["material_1", "material_2"]), # Wrong type ({"type": "material", "base_file": "material_3"}, ["material_1", "material_2"]), # material_3 is on the "NOPE" list. ({"type": "material", "base_file": "material_4", "definition": "machine_3"}, ["material_1", "material_2"]), # Wrong machine ({"type": "material", "base_file": "material_4", "definition": "machine_1"}, ["material_1", "material_2", "material_4"]), # No variant ({"type": "material", "base_file": "material_4", "definition": "machine_1", "variant_name": "Variant Three"}, ["material_1", "material_2"]), # Wrong variant ({"type": "material", "base_file": "material_4", "definition": "machine_1", "variant_name": "Variant One"}, ["material_1", "material_2", "material_4"]) ] material_node_update_test_data = [({"type": "material", "base_file": "material_1", "definition": "machine_1", "variant_name": "Variant One"}, ["material_1"], ["material_2"]), ({"type": "material", "base_file": "material_1", "definition": "fdmprinter", "variant_name": "Variant One"}, [], ["material_2", "material_1"]), # Too generic ({"type": "material", "base_file": "material_1", "definition": "machine_2", "variant_name": "Variant One"}, [], ["material_2", "material_1"]) # Wrong definition ] metadata_dict = {} def getMetadataEntrySideEffect(*args, **kwargs): return metadata_dict.get(args[0]) def getInstanceContainerSideEffect(*args, **kwargs): variant = kwargs.get("variant") definition = kwargs.get("definition") if variant is not None: return instance_container_metadata_dict.get(definition).get(variant) return instance_container_metadata_dict.get(definition).get("no_variant") @pytest.fixture def machine_node(): mocked_machine_node = MagicMock() mocked_machine_node.container_id = "machine_1" mocked_machine_node.preferred_material = "preferred_material" return mocked_machine_node @pytest.fixture def empty_variant_node(machine_node): """Constructs a variant node without any subnodes. This is useful for performing tests on VariantNode without being dependent on how _loadAll works. """ container_registry = MagicMock( findContainersMetadata = MagicMock(return_value = [{"name": "test variant name"}]) ) with patch("UM.Settings.ContainerRegistry.ContainerRegistry.getInstance", MagicMock(return_value = container_registry)): with patch("cura.Machines.VariantNode.VariantNode._loadAll", MagicMock()): result = VariantNode("test_variant", machine = machine_node) return result @pytest.fixture def container_registry(): result = MagicMock() result.findInstanceContainersMetadata = MagicMock(side_effect = getInstanceContainerSideEffect) result.findContainersMetadata = MagicMock(return_value = [{"name": "Variant One"}]) return result def createMockedInstanceContainer(): result = MagicMock() result.getMetaDataEntry = MagicMock(side_effect=getMetadataEntrySideEffect) return result def createVariantNode(container_id, machine_node, container_registry): with patch("cura.Machines.VariantNode.MaterialNode"): # We're not testing the material node here, so patch it out. with patch("UM.Settings.ContainerRegistry.ContainerRegistry.getInstance", MagicMock(return_value=container_registry)): return VariantNode(container_id, machine_node) def test_variantNodeInit(container_registry, machine_node): node = createVariantNode("variant_1", machine_node, container_registry) assert "material_1" in node.materials assert "material_2" in node.materials assert len(node.materials) == 2 def test_variantNodeInit_excludedMaterial(container_registry, machine_node): machine_node.exclude_materials = ["material_1"] node = createVariantNode("variant_1", machine_node, container_registry) assert "material_1" not in node.materials assert "material_2" in node.materials assert len(node.materials) == 1 @pytest.mark.parametrize("metadata,material_result_list", material_node_added_test_data) def test_materialAdded(container_registry, machine_node, metadata, material_result_list): variant_node = createVariantNode("machine_1", machine_node, container_registry) machine_node.exclude_materials = ["material_3"] with patch("UM.Settings.ContainerRegistry.ContainerRegistry.getInstance", MagicMock(return_value = container_registry)): with patch("cura.Machines.VariantNode.MaterialNode"): # We're not testing the material node here, so patch it out. with patch.dict(metadata_dict, metadata): mocked_container = createMockedInstanceContainer() variant_node._materialAdded(mocked_container) assert len(material_result_list) == len(variant_node.materials) for name in material_result_list: assert name in variant_node.materials @pytest.mark.parametrize("metadata,changed_material_list,unchanged_material_list", material_node_update_test_data) def test_materialAdded_update(container_registry, machine_node, metadata, changed_material_list, unchanged_material_list): variant_node = createVariantNode("machine_1", machine_node, container_registry) original_material_nodes = copy.copy(variant_node.materials) with patch("UM.Settings.ContainerRegistry.ContainerRegistry.getInstance", MagicMock(return_value = container_registry)): with patch("cura.Machines.VariantNode.MaterialNode"): # We're not testing the material node here, so patch it out. with patch.dict(metadata_dict, metadata): mocked_container = createMockedInstanceContainer() variant_node._materialAdded(mocked_container) for key in unchanged_material_list: assert original_material_nodes[key] == variant_node.materials[key] for key in changed_material_list: assert original_material_nodes[key] != variant_node.materials[key] def test_preferredMaterialExactMatch(empty_variant_node): """Tests the preferred material when the exact base file is available in the materials list for this node. """ empty_variant_node.materials = { "some_different_material": MagicMock(getMetaDataEntry = lambda x: 3), "preferred_material": MagicMock(getMetaDataEntry = lambda x: 3) # Exact match. } empty_variant_node.machine.preferred_material = "preferred_material" assert empty_variant_node.preferredMaterial(approximate_diameter = 3) == empty_variant_node.materials["preferred_material"], "It should match exactly on this one since it's the preferred material." def test_preferredMaterialSubmaterial(empty_variant_node): """Tests the preferred material when a submaterial is available in the materials list for this node. """ empty_variant_node.materials = { "some_different_material": MagicMock(getMetaDataEntry = lambda x: 3), "preferred_material_base_file_aa04": MagicMock(getMetaDataEntry = lambda x: 3) # This is a submaterial of the preferred material. } empty_variant_node.machine.preferred_material = "preferred_material_base_file_aa04" assert empty_variant_node.preferredMaterial(approximate_diameter = 3) == empty_variant_node.materials["preferred_material_base_file_aa04"], "It should match on the submaterial just as well." def test_preferredMaterialDiameter(empty_variant_node): """Tests the preferred material matching on the approximate diameter of the filament. """ empty_variant_node.materials = { "some_different_material": MagicMock(getMetaDataEntry = lambda x: 3), "preferred_material_wrong_diameter": MagicMock(getMetaDataEntry = lambda x: 2), # Approximate diameter is 2 instead of 3. "preferred_material_correct_diameter": MagicMock(getMetaDataEntry = lambda x: 3) # Correct approximate diameter. } empty_variant_node.machine.preferred_material = "preferred_material_correct_diameter" assert empty_variant_node.preferredMaterial(approximate_diameter = 3) == empty_variant_node.materials["preferred_material_correct_diameter"], "It should match only on the material with correct diameter." def test_preferredMaterialDiameterNoMatch(empty_variant_node): """Tests the preferred material matching on a different material if the diameter is wrong.""" empty_variant_node.materials = collections.OrderedDict() empty_variant_node.materials["some_different_material"] = MagicMock(getMetaDataEntry = lambda x: 3) # This one first so that it gets iterated over first. empty_variant_node.materials["preferred_material"] = MagicMock(getMetaDataEntry = lambda x: 2) # Wrong diameter. assert empty_variant_node.preferredMaterial(approximate_diameter = 3) == empty_variant_node.materials["some_different_material"], "It should match on another material with the correct diameter if the preferred one is unavailable." def test_preferredMaterialDiameterPreference(empty_variant_node): """Tests that the material diameter is considered more important to match than the preferred diameter. """ empty_variant_node.materials = collections.OrderedDict() empty_variant_node.materials["some_different_material"] = MagicMock(getMetaDataEntry = lambda x: 2) # This one first so that it gets iterated over first. empty_variant_node.materials["preferred_material"] = MagicMock(getMetaDataEntry = lambda x: 2) # Matches on ID but not diameter. empty_variant_node.materials["not_preferred_but_correct_diameter"] = MagicMock(getMetaDataEntry = lambda x: 3) # Matches diameter but not ID. assert empty_variant_node.preferredMaterial(approximate_diameter = 3) == empty_variant_node.materials["not_preferred_but_correct_diameter"], "It should match on the correct diameter even if it's not the preferred one."