Python retrieve_complete_definition_list примеры использования

Пример #1

Файл: objects_test.py Проект: fplk/mcs-scene-generator

def test_intuitive_physics_all_objects_diagonal_size():
    # The fall-down list should contain the move-across objects as well.
    for definition in util.retrieve_complete_definition_list(
        [objects.get_intuitive_physics(True)]
    )[0]:
        print(f'{definition}\n========================================')
        assert (
            (definition['dimensions']['x'] * math.sqrt(2)) <=
            (occluders.OCCLUDER_MAX_SCALE_X + util.MAX_SIZE_DIFFERENCE)
        )

Пример #2

def test_retrieve_complete_definition_list():
    list_1 = [{'type': 'ball', 'mass': 1}]
    actual_1 = retrieve_complete_definition_list([list_1])[0]
    assert len(actual_1) == 1

    list_2 = [{'type': 'ball', 'chooseSize': [{'mass': 1}, {'mass': 2}]}]
    actual_2 = retrieve_complete_definition_list([list_2])[0]
    assert len(actual_2) == 2

    list_3 = [
        {'type': 'sofa'},
        {'type': 'ball', 'chooseSize': [{'mass': 1}, {'mass': 2}]}
    ]
    actual_3 = retrieve_complete_definition_list([list_3])[0]
    assert len(actual_3) == 3

    list_4 = [
        {'type': 'sofa', 'chooseSize': [{'mass': 1}, {'mass': 3}]},
        {'type': 'ball', 'chooseSize': [{'mass': 1}, {'mass': 2}]}
    ]
    actual_4 = retrieve_complete_definition_list([list_4])[0]
    assert len(actual_4) == 4

    list_5 = [{'chooseType': [{'type': 'sphere'}, {'type': 'cube'}]}]
    actual_5 = retrieve_complete_definition_list([list_5])[0]
    assert len(actual_5) == 2

    list_6 = [
        {'type': 'sofa'},
        {'chooseType': [{'type': 'sphere'}, {'type': 'cube'}]}
    ]
    actual_6 = retrieve_complete_definition_list([list_6])[0]
    assert len(actual_6) == 3

    list_7 = [
        {'chooseType': [{'type': 'ball'}, {'type': 'sofa'}]},
        {'chooseType': [{'type': 'sphere'}, {'type': 'cube'}]}
    ]
    actual_7 = retrieve_complete_definition_list([list_7])[0]
    assert len(actual_7) == 4

    list_8 = [{
        'chooseMaterial': [
            {'materialCategory': ['metal']},
            {'materialCategory': ['plastic']}
        ],
        'chooseSize': [{'mass': 1}, {'mass': 2}],
        'chooseType': [{'type': 'ball'}, {'type': 'sofa'}]
    }]
    actual_8 = retrieve_complete_definition_list([list_8])[0]
    assert len(actual_8) == 8

Пример #3

Файл: objects_test.py Проект: fplk/mcs-scene-generator

def test_intuitive_physics_move_across_all_objects_untrained_shapes():
    definition_list = util.retrieve_complete_definition_list(
        [objects.get_intuitive_physics(False)]
    )[0]
    trained_list = util.retrieve_trained_definition_list([definition_list])[0]
    untrained_list = util.retrieve_untrained_definition_list(
        [definition_list],
        tags.SCENE.UNTRAINED_SHAPE
    )[0]

    for definition_1 in trained_list:
        option_list = [
            definition_2 for definition_2 in untrained_list
            if util.is_similar_except_in_shape(definition_1, definition_2,
                                               True)
        ]
        assert len(option_list) >= 2

Пример #4

Файл: objects_test.py Проект: fplk/mcs-scene-generator

def test_intuitive_physics_fall_down_complex_objects_untrained_sizes():
    definition_list = util.retrieve_complete_definition_list(
        [objects.get_intuitive_physics(True, False, True)]
    )[0]
    trained_list = util.retrieve_trained_definition_list([definition_list])[0]
    untrained_list = util.retrieve_untrained_definition_list(
        [definition_list],
        tags.SCENE.UNTRAINED_SIZE
    )[0]

    for definition_1 in trained_list:
        option_list = [
            definition_2 for definition_2 in untrained_list
            if util.is_similar_except_in_size(definition_1, definition_2,
                                              True)
        ]
        # We want at least two possible untrained objects.
        assert len(option_list) >= 2

Пример #5

def test_retrieve_complete_definition_list_nested_list():
    list_1 = [
        [{'chooseType': [{'type': 'ball'}, {'type': 'sofa'}]}],
        [{'chooseType': [{'type': 'sphere'}, {'type': 'cube'}]}]
    ]
    actual_1 = retrieve_complete_definition_list(list_1)
    assert len(actual_1) == 2
    assert len(actual_1[0]) == 2
    assert len(actual_1[1]) == 2

    type_list_a = [item['type'] for item in actual_1[0]]
    type_list_b = [item['type'] for item in actual_1[1]]
    assert (
        (
            'ball' in type_list_a and 'sofa' in type_list_a and
            'sphere' in type_list_b and 'cube' in type_list_b
        ) or (
            'ball' in type_list_b and 'sofa' in type_list_b and
            'sphere' in type_list_a and 'cube' in type_list_a
        )
    )

Пример #6

Файл: objects_test.py Проект: fplk/mcs-scene-generator

def test_all_objects_have_expected_properties():
    for definition_list in util.retrieve_complete_definition_list(
        objects.get(objects.ObjectDefinitionList.ALL)
    ):
        for object_definition in definition_list:
            print(f'{object_definition["type"]}')
            assert 'type' in object_definition
            assert 'size' in object_definition
            assert 'shape' in object_definition
            assert 'mass' in object_definition
            assert 'attributes' in object_definition
            assert 'dimensions' in object_definition
            assert 'materialCategory' in object_definition
            assert 'salientMaterials' in object_definition
            if len(object_definition['materialCategory']) == 0:
                assert 'color' in object_definition
            assert 'info' not in object_definition
            if 'massMultiplier' in object_definition:
                if object_definition['massMultiplier'] < 1:
                    print('[ERROR] Mass multiplier < 1 will cause '
                          'intermittent errors in other parts of the code')
                    assert False

Пример #7

def test_retrieve_complete_definition_list_choose_material():
    definition_list = [{
        'type': 'metal_thing',
        'chooseMaterial': [{'materialCategory': ['metal']}]
    }, {
        'type': 'plastic_thing',
        'chooseMaterial': [{'materialCategory': ['plastic']}]
    }, {
        'type': 'rubber_thing',
        'chooseMaterial': [{'materialCategory': ['rubber']}]
    }, {
        'type': 'wood_thing',
        'chooseMaterial': [{'materialCategory': ['wood']}]
    }, {
        'type': 'other_thing',
        'chooseMaterial': [
            {'materialCategory': ['metal']},
            {'materialCategory': ['plastic']},
            {'materialCategory': ['rubber']},
            {'materialCategory': ['wood']}
        ]
    }]

    actual_1 = retrieve_complete_definition_list([definition_list])[0]
    assert len(actual_1) == 8

    metal = [item for item in actual_1 if item['type'] == 'metal_thing']
    assert len(metal) == 1
    assert metal[0]['materialCategory'] == ['metal']
    assert 'materials' not in metal[0]

    plastic = [item for item in actual_1 if item['type'] == 'plastic_thing']
    assert len(plastic) == 1
    assert plastic[0]['materialCategory'] == ['plastic']
    assert 'materials' not in plastic[0]

    rubber = [item for item in actual_1 if item['type'] == 'rubber_thing']
    assert len(rubber) == 1
    assert rubber[0]['materialCategory'] == ['rubber']
    assert 'materials' not in rubber[0]

    wood = [item for item in actual_1 if item['type'] == 'wood_thing']
    assert len(wood) == 1
    assert wood[0]['materialCategory'] == ['wood']
    assert 'materials' not in wood[0]

    other_material_list = ['metal', 'plastic', 'rubber', 'wood']

    other = [item for item in actual_1 if item['type'] == 'other_thing']
    assert len(other) == 4

    assert other[0]['materialCategory'][0] in other_material_list
    other_material_list.remove(other[0]['materialCategory'][0])
    assert 'materials' not in other[0]

    assert other[1]['materialCategory'][0] in other_material_list
    other_material_list.remove(other[1]['materialCategory'][0])
    assert 'materials' not in other[1]

    assert other[2]['materialCategory'][0] in other_material_list
    other_material_list.remove(other[2]['materialCategory'][0])
    assert 'materials' not in other[2]

    assert other[3]['materialCategory'][0] in other_material_list
    other_material_list.remove(other[3]['materialCategory'][0])
    assert 'materials' not in other[3]

Пример #8

import random
import materials
import objects
from util import finalize_object_definition, instantiate_object, \
    random_real, move_to_location, retrieve_complete_definition_list, \
    retrieve_trained_definition_list, retrieve_untrained_definition_list, \
    is_similar_except_in_color, is_similar_except_in_shape, \
    is_similar_except_in_size, choose_distractor_definition


ALL_DEFINITIONS = [
    definition for definition_list in retrieve_complete_definition_list(
        objects.get(objects.ObjectDefinitionList.ALL)
    ) for definition in definition_list
]


PACIFIER = {
    "type": "pacifier",
    "color": "blue",
    "shape": "pacifier",
    "size": "tiny",
    "salientMaterials": ["plastic"],
    "attributes": ["moveable", "pickupable"],
    "dimensions": {
        "x": 0.07,
        "y": 0.04,
        "z": 0.05
    },
    "mass": 0.125,
    "offset": {

Пример #9

            'z': 0
        },
        'dimensions': {
            'x': 1,
            'y': 1,
            'z': 1
        }
    }]
}

PICKUPABLE_OBJECTS_WITHOUT_CONTAINMENTS = [
    'duck_on_wheels', 'chair_1', 'chair_2', 'table_1', 'table_3'
]

CONTAINER_DEFINITIONS = [
    definition for definition_list in util.retrieve_complete_definition_list(
        objects.get(objects.ObjectDefinitionList.CONTAINERS))
    for definition in definition_list
]

PICKUPABLE_DEFINITIONS = [
    definition for definition_list in util.retrieve_complete_definition_list(
        objects.get(objects.ObjectDefinitionList.PICKUPABLES))
    for definition in definition_list
]


def get_valid_containments(object_a, object_b=None):
    valid_containments = []
    for definition in CONTAINER_DEFINITIONS:
        if object_b:
            containment = can_contain_both(definition, object_a, object_b)