def _validate_phase_volume_fraction(self, value): value = meta_validation.cast_data_type(value, 'PHASE_VOLUME_FRACTION') meta_validation.check_valid_shape(value, [None], 'PHASE_VOLUME_FRACTION') meta_validation.check_elements(value, [None], 'PHASE_VOLUME_FRACTION') return value
def _validate_computational_method(self, value): value = meta_validation.cast_data_type(value, 'COMPUTATIONAL_METHOD') meta_validation.check_valid_shape(value, [None], 'COMPUTATIONAL_METHOD') meta_validation.check_elements(value, [None], 'COMPUTATIONAL_METHOD') return value
def _validate_lattice_parameter(self, value): value = meta_validation.cast_data_type(value, 'LATTICE_PARAMETER') meta_validation.check_valid_shape(value, [3], 'LATTICE_PARAMETER') meta_validation.check_elements(value, [3], 'LATTICE_PARAMETER') return value
def _validate_size(self, value): value = meta_validation.cast_data_type(value, 'SIZE') meta_validation.check_valid_shape(value, [3], 'SIZE') meta_validation.check_elements(value, [3], 'SIZE') return value
def _validate_point(self, value): value = meta_validation.cast_data_type(value, 'POINT') meta_validation.check_valid_shape(value, [None], 'POINT') meta_validation.check_elements(value, [None], 'POINT') return value
def _validate_linear_constant(self, value): value = meta_validation.cast_data_type(value, 'LINEAR_CONSTANT') meta_validation.check_valid_shape(value, [2], 'LINEAR_CONSTANT') meta_validation.check_elements(value, [2], 'LINEAR_CONSTANT') return value
def _validate_power_law_index(self, value): value = meta_validation.cast_data_type(value, 'POWER_LAW_INDEX') meta_validation.check_valid_shape(value, [2], 'POWER_LAW_INDEX') meta_validation.check_elements(value, [2], 'POWER_LAW_INDEX') return value
def _validate_material(self, value): value = meta_validation.cast_data_type(value, 'MATERIAL') meta_validation.check_valid_shape(value, [None], 'MATERIAL') meta_validation.check_elements(value, [None], 'MATERIAL') return value
def _validate_edge(self, value): value = meta_validation.cast_data_type(value, 'EDGE') meta_validation.check_valid_shape(value, [None], 'EDGE') meta_validation.check_elements(value, [None], 'EDGE') return value
def _validate_temperature(self, value): value = meta_validation.cast_data_type(value, 'TEMPERATURE') meta_validation.check_valid_shape(value, [2], 'TEMPERATURE') meta_validation.check_elements(value, [2], 'TEMPERATURE') return value
def _validate_cell(self, value): value = meta_validation.cast_data_type(value, 'CELL') meta_validation.check_valid_shape(value, [None], 'CELL') meta_validation.check_elements(value, [None], 'CELL') return value
def _validate_condition(self, value): value = meta_validation.cast_data_type(value, 'CONDITION') meta_validation.check_valid_shape(value, [None], 'CONDITION') meta_validation.check_elements(value, [None], 'CONDITION') return value
def _validate_particle(self, value): value = meta_validation.cast_data_type(value, 'PARTICLE') meta_validation.check_valid_shape(value, [None], 'PARTICLE') meta_validation.check_elements(value, [None], 'PARTICLE') return value
def _validate_engine_feature(self, value): value = meta_validation.cast_data_type(value, 'ENGINE_FEATURE') meta_validation.check_valid_shape(value, [None], 'ENGINE_FEATURE') meta_validation.check_elements(value, [None], 'ENGINE_FEATURE') return value
def _validate_vector(self, value): value = meta_validation.cast_data_type(value, 'VECTOR') meta_validation.check_valid_shape(value, [3], 'VECTOR') meta_validation.check_elements(value, [3], 'VECTOR') return value
def _validate_bond(self, value): value = meta_validation.cast_data_type(value, 'BOND') meta_validation.check_valid_shape(value, [None], 'BOND') meta_validation.check_elements(value, [None], 'BOND') return value