# Copyright 2020 Huawei Technologies Co., Ltd # # Licensed under the Apache License, Version 2.0 (the "License"); # you may not use this file except in compliance with the License. # You may obtain a copy of the License at # # http://www.apache.org/licenses/LICENSE-2.0 # # Unless required by applicable law or agreed to in writing, software # distributed under the License is distributed on an "AS IS" BASIS, # WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. # See the License for the specific language governing permissions and # limitations under the License. # ============================================================================ """ test partial""" from functools import partial import numpy as np import pytest from mindspore import nn, Tensor, context context.set_context(mode=context.GRAPH_MODE) def test_partial_pos_arg(): """ Feature: ALL TO ALL Description: test cases for partial_pos_arg Expectation: the result match given one """ class Net(nn.Cell): def __init__(self): super(Net, self).__init__() def show(self, x, y, z): return x, y, z def construct(self, x, y, z): f = partial(self.show, x) ret = f(y, z) return ret class Net2(nn.Cell): def __init__(self): super(Net2, self).__init__() self.show = lambda x, y, z: (x, y, z) def construct(self, x, y, z): f = partial(self.show, x) ret = f(y, z) return ret x = Tensor(np.arange(3).reshape((3,)).astype(np.float32)) y = Tensor(np.arange(3 * 4).reshape((3, 4)).astype(np.float32)) z = Tensor(np.arange(3 * 4 * 5).reshape((3, 4, 5)).astype(np.float32)) for net in [Net(), Net2()]: net(x, y, z) def test_partial_key_ward_arg(): """ Feature: ALL TO ALL Description: test cases for partial_key_ward_arg Expectation: the result match given one """ class Net(nn.Cell): def __init__(self): super(Net, self).__init__() def show(self, x, y, z): return x, y, z def construct(self, x, y, z): f = partial(self.show, x=x) ret = f(y=y, z=z) return ret class Net2(nn.Cell): def __init__(self): super(Net2, self).__init__() self.show = lambda x, y, z: (x, y, z) def construct(self, x, y, z): f = partial(self.show, x=x) ret = f(y=y, z=z) return ret x = Tensor(np.arange(3).reshape((3,)).astype(np.float32)) y = Tensor(np.arange(3 * 4).reshape((3, 4)).astype(np.float32)) z = Tensor(np.arange(3 * 4 * 5).reshape((3, 4, 5)).astype(np.float32)) for net in [Net(), Net2()]: net(x, y, z) def test_partial_key_ward_arg_update(): """ Feature: ALL TO ALL Description: test cases for partial_key_ward_arg_update Expectation: the result match given one """ class Net(nn.Cell): def __init__(self): super(Net, self).__init__() def show(self, x, y, z): return x, y, z def construct(self, x, y, z): f = partial(self.show, x=x, y=y) ret = f(y=y, z=z) return ret class Net2(nn.Cell): def __init__(self): super(Net2, self).__init__() self.show = lambda x, y, z: (x, y, z) def construct(self, x, y, z): f = partial(self.show, x=x, y=y) ret = f(y=y, z=z) return ret x = Tensor(np.arange(3).reshape((3,)).astype(np.float32)) y = Tensor(np.arange(3 * 4).reshape((3, 4)).astype(np.float32)) z = Tensor(np.arange(3 * 4 * 5).reshape((3, 4, 5)).astype(np.float32)) for net in [Net(), Net2()]: net(x, y, z) def test_partial_key_ward_arg_and_pos_arg(): """ Feature: ALL TO ALL Description: test cases for partial_key_ward_arg_and_pos_arg Expectation: the result match given one """ class Net(nn.Cell): def __init__(self): super(Net, self).__init__() def show(self, x, y, z): return x, y, z def construct(self, x, y, z): f = partial(self.show, y=y) ret = f(2, z=z) return ret class Net2(nn.Cell): def __init__(self): super(Net2, self).__init__() self.show = lambda x, y, z: (x, y, z) def construct(self, x, y, z): f = partial(self.show, y=y) ret = f(2, z=z) return ret x = Tensor(np.arange(3).reshape((3,)).astype(np.float32)) y = Tensor(np.arange(3 * 4).reshape((3, 4)).astype(np.float32)) z = Tensor(np.arange(3 * 4 * 5).reshape((3, 4, 5)).astype(np.float32)) for net in [Net(), Net2()]: net(x, y, z) def test_partial_pos_arg_const(): """ Feature: ALL TO ALL Description: test cases for partial_pos_arg_const Expectation: the result match given one """ class Net(nn.Cell): def __init__(self): super(Net, self).__init__() def show(self, x, y, z): return x, y, z def construct(self): f = partial(self.show, 1) ret = f(2, 3) return ret class Net2(nn.Cell): def __init__(self): super(Net2, self).__init__() self.show = lambda x, y, z: (x, y, z) def construct(self): f = partial(self.show, 1) ret = f(2, 3) return ret for net in [Net(), Net2()]: assert net() == (1, 2, 3) def test_partial_key_ward_arg_const(): """ Feature: ALL TO ALL Description: test cases for partial_key_ward_arg_const Expectation: the result match given one """ class Net(nn.Cell): def __init__(self): super(Net, self).__init__() def show(self, x, y, z): return x, y, z def construct(self): f = partial(self.show, x=1) ret = f(y=2, z=3) return ret class Net2(nn.Cell): def __init__(self): super(Net2, self).__init__() self.show = lambda x, y, z: (x, y, z) def construct(self): f = partial(self.show, x=1) ret = f(y=2, z=3) return ret for net in [Net(), Net2()]: assert net() == (1, 2, 3) def test_partial_key_ward_arg_update_const(): """ Feature: ALL TO ALL Description: test cases for partial_key_ward_arg_update_const Expectation: the result match given one """ class Net(nn.Cell): def __init__(self): super(Net, self).__init__() def show(self, x, y, z): return x, y, z def construct(self): f = partial(self.show, x=1, y=2) ret = f(y=3, z=4) return ret class Net2(nn.Cell): def __init__(self): super(Net2, self).__init__() self.show = lambda x, y, z: (x, y, z) def construct(self): f = partial(self.show, x=1, y=2) ret = f(y=3, z=4) return ret for net in [Net(), Net2()]: assert net() == (1, 3, 4) def test_partial_key_ward_arg_and_pos_arg_const(): """ Feature: ALL TO ALL Description: test cases for partial_key_ward_arg_and_pos_arg_const Expectation: the result match given one """ class Net(nn.Cell): def __init__(self): super(Net, self).__init__() def show(self, x, y, z): return x, y, z def construct(self): f = partial(self.show, y=2) ret = f(1, z=3) return ret class Net2(nn.Cell): def __init__(self): super(Net2, self).__init__() self.show = lambda x, y, z: (x, y, z) def construct(self): f = partial(self.show, y=2) ret = f(1, z=3) return ret for net in [Net(), Net2()]: assert net() == (1, 2, 3) def test_partial_key_ward_arg_and_pos_arg_const_multi_assign_x(): """ Feature: ALL TO ALL Description: test cases for partial_key_ward_arg_and_pos_arg_const_multi_assign_x Expectation: the result match given one """ class Net(nn.Cell): def __init__(self): super(Net, self).__init__() def show(self, x, y, z): return x, y, z def construct(self): f = partial(self.show, x=1) ret = f(1, 2, 3) return ret class Net2(nn.Cell): def __init__(self): super(Net2, self).__init__() self.show = lambda x, y, z: (x, y, z) def construct(self): f = partial(self.show, x=1) ret = f(1, 2, 3) return ret for net in [Net(), Net2()]: with pytest.raises(TypeError) as ex: net() assert "Multiply values for specific argument: x" in str(ex.value) def test_partial_key_ward_arg_and_pos_arg_const_multi_assign_y(): """ Feature: ALL TO ALL Description: test cases for partial_key_ward_arg_and_pos_arg_const_multi_assign_y Expectation: the result match given one """ class Net(nn.Cell): def __init__(self): super(Net, self).__init__() def show(self, x, y, z): return x, y, z def construct(self): f = partial(self.show, y=2) ret = f(1, 2, z=3) return ret class Net2(nn.Cell): def __init__(self): super(Net2, self).__init__() self.show = lambda x, y, z: (x, y, z) def construct(self): f = partial(self.show, y=2) ret = f(1, 2, z=3) return ret for net in [Net(), Net2()]: with pytest.raises(TypeError) as ex: net() assert "Multiply values for specific argument: y" in str(ex.value) def test_partial_key_ward_arg_and_pos_arg_const_multi_assign_z(): """ Feature: ALL TO ALL Description: test cases for partial_key_ward_arg_and_pos_arg_const_multi_assign_z Expectation: the result match given one """ class Net(nn.Cell): def __init__(self): super(Net, self).__init__() def show(self, x, y, z): return x, y, z def construct(self): f = partial(self.show, z=1) ret = f(1, 2, 3) return ret class Net2(nn.Cell): def __init__(self): super(Net2, self).__init__() self.show = lambda x, y, z: (x, y, z) def construct(self): f = partial(self.show, z=1) ret = f(1, 2, 3) return ret for net in [Net(), Net2()]: with pytest.raises(TypeError) as ex: net() assert "Multiply values for specific argument: z" in str(ex.value)