# 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_tensor_slice """ import numpy as np import pytest from mindspore import Tensor, Parameter from mindspore import context from mindspore import dtype as mstype from mindspore.nn import Cell def setup_module(): context.set_context(mode=context.PYNATIVE_MODE, device_target="Ascend") class NetWorkSlicePositive(Cell): def __init__(self): super(NetWorkSlicePositive, self).__init__() self.tensor_ret0 = Tensor(np.ones([1, 2, 3], np.int32)) self.tensor_ret1 = Tensor(np.ones([4, 8, 10], np.int32)) self.tensor_ret2 = Tensor(np.ones([6, 8, 10], np.int32)) self.tensor_ret3 = Tensor(np.ones([3, 8, 10], np.int32)) def construct(self, tensor): ret0 = tensor[3:4:1, 1:5:2, 3:6:1] + self.tensor_ret0 ret1 = tensor[-6:4:1, 0:8:1, ::1] + self.tensor_ret1 ret2 = tensor[::, ::, ::] + self.tensor_ret2 ret3 = tensor[::2] + self.tensor_ret3 return ret0, ret1, ret2, ret3 def test_slice_positive(): net = NetWorkSlicePositive() input_np = np.arange(6*8*10).reshape(6, 8, 10).astype(np.int32) input_0 = Tensor(input_np) output0, output1, output2, output3 = net(input_0) assert np.all(output0.asnumpy() == input_np[3:4:1, 1:5:2, 3:6:1] + np.ones([1, 2, 3])) assert np.all(output1.asnumpy() == input_np[-6:4:1, 0:8:1, ::1] + np.ones([4, 8, 10])) assert np.all(output2.asnumpy() == input_np[::, ::, ::] + np.ones([6, 8, 10])) assert np.all(output3.asnumpy() == input_np[::2] + np.ones([3, 8, 10])) class NetWorkSliceEllipsis(Cell): def __init__(self): super(NetWorkSliceEllipsis, self).__init__() self.tensor_ret0 = Tensor(np.ones([2, 7, 8], np.int32)) self.tensor_ret1 = Tensor(np.ones([6, 7, 8, 9], np.int32)) self.tensor_ret2 = Tensor(np.ones([1, 6, 7, 8, 9], np.int32)) def construct(self, tensor): ret0 = tensor[0:4:2, ..., 1] + self.tensor_ret0 ret1 = tensor[...] + self.tensor_ret1 ret2 = tensor[None] + self.tensor_ret2 ret3 = tensor[True] + self.tensor_ret2 return ret0, ret1, ret2, ret3 def Xtest_slice_ellipsis(): net = NetWorkSliceEllipsis() input_np = np.arange(6*7*8*9).reshape(6, 7, 8, 9).astype(np.int32) input_0 = Tensor(input_np) output0, output1, output2, output3 = net(input_0) assert np.all(output0.asnumpy() == input_np[0:4:2, ..., 1] + np.ones([1, 2, 3])) assert np.all(output1.asnumpy() == input_np[...] + np.ones([6, 7, 8, 9])) assert np.all(output2.asnumpy() == input_np[None] + np.ones([6, 7, 8, 9])) assert np.all(output3.asnumpy() == input_np[True] + np.ones([1, 6, 7, 8, 9])) class NetWorkReduceDimension(Cell): def __init__(self): super(NetWorkReduceDimension, self).__init__() self.tensor_ret1 = Tensor(np.ones([3, 10], np.int32)) self.tensor_ret2 = Tensor(np.ones([6, 8], np.int32)) self.tensor_ret3 = Tensor(np.array(8, np.int32)) self.tensor_ret4 = Tensor(np.ones([8, 10], np.int32)) def construct(self, tensor): ret1 = tensor[::2, 1, ::1] + self.tensor_ret1 ret2 = tensor[::, ::, 0] + self.tensor_ret2 ret3 = tensor[3, 2, 5] + self.tensor_ret3 ret4 = tensor[1] + self.tensor_ret4 return ret1, ret2, ret3, ret4 def Xtest_reduce_dimension(): net = NetWorkReduceDimension() input_np = np.arange(6*8*10).reshape(6, 8, 10).astype(np.int32) input_0 = Tensor(input_np) output1, output2, output3, output4 = net(input_0) assert np.all(output1.asnumpy() == input_np[::2, 1, ::1] + np.ones([3, 10])) assert np.all(output2.asnumpy() == input_np[::, ::, 0] + np.ones([6, 8])) assert np.all(output3.asnumpy() == input_np[3, 2, 5] + np.array(8, np.int32)) assert np.all(output4.asnumpy() == input_np[1] + np.ones([8, 10])) class NetWorkSliceStep(Cell): def __init__(self): super(NetWorkSliceStep, self).__init__() self.tensor_ret1 = Tensor(np.ones([6, 5, 10], np.int32)) self.tensor_ret2 = Tensor(np.ones([3, 5, 5], np.int32)) def construct(self, tensor): ret1 = tensor[::1, -5::, ::-1] + self.tensor_ret1 ret2 = tensor[::2, -5::, ::2] + self.tensor_ret2 return ret1, ret2 def Xtest_step_negative(): net = NetWorkSliceEllipsis() input_np = np.arange(6*8*10).reshape(6, 8, 10).astype(np.int32) input_0 = Tensor(input_np) output1, output2 = net(input_0) assert np.all(output1.asnumpy() == input_np[::1, -5::, ::-1] + np.ones([6, 8, 10])) assert np.all(output2.asnumpy() == input_np[::2, -5::, ::2] + np.ones([3, 5, 5])) class TensorGetItemByThreeTensors(Cell): def __init__(self): super(TensorGetItemByThreeTensors, self).__init__() self.const0 = Tensor(np.ones((4, 5, 8, 10)), mstype.int32) self.const1 = Tensor(np.ones((3, 4, 5, 10)), mstype.int32) self.const2 = Tensor(np.ones((5, 3, 4, 5)), mstype.int32) def construct(self, x, index_0, index_1, index_2): ret0 = x[index_0] + self.const0 ret1 = x[index_0, index_1] + self.const1 ret2 = x[index_0, index_1, index_2] + self.const2 return ret0, ret1, ret2 def Xtest_getitem_by_tensors(): net = TensorGetItemByThreeTensors() input_x = np.arange(6*8*10).reshape(6, 8, 10).astype(np.int32) index_0 = np.random.randint(6, size=(3, 4, 5)).astype(np.int32) index_1 = np.random.randint(6, size=(4, 5)).astype(np.int32) index_2 = np.random.randint(6, size=(5, 3, 4, 5)).astype(np.int32) input_x_ms = Tensor(input_x) index_0_ms = Tensor(index_0) index_1_ms = Tensor(index_1) input_2_ms = Tensor(index_2) output0, output1, output2 = net(input_x_ms, index_0_ms, index_1_ms, input_2_ms) assert np.all(output0.asnumpy() == input_x[index_0] + np.ones([4, 5, 8, 10])) assert np.all(output1.asnumpy() == input_x[index_0, index_1] + np.ones([3, 4, 5, 10])) assert np.all(output2.asnumpy() == input_x[index_0, index_1, index_2] + np.ones([5, 3, 4, 5])) class TensorGetItemByMixedTensors_0(Cell): def __init__(self): super(TensorGetItemByMixedTensors_0, self).__init__() self.const = Tensor(np.ones((3, 4, 5, 3, 6, 5), np.float32)) def construct(self, tensor, index_0, index_1): ret = tensor[index_0, index_1, 0:3, ..., 0:5, 3] + self.const return ret class TensorGetItemByMixedTensors_1(Cell): def __init__(self): super(TensorGetItemByMixedTensors_1, self).__init__() self.const = Tensor(np.ones((3, 4, 5, 3, 5, 5), np.float32)) def construct(self, tensor, index_0, index_1): ret = tensor[0:3, index_0, ..., index_1, 3, 0:5] + self.const return ret class TensorGetItemByMixedTensors_2(Cell): def __init__(self): super(TensorGetItemByMixedTensors_2, self).__init__() self.const = Tensor(np.ones((3, 4, 5, 6, 7), np.float32)) def construct(self, tensor, index_0, index_1): ret = tensor[0, index_0, index_1, ..., 3] + self.const return ret class TensorGetItemByMixedTensors_3(Cell): def __init__(self): super(TensorGetItemByMixedTensors_3, self).__init__() self.const = Tensor(np.ones((3, 4, 5, 3, 4, 3, 5), np.float32)) def construct(self, tensor, index_0, index_1): ret = tensor[..., index_0, 0:3, index_1, 0:5] + self.const return ret class TensorGetItemByMixedTensors_4(Cell): def __init__(self): super(TensorGetItemByMixedTensors_4, self).__init__() self.const = Tensor(np.ones((2, 2, 3, 4, 5, 3, 9), np.float32)) def construct(self, tensor, index_0, index_1, index_2): ret = tensor[0:2, index_0, index_1, 2, index_2, 0:3, ...] + self.const return ret class TensorGetItemByMixedTensors_5(Cell): def __init__(self): super(TensorGetItemByMixedTensors_5, self).__init__() self.const = Tensor(np.ones((2, 3, 4, 5, 2, 6), np.float32)) def construct(self, tensor, index_0, index_1, index_2): ret = tensor[0:2, index_0, index_1, ..., index_2, 2] + self.const return ret class TensorGetItemByMixedTensors_6(Cell): def __init__(self): super(TensorGetItemByMixedTensors_6, self).__init__() self.const = Tensor(np.ones((3, 4, 2, 3, 4, 5), np.float32)) def construct(self, tensor, index_0, index_1, index_2): ret = tensor[..., index_0, index_1, index_2, 3] + self.const return ret class TensorSetItemByMixedTensors_0(Cell): def __init__(self, value): super(TensorSetItemByMixedTensors_0, self).__init__() self.const = Tensor(np.ones((3, 4, 5, 6, 7, 8, 9), np.float32)) self.param = Parameter(Tensor(np.arange(3 * 4 * 5 * 6 * 7 * 8 * 9).reshape((3, 4, 5, 6, 7, 8, 9)), mstype.float32), name="x") self.value = value def construct(self, index_0, index_1, index_2): self.param[0:2, index_0, index_1, 2, index_2, 0:3, ...] = self.value ret = self.param + self.const return ret class TensorSetItemByMixedTensors_1(Cell): def __init__(self, value): super(TensorSetItemByMixedTensors_1, self).__init__() self.const = Tensor(np.ones((3, 4, 5, 6, 7, 8), np.float32)) self.param = Parameter(Tensor(np.arange(3 * 4 * 5 * 6 * 7 * 8).reshape((3, 4, 5, 6, 7, 8)), mstype.float32), name="x") self.value = value def construct(self, index_0, index_1, index_2): self.param[0:2, index_0, index_1, ..., index_2, 2] = self.value ret = self.param + self.const return ret class TensorSetItemByMixedTensors_2(Cell): def __init__(self, value): super(TensorSetItemByMixedTensors_2, self).__init__() self.const = Tensor(np.ones((3, 4, 5, 6, 7, 8), np.float16)) self.param = Parameter(Tensor(np.arange(3 * 4 * 5 * 6 * 7 * 8).reshape((3, 4, 5, 6, 7, 8)), mstype.float16), name="x") self.value = value def construct(self, index_0, index_1, index_2): self.param[..., index_0, index_1, index_2, 3] = self.value ret = self.param + self.const return ret class TensorGetItemByMixedTensorsTypeError(Cell): def __init__(self): super(TensorGetItemByMixedTensorsTypeError, self).__init__() def construct(self, x, index_0, index_1): ret = x[index_0, index_1, 0:3, ..., 0:5, [1, 2, 3, 4]] return ret class TensorGetItemByMixedTensorsNumberError(Cell): def __init__(self): super(TensorGetItemByMixedTensorsNumberError, self).__init__() def construct(self, x, index_0, index_1): ret = x[index_0, index_1, 0:3, ..., index_1, index_0] return ret class TensorSetItemByOneTensorWithNumber(Cell): def __init__(self, value): super(TensorSetItemByOneTensorWithNumber, self).__init__() self.const = Tensor(np.ones((6, 7, 8)), mstype.float32) self.param = Parameter(Tensor(np.arange(6 * 7 * 8).reshape((6, 7, 8)), mstype.float32), name="x") self.value = value def construct(self, index): self.param[index] = self.value ret = self.param + self.const return ret class TensorSetItemByOneTensorWithTensor(Cell): def __init__(self): super(TensorSetItemByOneTensorWithTensor, self).__init__() self.const = Tensor(np.ones((6, 7, 8)), mstype.float32) self.param = Parameter(Tensor(np.arange(6 * 7 * 8).reshape((6, 7, 8)), mstype.float32), name="x") def construct(self, index, value): self.param[index] = value ret = self.param + self.const return ret class TensorSetItemByOneTensorWithTupleOfNumber(Cell): def __init__(self, value): super(TensorSetItemByOneTensorWithTupleOfNumber, self).__init__() self.const = Tensor(np.ones((6, 7, 8)), mstype.float32) self.param = Parameter(Tensor(np.arange(6 * 7 * 8).reshape((6, 7, 8)), mstype.float32), name="x") self.value = value def construct(self, index): self.param[index] = self.value ret = self.param + self.const return ret class TensorSetItemByOneTensorWithTupleOfTensor(Cell): def __init__(self): super(TensorSetItemByOneTensorWithTupleOfTensor, self).__init__() self.const = Tensor(np.ones((6, 3, 8)), mstype.float32) self.param = Parameter(Tensor(np.arange(6 * 3 * 8).reshape((6, 3, 8)), mstype.float32), name="x") def construct(self, index, value_0, value_1, value_2): self.param[index] = (value_0, value_1, value_2) ret = self.param + self.const return ret class TensorSetItemByTensorsWithNumber(Cell): def __init__(self, value): super(TensorSetItemByTensorsWithNumber, self).__init__() self.const = Tensor(np.ones((6, 7, 8)), mstype.float32) self.param = Parameter(Tensor(np.arange(6 * 7 * 8).reshape((6, 7, 8)), mstype.float32), name="x") self.value = value def construct(self, index_0, index_1, index_2): self.param[index_0, index_1, index_2] = self.value ret = self.param + self.const return ret class TensorSetItemByTensorsWithTensor(Cell): def __init__(self): super(TensorSetItemByTensorsWithTensor, self).__init__() self.const = Tensor(np.ones((6, 7, 8)), mstype.float32) self.param = Parameter(Tensor(np.arange(6 * 7 * 8).reshape((6, 7, 8)), mstype.float32), name="x") def construct(self, index_0, index_1, index_2, value): self.param[index_0, index_1, index_2] = value ret = self.param + self.const return ret class TensorSetItemByTensorsWithTensorNumberError(Cell): def __init__(self): super(TensorSetItemByTensorsWithTensorNumberError, self).__init__() self.const = Tensor(np.ones((6, 7, 8)), mstype.float32) self.param = Parameter(Tensor(np.arange(6 * 7 * 8).reshape((6, 7, 8)), mstype.float32), name="x") def construct(self, index_0, index_1, index_2, index_3, value): self.param[index_0, index_1, index_2, index_3] = value ret = self.param + self.const return ret class TensorSetItemByTensorsWithTupleOfNumber(Cell): def __init__(self, value): super(TensorSetItemByTensorsWithTupleOfNumber, self).__init__() self.const = Tensor(np.ones((6, 7, 8)), mstype.float32) self.param = Parameter(Tensor(np.arange(6 * 7 * 8).reshape((6, 7, 8)), mstype.float32), name="x") self.value = value def construct(self, index_0, index_1, index_2): self.param[index_0, index_1, index_2] = self.value ret = self.param + self.const return ret class TensorSetItemByTensorsWithTupleOfTensor(Cell): def __init__(self): super(TensorSetItemByTensorsWithTupleOfTensor, self).__init__() self.const = Tensor(np.ones((6, 7, 8)), mstype.float32) self.param = Parameter(Tensor(np.arange(6 * 7 * 8).reshape((6, 7, 8)), mstype.float32), name="x") def construct(self, index_0, index_1, index_2, value_0, value_1, value_2): self.param[index_0, index_1, index_2] = (value_0, value_1, value_2) ret = self.param + self.const return ret class TensorSetItemByTensorsWithTupleOfTensorNumberError(Cell): def __init__(self): super(TensorSetItemByTensorsWithTupleOfTensorNumberError, self).__init__() self.const = Tensor(np.ones((6, 7, 8)), mstype.float32) self.param = Parameter(Tensor(np.arange(6 * 7 * 8).reshape((6, 7, 8)), mstype.float32), name="x") def construct(self, index_0, index_1, index_2, value_0, value_1): self.param[index_0, index_1, index_2] = (value_0, value_1) ret = self.param + self.const return ret class TensorSetItemByMixedTensors(Cell): def __init__(self): super(TensorSetItemByMixedTensors, self).__init__() self.const = Tensor(np.ones((6, 7, 8)), mstype.float32) self.param = Parameter(Tensor(np.arange(6 * 7 * 8).reshape((6, 7, 8)), mstype.float32), name="x") self.value = 99.0 def construct(self, index_0, index_1): self.param[index_0, index_1, 0:6] = self.value ret = self.param + self.const return ret class TensorAssignWithSliceError1(Cell): def __init__(self): super(TensorAssignWithSliceError1, self).__init__() def construct(self, a, b): a[1:3:-1, ::] = b return a class TensorAssignWithSliceError2(Cell): def __init__(self): super(TensorAssignWithSliceError2, self).__init__() def construct(self, a, b): a[1:3:-1] = b return a class TensorAssignWithSlice2(Cell): def __init__(self): super(TensorAssignWithSlice2, self).__init__() def construct(self, a, b, ck): a[1:5] = b a[3:4] = 5 a[-1:1:-1] = b a[-1:3:-1] = 5 a[::] = b a[::] = 9 z = a + ck return z class TensorAssignWithSlice(Cell): def __init__(self): super(TensorAssignWithSlice, self).__init__() self.c = 2 def construct(self, a, b, ck): a[1:3, ::] = b a[2:3:, 3:] = b a[::] = b a[::] = self.c a[::, ::] = b a[::, ::] = self.c a[2:3:, 0:, 4:1:-1] = b a[2:3:, 0:, 4:1:-1] = self.c z = a + ck return z def test_tensor_assign(): context.set_context(mode=context.GRAPH_MODE, save_graphs=True) net = TensorAssignWithSlice() net2 = TensorAssignWithSlice2() net_e1 = TensorAssignWithSliceError1() net_e2 = TensorAssignWithSliceError2() a = np.arange(60).reshape(3, 4, 5) ck = np.arange(60).reshape(3, 4, 5) b = Tensor([1], dtype=mstype.float32) Ta = Tensor(a, dtype=mstype.float32) Tck = Tensor(ck, dtype=mstype.float32) Ta4d = Tensor(a.reshape(1, 3, 4, 5), dtype=mstype.float32) Ta4d_ck = Tensor(ck.reshape(1, 3, 4, 5), dtype=mstype.float32) Tb = Tensor([1, 3], dtype=mstype.float32) Tc = Tensor([], dtype=mstype.float32) t = Tensor([1, 2, 3, 4, 5, 6, 7, 8], dtype=mstype.float32) tck = Tensor([1, 2, 3, 4, 5, 6, 7, 8], dtype=mstype.float32) net(Ta, b, Tck) net2(t, b, tck) # Error for A[Slice] = Number # 1. A[Slice] = Number, Slice error with pytest.raises(IndexError): net_e2(t, 2) # Error for A[Slice] = U, U is a Tensor # 1. A[Slice] = U, u.size is error with pytest.raises(ValueError): net2(t, Tb, tck) # 2. A[Slice] = U, U is empty with pytest.raises(ValueError): net2(t, Tc, tck) # 3. A[Slice] = U, U.size error with pytest.raises(ValueError): net2(t, Tb, tck) # Error for A[Tuple(Slice...)] = Tensor # 1. A[Tuple(Slice...)] = U, U is empty with pytest.raises(ValueError): net(Ta, Tc, Tck) # 2. A[Tuple(Slice...)] = U, U.size error with pytest.raises(ValueError): net(Ta, Tb, Tck) # 3. A[Tuple(Slice...)] = U, Slice error with pytest.raises(IndexError): net_e1(Ta, b) # Error for A[Tuple(Slice...)] = Number # 1. A[Tuple(Slice...)] = Number, Slice error with pytest.raises(IndexError): net_e1(Ta, 2) net = TensorAssignWithInteger() # Error for A[Number] = scalar/Tensor # 1. A[Number] = U, U is a Tensor, u.size not match with pytest.raises(ValueError): net(Ta, Tb, Tck) with pytest.raises(ValueError): net(Ta, Tc, Tck) # 2. A[Number] = U, the number index error with pytest.raises(IndexError): net(Ta4d, b, Ta4d_ck) # Error for A[(n,m)] = scalar/Tensor # 1. A[(n,m)] = U, U is a tensor. u.size not match net = TensorAssignWithTupleInteger() with pytest.raises(ValueError): net(Ta, Tc, Tck) with pytest.raises(ValueError): net(Ta, Tb, Tck) # 2. A[(n,m)] = U, the number index error with pytest.raises(IndexError): net(Ta4d, b, Ta4d_ck) # Error for A[...] = U or A[1:, ...] = u # 1. A[...] = scalar/tensor net = TensorAssignWithEllipsis() net(Ta, Ta4d) with pytest.raises(ValueError): net(Ta, Tc) with pytest.raises(ValueError): net(Ta, Tb) # 2. A[::, 1:, ...] = scalar/tensor net = TensorAssignWithTupleEllipsis() net(Ta, b) Tc = Tensor(1, mstype.float32) with pytest.raises(ValueError): net(Ta, Tc) with pytest.raises(ValueError): net(Ta, Tb) class TensorAssignWithTupleEllipsis2(Cell): def __init__(self): super(TensorAssignWithTupleEllipsis2, self).__init__() def construct(self, a, b): a[1:, ..., ::] = b return a class TensorAssignWithTupleEllipsis(Cell): def __init__(self): super(TensorAssignWithTupleEllipsis, self).__init__() def construct(self, a, b): a[:2, ...] = 1 a[1:, ...] = b return a class TensorAssignWithEllipsis(Cell): def __init__(self): super(TensorAssignWithEllipsis, self).__init__() def construct(self, a, b): a[...] = 1 a[...] = b return a class TensorAssignWithInteger(Cell): def __init__(self): super(TensorAssignWithInteger, self).__init__() def construct(self, a, b, ck): a[1] = 1 a[0] = b z = a + ck return z class TensorAssignWithTupleInteger(Cell): def __init__(self): super(TensorAssignWithTupleInteger, self).__init__() def construct(self, a, b, ck): a[(1)] = 1 a[(1)] = b a[(1, 1)] = b a[(1, 1)] = 1 z = a + ck return z class TensorAssignWithBoolTensorIndex(Cell): def __init__(self): super(TensorAssignWithBoolTensorIndex, self).__init__() self.t = Tensor(np.arange(60).reshape([3, 4, 5]), dtype=mstype.float32) self.u_scalar = 5 def construct(self, a, b, c, u_tensor): a[c] = self.u_scalar a[b] = u_tensor z = a + self.t return z class TensorAssignWithBoolTensorIndexError(Cell): def __init__(self): super(TensorAssignWithBoolTensorIndexError, self).__init__() def construct(self, a, b, c, u_tensor): a[b][c] = u_tensor return a class TensorAssignWithBoolTensorIndex2(Cell): def __init__(self): super(TensorAssignWithBoolTensorIndex2, self).__init__() self.t = Tensor(np.arange(6).reshape([2, 3]), dtype=mstype.float32) self.t = Tensor(np.arange(60).reshape([3, 4, 5]), dtype=mstype.float32) self.u_scalar = 5 def construct(self, a, u_tensor): a[a > 8] = u_tensor a[a >= 6] = self.u_scalar a[a < 3] = self.u_scalar a[a <= 5] = u_tensor a[a == 5] = self.u_scalar z = a + self.t return z class TensorAssignWithBoolTensorIndex2Error(Cell): def __init__(self): super(TensorAssignWithBoolTensorIndex2Error, self).__init__() def construct(self, a, u_tensor): a[a > 8][a > 5] = u_tensor return a def Xtest_tensor_assign_bool_index(): a = np.arange(60).reshape(3, 4, 5) b = a > 5 c = a < 3 Ta = Tensor(a, dtype=mstype.float32) Tb = Tensor(b) Tc = Tensor(c) Td = Tensor([True, True]) u_tensor = Tensor([1], dtype=mstype.float32) u_tensor_error = Tensor([1, 2], dtype=mstype.float32) u_scalar = 5 net1 = TensorAssignWithBoolTensorIndex() net2 = TensorAssignWithBoolTensorIndex2() net1(Ta, Tb, Tc, u_tensor) net1(Ta, Tb, Tc, u_tensor) with pytest.raises(ValueError): net1(Ta, Td, Tc, u_tensor) with pytest.raises(IndexError): net1(Ta, u_tensor, Tc, u_tensor) with pytest.raises(ValueError): net1(Ta, Tb, Td, u_tensor) with pytest.raises(IndexError): net1(Ta, Tb, Ta, u_tensor) with pytest.raises(ValueError): net1(Ta, Tb, Tc, u_tensor_error) # net1(Ta, u_tensor, Tc, u_tensor_error, u_scalar) with pytest.raises(ValueError): net2(Ta, u_tensor_error) net3 = TensorAssignWithBoolTensorIndexError() with pytest.raises(AttributeError): net3(Ta, Tb, Tc, u_tensor) with pytest.raises(AttributeError): net3(Ta, Tb, Tc, u_scalar) net4 = TensorAssignWithBoolTensorIndex2Error() with pytest.raises(AttributeError): net4(Ta, u_tensor) with pytest.raises(AttributeError): net4(Ta, u_scalar) def Xtest_tensor_slice_reduce_out_of_bounds_neg(): class NetWork(Cell): def __init__(self): super(NetWork, self).__init__() self.tensor_ret = Tensor(np.array(9, np.int32)) def construct(self, tensor): ret = tensor[-7, 3, 4] return ret input_tensor = Tensor(np.ones([6, 8, 10], np.int32)) net = NetWork() with pytest.raises(ValueError) as ex: net(input_tensor) assert "For 'StridedSlice' the `begin[0]` should be an int and must greater or equal to -6, but got `-7`" in str( ex.value) def Xtest_tensor_slice_reduce_out_of_bounds_positive(): class NetWork(Cell): def __init__(self): super(NetWork, self).__init__() self.tensor_ret = Tensor(np.array(9, np.int32)) def construct(self, tensor): ret = tensor[6, 3, 4] return ret input_tensor = Tensor(np.ones([6, 8, 10], np.int32)) net = NetWork() with pytest.raises(ValueError) as ex: net(input_tensor) assert "For 'StridedSlice' the `begin[0]` should be an int and must less than 6, but got `6`" in str(ex.value)