354 lines
12 KiB
Python
354 lines
12 KiB
Python
# Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved.
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#
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# Licensed under the Apache License, Version 2.0 (the "License");
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# you may not use this file except in compliance with the License.
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# You may obtain a copy of the License at
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#
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# http://www.apache.org/licenses/LICENSE-2.0
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#
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# Unless required by applicable law or agreed to in writing, software
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# distributed under the License is distributed on an "AS IS" BASIS,
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# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
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# See the License for the specific language governing permissions and
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# limitations under the License.
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import unittest
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import numpy as np
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from op_test import (
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OpTest,
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convert_float_to_uint16,
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get_device_place,
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is_custom_device,
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)
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import paddle
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from paddle import base
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from paddle.base import core
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from paddle.base.framework import convert_nptype_to_vartype
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# Situation 1: Attr(shape) is a list(without tensor)
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class TestEmptyOp(OpTest):
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def setUp(self):
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self.op_type = "empty"
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self.python_api = paddle.tensor.empty
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self.init_config()
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def test_check_output(self):
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self.check_output_customized(self.verify_output, check_pir=True)
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def verify_output(self, outs):
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data_type = outs[0].dtype
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if data_type in [
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'float16',
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'float32',
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'float64',
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'int32',
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'int64',
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'uint16',
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]:
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max_value = np.nanmax(outs[0])
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min_value = np.nanmin(outs[0])
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always_full_zero = max_value == 0.0 and min_value == 0.0
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always_non_full_zero = max_value >= min_value
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self.assertTrue(
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always_full_zero or always_non_full_zero,
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'always_full_zero or always_non_full_zero.',
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)
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elif data_type in ['bool']:
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total_num = outs[0].size
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true_num = np.sum(outs[0])
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false_num = np.sum(~outs[0])
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self.assertTrue(
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total_num == true_num + false_num,
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'The value should always be True or False.',
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)
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else:
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self.assertTrue(False, 'invalid data type')
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def init_config(self):
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shape = [500, 3]
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dtype = 'float32'
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dtype_inner = convert_nptype_to_vartype(dtype)
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self.attrs = {'shape': shape, 'dtype': dtype_inner}
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self.inputs = {}
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self.outputs = {'Out': np.zeros(shape).astype(dtype)}
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class TestEmptyOp2(TestEmptyOp):
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def init_config(self):
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shape = [500, 3]
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dtype = 'float64'
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dtype_inner = convert_nptype_to_vartype(dtype)
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self.attrs = {'shape': shape, 'dtype': dtype_inner}
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self.inputs = {}
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self.outputs = {'Out': np.zeros(shape).astype(dtype)}
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class TestEmptyOp3(TestEmptyOp):
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def init_config(self):
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shape = [500, 3]
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dtype = 'int32'
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dtype_inner = convert_nptype_to_vartype(dtype)
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self.attrs = {'shape': shape, 'dtype': dtype_inner}
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self.inputs = {}
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self.outputs = {'Out': np.zeros(shape).astype(dtype)}
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class TestEmptyOp4(TestEmptyOp):
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def init_config(self):
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shape = [500, 3]
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dtype = 'int64'
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dtype_inner = convert_nptype_to_vartype(dtype)
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self.attrs = {'shape': shape, 'dtype': dtype_inner}
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self.inputs = {}
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self.outputs = {'Out': np.zeros(shape).astype(dtype)}
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class TestEmptyOp5(TestEmptyOp):
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def init_config(self):
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shape = [500, 3]
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dtype = 'bool'
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dtype_inner = convert_nptype_to_vartype(dtype)
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self.attrs = {'shape': shape, 'dtype': dtype_inner}
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self.inputs = {}
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self.outputs = {'Out': np.zeros(shape).astype(dtype)}
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# Situation 2: shape is a tensor
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class TestEmptyOp_ShapeTensor(OpTest):
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def setUp(self):
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self.op_type = "empty"
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self.python_api = paddle.empty
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self.init_config()
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def init_config(self):
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self.shape = [500, 3]
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dtype = 'float32'
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dtype_inner = convert_nptype_to_vartype(dtype)
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self.attrs = {'dtype': dtype_inner}
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self.inputs = {"ShapeTensor": np.array(self.shape).astype("int32")}
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self.outputs = {'Out': np.zeros(self.shape).astype(dtype)}
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def test_check_output(self):
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self.check_output_customized(self.verify_output, check_pir=True)
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def verify_output(self, outs):
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data_type = outs[0].dtype
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if data_type in ['float32', 'float64', 'int32', 'int64']:
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max_value = np.nanmax(outs[0])
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min_value = np.nanmin(outs[0])
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always_full_zero = max_value == 0.0 and min_value == 0.0
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always_non_full_zero = max_value >= min_value
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self.assertTrue(
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always_full_zero or always_non_full_zero,
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'always_full_zero or always_non_full_zero.',
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)
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elif data_type in ['bool']:
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total_num = outs[0].size
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true_num = np.sum(outs[0])
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false_num = np.sum(~outs[0])
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self.assertTrue(
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total_num == true_num + false_num,
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'The value should always be True or False.',
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)
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else:
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self.assertTrue(False, 'invalid data type')
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# Situation 3: Attr(shape) is a list(with tensor)
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class TestEmptyOp_ShapeTensorList(OpTest):
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def setUp(self):
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self.op_type = "empty"
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self.python_api = paddle.empty
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self.init_config()
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def init_config(self):
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self.shape = [123, 92]
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self.infer_shape = [-1, 92]
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dtype = 'float32'
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dtype_inner = convert_nptype_to_vartype(dtype)
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shape_tensor_list = []
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for index, ele in enumerate(self.shape):
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shape_tensor_list.append(
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("x" + str(index), np.ones(1).astype('int32') * ele)
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)
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self.inputs = {"ShapeTensorList": shape_tensor_list}
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self.attrs = {'shape': self.infer_shape, 'dtype': dtype_inner}
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self.outputs = {'Out': np.zeros(self.shape).astype(dtype)}
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def test_check_output(self):
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self.check_output_customized(self.verify_output, check_pir=True)
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def verify_output(self, outs):
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data_type = outs[0].dtype
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if data_type in ['float32', 'float64', 'int32', 'int64']:
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max_value = np.nanmax(outs[0])
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min_value = np.nanmin(outs[0])
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always_full_zero = max_value == 0.0 and min_value == 0.0
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always_non_full_zero = max_value >= min_value
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self.assertTrue(
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always_full_zero or always_non_full_zero,
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'always_full_zero or always_non_full_zero.',
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)
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elif data_type in ['bool']:
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total_num = outs[0].size
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true_num = np.sum(outs[0])
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false_num = np.sum(~outs[0])
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self.assertTrue(
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total_num == true_num + false_num,
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'The value should always be True or False.',
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)
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else:
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self.assertTrue(False, 'invalid data type')
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class TestEmptyAPI(unittest.TestCase):
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def __check_out__(self, out, dtype='float32'):
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max_value = np.nanmax(np.array(out))
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min_value = np.nanmin(np.array(out))
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always_non_full_zero = max_value >= min_value
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always_full_zero = max_value == 0.0 and min_value == 0.0
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self.assertTrue(
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always_full_zero or always_non_full_zero,
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'always_full_zero or always_non_full_zero.',
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)
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def test_dygraph_api_out(self):
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paddle.disable_static()
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shape = [200, 3]
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out = paddle.empty(shape=shape)
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self.__check_out__(out)
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paddle.enable_static()
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def test_dygraph_api_out_2(self):
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paddle.disable_static()
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shape_data = np.array([200, 3]).astype('int32')
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shape = paddle.to_tensor(shape_data)
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out = paddle.empty(shape=shape)
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self.__check_out__(out)
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paddle.enable_static()
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def test_dygraph_api_out_3(self):
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paddle.disable_static()
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shape_data = np.array([200, 3]).astype('int64')
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shape = paddle.to_tensor(shape_data)
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out = paddle.empty(shape=shape)
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self.__check_out__(out)
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paddle.enable_static()
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def test_dygraph_api_attr(self):
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paddle.disable_static()
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shape = [200, 3]
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dtype = 'float64'
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out = paddle.empty(shape=shape, dtype=dtype)
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self.__check_out__(out, dtype)
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paddle.enable_static()
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def test_static_graph(self):
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paddle.enable_static()
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dtype = 'float64'
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positive_2_int32 = paddle.tensor.fill_constant([1], "int32", 3)
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positive_2_int64 = paddle.tensor.fill_constant([1], "int64", 3)
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shape_tensor_int32 = paddle.static.data(
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name="shape_tensor_int32", shape=[2], dtype="int32"
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)
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shape_tensor_int64 = paddle.static.data(
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name="shape_tensor_int64", shape=[2], dtype="int64"
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)
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shape_tensor_unknown = paddle.static.data(
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name="shape_tensor_unknown", shape=[-1], dtype="int64"
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)
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out_1 = paddle.empty(shape=[200, 3], dtype=dtype)
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out_2 = paddle.empty(shape=shape_tensor_int32, dtype=dtype)
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out_3 = paddle.empty(shape=shape_tensor_int64, dtype=dtype)
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out_4 = paddle.empty(shape=[200, positive_2_int32], dtype=dtype)
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out_5 = paddle.empty(shape=[200, positive_2_int64], dtype=dtype)
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out_6 = paddle.empty(shape=shape_tensor_unknown, dtype=dtype)
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place = paddle.CPUPlace()
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exe = paddle.static.Executor(place)
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res_1, res_2, res_3, res_4, res_5, res_6 = exe.run(
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base.default_main_program(),
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feed={
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"shape_tensor_int32": np.array([200, 3]).astype("int32"),
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"shape_tensor_int64": np.array([200, 3]).astype("int64"),
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"shape_tensor_unknown": np.array([200, 3]).astype("int64"),
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},
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fetch_list=[out_1, out_2, out_3, out_4, out_5, out_6],
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)
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self.__check_out__(res_1, dtype)
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self.__check_out__(res_2, dtype)
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self.__check_out__(res_3, dtype)
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self.__check_out__(res_4, dtype)
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self.__check_out__(res_5, dtype)
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self.__check_out__(res_6, dtype)
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class TestEmptyFP16Op(TestEmptyOp):
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def init_config(self):
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shape = [500, 3]
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self.dtype = np.float16
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dtype_inner = convert_nptype_to_vartype(self.dtype)
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self.attrs = {'shape': shape, 'dtype': dtype_inner}
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self.inputs = {}
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self.outputs = {'Out': np.zeros(shape).astype(self.dtype)}
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@unittest.skipIf(
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not (core.is_compiled_with_cuda() or is_custom_device())
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or not core.is_bfloat16_supported(get_device_place()),
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"core is not compiled with CUDA and not support the bfloat16",
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)
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class TestEmptyBF16Op(OpTest):
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def setUp(self):
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self.op_type = 'empty'
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self.dtype = np.uint16
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self.__class__.op_type = self.op_type
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self.python_api = paddle.empty
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shape = np.array([200, 3]).astype('int32')
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dtype_inner = convert_nptype_to_vartype(self.dtype)
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output = np.zeros(shape).astype(self.dtype)
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self.inputs = {}
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self.attrs = {'shape': shape, 'dtype': dtype_inner}
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self.outputs = {'Out': convert_float_to_uint16(output)}
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def test_check_output(self):
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self.check_output_customized(self.verify_output, check_pir=True)
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def verify_output(self, outs):
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max_value = np.nanmax(outs[0])
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min_value = np.nanmin(outs[0])
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always_full_zero = max_value == 0.0 and min_value == 0.0
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always_non_full_zero = max_value >= min_value
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self.assertTrue(
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always_full_zero or always_non_full_zero,
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'always_full_zero or always_non_full_zero.',
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)
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class TestEmptyError(unittest.TestCase):
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def test_attr(self):
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def test_dtype():
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paddle.enable_static()
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shape = [200, 3]
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dtype = 'uint8'
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result = paddle.empty(shape=shape, dtype=dtype)
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self.assertRaises(TypeError, test_dtype)
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if __name__ == '__main__':
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unittest.main()
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