# Copyright (c) 2020 PaddlePaddle Authors. All Rights Reserved. # # 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. from __future__ import print_function import os import sys import time import subprocess import unittest import numpy as np import paddle class TestDirectory(unittest.TestCase): def get_import_command(self, module): paths = module.split('.') if len(paths) == 1: return 'import {}'.format(module) package = '.'.join(paths[:-1]) func = paths[-1] cmd = 'from {} import {}'.format(package, func) return cmd def test_new_directory(self): new_directory = [ 'paddle.enable_static', 'paddle.disable_static', 'paddle.in_dynamic_mode', 'paddle.to_tensor', 'paddle.grad', 'paddle.no_grad', 'paddle.save', 'paddle.load', 'paddle.static.save', 'paddle.static.load', 'paddle.distributed.ParallelEnv', 'paddle.distributed.prepare_context', 'paddle.DataParallel', 'paddle.jit', 'paddle.jit.TracedLayer', 'paddle.jit.to_static', 'paddle.jit.ProgramTranslator', 'paddle.jit.TranslatedLayer', 'paddle.jit.save', 'paddle.jit.load', 'paddle.SaveLoadConfig', 'paddle.NoamDecay', 'paddle.PiecewiseDecay', 'paddle.NaturalExpDecay', 'paddle.ExponentialDecay', 'paddle.InverseTimeDecay', 'paddle.PolynomialDecay', 'paddle.CosineDecay', 'paddle.static.Executor', 'paddle.static.global_scope', 'paddle.static.scope_guard', 'paddle.static.append_backward', 'paddle.static.gradients', 'paddle.static.BuildStrategy', 'paddle.static.CompiledProgram', 'paddle.static.ExecutionStrategy', 'paddle.static.default_main_program', 'paddle.static.default_startup_program', 'paddle.static.Program', 'paddle.static.name_scope', 'paddle.static.program_guard', 'paddle.static.Print', 'paddle.static.py_func', 'paddle.static.ParallelExecutor', 'paddle.static.WeightNormParamAttr', 'paddle.static.nn.fc', 'paddle.static.nn.batch_norm', 'paddle.static.nn.bilinear_tensor_product', 'paddle.static.nn.conv2d', 'paddle.static.nn.conv2d_transpose', 'paddle.static.nn.conv3d', 'paddle.static.nn.conv3d_transpose', 'paddle.static.nn.create_parameter', 'paddle.static.nn.crf_decoding', 'paddle.static.nn.data_norm', 'paddle.static.nn.deformable_conv', 'paddle.static.nn.group_norm', 'paddle.static.nn.hsigmoid', 'paddle.static.nn.instance_norm', 'paddle.static.nn.layer_norm', 'paddle.static.nn.multi_box_head', 'paddle.static.nn.nce', 'paddle.static.nn.prelu', 'paddle.static.nn.row_conv', 'paddle.static.nn.spectral_norm', 'paddle.static.nn.embedding' ] import_file = 'run_import_modules.py' with open(import_file, "w") as wb: for module in new_directory: run_cmd = self.get_import_command(module) wb.write("{}\n".format(run_cmd)) _python = sys.executable ps_cmd = "{} {}".format(_python, import_file) ps_proc = subprocess.Popen( ps_cmd.strip().split(" "), stdout=subprocess.PIPE, stderr=subprocess.PIPE) stdout, stderr = ps_proc.communicate() assert "Error" not in str(stderr), "Error: Can't" \ " import Module {}".format(module) def test_old_directory(self): old_directory = [ 'paddle.enable_imperative', 'paddle.disable_imperative', 'paddle.in_imperative_mode', 'paddle.imperative.to_variable', 'paddle.imperative.enable', 'paddle.imperative.guard', 'paddle.imperative.grad', 'paddle.imperative.no_grad', 'paddle.imperative.save', 'paddle.imperative.load', 'paddle.imperative.ParallelEnv', 'paddle.imperative.prepare_context', 'paddle.imperative.DataParalell', 'paddle.imperative.jit', 'paddle.imperative.TracedLayer', 'paddle.imperative.declarative', 'paddle.imperative.ProgramTranslator', 'paddle.imperative.TranslatedLayer', 'paddle.imperative.jit.save', 'paddle.imperative.jit.load', 'paddle.imperative.jit.SaveLoadConfig', 'paddle.imperative.NoamDecay' 'paddle.imperative.PiecewiseDecay', 'paddle.imperative.NaturalExpDecay', 'paddle.imperative.ExponentialDecay', 'paddle.imperative.InverseTimeDecay', 'paddle.imperative.PolynomialDecay', 'paddle.imperative.CosineDecay', 'paddle.Executor', 'paddle.global_scope', 'paddle.scope_guard', 'paddle.append_backward', 'paddle.gradients', 'paddle.BuildStrategy', 'paddle.CompiledProgram', 'paddle.ExecutionStrategy', 'paddle.name_scope', 'paddle.program_guard', 'paddle.Print', 'paddle.py_func', 'paddle.ParallelExecutor', 'paddle.default_main_program', 'paddle.default_startup_program', 'paddle.Program', 'paddle.WeightNormParamAttr', 'paddle.declarative.fc', 'paddle.declarative.batch_norm', 'paddle.declarative.bilinear_tensor_product', 'paddle.declarative.conv2d', 'paddle.declarative.conv2d_transpose', 'paddle.declarative.conv3d', 'paddle.declarative.conv3d_transpose', 'paddle.declarative.create_parameter', 'paddle.declarative.crf_decoding', 'paddle.declarative.data_norm', 'paddle.declarative.deformable_conv', 'paddle.declarative.group_norm', 'paddle.declarative.hsigmoid', 'paddle.declarative.instance_norm', 'paddle.declarative.layer_norm', 'paddle.declarative.multi_box_head', 'paddle.declarative.nce', 'paddle.declarative.prelu', 'paddle.declarative.row_conv', 'paddle.declarative.spectral_norm', 'paddle.declarative.embedding' ] import_file = 'run_old_import_modules.py' with open(import_file, "w") as wb: cmd_context_count = """ count = 0 err_module = "" """ wb.write(cmd_context_count) for module in old_directory: run_cmd = self.get_import_command(module) cmd_context_loop_template = """ try: {run_cmd} except: count += 1 else: err_module = "{module}" """ cmd_context_loop = cmd_context_loop_template.format( run_cmd=run_cmd, module=module) wb.write(cmd_context_loop) cmd_context_print_template = """ if count != {len_old_directory}: print("Error: Module " + err_module + " should not be imported") """ cmd_context_print = cmd_context_print_template.format( len_old_directory=str(len(old_directory))) wb.write(cmd_context_print) _python = sys.executable ps_cmd = "{} {}".format(_python, import_file) ps_proc = subprocess.Popen( ps_cmd.strip().split(" "), stdout=subprocess.PIPE, stderr=subprocess.PIPE) stdout, stderr = ps_proc.communicate() assert "Error" not in str(stdout), str(stdout) if __name__ == '__main__': unittest.main()