# Copyright (c) 2019 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 collections import OrderedDict as _dict import numpy as _np default_op_mapping_field_values = _dict() default_op_mapping_field_values['FLUID_OP'] = '' default_op_mapping_field_values['FLUID_INPUT_ARGS'] = None default_op_mapping_field_values['FLUID_OUTPUT_ARGS'] = None default_op_mapping_field_values['ATTR_MAPPING'] = dict() default_op_mapping_field_values['DEFAULTS'] = dict() default_op_mapping_field_values['INPUT_PERM'] = None default_op_mapping_field_values['OUTPUT_PERM'] = None default_op_mapping_field_values['FILL_NAME_FIELD'] = True default_op_mapping = { 'Shape': ['shape', ['X'], ['Out']], 'Clip': [ 'clip', ['X'], ['Out'], dict(), dict( min=(_np.asarray( [255, 255, 127, 255], dtype=_np.uint8).view(_np.float32)[0]), max=(_np.asarray( [255, 255, 127, 127], dtype=_np.uint8).view(_np.float32)[0]), ) ], 'Erf': ['erf', ['X'], ['Out']], 'Ceil': ['ceil', ['X'], ['Out']], 'ReduceMean': [ 'reduce_mean', ['X'], ['Out'], dict( axes='dim', keepdims='keep_dim'), dict(keep_dim=1) ], 'ReduceSum': [ 'reduce_sum', ['X'], ['Out'], dict( axes='dim', keepdims='keep_dim'), dict(keep_dim=1) ], 'ReduceMin': [ 'reduce_min', ['X'], ['Out'], dict( axes='dim', keepdims='keep_dim'), dict(keep_dim=1) ], 'ReduceMax': [ 'reduce_max', ['X'], ['Out'], dict( axes='dim', keepdims='keep_dim'), dict(keep_dim=1) ], #active function 'Relu': ['relu', ['X'], ['Out']], 'LeakyRelu': ['leaky_relu', ['X'], ['Out'], dict(), dict(alpha=.01)], 'Elu': ['elu', ['X'], ['Out'], dict(), dict(alpha=1.)], 'ThresholdedRelu': [ 'thresholded_relu', ['X'], ['Out'], dict(alpha='threshold'), dict(alpha=1.) ], 'Tanh': ['tanh', ['X'], ['Out']], 'Sigmoid': ['sigmoid', ['X'], ['Out']], 'HardSigmoid': [ 'hard_sigmoid', ['X'], ['Out'], dict( alpha='slope', beta='offset'), dict( slope=.2, offset=.5) ], 'Softsign': ['softsign', ['X'], ['Out']], 'Softplus': ['softplus', ['X'], ['Out']], 'Exp': ['exp', ['X'], ['Out']], 'Softmax': ['softmax', ['X'], ['Out'], dict(), dict(axis=1)], 'Sqrt': ['sqrt', ['X'], ['Out']], 'Floor': ['floor', ['X'], ['Out']], 'Abs': ['abs', ['X'], ['Out']], } default_ioa_constraint = { 'Gather': [(lambda i, o, a: a.get('axis', 0) == 0, 'only axis = 0 is supported')], }