# 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. class TrainTaskConfig(object): """ TrainTaskConfig """ # the epoch number to train. pass_num = 20 # the number of sequences contained in a mini-batch. # deprecated, set batch_size in args. batch_size = 32 # the hyper parameters for Adam optimizer. # This static learning_rate will be multiplied to the LearningRateScheduler # derived learning rate the to get the final learning rate. learning_rate = 2.0 beta1 = 0.9 beta2 = 0.997 eps = 1e-9 # the parameters for learning rate scheduling. warmup_steps = 8000 # the weight used to mix up the ground-truth distribution and the fixed # uniform distribution in label smoothing when training. # Set this as zero if label smoothing is not wanted. label_smooth_eps = 0.1 class InferTaskConfig(object): # the number of examples in one run for sequence generation. batch_size = 4 # the parameters for beam search. beam_size = 4 alpha = 0.6 # max decoded length, should be less than ModelHyperParams.max_length max_out_len = 30 class ModelHyperParams(object): """ ModelHyperParams """ # These following five vocabularies related configurations will be set # automatically according to the passed vocabulary path and special tokens. # size of source word dictionary. src_vocab_size = 10000 # size of target word dictionay trg_vocab_size = 10000 # index for token bos_idx = 0 # index for token eos_idx = 1 # index for token unk_idx = 2 # max length of sequences deciding the size of position encoding table. max_length = 50 # the dimension for word embeddings, which is also the last dimension of # the input and output of multi-head attention, position-wise feed-forward # networks, encoder and decoder. d_model = 512 # size of the hidden layer in position-wise feed-forward networks. d_inner_hid = 2048 # the dimension that keys are projected to for dot-product attention. d_key = 64 # the dimension that values are projected to for dot-product attention. d_value = 64 # number of head used in multi-head attention. n_head = 8 # number of sub-layers to be stacked in the encoder and decoder. n_layer = 6 # dropout rates of different modules. prepostprocess_dropout = 0.1 attention_dropout = 0.1 relu_dropout = 0.1 # to process before each sub-layer preprocess_cmd = "n" # layer normalization # to process after each sub-layer postprocess_cmd = "da" # dropout + residual connection # the flag indicating whether to share embedding and softmax weights. # vocabularies in source and target should be same for weight sharing. weight_sharing = False # The placeholder for batch_size in compile time. Must be -1 currently to be # consistent with some ops' infer-shape output in compile time, such as the # sequence_expand op used in beamsearch decoder. batch_size = -1 # The placeholder for squence length in compile time. seq_len = ModelHyperParams.max_length # Here list the data shapes and data types of all inputs. # The shapes here act as placeholder and are set to pass the infer-shape in # compile time. input_descs = { # The actual data shape of src_word is: # [batch_size, max_src_len_in_batch, 1] "src_word": [(batch_size, seq_len, 1), "int64", 2], # The actual data shape of src_pos is: # [batch_size, max_src_len_in_batch, 1] "src_pos": [(batch_size, seq_len, 1), "int64"], # This input is used to remove attention weights on paddings in the # encoder. # The actual data shape of src_slf_attn_bias is: # [batch_size, n_head, max_src_len_in_batch, max_src_len_in_batch] "src_slf_attn_bias": [(batch_size, ModelHyperParams.n_head, seq_len, seq_len), "float32"], # The actual data shape of trg_word is: # [batch_size, max_trg_len_in_batch, 1] "trg_word": [(batch_size, seq_len, 1), "int64", 2], # lod_level is only used in fast decoder. # The actual data shape of trg_pos is: # [batch_size, max_trg_len_in_batch, 1] "trg_pos": [(batch_size, seq_len, 1), "int64"], # This input is used to remove attention weights on paddings and # subsequent words in the decoder. # The actual data shape of trg_slf_attn_bias is: # [batch_size, n_head, max_trg_len_in_batch, max_trg_len_in_batch] "trg_slf_attn_bias": [(batch_size, ModelHyperParams.n_head, seq_len, seq_len), "float32"], # This input is used to remove attention weights on paddings of the source # input in the encoder-decoder attention. # The actual data shape of trg_src_attn_bias is: # [batch_size, n_head, max_trg_len_in_batch, max_src_len_in_batch] "trg_src_attn_bias": [(batch_size, ModelHyperParams.n_head, seq_len, seq_len), "float32"], # This input is used in independent decoder program for inference. # The actual data shape of enc_output is: # [batch_size, max_src_len_in_batch, d_model] "enc_output": [(batch_size, seq_len, ModelHyperParams.d_model), "float32"], # The actual data shape of label_word is: # [batch_size * max_trg_len_in_batch, 1] "lbl_word": [(batch_size * seq_len, 1), "int64"], # This input is used to mask out the loss of paddding tokens. # The actual data shape of label_weight is: # [batch_size * max_trg_len_in_batch, 1] "lbl_weight": [(batch_size * seq_len, 1), "float32"], # This input is used in beam-search decoder. "init_score": [(batch_size, 1), "float32", 2], # This input is used in beam-search decoder for the first gather # (cell states updation) "init_idx": [(batch_size, ), "int32"], } # Names of word embedding table which might be reused for weight sharing. word_emb_param_names = ( "src_word_emb_table", "trg_word_emb_table", ) # Names of position encoding table which will be initialized externally. pos_enc_param_names = ( "src_pos_enc_table", "trg_pos_enc_table", ) # separated inputs for different usages. encoder_data_input_fields = ( "src_word", "src_pos", "src_slf_attn_bias", ) decoder_data_input_fields = ( "trg_word", "trg_pos", "trg_slf_attn_bias", "trg_src_attn_bias", "enc_output", ) label_data_input_fields = ( "lbl_word", "lbl_weight", ) # In fast decoder, trg_pos (only containing the current time step) is generated # by ops and trg_slf_attn_bias is not needed. fast_decoder_data_input_fields = ( "trg_word", # "init_score", # "init_idx", "trg_src_attn_bias", ) def merge_cfg_from_list(cfg_list, g_cfgs): """ Set the above global configurations using the cfg_list. """ assert len(cfg_list) % 2 == 0 for key, value in zip(cfg_list[0::2], cfg_list[1::2]): for g_cfg in g_cfgs: if hasattr(g_cfg, key): try: value = eval(value) except Exception: # for file path pass setattr(g_cfg, key, value) break