提交 f6e03a51 编写于 作者: L LDOUBLEV

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上级 95a60fa4
Global:
use_gpu: true
epoch_num: 72
log_smooth_window: 20
print_batch_step: 10
save_model_dir: ./output/rec/rec_mv3_tps_bilstm_att/
save_epoch_step: 3
# evaluation is run every 5000 iterations after the 4000th iteration
eval_batch_step: [0, 2000]
# if pretrained_model is saved in static mode, load_static_weights must set to True
cal_metric_during_train: True
pretrained_model:
checkpoints:
save_inference_dir:
use_visualdl: False
infer_img: doc/imgs_words/ch/word_1.jpg
# for data or label process
character_dict_path:
character_type: en
max_text_length: 25
infer_mode: False
use_space_char: False
Optimizer:
name: Adam
beta1: 0.9
beta2: 0.999
lr:
learning_rate: 0.0005
regularizer:
name: 'L2'
factor: 0.00001
Architecture:
model_type: rec
algorithm: RARE
Transform:
name: TPS
num_fiducial: 20
loc_lr: 0.1
model_name: small
Backbone:
name: MobileNetV3
scale: 0.5
model_name: large
Neck:
name: SequenceEncoder
encoder_type: rnn
hidden_size: 96
Head:
name: AttentionHead
hidden_size: 96
Loss:
name: AttentionLoss
PostProcess:
name: AttnLabelDecode
Metric:
name: RecMetric
main_indicator: acc
Train:
dataset:
name: LMDBDateSet
data_dir: ../training/
transforms:
- DecodeImage: # load image
img_mode: BGR
channel_first: False
- AttnLabelEncode: # Class handling label
- RecResizeImg:
image_shape: [3, 32, 100]
- KeepKeys:
keep_keys: ['image', 'label', 'length'] # dataloader will return list in this order
loader:
shuffle: True
batch_size_per_card: 256
drop_last: True
num_workers: 8
Eval:
dataset:
name: LMDBDateSet
data_dir: ../validation/
transforms:
- DecodeImage: # load image
img_mode: BGR
channel_first: False
- AttnLabelEncode: # Class handling label
- RecResizeImg:
image_shape: [3, 32, 100]
- KeepKeys:
keep_keys: ['image', 'label', 'length'] # dataloader will return list in this order
loader:
shuffle: False
drop_last: False
batch_size_per_card: 256
num_workers: 1
Global:
use_gpu: true
epoch_num: 400
log_smooth_window: 20
print_batch_step: 10
save_model_dir: ./output/rec/b3_rare_r34_none_gru/
save_epoch_step: 3
# evaluation is run every 5000 iterations after the 4000th iteration
eval_batch_step: [0, 2000]
# if pretrained_model is saved in static mode, load_static_weights must set to True
cal_metric_during_train: True
pretrained_model:
checkpoints:
save_inference_dir:
use_visualdl: False
infer_img: doc/imgs_words/ch/word_1.jpg
# for data or label process
character_dict_path:
character_type: en
max_text_length: 25
infer_mode: False
use_space_char: False
Optimizer:
name: Adam
beta1: 0.9
beta2: 0.999
lr:
learning_rate: 0.0005
regularizer:
name: 'L2'
factor: 0.00000
Architecture:
model_type: rec
algorithm: RARE
Transform:
name: TPS
num_fiducial: 20
loc_lr: 0.1
model_name: large
Backbone:
name: ResNet
layers: 34
Neck:
name: SequenceEncoder
encoder_type: rnn
hidden_size: 256 #96
Head:
name: AttentionHead # AttentionHead
hidden_size: 256 #
l2_decay: 0.00001
Loss:
name: AttentionLoss
PostProcess:
name: AttnLabelDecode
Metric:
name: RecMetric
main_indicator: acc
Train:
dataset:
name: LMDBDateSet
data_dir: ../training/
transforms:
- DecodeImage: # load image
img_mode: BGR
channel_first: False
- AttnLabelEncode: # Class handling label
- RecResizeImg:
image_shape: [3, 32, 100]
- KeepKeys:
keep_keys: ['image', 'label', 'length'] # dataloader will return list in this order
loader:
shuffle: True
batch_size_per_card: 256
drop_last: True
num_workers: 8
Eval:
dataset:
name: LMDBDateSet
data_dir: ../validation/
transforms:
- DecodeImage: # load image
img_mode: BGR
channel_first: False
- AttnLabelEncode: # Class handling label
- RecResizeImg:
image_shape: [3, 32, 100]
- KeepKeys:
keep_keys: ['image', 'label', 'length'] # dataloader will return list in this order
loader:
shuffle: False
drop_last: False
batch_size_per_card: 256
num_workers: 8
...@@ -197,16 +197,30 @@ class AttnLabelEncode(BaseRecLabelEncode): ...@@ -197,16 +197,30 @@ class AttnLabelEncode(BaseRecLabelEncode):
super(AttnLabelEncode, super(AttnLabelEncode,
self).__init__(max_text_length, character_dict_path, self).__init__(max_text_length, character_dict_path,
character_type, use_space_char) character_type, use_space_char)
self.beg_str = "sos"
self.end_str = "eos"
def add_special_char(self, dict_character): def add_special_char(self, dict_character):
dict_character = [self.beg_str, self.end_str] + dict_character self.beg_str = "sos"
self.end_str = "eos"
dict_character = [self.beg_str] + dict_character + [self.end_str]
return dict_character return dict_character
def __call__(self, text): def __call__(self, data):
text = data['label']
text = self.encode(text) text = self.encode(text)
return text if text is None:
return None
if len(text) > self.max_text_len:
return None
data['length'] = np.array(len(text))
text = [0] + text + [len(self.character) - 1] + [0] * (self.max_text_len
- len(text) - 1)
data['label'] = np.array(text)
return data
def get_ignored_tokens(self):
beg_idx = self.get_beg_end_flag_idx("beg")
end_idx = self.get_beg_end_flag_idx("end")
return [beg_idx, end_idx]
def get_beg_end_flag_idx(self, beg_or_end): def get_beg_end_flag_idx(self, beg_or_end):
if beg_or_end == "beg": if beg_or_end == "beg":
......
...@@ -23,11 +23,14 @@ def build_loss(config): ...@@ -23,11 +23,14 @@ def build_loss(config):
# rec loss # rec loss
from .rec_ctc_loss import CTCLoss from .rec_ctc_loss import CTCLoss
from .rec_att_loss import AttentionLoss
# cls loss # cls loss
from .cls_loss import ClsLoss from .cls_loss import ClsLoss
support_dict = ['DBLoss', 'EASTLoss', 'SASTLoss', 'CTCLoss', 'ClsLoss'] support_dict = [
'DBLoss', 'EASTLoss', 'SASTLoss', 'CTCLoss', 'ClsLoss', 'AttentionLoss'
]
config = copy.deepcopy(config) config = copy.deepcopy(config)
module_name = config.pop('name') module_name = config.pop('name')
......
# copyright (c) 2021 PaddlePaddle Authors. All Rights Reserve.
#
# 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 absolute_import
from __future__ import division
from __future__ import print_function
import paddle
from paddle import nn
class AttentionLoss(nn.Layer):
def __init__(self, **kwargs):
super(AttentionLoss, self).__init__()
self.loss_func = nn.CrossEntropyLoss(weight=None, reduction='none')
def forward(self, predicts, batch):
targets = batch[1].astype("int64")
label_lengths = batch[2].astype('int64')
batch_size, num_steps, num_classes = predicts.shape[0], predicts.shape[
1], predicts.shape[2]
assert len(targets.shape) == len(list(predicts.shape)) - 1, \
"The target's shape and inputs's shape is [N, d] and [N, num_steps]"
inputs = paddle.reshape(predicts, [-1, predicts.shape[-1]])
targets = paddle.reshape(targets, [-1])
return {'loss': paddle.sum(self.loss_func(inputs, targets))}
...@@ -23,10 +23,13 @@ def build_head(config): ...@@ -23,10 +23,13 @@ def build_head(config):
# rec head # rec head
from .rec_ctc_head import CTCHead from .rec_ctc_head import CTCHead
from .rec_att_head import AttentionHead
# cls head # cls head
from .cls_head import ClsHead from .cls_head import ClsHead
support_dict = ['DBHead', 'EASTHead', 'SASTHead', 'CTCHead', 'ClsHead'] support_dict = [
'DBHead', 'EASTHead', 'SASTHead', 'CTCHead', 'ClsHead', 'AttentionHead'
]
module_name = config.pop('name') module_name = config.pop('name')
assert module_name in support_dict, Exception('head only support {}'.format( assert module_name in support_dict, Exception('head only support {}'.format(
......
# copyright (c) 2021 PaddlePaddle Authors. All Rights Reserve.
#
# 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 absolute_import
from __future__ import division
from __future__ import print_function
import paddle
import paddle.nn as nn
import paddle.nn.functional as F
import numpy as np
from paddle.jit import to_static
class AttentionHead(nn.Layer):
def __init__(self, in_channels, out_channels, hidden_size, **kwargs):
super(AttentionHead, self).__init__()
self.input_size = in_channels
self.hidden_size = hidden_size
self.num_classes = out_channels
self.attention_cell = AttentionGRUCell(
in_channels, hidden_size, out_channels, use_gru=False)
self.generator = nn.Linear(hidden_size, out_channels)
def _char_to_onehot(self, input_char, onehot_dim):
input_ont_hot = F.one_hot(input_char, onehot_dim)
return input_ont_hot
def forward(self, inputs, targets=None, batch_max_length=25):
batch_size = inputs.shape[0]
num_steps = batch_max_length
hidden = paddle.zeros((batch_size, self.hidden_size))
output_hiddens = []
if targets is not None:
for i in range(num_steps):
char_onehots = self._char_to_onehot(
targets[:, i], onehot_dim=self.num_classes)
(outputs, hidden), alpha = self.attention_cell(hidden, inputs,
char_onehots)
output_hiddens.append(paddle.unsqueeze(outputs, axis=1))
output = paddle.concat(output_hiddens, axis=1)
probs = self.generator(output)
else:
targets = paddle.zeros(shape=[batch_size], dtype="int32")
probs = None
for i in range(num_steps):
char_onehots = self._char_to_onehot(
targets, onehot_dim=self.num_classes)
(outputs, hidden), alpha = self.attention_cell(hidden, inputs,
char_onehots)
probs_step = self.generator(outputs)
probs = paddle.unsqueeze(
probs_step, axis=1) if probs is None else paddle.concat(
[probs, paddle.unsqueeze(
probs_step, axis=1)], axis=1)
next_input = probs_step.argmax(axis=1)
targets = next_input
return probs
class AttentionGRUCell(nn.Layer):
def __init__(self, input_size, hidden_size, num_embeddings, use_gru=False):
super(AttentionGRUCell, self).__init__()
self.i2h = nn.Linear(input_size, hidden_size, bias_attr=False)
self.h2h = nn.Linear(hidden_size, hidden_size)
self.score = nn.Linear(hidden_size, 1, bias_attr=False)
self.rnn = nn.GRUCell(
input_size=input_size + num_embeddings, hidden_size=hidden_size)
self.hidden_size = hidden_size
def forward(self, prev_hidden, batch_H, char_onehots):
batch_H_proj = self.i2h(batch_H)
prev_hidden_proj = paddle.unsqueeze(self.h2h(prev_hidden), axis=1)
res = paddle.add(batch_H_proj, prev_hidden_proj)
res = paddle.tanh(res)
e = self.score(res)
alpha = F.softmax(e, axis=1)
alpha = paddle.transpose(alpha, [0, 2, 1])
context = paddle.squeeze(paddle.mm(alpha, batch_H), axis=1)
concat_context = paddle.concat([context, char_onehots], 1)
cur_hidden = self.rnn(concat_context, prev_hidden)
return cur_hidden, alpha
class AttentionLSTM(nn.Layer):
def __init__(self, in_channels, out_channels, hidden_size, **kwargs):
super(AttentionLSTM, self).__init__()
self.input_size = in_channels
self.hidden_size = hidden_size
self.num_classes = out_channels
self.attention_cell = AttentionLSTMCell(
in_channels, hidden_size, out_channels, use_gru=False)
self.generator = nn.Linear(hidden_size, out_channels)
def _char_to_onehot(self, input_char, onehot_dim):
input_ont_hot = F.one_hot(input_char, onehot_dim)
return input_ont_hot
def forward(self, inputs, targets=None, batch_max_length=25):
batch_size = inputs.shape[0]
num_steps = batch_max_length
hidden = (paddle.zeros((batch_size, self.hidden_size)), paddle.zeros(
(batch_size, self.hidden_size)))
output_hiddens = []
if targets is not None:
for i in range(num_steps):
# one-hot vectors for a i-th char
char_onehots = self._char_to_onehot(
targets[:, i], onehot_dim=self.num_classes)
hidden, alpha = self.attention_cell(hidden, inputs,
char_onehots)
hidden = (hidden[1][0], hidden[1][1])
output_hiddens.append(paddle.unsqueeze(hidden[0], axis=1))
output = paddle.concat(output_hiddens, axis=1)
probs = self.generator(output)
else:
targets = paddle.zeros(shape=[batch_size], dtype="int32")
probs = None
for i in range(num_steps):
char_onehots = self._char_to_onehot(
targets, onehot_dim=self.num_classes)
hidden, alpha = self.attention_cell(hidden, inputs,
char_onehots)
probs_step = self.generator(hidden[0])
hidden = (hidden[1][0], hidden[1][1])
probs = paddle.unsqueeze(
probs_step, axis=1) if probs is None else paddle.concat(
[probs, paddle.unsqueeze(
probs_step, axis=1)], axis=1)
next_input = probs_step.argmax(axis=1)
targets = next_input
return probs
class AttentionLSTMCell(nn.Layer):
def __init__(self, input_size, hidden_size, num_embeddings, use_gru=False):
super(AttentionLSTMCell, self).__init__()
self.i2h = nn.Linear(input_size, hidden_size, bias_attr=False)
self.h2h = nn.Linear(hidden_size, hidden_size)
self.score = nn.Linear(hidden_size, 1, bias_attr=False)
if not use_gru:
self.rnn = nn.LSTMCell(
input_size=input_size + num_embeddings, hidden_size=hidden_size)
else:
self.rnn = nn.GRUCell(
input_size=input_size + num_embeddings, hidden_size=hidden_size)
self.hidden_size = hidden_size
def forward(self, prev_hidden, batch_H, char_onehots):
batch_H_proj = self.i2h(batch_H)
prev_hidden_proj = paddle.unsqueeze(self.h2h(prev_hidden[0]), axis=1)
res = paddle.add(batch_H_proj, prev_hidden_proj)
res = paddle.tanh(res)
e = self.score(res)
alpha = F.softmax(e, axis=1)
alpha = paddle.transpose(alpha, [0, 2, 1])
context = paddle.squeeze(paddle.mm(alpha, batch_H), axis=1)
concat_context = paddle.concat([context, char_onehots], 1)
cur_hidden = self.rnn(concat_context, prev_hidden)
return cur_hidden, alpha
if __name__ == '__main__':
paddle.disable_static()
model = Attention(100, 200, 10)
x = np.random.uniform(-1, 1, [2, 10, 100]).astype(np.float32)
y = np.random.randint(0, 10, [2, 21]).astype(np.int32)
xp = paddle.to_tensor(x)
yp = paddle.to_tensor(y)
res = model(inputs=xp, targets=yp, is_train=True, batch_max_length=20)
print("res: ", res.shape)
...@@ -30,7 +30,8 @@ def build_post_process(config, global_config=None): ...@@ -30,7 +30,8 @@ def build_post_process(config, global_config=None):
from .cls_postprocess import ClsPostProcess from .cls_postprocess import ClsPostProcess
support_dict = [ support_dict = [
'DBPostProcess', 'EASTPostProcess', 'SASTPostProcess', 'CTCLabelDecode', 'AttnLabelDecode', 'ClsPostProcess' 'DBPostProcess', 'EASTPostProcess', 'SASTPostProcess', 'CTCLabelDecode',
'AttnLabelDecode', 'ClsPostProcess', 'AttnLabelDecode'
] ]
config = copy.deepcopy(config) config = copy.deepcopy(config)
......
...@@ -133,16 +133,52 @@ class AttnLabelDecode(BaseRecLabelDecode): ...@@ -133,16 +133,52 @@ class AttnLabelDecode(BaseRecLabelDecode):
**kwargs): **kwargs):
super(AttnLabelDecode, self).__init__(character_dict_path, super(AttnLabelDecode, self).__init__(character_dict_path,
character_type, use_space_char) character_type, use_space_char)
self.beg_str = "sos"
self.end_str = "eos"
def add_special_char(self, dict_character): def add_special_char(self, dict_character):
dict_character = [self.beg_str, self.end_str] + dict_character self.beg_str = "sos"
self.end_str = "eos"
dict_character = dict_character
dict_character = [self.beg_str] + dict_character + [self.end_str]
return dict_character return dict_character
def __call__(self, text): def __call__(self, preds, label=None, *args, **kwargs):
"""
text = self.decode(text) text = self.decode(text)
if label is None:
return text
else:
label = self.decode(label, is_remove_duplicate=False)
return text, label
"""
if isinstance(preds, paddle.Tensor):
preds = preds.numpy()
preds_idx = preds.argmax(axis=2)
preds_prob = preds.max(axis=2)
text = self.decode(preds_idx, preds_prob, is_remove_duplicate=True)
if label is None:
return text return text
label = self.decode(label, is_remove_duplicate=True)
return text, label
def encoder(self, labels, labels_length):
"""
used to encoder labels readed from LMDB dataset, forexample:
[35, 25, 31, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0, 0]] encode to
'you': [0, 35,25,31, 37, 0, ...] 'sos'you'eos'
"""
if isinstance(labels, paddle.Tensor):
labels = labels.numpy()
batch_max_length = labels.shape[
1] + 2 # add start token 'sos' and end token 'eos'
new_labels = np.zeros(
[labels.shape[0], batch_max_length]).astype(np.int64)
for i in range(labels.shape[0]):
new_labels[i, 1:1 + labels_length[i]] = labels[i, :labels_length[
i]] # new_labels[i, 0] = 'sos' token
new_labels[i, labels_length[i] + 1] = len(
self.character) - 1 # add end charactor 'eos' token
return new_labels
def get_ignored_tokens(self): def get_ignored_tokens(self):
beg_idx = self.get_beg_end_flag_idx("beg") beg_idx = self.get_beg_end_flag_idx("beg")
......
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