PaddleOCR/StyleTextRec/arch/style_text_rec.py

286 lines
10 KiB
Python

# Copyright (c) 2020 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.
import paddle
import paddle.nn as nn
from arch.base_module import MiddleNet, ResBlock
from arch.encoder import Encoder
from arch.decoder import Decoder, DecoderUnet, SingleDecoder
from utils.load_params import load_dygraph_pretrain
from utils.logging import get_logger
class StyleTextRec(nn.Layer):
def __init__(self, config):
super(StyleTextRec, self).__init__()
self.logger = get_logger()
self.text_generator = TextGenerator(config["Predictor"][
"text_generator"])
self.bg_generator = BgGeneratorWithMask(config["Predictor"][
"bg_generator"])
self.fusion_generator = FusionGeneratorSimple(config["Predictor"][
"fusion_generator"])
bg_generator_pretrain = config["Predictor"]["bg_generator"]["pretrain"]
text_generator_pretrain = config["Predictor"]["text_generator"][
"pretrain"]
fusion_generator_pretrain = config["Predictor"]["fusion_generator"][
"pretrain"]
load_dygraph_pretrain(
self.bg_generator,
self.logger,
path=bg_generator_pretrain,
load_static_weights=False)
load_dygraph_pretrain(
self.text_generator,
self.logger,
path=text_generator_pretrain,
load_static_weights=False)
load_dygraph_pretrain(
self.fusion_generator,
self.logger,
path=fusion_generator_pretrain,
load_static_weights=False)
def forward(self, style_input, text_input):
text_gen_output = self.text_generator.forward(style_input, text_input)
fake_text = text_gen_output["fake_text"]
fake_sk = text_gen_output["fake_sk"]
bg_gen_output = self.bg_generator.forward(style_input)
bg_encode_feature = bg_gen_output["bg_encode_feature"]
bg_decode_feature1 = bg_gen_output["bg_decode_feature1"]
bg_decode_feature2 = bg_gen_output["bg_decode_feature2"]
fake_bg = bg_gen_output["fake_bg"]
fusion_gen_output = self.fusion_generator.forward(fake_text, fake_bg)
fake_fusion = fusion_gen_output["fake_fusion"]
return {
"fake_fusion": fake_fusion,
"fake_text": fake_text,
"fake_sk": fake_sk,
"fake_bg": fake_bg,
}
class TextGenerator(nn.Layer):
def __init__(self, config):
super(TextGenerator, self).__init__()
name = config["module_name"]
encode_dim = config["encode_dim"]
norm_layer = config["norm_layer"]
conv_block_dropout = config["conv_block_dropout"]
conv_block_num = config["conv_block_num"]
conv_block_dilation = config["conv_block_dilation"]
if norm_layer == "InstanceNorm2D":
use_bias = True
else:
use_bias = False
self.encoder_text = Encoder(
name=name + "_encoder_text",
in_channels=3,
encode_dim=encode_dim,
use_bias=use_bias,
norm_layer=norm_layer,
act="ReLU",
act_attr=None,
conv_block_dropout=conv_block_dropout,
conv_block_num=conv_block_num,
conv_block_dilation=conv_block_dilation)
self.encoder_style = Encoder(
name=name + "_encoder_style",
in_channels=3,
encode_dim=encode_dim,
use_bias=use_bias,
norm_layer=norm_layer,
act="ReLU",
act_attr=None,
conv_block_dropout=conv_block_dropout,
conv_block_num=conv_block_num,
conv_block_dilation=conv_block_dilation)
self.decoder_text = Decoder(
name=name + "_decoder_text",
encode_dim=encode_dim,
out_channels=int(encode_dim / 2),
use_bias=use_bias,
norm_layer=norm_layer,
act="ReLU",
act_attr=None,
conv_block_dropout=conv_block_dropout,
conv_block_num=conv_block_num,
conv_block_dilation=conv_block_dilation,
out_conv_act="Tanh",
out_conv_act_attr=None)
self.decoder_sk = Decoder(
name=name + "_decoder_sk",
encode_dim=encode_dim,
out_channels=1,
use_bias=use_bias,
norm_layer=norm_layer,
act="ReLU",
act_attr=None,
conv_block_dropout=conv_block_dropout,
conv_block_num=conv_block_num,
conv_block_dilation=conv_block_dilation,
out_conv_act="Sigmoid",
out_conv_act_attr=None)
self.middle = MiddleNet(
name=name + "_middle_net",
in_channels=int(encode_dim / 2) + 1,
mid_channels=encode_dim,
out_channels=3,
use_bias=use_bias)
def forward(self, style_input, text_input):
style_feature = self.encoder_style.forward(style_input)["res_blocks"]
text_feature = self.encoder_text.forward(text_input)["res_blocks"]
fake_c_temp = self.decoder_text.forward([text_feature,
style_feature])["out_conv"]
fake_sk = self.decoder_sk.forward([text_feature,
style_feature])["out_conv"]
fake_text = self.middle(paddle.concat((fake_c_temp, fake_sk), axis=1))
return {"fake_sk": fake_sk, "fake_text": fake_text}
class BgGeneratorWithMask(nn.Layer):
def __init__(self, config):
super(BgGeneratorWithMask, self).__init__()
name = config["module_name"]
encode_dim = config["encode_dim"]
norm_layer = config["norm_layer"]
conv_block_dropout = config["conv_block_dropout"]
conv_block_num = config["conv_block_num"]
conv_block_dilation = config["conv_block_dilation"]
self.output_factor = config.get("output_factor", 1.0)
if norm_layer == "InstanceNorm2D":
use_bias = True
else:
use_bias = False
self.encoder_bg = Encoder(
name=name + "_encoder_bg",
in_channels=3,
encode_dim=encode_dim,
use_bias=use_bias,
norm_layer=norm_layer,
act="ReLU",
act_attr=None,
conv_block_dropout=conv_block_dropout,
conv_block_num=conv_block_num,
conv_block_dilation=conv_block_dilation)
self.decoder_bg = SingleDecoder(
name=name + "_decoder_bg",
encode_dim=encode_dim,
out_channels=3,
use_bias=use_bias,
norm_layer=norm_layer,
act="ReLU",
act_attr=None,
conv_block_dropout=conv_block_dropout,
conv_block_num=conv_block_num,
conv_block_dilation=conv_block_dilation,
out_conv_act="Tanh",
out_conv_act_attr=None)
self.decoder_mask = Decoder(
name=name + "_decoder_mask",
encode_dim=encode_dim // 2,
out_channels=1,
use_bias=use_bias,
norm_layer=norm_layer,
act="ReLU",
act_attr=None,
conv_block_dropout=conv_block_dropout,
conv_block_num=conv_block_num,
conv_block_dilation=conv_block_dilation,
out_conv_act="Sigmoid",
out_conv_act_attr=None)
self.middle = MiddleNet(
name=name + "_middle_net",
in_channels=3 + 1,
mid_channels=encode_dim,
out_channels=3,
use_bias=use_bias)
def forward(self, style_input):
encode_bg_output = self.encoder_bg(style_input)
decode_bg_output = self.decoder_bg(encode_bg_output["res_blocks"],
encode_bg_output["down2"],
encode_bg_output["down1"])
fake_c_temp = decode_bg_output["out_conv"]
fake_bg_mask = self.decoder_mask.forward(encode_bg_output[
"res_blocks"])["out_conv"]
fake_bg = self.middle(
paddle.concat(
(fake_c_temp, fake_bg_mask), axis=1))
return {
"bg_encode_feature": encode_bg_output["res_blocks"],
"bg_decode_feature1": decode_bg_output["up1"],
"bg_decode_feature2": decode_bg_output["up2"],
"fake_bg": fake_bg,
"fake_bg_mask": fake_bg_mask,
}
class FusionGeneratorSimple(nn.Layer):
def __init__(self, config):
super(FusionGeneratorSimple, self).__init__()
name = config["module_name"]
encode_dim = config["encode_dim"]
norm_layer = config["norm_layer"]
conv_block_dropout = config["conv_block_dropout"]
conv_block_dilation = config["conv_block_dilation"]
if norm_layer == "InstanceNorm2D":
use_bias = True
else:
use_bias = False
self._conv = nn.Conv2D(
in_channels=6,
out_channels=encode_dim,
kernel_size=3,
stride=1,
padding=1,
groups=1,
weight_attr=paddle.ParamAttr(name=name + "_conv_weights"),
bias_attr=False)
self._res_block = ResBlock(
name="{}_conv_block".format(name),
channels=encode_dim,
norm_layer=norm_layer,
use_dropout=conv_block_dropout,
use_dilation=conv_block_dilation,
use_bias=use_bias)
self._reduce_conv = nn.Conv2D(
in_channels=encode_dim,
out_channels=3,
kernel_size=3,
stride=1,
padding=1,
groups=1,
weight_attr=paddle.ParamAttr(name=name + "_reduce_conv_weights"),
bias_attr=False)
def forward(self, fake_text, fake_bg):
fake_concat = paddle.concat((fake_text, fake_bg), axis=1)
fake_concat_tmp = self._conv(fake_concat)
output_res = self._res_block(fake_concat_tmp)
fake_fusion = self._reduce_conv(output_res)
return {"fake_fusion": fake_fusion}