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编写于
10月 14, 2020
作者:
H
haoyuying
提交者:
GitHub
10月 14, 2020
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hub_module/modules/image/classification/mobilenet_v3_large_imagenet_ssld/README.md
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hub_module/modules/image/classification/mobilenet_v3_large_imagenet_ssld/mobilenet_v3.py
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hub_module/modules/image/classification/mobilenet_v3_large_imagenet_ssld/README.md
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```
shell
$
hub
install
mobilenet_v3_large_imagenet_ssld
==
1.0.0
```
## 命令行预测
```
hub run mobilenet_v3_large_imagenet_ssld --input_path "/PATH/TO/IMAGE"
```
## API
```
python
def
get_expected_image_width
()
```
返回预处理的图片宽度,也就是224。
```
python
def
get_expected_image_height
()
```
返回预处理的图片高度,也就是224。
```
python
def
get_pretrained_images_mean
()
```
返回预处理的图片均值,也就是
\[
0.485, 0.456, 0.406
\]
。
```
python
def
get_pretrained_images_std
()
```
返回预处理的图片标准差,也就是
\[
0.229, 0.224, 0.225
\]
。
```
python
def
context
(
trainable
=
True
,
pretrained
=
True
)
```
**参数**
*
trainable (bool): 计算图的参数是否为可训练的;
*
pretrained (bool): 是否加载默认的预训练模型。
**返回**
*
inputs (dict): 计算图的输入,key 为 'image', value 为图片的张量;
*
outputs (dict): 计算图的输出,key 为 'classification' 和 'feature_map',其相应的值为:
*
classification (paddle.fluid.framework.Variable): 分类结果,也就是全连接层的输出;
*
feature
\_
map (paddle.fluid.framework.Variable): 特征匹配,全连接层前面的那个张量。
*
context
\_
prog(fluid.Program): 计算图,用于迁移学习。
```
python
def
classification
(
images
=
None
,
paths
=
None
,
batch_size
=
1
,
use_gpu
=
False
,
top_k
=
1
):
```
**参数**
*
images (list
\[
numpy.ndarray
\]
): 图片数据,每一个图片数据的shape 均为
\[
H, W, C
\]
,颜色空间为 BGR;
*
paths (list
\[
str
\]
): 图片的路径;
*
batch
\_
size (int): batch 的大小;
*
use
\_
gpu (bool): 是否使用 GPU 来预测;
*
top
\_
k (int): 返回预测结果的前 k 个。
**返回**
res (list
\[
dict
\]
): 分类结果,列表的每一个元素均为字典,其中 key 为识别动物的类别,value为置信度。
```
python
def
save_inference_model
(
dirname
,
model_filename
=
None
,
params_filename
=
None
,
combined
=
True
)
```
将模型保存到指定路径。
**参数**
*
dirname: 存在模型的目录名称
*
model_filename: 模型文件名称,默认为
\_\_
model
\_\_
*
params_filename: 参数文件名称,默认为
\_\_
params
\_\_
(仅当
`combined`
为True时生效)
*
combined: 是否将参数保存到统一的一个文件中
## 代码示例
```
python
import
paddlehub
as
hub
import
cv2
classifier
=
hub
.
Module
(
name
=
"mobilenet_v3_large_imagenet_ssld"
)
result
=
classifier
.
classification
(
images
=
[
cv2
.
imread
(
'/PATH/TO/IMAGE'
)])
# or
# result = classifier.classification(paths=['/PATH/TO/IMAGE'])
```
## 服务部署
PaddleHub Serving可以部署一个在线动物识别服务。
## 第一步:启动PaddleHub Serving
运行启动命令:
```
shell
$
hub serving start
-m
mobilenet_v3_large_imagenet_ssld
```
这样就完成了一个在线动物识别服务化API的部署,默认端口号为8866。
**NOTE:**
如使用GPU预测,则需要在启动服务之前,请设置CUDA
\_
VISIBLE
\_
DEVICES环境变量,否则不用设置。
## 第二步:发送预测请求
配置好服务端,以下数行代码即可实现发送预测请求,获取预测结果
```
python
import
requests
import
json
import
cv2
import
base64
def
cv2_to_base64
(
image
):
data
=
cv2
.
imencode
(
'.jpg'
,
image
)[
1
]
return
base64
.
b64encode
(
data
.
tostring
()).
decode
(
'utf8'
)
# 发送HTTP请求
data
=
{
'images'
:[
cv2_to_base64
(
cv2
.
imread
(
"/PATH/TO/IMAGE"
))]}
headers
=
{
"Content-type"
:
"application/json"
}
url
=
"http://127.0.0.1:8866/predict/mobilenet_v3_large_imagenet_ssld"
r
=
requests
.
post
(
url
=
url
,
headers
=
headers
,
data
=
json
.
dumps
(
data
))
# 打印预测结果
print
(
r
.
json
()[
"results"
])
```
### 查看代码
[
PaddleClas
](
https://github.com/PaddlePaddle/PaddleClas
)
### 依赖
paddlepaddle >= 1.6.2
paddlehub >= 1.6.0
hub_module/modules/image/classification/mobilenet_v3_large_imagenet_ssld/data_feed.py
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# coding=utf-8
import
os
import
time
from
collections
import
OrderedDict
import
cv2
import
numpy
as
np
from
PIL
import
Image
__all__
=
[
'reader'
]
DATA_DIM
=
224
img_mean
=
np
.
array
([
0.485
,
0.456
,
0.406
]).
reshape
((
3
,
1
,
1
))
img_std
=
np
.
array
([
0.229
,
0.224
,
0.225
]).
reshape
((
3
,
1
,
1
))
def
resize_short
(
img
,
target_size
):
percent
=
float
(
target_size
)
/
min
(
img
.
size
[
0
],
img
.
size
[
1
])
resized_width
=
int
(
round
(
img
.
size
[
0
]
*
percent
))
resized_height
=
int
(
round
(
img
.
size
[
1
]
*
percent
))
img
=
img
.
resize
((
resized_width
,
resized_height
),
Image
.
LANCZOS
)
return
img
def
crop_image
(
img
,
target_size
,
center
):
width
,
height
=
img
.
size
size
=
target_size
if
center
==
True
:
w_start
=
(
width
-
size
)
/
2
h_start
=
(
height
-
size
)
/
2
else
:
w_start
=
np
.
random
.
randint
(
0
,
width
-
size
+
1
)
h_start
=
np
.
random
.
randint
(
0
,
height
-
size
+
1
)
w_end
=
w_start
+
size
h_end
=
h_start
+
size
img
=
img
.
crop
((
w_start
,
h_start
,
w_end
,
h_end
))
return
img
def
process_image
(
img
):
img
=
resize_short
(
img
,
target_size
=
256
)
img
=
crop_image
(
img
,
target_size
=
DATA_DIM
,
center
=
True
)
if
img
.
mode
!=
'RGB'
:
img
=
img
.
convert
(
'RGB'
)
img
=
np
.
array
(
img
).
astype
(
'float32'
).
transpose
((
2
,
0
,
1
))
/
255
img
-=
img_mean
img
/=
img_std
return
img
def
reader
(
images
=
None
,
paths
=
None
):
"""
Preprocess to yield image.
Args:
images (list[numpy.ndarray]): images data, shape of each is [H, W, C].
paths (list[str]): paths to images.
Yield:
each (collections.OrderedDict): info of original image, preprocessed image.
"""
component
=
list
()
if
paths
:
for
im_path
in
paths
:
each
=
OrderedDict
()
assert
os
.
path
.
isfile
(
im_path
),
"The {} isn't a valid file path."
.
format
(
im_path
)
each
[
'org_im_path'
]
=
im_path
each
[
'org_im'
]
=
Image
.
open
(
im_path
)
each
[
'org_im_width'
],
each
[
'org_im_height'
]
=
each
[
'org_im'
].
size
component
.
append
(
each
)
if
images
is
not
None
:
assert
type
(
images
),
"images is a list."
for
im
in
images
:
each
=
OrderedDict
()
each
[
'org_im'
]
=
Image
.
fromarray
(
im
[:,
:,
::
-
1
])
each
[
'org_im_path'
]
=
'ndarray_time={}'
.
format
(
round
(
time
.
time
(),
6
)
*
1e6
)
each
[
'org_im_width'
],
each
[
'org_im_height'
]
=
each
[
'org_im'
].
size
component
.
append
(
each
)
for
element
in
component
:
element
[
'image'
]
=
process_image
(
element
[
'org_im'
])
yield
element
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点击以展开。
hub_module/modules/image/classification/mobilenet_v3_large_imagenet_ssld/mobilenet_v3.py
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# 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.
from
__future__
import
absolute_import
from
__future__
import
division
from
__future__
import
print_function
import
paddle.fluid
as
fluid
from
paddle.fluid.initializer
import
MSRA
from
paddle.fluid.param_attr
import
ParamAttr
__all__
=
[
'MobileNetV3'
,
'MobileNetV3_small_x0_35'
,
'MobileNetV3_small_x0_5'
,
'MobileNetV3_small_x0_75'
,
'MobileNetV3_small_x1_0'
,
'MobileNetV3_small_x1_25'
,
'MobileNetV3_large_x0_35'
,
'MobileNetV3_large_x0_5'
,
'MobileNetV3_large_x0_75'
,
'MobileNetV3_large_x1_0'
,
'MobileNetV3_large_x1_25'
]
class
MobileNetV3
():
def
__init__
(
self
,
scale
=
1.0
,
model_name
=
'small'
):
self
.
scale
=
scale
self
.
inplanes
=
16
if
model_name
==
"large"
:
self
.
cfg
=
[
# k, exp, c, se, nl, s,
[
3
,
16
,
16
,
False
,
'relu'
,
1
],
[
3
,
64
,
24
,
False
,
'relu'
,
2
],
[
3
,
72
,
24
,
False
,
'relu'
,
1
],
[
5
,
72
,
40
,
True
,
'relu'
,
2
],
[
5
,
120
,
40
,
True
,
'relu'
,
1
],
[
5
,
120
,
40
,
True
,
'relu'
,
1
],
[
3
,
240
,
80
,
False
,
'hard_swish'
,
2
],
[
3
,
200
,
80
,
False
,
'hard_swish'
,
1
],
[
3
,
184
,
80
,
False
,
'hard_swish'
,
1
],
[
3
,
184
,
80
,
False
,
'hard_swish'
,
1
],
[
3
,
480
,
112
,
True
,
'hard_swish'
,
1
],
[
3
,
672
,
112
,
True
,
'hard_swish'
,
1
],
[
5
,
672
,
160
,
True
,
'hard_swish'
,
2
],
[
5
,
960
,
160
,
True
,
'hard_swish'
,
1
],
[
5
,
960
,
160
,
True
,
'hard_swish'
,
1
],
]
self
.
cls_ch_squeeze
=
960
self
.
cls_ch_expand
=
1280
elif
model_name
==
"small"
:
self
.
cfg
=
[
# k, exp, c, se, nl, s,
[
3
,
16
,
16
,
True
,
'relu'
,
2
],
[
3
,
72
,
24
,
False
,
'relu'
,
2
],
[
3
,
88
,
24
,
False
,
'relu'
,
1
],
[
5
,
96
,
40
,
True
,
'hard_swish'
,
2
],
[
5
,
240
,
40
,
True
,
'hard_swish'
,
1
],
[
5
,
240
,
40
,
True
,
'hard_swish'
,
1
],
[
5
,
120
,
48
,
True
,
'hard_swish'
,
1
],
[
5
,
144
,
48
,
True
,
'hard_swish'
,
1
],
[
5
,
288
,
96
,
True
,
'hard_swish'
,
2
],
[
5
,
576
,
96
,
True
,
'hard_swish'
,
1
],
[
5
,
576
,
96
,
True
,
'hard_swish'
,
1
],
]
self
.
cls_ch_squeeze
=
576
self
.
cls_ch_expand
=
1280
else
:
raise
NotImplementedError
(
"mode["
+
model_name
+
"_model] is not implemented!"
)
def
net
(
self
,
input
,
class_dim
=
1000
):
scale
=
self
.
scale
inplanes
=
self
.
inplanes
cfg
=
self
.
cfg
cls_ch_squeeze
=
self
.
cls_ch_squeeze
cls_ch_expand
=
self
.
cls_ch_expand
#conv1
conv
=
self
.
conv_bn_layer
(
input
,
filter_size
=
3
,
num_filters
=
self
.
make_divisible
(
inplanes
*
scale
),
stride
=
2
,
padding
=
1
,
num_groups
=
1
,
if_act
=
True
,
act
=
'hard_swish'
,
name
=
'conv1'
)
i
=
0
inplanes
=
self
.
make_divisible
(
inplanes
*
scale
)
for
layer_cfg
in
cfg
:
conv
=
self
.
residual_unit
(
input
=
conv
,
num_in_filter
=
inplanes
,
num_mid_filter
=
self
.
make_divisible
(
scale
*
layer_cfg
[
1
]),
num_out_filter
=
self
.
make_divisible
(
scale
*
layer_cfg
[
2
]),
act
=
layer_cfg
[
4
],
stride
=
layer_cfg
[
5
],
filter_size
=
layer_cfg
[
0
],
use_se
=
layer_cfg
[
3
],
name
=
'conv'
+
str
(
i
+
2
))
inplanes
=
self
.
make_divisible
(
scale
*
layer_cfg
[
2
])
i
+=
1
conv
=
self
.
conv_bn_layer
(
input
=
conv
,
filter_size
=
1
,
num_filters
=
self
.
make_divisible
(
scale
*
cls_ch_squeeze
),
stride
=
1
,
padding
=
0
,
num_groups
=
1
,
if_act
=
True
,
act
=
'hard_swish'
,
name
=
'conv_last'
)
conv
=
fluid
.
layers
.
pool2d
(
input
=
conv
,
pool_type
=
'avg'
,
global_pooling
=
True
,
use_cudnn
=
False
)
conv
=
fluid
.
layers
.
conv2d
(
input
=
conv
,
num_filters
=
cls_ch_expand
,
filter_size
=
1
,
stride
=
1
,
padding
=
0
,
act
=
None
,
param_attr
=
ParamAttr
(
name
=
'last_1x1_conv_weights'
),
bias_attr
=
False
)
conv
=
fluid
.
layers
.
hard_swish
(
conv
)
drop
=
fluid
.
layers
.
dropout
(
x
=
conv
,
dropout_prob
=
0.2
)
out
=
fluid
.
layers
.
fc
(
input
=
drop
,
size
=
class_dim
,
param_attr
=
ParamAttr
(
name
=
'fc_weights'
),
bias_attr
=
ParamAttr
(
name
=
'fc_offset'
))
return
out
,
drop
def
conv_bn_layer
(
self
,
input
,
filter_size
,
num_filters
,
stride
,
padding
,
num_groups
=
1
,
if_act
=
True
,
act
=
None
,
name
=
None
,
use_cudnn
=
True
,
res_last_bn_init
=
False
):
conv
=
fluid
.
layers
.
conv2d
(
input
=
input
,
num_filters
=
num_filters
,
filter_size
=
filter_size
,
stride
=
stride
,
padding
=
padding
,
groups
=
num_groups
,
act
=
None
,
use_cudnn
=
use_cudnn
,
param_attr
=
ParamAttr
(
name
=
name
+
'_weights'
),
bias_attr
=
False
)
bn_name
=
name
+
'_bn'
bn
=
fluid
.
layers
.
batch_norm
(
input
=
conv
,
param_attr
=
ParamAttr
(
name
=
bn_name
+
"_scale"
,
regularizer
=
fluid
.
regularizer
.
L2DecayRegularizer
(
regularization_coeff
=
0.0
)),
bias_attr
=
ParamAttr
(
name
=
bn_name
+
"_offset"
,
regularizer
=
fluid
.
regularizer
.
L2DecayRegularizer
(
regularization_coeff
=
0.0
)),
moving_mean_name
=
bn_name
+
'_mean'
,
moving_variance_name
=
bn_name
+
'_variance'
)
if
if_act
:
if
act
==
'relu'
:
bn
=
fluid
.
layers
.
relu
(
bn
)
elif
act
==
'hard_swish'
:
bn
=
fluid
.
layers
.
hard_swish
(
bn
)
return
bn
def
make_divisible
(
self
,
v
,
divisor
=
8
,
min_value
=
None
):
if
min_value
is
None
:
min_value
=
divisor
new_v
=
max
(
min_value
,
int
(
v
+
divisor
/
2
)
//
divisor
*
divisor
)
if
new_v
<
0.9
*
v
:
new_v
+=
divisor
return
new_v
def
se_block
(
self
,
input
,
num_out_filter
,
ratio
=
4
,
name
=
None
):
num_mid_filter
=
num_out_filter
//
ratio
pool
=
fluid
.
layers
.
pool2d
(
input
=
input
,
pool_type
=
'avg'
,
global_pooling
=
True
,
use_cudnn
=
False
)
conv1
=
fluid
.
layers
.
conv2d
(
input
=
pool
,
filter_size
=
1
,
num_filters
=
num_mid_filter
,
act
=
'relu'
,
param_attr
=
ParamAttr
(
name
=
name
+
'_1_weights'
),
bias_attr
=
ParamAttr
(
name
=
name
+
'_1_offset'
))
conv2
=
fluid
.
layers
.
conv2d
(
input
=
conv1
,
filter_size
=
1
,
num_filters
=
num_out_filter
,
act
=
'hard_sigmoid'
,
param_attr
=
ParamAttr
(
name
=
name
+
'_2_weights'
),
bias_attr
=
ParamAttr
(
name
=
name
+
'_2_offset'
))
scale
=
fluid
.
layers
.
elementwise_mul
(
x
=
input
,
y
=
conv2
,
axis
=
0
)
return
scale
def
residual_unit
(
self
,
input
,
num_in_filter
,
num_mid_filter
,
num_out_filter
,
stride
,
filter_size
,
act
=
None
,
use_se
=
False
,
name
=
None
):
conv0
=
self
.
conv_bn_layer
(
input
=
input
,
filter_size
=
1
,
num_filters
=
num_mid_filter
,
stride
=
1
,
padding
=
0
,
if_act
=
True
,
act
=
act
,
name
=
name
+
'_expand'
)
conv1
=
self
.
conv_bn_layer
(
input
=
conv0
,
filter_size
=
filter_size
,
num_filters
=
num_mid_filter
,
stride
=
stride
,
padding
=
int
((
filter_size
-
1
)
//
2
),
if_act
=
True
,
act
=
act
,
num_groups
=
num_mid_filter
,
use_cudnn
=
False
,
name
=
name
+
'_depthwise'
)
if
use_se
:
conv1
=
self
.
se_block
(
input
=
conv1
,
num_out_filter
=
num_mid_filter
,
name
=
name
+
'_se'
)
conv2
=
self
.
conv_bn_layer
(
input
=
conv1
,
filter_size
=
1
,
num_filters
=
num_out_filter
,
stride
=
1
,
padding
=
0
,
if_act
=
False
,
name
=
name
+
'_linear'
,
res_last_bn_init
=
True
)
if
num_in_filter
!=
num_out_filter
or
stride
!=
1
:
return
conv2
else
:
return
fluid
.
layers
.
elementwise_add
(
x
=
input
,
y
=
conv2
,
act
=
None
)
def
MobileNetV3_small_x0_35
():
model
=
MobileNetV3
(
model_name
=
'small'
,
scale
=
0.35
)
return
model
def
MobileNetV3_small_x0_5
():
model
=
MobileNetV3
(
model_name
=
'small'
,
scale
=
0.5
)
return
model
def
MobileNetV3_small_x0_75
():
model
=
MobileNetV3
(
model_name
=
'small'
,
scale
=
0.75
)
return
model
def
MobileNetV3_small_x1_0
():
model
=
MobileNetV3
(
model_name
=
'small'
,
scale
=
1.0
)
return
model
def
MobileNetV3_small_x1_25
():
model
=
MobileNetV3
(
model_name
=
'small'
,
scale
=
1.25
)
return
model
def
MobileNetV3_large_x0_35
():
model
=
MobileNetV3
(
model_name
=
'large'
,
scale
=
0.35
)
return
model
def
MobileNetV3_large_x0_5
():
model
=
MobileNetV3
(
model_name
=
'large'
,
scale
=
0.5
)
return
model
def
MobileNetV3_large_x0_75
():
model
=
MobileNetV3
(
model_name
=
'large'
,
scale
=
0.75
)
return
model
def
MobileNetV3_large_x1_0
():
model
=
MobileNetV3
(
model_name
=
'large'
,
scale
=
1.0
)
return
model
def
MobileNetV3_large_x1_25
():
model
=
MobileNetV3
(
model_name
=
'large'
,
scale
=
1.25
)
return
model
hub_module/modules/image/classification/mobilenet_v3_large_imagenet_ssld/module.py
浏览文件 @
e081f3fb
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点击以展开。
hub_module/modules/image/classification/mobilenet_v3_large_imagenet_ssld/processor.py
已删除
100644 → 0
浏览文件 @
c07d1ffe
# coding=utf-8
from
__future__
import
absolute_import
from
__future__
import
division
from
__future__
import
print_function
import
base64
import
cv2
import
os
import
numpy
as
np
def
base64_to_cv2
(
b64str
):
data
=
base64
.
b64decode
(
b64str
.
encode
(
'utf8'
))
data
=
np
.
fromstring
(
data
,
np
.
uint8
)
data
=
cv2
.
imdecode
(
data
,
cv2
.
IMREAD_COLOR
)
return
data
def
softmax
(
x
):
orig_shape
=
x
.
shape
if
len
(
x
.
shape
)
>
1
:
tmp
=
np
.
max
(
x
,
axis
=
1
)
x
-=
tmp
.
reshape
((
x
.
shape
[
0
],
1
))
x
=
np
.
exp
(
x
)
tmp
=
np
.
sum
(
x
,
axis
=
1
)
x
/=
tmp
.
reshape
((
x
.
shape
[
0
],
1
))
else
:
tmp
=
np
.
max
(
x
)
x
-=
tmp
x
=
np
.
exp
(
x
)
tmp
=
np
.
sum
(
x
)
x
/=
tmp
return
x
def
postprocess
(
data_out
,
label_list
,
top_k
):
"""
Postprocess output of network, one image at a time.
Args:
data_out (numpy.ndarray): output data of network.
label_list (list): list of label.
top_k (int): Return top k results.
"""
output
=
[]
for
result
in
data_out
:
result_i
=
softmax
(
result
)
output_i
=
{}
indexs
=
np
.
argsort
(
result_i
)[::
-
1
][
0
:
top_k
]
for
index
in
indexs
:
label
=
label_list
[
index
].
split
(
','
)[
0
]
output_i
[
label
]
=
float
(
result_i
[
index
])
output
.
append
(
output_i
)
return
output
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