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Authored by
최성환
2020-12-05 20:50:56 +0900
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Commit
307790c5143e4cd954416564cf99d95b51017605
307790c5
1 parent
921e82bb
box labeling변경 및 inference time 측정 코드 추가
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source/detect_mask_video_v1.py
source/detect_mask_video_v1.py
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307790c
# USAGE
# python detect_mask_video.py
# import the necessary packages
from
tensorflow.keras.applications.mobilenet_v2
import
preprocess_input
from
tensorflow.keras.preprocessing.image
import
img_to_array
from
tensorflow.keras.models
import
load_model
import
numpy
as
np
import
argparse
import
os
import
cv2
import
sys
from
PyQt5
import
QtCore
from
PyQt5
import
QtWidgets
from
PyQt5
import
QtGui
from
PyQt5
import
QtTest
import
pyaudio
import
wave
import
requests
import
time
#Audio
# Record Audio의 startRecording 메서드에서 input_device_index는 기기마다 다름.
FORMAT
=
pyaudio
.
paInt16
CHANNELS
=
1
RATE
=
16000
CHUNK
=
1024
MAX_RECORD_SECONDS
=
30
WAVE_OUTPUT_FILENAME
=
"saved_voice
\\
audiofile
\\
file.wav"
WAVE_ENROLL_FILENAME
=
"saved_voice
\\
enrollfile
\\
file.wav"
#URL
URL
=
'http://163.180.146.68:7777/{}'
#SpeakerRecognition
THRESHOLD
=
0.8
SPEAKER_ID
=
'NA'
class
ShowVideo
(
QtCore
.
QObject
):
flag_detect_mask
=
True
run_video
=
True
camera
=
cv2
.
VideoCapture
(
0
)
# 연결된 영상장치 index, 기본은 0
ret
,
image
=
camera
.
read
()
# 2개의 값 리턴, 첫 번째는 프레임 읽음여부, 두 번째는 프레임 자체
height
,
width
=
image
.
shape
[:
2
]
VideoSignal1
=
QtCore
.
pyqtSignal
(
QtGui
.
QImage
)
# VideoSignal1이라는 사용자 정의 시그널 생성
def
__init__
(
self
,
parent
=
None
):
super
(
ShowVideo
,
self
)
.
__init__
(
parent
)
@QtCore.pyqtSlot
()
def
startVideo
(
self
,
faceNet
,
maskNet
):
global
image
run_video
=
True
self
.
flag_detect_mask
=
True
while
run_video
:
ret
,
image
=
self
.
camera
.
read
()
# detect faces in the frame and determine if they are wearing a
# face mask or not
QtWidgets
.
QApplication
.
processEvents
()
if
self
.
flag_detect_mask
:
(
locs
,
preds
)
=
detect_and_predict_mask
(
image
,
faceNet
,
maskNet
)
# QtWidgets.QApplication.processEvents()
# if self.flag_detect_mask:
frame
=
image
# loop over the detected face locations and their corresponding
# locations
for
(
box
,
pred
)
in
zip
(
locs
,
preds
):
# unpack the bounding box and predictions
(
startX
,
startY
,
endX
,
endY
)
=
box
(
mask
,
withoutMask
)
=
pred
# determine the class label and color we'll use to draw
# the bounding box and text
label
=
"Mask"
if
mask
>
withoutMask
else
"No Mask"
# 박스 상단 출력 string
color
=
(
0
,
255
,
0
)
if
label
==
"Mask"
else
(
0
,
0
,
255
)
# include the probability in the label
label
=
"{}: {:.2f}
%
"
.
format
(
label
,
max
(
mask
,
withoutMask
)
*
100
)
# display the label and bounding box rectangle on the output
# frame
cv2
.
putText
(
frame
,
label
,
(
startX
,
startY
-
10
),
# label에 string들어감
cv2
.
FONT_HERSHEY_SIMPLEX
,
0.45
,
color
,
2
)
cv2
.
rectangle
(
frame
,
(
startX
,
startY
),
(
endX
,
endY
),
color
,
2
)
image
=
frame
###
color_swapped_image
=
cv2
.
cvtColor
(
image
,
cv2
.
COLOR_BGR2RGB
)
qt_image1
=
QtGui
.
QImage
(
color_swapped_image
.
data
,
self
.
width
,
self
.
height
,
color_swapped_image
.
strides
[
0
],
QtGui
.
QImage
.
Format_RGB888
)
self
.
VideoSignal1
.
emit
(
qt_image1
)
loop
=
QtCore
.
QEventLoop
()
QtCore
.
QTimer
.
singleShot
(
25
,
loop
.
quit
)
# 25 ms
loop
.
exec_
()
@QtCore.pyqtSlot
()
def
maskdetectionoff
(
self
):
self
.
flag_detect_mask
=
False
class
ImageViewer
(
QtWidgets
.
QWidget
):
def
__init__
(
self
,
parent
=
None
):
super
(
ImageViewer
,
self
)
.
__init__
(
parent
)
self
.
image
=
QtGui
.
QImage
()
self
.
setAttribute
(
QtCore
.
Qt
.
WA_OpaquePaintEvent
)
def
paintEvent
(
self
,
event
):
painter
=
QtGui
.
QPainter
(
self
)
painter
.
drawImage
(
0
,
0
,
self
.
image
)
self
.
image
=
QtGui
.
QImage
()
def
initUI
(
self
):
self
.
setWindowTitle
(
'Webcam'
)
@QtCore.pyqtSlot
(
QtGui
.
QImage
)
def
setImage
(
self
,
image
):
if
image
.
isNull
():
print
(
"Viewer Dropped frame!"
)
self
.
image
=
image
if
image
.
size
()
!=
self
.
size
():
self
.
setFixedSize
(
image
.
size
())
self
.
update
()
def
detect_and_predict_mask
(
frame
,
faceNet
,
maskNet
):
# grab the dimensions of the frame and then construct a blob
# from it
(
h
,
w
)
=
frame
.
shape
[:
2
]
blob
=
cv2
.
dnn
.
blobFromImage
(
frame
,
1.0
,
(
300
,
300
),
(
104.0
,
177.0
,
123.0
))
# pass the blob through the network and obtain the face detections
faceNet
.
setInput
(
blob
)
detections
=
faceNet
.
forward
()
# initialize our list of faces, their corresponding locations,
# and the list of predictions from our face mask network
faces
=
[]
locs
=
[]
preds
=
[]
# loop over the detections
for
i
in
range
(
0
,
detections
.
shape
[
2
]):
# extract the confidence (i.e., probability) associated with
# the detection
confidence
=
detections
[
0
,
0
,
i
,
2
]
# filter out weak detections by ensuring the confidence is
# greater than the minimum confidence
if
confidence
>
args
[
"confidence"
]:
# compute the (x, y)-coordinates of the bounding box for
# the object
box
=
detections
[
0
,
0
,
i
,
3
:
7
]
*
np
.
array
([
w
,
h
,
w
,
h
])
(
startX
,
startY
,
endX
,
endY
)
=
box
.
astype
(
"int"
)
# ensure the bounding boxes fall within the dimensions of
# the frame
(
startX
,
startY
)
=
(
max
(
0
,
startX
),
max
(
0
,
startY
))
(
endX
,
endY
)
=
(
min
(
w
-
1
,
endX
),
min
(
h
-
1
,
endY
))
# extract the face ROI, convert it from BGR to RGB channel
# ordering, resize it to 224x224, and preprocess it
face
=
frame
[
startY
:
endY
,
startX
:
endX
]
face
=
cv2
.
cvtColor
(
face
,
cv2
.
COLOR_BGR2RGB
)
face
=
cv2
.
resize
(
face
,
(
224
,
224
))
face
=
img_to_array
(
face
)
face
=
preprocess_input
(
face
)
# add the face and bounding boxes to their respective
# lists
faces
.
append
(
face
)
locs
.
append
((
startX
,
startY
,
endX
,
endY
))
# only make a predictions if at least one face was detected
if
len
(
faces
)
>
0
:
# for faster inference we'll make batch predictions on *all*
# faces at the same time rather than one-by-one predictions
# in the above `for` loop
faces
=
np
.
array
(
faces
,
dtype
=
"float32"
)
preds
=
maskNet
.
predict
(
faces
,
batch_size
=
32
)
# return a 2-tuple of the face locations and their corresponding
# locations
return
(
locs
,
preds
)
class
SpeakerRecognition
(
QtWidgets
.
QWidget
):
verification_url
=
URL
.
format
(
'verification'
)
identification_url
=
URL
.
format
(
'identification'
)
enrollment_url
=
URL
.
format
(
'enroll'
)
speaker_id
=
''
def
__init__
(
self
,
parent
=
None
):
super
(
SpeakerRecognition
,
self
)
.
__init__
(
parent
)
self
.
initUI
()
def
initUI
(
self
):
self
.
label_1_1
=
QtWidgets
.
QLabel
(
'Result Message: '
,
self
)
self
.
label_1_2
=
QtWidgets
.
QLabel
(
''
,
self
)
self
.
push_button5
=
QtWidgets
.
QPushButton
(
'Authenticate'
,
self
)
self
.
push_button5
.
clicked
.
connect
(
self
.
doAction
)
self
.
dialog_button
=
QtWidgets
.
QPushButton
(
'화자 ID 입력:'
,
self
)
self
.
dialog_button
.
clicked
.
connect
(
self
.
showDialog
)
self
.
le
=
QtWidgets
.
QLineEdit
(
self
)
self
.
register_button
=
QtWidgets
.
QPushButton
(
'Register new voice'
,
self
)
self
.
register_button
.
clicked
.
connect
(
self
.
switch_enrollment
)
def
verification
(
self
,
speaker
):
try
:
with
open
(
WAVE_OUTPUT_FILENAME
,
'rb'
)
as
file_opened
:
files
=
{
'file'
:
file_opened
}
data
=
{
'enroll_speaker'
:
speaker
}
r
=
requests
.
post
(
self
.
verification_url
,
files
=
files
,
data
=
data
)
print
(
r
.
text
)
return
r
.
text
except
FileNotFoundError
:
return
False
def
identification
(
self
):
try
:
with
open
(
WAVE_OUTPUT_FILENAME
,
'rb'
)
as
file_opened
:
files
=
{
'file'
:
file_opened
}
r
=
requests
.
post
(
self
.
identification_url
,
files
=
files
)
print
(
r
.
text
)
return
r
.
text
except
FileNotFoundError
:
return
False
def
recognition
(
self
):
speaker
=
self
.
identification
()
if
speaker
==
False
:
print
(
'Record voice first!'
)
return
False
percentage
=
self
.
verification
(
speaker
)
print
(
speaker
,
percentage
)
if
float
(
percentage
)
>=
THRESHOLD
:
result
=
'승인! 등록된 화자입니다.(ID: {})'
.
format
(
speaker
)
#result = speaker
else
:
result
=
'등록되지 않은 화자입니다!'
return
result
@QtCore.pyqtSlot
()
def
doAction
(
self
):
start
=
time
.
time
()
recog
=
self
.
recognition
()
print
(
"Inference time : "
,
time
.
time
()
-
start
)
if
recog
==
False
:
self
.
label_1_2
.
setText
(
'Voice not recorded, record voice first!'
)
else
:
self
.
label_1_2
.
setText
(
recog
)
def
enrollment
(
self
,
speaker_id
):
try
:
if
speaker_id
==
''
:
return
0
with
open
(
WAVE_ENROLL_FILENAME
,
'rb'
)
as
file_opened
:
files
=
{
'file'
:
file_opened
}
data
=
{
'enroll_speaker'
:
speaker_id
}
r
=
requests
.
post
(
self
.
enrollment_url
,
files
=
files
,
data
=
data
)
print
(
r
.
text
)
return
r
.
text
except
FileNotFoundError
:
return
1
def
switch_enrollment
(
self
):
enroll
=
self
.
enrollment
(
self
.
speaker_id
)
if
enroll
==
1
:
self
.
label_1_2
.
setText
(
'Voice not recorded, record voice first!'
)
elif
enroll
==
0
:
self
.
label_1_2
.
setText
(
'No speaker ID input!'
)
else
:
self
.
label_1_2
.
setText
(
"""New speaker registered!('
%
s')"""
%
self
.
speaker_id
)
self
.
speaker_id
=
''
self
.
le
.
setText
(
self
.
speaker_id
)
def
showDialog
(
self
):
text
,
ok
=
QtWidgets
.
QInputDialog
.
getText
(
self
,
'화자 등록'
,
'등록할 화자 ID(Unique 값)을 입력하십시오:'
)
if
ok
:
self
.
le
.
setText
(
str
(
text
))
self
.
speaker_id
=
str
(
text
)
class
RecordAudio
(
QtCore
.
QObject
):
isrecording
=
False
frames
=
[]
def
__init__
(
self
,
parent
=
None
):
super
(
RecordAudio
,
self
)
.
__init__
(
parent
)
@QtCore.pyqtSlot
()
def
startRecording
(
self
):
# start Recording
self
.
audio
=
pyaudio
.
PyAudio
()
self
.
stream
=
self
.
audio
.
open
(
format
=
pyaudio
.
paInt16
,
channels
=
CHANNELS
,
rate
=
RATE
,
input
=
True
,
input_device_index
=
1
,
# 기기마다 마이크 인덱스 다름
frames_per_buffer
=
CHUNK
)
self
.
isrecording
=
True
print
(
"recording..."
)
# frames = []
self
.
frames
.
clear
()
for
i
in
range
(
0
,
int
(
RATE
/
CHUNK
*
MAX_RECORD_SECONDS
)):
QtWidgets
.
QApplication
.
processEvents
()
if
self
.
isrecording
:
data
=
self
.
stream
.
read
(
CHUNK
)
self
.
frames
.
append
(
data
)
else
:
print
(
"Stopped recording"
)
break
print
(
"finished recording"
)
# stop Recording
self
.
stream
.
stop_stream
()
self
.
stream
.
close
()
self
.
audio
.
terminate
()
waveFile
=
wave
.
open
(
WAVE_OUTPUT_FILENAME
,
'wb'
)
waveFile
.
setnchannels
(
CHANNELS
)
waveFile
.
setsampwidth
(
self
.
audio
.
get_sample_size
(
FORMAT
))
waveFile
.
setframerate
(
RATE
)
waveFile
.
writeframes
(
b
''
.
join
(
self
.
frames
))
waveFile
.
close
()
self
.
frames
.
clear
()
def
stopRecording
(
self
):
print
(
"stop called"
)
self
.
isrecording
=
False
def
switch
(
self
):
if
self
.
isrecording
:
QtTest
.
QTest
.
qWait
(
1
*
1000
)
self
.
stopRecording
()
else
:
self
.
startRecording
()
class
RecordAudio_enroll
(
QtCore
.
QObject
):
isrecording
=
False
frames
=
[]
def
__init__
(
self
,
parent
=
None
):
super
(
RecordAudio_enroll
,
self
)
.
__init__
(
parent
)
@QtCore.pyqtSlot
()
def
startRecording
(
self
):
# start Recording
self
.
audio
=
pyaudio
.
PyAudio
()
self
.
stream
=
self
.
audio
.
open
(
format
=
pyaudio
.
paInt16
,
channels
=
CHANNELS
,
rate
=
RATE
,
input
=
True
,
input_device_index
=
1
,
# 기기마다 마이크 인덱스 다름
frames_per_buffer
=
CHUNK
)
self
.
isrecording
=
True
print
(
"recording..."
)
# frames = []
self
.
frames
.
clear
()
for
i
in
range
(
0
,
int
(
RATE
/
CHUNK
*
MAX_RECORD_SECONDS
)):
QtWidgets
.
QApplication
.
processEvents
()
if
self
.
isrecording
:
data
=
self
.
stream
.
read
(
CHUNK
)
self
.
frames
.
append
(
data
)
else
:
print
(
"Stopped recording"
)
break
print
(
"finished recording"
)
# stop Recording
self
.
stream
.
stop_stream
()
self
.
stream
.
close
()
self
.
audio
.
terminate
()
waveFile
=
wave
.
open
(
WAVE_ENROLL_FILENAME
,
'wb'
)
waveFile
.
setnchannels
(
CHANNELS
)
waveFile
.
setsampwidth
(
self
.
audio
.
get_sample_size
(
FORMAT
))
waveFile
.
setframerate
(
RATE
)
waveFile
.
writeframes
(
b
''
.
join
(
self
.
frames
))
waveFile
.
close
()
self
.
frames
.
clear
()
def
stopRecording
(
self
):
print
(
"stop called"
)
self
.
isrecording
=
False
def
switch
(
self
):
if
self
.
isrecording
:
QtTest
.
QTest
.
qWait
(
1
*
1000
)
self
.
stopRecording
()
else
:
self
.
startRecording
()
class
RecordViewer
(
QtWidgets
.
QWidget
):
def
__init__
(
self
,
parent
=
None
):
super
(
RecordViewer
,
self
)
.
__init__
(
parent
)
self
.
initUI
()
def
initUI
(
self
):
self
.
pbar
=
QtWidgets
.
QProgressBar
(
self
)
self
.
pbar
.
setFixedWidth
(
400
)
self
.
pbar
.
setMaximum
(
MAX_RECORD_SECONDS
)
self
.
pbar
.
setAlignment
(
QtCore
.
Qt
.
AlignCenter
)
self
.
push_button3
=
QtWidgets
.
QPushButton
(
'Start Audio Record'
,
self
)
self
.
push_button3
.
clicked
.
connect
(
self
.
doAction
)
self
.
timer
=
QtCore
.
QBasicTimer
()
self
.
step
=
0
def
timerEvent
(
self
,
e
):
if
self
.
step
>=
MAX_RECORD_SECONDS
:
self
.
timer
.
stop
()
self
.
push_button3
.
setText
(
"Restart"
)
return
self
.
step
=
self
.
step
+
1
self
.
pbar
.
setValue
(
self
.
step
)
self
.
pbar
.
setFormat
(
"
%
d sec"
%
self
.
step
)
@QtCore.pyqtSlot
()
def
doAction
(
self
):
if
self
.
timer
.
isActive
():
self
.
timer
.
stop
()
self
.
push_button3
.
setText
(
"Restart"
)
else
:
self
.
pbar
.
reset
()
self
.
step
=
0
self
.
timer
.
start
(
1000
,
self
)
# 1000/1000초마다 timer실행
self
.
push_button3
.
setText
(
"Stop"
)
if
__name__
==
'__main__'
:
# construct the argument parser and parse the arguments
ap
=
argparse
.
ArgumentParser
()
ap
.
add_argument
(
"-f"
,
"--face"
,
type
=
str
,
default
=
"face_detector"
,
help
=
"path to face detector model directory"
)
ap
.
add_argument
(
"-m"
,
"--model"
,
type
=
str
,
default
=
"mask_detector.model"
,
help
=
"path to trained face mask detector model"
)
ap
.
add_argument
(
"-c"
,
"--confidence"
,
type
=
float
,
default
=
0.5
,
help
=
"minimum probability to filter weak detections"
)
args
=
vars
(
ap
.
parse_args
())
# load our serialized face detector model from disk
print
(
"[INFO] loading face detector model..."
)
prototxtPath
=
os
.
path
.
sep
.
join
([
args
[
"face"
],
"deploy.prototxt"
])
weightsPath
=
os
.
path
.
sep
.
join
([
args
[
"face"
],
"res10_300x300_ssd_iter_140000.caffemodel"
])
faceNet
=
cv2
.
dnn
.
readNet
(
prototxtPath
,
weightsPath
)
# load the face mask detector model from disk
print
(
"[INFO] loading face mask detector model..."
)
maskNet
=
load_model
(
args
[
"model"
])
app
=
QtWidgets
.
QApplication
(
sys
.
argv
)
# app 생성
thread
=
QtCore
.
QThread
()
thread
.
start
()
vid
=
ShowVideo
()
vid
.
moveToThread
(
thread
)
thread2
=
QtCore
.
QThread
()
thread2
.
start
()
aud
=
RecordViewer
()
aud
.
moveToThread
(
thread2
)
thread3
=
QtCore
.
QThread
()
thread3
.
start
()
mic
=
RecordAudio_enroll
()
mic
.
moveToThread
(
thread3
)
thread4
=
QtCore
.
QThread
()
thread4
.
start
()
sr
=
SpeakerRecognition
()
sr
.
moveToThread
(
thread4
)
thread5
=
QtCore
.
QThread
()
thread5
.
start
()
aud2
=
RecordViewer
()
aud2
.
moveToThread
(
thread5
)
thread6
=
QtCore
.
QThread
()
thread6
.
start
()
mic2
=
RecordAudio
()
mic2
.
moveToThread
(
thread6
)
thread7
=
QtCore
.
QThread
()
thread7
.
start
()
sr2
=
SpeakerRecognition
()
sr2
.
moveToThread
(
thread7
)
image_viewer1
=
ImageViewer
()
vid
.
VideoSignal1
.
connect
(
image_viewer1
.
setImage
)
push_button1
=
QtWidgets
.
QPushButton
(
'Start Mask Detection'
)
push_button2
=
QtWidgets
.
QPushButton
(
'Mask Detection Off'
)
push_button4
=
QtWidgets
.
QPushButton
(
'Close'
)
push_button1
.
clicked
.
connect
(
lambda
:
vid
.
startVideo
(
faceNet
,
maskNet
))
push_button2
.
clicked
.
connect
(
vid
.
maskdetectionoff
)
aud
.
push_button3
.
clicked
.
connect
(
mic
.
switch
)
push_button4
.
clicked
.
connect
(
sys
.
exit
)
aud2
.
push_button3
.
clicked
.
connect
(
mic2
.
switch
)
empty_label
=
QtWidgets
.
QLabel
()
empty_label
.
setText
(
''
)
L_groupBox
=
QtWidgets
.
QGroupBox
(
"Mask Detection"
)
LR_layout
=
QtWidgets
.
QVBoxLayout
()
LR_layout
.
addWidget
(
push_button1
)
LR_layout
.
addWidget
(
push_button2
)
LR_layout
.
addStretch
(
1
)
L_horizontal_layout1
=
QtWidgets
.
QHBoxLayout
()
L_horizontal_layout1
.
addWidget
(
image_viewer1
)
L_horizontal_layout1
.
addLayout
(
LR_layout
)
L_groupBox
.
setLayout
(
L_horizontal_layout1
)
RU_groupBox
=
QtWidgets
.
QGroupBox
(
"Speaker Registration"
)
pbar_layout
=
QtWidgets
.
QHBoxLayout
()
pbar_layout
.
addWidget
(
aud
.
pbar
)
pbar_layout
.
addStretch
(
1
)
##
dialog_layout
=
QtWidgets
.
QHBoxLayout
()
dialog_layout
.
addWidget
(
sr2
.
dialog_button
)
dialog_layout
.
addWidget
(
sr2
.
le
)
dialog_layout
.
addStretch
(
1
)
register_layout
=
QtWidgets
.
QHBoxLayout
()
register_layout
.
addWidget
(
sr2
.
register_button
)
result_1_layout
=
QtWidgets
.
QHBoxLayout
()
result_1_layout
.
addWidget
(
sr2
.
label_1_1
)
result_1_layout
.
addWidget
(
sr2
.
label_1_2
)
result_1_layout
.
addStretch
(
1
)
##
RL_label1
=
QtWidgets
.
QLabel
()
RL_label1
.
setText
(
"Max Record Time: 30 sec"
)
RL_label2
=
QtWidgets
.
QLabel
()
RL_label2
.
setText
(
"Press Start/Restart to begin recording"
)
RL_layout
=
QtWidgets
.
QVBoxLayout
()
RL_layout
.
addLayout
(
pbar_layout
)
RL_layout
.
addWidget
(
RL_label1
)
RL_layout
.
addWidget
(
RL_label2
)
RL_layout
.
addLayout
(
dialog_layout
)
RL_layout
.
addLayout
(
result_1_layout
)
RL_layout
.
addStretch
(
1
)
push_button3_layout
=
QtWidgets
.
QHBoxLayout
()
push_button3_layout
.
addWidget
(
aud
.
push_button3
)
# push_button3_layout.addStretch(1)
# close_layout = QtWidgets.QHBoxLayout()
# close_layout.addWidget(push_button4)
RR_layout
=
QtWidgets
.
QVBoxLayout
()
RR_layout
.
addLayout
(
push_button3_layout
)
RR_layout
.
addWidget
(
empty_label
)
RR_layout
.
addWidget
(
empty_label
)
RR_layout
.
addLayout
(
register_layout
)
RR_layout
.
addStretch
(
1
)
# RR_layout.addLayout(close_layout)
R_horizontal_layout2
=
QtWidgets
.
QHBoxLayout
()
R_horizontal_layout2
.
addLayout
(
RL_layout
)
R_horizontal_layout2
.
addLayout
(
RR_layout
)
RU_groupBox
.
setLayout
(
R_horizontal_layout2
)
RD_groupBox
=
QtWidgets
.
QGroupBox
(
"Speaker Recognition"
)
###
pbar_2_layout
=
QtWidgets
.
QHBoxLayout
()
pbar_2_layout
.
addWidget
(
aud2
.
pbar
)
pbar_2_layout
.
addStretch
(
1
)
RDL_label1
=
QtWidgets
.
QLabel
()
RDL_label1
.
setText
(
"Max Record Time: 30 sec"
)
RDL_label2
=
QtWidgets
.
QLabel
()
RDL_label2
.
setText
(
"Press Start/Restart to begin recording"
)
push_button3_2_layout
=
QtWidgets
.
QHBoxLayout
()
push_button3_2_layout
.
addWidget
(
aud2
.
push_button3
)
###
result_2_layout
=
QtWidgets
.
QHBoxLayout
()
result_2_layout
.
addWidget
(
sr
.
label_1_1
)
result_2_layout
.
addWidget
(
sr
.
label_1_2
)
result_2_layout
.
addStretch
(
1
)
RDL_layout
=
QtWidgets
.
QVBoxLayout
()
RDL_layout
.
addLayout
(
pbar_2_layout
)
RDL_layout
.
addWidget
(
RDL_label1
)
RDL_layout
.
addWidget
(
RDL_label2
)
RDL_layout
.
addWidget
(
empty_label
)
RDL_layout
.
addLayout
(
result_2_layout
)
RDL_layout
.
addStretch
(
1
)
push_button5_layout
=
QtWidgets
.
QHBoxLayout
()
push_button5_layout
.
addWidget
(
sr
.
push_button5
)
close_layout
=
QtWidgets
.
QHBoxLayout
()
close_layout
.
addWidget
(
push_button4
)
RDR_layout
=
QtWidgets
.
QVBoxLayout
()
RDR_layout
.
addLayout
(
push_button3_2_layout
)
RDR_layout
.
addWidget
(
empty_label
)
RDR_layout
.
addWidget
(
empty_label
)
RDR_layout
.
addWidget
(
empty_label
)
RDR_layout
.
addLayout
(
push_button5_layout
)
RDR_layout
.
addStretch
(
1
)
RDR_layout
.
addLayout
(
close_layout
)
RD_horizontal_layout
=
QtWidgets
.
QHBoxLayout
()
RD_horizontal_layout
.
addLayout
(
RDL_layout
)
RD_horizontal_layout
.
addLayout
(
RDR_layout
)
RD_groupBox
.
setLayout
(
RD_horizontal_layout
)
R_layout
=
QtWidgets
.
QVBoxLayout
()
R_layout
.
addWidget
(
RU_groupBox
)
R_layout
.
addWidget
(
RD_groupBox
)
layout
=
QtWidgets
.
QHBoxLayout
()
layout
.
addWidget
(
L_groupBox
)
layout
.
addLayout
(
R_layout
)
layout_widget
=
QtWidgets
.
QWidget
()
layout_widget
.
setLayout
(
layout
)
main_window
=
QtWidgets
.
QMainWindow
()
main_window
.
setGeometry
(
150
,
150
,
500
,
500
)
# test
main_window
.
setCentralWidget
(
layout_widget
)
main_window
.
setWindowTitle
(
'마스크 디텍션 및 화자 식별을 통한 입출입 시스템'
)
# main window 제목
main_window
.
show
()
sys
.
exit
(
app
.
exec_
())
# 프로그램 대기상태 유지, 무한루프
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