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Version that works with tkinter or Qt. Only have to change the import.

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MikeTheWatchGuy 2018-12-03 09:53:04 -05:00
parent 55387cfb3a
commit ccfd556ab6
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YoloObjectDetection/Yolo_with_webcam_Qt_or_tkinter.py Normal file
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# YOLO object detection using a webcam
# Exact same demo as the read from disk, but instead of disk a webcam is used.
# import the necessary packages
import numpy as np
# import argparse
import imutils
import time
import cv2
import os
import PySimpleGUIQt as sg
i_vid = r'videos\car_chase_01.mp4'
o_vid = r'output\car_chase_01_out.mp4'
y_path = r'yolo-coco'
sg.ChangeLookAndFeel('LightGreen')
layout = [
[sg.Text('YOLO Video Player', size=(22,1), font=('Any',18),text_color='#1c86ee' ,justification='left')],
[sg.Text('Path to input video'), sg.In(i_vid,size=(40,1), key='input'), sg.FileBrowse()],
[sg.Text('Optional Path to output video'), sg.In(o_vid,size=(40,1), key='output'), sg.FileSaveAs()],
[sg.Text('Yolo base path'), sg.In(y_path,size=(40,1), key='yolo'), sg.FolderBrowse()],
[sg.Text('Confidence'), sg.Slider(range=(0,10),orientation='h', resolution=1, default_value=5, size=(15,15), key='confidence'), sg.T(' ', key='_CONF_OUT_')],
[sg.Text('Threshold'), sg.Slider(range=(0,10), orientation='h', resolution=1, default_value=3, size=(15,15), key='threshold'), sg.T(' ', key='_THRESH_OUT_')],
[sg.Text(' '*8), sg.Checkbox('Use webcam', key='_WEBCAM_')],
[sg.Text(' '*8), sg.Checkbox('Write to disk', key='_DISK_')],
[sg.OK(), sg.Cancel(), sg.Stretch()],
]
win = sg.Window('YOLO Video',
default_element_size=(21,1),
text_justification='right',
auto_size_text=False).Layout(layout)
event, values = win.Read()
if event is None or event =='Cancel':
exit()
write_to_disk = values['_DISK_']
use_webcam = values['_WEBCAM_']
args = values
win.Close()
# imgbytes = cv2.imencode('.png', image)[1].tobytes() # ditto
gui_confidence = args["confidence"]/10
gui_threshold = args["threshold"]/10
# load the COCO class labels our YOLO model was trained on
labelsPath = os.path.sep.join([args["yolo"], "coco.names"])
LABELS = open(labelsPath).read().strip().split("\n")
# initialize a list of colors to represent each possible class label
np.random.seed(42)
COLORS = np.random.randint(0, 255, size=(len(LABELS), 3),
dtype="uint8")
# derive the paths to the YOLO weights and model configuration
weightsPath = os.path.sep.join([args["yolo"], "yolov3.weights"])
configPath = os.path.sep.join([args["yolo"], "yolov3.cfg"])
# load our YOLO object detector trained on COCO dataset (80 classes)
# and determine only the *output* layer names that we need from YOLO
print("[INFO] loading YOLO from disk...")
net = cv2.dnn.readNetFromDarknet(configPath, weightsPath)
ln = net.getLayerNames()
ln = [ln[i[0] - 1] for i in net.getUnconnectedOutLayers()]
# initialize the video stream, pointer to output video file, and
# frame dimensions
vs = cv2.VideoCapture(args["input"])
writer = None
(W, H) = (None, None)
# try to determine the total number of frames in the video file
try:
prop = cv2.cv.CV_CAP_PROP_FRAME_COUNT if imutils.is_cv2() \
else cv2.CAP_PROP_FRAME_COUNT
total = int(vs.get(prop))
print("[INFO] {} total frames in video".format(total))
# an error occurred while trying to determine the total
# number of frames in the video file
except:
print("[INFO] could not determine # of frames in video")
print("[INFO] no approx. completion time can be provided")
total = -1
# loop over frames from the video file stream
win_started = False
if use_webcam:
cap = cv2.VideoCapture(0)
while True:
# read the next frame from the file or webcam
if use_webcam:
grabbed, frame = cap.read()
else:
grabbed, frame = vs.read()
# if the frame was not grabbed, then we have reached the end
# of the stream
if not grabbed:
break
# if the frame dimensions are empty, grab them
if W is None or H is None:
(H, W) = frame.shape[:2]
# construct a blob from the input frame and then perform a forward
# pass of the YOLO object detector, giving us our bounding boxes
# and associated probabilities
blob = cv2.dnn.blobFromImage(frame, 1 / 255.0, (416, 416),
swapRB=True, crop=False)
net.setInput(blob)
start = time.time()
layerOutputs = net.forward(ln)
end = time.time()
# initialize our lists of detected bounding boxes, confidences,
# and class IDs, respectively
boxes = []
confidences = []
classIDs = []
# loop over each of the layer outputs
for output in layerOutputs:
# loop over each of the detections
for detection in output:
# extract the class ID and confidence (i.e., probability)
# of the current object detection
scores = detection[5:]
classID = np.argmax(scores)
confidence = scores[classID]
# filter out weak predictions by ensuring the detected
# probability is greater than the minimum probability
if confidence > gui_confidence:
# scale the bounding box coordinates back relative to
# the size of the image, keeping in mind that YOLO
# actually returns the center (x, y)-coordinates of
# the bounding box followed by the boxes' width and
# height
box = detection[0:4] * np.array([W, H, W, H])
(centerX, centerY, width, height) = box.astype("int")
# use the center (x, y)-coordinates to derive the top
# and and left corner of the bounding box
x = int(centerX - (width / 2))
y = int(centerY - (height / 2))
# update our list of bounding box coordinates,
# confidences, and class IDs
boxes.append([x, y, int(width), int(height)])
confidences.append(float(confidence))
classIDs.append(classID)
# apply non-maxima suppression to suppress weak, overlapping
# bounding boxes
idxs = cv2.dnn.NMSBoxes(boxes, confidences, gui_confidence, gui_threshold)
# ensure at least one detection exists
if len(idxs) > 0:
# loop over the indexes we are keeping
for i in idxs.flatten():
# extract the bounding box coordinates
(x, y) = (boxes[i][0], boxes[i][1])
(w, h) = (boxes[i][2], boxes[i][3])
# draw a bounding box rectangle and label on the frame
color = [int(c) for c in COLORS[classIDs[i]]]
cv2.rectangle(frame, (x, y), (x + w, y + h), color, 2)
text = "{}: {:.4f}".format(LABELS[classIDs[i]],
confidences[i])
cv2.putText(frame, text, (x, y - 5),
cv2.FONT_HERSHEY_SIMPLEX, 0.5, color, 2)
if write_to_disk:
#check if the video writer is None
if writer is None:
# initialize our video writer
fourcc = cv2.VideoWriter_fourcc(*"MJPG")
writer = cv2.VideoWriter(args["output"], fourcc, 30,
(frame.shape[1], frame.shape[0]), True)
# some information on processing single frame
if total > 0:
elap = (end - start)
print("[INFO] single frame took {:.4f} seconds".format(elap))
print("[INFO] estimated total time to finish: {:.4f}".format(
elap * total))
#write the output frame to disk
writer.write(frame)
imgbytes = cv2.imencode('.png', frame)[1].tobytes() # ditto
if not win_started:
win_started = True
layout = [
[sg.Text('Yolo Playback in PySimpleGUI Window', size=(30,1))],
[sg.Image(data=imgbytes, key='_IMAGE_')],
[sg.Text('Confidence'),
sg.Slider(range=(0, 10), orientation='h', resolution=1, default_value=5, size=(15, 15), key='confidence'),
sg.Text('Threshold'),
sg.Slider(range=(0, 10), orientation='h', resolution=1, default_value=3, size=(15, 15), key='threshold')],
[sg.Exit()]
]
win = sg.Window('YOLO Output',
default_element_size=(14, 1),
text_justification='right',
auto_size_text=False).Layout(layout).Finalize()
image_elem = win.FindElement('_IMAGE_')
else:
image_elem.Update(data=imgbytes)
event, values = win.Read(timeout=0)
if event is None or event == 'Exit':
break
gui_confidence = values['confidence']/10
gui_threshold = values['threshold']/10
win.Close()
# release the file pointers
print("[INFO] cleaning up...")
writer.release() if writer is not None else None
vs.release()