135 lines
4.2 KiB
Python
135 lines
4.2 KiB
Python
import multiprocessing
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import cv2
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import threading
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import os
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class VideoReader:
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listOfFrames = None
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w = None
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h = None
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def __init__(self, config, setOfFrames=None):
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videoPath = config["inputPath"]
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if videoPath is None:
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raise Exception("ERROR: Video reader needs a videoPath!")
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self.videoPath = videoPath
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self.lastFrame = 0
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# buffer data struct:
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# buffer = Queue([(frameNumber, frame), ])
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self.buffer = multiprocessing.Queue(config["videoBufferLength"])
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#self.vc = cv2.VideoCapture(videoPath)
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self.stopped = False
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self.getWH()
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self.calcFPS()
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self.calcLength()
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self.calcStartTime()
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if setOfFrames is not None:
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self.listOfFrames = sorted(setOfFrames)
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def __enter__(self):
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self.fillBuffer()
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return self
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def __exit__(self, type, value, traceback):
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self.stop()
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def stop(self):
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self.thread.join()
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self.vc.release()
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def pop(self):
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frameNumber, frame = self.buffer.get(block=True)
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if frame is None:
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self.stopped = True
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return frameNumber, frame
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def fillBuffer(self, listOfFrames=None):
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self.endFrame = int(cv2.VideoCapture(self.videoPath).get(cv2.CAP_PROP_FRAME_COUNT))
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if listOfFrames is not None:
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self.listOfFrames = listOfFrames
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if self.listOfFrames is not None:
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self.thread = multiprocessing.Process(target=self.readFramesByList, args=())
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else:
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self.thread = multiprocessing.Process(target=self.readFrames, args=())
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self.thread.start()
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def readFrames(self):
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"""Reads video from start to finish"""
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self.vc = cv2.VideoCapture(self.videoPath)
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while self.lastFrame < self.endFrame:
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res, frame = self.vc.read()
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if res:
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self.buffer.put((self.lastFrame, frame))
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self.lastFrame += 1
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self.buffer.put((self.lastFrame, None))
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def readFramesByList(self):
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"""Reads all frames from a list of frame numbers"""
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self.vc = cv2.VideoCapture(self.videoPath)
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self.vc.set(1, self.listOfFrames[0])
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self.lastFrame = self.listOfFrames[0]
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self.endFrame = self.listOfFrames[-1]
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while self.lastFrame < self.endFrame:
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if self.lastFrame in self.listOfFrames:
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res, frame = self.vc.read()
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if res:
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self.buffer.put((self.lastFrame, frame))
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else:
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print("Couldn't read Frame")
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# since the list is sorted the first element is always the lowest relevant framenumber
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# [0,1,2,3,32,33,34,35,67,68,69]
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self.listOfFrames.pop(0)
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self.lastFrame += 1
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else:
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# if current Frame number is not in list of Frames, we can skip a few frames
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self.vc.set(1, self.listOfFrames[0])
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self.lastFrame = self.listOfFrames[0]
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self.buffer.put((self.lastFrame, None))
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def videoEnded(self):
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if self.stopped and self.buffer.empty():
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return True
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else:
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return False
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def calcFPS(self):
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self.fps = cv2.VideoCapture(self.videoPath).get(cv2.CAP_PROP_FPS)
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def getFPS(self):
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if self.fps is None:
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self.calcFPS()
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return self.fps
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def calcLength(self):
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fc = int(cv2.VideoCapture(self.videoPath).get(cv2.CAP_PROP_FRAME_COUNT))
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self.length = fc / self.getFPS()
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def getLength(self):
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if self.length is None:
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self.calcLength()
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return self.length
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def calcStartTime(self):
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starttime = os.stat(self.videoPath).st_mtime
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length = self.getLength()
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starttime = starttime - length
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self.starttime = starttime
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def getStartTime(self):
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return self.starttime
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def getWH(self):
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"""get width and height"""
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vc = cv2.VideoCapture(self.videoPath)
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if self.w is None or self.h is None:
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res, image = vc.read()
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self.w = image.shape[1]
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self.h = image.shape[0]
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return (self.w, self.h)
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