implemented config object

Config.py

@@ -2,25 +2,23 @@
 class Config:
     c = {
         "min_area" : 500,
-        "max_area" : 28000,
-        "threashold" : 13,
-        "xDim" : 0,
-        "yDim" : 0,
+        "max_area" : 9000,
+        "threashold" : 10,
         "resizeWidth" : 512,
-        "inputPath" : "",
-        "outputPath": "",
-        "maxLayerLength": 1000, 
-        "minLayerLength": 0,
-        "fps": 30,        
-        "tolerance": 5,
+        "inputPath" : None,
+        "outputPath": None,
+        "maxLayerLength": 900, 
+        "minLayerLength": 30,    
+        "tolerance": 10,
         "maxLength": None,
-        ""
-    }
-    __init__(self):
-        print(Current Config:)
+        "ttolerance": 10,
+        "videoBufferLength": 16}
+
+    def __init__(self):
+        print("Current Config:", self.c)
     
     def __getitem__(self, key):
         return  self.c[key]
 
     def __setitem__(self, key, value):
-        return  self.c[key] = value
+        self.c[key] = value

ContourExctractor.py

@@ -17,6 +17,7 @@ from VideoReader import VideoReader
 from queue import Queue
 import threading
 from multiprocessing.pool import ThreadPool
+from Config import Config
 
 class ContourExtractor:
 
@@ -26,28 +27,31 @@ class ContourExtractor:
     def getextractedContours(self):
         return self.extractedContours
 
-    def __init__(self):
+    def __init__(self, config):
         self.frameBuffer = Queue(16)
         self.extractedContours = dict()
-        self.min_area = 30
-        self.max_area = 1000
-        self.threashold = 13
+        self.min_area = config["min_area"]
+        self.max_area = config["max_area"]
+        self.threashold = config["threashold"]
+        self.resizeWidth = config["resizeWidth"]
+        self.videoPath = config["inputPath"]
         self.xDim = 0
         self.yDim = 0       
+        self.config = config
 
         print("ContourExtractor initiated")
 
-    def extractContours(self, videoPath, resizeWidth):
+    def extractContours(self):
         extractedContours = dict()        
-        videoReader = VideoReader(videoPath)
+        videoReader = VideoReader(self.config)
         self.xDim = videoReader.w
         self.yDim = videoReader.h
-        self.resizeWidth = resizeWidth
+         
         videoReader.fillBuffer()
         frameCount, frame = videoReader.pop()
         
         #init compare image
-        frame = imutils.resize(frame, width=resizeWidth)
+        frame = imutils.resize(frame, width=self.resizeWidth)
         gray = cv2.cvtColor(frame, cv2.COLOR_BGR2GRAY)  
         #gray = np.asarray(gray[:,:,1]/2 + gray[:,:,2]/2).astype(np.uint8) 
         gray = cv2.GaussianBlur(gray, (5, 5), 0)
@@ -63,14 +67,13 @@ class ContourExtractor:
                     start = time.time()
 
                 if videoReader.buffer.qsize() == 0:
-                    time.sleep(1)
+                    time.sleep(.5)
 
                 tmpData = [videoReader.pop() for i in range(0, videoReader.buffer.qsize())]
                 frameCount = tmpData[-1][0]
                 pool.map(self.getContours, tmpData)
 
         videoReader.thread.join()
-        
         return self.extractedContours
             
     def getContours(self, data):
@@ -82,7 +85,7 @@ class ContourExtractor:
         frameDelta = cv2.absdiff(gray, firstFrame)
         thresh = cv2.threshold(frameDelta, self.threashold, 255, cv2.THRESH_BINARY)[1]
         # dilate the thresholded image to fill in holes, then find contours
-        thresh = cv2.dilate(thresh, None, iterations=3)
+        thresh = cv2.dilate(thresh, None, iterations=4)
         cnts = cv2.findContours(thresh.copy(), cv2.RETR_EXTERNAL, cv2.CHAIN_APPROX_SIMPLE)
         cnts = imutils.grab_contours(cnts)
 
@@ -99,12 +102,6 @@ class ContourExtractor:
             # this should be thread safe
             self.extractedContours[frameCount] = contours
 
-
-        
-
-        
-
-
     def displayContours(self):
         values = self.extractedContours.values()
         for xx in values:

Exporter.py

@@ -9,29 +9,33 @@ from VideoReader import VideoReader
 class Exporter:
     fps = 30
 
-    def __init__(self):
+    def __init__(self, config):
+        self.footagePath = config["inputPath"]
+        self.outputPath = config["outputPath"]
+        self.resizeWidth = config["resizeWidth"]
+        self.config = config
         print("Exporter initiated")
 
-    def export(self, frames, outputPath):
+    def export(self):
         fps = self.fps
         writer = imageio.get_writer(outputPath, fps=fps)
         for frame in frames:
             writer.append_data(np.array(frame))
         writer.close()
 
-    def exportLayers(self,  layers, footagePath, outputPath, resizeWidth):
+    def exportLayers(self,  layers):
 
         listOfFrames = self.makeListOfFrames(layers)
-        videoReader = VideoReader(footagePath, listOfFrames)
+        videoReader = VideoReader(self.config, listOfFrames)
         videoReader.fillBuffer()
         maxLength = self.getMaxLengthOfLayers(layers)
-        underlay = cv2.VideoCapture(footagePath).read()[1]
+        underlay = cv2.VideoCapture(self.footagePath).read()[1]
         underlay = cv2.cvtColor(underlay, cv2.COLOR_BGR2RGB)
         frames = [underlay]*maxLength
         exportFrame = 0
 
-        fps = self.fps
-        writer = imageio.get_writer(outputPath, fps=fps)
+        self.fps = videoReader.getFPS()
+        writer = imageio.get_writer(self.outputPath, fps=self.fps)
         while not videoReader.videoEnded():
             frameCount, frame = videoReader.pop()
             if frameCount % (60*self.fps) == 0:
@@ -45,12 +49,11 @@ class Exporter:
             for layer in layers:
                 if layer.startFrame <= frameCount and layer.startFrame + len(layer.bounds) > frameCount:
                     (x, y, w, h) = layer.bounds[frameCount - layer.startFrame]
-                    factor = videoReader.w / resizeWidth
+                    factor = videoReader.w / self.resizeWidth
                     x = int(x * factor)
                     y = int(y * factor)
                     w = int(w * factor)
                     h = int(h * factor)
-                    # if exportFrame as index instead of frameCount - layer.startFrame  then we have layer after layer
                     frame2 = underlay
                     frame2[y:y+h, x:x+w] = frame[y:y+h, x:x+w]
             writer.append_data(frame2)
@@ -59,12 +62,13 @@ class Exporter:
         videoReader.thread.join()
 
 
-    def exportOverlayed(self, layers, footagePath, outputPath, resizeWidth):
+    def exportOverlayed(self, layers):
+
         listOfFrames = self.makeListOfFrames(layers)
-        videoReader = VideoReader(footagePath, listOfFrames)
+        videoReader = VideoReader(self.config, listOfFrames)
         videoReader.fillBuffer()
         maxLength = self.getMaxLengthOfLayers(layers)
-        underlay = cv2.VideoCapture(footagePath).read()[1]
+        underlay = cv2.VideoCapture(self.footagePath).read()[1]
         underlay = cv2.cvtColor(underlay, cv2.COLOR_BGR2RGB)
         frames = [underlay]*maxLength
         exportFrame = 0
@@ -81,7 +85,7 @@ class Exporter:
             for layer in layers:
                 if layer.startFrame <= frameCount and layer.startFrame + len(layer.bounds) > frameCount:
                     (x, y, w, h) = layer.bounds[frameCount - layer.startFrame]
-                    factor = videoReader.w / resizeWidth
+                    factor = videoReader.w / self.resizeWidth
                     x = int(x * factor)
                     y = int(y * factor)
                     w = int(w * factor)
@@ -94,9 +98,9 @@ class Exporter:
 
         videoReader.thread.join()
 
-
+        self.fps = videoReader.getFPS()
         fps = self.fps
-        writer = imageio.get_writer(outputPath, fps=fps)
+        writer = imageio.get_writer(self.outputPath, fps=fps)
         for frame in frames:
             writer.append_data(frame)
 

LayerFactory.py

@@ -1,15 +1,23 @@
 from Layer import Layer
+from Config import Config
 
 class LayerFactory:
-    data = {}
-    layers = []
-    tolerance = 5
-    def __init__(self, data=None):
+    def __init__(self, config, data=None):
+        self.data = {}
+        self.layers = []
+        self.tolerance = config["tolerance"]
+        self.ttolerance = config["ttolerance"]
+        self.minLayerLength = config["minLayerLength"]
+        self.maxLayerLength = config["maxLayerLength"]
+        self.resizeWidth = config["resizeWidth"]
+        self.footagePath = config["inputPath"]
         print("LayerFactory constructed")
         self.data = data
         if data is not None:
             self.extractLayers(data)
 
+
+
     def removeStaticLayers(self):
         '''Removes Layers with little to no movement'''
         layers = []
@@ -24,11 +32,11 @@ class LayerFactory:
         self.layers = layers
 
 
-    def freeData(self, maxLayerLength, minLayerLength):
+    def freeData(self):
         self.data.clear()
         layers = []
         for l in self.layers:
-            if l.getLength() < maxLayerLength and l.getLength() > minLayerLength:
+            if l.getLength() < self.maxLayerLength and l.getLength() > self.minLayerLength:
                 layers.append(l) 
         self.layers = layers
         self.removeStaticLayers()
@@ -51,14 +59,15 @@ class LayerFactory:
   
         oldLayerIDs = []
         # inserts all the fucking contours as layers?
-        for frameNumber, contours in data.items():
+        for frameNumber in sorted(data.keys()):
+            contours = data[frameNumber]
             if frameNumber%5000 == 0:
                 print(f"{int(round(frameNumber/max(data.keys()), 2)*100)}% done with Layer extraction")
 
             for (x,y,w,h) in contours:
                 foundLayer = False
                 for i in set(range(0, len(self.layers))).difference(set(oldLayerIDs)):
-                    if frameNumber - self.layers[i].lastFrame > 10:
+                    if frameNumber - self.layers[i].lastFrame > self.ttolerance:
                         oldLayerIDs.append(i)
                         continue
 
@@ -67,7 +76,6 @@ class LayerFactory:
                         self.layers[i].add(frameNumber, (x,y,w,h))
                         foundLayer = True
                         break
-
                 if not foundLayer:
                     self.layers.append(Layer(frameNumber, (x,y,w,h)))
 
@@ -78,15 +86,13 @@ class LayerFactory:
         # If one rectangle is above other 
         if(l1[1] <= r2[1] or l2[1] <= r1[1]): 
             return False
-    
         return True
 
-    def fillLayers(self, footagePath, resizeWidth):
+    def fillLayers(self):
         for i in range(len(self.layers)):
             if i % 20 == 0:
                 print(f"filled {int(round(i/len(self.layers),2)*100)}% of all Layers")
-            self.layers[i].fill(footagePath, resizeWidth)
+            self.layers[i].fill(self.footagePath, self.resizeWidth)
 
     def sortLayers(self):
-        # straight bubble
-        self.layers.sort(key = lambda c:c.lastFrame)
+        self.layers.sort(key = lambda c:c.startFrame)

VideoReader.py

@@ -4,6 +4,7 @@ import cv2
 from time import sleep
 from queue import Queue
 import threading
+from Config import Config
 
 
 class VideoReader:
@@ -11,14 +12,15 @@ class VideoReader:
     #buffer = [(frameNumber, frame)]
     listOfFrames = None
 
-    def __init__(self, videoPath, setOfFrames = None):
+    def __init__(self, config, setOfFrames = None):
+        videoPath = config["inputPath"]
         if videoPath is None:
             print("Video reader needs a videoPath!")
             return None
 
         self.videoPath = videoPath
         self.lastFrame = 0
-        self.buffer = Queue(16)
+        self.buffer = Queue(config["videoBufferLength"])
         self.vc = cv2.VideoCapture(videoPath)
         self.stopped = False
         res, image = self.vc.read()
@@ -83,10 +85,11 @@ class VideoReader:
         self.stopped = True
     
     def videoEnded(self):
-        if self.stopped:
-            return True
-        else:
-            return False
+        return self.stopped
+
+
+    def getFPS(self):
+        return self.vc.get(cv2.CAP_PROP_FPS)
         
 
 

main.py

@@ -5,29 +5,26 @@ from Exporter import Exporter
 from LayerFactory import LayerFactory
 from Analyzer import Analyzer
 from VideoReader import VideoReader
+from Config import Config
 import cv2
 #TODO
 #   finden von relevanten Stellen anhand von zu findenen metriken für vergleichsbilder
 
 def demo():
     print("startup")
-    resizeWidth = 256
-    maxLayerLength = 20*30
-    minLayerLength = 30
     start = time.time()
+    config = Config()
 
-    footagePath = os.path.join(os.path.dirname(__file__), "./generate test footage/3.mp4")
-    #analyzer = Analyzer(footagePath)
-    #print("Time consumed reading video: ", time.time() - start)
+    config["inputPath"] = os.path.join(os.path.dirname(__file__), "./generate test footage/3.mp4")
+    config["outputPath"]  = os.path.join(os.path.dirname(__file__), "./output/short.mp4")
 
-    contours = ContourExtractor().extractContours(footagePath, resizeWidth)
+    contours = ContourExtractor(config).extractContours()
     print("Time consumed extracting: ", time.time() - start)
-    layerFactory = LayerFactory(contours)
-    layerFactory.freeData(maxLayerLength, minLayerLength)
-    print("sort Layers")
+    layerFactory = LayerFactory(config, contours)
+    layerFactory.freeData()
     layerFactory.sortLayers()
 
-    Exporter().exportOverlayed(layerFactory.layers,footagePath, os.path.join(os.path.dirname(__file__), "./short.mp4"), resizeWidth)
+    Exporter(config).exportOverlayed(layerFactory.layers)
     print("Total time: ", time.time() - start)
 
 def init():