Exemplo n.º 1
0
    def testImage(self, image, scale=1, subwindow=None):
        imgProcessor = ImageProcessor(image, scale=scale)
        imgProcessor.getIntegralChannels(6)

        if subwindow != None:
            nsx, nsy, nw, nh = utils.getDetectionWindow(
                subwindow, imgProcessor.getWidth(), imgProcessor.getHeight(),
                scale)
        else:
            nsx, nsy, nw, nh = 0, 0, imgProcessor.getWidth(
            ), imgProcessor.getHeight()

        windows = []
        for startx in xrange(nsx, nsx + nw - 64, 16):
            for starty in xrange(nsy, nsy + nh - 128, 16):
                windows.append(
                    (startx, starty,
                     imgProcessor.getFeature(startx, starty,
                                             self.featureCoords)))

        probs = self.classifier.predict_proba([w[2] for w in windows])
        classes = self.classifier.predict([w[2] for w in windows])

        results = []
        for i in xrange(0, len(windows)):
            results.append((windows[i][0], windows[i][1], probs[i]))
        return results, classes
Exemplo n.º 2
0
    def getImgFeatures(self, imgPath, noSamples=1, test=False):
        imgProc = ImageProcessor(
            path.realpath(path.join(self.dirPath, imgPath)))
        imgProc.getIntegralChannels(6)

        features = []
        for i in xrange(0, noSamples):
            if test:
                startx = random.randrange(3, imgProc.getWidth() - 3 - 64, 16)
                starty = random.randrange(3, imgProc.getHeight() - 3 - 128, 16)
            else:
                startx = random.randrange(3, imgProc.getWidth() - 3 - 64, 16)
                starty = random.randrange(3, imgProc.getHeight() - 3 - 128, 16)

            features.append(
                imgProc.getFeature(startx, starty, self.featureCoords))
        return features
Exemplo n.º 3
0
 def getImgFeature(self, imgPath, test=False):
     imgProc = ImageProcessor(
         path.realpath(path.join(self.dirPath, imgPath)))
     imgProc.getIntegralChannels(6)
     if test:
         return imgProc.getFeature(3, 3, self.featureCoords)
     return imgProc.getFeature(16, 16, self.featureCoords)
Exemplo n.º 4
0
    def getFeature(self, img):
        imgProcessor = ImageProcessor(img)
        imgProcessor.getIntegralChannels(6)

        # needed for centering the 64x128 image
        startx = int((imgProcessor.getWidth() - 64) / 2)
        starty = int((imgProcessor.getHeight() - 128) / 2)

        feature = imgProcessor.getFeature(startx, starty, self.featureCoords)

        return feature
Exemplo n.º 5
0
    def getWindowsAndDescriptors(self, image, scale, subwindow=None):
        imgProcessor = ImageProcessor(image, scale=scale)
        imgProcessor.getIntegralChannels(6)

        if subwindow != None:
            nsx, nsy, nw, nh = utils.getDetectionWindow(
                subwindow, imgProcessor.getWidth(), imgProcessor.getHeight(),
                scale)
        else:
            nsx, nsy, nw, nh = 0, 0, imgProcessor.getWidth(
            ), imgProcessor.getHeight()

        windows = []
        for startx in xrange(nsx, nsx + nw - 64, 16):
            for starty in xrange(nsy, nsy + nh - 128, 16):
                feature = imgProcessor.getFeature(startx, starty,
                                                  self.featureCoords)
                windows.append([(startx, starty, 64, 128), feature])

        return windows
Exemplo n.º 6
0
    def getFeature(self, img):
        imgProcessor = ImageProcessor(img)
        imgProcessor.getIntegralChannels(6)

        # needed for centering the 64x128 image
        startx = int((imgProcessor.getWidth() - 64) / 2)
        starty = int((imgProcessor.getHeight() - 128) / 2)

        feature = imgProcessor.getFeature(startx, starty, self.featureCoords)

        return feature
Exemplo n.º 7
0
    def getWindowsAndDescriptors(self, image, scale, subwindow=None):
        imgProcessor = ImageProcessor(image, scale=scale)
        imgProcessor.getIntegralChannels(6)

        if subwindow != None:
            nsx, nsy, nw, nh = utils.getDetectionWindow(subwindow, imgProcessor.getWidth(), imgProcessor.getHeight(), scale)
        else:
            nsx, nsy, nw, nh = 0, 0, imgProcessor.getWidth(), imgProcessor.getHeight()

        windows = []
        for startx in xrange(nsx, nsx + nw - 64, 16):
            for starty in xrange(nsy, nsy + nh - 128, 16):
                feature = imgProcessor.getFeature(startx, starty, self.featureCoords)
                windows.append([(startx, starty, 64, 128), feature])

        return windows
Exemplo n.º 8
0
    def testImage(self, image, scale=1, subwindow=None):
        imgProcessor = ImageProcessor(image, scale=scale)
        imgProcessor.getIntegralChannels(6)

        if subwindow != None:
            nsx, nsy, nw, nh = utils.getDetectionWindow(subwindow, imgProcessor.getWidth(), imgProcessor.getHeight(), scale)
        else:
            nsx, nsy, nw, nh = 0, 0, imgProcessor.getWidth(), imgProcessor.getHeight()

        windows = []
        for startx in xrange(nsx, nsx + nw - 64, 16):
            for starty in xrange(nsy, nsy + nh - 128, 16):
                windows.append((startx, starty, imgProcessor.getFeature(startx, starty, self.featureCoords)))

        probs = self.classifier.predict_proba([w[2] for w in windows])
        classes = self.classifier.predict([w[2] for w in windows])

        results = []
        for i in xrange(0, len(windows)):
            results.append((windows[i][0], windows[i][1], probs[i]))
        return results, classes