def write_to_file(image, arr, outfile, color):
  upperLeft, bottomRight = radius.get_corners(radius.get_radius(image, arr), image.size)


  for i in range(len(arr)):
    for j in range(len(arr[i])):
      if i < upperLeft[1] and i > bottomRight[1] and j < bottomRight[0] and j > upperLeft[0]:
        outfile.write(str(arr[i][j][color]))
        outfile.write(",")
  outfile.write("\n")
def write_to_file(image, arr, outfile, color):
    upperLeft, bottomRight = radius.get_corners(radius.get_radius(image, arr), image.size)


    for i in range(len(arr)):
        for j in range(len(arr[i])):
            if i < upperLeft[1] and i > bottomRight[1] and j < bottomRight[0] and j > upperLeft[0]:
                outfile.write(str(arr[i][j][color]))
                outfile.write(",")
    outfile.write("\n")
def cropAndResize(FILENAME, newSize):
    img = Image.open(FILENAME).convert('RGB')
    arr=np.array(np.asarray(img).astype('float'))
    upperLeft, bottomRight = radius.get_corners(radius.get_radius(img, arr), img.size)

    arr = arr[upperLeft[1]:bottomRight[1], upperLeft[0]:bottomRight[0]]
    new_img = Image.fromarray(arr.astype('uint8'),'RGB')
    new_img = new_img.resize((newSize,newSize))
    
    return new_img
def cropAndResize(FILENAME, newSize):
    img = Image.open(FILENAME).convert("RGB")
    arr = np.array(np.asarray(img).astype("float"))
    upperLeft, bottomRight = radius.get_corners(radius.get_radius(img, arr), img.size)

    arr = arr[upperLeft[1] : bottomRight[1], upperLeft[0] : bottomRight[0]]
    new_img = Image.fromarray(arr.astype("uint8"), "RGB")
    new_img = new_img.resize((newSize, newSize))

    return new_img
Exemple #5
0
def cropAndResize(FILENAME, newSize):
    img = Image.open(FILENAME).convert('RGB')
    arr=np.array(np.asarray(img).astype('float'))
    upperLeft, bottomRight = radius.get_corners(radius.get_radius(img, arr), img.size)

    #crop array to space we want
    arr = arr[upperLeft[1]:bottomRight[1], upperLeft[0]:bottomRight[0]]
    #make new image
    new_img = Image.fromarray(arr.astype('uint8'),'RGB')
    new_img = new_img.resize((newSize,newSize))

    #get the image we just saved into an array, normalize it, then make it again
    arr=np.array(np.asarray(new_img).astype('float'))
    normalize(arr)
    new_img_norm = Image.fromarray(arr.astype('uint8'),'RGB')
    
    return new_img, new_img_norm
def main():
  norm_red = open("norm_and_red.txt", "w")
  just_red = open("just_red.txt", "w")
  norm_blue = open("norm_and_blue.txt", "w")
  just_blue = open("norm_and_blue.txt", "w")
  norm_green = open("norm_and_green.txt", "w")
  just_green = open("just_green.txt", "w")

  loadPath = "/Users/Carson/Desktop/training_set/original"

  start = time.time()
  count = 0
  for x in range(10, 1000):
    try:
        red_arr, norm_red_arr, blue_arr, norm_blue_arr, green_arr, norm_green_arr = [],[],[],[],[],[]
        FILENAME = loadPath + "/" + str(x) + "_right.jpeg"
        img = Image.open(FILENAME).convert('RGB')
        arr = np.array(np.asarray(img).astype('float'))
        upperLeft, bottomRight = radius.get_corners(radius.get_radius(img, arr), img.size)

        for i in range(int(upperLeft[1]), int(bottomRight[1] + 1)):
          for j in range(int(upperLeft[0]), int(bottomRight[0] + 1)):
              red_arr.append(str(int(arr[i][j][0])))
              '''green_arr.append(str(int(arr[i][j][1])))
              blue_arr.append(str(int(arr[i][j][2])))'''

        '''normalize(arr)
        for i in range(int(upperLeft[1]), int(bottomRight[1] + 1)):
          for j in range(int(upperLeft[0]), int(bottomRight[0] + 1)):
              norm_red_arr.append(str(int(arr[i][j][0])))
              norm_green_arr.append(str(int(arr[i][j][1])))
              norm_blue_arr.append(str(int(arr[i][j][2])))'''

        just_red.write(",".join(red_arr) + "\n")
        '''just_blue.write(",".join(blue_arr) + "\n")
        just_green.write(",".join(green_arr) + "\n")
        norm_red.write(",".join(norm_red_arr) + "\n")
        norm_blue.write(",".join(norm_blue_arr) + "\n")
        norm_green.write(",".join(norm_green_arr) + "\n")'''

        red_arr, norm_red_arr, blue_arr, norm_blue_arr, green_arr, norm_green_arr = [],[],[],[],[],[]
        FILENAME = loadPath = "/" + str(x) + "_left.jpeg"
        img = Image.open(FILENAME).convert('RGB')
        arr = np.array(np.asarray(img).astype('float'))
        upperLeft, bottomRight = radius.get_corners(radius.get_radius(img, arr), img.size)

        for i in range(int(upperLeft[1]), int(bottomRight[1] + 1)):
          for j in range(int(upperLeft[0]), int(bottomRight[0] + 1)):
              red_arr.append(str(int(arr[i][j][0])))
              '''green_arr.append(str(int(arr[i][j][1])))
              blue_arr.append(str(int(arr[i][j][2])))'''

        '''normalize(arr)
        for i in range(int(upperLeft[1]), int(bottomRight[1] + 1)):
          for j in range(int(upperLeft[0]), int(bottomRight[0] + 1)):
              norm_red_arr.append(str(int(arr[i][j][0])))
              norm_green_arr.append(str(int(arr[i][j][1])))
              norm_blue_arr.append(str(int(arr[i][j][2])))'''

        just_red.write(",".join(red_arr) + "\n")
        '''just_blue.write(",".join(blue_arr) + "\n")
        just_green.write(",".join(green_arr) + "\n")
        norm_red.write(",".join(norm_red_arr) + "\n")
        norm_blue.write(",".join(norm_blue_arr) + "\n")
        norm_green.write(",".join(norm_green_arr) + "\n")'''

        count += 1
        
    except IOError: pass#print("Skipping image " + x)
    
    if count % 1 == 0:
      print("Count =" + str(count))
      print("Elapsed time = " + str(time.time() - start) + " seconds")
      print("Estimated time = " + str((time.time()-start)/float(count)*100.0/60.0) + " minutes")

    if count == 100: break

  norm_red.close()
  just_red.close()
  norm_blue.close()
  just_blue.close()
  norm_green.close()
  just_green.close() 
def main():
    norm_red = open("norm_and_red.txt", "w")
    just_red = open("just_red.txt", "w")
    norm_blue = open("norm_and_blue.txt", "w")
    just_blue = open("norm_and_blue.txt", "w")
    norm_green = open("norm_and_green.txt", "w")
    just_green = open("just_green.txt", "w")

    loadPath = "/Users/Carson/Desktop/training_set/original"

    start = time.time()
    count = 0
    for x in range(10, 1000):
        try:
            red_arr, norm_red_arr, blue_arr, norm_blue_arr, green_arr, norm_green_arr = [],[],[],[],[],[]
            FILENAME = loadPath + "/" + str(x) + "_right.jpeg"
            img = Image.open(FILENAME).convert('RGB')
            arr = np.array(np.asarray(img).astype('float'))
            upperLeft, bottomRight = radius.get_corners(
                radius.get_radius(img, arr), img.size)

            for i in range(int(upperLeft[1]), int(bottomRight[1] + 1)):
                for j in range(int(upperLeft[0]), int(bottomRight[0] + 1)):
                    red_arr.append(str(int(arr[i][j][0])))
                    '''green_arr.append(str(int(arr[i][j][1])))
              blue_arr.append(str(int(arr[i][j][2])))'''
            '''normalize(arr)
        for i in range(int(upperLeft[1]), int(bottomRight[1] + 1)):
          for j in range(int(upperLeft[0]), int(bottomRight[0] + 1)):
              norm_red_arr.append(str(int(arr[i][j][0])))
              norm_green_arr.append(str(int(arr[i][j][1])))
              norm_blue_arr.append(str(int(arr[i][j][2])))'''

            just_red.write(",".join(red_arr) + "\n")
            '''just_blue.write(",".join(blue_arr) + "\n")
        just_green.write(",".join(green_arr) + "\n")
        norm_red.write(",".join(norm_red_arr) + "\n")
        norm_blue.write(",".join(norm_blue_arr) + "\n")
        norm_green.write(",".join(norm_green_arr) + "\n")'''

            red_arr, norm_red_arr, blue_arr, norm_blue_arr, green_arr, norm_green_arr = [],[],[],[],[],[]
            FILENAME = loadPath = "/" + str(x) + "_left.jpeg"
            img = Image.open(FILENAME).convert('RGB')
            arr = np.array(np.asarray(img).astype('float'))
            upperLeft, bottomRight = radius.get_corners(
                radius.get_radius(img, arr), img.size)

            for i in range(int(upperLeft[1]), int(bottomRight[1] + 1)):
                for j in range(int(upperLeft[0]), int(bottomRight[0] + 1)):
                    red_arr.append(str(int(arr[i][j][0])))
                    '''green_arr.append(str(int(arr[i][j][1])))
              blue_arr.append(str(int(arr[i][j][2])))'''
            '''normalize(arr)
        for i in range(int(upperLeft[1]), int(bottomRight[1] + 1)):
          for j in range(int(upperLeft[0]), int(bottomRight[0] + 1)):
              norm_red_arr.append(str(int(arr[i][j][0])))
              norm_green_arr.append(str(int(arr[i][j][1])))
              norm_blue_arr.append(str(int(arr[i][j][2])))'''

            just_red.write(",".join(red_arr) + "\n")
            '''just_blue.write(",".join(blue_arr) + "\n")
        just_green.write(",".join(green_arr) + "\n")
        norm_red.write(",".join(norm_red_arr) + "\n")
        norm_blue.write(",".join(norm_blue_arr) + "\n")
        norm_green.write(",".join(norm_green_arr) + "\n")'''

            count += 1

        except IOError:
            pass  #print("Skipping image " + x)

        if count % 1 == 0:
            print("Count =" + str(count))
            print("Elapsed time = " + str(time.time() - start) + " seconds")
            print("Estimated time = " +
                  str((time.time() - start) / float(count) * 100.0 / 60.0) +
                  " minutes")

        if count == 100: break

    norm_red.close()
    just_red.close()
    norm_blue.close()
    just_blue.close()
    norm_green.close()
    just_green.close()