Exemple #1
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def extract_hidden_pixels(image, width_visible, height_visible, pixel_count):
    """
	Extracts a sequence of bits representing a sequence of binary values of 
	all pixels of the hidden image.
	The information representing a hidden image is stored in the 4 least significant
	bits of a subset of pixels of the visible image.

	Args:
	    image:            An RGB image to recover a hidden image from
	    width_visible:    Width of the visible image
	    height_visible:   Height of the visible image
	    pixel_count:      Number of pixels in the hidden image

	Returns:
	    A binary string representing pixel values of the hidden image
	"""
    hidden_image_pixels = ''
    idx = 0
    for col in range(width_visible):
        for row in range(height_visible):
            if row == 0 and col == 0:
                continue
            r, g, b = image[col, row]
            r_binary, g_binary, b_binary = rgb_to_binary(r, g, b)
            hidden_image_pixels += r_binary[4:8] + g_binary[4:8] + b_binary[4:8]
            if idx >= pixel_count * 2:
                return hidden_image_pixels
    return hidden_image_pixels
Exemple #2
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def decode(image):
    """
	Loads the image to recover a hidden image from, retrieves the information about the
	size of the hidden image stored in the top left pixel of the visible image,
	extracts the hidden binary pixel values from the image and reconstructs the hidden
	image.

	Args:
	    image:    An RGB image to recover a hidden image from

	Returns:
	    A recovered image, which was hidden in the binary representation of the visible image
	"""
    image_copy = image.load()
    width_visible, height_visible = image.size
    r, g, b = image_copy[0, 0]
    r_binary, g_binary, b_binary = rgb_to_binary(r, g, b)
    w_h_binary = r_binary + g_binary + b_binary
    width_hidden = int(w_h_binary[0:12], 2)
    height_hidden = int(w_h_binary[12:24], 2)
    pixel_count = width_hidden * height_hidden
    hidden_image_pixels = extract_hidden_pixels(image_copy, width_visible,
                                                height_visible, pixel_count)
    decoded_image = reconstruct_image(hidden_image_pixels, width_hidden,
                                      height_hidden)
    return decoded_image
Exemple #3
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 def change_binary_values(self, img_visible, hidden_image_pixels,
                          width_visible, height_visible, width_hidden,
                          height_hidden):
     idx = 0
     for col in range(width_visible):
         for row in range(height_visible):
             if row == 0 and col == 0:
                 width_hidden_binary = add_leading_zeros(
                     bin(width_hidden)[2:], 12)
                 height_hidden_binary = add_leading_zeros(
                     bin(height_hidden)[2:], 12)
                 w_h_binary = width_hidden_binary + height_hidden_binary
                 img_visible[col, row] = (int(w_h_binary[0:8],
                                              2), int(w_h_binary[8:16], 2),
                                          int(w_h_binary[16:24], 2))
                 continue
             r, g, b = img_visible[col, row]
             r_binary, g_binary, b_binary = rgb_to_binary(r, g, b)
             r_binary = r_binary[0:4] + hidden_image_pixels[idx:idx + 4]
             g_binary = g_binary[0:4] + hidden_image_pixels[idx + 4:idx + 8]
             b_binary = b_binary[0:4] + hidden_image_pixels[idx + 8:idx +
                                                            12]
             idx += 12
             img_visible[col, row] = (int(r_binary,
                                          2), int(g_binary,
                                                  2), int(b_binary, 2))
             if idx >= len(hidden_image_pixels):
                 return img_visible
     # can never be reached, but let's return the image anyway
     return img_visible
Exemple #4
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 def get_binary_pixel_values(self, img, width, height):
     hidden_image_pixels = ''
     for col in range(width):
         for row in range(height):
             pixel = img[col, row]
             r = pixel[0]
             g = pixel[1]
             b = pixel[2]
             r_binary, g_binary, b_binary = rgb_to_binary(r, g, b)
             hidden_image_pixels += r_binary + g_binary + b_binary
     return hidden_image_pixels
Exemple #5
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def change_binary_values(img_visible, hidden_image_pixels, width_visible,
                         height_visible, width_hidden, height_hidden):
    """
	Replaces the 4 least significant bits of a subset of pixels in an image with bits representing a sequence of binary
	values of RGB channels of all pixels of the image to be concealed.

	The first pixel in the top left corner is used to store the width and height of the image to be hidden, which is
	necessary for recovery of the hidden image.

	Args:
	    img_visible:          An RGB image to be used for hiding another image
	    hidden_image_pixels:  Binary string representing all pixel values of the image to be hidden
	    width_visible:        Width of the image to be used for hiding another image
	    height_visible:       Height of the image to be used for hiding another image
	    width_hidden:         Width of the image to be hidden
	    height_hidden:        Height of the image to be hidden

	Returns:
	    An RGB image which is a copy of img_visible where the 4 least significant bits of a subset of pixels
	    are replaced with bits representing the hidden image.
	"""
    idx = 0
    for col in range(width_visible):
        for row in range(height_visible):
            if row == 0 and col == 0:
                width_hidden_binary = add_leading_zeros(
                    bin(width_hidden)[2:], 12)
                height_hidden_binary = add_leading_zeros(
                    bin(height_hidden)[2:], 12)
                w_h_binary = width_hidden_binary + height_hidden_binary
                img_visible[col,
                            row] = (int(w_h_binary[0:8],
                                        2), int(w_h_binary[8:16],
                                                2), int(w_h_binary[16:24], 2))
                continue
            r, g, b = img_visible[col, row]
            r_binary, g_binary, b_binary = rgb_to_binary(r, g, b)
            r_binary = r_binary[0:4] + hidden_image_pixels[idx:idx + 4]
            g_binary = g_binary[0:4] + hidden_image_pixels[idx + 4:idx + 8]
            b_binary = b_binary[0:4] + hidden_image_pixels[idx + 8:idx + 12]
            idx += 12
            img_visible[col, row] = (int(r_binary,
                                         2), int(g_binary,
                                                 2), int(b_binary, 2))
            if idx >= len(hidden_image_pixels):
                return img_visible
    # can never be reached, but let's return the image anyway
    return img_visible
Exemple #6
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def get_binary_pixel_values(img, width, height):
    """
	Retrieves a string of concatenated binary representations of RGB channel values of all pixels in an image.

	Args:
	    img:    An RGB image
	    width:  Width of the image
	    height: Height of the image

	Returns:
	    A string with concatenated binary numbers representing the RGB channel values of all pixels in the image
	    where each binary number representing one channel value is 8 bits long, padded with leading zeros 
	    when necessary. Therefore, each pixel in the image is represented by 24 bit long binary sequence.
	"""
    hidden_image_pixels = ''
    for col in range(width):
        for row in range(height):
            pixel = img[col, row]
            r = pixel[0]
            g = pixel[1]
            b = pixel[2]
            r_binary, g_binary, b_binary = rgb_to_binary(r, g, b)
            hidden_image_pixels += r_binary + g_binary + b_binary
    return hidden_image_pixels