# https://en.wikipedia.org/wiki/ICO_(file_format) # All values in ICO/CUR files are represented in little-endian byte order. # Header # # ICONDIR structure # _________________________________________________________________________________ # | Offset | Size (in bytes) | Purpose | # |--------|-----------------|------------------------------------------------------| # | 0 | 2 | Reserved. Must always be 0. | # |--------|-----------------|------------------------------------------------------| # | 2 | 2 | Specifies image type: 1 for icon (.ICO) image, | # | | | 2 for cursor (.CUR) image. Other values are invalid. | # |--------|-----------------|------------------------------------------------------| # | 4 | 2 | Specifies number of images in the file. | # |________|_________________|______________________________________________________| # Structure of image directory # _______________________________________ # | Image #1 | Entry for the first image | # |----------|----------------------------| # | Image #2 | Entry for the second image | # |----------|----------------------------| # | ... | | # |----------|----------------------------| # | Image #n | Entry for the last image | # |__________|____________________________| # Image entry # # ICONDIRENTRY structure # _________________________________________________________________________________ # | Offset | Size (in bytes) | Purpose | # |--------|-----------------|------------------------------------------------------| # | 0 (06) | 1 | Specifies image width in pixels. Can be any number | # | | | between 0 and 255. Value 0 means image width is 256 | # | | | pixels. | # |--------|-----------------|------------------------------------------------------| # | 1 (07) | 1 | Specifies image height in pixels. Can be any number | # | | | between 0 and 255. Value 0 means image height is 256 | # | | | pixels. | # |--------|-----------------|------------------------------------------------------| # | 2 (08) | 1 | Specifies number of colors in the color palette. | # | | | Should be 0 if the image does not use a color palette| # |--------|-----------------|------------------------------------------------------| # | 3 (09) | 1 | Reserved. Should be 0. | # |--------|-----------------|------------------------------------------------------| # | 4 (10) | 2 | In ICO format: Specifies color planes. | # | | | Should be 0 or 1. | # | | | In CUR format: Specifies the horizontal coordinates | # | | | of the hotspot in number of pixels from the left. | # |--------|-----------------|------------------------------------------------------| # | 6 (12) | 2 | In ICO format: Specifies bits per pixel. | # | | | In CUR format: Specifies the vertical coordinates of | # | | | the hotspot in number of pixels from the top. | # |--------|-----------------|------------------------------------------------------| # | 8 (14) | 4 | Specifies the size of the image's data in bytes | # |--------|-----------------|------------------------------------------------------| # |12 (18) | 4 | Specifies the offset of BMP or PNG data from the | # | | | beginning of the ICO/CUR file | # |________|_________________|______________________________________________________| import binascii import sys from PIL import Image import os print(os.getcwd()) try: INPUTFILE = sys.argv[1] except: print('Please provide an image file') quit() def little_endian(hexstring): #print(hexstring) assert len(hexstring) % 2 == 0 doublets = [hexstring[x*2:(x*2)+2] for x in range(len(hexstring)//2)] #print(doublets) doublets.reverse() hexstring = ''.join(doublets) return hexstring def fit_into_bounds(self, iw, ih, fw, fh): ''' Given the w+h of the image and the w+h of the frame, return new w+h that fits the image into the frame while maintaining the aspect ratio and leaving blank space everywhere else ''' ratio = min(fw/iw, fh/ih) w = int(iw * ratio) h = int(ih * ratio) return (w, h) def image_to_ico(filename): print('Icofying %s' % filename) image = Image.open(filename) if min(image.size) > 256: w = image.size[0] h = image.size[1] image = image.resize((256, 256)) image = image.convert('RGBA') print('Building ico header') output_bytes = '' output_bytes += '00' '00' # reserved 0 output_bytes += '01' '00' # 1 = ico output_bytes += '01' '00' # number of images #### ICO HEADER #### print('Building image entry') # width and height. 00 acts as 256 output_bytes += '%02x' % image.size[0] if image.size[0] < 256 else '00' output_bytes += '%02x' % image.size[1] if image.size[1] < 256 else '00' output_bytes += '00' # colors in palette output_bytes += '00' # reserved 0 output_bytes += '01' '00' # color planes output_bytes += '20' '00' # bits per pixel (32) output_bytes += little_endian('%08x' % ((image.size[0] * image.size[1] * 4)+8192)) # image bytes size output_bytes += '16' '00' '00' '00' # image offset from start of file (begins right after this) #### IMAGE ENTRY #### print('Building image header') output_bytes += '28' '00' '00' '00' # BMP DIB header size (always 40) output_bytes += little_endian('%08x' % image.size[0]) output_bytes += little_endian('%08x' % (image.size[1] * 2)) # I'm not sure why * 2 output_bytes += '01' '00' # color planes output_bytes += '20' '00' # bits per pixel (32) output_bytes += '00' '00' '00' '00' # Compression (None) image_bytesize = image.size[0] * image.size[1] * 4 # BMP pixel array must always end on a 4th byte. image_nullpadding = 4 - (image_bytesize % 4) image_nullpadding = 0 if image_nullpadding == 4 else image_nullpadding output_bytes += little_endian('%08x' % (image_bytesize + image_nullpadding)) # BMP file size output_bytes += '00' '00' '00' '00' # Print width (unnecessary) output_bytes += '00' '00' '00' '00' # Print height (unecessary) output_bytes += '00' '00' '00' '00' # colors in palette output_bytes += '00' '00' '00' '00' # "important colors" #### IMAGE HEADER #### print('Writing pixels') image_data = '' for y in range(image.size[1]-1, -1, -1): for x in range(image.size[0]): pixel = image.getpixel( (x, y) ) #print(pixel) r = '%02x' % pixel[0] g = '%02x' % pixel[1] b = '%02x' % pixel[2] o = '%02x' % pixel[3] image_data += b + g + r + o image_data += '00' * 8192 output_bytes += image_data output_bytes = binascii.a2b_hex(output_bytes) name = filename.split('.')[0] + '.ico' output_file = open(name, 'wb') output_file.write(output_bytes) output_file.close() print('Finished %s.' % name) image_to_ico(INPUTFILE)