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[/] [phr/] [trunk/] [placas/] [PHRboard/] [references/] [logo2pcb/] [output/] [converter/] [img2mod.py] - Blame information for rev 343

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1 88 guanucolui
#!/usr/bin/env python
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#
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# img2mod - A script to convert an image file into a PCB module file for Kicad.
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# Version 1.02 - June 19, 2013
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# Now works with the new .kicad_mod s-expression file format
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#
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# Written by Matthew Beckler for Wayne and Layne, LLC
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# Copyright (c) 2011, Wayne and Layne, LLC
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# http://img2mod.wayneandlayne.com/ - wayneandlayne at wayneandlayne dot com
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#
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# This program is free software; you can redistribute it and/or modify
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# it under the terms of the GNU General Public License as published by
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# the Free Software Foundation; either version 2 of the License, or
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# (at your option) any later version.
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from PIL import Image, ImageOps
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# Text for the file header, the parameter is the name of the module, ex "LOGO".
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header = """(module %(name)s
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  (layer F.Cu)
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  (at 0 0)
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  (fp_text reference "VAL***" (at 0 10) (layer F.SilkS) hide
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    (effects (font (thickness 0.3)))
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  )
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  (fp_text reference "%(name)s" (at 0 5) (layer F.SilkS) hide
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    (effects (font (thickness 0.3)))
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  )
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"""
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# Text for the file footer, the only parameter is the name of the module
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footer = """)
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"""
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# Places a pixel with (x, y) at the upper-left corner
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# Size is in units of mm
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def make_pixel(x, y, px_size):
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    return """  (fp_poly
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    (pts
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      (xy %(0)s %(1)s)
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      (xy %(2)s %(1)s)
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      (xy %(2)s %(3)s)
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      (xy %(0)s %(3)s)
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      (xy %(0)s %(1)s)
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    )
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    (layer F.SilkS)
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    (width 0.01)
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  )
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""" % {"0": x, "1": y, "2": x + px_size, "3": y + px_size}
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def conv_image_to_module(image, module_name, scale_factor):
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    """ Returns the text for the module, and the size: (x, y) in mm. """
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    w, h = image.size
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    #print "Original image dimensions: {0} x {1}".format(w, h)
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    #print "Writing module file to \"{0}\"".format(output_filename)
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    module = header % {"name": module_name}
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    for y in range(h):
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        for x in range(w):
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            #print image.getpixel((x,y))
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            if image.getpixel((x, y)) == 0:
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                module += make_pixel(scale_factor * x, scale_factor * y, scale_factor)
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    module += footer % {"name": module_name}
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    return module, (scale_factor * w, scale_factor * h)
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def main():
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    import sys
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    if len(sys.argv) < 5:
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        print "Usage: %s input_image output_filename module_name scale_factor" % sys.argv[0]
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        print "  input_image is the filename of the input image"
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        print "  output_filename is the name of the output module file"
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        print "  module_name is the name to use for the module, traditionally LOGO"
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        print "  scale_factor is the size of each output pixel, in units of mm\""
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        sys.exit(1)
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    input_image = sys.argv[1]
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    output_filename = sys.argv[2]
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    module_name = sys.argv[3]
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    scale_factor = int(sys.argv[4])
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    print "Reading image from \"%s\"" % input_image
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    # If we .convert("1") it makes a binary image with a 127 threshold
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    # Keeping it at greyscale allows us to make the threshold configurable
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    image = Image.open(input_image).convert("L")
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    # The above conversion will assume a black background for removing transparency.
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    # If we want to use a different background color, use this:
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    #white = Image.new("RGB", image.size, (255,255,255))
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    #r,g,b,a = image.split()
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    #image = Image.composite(image, white, a)
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    # If you want to invert the image:
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    #image = ImageOps.invert(image)
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    # If you want to do non-127 thresholding, change the 127 below
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    image = image.point(lambda i: 0 if i < 127 else 255)
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    module, size = conv_image_to_module(image, module_name, scale_factor)
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    print "Output image size: %f x %f mm" % (size[0], size[1])
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    fid = open(output_filename, "w")
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    fid.write(module)
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    fid.close()
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if __name__ == "__main__":
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    main()
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