TensorFlow Python
[Python] png2svg
kjun.kr
2022. 9. 15. 22:14
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https://github.com/ianmackinnon/png2svg
GitHub - ianmackinnon/png2svg: Convert PNG images to SVG.
Convert PNG images to SVG. Contribute to ianmackinnon/png2svg development by creating an account on GitHub.
github.com
#!/usr/bin/env python
# -*- coding: utf-8 -*-
import sys
import logging
import operator
from collections import deque
from StringIO import StringIO
from optparse import OptionParser
import Image
logging.basicConfig()
log = logging.getLogger('png2svg')
def add_tuple(a, b):
return tuple(map(operator.add, a, b))
def sub_tuple(a, b):
return tuple(map(operator.sub, a, b))
def neg_tuple(a):
return tuple(map(operator.neg, a))
def direction(edge):
return sub_tuple(edge[1], edge[0])
def magnitude(a):
return int(pow(pow(a[0], 2) + pow(a[1], 2), .5))
def normalize(a):
mag = magnitude(a)
assert mag > 0, "Cannot normalize a zero-length vector"
return tuple(map(operator.div, a, [mag]*len(a)))
def svg_header(width, height):
return """<?xml version="1.0" encoding="UTF-8" standalone="no"?>
<!DOCTYPE svg PUBLIC "-//W3C//DTD SVG 1.1//EN"
"http://www.w3.org/Graphics/SVG/1.1/DTD/svg11.dtd">
<svg width="%d" height="%d"
xmlns="http://www.w3.org/2000/svg" version="1.1">
""" % (width, height)
def rgba_image_to_svg_pixels(im, opaque=None):
s = StringIO()
s.write(svg_header(*im.size))
width, height = im.size
for x in range(width):
for y in range(height):
here = (x, y)
rgba = im.getpixel(here)
if opaque and not rgba[3]:
continue
s.write(""" <rect x="%d" y="%d" width="1" height="1" style="fill:rgb%s; fill-opacity:%.3f; stroke:none;" />\n""" % (x, y, rgba[0:3], float(rgba[3]) / 255))
s.write("""</svg>\n""")
return s.getvalue()
def joined_edges(assorted_edges, keep_every_point=False):
pieces = []
piece = []
directions = deque([
(0, 1),
(1, 0),
(0, -1),
(-1, 0),
])
while assorted_edges:
if not piece:
piece.append(assorted_edges.pop())
current_direction = normalize(direction(piece[-1]))
while current_direction != directions[2]:
directions.rotate()
for i in range(1, 4):
next_end = add_tuple(piece[-1][1], directions[i])
next_edge = (piece[-1][1], next_end)
if next_edge in assorted_edges:
assorted_edges.remove(next_edge)
if i == 2 and not keep_every_point:
# same direction
piece[-1] = (piece[-1][0], next_edge[1])
else:
piece.append(next_edge)
if piece[0][0] == piece[-1][1]:
if not keep_every_point and normalize(direction(piece[0])) == normalize(direction(piece[-1])):
piece[-1] = (piece[-1][0], piece.pop(0)[1])
# same direction
pieces.append(piece)
piece = []
break
else:
raise Exception, "Failed to find connecting edge"
return pieces
def rgba_image_to_svg_contiguous(im, opaque=None, keep_every_point=False):
# collect contiguous pixel groups
adjacent = ((1, 0), (0, 1), (-1, 0), (0, -1))
visited = Image.new("1", im.size, 0)
color_pixel_lists = {}
width, height = im.size
for x in range(width):
for y in range(height):
here = (x, y)
if visited.getpixel(here):
continue
rgba = im.getpixel((x, y))
if opaque and not rgba[3]:
continue
piece = []
queue = [here]
visited.putpixel(here, 1)
while queue:
here = queue.pop()
for offset in adjacent:
neighbour = add_tuple(here, offset)
if not (0 <= neighbour[0] < width) or not (0 <= neighbour[1] < height):
continue
if visited.getpixel(neighbour):
continue
neighbour_rgba = im.getpixel(neighbour)
if neighbour_rgba != rgba:
continue
queue.append(neighbour)
visited.putpixel(neighbour, 1)
piece.append(here)
if not rgba in color_pixel_lists:
color_pixel_lists[rgba] = []
color_pixel_lists[rgba].append(piece)
del adjacent
del visited
# calculate clockwise edges of pixel groups
edges = {
(-1, 0):((0, 0), (0, 1)),
(0, 1):((0, 1), (1, 1)),
(1, 0):((1, 1), (1, 0)),
(0, -1):((1, 0), (0, 0)),
}
color_edge_lists = {}
for rgba, pieces in color_pixel_lists.items():
for piece_pixel_list in pieces:
edge_set = set([])
for coord in piece_pixel_list:
for offset, (start_offset, end_offset) in edges.items():
neighbour = add_tuple(coord, offset)
start = add_tuple(coord, start_offset)
end = add_tuple(coord, end_offset)
edge = (start, end)
if neighbour in piece_pixel_list:
continue
edge_set.add(edge)
if not rgba in color_edge_lists:
color_edge_lists[rgba] = []
color_edge_lists[rgba].append(edge_set)
del color_pixel_lists
del edges
# join edges of pixel groups
color_joined_pieces = {}
for color, pieces in color_edge_lists.items():
color_joined_pieces[color] = []
for assorted_edges in pieces:
color_joined_pieces[color].append(joined_edges(assorted_edges, keep_every_point))
s = StringIO()
s.write(svg_header(*im.size))
for color, shapes in color_joined_pieces.items():
for shape in shapes:
s.write(""" <path d=" """)
for sub_shape in shape:
here = sub_shape.pop(0)[0]
s.write(""" M %d,%d """ % here)
for edge in sub_shape:
here = edge[0]
s.write(""" L %d,%d """ % here)
s.write(""" Z """)
s.write(""" " style="fill:rgb%s; fill-opacity:%.3f; stroke:none;" />\n""" % (color[0:3], float(color[3]) / 255))
s.write("""</svg>\n""")
return s.getvalue()
def png_to_svg(filename, contiguous=None, opaque=None, keep_every_point=None):
try:
im = Image.open(filename)
except IOError, e:
sys.stderr.write('%s: Could not open as image file\n' % filename)
sys.exit(1)
im_rgba = im.convert('RGBA')
if contiguous:
return rgba_image_to_svg_contiguous(im_rgba, opaque, keep_every_point)
else:
return rgba_image_to_svg_pixels(im_rgba, opaque)
if __name__ == "__main__":
parser = OptionParser()
parser.add_option("-v", "--verbose", action="store_true", dest="verbosity", help="Print verbose information for debugging", default=None)
parser.add_option("-q", "--quiet", action="store_false", dest="verbosity", help="Suppress warnings", default=None)
parser.add_option("-p", "--pixels", action="store_false", dest="contiguous", help="Generate a separate shape for each pixel; do not group pixels into contiguous areas of the same colour", default=True)
parser.add_option("-o", "--opaque", action="store_true", dest="opaque", help="Opaque only; do not create shapes for fully transparent pixels. ", default=None)
parser.add_option("-1", "--one", action="store_true", dest="keep_every_point", help="1-pixel-width edges on contiguous shapes; default is to remove intermediate points on straight line edges. ", default=None)
(options, args) = parser.parse_args()
if options.verbosity == True:
log.setLevel(logging.DEBUG)
elif options.verbosity == False:
log.setLevel(logging.ERROR)
assert len(args) == 1, "Usage: %s [FILE]"
print png_to_svg(args[0], contiguous=options.contiguous, opaque=options.opaque, keep_every_point=options.keep_every_point)728x90
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