#!/usr/bin/env python
-"""Usage: imago.py file"""
+
+"""Usage: imago.py file
+ analyses the given file
+ imago.py file --debug
+ shows every step of the computation
+ imago.py --help
+ shows this help"""
import sys
-import Image
+import math
+try:
+ import Image, ImageDraw
+except ImportError, msg:
+ print >>sys.stderr, msg
+ sys.exit(1)
import im_debug
import filter
-import hough
+from hough import Hough
class UsageError(Exception):
def __init__(self, msg):
def main(*argv):
"""Main function of the program."""
+
+ show_all = False
+
try:
if argv is ():
argv = sys.argv[1:]
if argv == []:
raise UsageError('Missing filename')
if "--help" in argv:
- print __doc__
- return 0
+ print __doc__
+ return 0
+ if "--debug" in argv:
+ show_all = True
except UsageError, err:
print >>sys.stderr, err.msg, "(\"imago.py --help\" for help)"
return 2
- #TODO exception on file error
- image = Image.open(argv[0])
- #im_debug.show(image, "original image")
+ try:
+ image = Image.open(argv[0])
+ except IOError, msg:
+ print >>sys.stderr, msg
+ return 1
+ if show_all:
+ im_debug.show(image, "original image")
im_l = image.convert('L')
- #im_debug.show(im_l, "ITU-R 601-2 luma transform")
+ if show_all:
+ im_debug.show(im_l, "ITU-R 601-2 luma transform")
im_edges = filter.edge_detection(im_l)
- #im_debug.show(im_edges, "edge detection")
+ if show_all:
+ im_debug.show(im_edges, "edge detection")
+
+ im_h = filter.high_pass(im_edges, 100)
+ if show_all:
+ im_debug.show(im_h, "high pass filter")
+
+ hough1 = Hough(im_h.size)
+ im_hough = hough1.transform(im_h)
+ if show_all:
+ im_debug.show(im_hough, "hough transform")
+
+ im_h2 = filter.high_pass(im_hough, 120)
+ if show_all:
+ im_debug.show(im_h2, "second high pass filter")
+
+ hough2 = Hough(im_h2.size)
+ im_hough2 = hough2.transform(im_h2)
+ if show_all:
+ im_debug.show(im_hough2, "second hough transform")
+
+ im_h3 = filter.high_pass(im_hough2, 120)
+ if show_all:
+ im_debug.show(im_h3, "third high pass filter")
+
+ lines = hough2.find_angle_distance(im_h3)
+
+ im_lines = Image.new('L', im_h2.size)
+
+ draw = ImageDraw.Draw(im_lines)
- im_h = filter.high_pass(im_edges, 80)
- #im_debug.show(im_h, "high pass filter")
+ for line in lines:
+ draw.line(line_from_angl_dist(line, im_h2.size), fill=255)
+ if show_all:
+ im_debug.show(im_lines, "lines")
- im_hough = hough.transform(im_h)
- im_debug.show(im_hough, "hough transform")
+ im_c = combine(im_h2, im_lines)
+ if show_all:
+ im_debug.show(im_c, "first hough x lines")
+
+ collapse(im_c)
+ if show_all:
+ im_debug.show(im_c, "optimalised hough")
+
+ lines = hough1.all_lines(im_c)
+ draw = ImageDraw.Draw(image)
+ for line in lines:
+ draw.line(line_from_angl_dist(line, image.size), fill=(120, 255, 120))
+
+ im_debug.show(image, "the grid")
return 0
+def collapse(image):
+ #HACK
+ im_l = image.load()
+ last = False
+ for y in xrange(image.size[1]):
+ for x in xrange(image.size[0]):
+ if im_l[x,y] and last:
+ im_l[x, y] = 0
+ last = False
+ elif im_l[x, y]:
+ last = True
+ elif last:
+ last = False
+
+def combine(image1, image2):
+ im_l1 = image1.load()
+ im_l2 = image2.load()
+
+ im_n = Image.new('L', image1.size)
+ im_nl = im_n.load()
+
+ for x in xrange(image1.size[0]):
+ for y in xrange(image1.size[1]):
+ if im_l1[x, y] and im_l2[x, y]:
+ im_nl[x, y] = 255
+ return im_n
+
+def line_from_angl_dist((angle, distance), size):
+ x1 = - size[0] / 2
+ y1 = int(round((x1 * math.sin(angle) - distance)/math.cos(angle))) + size[1] / 2
+ x2 = size[0] / 2
+ y2 = int(round((x2 * math.sin(angle) - distance)/math.cos(angle))) + size[1] / 2
+ return [(0, y1), (size[0] - 1, y2)]
+
if __name__ == '__main__':
sys.exit(main())
projekty / imago.git / blobdiff