"""Manual grid selection module"""
-import pygame
-import ImageDraw
from math import sqrt, acos, copysign
+from PIL import ImageDraw
+import pygame
from geometry import l2ad, line, intersection
+from manual_lines import *
class UserQuitError(Exception):
pass
self._screen.blit(pg_img, (0, 0))
pygame.display.flip()
+
+def display_instr():
+
+ while True:
+ for event in pygame.event.get():
+ if event.type == pygame.QUIT:
+ pygame.quit()
+ raise UserQuitError
+ if event.type == pygame.MOUSEBUTTONDOWN or event.type == pygame.KEYDOWN:
+ return
+
def find_lines(im_orig):
# TODO rename, refactor, comment
im = im_orig.copy()
- screen = Screen(im.size)
+ screen = Screen((620, 350))
+
+ font = pygame.font.Font(None, 25)
+ instructions = ["Imago manual mode", "",
+ "To set the grid position, click on the corners of the grid. Once you mark",
+ "all four corners, the grid will appear. To adjust it, just click on the new",
+ "position and the nearest corner will move there. Once you are content",
+ "with the alignment, press any key on your keyboard or close the window.",
+ "", "", "",
+ "Press any key to continue."]
+ y = 10
+ for i in instructions:
+ text1 = font.render(i, True, [128, 255, 128])
+ screen._screen.blit(text1, [10, y])
+ y += 25
+
+ pygame.display.flip()
+
+ display_instr()
+
+ pygame.display.set_mode(im.size)
clock = pygame.time.Clock()
draw = ImageDraw.Draw(im)
hoshi = lambda c: draw.ellipse((c[0] - 1, c[1] - 1, c[0] + 1, c[1] + 1),
fill=(255, 64, 64))
corners = []
- color = (64, 64, 255)
+ color = (32, 255, 32)
line_width = 1
lines_r = []
+ def dst((x1, y1), (x2, y2)):
+ return (x1 - x2) ** 2 + (y1 - y2) ** 2
+
while True:
for event in pygame.event.get():
if event.type == pygame.QUIT or event.type == pygame.KEYDOWN:
else:
raise UserQuitError
if event.type == pygame.MOUSEBUTTONDOWN:
+ np = pygame.mouse.get_pos()
if len(corners) >= 4:
- corners = []
+ corners.sort(key=lambda p: dst(p, np))
+ corners = corners[1:]
+ corners.append(np)
+ (x, y) = corners[-1]
+ draw.line((x-2, y, x + 2, y), fill=color)
+ draw.line((x, y+2, x, y-2), fill=color)
+ if len(corners) == 4:
im = im_orig.copy()
draw = ImageDraw.Draw(im)
-
- if len(corners) < 4:
- corners.append(pygame.mouse.get_pos())
- draw.point(corners[:-1], fill=color)
- if len(corners) == 4:
+ try:
l_vert, l_hor = lines(corners)
- for l in l_vert:
- draw.line(l, fill=color, width=line_width)
- for l in l_hor:
- draw.line(l, fill=color, width=line_width)
- # TODO sort by distance
- l_vert.sort()
- l_hor.sort()
- for i in [3, 9, 15]:
- for j in [3, 9, 15]:
- hoshi(intersection(line(l_vert[i][0], l_vert[i][1]),
- line(l_hor[j][0], l_hor[j][1])))
- lines_r = [[l2ad(l, im.size) for l in l_vert],
- [l2ad(l, im.size) for l in l_hor]]
+ except Exception:
+ corners = corners[:-1]
+ for l in l_vert:
+ draw.line(l, fill=color, width=line_width)
+ for l in l_hor:
+ draw.line(l, fill=color, width=line_width)
+ # TODO sort by distance
+ #l_vert.sort()
+ #l_hor.sort()
+ #for i in [3, 9, 15]:
+ # for j in [3, 9, 15]:
+ # hoshi(intersection(line(l_vert[i][0], l_vert[i][1]),
+ # line(l_hor[j][0], l_hor[j][1])))
+ lines_r = [[l2ad(l, im.size) for l in l_vert],
+ [l2ad(l, im.size) for l in l_hor]]
screen.display_picture(im)
clock.tick(15)
-def lines(corners):
- # TODO Error on triangle
- cor_d = [(corners[0], (c[0] - corners[0][0], c[1] - corners[0][1]), c) for c in
- corners[1:]]
- cor_d = [(float(a[0] * b[0] + a[1] * b[1]) / (sqrt(a[0] ** 2 + a[1] ** 2) *
- sqrt(b[0] **2 + b[1] ** 2)), a[0] * b[1] - b[0] * a[1], c) for a, b, c in cor_d]
- cor_d = sorted([(copysign(acos(min(a, 1)), b), c) for a, b, c in cor_d])
- corners = [corners[0]] + [c for _, c in cor_d]
- return (_lines(corners, 0) + [(corners[0], corners[3]),
- (corners[1], corners[2])],
- _lines(corners[1:4] + [corners[0]], 0) +
- [(corners[0], corners[1]), (corners[2], corners[3])])
-
-def _lines(corners, n):
- # TODO what is this?
- if n == 0:
- x = half_line(corners)
- return (_lines([corners[0], x[0], x[1], corners[3]], n + 1) + [x] +
- _lines([x[0], corners[1], corners[2], x[1]], n + 1))
- else:
- x = half_line(corners)
- c = intersection(line(x[0], corners[2]), line(corners[1], corners[3]))
- d = intersection(line(corners[0], corners[3]), line(corners[1], corners[2]))
- if d:
- l = (intersection(line(corners[0], corners[1]), line(c, d)),
- intersection(line(corners[2], corners[3]), line(c, d)))
- else:
- lx = line(c, (c[0] + corners[0][0] - corners[3][0],
- c[1] + corners[0][1] - corners[3][1]))
- l = (intersection(line(corners[0], corners[1]), lx),
- intersection(line(corners[2], corners[3]), lx))
- l2 = half_line([corners[0], l[0], l[1], corners[3]])
- if n == 1:
- return ([l, l2] + _lines([l[0], l2[0], l2[1], l[1]], 2)
- + _lines([corners[0], l2[0], l2[1], corners[3]], 2)
- + _lines([l[0], corners[1], corners[2], l[1]], 2))
- if n == 2:
- return [l, l2]
-
-
-def half_line(corners):
- # TODO what is this?
- c = center(corners)
- d = intersection(line(corners[0], corners[3]), line(corners[1], corners[2]))
- if d:
- l = line(c, d)
- else:
- l = line(c, (c[0] + corners[0][0] - corners[3][0],
- c[1] + corners[0][1] - corners[3][1]))
- p1 = intersection(l, line(corners[0], corners[1]))
- p2 = intersection(l, line(corners[2], corners[3]))
- return (p1, p2)
-
-def center(corners):
- """Given a list of four corner points, return the center of the square."""
- return intersection(line(corners[0], corners[2]),
- line(corners[1], corners[3]))
+
projekty / imago.git / blobdiff