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#!/usr/bin/env python3
import math
import sys
from gerbonara import LayerStack
from gerbonara.graphic_objects import Line, Arc
from gerbonara.apertures import CircleAperture
from gerbonara.utils import MM
from gerbonara.utils import rotate_point
def highlight_outline(input_dir, output_dir):
stack = LayerStack.from_directory(input_dir)
outline = []
for obj in stack.outline.objects:
if isinstance(obj, Line):
outline.append(obj.converted('mm'))
elif isinstance(obj, Arc):
outline += obj.converted('mm').approximate(0.1, 'mm')
marker_angle = math.pi/3
marker_spacing = 2
marker_width = 0.1
marker_dx, marker_dy = math.sin(marker_angle)*marker_spacing, -math.cos(marker_angle)*marker_spacing
marker_nx, marker_ny = math.sin(marker_angle), math.cos(marker_angle)
ap = CircleAperture(0.1, unit=MM)
stack['top silk'].apertures.append(ap)
for line in outline:
cx, cy = (line.x1 + line.x2)/2, (line.y1 + line.y2)/2
dx, dy = line.x1 - cx, line.y1 - cy
angle = math.atan2(dy, dx)
r = math.hypot(dx, dy)
if r == 0:
continue
w = 10
tl_x, tl_y = line.x1 + math.sin(angle)*w/2, line.y1 - math.cos(angle)*w/2
tr_x, tr_y = line.x2 + math.sin(angle)*w/2, line.y2 - math.cos(angle)*w/2
br_x, br_y = line.x2 - math.sin(angle)*w/2, line.y2 + math.cos(angle)*w/2
bl_x, bl_y = line.x1 - math.sin(angle)*w/2, line.y1 + math.cos(angle)*w/2
tr = math.dist((tl_x, tl_y), (br_x, br_y))/2
n = math.ceil(tr/marker_spacing)
for i in range(-n, n+1):
px, py = cx + i*marker_dx, cy + i*marker_dy
lx1, ly1 = px + tr*marker_nx, py + tr*marker_ny
lx2, ly2 = px - tr*marker_nx, py - tr*marker_ny
lx1, ly1 = rotate_point(lx1, ly1, angle, cx, cy)
lx2, ly2 = rotate_point(lx2, ly2, angle, cx, cy)
def clip_line_point(x1, y1, x2, y2, xabs, yabs):
if x2 != x1:
a = (y2 - y1) / (x2 - x1)
x2 = min(xabs, max(-xabs, x2))
y2 = y1 + a*(x2 - x1)
elif abs(x1) > xabs:
return None
if y2 != y1:
a = (x2 - x1) / (y2 - y1)
y2 = min(yabs, max(-yabs, y2))
x2 = x1 + a*(y2 - y1)
elif abs(y1) > yabs:
return None
return x1, y1, x2, y2
if not (foo := clip_line_point(lx1-cx, ly1-cy, lx2-cx, ly2-cy, r, w/2)):
continue
lx1, ly1, lx2, ly2 = foo
if not (foo := clip_line_point(lx2, ly2, lx1, ly1, r, w/2)):
continue
lx1, ly1, lx2, ly2 = foo
lx1, ly1, lx2, ly2 = lx1+cx, ly1+cy, lx2+cx, ly2+cy
lx1, ly1 = rotate_point(lx1, ly1, -angle, cx, cy)
lx2, ly2 = rotate_point(lx2, ly2, -angle, cx, cy)
stack['top silk'].objects.append(Line(lx1, ly1, lx2, ly2, unit=MM, aperture=ap, polarity_dark=True))
stack.save_to_directory(output_dir)
if __name__ == '__main__':
import argparse
parser = argparse.ArgumentParser()
parser.add_argument('input')
parser.add_argument('output')
args = parser.parse_args()
highlight_outline(args.input, args.output)
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