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220 lines
10 KiB
Python
Executable File
220 lines
10 KiB
Python
Executable File
#!/usr/bin/env python
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"""gen_pattern.py
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Usage example:
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python gen_pattern.py -o out.svg -r 11 -c 8 -T circles -s 20.0 -R 5.0 -u mm -w 216 -h 279
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-o, --output - output file (default out.svg)
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-r, --rows - pattern rows (default 11)
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-c, --columns - pattern columns (default 8)
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-T, --type - type of pattern, circles, acircles, checkerboard, radon_checkerboard (default circles)
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-s, --square_size - size of squares in pattern (default 20.0)
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-R, --radius_rate - circles_radius = square_size/radius_rate (default 5.0)
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-u, --units - mm, inches, px, m (default mm)
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-w, --page_width - page width in units (default 216)
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-h, --page_height - page height in units (default 279)
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-a, --page_size - page size (default A4), supersedes -h -w arguments
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-m, --markers - list of cells with markers for the radon checkerboard
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-H, --help - show help
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"""
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import argparse
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from svgfig import *
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class PatternMaker:
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def __init__(self, cols, rows, output, units, square_size, radius_rate, page_width, page_height, markers):
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self.cols = cols
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self.rows = rows
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self.output = output
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self.units = units
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self.square_size = square_size
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self.radius_rate = radius_rate
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self.width = page_width
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self.height = page_height
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self.markers = markers
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self.g = SVG("g") # the svg group container
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def make_circles_pattern(self):
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spacing = self.square_size
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r = spacing / self.radius_rate
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pattern_width = ((self.cols - 1.0) * spacing) + (2.0 * r)
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pattern_height = ((self.rows - 1.0) * spacing) + (2.0 * r)
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x_spacing = (self.width - pattern_width) / 2.0
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y_spacing = (self.height - pattern_height) / 2.0
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for x in range(0, self.cols):
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for y in range(0, self.rows):
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dot = SVG("circle", cx=(x * spacing) + x_spacing + r,
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cy=(y * spacing) + y_spacing + r, r=r, fill="black", stroke="none")
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self.g.append(dot)
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def make_acircles_pattern(self):
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spacing = self.square_size
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r = spacing / self.radius_rate
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pattern_width = ((self.cols-1.0) * 2 * spacing) + spacing + (2.0 * r)
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pattern_height = ((self.rows-1.0) * spacing) + (2.0 * r)
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x_spacing = (self.width - pattern_width) / 2.0
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y_spacing = (self.height - pattern_height) / 2.0
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for x in range(0, self.cols):
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for y in range(0, self.rows):
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dot = SVG("circle", cx=(2 * x * spacing) + (y % 2)*spacing + x_spacing + r,
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cy=(y * spacing) + y_spacing + r, r=r, fill="black", stroke="none")
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self.g.append(dot)
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def make_checkerboard_pattern(self):
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spacing = self.square_size
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xspacing = (self.width - self.cols * self.square_size) / 2.0
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yspacing = (self.height - self.rows * self.square_size) / 2.0
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for x in range(0, self.cols):
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for y in range(0, self.rows):
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if x % 2 == y % 2:
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square = SVG("rect", x=x * spacing + xspacing, y=y * spacing + yspacing, width=spacing,
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height=spacing, fill="black", stroke="none")
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self.g.append(square)
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@staticmethod
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def _make_round_rect(x, y, diam, corners=("right", "right", "right", "right")):
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rad = diam / 2
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cw_point = ((0, 0), (diam, 0), (diam, diam), (0, diam))
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mid_cw_point = ((0, rad), (rad, 0), (diam, rad), (rad, diam))
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res_str = "M{},{} ".format(x + mid_cw_point[0][0], y + mid_cw_point[0][1])
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n = len(cw_point)
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for i in range(n):
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if corners[i] == "right":
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res_str += "L{},{} L{},{} ".format(x + cw_point[i][0], y + cw_point[i][1],
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x + mid_cw_point[(i + 1) % n][0], y + mid_cw_point[(i + 1) % n][1])
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elif corners[i] == "round":
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res_str += "A{},{} 0,0,1 {},{} ".format(rad, rad, x + mid_cw_point[(i + 1) % n][0],
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y + mid_cw_point[(i + 1) % n][1])
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else:
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raise TypeError("unknown corner type")
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return res_str
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def _get_type(self, x, y):
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corners = ["right", "right", "right", "right"]
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is_inside = True
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if x == 0:
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corners[0] = "round"
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corners[3] = "round"
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is_inside = False
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if y == 0:
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corners[0] = "round"
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corners[1] = "round"
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is_inside = False
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if x == self.cols - 1:
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corners[1] = "round"
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corners[2] = "round"
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is_inside = False
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if y == self.rows - 1:
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corners[2] = "round"
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corners[3] = "round"
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is_inside = False
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return corners, is_inside
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def make_radon_checkerboard_pattern(self):
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spacing = self.square_size
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xspacing = (self.width - self.cols * self.square_size) / 2.0
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yspacing = (self.height - self.rows * self.square_size) / 2.0
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for x in range(0, self.cols):
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for y in range(0, self.rows):
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if x % 2 == y % 2:
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corner_types, is_inside = self._get_type(x, y)
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if is_inside:
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square = SVG("rect", x=x * spacing + xspacing, y=y * spacing + yspacing, width=spacing,
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height=spacing, fill="black", stroke="none")
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else:
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square = SVG("path", d=self._make_round_rect(x * spacing + xspacing, y * spacing + yspacing,
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spacing, corner_types), fill="black", stroke="none")
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self.g.append(square)
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if self.markers is not None:
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r = self.square_size * 0.17
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pattern_width = ((self.cols - 1.0) * spacing) + (2.0 * r)
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pattern_height = ((self.rows - 1.0) * spacing) + (2.0 * r)
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x_spacing = (self.width - pattern_width) / 2.0
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y_spacing = (self.height - pattern_height) / 2.0
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for x, y in self.markers:
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color = "black"
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if x % 2 == y % 2:
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color = "white"
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dot = SVG("circle", cx=(x * spacing) + x_spacing + r,
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cy=(y * spacing) + y_spacing + r, r=r, fill=color, stroke="none")
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self.g.append(dot)
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def save(self):
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c = canvas(self.g, width="%d%s" % (self.width, self.units), height="%d%s" % (self.height, self.units),
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viewBox="0 0 %d %d" % (self.width, self.height))
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c.save(self.output)
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def main():
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# parse command line options
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parser = argparse.ArgumentParser(description="generate camera-calibration pattern", add_help=False)
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parser.add_argument("-H", "--help", help="show help", action="store_true", dest="show_help")
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parser.add_argument("-o", "--output", help="output file", default="out.svg", action="store", dest="output")
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parser.add_argument("-c", "--columns", help="pattern columns", default="8", action="store", dest="columns",
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type=int)
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parser.add_argument("-r", "--rows", help="pattern rows", default="11", action="store", dest="rows", type=int)
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parser.add_argument("-T", "--type", help="type of pattern", default="circles", action="store", dest="p_type",
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choices=["circles", "acircles", "checkerboard", "radon_checkerboard"])
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parser.add_argument("-u", "--units", help="length unit", default="mm", action="store", dest="units",
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choices=["mm", "inches", "px", "m"])
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parser.add_argument("-s", "--square_size", help="size of squares in pattern", default="20.0", action="store",
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dest="square_size", type=float)
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parser.add_argument("-R", "--radius_rate", help="circles_radius = square_size/radius_rate", default="5.0",
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action="store", dest="radius_rate", type=float)
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parser.add_argument("-w", "--page_width", help="page width in units", default=argparse.SUPPRESS, action="store",
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dest="page_width", type=float)
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parser.add_argument("-h", "--page_height", help="page height in units", default=argparse.SUPPRESS, action="store",
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dest="page_height", type=float)
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parser.add_argument("-a", "--page_size", help="page size, superseded if -h and -w are set", default="A4",
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action="store", dest="page_size", choices=["A0", "A1", "A2", "A3", "A4", "A5"])
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parser.add_argument("-m", "--markers", help="list of cells with markers for the radon checkerboard. Marker "
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"coordinates as list of numbers: -m 1 2 3 4 means markers in cells "
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"[1, 2] and [3, 4]",
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default=argparse.SUPPRESS, action="store", dest="markers", nargs="+", type=int)
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args = parser.parse_args()
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show_help = args.show_help
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if show_help:
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parser.print_help()
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return
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output = args.output
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columns = args.columns
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rows = args.rows
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p_type = args.p_type
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units = args.units
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square_size = args.square_size
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radius_rate = args.radius_rate
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if 'page_width' and 'page_height' in args:
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page_width = args.page_width
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page_height = args.page_height
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else:
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page_size = args.page_size
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# page size dict (ISO standard, mm) for easy lookup. format - size: [width, height]
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page_sizes = {"A0": [840, 1188], "A1": [594, 840], "A2": [420, 594], "A3": [297, 420], "A4": [210, 297],
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"A5": [148, 210]}
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page_width = page_sizes[page_size][0]
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page_height = page_sizes[page_size][1]
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markers = None
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if p_type == "radon_checkerboard" and "markers" in args:
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if len(args.markers) % 2 == 1:
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raise ValueError("The length of the markers array={} must be even".format(len(args.markers)))
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markers = set()
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for x, y in zip(args.markers[::2], args.markers[1::2]):
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if x in range(0, columns) and y in range(0, rows):
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markers.add((x, y))
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else:
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raise ValueError("The marker {},{} is outside the checkerboard".format(x, y))
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pm = PatternMaker(columns, rows, output, units, square_size, radius_rate, page_width, page_height, markers)
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# dict for easy lookup of pattern type
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mp = {"circles": pm.make_circles_pattern, "acircles": pm.make_acircles_pattern,
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"checkerboard": pm.make_checkerboard_pattern, "radon_checkerboard": pm.make_radon_checkerboard_pattern}
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mp[p_type]()
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# this should save pattern to output
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pm.save()
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if __name__ == "__main__":
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main()
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