120 lines
3.7 KiB
Python
120 lines
3.7 KiB
Python
#!/usr/bin/env python
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# -*- coding: utf-8 -*-
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# This file is part of ROBOTGAME
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#
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# ROBOTGAME is free software: you can redistribute it and/or modify it under the
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# terms of the GNU General Public License as published by the Free Software
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# Foundation, either version 3 of the License, or (at your option) any later
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# version.
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#
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# ROBOTGAME is distributed in the hope that it will be useful, but WITHOUT ANY
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# WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS FOR
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# A PARTICULAR PURPOSE. See the GNU General Public License for more details.
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#
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# You should have received a copy of the GNU General Public License along with
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# ROBOTGAME. If not, see <http://www.gnu.org/licenses/>.
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#
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# ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' ' '
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#
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# colourboxes.py
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# --------------------
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# date created : Wed Aug 8 2012
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# copyright : (C) 2012 Niels G. W. Serup
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# maintained by : Niels G. W. Serup <ns@metanohi.name>
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"""
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Colour boxes.
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"""
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from __future__ import print_function
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import random
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import itertools
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def generate_colour_boxes(nwells, nboxes):
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"""
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Generate colour boxes that can be used to make all wells white. None of the
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generated colour boxes are white.
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Arguments:
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nwells -- number of wells
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nboxes -- maximum number of boxes needed to make all wells white.
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Return [[(r, g, b)]]
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where r : 0|1, g : 0|1, b : 0|1
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"""
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nbits = nwells * 3
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data = [[0 for _ in range(nboxes)] for _ in range(nbits)]
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def insert_1(x):
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t = random.randrange(0, nboxes)
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x0, x1 = _get_oxs(x)
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for y in range(t, nboxes) + range(0, t):
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if data[x][y] == 0 and not (data[x0][y] == 1 and data[x1][y] == 1):
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data[x][y] = 1
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break
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else:
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raise Exception("Cannot maintain no 111s invariant.")
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def insert_two_1(x):
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t = random.randrange(0, nboxes)
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x0, x1 = _get_oxs(x)
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if len(list(filter(lambda y: data[x][y] == 0 and not (data[x0][y] == 1 and data[x1][y] == 1),
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range(nboxes)))) < 2:
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return
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for _ in range(2):
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for y in range(t, nboxes) + range(0, t):
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if data[x][y] == 0 and not (data[x0][y] == 1 and data[x1][y] == 1):
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data[x][y] = 1
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break
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for x in range(len(data)):
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insert_1(x)
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for x in range(len(data)):
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for _ in range(random.randrange(0, (nboxes + 1) / 2)):
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insert_two_1(x)
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boxes = []
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for y in range(nboxes):
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box = []
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boxes.append(box)
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for x in range(0, nbits, 3):
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r = data[x][y]
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g = data[x + 1][y]
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b = data[x + 2][y]
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box.append((r, g, b))
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return boxes
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def _get_oxs(x):
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return (x + 1, x + 2) if x % 3 == 0 \
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else (x - 1, x + 1) if x % 3 == 1 \
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else (x - 2, x - 1)
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def generate_random_box(nwells):
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"""Generate a box with random colors except white (111)."""
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def gen_wc():
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wc = [random.choice((0, 1)) for i in range(3)]
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if all(b == 1 for b in wc):
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wc[random.randrange(3)] = 0
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return wc
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return [tuple(gen_wc()) for _ in range(nwells)]
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def get_colours(boxes):
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colours = []
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for i in range(len(boxes[0])):
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r, g, b = boxes[0][i]
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for j in range(1, len(boxes)):
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r1, g1, b1 = boxes[j][i]
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r ^= r1
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g ^= g1
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b ^= b1
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colours.append((r, g, b))
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return colours
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def makes_all_wells_white(boxes):
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"""
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Determine if the boxes make all wells white when XOR'ed together.
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"""
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return all(c == 1 for c in itertools.chain(*get_colours(boxes)))
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