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# The Computer Language Benchmarks Game
# http://shootout.alioth.debian.org/
#
# contributed by Daniel Nanz, 2008-08-21
import optparse
import time
from bisect import bisect
import util
w, h = 5, 10
dir_no = 6
S, E = w * h, 2
SE = S + (E / 2)
SW = SE - E
W, NW, NE = -E, -SE, -SW
def rotate(ido, rd={E: NE, NE: NW, NW: W, W: SW, SW: SE, SE: E}):
return [rd[o] for o in ido]
def flip(ido, fd={E: E, NE: SE, NW: SW, W: W, SW: NW, SE: NE}):
return [fd[o] for o in ido]
def permute(ido, r_ido):
ps = [ido]
for r in range(dir_no - 1):
ps.append(rotate(ps[-1]))
if ido == r_ido: # C2-symmetry
ps = ps[0:dir_no//2]
for pp in ps[:]:
ps.append(flip(pp))
return ps
def convert(ido):
'''incremental direction offsets -> "coordinate offsets" '''
out = [0]
for o in ido:
out.append(out[-1] + o)
return list(set(out))
def get_footprints(board, cti, pieces):
fps = [[[] for p in range(len(pieces))] for ci in range(len(board))]
for c in board:
for pi, p in enumerate(pieces):
for pp in p:
fp = frozenset([cti[c + o] for o in pp if (c + o) in cti])
if len(fp) == 5:
fps[min(fp)][pi].append(fp)
return fps
def get_senh(board, cti):
'''-> south-east neighborhood'''
se_nh = []
nh = [E, SW, SE]
for c in board:
se_nh.append(frozenset([cti[c + o] for o in nh if (c + o) in cti]))
return se_nh
def get_puzzle(w=w, h=h):
board = [E*x + S*y + (y % 2) for y in range(h) for x in range(w)]
cti = dict((board[i], i) for i in range(len(board)))
idos = [[E, E, E, SE], # incremental direction offsets
[SE, SW, W, SW],
[W, W, SW, SE],
[E, E, SW, SE],
[NW, W, NW, SE, SW],
[E, E, NE, W],
[NW, NE, NE, W],
[NE, SE, E, NE],
[SE, SE, E, SE],
[E, NW, NW, NW]]
perms = (permute(p, idos[3]) for p in idos) # restrict piece 4
pieces = [[convert(pp) for pp in p] for p in perms]
return (board, cti, pieces)
def print_board(board, w=w, h=h):
for y in range(h):
for x in range(w):
print(board[x + y * w])
print('')
if y % 2 == 0:
print('')
print()
board, cti, pieces = get_puzzle()
fps = get_footprints(board, cti, pieces)
se_nh = get_senh(board, cti)
def solve(n, i_min, free, curr_board, pieces_left, solutions,
fps=fps, se_nh=se_nh, bisect=bisect):
fp_i_cands = fps[i_min]
for p in pieces_left:
fp_cands = fp_i_cands[p]
for fp in fp_cands:
if fp <= free:
n_curr_board = curr_board[:]
for ci in fp:
n_curr_board[ci] = p
if len(pieces_left) > 1:
n_free = free - fp
n_i_min = min(n_free)
if len(n_free & se_nh[n_i_min]) > 0:
n_pieces_left = pieces_left[:]
n_pieces_left.remove(p)
solve(n, n_i_min, n_free, n_curr_board,
n_pieces_left, solutions)
else:
s = ''.join(map(str, n_curr_board))
solutions.insert(bisect(solutions, s), s)
rs = s[::-1]
solutions.insert(bisect(solutions, rs), rs)
if len(solutions) >= n:
return
if len(solutions) >= n:
return
return
SOLVE_ARG = 60
def main(n):
times = []
for i in range(n):
t0 = time.time()
free = frozenset(range(len(board)))
curr_board = [-1] * len(board)
pieces_left = list(range(len(pieces)))
solutions = []
solve(SOLVE_ARG, 0, free, curr_board, pieces_left, solutions)
#print len(solutions), 'solutions found\n'
#for i in (0, -1): print_board(solutions[i])
tk = time.time()
times.append(tk - t0)
return times
if __name__ == "__main__":
parser = optparse.OptionParser(
usage="%prog [options]",
description="Test the performance of the Float benchmark")
util.add_standard_options_to(parser)
options, args = parser.parse_args()
util.run_benchmark(options, options.num_runs, main)
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