ortools-clone/examples/python/debruijn_binary.py

# Copyright 2010 Hakan Kjellerstrand hakank@bonetmail.com
#
# Licensed under the Apache License, Version 2.0 (the "License");
# you may not use this file except in compliance with the License.
# You may obtain a copy of the License at
#
#     http://www.apache.org/licenses/LICENSE-2.0
#
# Unless required by applicable law or agreed to in writing, software
# distributed under the License is distributed on an "AS IS" BASIS,
# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.
# See the License for the specific language governing permissions and
# limitations under the License.

"""

  de Bruijn sequences in Google CP Solver.

  Implementation of de Bruijn sequences in Minizinc, both 'classical' and
  'arbitrary'.
  The 'arbitrary' version is when the length of the sequence (m here) is <
  base**n.


  Compare with the the web based programs:
    http://www.hakank.org/comb/debruijn.cgi
    http://www.hakank.org/comb/debruijn_arb.cgi

  Compare with the following models:
  * Tailor/Essence': http://hakank.org/tailor/debruijn.eprime
  * MiniZinc: http://hakank.org/minizinc/debruijn_binary.mzn
  * SICStus: http://hakank.org/sicstus/debruijn.pl
  * Zinc: http://hakank.org/minizinc/debruijn_binary.zinc
  * Choco: http://hakank.org/choco/DeBruijn.java
  * Comet: http://hakank.org/comet/debruijn.co
  * ECLiPSe: http://hakank.org/eclipse/debruijn.ecl
  * Gecode: http://hakank.org/gecode/debruijn.cpp
  * Gecode/R: http://hakank.org/gecode_r/debruijn_binary.rb
  * JaCoP: http://hakank.org/JaCoP/DeBruijn.java

  This model was created by Hakan Kjellerstrand (hakank@bonetmail.com)
  Also see my other Google CP Solver models:
  http://www.hakank.org/google_or_tools/
"""
import sys
import string
from ortools.constraint_solver import pywrapcp

# converts a number (s) <-> an array of numbers (t) in the specific base.


def toNum(solver, t, s, base):
  tlen = len(t)
  solver.Add(
      s == solver.Sum([(base ** (tlen - i - 1)) * t[i] for i in range(tlen)]))


def main(base=2, n=3, m=8):
  # Create the solver.
  solver = pywrapcp.Solver("de Bruijn sequences")

  #
  # data
  #
  # base = 2  # the base to use, i.e. the alphabet 0..n-1
  # n    = 3  # number of bits to use (n = 4 -> 0..base^n-1 = 0..2^4 -1, i.e. 0..15)
  # m    = base**n  # the length of the sequence. For "arbitrary" de Bruijn
  # sequences

  # base = 4
  # n    = 4
  # m    = base**n

  # harder problem
  #base = 13
  #n = 4
  #m = 52

  # for n = 4 with different value of base
  # base = 2  0.030 seconds  16 failures
  # base = 3  0.041         108
  # base = 4  0.070         384
  # base = 5  0.231        1000
  # base = 6  0.736        2160
  # base = 7  2.2 seconds  4116
  # base = 8  6 seconds    7168
  # base = 9  16 seconds  11664
  # base = 10 42 seconds  18000
  # base = 6
  # n = 4
  # m = base**n

  # if True then ensure that the number of occurrences of 0..base-1 is
  # the same (and if m mod base = 0)
  check_same_gcc = True

  print "base: %i n: %i m: %i" % (base, n, m)
  if check_same_gcc:
    print "Checks gcc"

  # declare variables
  x = [solver.IntVar(0, (base ** n) - 1, "x%i" % i) for i in range(m)]
  binary = {}
  for i in range(m):
    for j in range(n):
      binary[(i, j)] = solver.IntVar(0, base - 1, "x_%i_%i" % (i, j))

  bin_code = [solver.IntVar(0, base - 1, "bin_code%i" % i) for i in range(m)]

  #
  # constraints
  #
  #solver.Add(solver.AllDifferent([x[i] for i in range(m)]))
  solver.Add(solver.AllDifferent(x))

  # converts x <-> binary
  for i in range(m):
    t = [solver.IntVar(0, base - 1, "t_%i" % j) for j in range(n)]
    toNum(solver, t, x[i], base)
    for j in range(n):
      solver.Add(binary[(i, j)] == t[j])

  # the de Bruijn condition
  # the first elements in binary[i] is the same as the last
  # elements in binary[i-i]
  for i in range(1, m - 1):
    for j in range(1, n - 1):
      solver.Add(binary[(i - 1, j)] == binary[(i, j - 1)])

  # ... and around the corner
  for j in range(1, n):
    solver.Add(binary[(m - 1, j)] == binary[(0, j - 1)])

  # converts binary -> bin_code
  for i in range(m):
    solver.Add(bin_code[i] == binary[(i, 0)])

  # extra: ensure that all the numbers in the de Bruijn sequence
  # (bin_code) has the same occurrences (if check_same_gcc is True
  # and mathematically possible)
  gcc = [solver.IntVar(0, m, "gcc%i" % i) for i in range(base)]
  solver.Add(solver.Distribute(bin_code, range(base), gcc))
  if check_same_gcc and m % base == 0:
    for i in range(1, base):
      solver.Add(gcc[i] == gcc[i - 1])

  #
  # solution and search
  #
  solution = solver.Assignment()
  solution.Add([x[i] for i in range(m)])
  solution.Add([bin_code[i] for i in range(m)])
  # solution.Add([binary[(i,j)] for i in range(m) for j in range(n)])
  solution.Add([gcc[i] for i in range(base)])

  db = solver.Phase([x[i] for i in range(m)] + [bin_code[i] for i in range(m)],
                    solver.CHOOSE_MIN_SIZE_LOWEST_MAX,
                    solver.ASSIGN_MIN_VALUE)

  num_solutions = 0
  solver.NewSearch(db)
  num_solutions = 0
  while solver.NextSolution():
    num_solutions += 1
    print "\nSolution %i" % num_solutions
    print "x:", [x[i].Value() for i in range(m)]
    print "gcc:", [gcc[i].Value() for i in range(base)]
    print "de Bruijn sequence:", [bin_code[i].Value() for i in range(m)]
    # for i in range(m):
    #    for j in range(n):
    #        print binary[(i,j)].Value(),
    #    print
    # print
  solver.EndSearch()

  if num_solutions == 0:
    print "No solution found"

  print
  print "num_solutions:", num_solutions
  print "failures:", solver.Failures()
  print "branches:", solver.Branches()
  print "WallTime:", solver.WallTime()


base = 2
n = 3
m = base ** n
if __name__ == "__main__":
  if len(sys.argv) > 1:
    base = string.atoi(sys.argv[1])
  if len(sys.argv) > 2:
    n = string.atoi(sys.argv[2])
  if len(sys.argv) > 3:
    m = string.atoi(sys.argv[3])

  main(base, n, m)
Added assignment.py assignment_b.py bus_schedule.py circuit.py combinatorial_auction2.py crossword2.py debruijn_binary.py diet1_b.py diet1.py hidato.py knapsack.py least_diff.py magic_square_and_cards.py magic_square.py map.py nqueens2.py nqueens.py place_number_puzzle.py send_more_money_any_base.py send_most_money.py seseman_b.py seseman.py subset_sum.py toNum.py word_square.py xkcd.py alphametic.py sicherman_dice.py 2010-10-06 21:29:00 +00:00			`# Copyright 2010 Hakan Kjellerstrand hakank@bonetmail.com`
			`#`
remove boolean parameter from python examples 2012-01-16 10:40:52 +00:00			`# Licensed under the Apache License, Version 2.0 (the "License");`
			`# you may not use this file except in compliance with the License.`
			`# You may obtain a copy of the License at`
Added assignment.py assignment_b.py bus_schedule.py circuit.py combinatorial_auction2.py crossword2.py debruijn_binary.py diet1_b.py diet1.py hidato.py knapsack.py least_diff.py magic_square_and_cards.py magic_square.py map.py nqueens2.py nqueens.py place_number_puzzle.py send_more_money_any_base.py send_most_money.py seseman_b.py seseman.py subset_sum.py toNum.py word_square.py xkcd.py alphametic.py sicherman_dice.py 2010-10-06 21:29:00 +00:00			`#`
remove boolean parameter from python examples 2012-01-16 10:40:52 +00:00			`# http://www.apache.org/licenses/LICENSE-2.0`
Added assignment.py assignment_b.py bus_schedule.py circuit.py combinatorial_auction2.py crossword2.py debruijn_binary.py diet1_b.py diet1.py hidato.py knapsack.py least_diff.py magic_square_and_cards.py magic_square.py map.py nqueens2.py nqueens.py place_number_puzzle.py send_more_money_any_base.py send_most_money.py seseman_b.py seseman.py subset_sum.py toNum.py word_square.py xkcd.py alphametic.py sicherman_dice.py 2010-10-06 21:29:00 +00:00			`#`
remove boolean parameter from python examples 2012-01-16 10:40:52 +00:00			`# Unless required by applicable law or agreed to in writing, software`
			`# distributed under the License is distributed on an "AS IS" BASIS,`
			`# WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied.`
			`# See the License for the specific language governing permissions and`
			`# limitations under the License.`
Added assignment.py assignment_b.py bus_schedule.py circuit.py combinatorial_auction2.py crossword2.py debruijn_binary.py diet1_b.py diet1.py hidato.py knapsack.py least_diff.py magic_square_and_cards.py magic_square.py map.py nqueens2.py nqueens.py place_number_puzzle.py send_more_money_any_base.py send_most_money.py seseman_b.py seseman.py subset_sum.py toNum.py word_square.py xkcd.py alphametic.py sicherman_dice.py 2010-10-06 21:29:00 +00:00
			`"""`

			`de Bruijn sequences in Google CP Solver.`

reindent all python code 2014-05-22 20:13:16 +00:00			`Implementation of de Bruijn sequences in Minizinc, both 'classical' and`
			`'arbitrary'.`
			`The 'arbitrary' version is when the length of the sequence (m here) is <`
			`base**n.`
remove boolean parameter from python examples 2012-01-16 10:40:52 +00:00
Added assignment.py assignment_b.py bus_schedule.py circuit.py combinatorial_auction2.py crossword2.py debruijn_binary.py diet1_b.py diet1.py hidato.py knapsack.py least_diff.py magic_square_and_cards.py magic_square.py map.py nqueens2.py nqueens.py place_number_puzzle.py send_more_money_any_base.py send_most_money.py seseman_b.py seseman.py subset_sum.py toNum.py word_square.py xkcd.py alphametic.py sicherman_dice.py 2010-10-06 21:29:00 +00:00
			`Compare with the the web based programs:`
remove boolean parameter from python examples 2012-01-16 10:40:52 +00:00			`http://www.hakank.org/comb/debruijn.cgi`
Added assignment.py assignment_b.py bus_schedule.py circuit.py combinatorial_auction2.py crossword2.py debruijn_binary.py diet1_b.py diet1.py hidato.py knapsack.py least_diff.py magic_square_and_cards.py magic_square.py map.py nqueens2.py nqueens.py place_number_puzzle.py send_more_money_any_base.py send_most_money.py seseman_b.py seseman.py subset_sum.py toNum.py word_square.py xkcd.py alphametic.py sicherman_dice.py 2010-10-06 21:29:00 +00:00			`http://www.hakank.org/comb/debruijn_arb.cgi`

			`Compare with the following models:`
			`* Tailor/Essence': http://hakank.org/tailor/debruijn.eprime`
			`* MiniZinc: http://hakank.org/minizinc/debruijn_binary.mzn`
			`* SICStus: http://hakank.org/sicstus/debruijn.pl`
			`* Zinc: http://hakank.org/minizinc/debruijn_binary.zinc`
			`* Choco: http://hakank.org/choco/DeBruijn.java`
			`* Comet: http://hakank.org/comet/debruijn.co`
			`* ECLiPSe: http://hakank.org/eclipse/debruijn.ecl`
			`* Gecode: http://hakank.org/gecode/debruijn.cpp`
			`* Gecode/R: http://hakank.org/gecode_r/debruijn_binary.rb`
			`* JaCoP: http://hakank.org/JaCoP/DeBruijn.java`

			`This model was created by Hakan Kjellerstrand (hakank@bonetmail.com)`
reindent all python code 2014-05-22 20:13:16 +00:00			`Also see my other Google CP Solver models:`
			`http://www.hakank.org/google_or_tools/`
Added assignment.py assignment_b.py bus_schedule.py circuit.py combinatorial_auction2.py crossword2.py debruijn_binary.py diet1_b.py diet1.py hidato.py knapsack.py least_diff.py magic_square_and_cards.py magic_square.py map.py nqueens2.py nqueens.py place_number_puzzle.py send_more_money_any_base.py send_most_money.py seseman_b.py seseman.py subset_sum.py toNum.py word_square.py xkcd.py alphametic.py sicherman_dice.py 2010-10-06 21:29:00 +00:00			`"""`
reindent all python code 2014-05-22 20:13:16 +00:00			`import sys`
			`import string`
add a ortools package for python modules; kept compatibility; updated all examples 2013-12-24 11:35:01 +00:00			`from ortools.constraint_solver import pywrapcp`
Added assignment.py assignment_b.py bus_schedule.py circuit.py combinatorial_auction2.py crossword2.py debruijn_binary.py diet1_b.py diet1.py hidato.py knapsack.py least_diff.py magic_square_and_cards.py magic_square.py map.py nqueens2.py nqueens.py place_number_puzzle.py send_more_money_any_base.py send_most_money.py seseman_b.py seseman.py subset_sum.py toNum.py word_square.py xkcd.py alphametic.py sicherman_dice.py 2010-10-06 21:29:00 +00:00
			`# converts a number (s) <-> an array of numbers (t) in the specific base.`
reindent all python code 2014-05-22 20:13:16 +00:00

Added assignment.py assignment_b.py bus_schedule.py circuit.py combinatorial_auction2.py crossword2.py debruijn_binary.py diet1_b.py diet1.py hidato.py knapsack.py least_diff.py magic_square_and_cards.py magic_square.py map.py nqueens2.py nqueens.py place_number_puzzle.py send_more_money_any_base.py send_most_money.py seseman_b.py seseman.py subset_sum.py toNum.py word_square.py xkcd.py alphametic.py sicherman_dice.py 2010-10-06 21:29:00 +00:00			`def toNum(solver, t, s, base):`
reindent all python code 2014-05-22 20:13:16 +00:00			`tlen = len(t)`
			`solver.Add(`
			`s == solver.Sum([(base ** (tlen - i - 1)) * t[i] for i in range(tlen)]))`
Added assignment.py assignment_b.py bus_schedule.py circuit.py combinatorial_auction2.py crossword2.py debruijn_binary.py diet1_b.py diet1.py hidato.py knapsack.py least_diff.py magic_square_and_cards.py magic_square.py map.py nqueens2.py nqueens.py place_number_puzzle.py send_more_money_any_base.py send_most_money.py seseman_b.py seseman.py subset_sum.py toNum.py word_square.py xkcd.py alphametic.py sicherman_dice.py 2010-10-06 21:29:00 +00:00

			`def main(base=2, n=3, m=8):`
reindent all python code 2014-05-22 20:13:16 +00:00			`# Create the solver.`
			`solver = pywrapcp.Solver("de Bruijn sequences")`

			`#`
			`# data`
			`#`
			`# base = 2 # the base to use, i.e. the alphabet 0..n-1`
			`# n = 3 # number of bits to use (n = 4 -> 0..base^n-1 = 0..2^4 -1, i.e. 0..15)`
			`# m = base**n # the length of the sequence. For "arbitrary" de Bruijn`
			`# sequences`

			`# base = 4`
			`# n = 4`
			`# m = base**n`

			`# harder problem`
			`#base = 13`
			`#n = 4`
			`#m = 52`

			`# for n = 4 with different value of base`
			`# base = 2 0.030 seconds 16 failures`
			`# base = 3 0.041 108`
			`# base = 4 0.070 384`
			`# base = 5 0.231 1000`
			`# base = 6 0.736 2160`
			`# base = 7 2.2 seconds 4116`
			`# base = 8 6 seconds 7168`
			`# base = 9 16 seconds 11664`
			`# base = 10 42 seconds 18000`
			`# base = 6`
			`# n = 4`
			`# m = base**n`

			`# if True then ensure that the number of occurrences of 0..base-1 is`
			`# the same (and if m mod base = 0)`
			`check_same_gcc = True`

			`print "base: %i n: %i m: %i" % (base, n, m)`
			`if check_same_gcc:`
			`print "Checks gcc"`

			`# declare variables`
			`x = [solver.IntVar(0, (base ** n) - 1, "x%i" % i) for i in range(m)]`
			`binary = {}`
			`for i in range(m):`
			`for j in range(n):`
			`binary[(i, j)] = solver.IntVar(0, base - 1, "x_%i_%i" % (i, j))`

			`bin_code = [solver.IntVar(0, base - 1, "bin_code%i" % i) for i in range(m)]`

			`#`
			`# constraints`
			`#`
			`#solver.Add(solver.AllDifferent([x[i] for i in range(m)]))`
			`solver.Add(solver.AllDifferent(x))`

			`# converts x <-> binary`
			`for i in range(m):`
			`t = [solver.IntVar(0, base - 1, "t_%i" % j) for j in range(n)]`
			`toNum(solver, t, x[i], base)`
			`for j in range(n):`
			`solver.Add(binary[(i, j)] == t[j])`

			`# the de Bruijn condition`
			`# the first elements in binary[i] is the same as the last`
			`# elements in binary[i-i]`
			`for i in range(1, m - 1):`
			`for j in range(1, n - 1):`
			`solver.Add(binary[(i - 1, j)] == binary[(i, j - 1)])`

			`# ... and around the corner`
			`for j in range(1, n):`
			`solver.Add(binary[(m - 1, j)] == binary[(0, j - 1)])`

			`# converts binary -> bin_code`
			`for i in range(m):`
			`solver.Add(bin_code[i] == binary[(i, 0)])`

			`# extra: ensure that all the numbers in the de Bruijn sequence`
			`# (bin_code) has the same occurrences (if check_same_gcc is True`
			`# and mathematically possible)`
			`gcc = [solver.IntVar(0, m, "gcc%i" % i) for i in range(base)]`
			`solver.Add(solver.Distribute(bin_code, range(base), gcc))`
			`if check_same_gcc and m % base == 0:`
			`for i in range(1, base):`
			`solver.Add(gcc[i] == gcc[i - 1])`

			`#`
			`# solution and search`
			`#`
			`solution = solver.Assignment()`
			`solution.Add([x[i] for i in range(m)])`
			`solution.Add([bin_code[i] for i in range(m)])`
			`# solution.Add([binary[(i,j)] for i in range(m) for j in range(n)])`
			`solution.Add([gcc[i] for i in range(base)])`

			`db = solver.Phase([x[i] for i in range(m)] + [bin_code[i] for i in range(m)],`
			`solver.CHOOSE_MIN_SIZE_LOWEST_MAX,`
			`solver.ASSIGN_MIN_VALUE)`

			`num_solutions = 0`
			`solver.NewSearch(db)`
			`num_solutions = 0`
			`while solver.NextSolution():`
			`num_solutions += 1`
			`print "\nSolution %i" % num_solutions`
			`print "x:", [x[i].Value() for i in range(m)]`
			`print "gcc:", [gcc[i].Value() for i in range(base)]`
			`print "de Bruijn sequence:", [bin_code[i].Value() for i in range(m)]`
			`# for i in range(m):`
			`# for j in range(n):`
			`# print binary[(i,j)].Value(),`
			`# print`
			`# print`
			`solver.EndSearch()`

			`if num_solutions == 0:`
			`print "No solution found"`

			`print`
			`print "num_solutions:", num_solutions`
			`print "failures:", solver.Failures()`
			`print "branches:", solver.Branches()`
			`print "WallTime:", solver.WallTime()`
remove boolean parameter from python examples 2012-01-16 10:40:52 +00:00
Added assignment.py assignment_b.py bus_schedule.py circuit.py combinatorial_auction2.py crossword2.py debruijn_binary.py diet1_b.py diet1.py hidato.py knapsack.py least_diff.py magic_square_and_cards.py magic_square.py map.py nqueens2.py nqueens.py place_number_puzzle.py send_more_money_any_base.py send_most_money.py seseman_b.py seseman.py subset_sum.py toNum.py word_square.py xkcd.py alphametic.py sicherman_dice.py 2010-10-06 21:29:00 +00:00
			`base = 2`
reindent all python code 2014-05-22 20:13:16 +00:00			`n = 3`
			`m = base ** n`
			`if __name__ == "__main__":`
			`if len(sys.argv) > 1:`
			`base = string.atoi(sys.argv[1])`
			`if len(sys.argv) > 2:`
			`n = string.atoi(sys.argv[2])`
			`if len(sys.argv) > 3:`
			`m = string.atoi(sys.argv[3])`

			`main(base, n, m)`