Converter from SAT to 3-SAT

十年热恋 提交于 2019-12-11 09:39:25

问题


Does anyone know of a good program to convert CNF files with any number of variables per clause to CNF files with exactly 3 variables per clause (3-CNF)? I've seen this algorithm in computer science books but can't find an implementation anywhere and would hate to waste time implementing it myself if others have already done it. Thanks!


回答1:


I didn't know any program to do that either, but the algorithm is really simple so just I wrote the following python script (download) that reads a general CNF in DIMACS format and writes the CNF of an equivalent 3-SAT problem in DIMACS format:

from __future__ import print_function
import fileinput

cnf = list()
cnf.append(list())
maxvar = 0

for line in fileinput.input():
    tokens = line.split()
    if len(tokens) == 0 or tokens[0] == "p" or tokens[0] == "c":
        continue
    for tok in tokens:
        lit = int(tok)
        maxvar = max(maxvar, abs(lit))
        if lit == 0:
            cnf.append(list())
        else:
            cnf[-1].append(lit)

assert len(cnf[-1]) == 0
cnf.pop()

new_cnf = list()
for clause in cnf:
    while len(clause) > 3:
        new_clause = list()
        for i in range(0, len(clause), 2):
            if i+1 < len(clause):
                new_cnf.append(list())
                new_cnf[-1].append(clause[i])
                new_cnf[-1].append(clause[i+1])
                maxvar += 1
                new_cnf[-1].append(-maxvar)
                new_clause.append(maxvar)
            else:
                new_clause.append(clause[i])
        clause = new_clause
    new_cnf.append(clause)

print("p cnf %d %d" % (maxvar, len(new_cnf)))
for clause in new_cnf:
    print(" ".join([ "%d" % lit for lit in clause ]) + " 0")

The interesting bit is of course the for clause in cnf: loop that takes the general sat problem stored in cnf and transforms it into a 3-sat instance stored in new_cnf. It does this by translating a clause such as

(A[1] or A[2] or A[3] or A[4] or A[5] or A[6] or A[7])

into the following set of clauses.

(A[1] or A[2] or ~X[1])
(A[3] or A[4] or ~X[2])
(A[5] or A[6] or ~X[3])

(X[1] or X[2] or X[3] or A[7])

The first three clauses are added to new_cnf. The last clause is not 3-sat so the algorithm is re-run on this last clause, yielding the following new clauses:

(X[1] or X[2] or ~Y[1])
(X[3] or A[7] or ~Y[2])

(Y[1] or Y[2])

This are all 3-sat clauses, so they are added to new_cnf and the algorithm continues with the next clause from cnf. (If the last clause were not 3-sat, the algorithm would keep working on it until only 3-sat clauses are left. The length of the last clause approximately halves with each iteration.)




回答2:


SAT is not solvable in polynomial time (according to the current knowledge). 2-SAT is solvable in polynomial time.

So a conversion from generic SAT to 2-SAT will not be fast (not in polynomial time), otherwise we would find a polynomial-time algorithm for SAT.

In other words, the time needed to convert SAT to 2-SAT is roughly the same as the time to just solve SAT.

Maybe you mean 3-SAT, not 2-SAT?



来源:https://stackoverflow.com/questions/27261641/converter-from-sat-to-3-sat

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