JNIEXPORT jint JNICALL Java_depqbf4j_DepQBF4J_newScopeAtNesting (JNIEnv * env, jclass cls, jbyte qType, jint nesting) { return qdpll_new_scope_at_nesting(solver,qType,nesting); }
int main (int argc, char **argv) { QDPLL *depqbf = qdpll_create (); qdpll_configure (depqbf, "--dep-man=simple"); qdpll_configure (depqbf, "--incremental-use"); /* Given the following unsatisfiable formula: p cnf 4 3 a 1 2 0 e 3 4 0 -1 -3 0 1 2 4 0 1 -4 0 The first clause will be put in one clause group and the last two clauses in another group. That last two clauses are unsatisfiable, thus deleting the first clause preserves unsatisfiability. */ /* Declare outermost universal block with variables 1 and 2. */ qdpll_new_scope_at_nesting (depqbf, QDPLL_QTYPE_FORALL, 1); qdpll_add (depqbf, 1); qdpll_add (depqbf, 2); qdpll_add (depqbf, 0); /* Declare existential block with variables 3 and 4. */ qdpll_new_scope_at_nesting (depqbf, QDPLL_QTYPE_EXISTS, 2); qdpll_add (depqbf, 3); qdpll_add (depqbf, 4); qdpll_add (depqbf, 0); /* Create a new clause group with ID 'id1'. The ID of a clause group is used as its handle and can be passed to API functions. */ ClauseGroupID id1 = qdpll_new_clause_group (depqbf); /* Newly created clause groups are closed. */ assert (!qdpll_get_open_clause_group (depqbf)); /* A clause group must be opened before clauses can be added to it. Only one clause group can be open at a time. */ qdpll_open_clause_group (depqbf, id1); assert (qdpll_get_open_clause_group (depqbf) == id1); /* Add the clause '-1 -3 0' to the currently open clause group 'id1'. */ qdpll_add (depqbf, -1); qdpll_add (depqbf, -3); qdpll_add (depqbf, 0); /* The currently open clause group must be closed before creating or opening another clause group. */ qdpll_close_clause_group (depqbf, id1); assert (!qdpll_get_open_clause_group (depqbf)); /* Create another clause group 'id2'. */ ClauseGroupID id2 = qdpll_new_clause_group (depqbf); assert (!qdpll_get_open_clause_group (depqbf)); qdpll_open_clause_group (depqbf, id2); assert (qdpll_get_open_clause_group (depqbf) == id2); /* Add the clauses '1 2 4 0' and '1 -4 0' to the currently open clause group 'id2'. */ qdpll_add (depqbf, 1); qdpll_add (depqbf, 2); qdpll_add (depqbf, 4); qdpll_add (depqbf, 0); //--------------------- qdpll_add (depqbf, 1); qdpll_add (depqbf, -4); qdpll_add (depqbf, 0); qdpll_close_clause_group (depqbf, id2); assert (!qdpll_get_open_clause_group (depqbf)); qdpll_print (depqbf, stdout); /* Solve the formula, which is unsatisfiable. */ QDPLLResult res = qdpll_sat (depqbf); assert (res == QDPLL_RESULT_UNSAT); printf ("result is %d\n", res); /* Get a list of those clause groups which contain clauses used by solver to determine unsatisfiability. This amounts to an unsatisfiable core of the formula. */ ClauseGroupID *relevant_clause_groups = qdpll_get_relevant_clause_groups (depqbf); /* We must reset the solver AFTER retrieving the relevant groups. */ qdpll_reset (depqbf); /* In our example, the clauses in the group 'id2' are relevant for unsatisfiability. (The clause '-1 -3 0' in 'id1' cannot be part of a resolution refutation found by the solver.) */ assert (count_relevant_clause_groups (relevant_clause_groups) == 1); assert (relevant_clause_groups[0] == id2); printf ("printing zero-terminated relevant clause group IDs: ", res); print_relevant_clause_groups (relevant_clause_groups); printf ("\n", res); /* Temporarily remove the clause group 'id2' by deactivating it. */ printf ("deactivating group 2 with clauses 1 2 4 0 and 1 -4 0\n"); qdpll_deactivate_clause_group (depqbf, relevant_clause_groups[0]); /* Calling 'qdpll_gc()' removes superfluous variables and quantifiers from the prefix. HOWEVER, in this case, we have deactivated -- not deleted -- group 'id2' and hence calling 'qdpll_gc()' has no effect. */ qdpll_gc (depqbf); qdpll_print (depqbf, stdout); /* The formula where group 'id2' has been deactivated is satisfiable. */ res = qdpll_sat (depqbf); assert (res == QDPLL_RESULT_SAT); printf ("result is %d\n", res); qdpll_reset (depqbf); /* Activate group 'id2' again, which makes the formula unsatisfiable. */ printf ("activating group 2 again\n"); qdpll_activate_clause_group (depqbf, relevant_clause_groups[0]); /* Free memory of array returned by 'qdpll_get_relevant_clause_groups'. This is the caller's responsibility. */ free (relevant_clause_groups); /* Permanently remove the group 'id1'. This operation cannot be undone and is in contrast to deactivating a group. */ printf ("deleting group 1 with clause -1 -3 0\n"); qdpll_delete_clause_group (depqbf, id1); /* Deleting a group invalidates its ID, which can be checked by 'qdpll_exists_clause_group'. */ assert (!qdpll_exists_clause_group (depqbf, id1)); /* Different from the first call of 'qdpll_gc' above, this time variable 3 will be removed from the quantifier prefix. We deleted group 'id1' which contains the only clause where variable 3 occurs. Hence calling 'qdpll_gc' removes variable 3 because it does not occur any more in the formula. */ qdpll_gc (depqbf); assert (!qdpll_is_var_declared (depqbf, 3)); qdpll_print (depqbf, stdout); /* After deleting the group 'id1', the formula consisting only of the clauses in group 'id2' is unsatisfiable. */ res = qdpll_sat (depqbf); assert (res == QDPLL_RESULT_UNSAT); printf ("result is %d\n", res); qdpll_delete (depqbf); }