int main(int numargs, char ** argv) {
CSolver * solver=allocCSolver();
uint64_t set1[]={0, 1, 2};
+ uint64_t setbigarray[]={0, 1, 2, 3, 4};
+
Set * s=createSet(solver, 0, set1, 3);
+ Set * setbig=createSet(solver, 0, setbigarray, 5);
Element * e1=getElementVar(solver, s);
Element * e2=getElementVar(solver, s);
Set * domain[]={s, s};
Predicate *equals=createPredicateOperator(solver, EQUALS, domain, 2);
Element * inputs[]={e1, e2};
Boolean * b=applyPredicate(solver, equals, inputs, 2);
- addBoolean(solver, b);
- Order * o=createOrder(solver, TOTAL, s);
- Boolean * oc=orderConstraint(solver, o, 1, 2);
- addBoolean(solver, oc);
-
+ addConstraint(solver, b);
+
uint64_t set2[] = {2, 3};
Set* rangef1 = createSet(solver, 1, set2, 2);
- Function * f1 = createFunctionOperator(solver, ADD, domain, 2, rangef1, IGNORE);
+ Function * f1 = createFunctionOperator(solver, ADD, domain, 2, setbig, IGNORE);
Table* table = createTable(solver, domain, 2, s);
uint64_t row1[] = {0, 1};
uint64_t row2[] = {1, 1};
uint64_t row3[] = {2, 1};
- uint64_t row4[] = {1, 2};
+ uint64_t row4[] = {2, 2};
addTableEntry(solver, table, row1, 2, 0);
- addTableEntry(solver, table, row2, 2, 1);
+ addTableEntry(solver, table, row2, 2, 0);
addTableEntry(solver, table, row3, 2, 2);
addTableEntry(solver, table, row4, 2, 2);
Function * f2 = completeTable(solver, table); //its range would be as same as s
Predicate* equal2 = createPredicateOperator(solver, EQUALS, domain2, 2);
Element* inputs2 [] = {e4, e3};
Boolean* pred = applyPredicate(solver, equal2, inputs2, 2);
- addBoolean(solver, pred);
- startEncoding(solver);
+ addConstraint(solver, pred);
+
+ if (startEncoding(solver)==1)
+ printf("e1=%llu e2=%llu\n", getElementValue(solver,e1), getElementValue(solver, e2));
+ else
+ printf("UNSAT\n");
deleteSolver(solver);
}
projects / satune.git / blobdiff