* Result: e1=6, e2=4, e7=2
*/
int main(int numargs, char **argv) {
- CSolver *solver = allocCSolver();
+ CSolver *solver = new CSolver();
uint64_t set1[] = {6};
uint64_t set2[] = {4, 2};
uint64_t set3[] = {3, 1};
uint64_t set4[] = {2, 3, 1};
uint64_t set5[] = {2, 1, 0};
- Set *s1 = createSet(solver, 0, set1, 1);
- Set *s2 = createSet(solver, 0, set2, 2);
- Set *s3 = createSet(solver, 0, set3, 2);
- Set *s4 = createSet(solver, 0, set4, 3);
- Set *s5 = createSet(solver, 0, set5, 3);
- Element *e1 = getElementVar(solver, s1);
- Element *e2 = getElementVar(solver, s2);
- Element *e7 = getElementVar(solver, s5);
- Boolean *overflow = getBooleanVar(solver, 2);
+ Set *s1 = solver->createSet(0, set1, 1);
+ Set *s2 = solver->createSet(0, set2, 2);
+ Set *s3 = solver->createSet(0, set3, 2);
+ Set *s4 = solver->createSet(0, set4, 3);
+ Set *s5 = solver->createSet(0, set5, 3);
+ Element *e1 = solver->getElementVar(s1);
+ Element *e2 = solver->getElementVar(s2);
+ Element *e7 = solver->getElementVar(s5);
+ BooleanEdge overflow = solver->getBooleanVar(2);
Set *d1[] = {s1, s2};
//change the overflow flag
- Function *f1 = createFunctionOperator(solver, SUB, d1, 2, s2, IGNORE);
+ Function *f1 = solver->createFunctionOperator(SATC_SUB, d1, 2, s2, SATC_IGNORE);
Element *in1[] = {e1, e2};
- Element *e3 = applyFunction(solver, f1, in1, 2, overflow);
- Table *t1 = createTable(solver, d1, 2, s3);
+ Element *e3 = solver->applyFunction(f1, in1, 2, overflow);
+ Table *t1 = solver->createTable(d1, 2, s3);
uint64_t row1[] = {6, 2};
uint64_t row2[] = {6, 4};
- addTableEntry(solver, t1, row1, 2, 3);
- addTableEntry(solver, t1, row2, 2, 1);
- Function *f2 = completeTable(solver, t1, IGNOREBEHAVIOR);
- Element *e4 = applyFunction(solver, f2, in1, 2, overflow);
+ solver->addTableEntry(t1, row1, 2, 3);
+ solver->addTableEntry(t1, row2, 2, 1);
+ Function *f2 = solver->completeTable(t1, SATC_IGNOREBEHAVIOR);
+ Element *e4 = solver->applyFunction(f2, in1, 2, overflow);
Set *d2[] = {s1};
Element *in2[] = {e1};
- Table *t2 = createTable(solver, d2, 1, s1);
+ Table *t2 = solver->createTable(d2, 1, s1);
uint64_t row3[] = {6};
- addTableEntry(solver, t2, row3, 1, 6);
- Function *f3 = completeTable(solver, t2, IGNOREBEHAVIOR);
- Element *e5 = applyFunction(solver, f3, in2, 1, overflow);
+ solver->addTableEntry(t2, row3, 1, 6);
+ Function *f3 = solver->completeTable(t2, SATC_IGNOREBEHAVIOR);
+ Element *e5 = solver->applyFunction(f3, in2, 1, overflow);
Set *d3[] = {s2, s3, s1};
Element *in3[] = {e3, e4, e5};
- Table *t3 = createTable(solver, d3, 3, s4);
+ Table *t3 = solver->createTable(d3, 3, s4);
uint64_t row4[] = {4, 3, 6};
uint64_t row5[] = {2, 1, 6};
uint64_t row6[] = {2, 3, 6};
uint64_t row7[] = {4, 1, 6};
- addTableEntry(solver, t3, row4, 3, 3);
- addTableEntry(solver, t3, row5, 3, 1);
- addTableEntry(solver, t3, row6, 3, 2);
- addTableEntry(solver, t3, row7, 3, 1);
- Function *f4 = completeTable(solver, t3, IGNOREBEHAVIOR);
- Element *e6 = applyFunction(solver, f4, in3, 3, overflow);
+ solver->addTableEntry(t3, row4, 3, 3);
+ solver->addTableEntry(t3, row5, 3, 1);
+ solver->addTableEntry(t3, row6, 3, 2);
+ solver->addTableEntry(t3, row7, 3, 1);
+ Function *f4 = solver->completeTable(t3, SATC_IGNOREBEHAVIOR);
+ Element *e6 = solver->applyFunction(f4, in3, 3, overflow);
Set *deq[] = {s5,s4};
- Predicate *gt = createPredicateOperator(solver, GT, deq, 2);
+ Predicate *gt = solver->createPredicateOperator(SATC_GT, deq, 2);
Element *inputs2 [] = {e7, e6};
- Boolean *pred = applyPredicate(solver, gt, inputs2, 2);
- addConstraint(solver, pred);
+ BooleanEdge pred = solver->applyPredicate(gt, inputs2, 2);
+ solver->addConstraint(pred);
+ solver->serialize();
- if (startEncoding(solver) == 1)
- printf("e1=%llu e2=%llu e7=%llu\n",
- getElementValue(solver,e1), getElementValue(solver, e2), getElementValue(solver, e7));
+ if (solver->solve() == 1)
+ printf("e1=%" PRIu64 " e2=%" PRIu64 " e7=%" PRIu64 "\n",
+ solver->getElementValue(e1), solver->getElementValue(e2), solver->getElementValue(e7));
else
printf("UNSAT\n");
- deleteSolver(solver);
+ delete solver;
}