1 #include "integerencoding.h"
4 #include "satencoder.h"
6 #include "integerencodingrecord.h"
7 #include "integerencorderresolver.h"
9 #include "polarityassignment.h"
11 IntegerEncodingTransform::IntegerEncodingTransform(CSolver *_solver)
16 IntegerEncodingTransform::~IntegerEncodingTransform() {
19 void IntegerEncodingTransform::doTransform() {
20 if (solver->isUnSAT()) {
23 HashsetOrder *orders = solver->getActiveOrders()->copy();
24 SetIteratorOrder *orderit = orders->iterator();
25 while (orderit->hasNext()) {
26 Order *order = orderit->next();
27 if (GETVARTUNABLE(solver->getTuner(), order->type, ORDERINTEGERENCODING, &offon))
34 void IntegerEncodingTransform::integerEncode(Order *currOrder) {
35 IntegerEncodingRecord *encodingRecord = new IntegerEncodingRecord(
36 solver->createRangeSet(currOrder->set->getType(), 0, (uint64_t) currOrder->set->getSize() - 1));
37 currOrder->setOrderEncodingType( INTEGERENCODING );
38 uint size = currOrder->constraints.getSize();
39 for (uint i = 0; i < size; i++) {
40 orderIntegerEncodingSATEncoder(currOrder->constraints.get(i), encodingRecord);
42 currOrder->setOrderResolver(new IntegerEncOrderResolver(solver, encodingRecord));
43 solver->getActiveOrders()->remove(currOrder);
47 void IntegerEncodingTransform::orderIntegerEncodingSATEncoder(BooleanOrder *boolOrder, IntegerEncodingRecord *ierec) {
48 //getting two elements and using LT predicate ...
49 Element *elem1 = ierec->getOrderIntegerElement(solver, boolOrder->first);
50 Element *elem2 = ierec->getOrderIntegerElement(solver, boolOrder->second);
51 Predicate *predicate = solver->createPredicateOperator(SATC_LT);
52 Element *parray[] = {elem1, elem2};
53 BooleanEdge boolean = solver->applyPredicate(predicate, parray, 2);
54 updateEdgePolarity(boolean, boolOrder);
55 solver->replaceBooleanWithBoolean(boolOrder, boolean);