3 #include "mutableset.h"
10 #include "satencoder.h"
11 #include "sattranslator.h"
13 #include "polarityassignment.h"
14 #include "decomposeordertransform.h"
15 #include "autotuner.h"
18 #include "orderresolver.h"
19 #include "integerencoding.h"
21 #include "preprocess.h"
22 #include "serializer.h"
23 #include "deserializer.h"
24 #include "encodinggraph.h"
27 boolTrue(BooleanEdge(new BooleanConst(true))),
28 boolFalse(boolTrue.negate()),
33 satEncoder = new SATEncoder(this);
36 /** This function tears down the solver and the entire AST */
39 uint size = allBooleans.getSize();
40 for (uint i = 0; i < size; i++) {
41 delete allBooleans.get(i);
44 size = allSets.getSize();
45 for (uint i = 0; i < size; i++) {
46 delete allSets.get(i);
49 size = allElements.getSize();
50 for (uint i = 0; i < size; i++) {
51 delete allElements.get(i);
54 size = allTables.getSize();
55 for (uint i = 0; i < size; i++) {
56 delete allTables.get(i);
59 size = allPredicates.getSize();
60 for (uint i = 0; i < size; i++) {
61 delete allPredicates.get(i);
64 size = allOrders.getSize();
65 for (uint i = 0; i < size; i++) {
66 delete allOrders.get(i);
69 size = allFunctions.getSize();
70 for (uint i = 0; i < size; i++) {
71 delete allFunctions.get(i);
74 delete boolTrue.getBoolean();
78 CSolver *CSolver::clone() {
79 CSolver *copy = new CSolver();
81 SetIteratorBooleanEdge *it = getConstraints();
82 while (it->hasNext()) {
83 BooleanEdge b = it->next();
84 copy->addConstraint(cloneEdge(copy, &map, b));
90 void CSolver::serialize() {
91 model_print("serializing ...\n");
93 Serializer serializer("dump");
94 SetIteratorBooleanEdge *it = getConstraints();
95 while (it->hasNext()) {
96 BooleanEdge b = it->next();
97 serializeBooleanEdge(&serializer, b);
101 model_print("deserializing ...\n");
103 Deserializer deserializer("dump");
104 deserializer.deserialize();
109 Set *CSolver::createSet(VarType type, uint64_t *elements, uint numelements) {
110 Set *set = new Set(type, elements, numelements);
115 Set *CSolver::createRangeSet(VarType type, uint64_t lowrange, uint64_t highrange) {
116 Set *set = new Set(type, lowrange, highrange);
121 VarType CSolver::getSetVarType(Set *set){
122 return set->getType();
125 Element *CSolver::createRangeVar(VarType type, uint64_t lowrange, uint64_t highrange) {
126 Set *s = createRangeSet(type, lowrange, highrange);
127 return getElementVar(s);
130 MutableSet *CSolver::createMutableSet(VarType type) {
131 MutableSet *set = new MutableSet(type);
136 void CSolver::addItem(MutableSet *set, uint64_t element) {
137 set->addElementMSet(element);
140 uint64_t CSolver::createUniqueItem(MutableSet *set) {
141 uint64_t element = set->getNewUniqueItem();
142 set->addElementMSet(element);
146 void CSolver::finalizeMutableSet(MutableSet* set){
150 Element *CSolver::getElementVar(Set *set) {
151 Element *element = new ElementSet(set);
152 allElements.push(element);
156 Set* CSolver::getElementRange (Element* element){
157 return element->getRange();
161 Element *CSolver::getElementConst(VarType type, uint64_t value) {
162 uint64_t array[] = {value};
163 Set *set = new Set(type, array, 1);
164 Element *element = new ElementConst(value, set);
165 Element *e = elemMap.get(element);
168 allElements.push(element);
169 elemMap.put(element, element);
178 Element *CSolver::applyFunction(Function *function, Element **array, uint numArrays, BooleanEdge overflowstatus) {
179 Element *element = new ElementFunction(function,array,numArrays,overflowstatus);
180 Element *e = elemMap.get(element);
182 element->updateParents();
183 allElements.push(element);
184 elemMap.put(element, element);
192 Function *CSolver::createFunctionOperator(ArithOp op, Set **domain, uint numDomain, Set *range,OverFlowBehavior overflowbehavior) {
193 Function *function = new FunctionOperator(op, domain, numDomain, range, overflowbehavior);
194 allFunctions.push(function);
198 Predicate *CSolver::createPredicateOperator(CompOp op, Set **domain, uint numDomain) {
199 Predicate *predicate = new PredicateOperator(op, domain,numDomain);
200 allPredicates.push(predicate);
204 Predicate *CSolver::createPredicateTable(Table *table, UndefinedBehavior behavior) {
205 Predicate *predicate = new PredicateTable(table, behavior);
206 allPredicates.push(predicate);
210 Table *CSolver::createTable(Set **domains, uint numDomain, Set *range) {
211 Table *table = new Table(domains,numDomain,range);
212 allTables.push(table);
216 Table *CSolver::createTableForPredicate(Set **domains, uint numDomain) {
217 return createTable(domains, numDomain, NULL);
220 void CSolver::addTableEntry(Table *table, uint64_t *inputs, uint inputSize, uint64_t result) {
221 table->addNewTableEntry(inputs, inputSize, result);
224 Function *CSolver::completeTable(Table *table, UndefinedBehavior behavior) {
225 Function *function = new FunctionTable(table, behavior);
226 allFunctions.push(function);
230 BooleanEdge CSolver::getBooleanVar(VarType type) {
231 Boolean *boolean = new BooleanVar(type);
232 allBooleans.push(boolean);
233 return BooleanEdge(boolean);
236 BooleanEdge CSolver::getBooleanTrue() {
240 BooleanEdge CSolver::getBooleanFalse() {
244 BooleanEdge CSolver::applyPredicate(Predicate *predicate, Element **inputs, uint numInputs) {
245 return applyPredicateTable(predicate, inputs, numInputs, BooleanEdge(NULL));
248 BooleanEdge CSolver::applyPredicateTable(Predicate *predicate, Element **inputs, uint numInputs, BooleanEdge undefinedStatus) {
249 BooleanPredicate *boolean = new BooleanPredicate(predicate, inputs, numInputs, undefinedStatus);
250 Boolean *b = boolMap.get(boolean);
252 boolean->updateParents();
253 boolMap.put(boolean, boolean);
254 allBooleans.push(boolean);
255 return BooleanEdge(boolean);
258 return BooleanEdge(b);
262 bool CSolver::isTrue(BooleanEdge b) {
263 return b.isNegated()?b->isFalse():b->isTrue();
266 bool CSolver::isFalse(BooleanEdge b) {
267 return b.isNegated()?b->isTrue():b->isFalse();
270 BooleanEdge CSolver::applyLogicalOperation(LogicOp op, BooleanEdge arg1, BooleanEdge arg2) {
271 BooleanEdge array[] = {arg1, arg2};
272 return applyLogicalOperation(op, array, 2);
275 BooleanEdge CSolver::applyLogicalOperation(LogicOp op, BooleanEdge arg) {
276 BooleanEdge array[] = {arg};
277 return applyLogicalOperation(op, array, 1);
280 static int ptrcompares(const void *p1, const void *p2) {
281 uintptr_t b1 = *(uintptr_t const *) p1;
282 uintptr_t b2 = *(uintptr_t const *) p2;
291 BooleanEdge CSolver::rewriteLogicalOperation(LogicOp op, BooleanEdge * array, uint asize) {
292 BooleanEdge newarray[asize];
293 memcpy(newarray, array, asize * sizeof(BooleanEdge));
294 for(uint i=0; i < asize; i++) {
295 BooleanEdge b=newarray[i];
296 if (b->type == LOGICOP) {
297 if (((BooleanLogic *) b.getBoolean())->replaced) {
298 newarray[i] = doRewrite(newarray[i]);
303 return applyLogicalOperation(op, newarray, asize);
306 BooleanEdge CSolver::applyLogicalOperation(LogicOp op, BooleanEdge *array, uint asize) {
307 BooleanEdge newarray[asize];
310 return array[0].negate();
313 for (uint i = 0; i < 2; i++) {
314 if (array[i]->type == BOOLCONST) {
315 if (array[i]->isTrue()) {
318 newarray[0] = array[1 - i];
319 return applyLogicalOperation(SATC_NOT, newarray, 1);
321 } else if (array[i]->type == LOGICOP) {
322 BooleanLogic *b =(BooleanLogic *)array[i].getBoolean();
324 return rewriteLogicalOperation(op, array, asize);
331 for (uint i =0; i <asize; i++) {
332 newarray[i] = applyLogicalOperation(SATC_NOT, array[i]);
334 return applyLogicalOperation(SATC_NOT, applyLogicalOperation(SATC_AND, newarray, asize));
338 for (uint i = 0; i < asize; i++) {
339 BooleanEdge b = array[i];
340 if (b->type == LOGICOP) {
341 if (((BooleanLogic *)b.getBoolean())->replaced)
342 return rewriteLogicalOperation(op, array, asize);
344 if (b->type == BOOLCONST) {
350 newarray[newindex++] = b;
354 } else if (newindex == 1) {
357 bsdqsort(newarray, newindex, sizeof(BooleanEdge), ptrcompares);
364 //handle by translation
365 return applyLogicalOperation(SATC_NOT, applyLogicalOperation(SATC_IFF, array, asize));
368 //handle by translation
369 return applyLogicalOperation(SATC_OR, applyLogicalOperation(SATC_NOT, array[0]), array[1]);
374 Boolean *boolean = new BooleanLogic(this, op, array, asize);
375 Boolean *b = boolMap.get(boolean);
377 boolean->updateParents();
378 boolMap.put(boolean, boolean);
379 allBooleans.push(boolean);
380 return BooleanEdge(boolean);
383 return BooleanEdge(b);
387 BooleanEdge CSolver::orderConstraint(Order *order, uint64_t first, uint64_t second) {
388 Boolean *constraint = new BooleanOrder(order, first, second);
389 allBooleans.push(constraint);
390 return BooleanEdge(constraint);
393 void CSolver::addConstraint(BooleanEdge constraint) {
394 if (isTrue(constraint))
396 else if (isFalse(constraint))
399 if (constraint->type == LOGICOP) {
400 BooleanLogic *b=(BooleanLogic *) constraint.getBoolean();
401 if (!constraint.isNegated()) {
402 if (b->op==SATC_AND) {
403 for(uint i=0;i<b->inputs.getSize();i++) {
404 addConstraint(b->inputs.get(i));
410 addConstraint(doRewrite(constraint));
414 constraints.add(constraint);
415 Boolean *ptr=constraint.getBoolean();
417 if (ptr->boolVal == BV_UNSAT)
420 replaceBooleanWithTrueNoRemove(constraint);
421 constraint->parents.clear();
425 Order *CSolver::createOrder(OrderType type, Set *set) {
426 Order *order = new Order(type, set);
427 allOrders.push(order);
428 activeOrders.add(order);
432 int CSolver::solve() {
433 bool deleteTuner = false;
435 tuner = new DefaultTuner();
439 long long startTime = getTimeNano();
440 computePolarities(this);
442 // Preprocess pp(this);
445 DecomposeOrderTransform dot(this);
448 IntegerEncodingTransform iet(this);
451 // EncodingGraph eg(this);
455 naiveEncodingDecision(this);
456 satEncoder->encodeAllSATEncoder(this);
457 int result = unsat ? IS_UNSAT : satEncoder->solve();
458 long long finishTime = getTimeNano();
459 elapsedTime = finishTime - startTime;
467 uint64_t CSolver::getElementValue(Element *element) {
468 switch (element->type) {
472 return getElementValueSATTranslator(this, element);
479 bool CSolver::getBooleanValue(BooleanEdge bedge) {
480 Boolean *boolean=bedge.getBoolean();
481 switch (boolean->type) {
483 return getBooleanVariableValueSATTranslator(this, boolean);
490 bool CSolver::getOrderConstraintValue(Order *order, uint64_t first, uint64_t second) {
491 return order->encoding.resolver->resolveOrder(first, second);
494 long long CSolver::getEncodeTime() { return satEncoder->getEncodeTime(); }
496 long long CSolver::getSolveTime() { return satEncoder->getSolveTime(); }
498 void CSolver::autoTune(uint budget) {
499 AutoTuner *autotuner = new AutoTuner(budget);
500 autotuner->addProblem(this);