#include "sattranslator.h"
#include "tunable.h"
#include "polarityassignment.h"
-#include "orderdecompose.h"
+#include "analyzer.h"
#include "autotuner.h"
+#include "astops.h"
+#include "structs.h"
CSolver::CSolver() :
+ boolTrue(new BooleanConst(true)),
+ boolFalse(new BooleanConst(false)),
unsat(false),
tuner(NULL),
elapsedTime(0)
delete allFunctions.get(i);
}
+ delete boolTrue;
+ delete boolFalse;
delete satEncoder;
}
CSolver *CSolver::clone() {
CSolver *copy = new CSolver();
CloneMap map;
- HSIteratorBoolean *it = getConstraints();
+ SetIteratorBoolean *it = getConstraints();
while (it->hasNext()) {
Boolean *b = it->next();
copy->addConstraint(b->clone(copy, &map));
}
uint64_t CSolver::createUniqueItem(MutableSet *set) {
- uint64_t element = set->low++;
+ uint64_t element = set->getNewUniqueItem();
set->addElementMSet(element);
return element;
}
Element *CSolver::getElementConst(VarType type, uint64_t value) {
uint64_t array[] = {value};
Set *set = new Set(type, array, 1);
- allSets.push(set);
Element *element = new ElementConst(value, type, set);
- allElements.push(element);
- return element;
+ Element *e = elemMap.get(element);
+ if (e == NULL) {
+ allSets.push(set);
+ allElements.push(element);
+ elemMap.put(element, element);
+ return element;
+ } else {
+ delete set;
+ delete element;
+ return e;
+ }
}
-Boolean *CSolver::getBooleanVar(VarType type) {
- Boolean *boolean = new BooleanVar(type);
- allBooleans.push(boolean);
- return boolean;
+Element *CSolver::applyFunction(Function *function, Element **array, uint numArrays, Boolean *overflowstatus) {
+ Element *element = new ElementFunction(function,array,numArrays,overflowstatus);
+ Element *e = elemMap.get(element);
+ if (e == NULL) {
+ allElements.push(element);
+ elemMap.put(element, element);
+ return element;
+ } else {
+ delete element;
+ return e;
+ }
}
Function *CSolver::createFunctionOperator(ArithOp op, Set **domain, uint numDomain, Set *range,OverFlowBehavior overflowbehavior) {
return function;
}
-Element *CSolver::applyFunction(Function *function, Element **array, uint numArrays, Boolean *overflowstatus) {
- Element *element = new ElementFunction(function,array,numArrays,overflowstatus);
- allElements.push(element);
- return element;
+Boolean *CSolver::getBooleanVar(VarType type) {
+ Boolean *boolean = new BooleanVar(type);
+ allBooleans.push(boolean);
+ return boolean;
+}
+
+Boolean *CSolver::getBooleanTrue() {
+ return boolTrue;
+}
+
+Boolean *CSolver::getBooleanFalse() {
+ return boolFalse;
}
Boolean *CSolver::applyPredicate(Predicate *predicate, Element **inputs, uint numInputs) {
Boolean *CSolver::applyPredicateTable(Predicate *predicate, Element **inputs, uint numInputs, Boolean *undefinedStatus) {
BooleanPredicate *boolean = new BooleanPredicate(predicate, inputs, numInputs, undefinedStatus);
- allBooleans.push(boolean);
- return boolean;
+ Boolean * b = boolMap.get(boolean);
+ if (b == NULL) {
+ boolMap.put(boolean, boolean);
+ allBooleans.push(boolean);
+ return boolean;
+ } else {
+ delete boolean;
+ return b;
+ }
}
Boolean *CSolver::applyLogicalOperation(LogicOp op, Boolean **array, uint asize) {
+ Boolean * newarray[asize];
+ switch(op) {
+ case SATC_NOT: {
+ if (array[0]->type == LOGICOP && ((BooleanLogic *)array[0])->op==SATC_NOT) {
+ return ((BooleanLogic *) array[0])->inputs.get(0);
+ } else if (array[0]->type == BOOLCONST) {
+ bool isTrue = ((BooleanConst *) array[0])->isTrue;
+ return isTrue ? boolFalse : boolTrue;
+ }
+ break;
+ }
+ case SATC_XOR: {
+ for(uint i=0;i<2;i++) {
+ if (array[i]->type == BOOLCONST) {
+ bool isTrue = ((BooleanConst *) array[i])->isTrue;
+ if (isTrue) {
+ newarray[0]=array[1-i];
+ return applyLogicalOperation(SATC_NOT, newarray, 1);
+ } else
+ return array[1-i];
+ }
+ }
+ break;
+ }
+ case SATC_OR: {
+ uint newindex=0;
+ for(uint i=0;i<asize;i++) {
+ Boolean *b=array[i];
+ if (b->type == BOOLCONST) {
+ bool isTrue = ((BooleanConst *) b)->isTrue;
+ if (isTrue)
+ return b;
+ else
+ continue;
+ } else
+ newarray[newindex++]=b;
+ }
+ if (newindex==1)
+ return newarray[0];
+ else if (newindex == 2) {
+ bool isNot0 = (newarray[0]->type==BOOLCONST) && ((BooleanLogic *)newarray[0])->op == SATC_NOT;
+ bool isNot1 = (newarray[1]->type==BOOLCONST) && ((BooleanLogic *)newarray[1])->op == SATC_NOT;
+
+ if (isNot0 != isNot1) {
+ if (isNot0) {
+ newarray[0] = ((BooleanLogic *) newarray[0])->inputs.get(0);
+ } else {
+ Boolean *tmp = ((BooleanLogic *) array[1])->inputs.get(0);
+ array[1] = array[0];
+ array[0] = tmp;
+ }
+ return applyLogicalOperation(SATC_IMPLIES, newarray, 2);
+ }
+ } else {
+ array = newarray;
+ asize = newindex;
+ }
+ break;
+ }
+ case SATC_AND: {
+ uint newindex=0;
+ for(uint i=0;i<asize;i++) {
+ Boolean *b=array[i];
+ if (b->type == BOOLCONST) {
+ bool isTrue = ((BooleanConst *) b)->isTrue;
+ if (isTrue)
+ continue;
+ else
+ return b;
+ } else
+ newarray[newindex++]=b;
+ }
+ if(newindex==1) {
+ return newarray[0];
+ } else {
+ array = newarray;
+ asize = newindex;
+ }
+ break;
+ }
+ case SATC_IMPLIES: {
+ if (array[0]->type == BOOLCONST) {
+ BooleanConst *b=(BooleanConst *) array[0];
+ if (b->isTrue) {
+ return array[1];
+ } else {
+ return boolTrue;
+ }
+ } else if (array[1]->type == BOOLCONST) {
+ BooleanConst *b=(BooleanConst *) array[0];
+ if (b->isTrue) {
+ return b;
+ } else {
+ return applyLogicalOperation(SATC_NOT, array, 1);
+ }
+ }
+ break;
+ }
+ }
+
Boolean *boolean = new BooleanLogic(this, op, array, asize);
- allBooleans.push(boolean);
- return boolean;
+ Boolean *b = boolMap.get(boolean);
+ if (b == NULL) {
+ boolMap.put(boolean, boolean);
+ allBooleans.push(boolean);
+ return boolean;
+ } else {
+ delete boolean;
+ return b;
+ }
+}
+
+Boolean *CSolver::orderConstraint(Order *order, uint64_t first, uint64_t second) {
+ Boolean *constraint = new BooleanOrder(order, first, second);
+ allBooleans.push(constraint);
+ return constraint;
}
void CSolver::addConstraint(Boolean *constraint) {
- constraints.add(constraint);
+ if (constraint == boolTrue)
+ return;
+ else if (constraint == boolFalse)
+ setUnSAT();
+ else
+ constraints.add(constraint);
}
Order *CSolver::createOrder(OrderType type, Set *set) {
return order;
}
-Boolean *CSolver::orderConstraint(Order *order, uint64_t first, uint64_t second) {
- Boolean *constraint = new BooleanOrder(order, first, second);
- allBooleans.push(constraint);
- return constraint;
-}
-
int CSolver::startEncoding() {
bool deleteTuner = false;
if (tuner == NULL) {
}
uint64_t CSolver::getElementValue(Element *element) {
- switch (GETELEMENTTYPE(element)) {
+ switch (element->type) {
case ELEMSET:
case ELEMCONST:
case ELEMFUNCRETURN:
}
bool CSolver::getBooleanValue(Boolean *boolean) {
- switch (GETBOOLEANTYPE(boolean)) {
+ switch (boolean->type) {
case BOOLEANVAR:
return getBooleanVariableValueSATTranslator(this, boolean);
default: