#include "csolver.h"
#include "element.h"
#include "order.h"
+#include "predicate.h"
-Boolean::Boolean(ASTNodeType _type) : ASTNode(_type), polarity(P_UNDEFINED), boolVal(BV_UNDEFINED) {
- initDefVectorBoolean(GETBOOLEANPARENTS(this));
+Boolean::Boolean(ASTNodeType _type) :
+ ASTNode(_type),
+ polarity(P_UNDEFINED),
+ boolVal(BV_UNDEFINED),
+ parents() {
}
-BooleanVar::BooleanVar(VarType t) : Boolean(BOOLEANVAR), vtype(t), var(E_NULL) {
+BooleanConst::BooleanConst(bool _isTrue) :
+ Boolean(BOOLCONST),
+ istrue(_isTrue) {
}
-BooleanOrder::BooleanOrder(Order *_order, uint64_t _first, uint64_t _second) : Boolean(ORDERCONST), order(_order), first(_first), second(_second) {
- pushVectorBooleanOrder(&order->constraints, this);
+BooleanVar::BooleanVar(VarType t) :
+ Boolean(BOOLEANVAR),
+ vtype(t),
+ var(E_NULL) {
}
-BooleanPredicate::BooleanPredicate(Predicate *_predicate, Element **_inputs, uint _numInputs, Boolean *_undefinedStatus) :
+BooleanOrder::BooleanOrder(Order *_order, uint64_t _first, uint64_t _second) :
+ Boolean(ORDERCONST),
+ order(_order),
+ first(_first),
+ second(_second) {
+}
+
+void BooleanOrder::updateParents() {
+ order->constraints.push(this);
+}
+
+BooleanPredicate::BooleanPredicate(Predicate *_predicate, Element **_inputs, uint _numInputs, BooleanEdge _undefinedStatus) :
Boolean(PREDICATEOP),
predicate(_predicate),
+ encoding(this),
inputs(_inputs, _numInputs),
undefStatus(_undefinedStatus) {
- for (uint i = 0; i < _numInputs; i++) {
- pushVectorASTNode(GETELEMENTPARENTS(_inputs[i]), this);
- }
- initPredicateEncoding(&encoding, this);
}
-BooleanLogic::BooleanLogic(CSolver *solver, LogicOp _op, Boolean **array, uint asize) :
+BooleanLogic::BooleanLogic(CSolver *solver, LogicOp _op, BooleanEdge *array, uint asize) :
Boolean(LOGICOP),
op(_op),
+ replaced(false),
inputs(array, asize) {
- pushVectorBoolean(solver->allBooleans, (Boolean *) this);
}
-Boolean::~Boolean() {
- deleteVectorArrayBoolean(GETBOOLEANPARENTS(this));
+BooleanEdge cloneEdge(CSolver *solver, CloneMap *map, BooleanEdge e) {
+ bool isnegated = e.isNegated();
+ Boolean *b = e->clone(solver, map);
+ BooleanEdge be = BooleanEdge(b);
+ return isnegated ? be.negate() : be;
+}
+
+Boolean *BooleanConst::clone(CSolver *solver, CloneMap *map) {
+ return solver->getBooleanTrue().getRaw();
+}
+
+Boolean *BooleanVar::clone(CSolver *solver, CloneMap *map) {
+ Boolean *b = (Boolean *) map->get(this);
+ if (b != NULL)
+ return b;
+ BooleanEdge bvar = solver->getBooleanVar(type);
+ Boolean *base = bvar.getRaw();
+ map->put(this, base);
+ return base;
+}
+
+Boolean *BooleanOrder::clone(CSolver *solver, CloneMap *map) {
+ Order *ordercopy = order->clone(solver, map);
+ return solver->orderConstraint(ordercopy, first, second).getRaw();
+}
+
+Boolean *BooleanLogic::clone(CSolver *solver, CloneMap *map) {
+ BooleanEdge array[inputs.getSize()];
+ for (uint i = 0; i < inputs.getSize(); i++) {
+ array[i] = cloneEdge(solver, map, inputs.get(i));
+ }
+ return solver->applyLogicalOperation(op, array, inputs.getSize()).getRaw();
+}
+
+Boolean *BooleanPredicate::clone(CSolver *solver, CloneMap *map) {
+ Element *array[inputs.getSize()];
+ for (uint i = 0; i < inputs.getSize(); i++) {
+ array[i] = inputs.get(i)->clone(solver, map);
+ }
+ Predicate *pred = predicate->clone(solver, map);
+ BooleanEdge defstatus = undefStatus ? cloneEdge(solver, map, undefStatus) : BooleanEdge();
+
+ return solver->applyPredicateTable(pred, array, inputs.getSize(), defstatus).getRaw();
+}
+
+void BooleanPredicate::updateParents() {
+ for (uint i = 0; i < inputs.getSize(); i++) inputs.get(i)->parents.push(this);
+ if (undefStatus)
+ undefStatus->parents.push(this);
+}
+
+void BooleanLogic::updateParents() {
+ for (uint i = 0; i < inputs.getSize(); i++) inputs.get(i)->parents.push(this);
+}
+
+void BooleanVar::serialize(Serializer *serializer) {
+ if (serializer->isSerialized(this))
+ return;
+ serializer->addObject(this);
+ serializer->mywrite(&type, sizeof(ASTNodeType));
+ BooleanVar *This = this;
+ serializer->mywrite(&This, sizeof(BooleanVar *));
+ serializer->mywrite(&vtype, sizeof(VarType));
}
-BooleanPredicate::~BooleanPredicate() {
- deleteFunctionEncoding(&encoding);
+void BooleanVar::print() {
+ model_print("BooleanVar<%p>\n", this);
}
+
+void BooleanConst::print() {
+ model_print("BooleanConst<%p>:%s\n", this, istrue ? "TRUE" : "FALSE");
+}
+
+void BooleanOrder::serialize(Serializer *serializer) {
+ if (serializer->isSerialized(this))
+ return;
+ serializer->addObject(this);
+ order->serialize(serializer);
+
+ serializer->mywrite(&type, sizeof(ASTNodeType));
+ BooleanOrder *This = this;
+ serializer->mywrite(&This, sizeof(BooleanOrder *));
+ serializer->mywrite(&order, sizeof(Order *));
+ serializer->mywrite(&first, sizeof(uint64_t));
+ serializer->mywrite(&second, sizeof(uint64_t));
+}
+
+void BooleanOrder::print() {
+ model_print("{BooleanOrder<%p>: First= %lu, Second = %lu on Order:\n", this, first, second);
+ order->print();
+ model_print("}\n");
+}
+
+void BooleanPredicate::serialize(Serializer *serializer) {
+ if (serializer->isSerialized(this))
+ return;
+ serializer->addObject(this);
+
+ predicate->serialize(serializer);
+ uint size = inputs.getSize();
+ for (uint i = 0; i < size; i++) {
+ Element *input = inputs.get(i);
+ input->serialize(serializer);
+ }
+ serializeBooleanEdge(serializer, undefStatus);
+
+ serializer->mywrite(&type, sizeof(ASTNodeType));
+ BooleanPredicate *This = this;
+ serializer->mywrite(&This, sizeof(BooleanPredicate *));
+ serializer->mywrite(&predicate, sizeof(Predicate *));
+ serializer->mywrite(&size, sizeof(uint));
+ for (uint i = 0; i < size; i++) {
+ Element *input = inputs.get(i);
+ serializer->mywrite(&input, sizeof(Element *));
+ }
+ Boolean *undefStat = undefStatus != BooleanEdge(NULL) ? undefStatus.getRaw() : NULL;
+ serializer->mywrite(&undefStat, sizeof(Boolean *));
+}
+
+void BooleanPredicate::print() {
+ model_print("{BooleanPredicate<%p>:\n", this);
+ predicate->print();
+ model_print("elements:\n");
+ uint size = inputs.getSize();
+ for (uint i = 0; i < size; i++) {
+ Element *input = inputs.get(i);
+ input->print();
+ }
+ model_print("}\n");
+}
+
+void BooleanLogic::serialize(Serializer *serializer) {
+ if (serializer->isSerialized(this))
+ return;
+ serializer->addObject(this);
+ uint size = inputs.getSize();
+ for (uint i = 0; i < size; i++) {
+ BooleanEdge input = inputs.get(i);
+ serializeBooleanEdge(serializer, input);
+ }
+ serializer->mywrite(&type, sizeof(ASTNodeType));
+ BooleanLogic *This = this;
+ serializer->mywrite(&This, sizeof(BooleanLogic *));
+ serializer->mywrite(&op, sizeof(LogicOp));
+ serializer->mywrite(&size, sizeof(uint));
+ for (uint i = 0; i < size; i++) {
+ Boolean *input = inputs.get(i).getRaw();
+ serializer->mywrite(&input, sizeof(Boolean *));
+ }
+}
+
+void BooleanLogic::print() {
+ model_print("{BooleanLogic<%p>: %s\n", this,
+ op == SATC_AND ? "AND" : op == SATC_OR ? "OR" : op == SATC_NOT ? "NOT" :
+ op == SATC_XOR ? "XOR" : op == SATC_IFF ? "IFF" : "IMPLIES");
+ uint size = inputs.getSize();
+ for (uint i = 0; i < size; i++) {
+ BooleanEdge input = inputs.get(i);
+ if (input.isNegated())
+ model_print("!");
+ input.getBoolean()->print();
+ }
+ model_print("}\n");
+}
+