set(s) {
}
+ElementSet::ElementSet(ASTNodeType _type, Set *s) :
+ Element(_type),
+ set(s) {
+}
+
ElementFunction::ElementFunction(Function *_function, Element **array, uint numArrays, BooleanEdge _overflowstatus) :
Element(ELEMFUNCRETURN),
- function(_function),
inputs(array, numArrays),
overflowstatus(_overflowstatus),
- functionencoding(this) {
+ functionencoding(this),
+ function(_function) {
}
-ElementConst::ElementConst(uint64_t _value, VarType _type, Set *_set) :
- Element(ELEMCONST),
- set(_set),
+ElementConst::ElementConst(uint64_t _value, Set *_set) :
+ ElementSet(ELEMCONST, _set),
value(_value) {
}
-Set *getElementSet(Element *This) {
- switch (This->type) {
- case ELEMSET:
- return ((ElementSet *)This)->set;
- case ELEMCONST:
- return ((ElementConst *)This)->set;
- case ELEMFUNCRETURN: {
- Function *func = ((ElementFunction *)This)->function;
- switch (func->type) {
- case TABLEFUNC:
- return ((FunctionTable *)func)->table->range;
- case OPERATORFUNC:
- return ((FunctionOperator *)func)->range;
- default:
- ASSERT(0);
- }
- }
- default:
- ASSERT(0);
- }
- ASSERT(0);
- return NULL;
-}
-
Element *ElementConst::clone(CSolver *solver, CloneMap *map) {
return solver->getElementConst(type, value);
}
if (e != NULL)
return e;
e = solver->getElementVar(set->clone(solver, map));
- map->put(e, e);
+ map->put(this, e);
return e;
}
for (uint i = 0; i < inputs.getSize(); i++) {
array[i] = inputs.get(i)->clone(solver, map);
}
- Element *e = solver->applyFunction(function->clone(solver, map), array, inputs.getSize(), overflowstatus->clone(solver, map));
+ BooleanEdge ofstatus = overflowstatus ? cloneEdge(solver, map, overflowstatus) : BooleanEdge();
+ Element *e = solver->applyFunction(function->clone(solver, map), array, inputs.getSize(), ofstatus);
return e;
}
void ElementFunction::updateParents() {
- for(uint i=0;i < inputs.getSize(); i++) inputs.get(i)->parents.push(this);
+ for (uint i = 0; i < inputs.getSize(); i++) inputs.get(i)->parents.push(this);
+}
+
+Set *ElementFunction::getRange() {
+ return function->getRange();
+}
+
+void ElementSet::serialize(Serializer *serializer) {
+ if (serializer->isSerialized(this))
+ return;
+ serializer->addObject(this);
+
+ set->serialize(serializer);
+
+ serializer->mywrite(&type, sizeof(ASTNodeType));
+ ElementSet *This = this;
+ serializer->mywrite(&This, sizeof(ElementSet *));
+ serializer->mywrite(&set, sizeof(Set *));
+}
+
+void ElementSet::print() {
+ model_print("{ElementSet<%p>:", this);
+ set->print();
+ model_print(" %p ", this);
+ getElementEncoding()->print();
+ model_print("}");
+}
+
+void ElementConst::serialize(Serializer *serializer) {
+ if (serializer->isSerialized(this))
+ return;
+ serializer->addObject(this);
+
+ set->serialize(serializer);
+
+ serializer->mywrite(&type, sizeof(ASTNodeType));
+ ElementSet *This = this;
+ serializer->mywrite(&This, sizeof(ElementSet *));
+ VarType type = set->getType();
+ serializer->mywrite(&type, sizeof(VarType));
+ serializer->mywrite(&value, sizeof(uint64_t));
+}
+
+void ElementConst::print() {
+ model_print("{ElementConst<%p>: %" PRIu64 "}\n", this, value);
+}
+
+void ElementFunction::serialize(Serializer *serializer) {
+ if (serializer->isSerialized(this))
+ return;
+ serializer->addObject(this);
+
+ function->serialize(serializer);
+ uint size = inputs.getSize();
+ for (uint i = 0; i < size; i++) {
+ Element *input = inputs.get(i);
+ input->serialize(serializer);
+ }
+ serializeBooleanEdge(serializer, overflowstatus);
+
+ serializer->mywrite(&type, sizeof(ASTNodeType));
+ ElementFunction *This = this;
+ serializer->mywrite(&This, sizeof(ElementFunction *));
+ serializer->mywrite(&function, sizeof(Function *));
+ serializer->mywrite(&size, sizeof(uint));
+ for (uint i = 0; i < size; i++) {
+ Element *input = inputs.get(i);
+ serializer->mywrite(&input, sizeof(Element *));
+ }
+ Boolean *overflowstat = overflowstatus.getRaw();
+ serializer->mywrite(&overflowstat, sizeof(Boolean *));
+}
+
+void ElementFunction::print() {
+ model_print("{ElementFunction<%p>:\n", this);
+ function->print();
+ model_print("OverFlow Boolean Flag:\n");
+ overflowstatus.getBoolean()->print();
+ model_print("Range:\n");
+ getRange()->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");
}