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/********************* */
/** expr_template.cpp
** Original author: dejan
** Major contributors: mdeters
** Minor contributors (to current version): cconway, taking
** This file is part of the CVC4 prototype.
** Copyright (c) 2009, 2010 The Analysis of Computer Systems Group (ACSys)
** Courant Institute of Mathematical Sciences
** New York University
** See the file COPYING in the top-level source directory for licensing
** information.
**
** Public-facing expression interface, implementation.
**/
#include "expr/expr.h"
#include "expr/node.h"
#include "util/Assert.h"
#include "util/output.h"
#include "expr/expr_manager_scope.h"
${includes}
// This is a hack, but an important one: if there's an error, the
// compiler directs the user to the template file instead of the
// generated one. We don't want the user to modify the generated one,
// since it'll get overwritten on a later build.
#line 30 "${template}"
using namespace CVC4::kind;
namespace CVC4 {
std::ostream& operator<<(std::ostream& out, const Expr& e) {
e.toStream(out);
return out;
}
Expr::Expr() :
d_node(new Node),
d_exprManager(NULL) {
}
Expr::Expr(ExprManager* em, Node* node) :
d_node(node),
d_exprManager(em) {
}
Expr::Expr(const Expr& e) :
d_node(new Node(*e.d_node)),
d_exprManager(e.d_exprManager) {
}
Expr::Expr(uintptr_t n) :
d_node(new Node),
d_exprManager(NULL) {
AlwaysAssert(n == 0);
}
Expr::~Expr() {
ExprManagerScope ems(*this);
delete d_node;
}
ExprManager* Expr::getExprManager() const {
return d_exprManager;
}
Expr& Expr::operator=(const Expr& e) {
Assert(d_node != NULL, "Unexpected NULL expression pointer!");
Assert(e.d_node != NULL, "Unexpected NULL expression pointer!");
ExprManagerScope ems(*this);
*d_node = *e.d_node;
d_exprManager = e.d_exprManager;
return *this;
}
bool Expr::operator==(const Expr& e) const {
if(d_exprManager != e.d_exprManager) {
return false;
}
ExprManagerScope ems(*this);
Assert(d_node != NULL, "Unexpected NULL expression pointer!");
Assert(e.d_node != NULL, "Unexpected NULL expression pointer!");
return *d_node == *e.d_node;
}
bool Expr::operator!=(const Expr& e) const {
return !(*this == e);
}
bool Expr::operator<(const Expr& e) const {
Assert(d_node != NULL, "Unexpected NULL expression pointer!");
Assert(e.d_node != NULL, "Unexpected NULL expression pointer!");
if(isNull() && !e.isNull()) {
return true;
}
ExprManagerScope ems(*this);
return *d_node < *e.d_node;
}
Kind Expr::getKind() const {
ExprManagerScope ems(*this);
Assert(d_node != NULL, "Unexpected NULL expression pointer!");
return d_node->getKind();
}
size_t Expr::getNumChildren() const {
ExprManagerScope ems(*this);
Assert(d_node != NULL, "Unexpected NULL expression pointer!");
return d_node->getNumChildren();
}
bool Expr::hasOperator() const {
ExprManagerScope ems(*this);
Assert(d_node != NULL, "Unexpected NULL expression pointer!");
return d_node->hasOperator();
}
Expr Expr::getOperator() const {
ExprManagerScope ems(*this);
Assert(d_node != NULL, "Unexpected NULL expression pointer!");
CheckArgument(d_node->hasOperator(), *this,
"Expr::getOperator() called on an Expr with no operator");
return Expr(d_exprManager, new Node(d_node->getOperator()));
}
Type Expr::getType() const {
ExprManagerScope ems(*this);
Assert(d_node != NULL, "Unexpected NULL expression pointer!");
return d_exprManager->getType(*this);
}
std::string Expr::toString() const {
ExprManagerScope ems(*this);
Assert(d_node != NULL, "Unexpected NULL expression pointer!");
return d_node->toString();
}
bool Expr::isNull() const {
ExprManagerScope ems(*this);
Assert(d_node != NULL, "Unexpected NULL expression pointer!");
return d_node->isNull();
}
Expr::operator bool() const {
return !isNull();
}
bool Expr::isConst() const {
ExprManagerScope ems(*this);
Assert(d_node != NULL, "Unexpected NULL expression pointer!");
return d_node->isConst();
}
bool Expr::isAtomic() const {
ExprManagerScope ems(*this);
Assert(d_node != NULL, "Unexpected NULL expression pointer!");
return d_node->isAtomic();
}
void Expr::toStream(std::ostream& out) const {
ExprManagerScope ems(*this);
d_node->toStream(out);
}
Node Expr::getNode() const {
return *d_node;
}
BoolExpr::BoolExpr() {
}
BoolExpr::BoolExpr(const Expr& e) :
Expr(e) {
}
BoolExpr BoolExpr::notExpr() const {
Assert(d_exprManager != NULL,
"Don't have an expression manager for this expression!");
return d_exprManager->mkExpr(NOT, *this);
}
BoolExpr BoolExpr::andExpr(const BoolExpr& e) const {
Assert(d_exprManager != NULL,
"Don't have an expression manager for this expression!");
CheckArgument(d_exprManager == e.d_exprManager, e,
"Different expression managers!");
return d_exprManager->mkExpr(AND, *this, e);
}
BoolExpr BoolExpr::orExpr(const BoolExpr& e) const {
Assert(d_exprManager != NULL,
"Don't have an expression manager for this expression!");
CheckArgument(d_exprManager == e.d_exprManager, e,
"Different expression managers!");
return d_exprManager->mkExpr(OR, *this, e);
}
BoolExpr BoolExpr::xorExpr(const BoolExpr& e) const {
Assert(d_exprManager != NULL,
"Don't have an expression manager for this expression!");
CheckArgument(d_exprManager == e.d_exprManager, e,
"Different expression managers!");
return d_exprManager->mkExpr(XOR, *this, e);
}
BoolExpr BoolExpr::iffExpr(const BoolExpr& e) const {
Assert(d_exprManager != NULL,
"Don't have an expression manager for this expression!");
CheckArgument(d_exprManager == e.d_exprManager, e,
"Different expression managers!");
return d_exprManager->mkExpr(IFF, *this, e);
}
BoolExpr BoolExpr::impExpr(const BoolExpr& e) const {
Assert(d_exprManager != NULL,
"Don't have an expression manager for this expression!");
CheckArgument(d_exprManager == e.d_exprManager, e,
"Different expression managers!");
return d_exprManager->mkExpr(IMPLIES, *this, e);
}
BoolExpr BoolExpr::iteExpr(const BoolExpr& then_e,
const BoolExpr& else_e) const {
Assert(d_exprManager != NULL,
"Don't have an expression manager for this expression!");
CheckArgument(d_exprManager == then_e.d_exprManager, then_e,
"Different expression managers!");
CheckArgument(d_exprManager == else_e.d_exprManager, else_e,
"Different expression managers!");
return d_exprManager->mkExpr(ITE, *this, then_e, else_e);
}
Expr BoolExpr::iteExpr(const Expr& then_e, const Expr& else_e) const {
Assert(d_exprManager != NULL,
"Don't have an expression manager for this expression!");
CheckArgument(d_exprManager == then_e.getExprManager(), then_e,
"Different expression managers!");
CheckArgument(d_exprManager == else_e.getExprManager(), else_e,
"Different expression managers!");
return d_exprManager->mkExpr(ITE, *this, then_e, else_e);
}
void Expr::printAst(std::ostream & o, int indent) const {
ExprManagerScope ems(*this);
getNode().printAst(o, indent);
}
void Expr::debugPrint() {
#ifndef CVC4_MUZZLE
printAst(Warning());
Warning().flush();
#endif /* ! CVC4_MUZZLE */
}
${getConst_implementations}
}/* CVC4 namespace */
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