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/********************* */
/** expr_manager.cpp
** Original author: dejan
** Major contributors: cconway, mdeters
** Minor contributors (to current version): none
** 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.
**
** [[ Add file-specific comments here ]]
**/
/*
* expr_manager.cpp
*
* Created on: Dec 10, 2009
* Author: dejan
*/
#include "expr/node.h"
#include "expr/expr.h"
#include "expr/type.h"
#include "expr/node_manager.h"
#include "expr/expr_manager.h"
using namespace std;
namespace CVC4 {
ExprManager::ExprManager() :
d_nodeManager(new NodeManager()) {
}
ExprManager::~ExprManager() {
delete d_nodeManager;
}
const BooleanType* ExprManager::booleanType() const {
NodeManagerScope nms(d_nodeManager);
return d_nodeManager->booleanType();
}
const KindType* ExprManager::kindType() const {
NodeManagerScope nms(d_nodeManager);
return d_nodeManager->kindType();
}
Expr ExprManager::mkExpr(Kind kind) {
NodeManagerScope nms(d_nodeManager);
return Expr(this, new Node(d_nodeManager->mkNode(kind)));
}
Expr ExprManager::mkExpr(Kind kind, const Expr& child1) {
NodeManagerScope nms(d_nodeManager);
return Expr(this, new Node(d_nodeManager->mkNode(kind, child1.getNode())));
}
Expr ExprManager::mkExpr(Kind kind, const Expr& child1, const Expr& child2) {
NodeManagerScope nms(d_nodeManager);
return Expr(this, new Node(d_nodeManager->mkNode(kind, child1.getNode(),
child2.getNode())));
}
Expr ExprManager::mkExpr(Kind kind, const Expr& child1, const Expr& child2,
const Expr& child3) {
NodeManagerScope nms(d_nodeManager);
return Expr(this, new Node(d_nodeManager->mkNode(kind, child1.getNode(),
child2.getNode(), child3.getNode())));
}
Expr ExprManager::mkExpr(Kind kind, const Expr& child1, const Expr& child2,
const Expr& child3, const Expr& child4) {
NodeManagerScope nms(d_nodeManager);
return Expr(this, new Node(d_nodeManager->mkNode(kind, child1.getNode(),
child2.getNode(), child3.getNode(),
child4.getNode())));
}
Expr ExprManager::mkExpr(Kind kind, const Expr& child1, const Expr& child2,
const Expr& child3, const Expr& child4,
const Expr& child5) {
NodeManagerScope nms(d_nodeManager);
return Expr(this, new Node(d_nodeManager->mkNode(kind, child1.getNode(),
child2.getNode(), child3.getNode(),
child5.getNode())));
}
Expr ExprManager::mkExpr(Kind kind, const vector<Expr>& children) {
NodeManagerScope nms(d_nodeManager);
vector<Node> nodes;
vector<Expr>::const_iterator it = children.begin();
vector<Expr>::const_iterator it_end = children.end();
while(it != it_end) {
nodes.push_back(it->getNode());
++it;
}
return Expr(this, new Node(d_nodeManager->mkNode(kind, nodes)));
}
/** Make a function type from domain to range. */
const FunctionType*
ExprManager::mkFunctionType(const Type* domain,
const Type* range) {
NodeManagerScope nms(d_nodeManager);
return d_nodeManager->mkFunctionType(domain,range);
}
/** Make a function type with input types from argTypes. */
const FunctionType*
ExprManager::mkFunctionType(const std::vector<const Type*>& argTypes,
const Type* range) {
NodeManagerScope nms(d_nodeManager);
return d_nodeManager->mkFunctionType(argTypes,range);
}
const Type* ExprManager::mkSort(const std::string& name) {
NodeManagerScope nms(d_nodeManager);
return d_nodeManager->mkSort(name);
}
Expr ExprManager::mkVar(const Type* type, const std::string& name) {
NodeManagerScope nms(d_nodeManager);
return Expr(this, new Node(d_nodeManager->mkVar(type, name)));
}
Expr ExprManager::mkVar(const Type* type) {
NodeManagerScope nms(d_nodeManager);
return Expr(this, new Node(d_nodeManager->mkVar(type)));
}
NodeManager* ExprManager::getNodeManager() const {
return d_nodeManager;
}
} // End namespace CVC4
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