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// unary operator class -*- c++ -*-
#ifdef __GNUC__
# pragma implementation
#endif // __GNUC__
#include "UnopExpression.h"
#include "IntType.h"
#include "CardType.h"
#include "LeafValue.h"
#include "Net.h"
#include "Printer.h"
/** @file UnopExpression.C
* Unary operators for integer and other arithmetics
*/
/* Copyright 1998-2002 Marko Mkel (msmakela@tcs.hut.fi).
This file is part of MARIA, a reachability analyzer and model checker
for high-level Petri nets.
MARIA is free software; you can redistribute it and/or modify it
under the terms of the GNU General Public License as published by
the Free Software Foundation; either version 2, or (at your option)
any later version.
MARIA is distributed in the hope that it will be useful, but
WITHOUT ANY WARRANTY; without even the implied warranty of
MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU
General Public License for more details.
The GNU General Public License is often shipped with GNU software, and
is generally kept in a file called COPYING or LICENSE. If you do not
have a copy of the license, write to the Free Software Foundation,
59 Temple Place, Suite 330, Boston, MA 02111 USA. */
UnopExpression::UnopExpression (enum Op op, class Expression& expr) :
Expression (),
myOp (op), myExpr (&expr)
{
setType (myOp == uNeg
? static_cast<const class Type&>(Net::getIntType ())
: *expr.getType ());
assert (myOp == uSucc || myOp == uPred
? getType ()->isOrdered ()
: (getType ()->getKind () == Type::tInt ||
getType ()->getKind () == Type::tCard));
assert (myExpr->isBasic ());
}
UnopExpression::~UnopExpression ()
{
myExpr->destroy ();
}
class Value*
UnopExpression::do_eval (const class Valuation& valuation) const
{
class Value* v = myExpr->eval (valuation);
if (!v)
return NULL;
assert (v->getKind () == Value::vLeaf || myOp == uSucc || myOp == uPred);
switch (myOp) {
case uNeg:
if (myExpr->getType ()->getKind () == Type::tInt) {
if (int_t (static_cast<class LeafValue&>(*v)) == INT_T_MIN) {
valuation.flag (errOver, *this);
delete v;
return NULL;
}
static_cast<class LeafValue*>(v)->setValue
(-int_t (static_cast<class LeafValue&>(*v)));
static_cast<class LeafValue*>(v)->setType (*getType ());
return constrain (valuation, v);
}
else {
if (card_t (static_cast<class LeafValue&>(*v)) >
card_t (INT_T_MAX) + 1) {
valuation.flag (errOver, *this);
delete v;
return NULL;
}
static_cast<class LeafValue*>(v)->setValue
(-card_t (static_cast<class LeafValue&>(*v)));
static_cast<class LeafValue*>(v)->setType (*getType ());
return constrain (valuation, v);
}
case uNot:
static_cast<class LeafValue*>(v)->setValue
(~card_t (static_cast<class LeafValue&>(*v)));
return constrain (valuation, v);
case uSucc:
v->increment ();
return v;
case uPred:
v->decrement ();
return v;
}
assert (false);
delete v;
return NULL;
}
class Expression*
UnopExpression::ground (const class Valuation& valuation,
class Transition* transition,
bool declare)
{
class Expression* e = myExpr->ground (valuation, transition, declare);
if (!e)
return NULL;
assert (valuation.isOK ());
if (e == myExpr) {
e->destroy ();
return copy ();
}
else {
class Expression* expr = new class UnopExpression (myOp, *e);
expr->setType (*getType ());
return expr->ground (valuation);
}
}
class Expression*
UnopExpression::substitute (class Substitution& substitution)
{
class Expression* e = myExpr->substitute (substitution);
if (e == myExpr) {
e->destroy ();
return copy ();
}
else
return (new class UnopExpression (myOp, *e))->cse ();
}
bool
UnopExpression::depends (const class VariableSet& vars,
bool complement) const
{
return myExpr->depends (vars, complement);
}
bool
UnopExpression::forVariables (bool (*operation)
(const class Expression&,void*),
void* data) const
{
return myExpr->forVariables (operation, data);
}
#ifdef EXPR_COMPILE
# include "CExpression.h"
void
UnopExpression::compile (class CExpression& cexpr,
unsigned indent,
const char* lvalue,
const class VariableSet* vars) const
{
char* rvalue;
class StringBuffer& out = cexpr.getOut ();
if (cexpr.getVariable (*myExpr, rvalue))
myExpr->compile (cexpr, indent, rvalue, vars);
switch (myOp) {
case uNeg:
out.indent (indent);
out.append ("if (");
out.append (rvalue);
switch (getType ()->getKind ()) {
case Type::tInt:
out.append ("==INT_MIN");
break;
case Type::tCard:
out.append (">INT_MAX");
break;
default:
assert (false);
}
out.append (")\n");
cexpr.compileError (indent + 2, errOver);
out.indent (indent);
out.append (lvalue);
out.append ("=-");
out.append (rvalue);
out.append (";\n");
break;
case uNot:
out.indent (indent);
out.append (lvalue);
out.append ("=~");
out.append (rvalue);
out.append (";\n");
break;
case uSucc:
getType ()->compileSuccessor (out, indent, lvalue, rvalue, NULL);
break;
case uPred:
getType ()->compilePredecessor (out, indent, lvalue, rvalue, NULL);
break;
}
delete[] rvalue;
if (myOp != uSucc && myOp != uPred)
compileConstraint (cexpr, indent, lvalue);
}
#endif // EXPR_COMPILE
/** Convert an operator to a string
* @param op the operator to convert
* @return a string corresponding to the operator
*/
inline static const char*
getOpString (enum UnopExpression::Op op)
{
switch (op) {
case UnopExpression::uNeg:
return "-";
case UnopExpression::uNot:
return "~";
case UnopExpression::uSucc:
return "+";
case UnopExpression::uPred:
return "|";
}
return "???";
}
/** Determine whether an expression needs to be enclosed in parentheses
* @param kind kind of the expression
* @return whether parentheses are necessary
*/
inline static bool
needParentheses (enum Expression::Kind kind)
{
switch (kind) {
case Expression::eVariable:
case Expression::eConstant:
case Expression::eUndefined:
case Expression::eStructComponent:
case Expression::eUnionComponent:
case Expression::eVectorIndex:
case Expression::eNot:
case Expression::eTypecast:
case Expression::eUnop:
case Expression::eBufferUnop:
case Expression::eCardinality:
return false;
case Expression::eMarking:
case Expression::eTransitionQualifier:
case Expression::ePlaceContents:
case Expression::eSubmarking:
case Expression::eMapping:
case Expression::eEmptySet:
assert (false);
case Expression::eBooleanBinop:
case Expression::eUnionType:
case Expression::eIfThenElse:
case Expression::eSet:
case Expression::eTemporalBinop:
case Expression::eTemporalUnop:
case Expression::eStruct:
case Expression::eUnion:
case Expression::eVector:
case Expression::eBinop:
case Expression::eRelop:
case Expression::eBuffer:
case Expression::eBufferRemove:
case Expression::eBufferWrite:
case Expression::eBufferIndex:
case Expression::eStructAssign:
case Expression::eVectorAssign:
case Expression::eVectorShift:
break;
}
return true;
}
void
UnopExpression::display (const class Printer& printer) const
{
printer.printRaw (::getOpString (myOp));
if (::needParentheses (myExpr->getKind ())) {
printer.delimiter ('(')++;
myExpr->display (printer);
--printer.delimiter (')');
}
else
myExpr->display (printer);
}
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