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/**
* <b>SOFTWARE RIGHTS</b>
* <p>
* ANTLR 2.6.0 MageLang Insitute, 1998
* <p>
* We reserve no legal rights to the ANTLR--it is fully in the
* public domain. An individual or company may do whatever
* they wish with source code distributed with ANTLR or the
* code generated by ANTLR, including the incorporation of
* ANTLR, or its output, into commerical software.
* <p>
* We encourage users to develop software with ANTLR. However,
* we do ask that credit is given to us for developing
* ANTLR. By "credit", we mean that if you use ANTLR or
* incorporate any source code into one of your programs
* (commercial product, research project, or otherwise) that
* you acknowledge this fact somewhere in the documentation,
* research report, etc... If you like ANTLR and have
* developed a nice tool with the output, please mention that
* you developed it using ANTLR. In addition, we ask that the
* headers remain intact in our source code. As long as these
* guidelines are kept, we expect to continue enhancing this
* system and expect to make other tools available as they are
* completed.
* <p>
* The ANTLR gang:
* @version ANTLR 2.6.0 MageLang Insitute, 1998
* @author Terence Parr, <a href=http://www.MageLang.com>MageLang Institute</a>
* @author <br>John Lilley, <a href=http://www.Empathy.com>Empathy Software</a>
* @author <br><a href="mailto:pete@yamuna.demon.co.uk">Pete Wells</a>
*/
#include "antlr/BaseAST.hpp"
ANTLR_BEGIN_NAMESPACE(antlr)
//bool BaseAST::verboseStringConversion;
//ANTLR_USE_NAMESPACE(std)vector<ANTLR_USE_NAMESPACE(std)string> BaseAST::tokenNames;
void BaseAST::addChild(RefAST c)
{
if (!c)
return;
RefBaseAST tmp=down;
if (tmp) {
while (tmp->right)
tmp=tmp->right;
tmp->right=c;
} else {
down=c;
}
}
void BaseAST::doWorkForFindAll(
ANTLR_USE_NAMESPACE(std)vector<RefAST>& v,
RefAST target,bool partialMatch)
{
// Start walking sibling lists, looking for matches.
for (RefAST sibling=this;
sibling;
sibling=sibling->getNextSibling())
{
if ( (partialMatch && sibling->equalsTreePartial(target)) ||
(!partialMatch && sibling->equalsTree(target)) ) {
v.push_back(sibling);
}
// regardless of match or not, check any children for matches
if ( sibling->getFirstChild() ) {
RefBaseAST(sibling->getFirstChild())->doWorkForFindAll(v, target, partialMatch);
}
}
}
/** Is node t equal to this in terms of token type and text? */
bool BaseAST::equals(RefAST t) const
{
if (!t)
return false;
return (getText() == t->getText()) && (getType() == t->getType());
}
/** Is t an exact structural and equals() match of this tree. The
* 'this' reference is considered the start of a sibling list.
*/
bool BaseAST::equalsList(RefAST t) const
{
// the empty tree is not a match of any non-null tree.
if (!t)
return false;
// Otherwise, start walking sibling lists. First mismatch, return false.
RefAST sibling=this;
for (;sibling && t;
sibling=sibling->getNextSibling(), t=t->getNextSibling()) {
// as a quick optimization, check roots first.
if (!sibling->equals(t))
return false;
// if roots match, do full list match test on children.
if (sibling->getFirstChild()) {
if (!sibling->getFirstChild()->equalsList(t->getFirstChild()))
return false;
}
// sibling has no kids, make sure t doesn't either
else if (t->getFirstChild())
return false;
}
if (!sibling && !t)
return true;
// one sibling list has more than the other
return false;
}
/** Is 'sub' a subtree of this list?
* The siblings of the root are NOT ignored.
*/
bool BaseAST::equalsListPartial(RefAST sub) const
{
// the empty tree is always a subset of any tree.
if (!sub)
return true;
// Otherwise, start walking sibling lists. First mismatch, return false.
RefAST sibling=this;
for (;sibling && sub;
sibling=sibling->getNextSibling(), sub=sub->getNextSibling()) {
// as a quick optimization, check roots first.
if (!sibling->equals(sub))
return false;
// if roots match, do partial list match test on children.
if (sibling->getFirstChild())
if (!sibling->getFirstChild()->equalsListPartial(sub->getFirstChild()))
return false;
}
if (!sibling && sub)
// nothing left to match in this tree, but subtree has more
return false;
// either both are null or sibling has more, but subtree doesn't
return true;
}
/** Is tree rooted at 'this' equal to 't'? The siblings
* of 'this' are ignored.
*/
bool BaseAST::equalsTree(RefAST t) const
{
// check roots first
if (!equals(t))
return false;
// if roots match, do full list match test on children.
if (getFirstChild()) {
if (!getFirstChild()->equalsList(t->getFirstChild()))
return false;
}
// sibling has no kids, make sure t doesn't either
else if (t->getFirstChild())
return false;
return true;
}
/** Is 'sub' a subtree of the tree rooted at 'this'? The siblings
* of 'this' are ignored.
*/
bool BaseAST::equalsTreePartial(RefAST sub) const
{
// the empty tree is always a subset of any tree.
if (!sub)
return true;
// check roots first
if (!equals(sub))
return false;
// if roots match, do full list partial match test on children.
if (getFirstChild())
if (!getFirstChild()->equalsListPartial(sub->getFirstChild()))
return false;
return true;
}
/** Walk the tree looking for all exact subtree matches. Return
* an ASTEnumerator that lets the caller walk the list
* of subtree roots found herein.
*/
ANTLR_USE_NAMESPACE(std)vector<RefAST> BaseAST::findAll(RefAST target)
{
ANTLR_USE_NAMESPACE(std)vector<RefAST> roots;
// the empty tree cannot result in an enumeration
if (target) {
doWorkForFindAll(roots,target,false); // find all matches recursively
}
return roots;
}
/** Walk the tree looking for all subtrees. Return
* an ASTEnumerator that lets the caller walk the list
* of subtree roots found herein.
*/
ANTLR_USE_NAMESPACE(std)vector<RefAST> BaseAST::findAllPartial(RefAST target)
{
ANTLR_USE_NAMESPACE(std)vector<RefAST> roots;
// the empty tree cannot result in an enumeration
if (target) {
doWorkForFindAll(roots,target,true); // find all matches recursively
}
return roots;
}
RefAST BaseAST::getFirstChild() const
{
return RefAST(down);
}
RefAST BaseAST::getNextSibling() const
{
return RefAST(right);
}
ANTLR_USE_NAMESPACE(std)string BaseAST::getText() const
{
return "";
}
int BaseAST::getType() const
{
return 0;
}
void BaseAST::removeChildren()
{
down=nullAST;
}
void BaseAST::setFirstChild(RefAST c)
{
down=c;
}
void BaseAST::setNextSibling(RefAST n)
{
right=n;
}
void BaseAST::setText(const ANTLR_USE_NAMESPACE(std)string& txt)
{
}
void BaseAST::setType(int type)
{
}
//void BaseAST::setVerboseStringConversion(bool verbose,
// const ANTLR_USE_NAMESPACE(std)vector<ANTLR_USE_NAMESPACE(std)string>& names)
//{
// verboseStringConversion = verbose;
// tokenNames = names;
//}
ANTLR_USE_NAMESPACE(std)string BaseAST::toString() const
{
// if ( verboseStringConversion &&
// !getText().equalsIgnoreCase(tokenNames[getType()]) &&
// !getText().equalsIgnoreCase(Tool.stripFrontBack(tokenNames[getType()],"\"","\"")) ) {
// b.append('[');
// b.append(getText());
// b.append(",<");
// b.append(tokenNames[getType()]);
// b.append(">]");
// return b.toString();
// }
return getText();
}
ANTLR_USE_NAMESPACE(std)string BaseAST::toStringList() const
{
ANTLR_USE_NAMESPACE(std)string ts="";
if (getFirstChild()) {
ts+=" ( ";
ts+=toString();
ts+=getFirstChild()->toStringList();
ts+=" )";
} else {
ts+=" ";
ts+=toString();
}
if (getNextSibling())
ts+=getNextSibling()->toStringList();
return ts;
}
ANTLR_USE_NAMESPACE(std)string BaseAST::toStringTree() const
{
ANTLR_USE_NAMESPACE(std)string ts="";
if (getFirstChild()) {
ts+=" ( ";
ts+=toString();
ts+=getFirstChild()->toStringList();
ts+=" )";
} else {
ts+=" ";
ts+=toString();
}
return ts;
}
// this is nasty, but it makes the code generation easier
RefAST nullAST;
AST* const nullASTptr=0;
ANTLR_END_NAMESPACE
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