src/antlr/BaseAST.cpp

/* ANTLR Translator Generator
 * Project led by Terence Parr at http://www.jGuru.com
 * Software rights: http://www.antlr.org/license.html
 *
 * $Id$
 */

#include "antlr/config.hpp"

#include <iostream>

#include "antlr/AST.hpp"
#include "antlr/BaseAST.hpp"

ANTLR_USING_NAMESPACE(std)
#ifdef ANTLR_CXX_SUPPORTS_NAMESPACE
namespace antlr {
#endif

size_t BaseAST::getNumberOfChildren() const
{
        RefBaseAST t = this->down;
        size_t n = 0;
        if( t )
        {
                n = 1;
                while( t->right )
                {
                        t = t->right;
                        n++;
                }
                return n;
        }
        return n;
}

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 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;
}

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;
}

#ifdef ANTLR_SUPPORT_XML
/* This whole XML output stuff needs a little bit more thought
 * I'd like to store extra XML data in the node. e.g. for custom ast's
 * with for instance symboltable references. This
 * should be more pluggable..
 * @returns boolean value indicating wether a closetag should be produced.
 */
bool BaseAST::attributesToStream( ANTLR_USE_NAMESPACE(std)ostream& out ) const
{
        out << "text=\"" << this->getText()
                << "\" type=\"" << this->getType() << "\"";

        return false;
}

void BaseAST::toStream( ANTLR_USE_NAMESPACE(std)ostream& out ) const
{
        for( RefAST node = this; node != 0; node = node->getNextSibling() )
        {
                out << "<" << this->typeName() << " ";

                // Write out attributes and if there is extra data...
                bool need_close_tag = node->attributesToStream( out );

                if( need_close_tag )
                {
                        // got children so write them...
                        if( node->getFirstChild() != 0 )
                                node->getFirstChild()->toStream( out );

                        // and a closing tag..
                        out << "</" << node->typeName() << ">" << endl;
                }
        }
}
#endif

// this is nasty, but it makes the code generation easier
ANTLR_API RefAST nullAST;

#if defined(_MSC_VER) && !defined(__ICL) 
// Microsoft Visual C++
extern ANTLR_API AST* const nullASTptr = 0;
#else
ANTLR_API AST* const nullASTptr = 0;
#endif

#ifdef ANTLR_CXX_SUPPORTS_NAMESPACE
}
#endif
Revision:	1782
Committed:	Wed Aug 22 02:28:28 2012 UTC (13 years, 2 months ago) by gezelter
File size:	6657 byte(s)
Log Message:	MERGE OpenMD development branch 1465:1781 into trunk
#	Content
1	/* ANTLR Translator Generator
2	* Project led by Terence Parr at http://www.jGuru.com
3	* Software rights: http://www.antlr.org/license.html
4	*
5	* $Id$
6	*/
7
8	#include "antlr/config.hpp"
9
10	#include <iostream>
11
12	#include "antlr/AST.hpp"
13	#include "antlr/BaseAST.hpp"
14
15	ANTLR_USING_NAMESPACE(std)
16	#ifdef ANTLR_CXX_SUPPORTS_NAMESPACE
17	namespace antlr {
18	#endif
19
20	size_t BaseAST::getNumberOfChildren() const
21	{
22	RefBaseAST t = this->down;
23	size_t n = 0;
24	if( t )
25	{
26	n = 1;
27	while( t->right )
28	{
29	t = t->right;
30	n++;
31	}
32	return n;
33	}
34	return n;
35	}
36
37	void BaseAST::doWorkForFindAll(
38	ANTLR_USE_NAMESPACE(std)vector<RefAST>& v,
39	RefAST target,bool partialMatch)
40	{
41	// Start walking sibling lists, looking for matches.
42	for (RefAST sibling=this;
43	sibling;
44	sibling=sibling->getNextSibling())
45	{
46	if ( (partialMatch && sibling->equalsTreePartial(target)) \|\|
47	(!partialMatch && sibling->equalsTree(target)) ) {
48	v.push_back(sibling);
49	}
50	// regardless of match or not, check any children for matches
51	if ( sibling->getFirstChild() ) {
52	RefBaseAST(sibling->getFirstChild())->doWorkForFindAll(v, target, partialMatch);
53	}
54	}
55	}
56
57	/** Is t an exact structural and equals() match of this tree. The
58	* 'this' reference is considered the start of a sibling list.
59	*/
60	bool BaseAST::equalsList(RefAST t) const
61	{
62	// the empty tree is not a match of any non-null tree.
63	if (!t)
64	return false;
65
66	// Otherwise, start walking sibling lists. First mismatch, return false.
67	RefAST sibling=this;
68	for (;sibling && t;
69	sibling=sibling->getNextSibling(), t=t->getNextSibling()) {
70	// as a quick optimization, check roots first.
71	if (!sibling->equals(t))
72	return false;
73	// if roots match, do full list match test on children.
74	if (sibling->getFirstChild()) {
75	if (!sibling->getFirstChild()->equalsList(t->getFirstChild()))
76	return false;
77	}
78	// sibling has no kids, make sure t doesn't either
79	else if (t->getFirstChild())
80	return false;
81	}
82
83	if (!sibling && !t)
84	return true;
85
86	// one sibling list has more than the other
87	return false;
88	}
89
90	/** Is 'sub' a subtree of this list?
91	* The siblings of the root are NOT ignored.
92	*/
93	bool BaseAST::equalsListPartial(RefAST sub) const
94	{
95	// the empty tree is always a subset of any tree.
96	if (!sub)
97	return true;
98
99	// Otherwise, start walking sibling lists. First mismatch, return false.
100	RefAST sibling=this;
101	for (;sibling && sub;
102	sibling=sibling->getNextSibling(), sub=sub->getNextSibling()) {
103	// as a quick optimization, check roots first.
104	if (!sibling->equals(sub))
105	return false;
106	// if roots match, do partial list match test on children.
107	if (sibling->getFirstChild())
108	if (!sibling->getFirstChild()->equalsListPartial(sub->getFirstChild()))
109	return false;
110	}
111
112	if (!sibling && sub)
113	// nothing left to match in this tree, but subtree has more
114	return false;
115
116	// either both are null or sibling has more, but subtree doesn't
117	return true;
118	}
119
120	/** Is tree rooted at 'this' equal to 't'? The siblings
121	* of 'this' are ignored.
122	*/
123	bool BaseAST::equalsTree(RefAST t) const
124	{
125	// check roots first
126	if (!equals(t))
127	return false;
128	// if roots match, do full list match test on children.
129	if (getFirstChild()) {
130	if (!getFirstChild()->equalsList(t->getFirstChild()))
131	return false;
132	}
133	// sibling has no kids, make sure t doesn't either
134	else if (t->getFirstChild())
135	return false;
136
137	return true;
138	}
139
140	/** Is 'sub' a subtree of the tree rooted at 'this'? The siblings
141	* of 'this' are ignored.
142	*/
143	bool BaseAST::equalsTreePartial(RefAST sub) const
144	{
145	// the empty tree is always a subset of any tree.
146	if (!sub)
147	return true;
148
149	// check roots first
150	if (!equals(sub))
151	return false;
152	// if roots match, do full list partial match test on children.
153	if (getFirstChild())
154	if (!getFirstChild()->equalsListPartial(sub->getFirstChild()))
155	return false;
156
157	return true;
158	}
159
160	/** Walk the tree looking for all exact subtree matches. Return
161	* an ASTEnumerator that lets the caller walk the list
162	* of subtree roots found herein.
163	*/
164	ANTLR_USE_NAMESPACE(std)vector<RefAST> BaseAST::findAll(RefAST target)
165	{
166	ANTLR_USE_NAMESPACE(std)vector<RefAST> roots;
167
168	// the empty tree cannot result in an enumeration
169	if (target) {
170	doWorkForFindAll(roots,target,false); // find all matches recursively
171	}
172
173	return roots;
174	}
175
176	/** Walk the tree looking for all subtrees. Return
177	* an ASTEnumerator that lets the caller walk the list
178	* of subtree roots found herein.
179	*/
180	ANTLR_USE_NAMESPACE(std)vector<RefAST> BaseAST::findAllPartial(RefAST target)
181	{
182	ANTLR_USE_NAMESPACE(std)vector<RefAST> roots;
183
184	// the empty tree cannot result in an enumeration
185	if (target)
186	doWorkForFindAll(roots,target,true); // find all matches recursively
187
188	return roots;
189	}
190
191	ANTLR_USE_NAMESPACE(std)string BaseAST::toStringList() const
192	{
193	ANTLR_USE_NAMESPACE(std)string ts="";
194
195	if (getFirstChild())
196	{
197	ts+=" ( ";
198	ts+=toString();
199	ts+=getFirstChild()->toStringList();
200	ts+=" )";
201	}
202	else
203	{
204	ts+=" ";
205	ts+=toString();
206	}
207
208	if (getNextSibling())
209	ts+=getNextSibling()->toStringList();
210
211	return ts;
212	}
213
214	ANTLR_USE_NAMESPACE(std)string BaseAST::toStringTree() const
215	{
216	ANTLR_USE_NAMESPACE(std)string ts = "";
217
218	if (getFirstChild())
219	{
220	ts+=" ( ";
221	ts+=toString();
222	ts+=getFirstChild()->toStringList();
223	ts+=" )";
224	}
225	else
226	{
227	ts+=" ";
228	ts+=toString();
229	}
230	return ts;
231	}
232
233	#ifdef ANTLR_SUPPORT_XML
234	/* This whole XML output stuff needs a little bit more thought
235	* I'd like to store extra XML data in the node. e.g. for custom ast's
236	* with for instance symboltable references. This
237	* should be more pluggable..
238	* @returns boolean value indicating wether a closetag should be produced.
239	*/
240	bool BaseAST::attributesToStream( ANTLR_USE_NAMESPACE(std)ostream& out ) const
241	{
242	out << "text=\"" << this->getText()
243	<< "\" type=\"" << this->getType() << "\"";
244
245	return false;
246	}
247
248	void BaseAST::toStream( ANTLR_USE_NAMESPACE(std)ostream& out ) const
249	{
250	for( RefAST node = this; node != 0; node = node->getNextSibling() )
251	{
252	out << "<" << this->typeName() << " ";
253
254	// Write out attributes and if there is extra data...
255	bool need_close_tag = node->attributesToStream( out );
256
257	if( need_close_tag )
258	{
259	// got children so write them...
260	if( node->getFirstChild() != 0 )
261	node->getFirstChild()->toStream( out );
262
263	// and a closing tag..
264	out << "</" << node->typeName() << ">" << endl;
265	}
266	}
267	}
268	#endif
269
270	// this is nasty, but it makes the code generation easier
271	ANTLR_API RefAST nullAST;
272
273	#if defined(_MSC_VER) && !defined(__ICL)
274	// Microsoft Visual C++
275	extern ANTLR_API AST* const nullASTptr = 0;
276	#else
277	ANTLR_API AST* const nullASTptr = 0;
278	#endif
279
280	#ifdef ANTLR_CXX_SUPPORTS_NAMESPACE
281	}
282	#endif