src/visitors/AtomVisitor.cpp

#include <cstring>
#include "visitors/AtomVisitor.hpp"
#include "primitives/DirectionalAtom.hpp"
#include "math/MatVec3.h"
#include "primitives/RigidBody.hpp"

namespace oopse {

void BaseAtomVisitor::visit(RigidBody* rb){
  //vector<Atom*> myAtoms;
  //vector<Atom*>::iterator atomIter;

  //myAtoms = rb->getAtoms();
  
  //for(atomIter = myAtoms.begin(); atomIter != myAtoms.end(); ++atomIter)
  //  (*atomIter)->accept(this);
}

void BaseAtomVisitor::setVisited(Atom* atom){
  GenericData* data;
  data = atom->getProperty("VISITED");

  //if visited property is not existed, add it as new property
  if(data == NULL){
    data = new GenericData();
    data->setID("VISITED");
    atom->addProperty(data);  
  }
}

bool BaseAtomVisitor::isVisited(Atom* atom){
  GenericData* data;
  data = atom->getProperty("VISITED");
  return data == NULL ?  false : true;
}

bool SSDAtomVisitor::isSSDAtom(const string& atomType){
  vector<string>::iterator strIter;
  
  for(strIter = ssdAtomType.begin(); strIter != ssdAtomType.end(); ++strIter)
   if(*strIter == atomType)
    return true;
  
  return false;  
}

void SSDAtomVisitor::visit(DirectionalAtom* datom){

  vector<AtomInfo*> atoms;

  //we need to convert SSD into 4 differnet atoms
  //one oxygen atom, two hydrogen atoms and one pseudo atom which is the center of the mass
  //of the water with a dipole moment
  double h1[3] = {0.0, -0.75695, 0.5206};
  double h2[3] = {0.0, 0.75695, 0.5206};
  double ox[3] = {0.0, 0.0, -0.0654};
  double u[3] = {0, 0, 1};
  double rotMatrix[3][3];
  double rotTrans[3][3];
  AtomInfo* atomInfo;
  double pos[3];
  double newVec[3];
  double q[4];
  AtomData* atomData;
  GenericData* data;
  bool haveAtomData;
  
  //if atom is not SSD atom, just skip it
  if(!isSSDAtom(datom->getType()))
    return;

  data = datom->getProperty("ATOMDATA");
  if(data != NULL){

    atomData = dynamic_cast<AtomData*>(data);  
    if(atomData == NULL){
      cerr << "can not get Atom Data from " << datom->getType() << endl;
      atomData = new AtomData; 
      haveAtomData = false;      
    }
    else
      haveAtomData = true;
  }
  else{
    atomData = new AtomData;
    haveAtomData = false;
  }
   
  
  datom->getPos(pos);
  datom->getQ(q);
  datom->getA(rotMatrix);

  // We need A^T to convert from body-fixed to space-fixed:
  transposeMat3(rotMatrix, rotTrans);
  
  //center of mass of the water molecule
  matVecMul3(rotTrans, u, newVec);
  atomInfo = new AtomInfo;
  atomInfo->AtomType = "X";
  atomInfo->pos[0] = pos[0];
  atomInfo->pos[1] = pos[1];
  atomInfo->pos[2] = pos[2];
  atomInfo->dipole[0] = newVec[0];
  atomInfo->dipole[1] = newVec[1];
  atomInfo->dipole[2] = newVec[2];

  atomData->addAtomInfo(atomInfo);

  //oxygen
  matVecMul3(rotTrans, ox, newVec);
  atomInfo = new AtomInfo;
  atomInfo->AtomType = "O";
  atomInfo->pos[0] = pos[0] + newVec[0];
  atomInfo->pos[1] = pos[1] + newVec[1];
  atomInfo->pos[2] = pos[2] + newVec[2];
  atomInfo->dipole[0] = 0.0;
  atomInfo->dipole[1] = 0.0;
  atomInfo->dipole[2] = 0.0;
  atomData->addAtomInfo(atomInfo);


  //hydrogen1
    matVecMul3(rotTrans, h1, newVec);
  atomInfo = new AtomInfo;
  atomInfo->AtomType = "H";
  atomInfo->pos[0] = pos[0] + newVec[0];
  atomInfo->pos[1] = pos[1] + newVec[1];
  atomInfo->pos[2] = pos[2] + newVec[2];
  atomInfo->dipole[0] = 0.0;
  atomInfo->dipole[1] = 0.0;
  atomInfo->dipole[2] = 0.0;
  atomData->addAtomInfo(atomInfo);

  //hydrogen2
  matVecMul3(rotTrans, h2, newVec);
  atomInfo = new AtomInfo;
  atomInfo->AtomType = "H";
  atomInfo->pos[0] = pos[0] + newVec[0];
  atomInfo->pos[1] = pos[1] + newVec[1];
  atomInfo->pos[2] = pos[2] + newVec[2];
  atomInfo->dipole[0] = 0.0;
  atomInfo->dipole[1] = 0.0;
  atomInfo->dipole[2] = 0.0;
  atomData->addAtomInfo(atomInfo);

  //add atom data into atom's property

  if(!haveAtomData){
    atomData->setID("ATOMDATA");
    datom->addProperty(atomData);
  }

  setVisited(datom);

}

const string SSDAtomVisitor::toString(){
  char buffer[65535];
  string result;
  
  sprintf(buffer ,"------------------------------------------------------------------\n");
  result += buffer;

  sprintf(buffer ,"Visitor name: %s\n", visitorName.c_str());
  result += buffer;

  sprintf(buffer , "Visitor Description: Convert SSD into 4 different atoms\n");
  result += buffer;

  sprintf(buffer ,"------------------------------------------------------------------\n");
  result += buffer;

  return result;
}

bool LinearAtomVisitor::isLinearAtom(const string& atomType){
  vector<string>::iterator strIter;
  
  for(strIter = linearAtomType.begin(); strIter != linearAtomType.end(); 
      ++strIter)
    if(*strIter == atomType)
      return true;
  
  return false;  
}

void LinearAtomVisitor::visit(DirectionalAtom* datom){

  vector<AtomInfo*> atoms;

  //we need to convert linear into 4 different atoms
  double c1[3] = {0.0, 0.0, -1.8};
  double c2[3] = {0.0, 0.0, -0.6};
  double c3[3] = {0.0, 0.0,  0.6};
  double c4[3] = {0.0, 0.0,  1.8};
  double rotMatrix[3][3];
  double rotTrans[3][3];
  AtomInfo* atomInfo;
  double pos[3];
  double newVec[3];
  double q[4];
  AtomData* atomData;
  GenericData* data;
  bool haveAtomData;
  
  //if atom is not SSD atom, just skip it
  if(!isLinearAtom(datom->getType()))
    return;
  
  data = datom->getProperty("ATOMDATA");
  if(data != NULL){

    atomData = dynamic_cast<AtomData*>(data);  
    if(atomData == NULL){
      cerr << "can not get Atom Data from " << datom->getType() << endl;
      atomData = new AtomData; 
      haveAtomData = false;      
    }
    else
      haveAtomData = true;
  }
  else{
    atomData = new AtomData;
    haveAtomData = false;
  }
   
  
  datom->getPos(pos);
  datom->getQ(q);
  datom->getA(rotMatrix);

  // We need A^T to convert from body-fixed to space-fixed:
  transposeMat3(rotMatrix, rotTrans);
  
  matVecMul3(rotTrans, c1, newVec);
  atomInfo = new AtomInfo;
  atomInfo->AtomType = "C";
  atomInfo->pos[0] = pos[0] + newVec[0];
  atomInfo->pos[1] = pos[1] + newVec[1];
  atomInfo->pos[2] = pos[2] + newVec[2];
  atomInfo->dipole[0] = 0.0;
  atomInfo->dipole[1] = 0.0;
  atomInfo->dipole[2] = 0.0;
  atomData->addAtomInfo(atomInfo);

  matVecMul3(rotTrans, c2, newVec);
  atomInfo = new AtomInfo;
  atomInfo->AtomType = "C";
  atomInfo->pos[0] = pos[0] + newVec[0];
  atomInfo->pos[1] = pos[1] + newVec[1];
  atomInfo->pos[2] = pos[2] + newVec[2];
  atomInfo->dipole[0] = 0.0;
  atomInfo->dipole[1] = 0.0;
  atomInfo->dipole[2] = 0.0;
  atomData->addAtomInfo(atomInfo);

  matVecMul3(rotTrans, c3, newVec);
  atomInfo = new AtomInfo;
  atomInfo->AtomType = "C";
  atomInfo->pos[0] = pos[0] + newVec[0];
  atomInfo->pos[1] = pos[1] + newVec[1];
  atomInfo->pos[2] = pos[2] + newVec[2];
  atomInfo->dipole[0] = 0.0;
  atomInfo->dipole[1] = 0.0;
  atomInfo->dipole[2] = 0.0;
  atomData->addAtomInfo(atomInfo);

  matVecMul3(rotTrans, c4, newVec);
  atomInfo = new AtomInfo;
  atomInfo->AtomType = "C";
  atomInfo->pos[0] = pos[0] + newVec[0];
  atomInfo->pos[1] = pos[1] + newVec[1];
  atomInfo->pos[2] = pos[2] + newVec[2];
  atomInfo->dipole[0] = 0.0;
  atomInfo->dipole[1] = 0.0;
  atomInfo->dipole[2] = 0.0;
  atomData->addAtomInfo(atomInfo);

  //add atom data into atom's property

  if(!haveAtomData){
    atomData->setID("ATOMDATA");
    datom->addProperty(atomData);
  }

  setVisited(datom);

}

const string LinearAtomVisitor::toString(){
  char buffer[65535];
  string result;
  
  sprintf(buffer ,"------------------------------------------------------------------\n");
  result += buffer;

  sprintf(buffer ,"Visitor name: %s\n", visitorName.c_str());
  result += buffer;

  sprintf(buffer , "Visitor Description: Convert linear into 4 different atoms\n");
  result += buffer;

  sprintf(buffer ,"------------------------------------------------------------------\n");
  result += buffer;

  return result;
}

//----------------------------------------------------------------------------//

void DefaultAtomVisitor::visit(Atom* atom){
  AtomData* atomData;
  AtomInfo* atomInfo;
  double pos[3];

  if(isVisited(atom))
    return;

 atomInfo =new AtomInfo;

  atomData = new AtomData; 
  atomData->setID("ATOMDATA");
 
  atom->getPos(pos);
  atomInfo->AtomType = atom->getType();
  atomInfo->pos[0] = pos[0];
  atomInfo->pos[1] = pos[1];
  atomInfo->pos[2] = pos[2];
  atomInfo->dipole[0] = 0.0;
  atomInfo->dipole[1] = 0.0;
  atomInfo->dipole[2] = 0.0;


  atomData->addAtomInfo(atomInfo);
  
  atom->addProperty(atomData);

  setVisited(atom);
}
void DefaultAtomVisitor::visit(DirectionalAtom* datom){
  AtomData* atomData;
  AtomInfo* atomInfo;
  double pos[3];
  double u[3];

  if(isVisited(datom))
    return;
  
  datom->getPos(pos);
  datom->getU(u);

  atomData = new AtomData; 
  atomData->setID("ATOMDATA");
  atomInfo =new AtomInfo;
  
  atomInfo->AtomType = datom->getType();
  atomInfo->pos[0] = pos[0];
  atomInfo->pos[1] = pos[1];
  atomInfo->pos[2] = pos[2];
  atomInfo->dipole[0] = u[0];
  atomInfo->dipole[1] = u[1];
  atomInfo->dipole[2] = u[2];  

  atomData->addAtomInfo(atomInfo);

  datom->addProperty(atomData);

  setVisited(datom);
}


const string DefaultAtomVisitor::toString(){
  char buffer[65535];
  string result;
  
  sprintf(buffer ,"------------------------------------------------------------------\n");
  result += buffer;

  sprintf(buffer ,"Visitor name: %s\n", visitorName.c_str());
  result += buffer;

  sprintf(buffer , "Visitor Description: copy atom infomation into atom data\n");
  result += buffer;

  sprintf(buffer ,"------------------------------------------------------------------\n");
  result += buffer;

  return result;
}    

}//namespace oopse
Revision:	211
Committed:	Fri Nov 5 21:45:14 2004 UTC (21 years ago) by chrisfen
Original Path:	*trunk/src/visitors/AtomVisitor.cpp*
File size:	9654 byte(s)
Log Message:	Added the linear visitor
#	User	Rev	Content
1	gezelter	2	#include <cstring>
2	tim	3	#include "visitors/AtomVisitor.hpp"
3			#include "primitives/DirectionalAtom.hpp"
4			#include "math/MatVec3.h"
5			#include "primitives/RigidBody.hpp"
6	gezelter	2
7	tim	132	namespace oopse {
8
9	gezelter	2	void BaseAtomVisitor::visit(RigidBody* rb){
10			//vector<Atom*> myAtoms;
11			//vector<Atom*>::iterator atomIter;
12
13			//myAtoms = rb->getAtoms();
14
15			//for(atomIter = myAtoms.begin(); atomIter != myAtoms.end(); ++atomIter)
16			// (*atomIter)->accept(this);
17			}
18
19			void BaseAtomVisitor::setVisited(Atom* atom){
20			GenericData* data;
21			data = atom->getProperty("VISITED");
22
23			//if visited property is not existed, add it as new property
24			if(data == NULL){
25			data = new GenericData();
26			data->setID("VISITED");
27			atom->addProperty(data);
28			}
29			}
30
31			bool BaseAtomVisitor::isVisited(Atom* atom){
32			GenericData* data;
33			data = atom->getProperty("VISITED");
34			return data == NULL ? false : true;
35			}
36
37			bool SSDAtomVisitor::isSSDAtom(const string& atomType){
38			vector<string>::iterator strIter;
39
40			for(strIter = ssdAtomType.begin(); strIter != ssdAtomType.end(); ++strIter)
41			if(*strIter == atomType)
42			return true;
43
44			return false;
45			}
46
47			void SSDAtomVisitor::visit(DirectionalAtom* datom){
48
49			vector<AtomInfo*> atoms;
50
51			//we need to convert SSD into 4 differnet atoms
52			//one oxygen atom, two hydrogen atoms and one pseudo atom which is the center of the mass
53			//of the water with a dipole moment
54			double h1[3] = {0.0, -0.75695, 0.5206};
55			double h2[3] = {0.0, 0.75695, 0.5206};
56			double ox[3] = {0.0, 0.0, -0.0654};
57			double u[3] = {0, 0, 1};
58			double rotMatrix[3][3];
59			double rotTrans[3][3];
60			AtomInfo* atomInfo;
61			double pos[3];
62			double newVec[3];
63			double q[4];
64			AtomData* atomData;
65			GenericData* data;
66			bool haveAtomData;
67
68			//if atom is not SSD atom, just skip it
69			if(!isSSDAtom(datom->getType()))
70			return;
71
72			data = datom->getProperty("ATOMDATA");
73			if(data != NULL){
74
75			atomData = dynamic_cast<AtomData*>(data);
76			if(atomData == NULL){
77			cerr << "can not get Atom Data from " << datom->getType() << endl;
78			atomData = new AtomData;
79			haveAtomData = false;
80			}
81			else
82			haveAtomData = true;
83			}
84			else{
85			atomData = new AtomData;
86			haveAtomData = false;
87			}
88
89
90			datom->getPos(pos);
91			datom->getQ(q);
92			datom->getA(rotMatrix);
93
94			// We need A^T to convert from body-fixed to space-fixed:
95			transposeMat3(rotMatrix, rotTrans);
96
97			//center of mass of the water molecule
98			matVecMul3(rotTrans, u, newVec);
99			atomInfo = new AtomInfo;
100			atomInfo->AtomType = "X";
101			atomInfo->pos[0] = pos[0];
102			atomInfo->pos[1] = pos[1];
103			atomInfo->pos[2] = pos[2];
104			atomInfo->dipole[0] = newVec[0];
105			atomInfo->dipole[1] = newVec[1];
106			atomInfo->dipole[2] = newVec[2];
107
108			atomData->addAtomInfo(atomInfo);
109
110			//oxygen
111			matVecMul3(rotTrans, ox, newVec);
112			atomInfo = new AtomInfo;
113			atomInfo->AtomType = "O";
114			atomInfo->pos[0] = pos[0] + newVec[0];
115			atomInfo->pos[1] = pos[1] + newVec[1];
116			atomInfo->pos[2] = pos[2] + newVec[2];
117			atomInfo->dipole[0] = 0.0;
118			atomInfo->dipole[1] = 0.0;
119			atomInfo->dipole[2] = 0.0;
120			atomData->addAtomInfo(atomInfo);
121
122
123			//hydrogen1
124			matVecMul3(rotTrans, h1, newVec);
125			atomInfo = new AtomInfo;
126			atomInfo->AtomType = "H";
127			atomInfo->pos[0] = pos[0] + newVec[0];
128			atomInfo->pos[1] = pos[1] + newVec[1];
129			atomInfo->pos[2] = pos[2] + newVec[2];
130			atomInfo->dipole[0] = 0.0;
131			atomInfo->dipole[1] = 0.0;
132			atomInfo->dipole[2] = 0.0;
133			atomData->addAtomInfo(atomInfo);
134
135			//hydrogen2
136			matVecMul3(rotTrans, h2, newVec);
137			atomInfo = new AtomInfo;
138			atomInfo->AtomType = "H";
139			atomInfo->pos[0] = pos[0] + newVec[0];
140			atomInfo->pos[1] = pos[1] + newVec[1];
141			atomInfo->pos[2] = pos[2] + newVec[2];
142			atomInfo->dipole[0] = 0.0;
143			atomInfo->dipole[1] = 0.0;
144			atomInfo->dipole[2] = 0.0;
145			atomData->addAtomInfo(atomInfo);
146
147			//add atom data into atom's property
148
149			if(!haveAtomData){
150			atomData->setID("ATOMDATA");
151			datom->addProperty(atomData);
152			}
153
154			setVisited(datom);
155
156			}
157
158			const string SSDAtomVisitor::toString(){
159			char buffer[65535];
160			string result;
161
162			sprintf(buffer ,"------------------------------------------------------------------\n");
163			result += buffer;
164
165			sprintf(buffer ,"Visitor name: %s\n", visitorName.c_str());
166			result += buffer;
167
168			sprintf(buffer , "Visitor Description: Convert SSD into 4 different atoms\n");
169			result += buffer;
170
171			sprintf(buffer ,"------------------------------------------------------------------\n");
172			result += buffer;
173
174			return result;
175			}
176
177	chrisfen	211	bool LinearAtomVisitor::isLinearAtom(const string& atomType){
178			vector<string>::iterator strIter;
179
180			for(strIter = linearAtomType.begin(); strIter != linearAtomType.end();
181			++strIter)
182			if(*strIter == atomType)
183			return true;
184
185			return false;
186			}
187
188			void LinearAtomVisitor::visit(DirectionalAtom* datom){
189
190			vector<AtomInfo*> atoms;
191
192			//we need to convert linear into 4 different atoms
193			double c1[3] = {0.0, 0.0, -1.8};
194			double c2[3] = {0.0, 0.0, -0.6};
195			double c3[3] = {0.0, 0.0, 0.6};
196			double c4[3] = {0.0, 0.0, 1.8};
197			double rotMatrix[3][3];
198			double rotTrans[3][3];
199			AtomInfo* atomInfo;
200			double pos[3];
201			double newVec[3];
202			double q[4];
203			AtomData* atomData;
204			GenericData* data;
205			bool haveAtomData;
206
207			//if atom is not SSD atom, just skip it
208			if(!isLinearAtom(datom->getType()))
209			return;
210
211			data = datom->getProperty("ATOMDATA");
212			if(data != NULL){
213
214			atomData = dynamic_cast<AtomData*>(data);
215			if(atomData == NULL){
216			cerr << "can not get Atom Data from " << datom->getType() << endl;
217			atomData = new AtomData;
218			haveAtomData = false;
219			}
220			else
221			haveAtomData = true;
222			}
223			else{
224			atomData = new AtomData;
225			haveAtomData = false;
226			}
227
228
229			datom->getPos(pos);
230			datom->getQ(q);
231			datom->getA(rotMatrix);
232
233			// We need A^T to convert from body-fixed to space-fixed:
234			transposeMat3(rotMatrix, rotTrans);
235
236			matVecMul3(rotTrans, c1, newVec);
237			atomInfo = new AtomInfo;
238			atomInfo->AtomType = "C";
239			atomInfo->pos[0] = pos[0] + newVec[0];
240			atomInfo->pos[1] = pos[1] + newVec[1];
241			atomInfo->pos[2] = pos[2] + newVec[2];
242			atomInfo->dipole[0] = 0.0;
243			atomInfo->dipole[1] = 0.0;
244			atomInfo->dipole[2] = 0.0;
245			atomData->addAtomInfo(atomInfo);
246
247			matVecMul3(rotTrans, c2, newVec);
248			atomInfo = new AtomInfo;
249			atomInfo->AtomType = "C";
250			atomInfo->pos[0] = pos[0] + newVec[0];
251			atomInfo->pos[1] = pos[1] + newVec[1];
252			atomInfo->pos[2] = pos[2] + newVec[2];
253			atomInfo->dipole[0] = 0.0;
254			atomInfo->dipole[1] = 0.0;
255			atomInfo->dipole[2] = 0.0;
256			atomData->addAtomInfo(atomInfo);
257
258			matVecMul3(rotTrans, c3, newVec);
259			atomInfo = new AtomInfo;
260			atomInfo->AtomType = "C";
261			atomInfo->pos[0] = pos[0] + newVec[0];
262			atomInfo->pos[1] = pos[1] + newVec[1];
263			atomInfo->pos[2] = pos[2] + newVec[2];
264			atomInfo->dipole[0] = 0.0;
265			atomInfo->dipole[1] = 0.0;
266			atomInfo->dipole[2] = 0.0;
267			atomData->addAtomInfo(atomInfo);
268
269			matVecMul3(rotTrans, c4, newVec);
270			atomInfo = new AtomInfo;
271			atomInfo->AtomType = "C";
272			atomInfo->pos[0] = pos[0] + newVec[0];
273			atomInfo->pos[1] = pos[1] + newVec[1];
274			atomInfo->pos[2] = pos[2] + newVec[2];
275			atomInfo->dipole[0] = 0.0;
276			atomInfo->dipole[1] = 0.0;
277			atomInfo->dipole[2] = 0.0;
278			atomData->addAtomInfo(atomInfo);
279
280			//add atom data into atom's property
281
282			if(!haveAtomData){
283			atomData->setID("ATOMDATA");
284			datom->addProperty(atomData);
285			}
286
287			setVisited(datom);
288
289			}
290
291			const string LinearAtomVisitor::toString(){
292			char buffer[65535];
293			string result;
294
295			sprintf(buffer ,"------------------------------------------------------------------\n");
296			result += buffer;
297
298			sprintf(buffer ,"Visitor name: %s\n", visitorName.c_str());
299			result += buffer;
300
301			sprintf(buffer , "Visitor Description: Convert linear into 4 different atoms\n");
302			result += buffer;
303
304			sprintf(buffer ,"------------------------------------------------------------------\n");
305			result += buffer;
306
307			return result;
308			}
309
310	gezelter	2	//----------------------------------------------------------------------------//
311
312			void DefaultAtomVisitor::visit(Atom* atom){
313			AtomData* atomData;
314			AtomInfo* atomInfo;
315			double pos[3];
316
317			if(isVisited(atom))
318			return;
319
320			atomInfo =new AtomInfo;
321
322			atomData = new AtomData;
323			atomData->setID("ATOMDATA");
324
325			atom->getPos(pos);
326			atomInfo->AtomType = atom->getType();
327			atomInfo->pos[0] = pos[0];
328			atomInfo->pos[1] = pos[1];
329			atomInfo->pos[2] = pos[2];
330			atomInfo->dipole[0] = 0.0;
331			atomInfo->dipole[1] = 0.0;
332			atomInfo->dipole[2] = 0.0;
333
334
335			atomData->addAtomInfo(atomInfo);
336
337			atom->addProperty(atomData);
338
339			setVisited(atom);
340			}
341			void DefaultAtomVisitor::visit(DirectionalAtom* datom){
342			AtomData* atomData;
343			AtomInfo* atomInfo;
344			double pos[3];
345			double u[3];
346
347			if(isVisited(datom))
348			return;
349
350			datom->getPos(pos);
351			datom->getU(u);
352
353			atomData = new AtomData;
354			atomData->setID("ATOMDATA");
355			atomInfo =new AtomInfo;
356
357			atomInfo->AtomType = datom->getType();
358			atomInfo->pos[0] = pos[0];
359			atomInfo->pos[1] = pos[1];
360			atomInfo->pos[2] = pos[2];
361			atomInfo->dipole[0] = u[0];
362			atomInfo->dipole[1] = u[1];
363			atomInfo->dipole[2] = u[2];
364
365			atomData->addAtomInfo(atomInfo);
366
367			datom->addProperty(atomData);
368
369			setVisited(datom);
370			}
371
372
373			const string DefaultAtomVisitor::toString(){
374			char buffer[65535];
375			string result;
376
377			sprintf(buffer ,"------------------------------------------------------------------\n");
378			result += buffer;
379
380			sprintf(buffer ,"Visitor name: %s\n", visitorName.c_str());
381			result += buffer;
382
383			sprintf(buffer , "Visitor Description: copy atom infomation into atom data\n");
384			result += buffer;
385
386			sprintf(buffer ,"------------------------------------------------------------------\n");
387			result += buffer;
388
389			return result;
390			}
391	tim	132
392			}//namespace oopse