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source: src/periodentafel.cpp@ 907636

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Last change on this file since 907636 was 907636, checked in by Frederik Heber <heber@…>, 14 years ago

First working version of GLWorldView that show atoms and molecules.

GLWorldView is view of model GLWorldScene.
GLWorldScene contains GLMoleculeScene for each molecule.
GLMoleculeScene contains GLMoleculeObject_.. for each atom and two for each bond.
GLMoleculeObject_... derive from GLMoleculeObject which hides the specifics of being sphere or cylinder and allows for initializing and drawing unifiedly.
so far clicking the atoms is not working (as in teaservice example).

Property mode set to 100755

File size: 17.9 KB

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1	/*
2	* Project: MoleCuilder
3	* Description: creates and alters molecular systems
4	* Copyright (C) 2010 University of Bonn. All rights reserved.
5	* Please see the LICENSE file or "Copyright notice" in builder.cpp for details.
6	*/
7
8	/** \file periodentafel.cpp
9	*
10	* Function implementations for the class periodentafel.
11	*
12	*/
13
14	// include config.h
15	#ifdef HAVE_CONFIG_H
16	#include <config.h>
17	#endif
18
19	#include "CodePatterns/MemDebug.hpp"
20
21	#include <iomanip>
22	#include <iostream>
23	#include <fstream>
24	#include <cstring>
25
26	#include "CodePatterns/Assert.hpp"
27	#include "element.hpp"
28	#include "elements_db.hpp"
29	#include "CodePatterns/Log.hpp"
30	#include "periodentafel.hpp"
31	#include "CodePatterns/Verbose.hpp"
32
33	using namespace std;
34
35	/*********************************** Functions for class periodentafel *************************/
36
37	/** constructor for class periodentafel
38	* Initialises start and end of list and resets periodentafel::checkliste to false.
39	*/
40	periodentafel::periodentafel()
41	{
42	{
43	stringstream input(elementsDB,ios_base::in);
44	#ifndef NDEBUG
45	bool status =
46	#endif
47	LoadElementsDatabase(input);
48	ASSERT(status, "General element initialization failed");
49	}
50	{
51	stringstream input(ElectronegativitiesDB,ios_base::in);
52	#ifndef NDEBUG
53	bool status =
54	#endif
55	LoadElectronegativityDatabase(input);
56	ASSERT(status, "Electronegativities entry of element initialization failed");
57	}
58	{
59	stringstream input(valenceDB,ios_base::in);
60	#ifndef NDEBUG
61	bool status =
62	#endif
63	LoadValenceDatabase(input);
64	ASSERT(status, "Valence entry of element initialization failed");
65	}
66	{
67	stringstream input(orbitalsDB,ios_base::in);
68	#ifndef NDEBUG
69	bool status =
70	#endif
71	LoadOrbitalsDatabase(input);
72	ASSERT(status, "Orbitals entry of element initialization failed");
73	}
74	{
75	stringstream input(HbondangleDB,ios_base::in);
76	#ifndef NDEBUG
77	bool status =
78	#endif
79	LoadHBondAngleDatabase(input);
80	ASSERT(status, "HBond angle entry of element initialization failed");
81	}
82	{
83	stringstream input(HbonddistanceDB,ios_base::in);
84	#ifndef NDEBUG
85	bool status =
86	#endif
87	LoadHBondLengthsDatabase(input);
88	ASSERT(status, "HBond distance entry of element initialization failed");
89	}
90	{
91	stringstream input(ColorDB,ios_base::in);
92	#ifndef NDEBUG
93	bool status =
94	#endif
95	LoadColorDatabase(input);
96	ASSERT(status, "color entry of element initialization failed");
97	}
98	};
99
100	/** destructor for class periodentafel
101	* Removes every element and afterwards deletes start and end of list.
102	* TODO: Handle when elements have changed and store databases then
103	*/
104	periodentafel::~periodentafel()
105	{
106	CleanupPeriodtable();
107	};
108
109	/** Adds element to period table list
110	* \param *pointer element to be added
111	* \return iterator to added element
112	*/
113	periodentafel::iterator periodentafel::AddElement(element * pointer)
114	{
115	atomicNumber_t Z = pointer->getNumber();
116	ASSERT(!elements.count(Z), "Element is already present.");
117	if (pointer->getNumber() < 1 && pointer->getNumber() >= MAX_ELEMENTS)
118	DoeLog(0) && (eLog() << Verbose(0) << "Invalid Z number!\n");
119	pair<iterator,bool> res = elements.insert(pair<atomicNumber_t,element*>(Z,pointer));
120	return res.first;
121	};
122
123	/** Removes element from list.
124	* \param *pointer element to be removed
125	*/
126	size_t periodentafel::RemoveElement(const element * pointer)
127	{
128	return RemoveElement(pointer->getNumber());
129	};
130
131	/** Removes element from list.
132	* \param Z element to be removed
133	*/
134	size_t periodentafel::RemoveElement(atomicNumber_t Z)
135	{
136	return elements.erase(Z);
137	};
138
139	/** Removes every element from the period table.
140	*/
141	void periodentafel::CleanupPeriodtable()
142	{
143	for(iterator iter=elements.begin();iter!=elements.end();++iter){
144	delete(*iter).second;
145	}
146	elements.clear();
147	};
148
149	/** Finds an element by its atomic number.
150	* If element is not yet in list, returns NULL.
151	* \param Z atomic number
152	* \return pointer to element or NULL if not found
153	*/
154	const element * periodentafel::FindElement(atomicNumber_t Z) const
155	{
156	const_iterator res = elements.find(Z);
157	return res!=elements.end()?((*res).second):0;
158	};
159
160	/** Finds an element by its atomic number.
161	* If element is not yet in list, datas are asked and stored in database.
162	* \param shorthand chemical symbol of the element, e.g. H for hydrogene
163	* \return pointer to element
164	*/
165	const element * periodentafel::FindElement(const string &shorthand) const
166	{
167	element *res = 0;
168	for(const_iterator iter=elements.begin();iter!=elements.end();++iter) {
169	if((*iter).second->getSymbol() == shorthand){
170	res = (*iter).second;
171	break;
172	}
173	}
174	return res;
175	};
176
177	/** Asks for element number and returns pointer to element
178	* \return desired element or NULL
179	*/
180	const element * periodentafel::AskElement() const
181	{
182	const element * walker = NULL;
183	int Z;
184	do {
185	DoLog(0) && (Log() << Verbose(0) << "Atomic number Z: ");
186	cin >> Z;
187	walker = this->FindElement(Z); // give type
188	} while (walker == NULL);
189	return walker;
190	};
191
192	/** Asks for element and if not found, presents mask to enter info.
193	* \return pointer to either present or newly created element
194	*/
195	const element * periodentafel::EnterElement()
196	{
197	atomicNumber_t Z = 0;
198	DoLog(0) && (Log() << Verbose(0) << "Atomic number: " << Z << endl);
199	cin >> Z;
200	const element *res = FindElement(Z);
201	if (!res) {
202	// TODO: make this using the constructor
203	DoLog(0) && (Log() << Verbose(0) << "Element not found in database, please enter." << endl);
204	element *tmp = new element;
205	tmp->Z = Z;
206	DoLog(0) && (Log() << Verbose(0) << "Mass: " << endl);
207	cin >> tmp->mass;
208	DoLog(0) && (Log() << Verbose(0) << "Name [max 64 chars]: " << endl);
209	cin >> tmp->getName();
210	DoLog(0) && (Log() << Verbose(0) << "Short form [max 3 chars]: " << endl);
211	cin >> tmp->getSymbol();
212	AddElement(tmp);
213	return tmp;
214	}
215	return res;
216	};
217
218
219	/****************** Access to iterators **************************/
220	periodentafel::const_iterator periodentafel::begin() const{
221	return elements.begin();
222	}
223
224	periodentafel::const_iterator periodentafel::end() const{
225	return elements.end();
226	}
227
228	periodentafel::reverse_iterator periodentafel::rbegin() const{
229	return reverse_iterator(elements.end());
230	}
231
232	periodentafel::reverse_iterator periodentafel::rend() const{
233	return reverse_iterator(elements.begin());
234	}
235
236	/** Prints period table to given stream.
237	* \param output stream
238	*/
239	bool periodentafel::Output(ostream * const output) const
240	{
241	bool result = true;
242	if (output != NULL) {
243	for(const_iterator iter=elements.begin(); iter !=elements.end();++iter){
244	result = result && (*iter).second->Output(output);
245	}
246	return result;
247	} else
248	return false;
249	};
250
251	/** Loads element list from file.
252	* \param *path to to standard file names
253	*/
254	bool periodentafel::LoadPeriodentafel(const char *path)
255	{
256	ifstream input;
257	bool status = true;
258	bool otherstatus = true;
259	char filename[255];
260
261	// fill elements DB
262	strncpy(filename, path, MAXSTRINGSIZE);
263	strncat(filename, "/", MAXSTRINGSIZE-strlen(filename));
264	strncat(filename, STANDARDELEMENTSDB, MAXSTRINGSIZE-strlen(filename));
265	input.open(filename);
266	if (!input.fail())
267	DoLog(0) && (Log() << Verbose(0) << "Using " << filename << " as elements database." << endl);
268	status = status && LoadElementsDatabase(input);
269	input.close();
270	input.clear();
271
272	// fill valence DB per element
273	strncpy(filename, path, MAXSTRINGSIZE);
274	strncat(filename, "/", MAXSTRINGSIZE-strlen(filename));
275	strncat(filename, STANDARDELECTRONEGATIVITYDB, MAXSTRINGSIZE-strlen(filename));
276	input.open(filename);
277	if (!input.fail())
278	DoLog(0) && (Log() << Verbose(0) << "Using " << filename << " as electronegativity database." << endl);
279	otherstatus = otherstatus && LoadElectronegativityDatabase(input);
280	input.close();
281	input.clear();
282
283	// fill valence DB per element
284	strncpy(filename, path, MAXSTRINGSIZE);
285	strncat(filename, "/", MAXSTRINGSIZE-strlen(filename));
286	strncat(filename, STANDARDVALENCEDB, MAXSTRINGSIZE-strlen(filename));
287	input.open(filename);
288	if (!input.fail())
289	DoLog(0) && (Log() << Verbose(0) << "Using " << filename << " as valence database." << endl);
290	otherstatus = otherstatus && LoadValenceDatabase(input);
291	input.close();
292	input.clear();
293
294	// fill orbitals DB per element
295	strncpy(filename, path, MAXSTRINGSIZE);
296	strncat(filename, "/", MAXSTRINGSIZE-strlen(filename));
297	strncat(filename, STANDARDORBITALDB, MAXSTRINGSIZE-strlen(filename));
298	input.open(filename);
299	if (!input.fail())
300	DoLog(0) && (Log() << Verbose(0) << "Using " << filename << " as orbitals database." << endl);
301	otherstatus = otherstatus && LoadOrbitalsDatabase(input);
302	input.close();
303	input.clear();
304
305	// fill H-BondAngle DB per element
306	strncpy(filename, path, MAXSTRINGSIZE);
307	strncat(filename, "/", MAXSTRINGSIZE-strlen(filename));
308	strncat(filename, STANDARDHBONDANGLEDB, MAXSTRINGSIZE-strlen(filename));
309	input.open(filename);
310	if (!input.fail())
311	DoLog(0) && (Log() << Verbose(0) << "Using " << filename << " as H bond angle database." << endl);
312	otherstatus = otherstatus && LoadHBondAngleDatabase(input);
313	input.close();
314	input.clear();
315
316	// fill H-BondDistance DB per element
317	strncpy(filename, path, MAXSTRINGSIZE);
318	strncat(filename, "/", MAXSTRINGSIZE-strlen(filename));
319	strncat(filename, STANDARDHBONDDISTANCEDB, MAXSTRINGSIZE-strlen(filename));
320	input.open(filename);
321	if (!input.fail())
322	DoLog(0) && (Log() << Verbose(0) << "Using " << filename << " as H bond length database." << endl);
323	otherstatus = otherstatus && LoadHBondLengthsDatabase(input);
324	input.close();
325	input.clear();
326
327	if (!otherstatus){
328	DoeLog(2) && (eLog()<< Verbose(2) << "Something went wrong while parsing the other databases!" << endl);
329	}
330
331	return status;
332	};
333
334	/** load the element info.
335	* \param *input stream to parse from
336	* \return true - parsing successful, false - something went wrong
337	*/
338	bool periodentafel::LoadElementsDatabase(istream &input)
339	{
340	bool status = true;
341	string header1tmp,header2tmp;
342	// first parse into a map, so we can revert to old status in case something goes wront
343	map<atomicNumber_t,element*> parsedElements;
344	if (!input.fail()) {
345	getline(input,header1tmp);
346	getline(input,header2tmp); // skip first two header lines
347	//cout << "First header: " << header1tmp << endl;
348	//cout << "Second header: " << header2tmp << endl;
349	// DoLog(0) && (Log() << Verbose(0) << "Parsed elements:");
350	while (!input.eof()) {
351	element *neues = new element;
352	input >> neues->name;
353	//input >> ws;
354	input >> neues->symbol;
355	//input >> ws;
356	input >> neues->period;
357	//input >> ws;
358	input >> neues->group;
359	//input >> ws;
360	input >> neues->block;
361	//input >> ws;
362	input >> neues->Z;
363	//input >> ws;
364	input >> neues->mass;
365	//input >> ws;
366	input >> neues->CovalentRadius;
367	//input >> ws;
368	input >> neues->VanDerWaalsRadius;
369	//input >> ws;
370	input >> ws;
371	//neues->Output((ofstream *)&cout);
372	if ((neues->getNumber() > 0) && (neues->getNumber() < MAX_ELEMENTS)) {
373	parsedElements[neues->Z] = neues;
374	// DoLog(0) && (Log() << Verbose(0) << " " << *neues);
375	} else {
376	DoeLog(2) && (eLog() << Verbose(2) << "Detected empty line or invalid element in elements db, discarding." << endl);
377	DoLog(0) && (Log() << Verbose(0) << " <?>");
378	delete(neues);
379	}
380	// when the input is in failed state, we most likely just read garbage
381	if(input.fail()) {
382	DoeLog(2) && (eLog() << Verbose(2) << "Error parsing elements db." << endl);
383	status = false;
384	break;
385	}
386	}
387	// DoLog(0) && (Log() << Verbose(0) << endl);
388	} else {
389	DoeLog(1) && (eLog() << Verbose(1) << "Could not open the database." << endl);
390	status = false;
391	}
392
393	if (!parsedElements.size())
394	status = false;
395
396	if(status){
397	for(map<atomicNumber_t,element*>::iterator iter=parsedElements.begin();
398	iter!=parsedElements.end();
399	++iter){
400	if (elements.count(iter->first)) {
401	// if element already present, replace the old one
402	// pointer to old element might still be in use, so we have to replace into the old element
403	(elements[iter->first])=iter->second;
404	delete(iter->second);
405	}
406	else {
407	// no such element in periodentafel... we can just insert
408	elements[iter->first] = iter->second;
409	}
410	}
411	// all went well.. we now copy the header
412	strncpy(header1,header1tmp.c_str(),MAXSTRINGSIZE);
413	header1[MAXSTRINGSIZE-1]=0;
414	strncpy(header2,header2tmp.c_str(),MAXSTRINGSIZE);
415	header2[MAXSTRINGSIZE-1]=0;
416	}
417
418	return status;
419	}
420
421	/** load the electronegativity info.
422	* \param *input stream to parse from
423	* \return true - parsing successful, false - something went wrong
424	*/
425	bool periodentafel::LoadElectronegativityDatabase(std::istream &input)
426	{
427	char dummy[MAXSTRINGSIZE];
428	if (!input.fail()) {
429	input.getline(dummy, MAXSTRINGSIZE);
430	while (!input.eof()) {
431	atomicNumber_t Z;
432	input >> Z;
433	ASSERT(elements.count(Z), "Element not present");
434	input >> ws;
435	input >> elements[Z]->Electronegativity;
436	input >> ws;
437	//DoLog(1) && (Log() << Verbose(1)
438	// << "Element " << Z << " has " << FindElement(Z)->Electronegativity << " valence electrons." << endl);
439	}
440	return true;
441	} else
442	return false;
443	}
444
445	/** load the valence info.
446	* \param *input stream to parse from
447	* \return true - parsing successful, false - something went wrong
448	*/
449	bool periodentafel::LoadValenceDatabase(istream &input)
450	{
451	char dummy[MAXSTRINGSIZE];
452	if (!input.fail()) {
453	input.getline(dummy, MAXSTRINGSIZE);
454	while (!input.eof()) {
455	atomicNumber_t Z;
456	input >> Z;
457	ASSERT(elements.count(Z), "Element not present");
458	input >> ws;
459	input >> elements[Z]->Valence;
460	input >> ws;
461	//Log() << Verbose(3) << "Element " << Z << " has " << FindElement(Z)->Valence << " valence electrons." << endl;
462	}
463	return true;
464	} else
465	return false;
466	}
467
468	/** load the orbitals info.
469	* \param *input stream to parse from
470	* \return true - parsing successful, false - something went wrong
471	*/
472	bool periodentafel::LoadOrbitalsDatabase(istream &input)
473	{
474	char dummy[MAXSTRINGSIZE];
475	if (!input.fail()) {
476	input.getline(dummy, MAXSTRINGSIZE);
477	while (!input.eof()) {
478	atomicNumber_t Z;
479	input >> Z;
480	ASSERT(elements.count(Z), "Element not present");
481	input >> ws;
482	input >> elements[Z]->NoValenceOrbitals;
483	input >> ws;
484	//Log() << Verbose(3) << "Element " << Z << " has " << FindElement(Z)->NoValenceOrbitals << " number of singly occupied valence orbitals." << endl;
485	}
486	return true;
487	} else
488	return false;
489	}
490
491	/** load the hbond angles info.
492	* \param *input stream to parse from
493	* \return true - parsing successful, false - something went wrong
494	*/
495	bool periodentafel::LoadHBondAngleDatabase(istream &input)
496	{
497	char dummy[MAXSTRINGSIZE];
498	if (!input.fail()) {
499	input.getline(dummy, MAXSTRINGSIZE);
500	while (!input.eof()) {
501	atomicNumber_t Z;
502	input >> Z;
503	ASSERT(elements.count(Z), "Element not present");
504	input >> ws;
505	input >> elements[Z]->HBondAngle[0];
506	input >> elements[Z]->HBondAngle[1];
507	input >> elements[Z]->HBondAngle[2];
508	input >> ws;
509	//Log() << Verbose(3) << "Element " << (int)tmp << " has " << FindElement((int)tmp)->HBondAngle[0] << ", " << FindElement((int)tmp)->HBondAngle[1] << ", " << FindElement((int)tmp)->HBondAngle[2] << " degrees bond angle for one, two, three connected hydrogens." << endl;
510	}
511	return true;
512	} else
513	return false;
514	}
515
516	/** load the hbond lengths info.
517	* \param *input stream to parse from
518	* \return true - parsing successful, false - something went wrong
519	*/
520	bool periodentafel::LoadHBondLengthsDatabase(istream &input)
521	{
522	char dummy[MAXSTRINGSIZE];
523	if (!input.fail()) {
524	input.getline(dummy, MAXSTRINGSIZE);
525	while (!input.eof()) {
526	atomicNumber_t Z;
527	input >> Z;
528	ASSERT(elements.count(Z), "Element not present");
529	input >> ws;
530	input >> elements[Z]->HBondDistance[0];
531	input >> elements[Z]->HBondDistance[1];
532	input >> elements[Z]->HBondDistance[2];
533	input >> ws;
534	//Log() << Verbose(3) << "Element " << (int)tmp << " has " << FindElement((int)tmp)->HBondDistance[0] << " Angstrom typical distance to hydrogen." << endl;
535	}
536	return true;
537	} else
538	return false;
539	}
540
541	/** load the color info.
542	* \param *input stream to parse from
543	* \return true - parsing successful, false - something went wrong
544	*/
545	bool periodentafel::LoadColorDatabase(istream &input)
546	{
547	char dummy[MAXSTRINGSIZE];
548	if (!input.fail()) {
549	input.getline(dummy, MAXSTRINGSIZE);
550	while (!input.eof()) {
551	atomicNumber_t Z;
552	input >> Z;
553	ASSERT(elements.count(Z), "Element not present");
554	input >> ws;
555	input >> dummy;
556	{
557	int tmpcolor; // char here will only parse a single char (i.e. only "2" out of "255")
558	for (int i=0;i<3;++i) {
559	input >> ws;
560	input >> tmpcolor;
561	elements[Z]->color[i] = (unsigned char)tmpcolor;
562	}
563	}
564	input >> ws;
565	// {
566	// const element * tmp = FindElement(Z);
567	// LOG(0, "Element " << tmp->getName() << " has ("
568	// << (int)tmp->color[0] << "," << (int)tmp->color[1] << "," << (int)tmp->color[2]
569	// << ") colors.");
570	// }
571	}
572	return true;
573	} else
574	return false;
575	}
576
577	/** Stores element list to file.
578	*/
579	bool periodentafel::StorePeriodentafel(const char *path) const
580	{
581	bool result = true;
582	ofstream f;
583	char filename[MAXSTRINGSIZE];
584
585	strncpy(filename, path, MAXSTRINGSIZE);
586	strncat(filename, "/", MAXSTRINGSIZE-strlen(filename));
587	strncat(filename, STANDARDELEMENTSDB, MAXSTRINGSIZE-strlen(filename));
588	f.open(filename);
589	if (f != NULL) {
590	f << header1 << endl;
591	f << header2 << endl;
592	for(const_iterator iter=elements.begin();iter!=elements.end();++iter){
593	result = result && (*iter).second->Output(&f);
594	}
595	f.close();
596	return true;
597	} else
598	return result;
599	};

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