source: src/World.hpp@ 5f1d5b8

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Last change on this file since 5f1d5b8 was 5f1d5b8, checked in by Frederik Heber <heber@…>, 14 years ago

BUGFIX: fixed undefined ref to ObservedContainer<...>::begin()/end()/count()/... at -O1

  • test_all.sh did not fail compilation at -O1 (though working fine at -g3, i.e. -O0).
  • Seems like a compiler bug (optimization makes some assumption we do not fulfill, ...)
  • FIX: wrote macro to explicitly instantiate all member functions of ObservedContainer, called CONSTRUCT_OBSERVEDCONTAINER(name).
  • Is used by the world for AtomSet and MoleculeSet
  • had to introduce typedefs for the STL-Sets as "set<bla,bla>" is parsed as two arguments by the preprocessor ... d'oh.
  • Property mode set to 100644
File size: 13.0 KB
Line 
1/*
2 * World.hpp
3 *
4 * Created on: Feb 3, 2010
5 * Author: crueger
6 */
7
8#ifndef WORLD_HPP_
9#define WORLD_HPP_
10
11/*********************************************** includes ***********************************/
12
13#include <string>
14#include <map>
15#include <vector>
16#include <set>
17#include <boost/thread.hpp>
18#include <boost/shared_ptr.hpp>
19
20#include "types.hpp"
21#include "Descriptors/SelectiveIterator.hpp"
22#include "Patterns/Observer.hpp"
23#include "Patterns/Cacheable.hpp"
24#include "Patterns/Singleton.hpp"
25#include "Patterns/ObservedContainer.hpp"
26#include "Helpers/Range.hpp"
27#include "AtomSet.hpp"
28
29// include config.h
30#ifdef HAVE_CONFIG_H
31#include <config.h>
32#endif
33
34// forward declarations
35class atom;
36class AtomDescriptor;
37class AtomDescriptor_impl;
38template<typename T> class AtomsCalculation;
39class Box;
40class config;
41class ManipulateAtomsProcess;
42class Matrix;
43class molecule;
44class MoleculeDescriptor;
45class MoleculeDescriptor_impl;
46class MoleculeListClass;
47class periodentafel;
48class ThermoStatContainer;
49
50
51/****************************************** forward declarations *****************************/
52
53/********************************************** Class World *******************************/
54
55class World : public Singleton<World>, public Observable
56{
57
58// Make access to constructor and destructor possible from inside the singleton
59friend class Singleton<World>;
60
61// necessary for coupling with descriptors
62friend class AtomDescriptor_impl;
63friend class AtomDescriptor;
64friend class MoleculeDescriptor_impl;
65friend class MoleculeDescriptor;
66// coupling with descriptors over selection
67friend class AtomSelectionDescriptor_impl;
68friend class MoleculeSelectionDescriptor_impl;
69
70// Actions, calculations etc associated with the World
71friend class ManipulateAtomsProcess;
72template<typename> friend class AtomsCalculation;
73public:
74 // some typedefs for the CONSTRUCT_... macros (no "," allows in a single parameter name)
75 typedef std::map<atomId_t,atom*> AtomSTLSet;
76 typedef std::map<moleculeId_t,molecule*> MoleculeSTLSet;
77
78 // Types for Atom and Molecule structures
79 typedef ObservedContainer< AtomSTLSet > AtomSet;
80 typedef ObservedContainer< MoleculeSTLSet > MoleculeSet;
81
82 typedef ATOMSET(std::vector) AtomComposite;
83
84 /***** getter and setter *****/
85 // reference to pointer is used for legacy reason... reference will be removed latter to keep encapsulation of World object
86 /**
87 * returns the periodentafel for the world.
88 */
89 periodentafel *&getPeriode();
90
91 /**
92 * returns the configuration for the world.
93 */
94 config *&getConfig();
95
96 /**
97 * returns the first atom that matches a given descriptor.
98 * Do not rely on ordering for descriptors that match more than one atom.
99 */
100 atom* getAtom(AtomDescriptor descriptor);
101
102 /**
103 * returns a vector containing all atoms that match a given descriptor
104 */
105 AtomComposite getAllAtoms(AtomDescriptor descriptor);
106 AtomComposite getAllAtoms();
107
108 /**
109 * returns a calculation that calls a given function on all atoms matching a descriptor.
110 * the calculation is not called at this point and can be used as an action, i.e. be stored in
111 * menus, be kept around for later use etc.
112 */
113 template<typename T> AtomsCalculation<T>* calcOnAtoms(boost::function<T(atom*)>,std::string,AtomDescriptor);
114 template<typename T> AtomsCalculation<T>* calcOnAtoms(boost::function<T(atom*)>,std::string);
115
116 /**
117 * get the number of atoms in the World
118 */
119 int numAtoms();
120
121 /**
122 * returns the first molecule that matches a given descriptor.
123 * Do not rely on ordering for descriptors that match more than one molecule.
124 */
125 molecule *getMolecule(MoleculeDescriptor descriptor);
126
127 /**
128 * returns a vector containing all molecules that match a given descriptor
129 */
130 std::vector<molecule*> getAllMolecules(MoleculeDescriptor descriptor);
131 std::vector<molecule*> getAllMolecules();
132
133 /**
134 * get the number of molecules in the World
135 */
136 int numMolecules();
137
138 /**
139 * get the domain size as a symmetric matrix (6 components)
140 */
141 Box& getDomain();
142
143 /**
144 * Set the domain size from a matrix object
145 *
146 * Matrix needs to be symmetric
147 */
148 void setDomain(const Matrix &mat);
149
150 /**
151 * set the domain size as a symmetric matrix (6 components)
152 */
153 void setDomain(double * matrix);
154
155 /**
156 * get the default name
157 */
158 std::string getDefaultName();
159
160 /**
161 * set the default name
162 */
163 void setDefaultName(std::string name);
164
165 /**
166 * get pointer to World's ThermoStatContainer
167 */
168 ThermoStatContainer * getThermostats();
169
170 /*
171 * get the ExitFlag
172 */
173 int getExitFlag();
174
175 /*
176 * set the ExitFlag
177 */
178 void setExitFlag(int flag);
179
180 /***** Methods to work with the World *****/
181
182 /**
183 * create a new molecule. This method should be used whenever any kind of molecule is needed. Assigns a unique
184 * ID to the molecule and stores it in the World for later retrieval. Do not create molecules directly.
185 */
186 molecule *createMolecule();
187
188 void destroyMolecule(molecule*);
189 void destroyMolecule(moleculeId_t);
190
191 /**
192 * Create a new atom. This method should be used whenever any atom is needed. Assigns a unique ID and stores
193 * the atom in the World. If the atom is not destroyed it will automatically be destroyed when the world ends.
194 */
195 atom *createAtom();
196
197 /**
198 * Registers a Atom unknown to world. Needed in some rare cases, e.g. when cloning atoms, or in some unittests.
199 * Do not re-register Atoms already known to the world since this will cause double-frees.
200 */
201 int registerAtom(atom*);
202
203 /**
204 * Delete some atom and erase it from the world. Use this whenever you need to destroy any atom. Do not call delete on
205 * atom directly since this will leave the pointer inside the world.
206 */
207 void destroyAtom(atom*);
208
209 /**
210 * Delete some atom and erase it from the world. Use this whenever you need to destroy any atom. Do not call delete on
211 * atom directly since this will leave the pointer inside the world.
212 */
213 void destroyAtom(atomId_t);
214
215 /**
216 * used when changing an atom Id.
217 * Unless you are calling this method from inside an atom don't fiddle with the third parameter.
218 *
219 * Return value indicates wether the change could be done or not.
220 */
221 bool changeAtomId(atomId_t oldId, atomId_t newId, atom* target=0);
222
223 /**
224 * used when changing an molecule Id.
225 * Unless you are calling this method from inside an moleucle don't fiddle with the third parameter.
226 *
227 * Return value indicates wether the change could be done or not.
228 */
229 bool changeMoleculeId(moleculeId_t oldId, moleculeId_t newId, molecule* target=0);
230
231 /**
232 * Produces a process that calls a function on all Atoms matching a given descriptor. The process is not
233 * called at this time, so it can be passed around, stored inside menuItems etc.
234 */
235 ManipulateAtomsProcess* manipulateAtoms(boost::function<void(atom*)>,std::string,AtomDescriptor);
236 ManipulateAtomsProcess* manipulateAtoms(boost::function<void(atom*)>,std::string);
237
238 /****
239 * Iterators to use internal data structures
240 * All these iterators are observed to track changes.
241 * There is a corresponding protected section with unobserved iterators,
242 * which can be used internally when the extra speed is needed
243 */
244
245 typedef SelectiveIterator<atom*,AtomSet,AtomDescriptor> AtomIterator;
246
247 /**
248 * returns an iterator over all Atoms matching a given descriptor.
249 * This iterator is observed, so don't keep it around unnecessary to
250 * avoid unintended blocking.
251 */
252 AtomIterator getAtomIter(AtomDescriptor descr);
253 AtomIterator getAtomIter();
254
255 AtomIterator atomEnd();
256
257 typedef SelectiveIterator<molecule*,MoleculeSet,MoleculeDescriptor> MoleculeIterator;
258
259 /**
260 * returns an iterator over all Molecules matching a given descriptor.
261 * This iterator is observed, so don't keep it around unnecessary to
262 * avoid unintended blocking.
263 */
264 MoleculeIterator getMoleculeIter(MoleculeDescriptor descr);
265 MoleculeIterator getMoleculeIter();
266
267 MoleculeIterator moleculeEnd();
268
269 /******** Selections of molecules and Atoms *************/
270 void clearAtomSelection();
271 void selectAtom(atom*);
272 void selectAtom(atomId_t);
273 void selectAllAtoms(AtomDescriptor);
274 void selectAtomsOfMolecule(molecule*);
275 void selectAtomsOfMolecule(moleculeId_t);
276 void unselectAtom(atom*);
277 void unselectAtom(atomId_t);
278 void unselectAllAtoms(AtomDescriptor);
279 void unselectAtomsOfMolecule(molecule*);
280 void unselectAtomsOfMolecule(moleculeId_t);
281 size_t countSelectedAtoms() const;
282 bool isSelected(atom *_atom) const;
283 const std::vector<atom *> getSelectedAtoms() const;
284
285 void clearMoleculeSelection();
286 void selectMolecule(molecule*);
287 void selectMolecule(moleculeId_t);
288 void selectAllMolecules(MoleculeDescriptor);
289 void selectMoleculeOfAtom(atom*);
290 void selectMoleculeOfAtom(atomId_t);
291 void unselectMolecule(molecule*);
292 void unselectMolecule(moleculeId_t);
293 void unselectAllMolecules(MoleculeDescriptor);
294 void unselectMoleculeOfAtom(atom*);
295 void unselectMoleculeOfAtom(atomId_t);
296 size_t countSelectedMolecules() const;
297 bool isSelected(molecule *_mol) const;
298 const std::vector<molecule *> getSelectedMolecules() const;
299
300 /******************** Iterators to selections *****************/
301 typedef AtomSet::iterator AtomSelectionIterator;
302 AtomSelectionIterator beginAtomSelection();
303 AtomSelectionIterator endAtomSelection();
304
305 typedef MoleculeSet::iterator MoleculeSelectionIterator;
306 MoleculeSelectionIterator beginMoleculeSelection();
307 MoleculeSelectionIterator endMoleculeSelection();
308
309protected:
310 /****
311 * Iterators to use internal data structures
312 * All these iterators are unobserved for speed reasons.
313 * There is a corresponding public section to these methods,
314 * which produce observed iterators.*/
315
316 // Atoms
317 typedef SelectiveIterator<atom*,AtomSet::set_t,AtomDescriptor> internal_AtomIterator;
318
319 /**
320 * returns an iterator over all Atoms matching a given descriptor.
321 * used for internal purposes, like AtomProcesses and AtomCalculations.
322 */
323 internal_AtomIterator getAtomIter_internal(AtomDescriptor descr);
324
325 /**
326 * returns an iterator to the end of the AtomSet. Due to overloading this iterator
327 * can be compared to iterators produced by getAtomIter (see the mis-matching types).
328 * Thus it can be used to detect when such an iterator is at the end of the list.
329 * used for internal purposes, like AtomProcesses and AtomCalculations.
330 */
331 internal_AtomIterator atomEnd_internal();
332
333 // Molecules
334 typedef SelectiveIterator<molecule*,MoleculeSet::set_t,MoleculeDescriptor> internal_MoleculeIterator;
335
336
337 /**
338 * returns an iterator over all Molecules matching a given descriptor.
339 * used for internal purposes, like MoleculeProcesses and MoleculeCalculations.
340 */
341 internal_MoleculeIterator getMoleculeIter_internal(MoleculeDescriptor descr);
342
343 /**
344 * returns an iterator to the end of the MoleculeSet. Due to overloading this iterator
345 * can be compared to iterators produced by getMoleculeIter (see the mis-matching types).
346 * Thus it can be used to detect when such an iterator is at the end of the list.
347 * used for internal purposes, like MoleculeProcesses and MoleculeCalculations.
348 */
349 internal_MoleculeIterator moleculeEnd_internal();
350
351
352 /******* Internal manipulation routines for double callback and Observer mechanism ******/
353 void doManipulate(ManipulateAtomsProcess *);
354
355private:
356
357 atomId_t getNextAtomId();
358 void releaseAtomId(atomId_t);
359 bool reserveAtomId(atomId_t);
360 void defragAtomIdPool();
361
362 moleculeId_t getNextMoleculeId();
363 void releaseMoleculeId(moleculeId_t);
364 bool reserveMoleculeId(moleculeId_t);
365 void defragMoleculeIdPool();
366
367 periodentafel *periode;
368 config *configuration;
369 Box *cell_size;
370 std::string defaultName;
371 class ThermoStatContainer *Thermostats;
372 int ExitFlag;
373private:
374
375 AtomSet atoms;
376 AtomSet selectedAtoms;
377 typedef std::set<range<atomId_t> > atomIdPool_t;
378 /**
379 * stores the pool for all available AtomIds below currAtomId
380 *
381 * The pool contains ranges of free ids in the form [bottom,top).
382 */
383 atomIdPool_t atomIdPool;
384 atomId_t currAtomId; //!< stores the next available Id for atoms
385 size_t lastAtomPoolSize; //!< size of the pool after last defrag, to skip some defrags
386 unsigned int numAtomDefragSkips;
387
388 MoleculeSet molecules;
389 MoleculeSet selectedMolecules;
390 typedef std::set<range<atomId_t> > moleculeIdPool_t;
391 /**
392 * stores the pool for all available AtomIds below currAtomId
393 *
394 * The pool contains ranges of free ids in the form [bottom,top).
395 */
396 moleculeIdPool_t moleculeIdPool;
397 moleculeId_t currMoleculeId;
398 size_t lastMoleculePoolSize; //!< size of the pool after last defrag, to skip some defrags
399 unsigned int numMoleculeDefragSkips;
400private:
401 /**
402 * private constructor to ensure creation of the world using
403 * the singleton pattern.
404 */
405 World();
406
407 /**
408 * private destructor to ensure destruction of the world using the
409 * singleton pattern.
410 */
411 virtual ~World();
412
413 /*****
414 * some legacy stuff that is include for now but will be removed later
415 *****/
416public:
417 MoleculeListClass *&getMolecules();
418
419private:
420 MoleculeListClass *molecules_deprecated;
421};
422
423#endif /* WORLD_HPP_ */
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