[ViewVC] Diff of: OpenMD/trunk/src/brains/SimInfo.hpp

Comparing trunk/src/brains/SimInfo.hpp (file contents):
Revision 770 by tim, Fri Dec 2 15:38:03 2005 UTC vs.
Revision 1287 by gezelter, Wed Sep 10 18:11:32 2008 UTC

#	Line 54 \| Line 54
54		#include <utility>
55		#include <vector>
56
57	<	#include "brains/Exclude.hpp"
57	>	#include "brains/PairList.hpp"
58		#include "io/Globals.hpp"
59		#include "math/Vector3.hpp"
60		#include "math/SquareMatrix3.hpp"
#	Line 73 \| Line 73 \| namespace oopse{
73		class SnapshotManager;
74		class Molecule;
75		class SelectionManager;
76	+	class StuntDouble;
77		/**
78		* @class SimInfo SimInfo.hpp "brains/SimInfo.hpp"
79	<	* @brief As one of the heavy weight class of OOPSE, SimInfo
80	<	* One of the major changes in SimInfo class is the data struct. It only maintains a list of molecules.
81	<	* And the Molecule class will maintain all of the concrete objects (atoms, bond, bend, torsions, rigid bodies,
82	<	* cutoff groups, constrains).
83	<	* Another major change is the index. No matter single version or parallel version, atoms and
84	<	* rigid bodies have both global index and local index. Local index is not important to molecule as well as
85	<	* cutoff group.
85	<	*/
79	>	* @brief One of the heavy weight classes of OOPSE, SimInfo maintains a list of molecules.
80	>	* The Molecule class maintains all of the concrete objects
81	>	* (atoms, bond, bend, torsions, inversions, rigid bodies, cutoff groups,
82	>	* constraints). In both the single and parallel versions, atoms and
83	>	* rigid bodies have both global and local indices. The local index is
84	>	* not relevant to molecules or cutoff groups.
85	>	*/
86		class SimInfo {
87		public:
88		typedef std::map<int, Molecule*>::iterator MoleculeIterator;
#	Line 171 \| Line 171 \| namespace oopse{
171		return nTorsions_;
172		}
173
174	+	/** Returns the number of local torsions */
175	+	unsigned int getNInversions() {
176	+	return nInversions_;
177	+	}
178		/** Returns the number of local rigid bodies */
179		unsigned int getNRigidBodies() {
180		return nRigidBodies_;
#	Line 207 \| Line 211 \| namespace oopse{
211
212		/** Returns the number of degrees of freedom */
213		int getNdf() {
214	<	return ndf_;
214	>	return ndf_ - getFdf();
215		}
216
217		/** Returns the number of raw degrees of freedom */
#	Line 220 \| Line 224 \| namespace oopse{
224		return ndfTrans_;
225		}
226
227	+	/** sets the current number of frozen degrees of freedom */
228	+	void setFdf(int fdf) {
229	+	fdf_local = fdf;
230	+	}
231	+
232	+	int getFdf();
233	+
234		//getNZconstraint and setNZconstraint ruin the coherent of SimInfo class, need refactorying
235
236		/** Returns the total number of z-constraint molecules in the system */
#	Line 265 \| Line 276 \| namespace oopse{
276		/** Returns system angular momentum */
277		Vector3d getAngularMomentum();
278
279	+	/** Returns volume of system as estimated by an ellipsoid defined by the radii of gyration*/
280	+	void getGyrationalVolume(RealType &vol);
281	+	/** Overloaded version of gyrational volume that also returns det(I) so dV/dr can be calculated*/
282	+	void getGyrationalVolume(RealType &vol, RealType &detI);
283		/** main driver function to interact with fortran during the initialization and molecule migration */
284		void update();
285
#	Line 299 \| Line 314 \| namespace oopse{
314		return i != molecules_.end() ? i->second : NULL;
315		}
316
317	<	double getRcut() {
317	>	RealType getRcut() {
318		return rcut_;
319		}
320
321	<	double getRsw() {
321	>	RealType getRsw() {
322		return rsw_;
323		}
324
325	<	double getList() {
325	>	RealType getList() {
326		return rlist_;
327		}
328
329		std::string getFinalConfigFileName() {
330		return finalConfigFileName_;
331		}
332	<
332	>
333		void setFinalConfigFileName(const std::string& fileName) {
334		finalConfigFileName_ = fileName;
335		}
336
337	+	std::string getRawMetaData() {
338	+	return rawMetaData_;
339	+	}
340	+	void setRawMetaData(const std::string& rawMetaData) {
341	+	rawMetaData_ = rawMetaData;
342	+	}
343	+
344		std::string getDumpFileName() {
345		return dumpFileName_;
346		}
#	Line 348 \| Line 370 \| namespace oopse{
370		* @see #SimCreator::setGlobalIndex
371		*/
372		void setGlobalGroupMembership(const std::vector<int>& globalGroupMembership) {
373	<	assert(globalGroupMembership.size() == nGlobalAtoms_);
373	>	assert(globalGroupMembership.size() == static_cast<size_t>(nGlobalAtoms_));
374		globalGroupMembership_ = globalGroupMembership;
375		}
376
#	Line 357 \| Line 379 \| namespace oopse{
379		* @see #SimCreator::setGlobalIndex
380		*/
381		void setGlobalMolMembership(const std::vector<int>& globalMolMembership) {
382	<	assert(globalMolMembership.size() == nGlobalAtoms_);
382	>	assert(globalMolMembership.size() == static_cast<size_t>(nGlobalAtoms_));
383		globalMolMembership_ = globalMolMembership;
384		}
385
#	Line 366 \| Line 388 \| namespace oopse{
388		return fortranInitialized_;
389		}
390
391	+	bool getCalcBoxDipole() {
392	+	return calcBoxDipole_;
393	+	}
394	+
395	+	bool getUseAtomicVirial() {
396	+	return useAtomicVirial_;
397	+	}
398	+
399		//below functions are just forward functions
400		//To compose or to inherit is always a hot debate. In general, is-a relation need subclassing, in the
401		//the other hand, has-a relation need composing.
#	Line 407 \| Line 437 \| namespace oopse{
437		GenericData* getPropertyByName(const std::string& propName);
438
439		/**
440	<	* add all exclude pairs of a molecule into exclude list.
440	>	* add all special interaction pairs (including excluded
441	>	* interactions) in a molecule into the appropriate lists.
442		*/
443	<	void addExcludePairs(Molecule* mol);
443	>	void addInteractionPairs(Molecule* mol);
444
445		/**
446	<	* remove all exclude pairs which belong to a molecule from exclude list
446	>	* remove all special interaction pairs which belong to a molecule
447	>	* from the appropriate lists.
448		*/
449	+	void removeInteractionPairs(Molecule* mol);
450
418	–	void removeExcludePairs(Molecule* mol);
451
420	–
452		/** Returns the unique atom types of local processor in an array */
453		std::set<AtomType*> getUniqueAtomTypes();
454
455		friend std::ostream& operator <<(std::ostream& o, SimInfo& info);
456
457	<	void getCutoff(double& rcut, double& rsw);
457	>	void getCutoff(RealType& rcut, RealType& rsw);
458
459		private:
460
#	Line 444 \| Line 475 \| namespace oopse{
475
476		/** Figure out which polynomial type to use for the switching function */
477		void setupSwitchingFunction();
478	+
479	+	/** Determine if we need to accumulate the simulation box dipole */
480	+	void setupAccumulateBoxDipole();
481
482		/** Calculates the number of degress of freedom in the whole system */
483		void calcNdf();
#	Line 463 \| Line 497 \| namespace oopse{
497
498		//degress of freedom
499		int ndf_; /*< number of degress of freedom (excludes constraints), ndf_ is local /
500	+	int fdf_local; /*< number of frozen degrees of freedom /
501	+	int fdf_; /*< number of frozen degrees of freedom /
502		int ndfRaw_; /*< number of degress of freedom (includes constraints), ndfRaw_ is local /
503		int ndfTrans_; /*< number of translation degress of freedom, ndfTrans_ is local /
504		int nZconstraint_; /** number of z-constraint molecules, nZconstraint_ is global */
#	Line 492 \| Line 528 \| namespace oopse{
528		std::vector<MoleculeStamp> moleculeStamps_; /< molecule stamps array /
529
530		//number of local objects
531	<	int nAtoms_; /*< number of atoms in local processor /
532	<	int nBonds_; /*< number of bonds in local processor /
533	<	int nBends_; /*< number of bends in local processor /
534	<	int nTorsions_; /*< number of torsions in local processor /
535	<	int nRigidBodies_; /*< number of rigid bodies in local processor /
536	<	int nIntegrableObjects_; /*< number of integrable objects in local processor /
537	<	int nCutoffGroups_; /*< number of cutoff groups in local processor /
538	<	int nConstraints_; /*< number of constraints in local processors /
531	>	int nAtoms_; /*< number of atoms in local processor /
532	>	int nBonds_; /*< number of bonds in local processor /
533	>	int nBends_; /*< number of bends in local processor /
534	>	int nTorsions_; /*< number of torsions in local processor /
535	>	int nInversions_; /*< number of inversions in local processor /
536	>	int nRigidBodies_; /*< number of rigid bodies in local processor /
537	>	int nIntegrableObjects_; /*< number of integrable objects in local processor /
538	>	int nCutoffGroups_; /*< number of cutoff groups in local processor /
539	>	int nConstraints_; /*< number of constraints in local processors /
540
541		simtype fInfo_; /*< A dual struct shared by c++/fortran which indicates the atom types in simulation/
542	<	Exclude exclude_;
542	>	PairList excludedInteractions_;
543	>	PairList oneTwoInteractions_;
544	>	PairList oneThreeInteractions_;
545	>	PairList oneFourInteractions_;
546		PropertyMap properties_; /*< Generic Property /
547		SnapshotManager* sman_; /*< SnapshotManager /
548
#	Line 514 \| Line 554 \| namespace oopse{
554		*/
555		LocalIndexManager localIndexMan_;
556
557	+	// unparsed MetaData block for storing in Dump and EOR files:
558	+	std::string rawMetaData_;
559	+
560		//file names
561		std::string finalConfigFileName_;
562		std::string dumpFileName_;
563		std::string statFileName_;
564		std::string restFileName_;
565
566	<	double rcut_; /*< cutoff radius/
567	<	double rsw_; /*< radius of switching function/
568	<	double rlist_; /*< neighbor list radius /
566	>	RealType rcut_; /*< cutoff radius/
567	>	RealType rsw_; /*< radius of switching function/
568	>	RealType rlist_; /*< neighbor list radius /
569
570	<	bool fortranInitialized_; /*< flag indicate whether fortran side is initialized /
570	>	bool ljsp_; /*< use shifted potential for LJ/
571	>	bool ljsf_; /*< use shifted force for LJ/
572
573	<	#ifdef IS_MPI
573	>	bool fortranInitialized_; /**< flag indicate whether fortran side
574	>	is initialized */
575	>
576	>	bool calcBoxDipole_; /**< flag to indicate whether or not we calculate
577	>	the simulation box dipole moment */
578	>
579	>	bool useAtomicVirial_; /**< flag to indicate whether or not we use
580	>	Atomic Virials to calculate the pressure */
581	>
582	>	public:
583	>	/**
584	>	* return an integral objects by its global index. In MPI version, if the StuntDouble with specified
585	>	* global index does not belong to local processor, a NULL will be return.
586	>	*/
587	>	StuntDouble* getIOIndexToIntegrableObject(int index);
588	>	void setIOIndexToIntegrableObject(const std::vector<StuntDouble*>& v);
589	>	private:
590	>	std::vector<StuntDouble*> IOIndexToIntegrableObject;
591	>	//public:
592	>	//void setStuntDoubleFromGlobalIndex(std::vector<StuntDouble*> v);
593	>	/**
594	>	* return a StuntDouble by its global index. In MPI version, if the StuntDouble with specified
595	>	* global index does not belong to local processor, a NULL will be return.
596	>	*/
597	>	//StuntDouble* getStuntDoubleFromGlobalIndex(int index);
598	>	//private:
599	>	//std::vector<StuntDouble*> sdByGlobalIndex_;
600	>
601		//in Parallel version, we need MolToProc
602		public:
603
#	Line 553 \| Line 624 \| namespace oopse{
624		void setupFortranParallel();
625
626		/**
627	<	* The size of molToProcMap_ is equal to total number of molecules in the system.
628	<	* It maps a molecule to the processor on which it resides. it is filled by SimCreator once and only
629	<	* once.
627	>	* The size of molToProcMap_ is equal to total number of molecules
628	>	* in the system. It maps a molecule to the processor on which it
629	>	* resides. it is filled by SimCreator once and only once.
630		*/
631		std::vector<int> molToProcMap_;
632
562	–	#endif
633
634		};
635

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Comparing trunk/src/brains/SimInfo.hpp (file contents): Revision 770 by tim, Fri Dec 2 15:38:03 2005 UTC vs. Revision 1287 by gezelter, Wed Sep 10 18:11:32 2008 UTC

Diff Legend

Comparing trunk/src/brains/SimInfo.hpp (file contents):
Revision 770 by tim, Fri Dec 2 15:38:03 2005 UTC vs.
Revision 1287 by gezelter, Wed Sep 10 18:11:32 2008 UTC