132 |
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\begin{lstlisting}[float,caption={[A classic Singleton design pattern implementation(I)] Declaration of {\tt IntegratorFactory} class.},label={appendixScheme:singletonDeclaration}] |
133 |
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|
134 |
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class IntegratorFactory { |
135 |
< |
public: |
136 |
< |
static IntegratorFactory* getInstance(); |
137 |
< |
protected: |
138 |
< |
IntegratorFactory(); |
139 |
< |
private: |
140 |
< |
static IntegratorFactory* instance_; |
135 |
> |
public: |
136 |
> |
static IntegratorFactory* |
137 |
> |
getInstance(); |
138 |
> |
protected: |
139 |
> |
IntegratorFactory(); |
140 |
> |
private: |
141 |
> |
static IntegratorFactory* instance_; |
142 |
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}; |
143 |
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|
144 |
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\end{lstlisting} |
177 |
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\begin{lstlisting}[float,caption={[The implementation of Factory pattern (I)].},label={appendixScheme:factoryDeclaration}] |
178 |
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|
179 |
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class IntegratorFactory { |
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public: |
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< |
typedef std::map<string, IntegratorCreator*> CreatorMapType; |
180 |
> |
public: |
181 |
> |
typedef std::map<string, IntegratorCreator*> CreatorMapType; |
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|
183 |
< |
bool registerIntegrator(IntegratorCreator* creator); |
183 |
> |
bool registerIntegrator(IntegratorCreator* creator) { |
184 |
> |
return creatorMap_.insert(creator->getIdent(), creator).second; |
185 |
> |
} |
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|
187 |
< |
Integrator* createIntegrator(const string& id, SimInfo* info); |
187 |
> |
Integrator* createIntegrator(const string& id, SimInfo* info) { |
188 |
> |
Integrator* result = NULL; |
189 |
> |
CreatorMapType::iterator i = creatorMap_.find(id); |
190 |
> |
if (i != creatorMap_.end()) { |
191 |
> |
result = (i->second)->create(info); |
192 |
> |
} |
193 |
> |
return result; |
194 |
> |
} |
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|
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< |
private: |
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< |
CreatorMapType creatorMap_; |
196 |
> |
private: |
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> |
CreatorMapType creatorMap_; |
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}; |
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– |
|
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\end{lstlisting} |
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+ |
\begin{lstlisting}[float,caption={[The implementation of Factory pattern (III)]Souce code of creator classes.},label={appendixScheme:integratorCreator}] |
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|
192 |
– |
\begin{lstlisting}[float,caption={[The implementation of Factory pattern (II)].},label={appendixScheme:factoryDeclarationImplementation}] |
193 |
– |
|
194 |
– |
bool IntegratorFactory::unregisterIntegrator(const string& id) { |
195 |
– |
return creatorMap_.erase(id) == 1; |
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} |
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|
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Integrator* IntegratorFactory::createIntegrator(const string& id, |
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– |
SimInfo* info) { |
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– |
CreatorMapType::iterator i = creatorMap_.find(id); |
201 |
– |
if (i != creatorMap_.end()) { |
202 |
– |
return (i->second)->create(info); |
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– |
} else { |
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return NULL; |
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– |
} |
206 |
– |
} |
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– |
|
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– |
\end{lstlisting} |
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|
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– |
\begin{lstlisting}[float,caption={[The implementation of Factory pattern (III)].},label={appendixScheme:integratorCreator}] |
211 |
– |
|
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class IntegratorCreator { |
203 |
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public: |
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> |
public: |
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IntegratorCreator(const string& ident) : ident_(ident) {} |
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|
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const string& getIdent() const { return ident_; } |
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|
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virtual Integrator* create(SimInfo* info) const = 0; |
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|
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private: |
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> |
private: |
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string ident_; |
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}; |
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|
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template<class ConcreteIntegrator> |
215 |
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class IntegratorBuilder : public IntegratorCreator { |
216 |
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public: |
217 |
< |
IntegratorBuilder(const string& ident) : IntegratorCreator(ident) {} |
218 |
< |
virtual Integrator* create(SimInfo* info) const { |
219 |
< |
return new ConcreteIntegrator(info); |
220 |
< |
} |
216 |
> |
public: |
217 |
> |
IntegratorBuilder(const string& ident) |
218 |
> |
: IntegratorCreator(ident) {} |
219 |
> |
virtual Integrator* create(SimInfo* info) const { |
220 |
> |
return new ConcreteIntegrator(info); |
221 |
> |
} |
222 |
|
}; |
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\end{lstlisting} |
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|
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|
|
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|
\begin{figure} |
238 |
|
\centering |
239 |
< |
\includegraphics[width=\linewidth]{architecture.eps} |
239 |
> |
\includegraphics[width=\linewidth]{visitor.eps} |
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|
\caption[The architecture of {\sc OOPSE}] {Overview of the structure |
241 |
|
of {\sc OOPSE}} \label{appendixFig:visitorUML} |
242 |
|
\end{figure} |
244 |
|
\begin{lstlisting}[float,caption={[The implementation of Visitor pattern (I)]Source code of the visitor classes.},label={appendixScheme:visitor}] |
245 |
|
|
246 |
|
class BaseVisitor{ |
247 |
< |
public: |
248 |
< |
virtual void visit(Atom* atom); |
249 |
< |
virtual void visit(DirectionalAtom* datom); |
250 |
< |
virtual void visit(RigidBody* rb); |
247 |
> |
public: |
248 |
> |
virtual void visit(Atom* atom); |
249 |
> |
virtual void visit(DirectionalAtom* datom); |
250 |
> |
virtual void visit(RigidBody* rb); |
251 |
|
}; |
252 |
|
|
253 |
|
\end{lstlisting} |
255 |
|
\begin{lstlisting}[float,caption={[The implementation of Visitor pattern (II)]Source code of the element classes.},label={appendixScheme:element}] |
256 |
|
|
257 |
|
class StuntDouble { |
258 |
< |
public: |
259 |
< |
virtual void accept(BaseVisitor* v) = 0; |
258 |
> |
public: |
259 |
> |
virtual void accept(BaseVisitor* v) = 0; |
260 |
|
}; |
261 |
|
|
262 |
|
class Atom: public StuntDouble { |
263 |
< |
public: |
264 |
< |
virtual void accept{BaseVisitor* v*} { |
265 |
< |
v->visit(this); |
266 |
< |
} |
263 |
> |
public: |
264 |
> |
virtual void accept{BaseVisitor* v*} { |
265 |
> |
v->visit(this); |
266 |
> |
} |
267 |
|
}; |
268 |
|
|
269 |
|
class DirectionalAtom: public Atom { |
270 |
< |
public: |
271 |
< |
virtual void accept{BaseVisitor* v*} { |
272 |
< |
v->visit(this); |
273 |
< |
} |
270 |
> |
public: |
271 |
> |
virtual void accept{BaseVisitor* v*} { |
272 |
> |
v->visit(this); |
273 |
> |
} |
274 |
|
}; |
275 |
|
|
276 |
|
class RigidBody: public StuntDouble { |
277 |
< |
public: |
278 |
< |
virtual void accept{BaseVisitor* v*} { |
279 |
< |
v->visit(this); |
280 |
< |
} |
277 |
> |
public: |
278 |
> |
virtual void accept{BaseVisitor* v*} { |
279 |
> |
v->visit(this); |
280 |
> |
} |
281 |
|
}; |
282 |
|
|
283 |
|
\end{lstlisting} |
284 |
+ |
|
285 |
|
\section{\label{appendixSection:concepts}Concepts} |
286 |
|
|
287 |
|
OOPSE manipulates both traditional atoms as well as some objects |
288 |
|
that {\it behave like atoms}. These objects can be rigid |
289 |
|
collections of atoms or atoms which have orientational degrees of |
290 |
< |
freedom. Here is a diagram of the class heirarchy: |
291 |
< |
|
290 |
> |
freedom. A diagram of the class heirarchy is illustrated in |
291 |
> |
Fig.~\ref{oopseFig:heirarchy}. Every Molecule, Atom and |
292 |
> |
DirectionalAtom in {\sc OOPSE} have their own names which are |
293 |
> |
specified in the {\tt .md} file. In contrast, RigidBodies are |
294 |
> |
denoted by their membership and index inside a particular molecule: |
295 |
> |
[MoleculeName]\_RB\_[index] (the contents inside the brackets depend |
296 |
> |
on the specifics of the simulation). The names of rigid bodies are |
297 |
> |
generated automatically. For example, the name of the first rigid |
298 |
> |
body in a DMPC molecule is DMPC\_RB\_0. |
299 |
|
\begin{figure} |
300 |
|
\centering |
301 |
< |
\includegraphics[width=3in]{heirarchy.eps} |
302 |
< |
\caption[Class heirarchy for StuntDoubles in {\sc oopse}-3.0]{ \\ |
303 |
< |
The class heirarchy of StuntDoubles in {\sc oopse}-3.0. The |
305 |
< |
selection syntax allows the user to select any of the objects that |
306 |
< |
are descended from a StuntDouble.} \label{oopseFig:heirarchy} |
307 |
< |
\end{figure} |
308 |
< |
|
301 |
> |
\includegraphics[width=\linewidth]{heirarchy.eps} |
302 |
> |
\caption[Class heirarchy for ojects in {\sc OOPSE}]{ A diagram of |
303 |
> |
the class heirarchy. |
304 |
|
\begin{itemize} |
305 |
|
\item A {\bf StuntDouble} is {\it any} object that can be manipulated by the |
306 |
|
integrators and minimizers. |
309 |
|
\item A {\bf RigidBody} is a collection of {\bf Atom}s or {\bf |
310 |
|
DirectionalAtom}s which behaves as a single unit. |
311 |
|
\end{itemize} |
312 |
< |
|
313 |
< |
Every Molecule, Atom and DirectionalAtom in {\sc OOPSE} have their |
319 |
< |
own names which are specified in the {\tt .md} file. In contrast, |
320 |
< |
RigidBodies are denoted by their membership and index inside a |
321 |
< |
particular molecule: [MoleculeName]\_RB\_[index] (the contents |
322 |
< |
inside the brackets depend on the specifics of the simulation). The |
323 |
< |
names of rigid bodies are generated automatically. For example, the |
324 |
< |
name of the first rigid body in a DMPC molecule is DMPC\_RB\_0. |
312 |
> |
} \label{oopseFig:heirarchy} |
313 |
> |
\end{figure} |
314 |
|
|
315 |
|
\section{\label{appendixSection:syntax}Syntax of the Select Command} |
316 |
|
|