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source: code/branches/tutorial/src/libraries/core/Identifier.h @ 10181

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1/*
2 *   ORXONOX - the hottest 3D action shooter ever to exist
3 *                    > www.orxonox.net <
4 *
5 *
6 *   License notice:
7 *
8 *   This program is free software; you can redistribute it and/or
9 *   modify it under the terms of the GNU General Public License
10 *   as published by the Free Software Foundation; either version 2
11 *   of the License, or (at your option) any later version.
12 *
13 *   This program is distributed in the hope that it will be useful,
14 *   but WITHOUT ANY WARRANTY; without even the implied warranty of
15 *   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
16 *   GNU General Public License for more details.
17 *
18 *   You should have received a copy of the GNU General Public License
19 *   along with this program; if not, write to the Free Software
20 *   Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301, USA.
21 *
22 *   Author:
23 *      Fabian 'x3n' Landau
24 *   Co-authors:
25 *      ...
26 *
27 */
28
29/**
30    @defgroup Identifier Identifier
31    @ingroup Class
32*/
33
34/**
35    @file
36    @ingroup Class Identifier
37    @brief Declaration of Identifier, definition of ClassIdentifier<T>; used to identify the class of an object.
38
39    @anchor IdentifierExample
40
41    An Identifier "identifies" the class of an object. It contains different information about
42    the class: Its name and ID, a list of all instances of this class, a factory to create new
43    instances of this class, and more.
44
45    It also contains information about the inheritance of this class: It stores a list of the
46    Identifiers of all parent-classes as well as a list of all child-classes. These relationships
47    can be tested using functions like @c isA(), @c isChildOf(), @c isParentOf(), and more.
48
49    Every Identifier is in fact a ClassIdentifier<T> (where T is the class that is identified
50    by the Identifier), Identifier is just the common base-class.
51
52    Example:
53    @code
54    MyClass* object = new MyClass();                                            // create an instance of MyClass
55
56    object->getIdentifier()->getName();                                         // returns "MyClass"
57
58    BaseObject* other = object->getIdentifier()->fabricate(0);                  // fabricates a new instance of MyClass
59
60
61    // iterate through all objects of type MyClass:
62    ObjectListBase* objects = object->getIdentifier()->getObjects();            // get a pointer to the object-list
63    int count;
64    for (Iterator<BaseObject> it = objects.begin(); it != objects.end(); ++it)  // iterate through the objects
65        ++count;
66    COUT(0) << count << std::endl;                                              // prints "2" because we created 2 instances of MyClass so far
67
68
69    // test the class hierarchy
70    object->getIdentifier()->isA(Class(MyClass));                               // returns true
71    object->isA(Class(MyClass));                                                // returns true (short version)
72
73    object->isA(Class(BaseClass));                                              // returns true if MyClass is a child of BaseClass
74
75    Class(ChildClass)->isChildOf(object->getIdentifier());                      // returns true if ChildClass is a child of MyClass
76    @endcode
77*/
78
79#ifndef _Identifier_H__
80#define _Identifier_H__
81
82#include "CorePrereqs.h"
83
84#include <cassert>
85#include <map>
86#include <set>
87#include <string>
88#include <typeinfo>
89#include <loki/TypeTraits.h>
90
91#include "util/Debug.h"
92#include "MetaObjectList.h"
93#include "ObjectList.h"
94#include "ObjectListBase.h"
95#include "Super.h"
96
97namespace orxonox
98{
99    // ###############################
100    // ###       Identifier        ###
101    // ###############################
102    /**
103        @brief The Identifier is used to identify the class of an object and to store information about the class.
104
105        Each Identifier stores information about one class. The Identifier can then be used to identify
106        this class. On the other hand it's also possible to get the corresponding Identifier of a class,
107        for example by using the macro Class().
108
109        @see See @ref IdentifierExample "Identifier.h" for more information and some examples.
110
111        @note You can't directly create an Identifier, it's just the base-class of ClassIdentifier<T>.
112    */
113    class _CoreExport Identifier
114    {
115        public:
116            /// Returns the name of the class the Identifier belongs to.
117            inline const std::string& getName() const { return this->name_; }
118            void setName(const std::string& name);
119
120            /// Returns the network ID to identify a class through the network.
121            inline const uint32_t getNetworkID() const { return this->networkID_; }
122            void setNetworkID(uint32_t id);
123
124            /// Returns the unique ID of the class.
125            FORCEINLINE unsigned int getClassID() const { return this->classID_; }
126
127            /// Returns the list of all existing objects of this class.
128            inline ObjectListBase* getObjects() const { return this->objects_; }
129
130            /// Sets the Factory.
131            inline void addFactory(Factory* factory) { this->factory_ = factory; }
132            /// Returns true if the Identifier has a Factory.
133            inline bool hasFactory() const { return (this->factory_ != 0); }
134
135            BaseObject* fabricate(BaseObject* creator);
136
137            /// Returns true if the class can be loaded through XML.
138            inline bool isLoadable() const { return this->bLoadable_; }
139            /// Set the class to be loadable through XML or not.
140            inline void setLoadable(bool bLoadable) { this->bLoadable_ = bLoadable; }
141
142            bool isA(const Identifier* identifier) const;
143            bool isExactlyA(const Identifier* identifier) const;
144            bool isChildOf(const Identifier* identifier) const;
145            bool isDirectChildOf(const Identifier* identifier) const;
146            bool isParentOf(const Identifier* identifier) const;
147            bool isDirectParentOf(const Identifier* identifier) const;
148
149
150            /////////////////////////////
151            ////// Class Hierarchy //////
152            /////////////////////////////
153            static void createClassHierarchy();
154
155            /// Returns true, if a branch of the class-hierarchy is being created, causing all new objects to store their parents.
156            inline static bool isCreatingHierarchy() { return (hierarchyCreatingCounter_s > 0); }
157
158            /// Returns the parents of the class the Identifier belongs to.
159            inline const std::set<const Identifier*>& getParents() const { return this->parents_; }
160            /// Returns the begin-iterator of the parents-list.
161            inline std::set<const Identifier*>::const_iterator getParentsBegin() const { return this->parents_.begin(); }
162            /// Returns the end-iterator of the parents-list.
163            inline std::set<const Identifier*>::const_iterator getParentsEnd() const { return this->parents_.end(); }
164
165            /// Returns the children of the class the Identifier belongs to.
166            inline const std::set<const Identifier*>& getChildren() const { return this->children_; }
167            /// Returns the begin-iterator of the children-list.
168            inline std::set<const Identifier*>::const_iterator getChildrenBegin() const { return this->children_.begin(); }
169            /// Returns the end-iterator of the children-list.
170            inline std::set<const Identifier*>::const_iterator getChildrenEnd() const { return this->children_.end(); }
171
172            /// Returns the direct parents of the class the Identifier belongs to.
173            inline const std::set<const Identifier*>& getDirectParents() const { return this->directParents_; }
174            /// Returns the begin-iterator of the direct-parents-list.
175            inline std::set<const Identifier*>::const_iterator getDirectParentsBegin() const { return this->directParents_.begin(); }
176            /// Returns the end-iterator of the direct-parents-list.
177            inline std::set<const Identifier*>::const_iterator getDirectParentsEnd() const { return this->directParents_.end(); }
178
179            /// Returns the direct children the class the Identifier belongs to.
180            inline const std::set<const Identifier*>& getDirectChildren() const { return this->directChildren_; }
181            /// Returns the begin-iterator of the direct-children-list.
182            inline std::set<const Identifier*>::const_iterator getDirectChildrenBegin() const { return this->directChildren_.begin(); }
183            /// Returns the end-iterator of the direct-children-list.
184            inline std::set<const Identifier*>::const_iterator getDirectChildrenEnd() const { return this->directChildren_.end(); }
185
186
187            //////////////////////////
188            ///// Identifier Map /////
189            //////////////////////////
190            static void destroyAllIdentifiers();
191
192            static Identifier* getIdentifierByString(const std::string& name);
193            static Identifier* getIdentifierByLowercaseString(const std::string& name);
194            static Identifier* getIdentifierByID(uint32_t id);
195
196            static void clearNetworkIDs();
197
198            /// Returns the map that stores all Identifiers with their names.
199            static inline const std::map<std::string, Identifier*>& getStringIdentifierMap() { return Identifier::getStringIdentifierMapIntern(); }
200            /// Returns a const_iterator to the beginning of the map that stores all Identifiers with their names.
201            static inline std::map<std::string, Identifier*>::const_iterator getStringIdentifierMapBegin() { return Identifier::getStringIdentifierMap().begin(); }
202            /// Returns a const_iterator to the end of the map that stores all Identifiers with their names.
203            static inline std::map<std::string, Identifier*>::const_iterator getStringIdentifierMapEnd() { return Identifier::getStringIdentifierMap().end(); }
204
205            /// Returns the map that stores all Identifiers with their names in lowercase.
206            static inline const std::map<std::string, Identifier*>& getLowercaseStringIdentifierMap() { return Identifier::getLowercaseStringIdentifierMapIntern(); }
207            /// Returns a const_iterator to the beginning of the map that stores all Identifiers with their names in lowercase.
208            static inline std::map<std::string, Identifier*>::const_iterator getLowercaseStringIdentifierMapBegin() { return Identifier::getLowercaseStringIdentifierMap().begin(); }
209            /// Returns a const_iterator to the end of the map that stores all Identifiers with their names in lowercase.
210            static inline std::map<std::string, Identifier*>::const_iterator getLowercaseStringIdentifierMapEnd() { return Identifier::getLowercaseStringIdentifierMap().end(); }
211
212            /// Returns the map that stores all Identifiers with their IDs.
213            static inline const std::map<uint32_t, Identifier*>& getIDIdentifierMap() { return Identifier::getIDIdentifierMapIntern(); }
214            /// Returns a const_iterator to the beginning of the map that stores all Identifiers with their IDs.
215            static inline std::map<uint32_t, Identifier*>::const_iterator getIDIdentifierMapBegin() { return Identifier::getIDIdentifierMap().begin(); }
216            /// Returns a const_iterator to the end of the map that stores all Identifiers with their IDs.
217            static inline std::map<uint32_t, Identifier*>::const_iterator getIDIdentifierMapEnd() { return Identifier::getIDIdentifierMap().end(); }
218
219
220            /////////////////////////
221            ///// Config Values /////
222            /////////////////////////
223            virtual void updateConfigValues(bool updateChildren = true) const = 0;
224
225            /// Returns true if this class has at least one config value.
226            inline bool hasConfigValues() const { return this->bHasConfigValues_; }
227
228            void addConfigValueContainer(const std::string& varname, ConfigValueContainer* container);
229            ConfigValueContainer* getConfigValueContainer(const std::string& varname);
230
231
232            ///////////////////
233            ///// XMLPort /////
234            ///////////////////
235            /// Returns the map that stores all XMLPort params.
236            inline const std::map<std::string, XMLPortParamContainer*>& getXMLPortParamMap() const { return this->xmlportParamContainers_; }
237            /// Returns a const_iterator to the beginning of the map that stores all XMLPort params.
238            inline std::map<std::string, XMLPortParamContainer*>::const_iterator getXMLPortParamMapBegin() const { return this->xmlportParamContainers_.begin(); }
239            /// Returns a const_iterator to the end of the map that stores all XMLPort params.
240            inline std::map<std::string, XMLPortParamContainer*>::const_iterator getXMLPortParamMapEnd() const { return this->xmlportParamContainers_.end(); }
241
242            /// Returns the map that stores all XMLPort objects.
243            inline const std::map<std::string, XMLPortObjectContainer*>& getXMLPortObjectMap() const { return this->xmlportObjectContainers_; }
244            /// Returns a const_iterator to the beginning of the map that stores all XMLPort objects.
245            inline std::map<std::string, XMLPortObjectContainer*>::const_iterator getXMLPortObjectMapBegin() const { return this->xmlportObjectContainers_.begin(); }
246            /// Returns a const_iterator to the end of the map that stores all XMLPort objects.
247            inline std::map<std::string, XMLPortObjectContainer*>::const_iterator getXMLPortObjectMapEnd() const { return this->xmlportObjectContainers_.end(); }
248
249            void addXMLPortParamContainer(const std::string& paramname, XMLPortParamContainer* container);
250            XMLPortParamContainer* getXMLPortParamContainer(const std::string& paramname);
251
252            void addXMLPortObjectContainer(const std::string& sectionname, XMLPortObjectContainer* container);
253            XMLPortObjectContainer* getXMLPortObjectContainer(const std::string& sectionname);
254
255
256        protected:
257            Identifier();
258            Identifier(const Identifier& identifier); // don't copy
259            virtual ~Identifier();
260
261            static Identifier* getIdentifierSingleton(const std::string& name, Identifier* proposal);
262            virtual void createSuperFunctionCaller() const = 0;
263
264            void initializeClassHierarchy(std::set<const Identifier*>* parents, bool bRootClass);
265
266            /// Returns the map that stores all Identifiers with their names.
267            static std::map<std::string, Identifier*>& getStringIdentifierMapIntern();
268            /// Returns the map that stores all Identifiers with their names in lowercase.
269            static std::map<std::string, Identifier*>& getLowercaseStringIdentifierMapIntern();
270            /// Returns the map that stores all Identifiers with their network IDs.
271            static std::map<uint32_t, Identifier*>& getIDIdentifierMapIntern();
272
273            /// Returns the children of the class the Identifier belongs to.
274            inline std::set<const Identifier*>& getChildrenIntern() const { return this->children_; }
275            /// Returns the direct children of the class the Identifier belongs to.
276            inline std::set<const Identifier*>& getDirectChildrenIntern() const { return this->directChildren_; }
277
278            ObjectListBase* objects_;                                      //!< The list of all objects of this class
279
280        private:
281            /// Increases the hierarchyCreatingCounter_s variable, causing all new objects to store their parents.
282            inline static void startCreatingHierarchy() { hierarchyCreatingCounter_s++; }
283            /// Decreases the hierarchyCreatingCounter_s variable, causing the objects to stop storing their parents.
284            inline static void stopCreatingHierarchy()  { hierarchyCreatingCounter_s--; }
285
286            static std::map<std::string, Identifier*>& getTypeIDIdentifierMap();
287
288            void initialize(std::set<const Identifier*>* parents);
289
290            std::set<const Identifier*> parents_;                          //!< The parents of the class the Identifier belongs to
291            mutable std::set<const Identifier*> children_;                 //!< The children of the class the Identifier belongs to
292
293            std::set<const Identifier*> directParents_;                    //!< The direct parents of the class the Identifier belongs to
294            mutable std::set<const Identifier*> directChildren_;           //!< The direct children of the class the Identifier belongs to
295
296            bool bCreatedOneObject_;                                       //!< True if at least one object of the given type was created (used to determine the need of storing the parents)
297            bool bSetName_;                                                //!< True if the name is set
298            bool bLoadable_;                                               //!< False = it's not permitted to load the object through XML
299            std::string name_;                                             //!< The name of the class the Identifier belongs to
300            Factory* factory_;                                             //!< The Factory, able to create new objects of the given class (if available)
301            static int hierarchyCreatingCounter_s;                         //!< Bigger than zero if at least one Identifier stores its parents (its an int instead of a bool to avoid conflicts with multithreading)
302            uint32_t networkID_;                                           //!< The network ID to identify a class through the network
303            const unsigned int classID_;                                   //!< Uniquely identifies a class (might not be the same as the networkID_)
304            static unsigned int classIDCounter_s;                          //!< Static counter for the unique classIDs
305
306            bool bHasConfigValues_;                                        //!< True if this class has at least one assigned config value
307            std::map<std::string, ConfigValueContainer*> configValues_;    //!< A map to link the string of configurable variables with their ConfigValueContainer
308
309            std::map<std::string, XMLPortParamContainer*> xmlportParamContainers_;     //!< All loadable parameters
310            std::map<std::string, XMLPortObjectContainer*> xmlportObjectContainers_;   //!< All attachable objects
311    };
312
313    _CoreExport std::ostream& operator<<(std::ostream& out, const std::set<const Identifier*>& list);
314
315
316    // ###############################
317    // ###     ClassIdentifier     ###
318    // ###############################
319    /**
320        @brief The ClassIdentifier is derived from Identifier and holds all class-specific functions and variables the Identifier cannot have.
321
322        ClassIdentifier is a Singleton, which means that only one ClassIdentifier for a given type T exists.
323        This makes it possible to store information about a class, sharing them with all
324        objects of that class without defining static variables in every class.
325
326        To be really sure that not more than exactly one object exists (even with libraries),
327        ClassIdentifiers are stored in a static map in Identifier.
328    */
329    template <class T>
330    class ClassIdentifier : public Identifier
331    {
332        #ifndef DOXYGEN_SHOULD_SKIP_THIS
333          #define SUPER_INTRUSIVE_DECLARATION_INCLUDE
334          #include "Super.h"
335        #endif
336
337        public:
338            static ClassIdentifier<T>* getIdentifier();
339            static ClassIdentifier<T>* getIdentifier(const std::string& name);
340
341            bool initialiseObject(T* object, const std::string& className, bool bRootClass);
342
343            void updateConfigValues(bool updateChildren = true) const;
344
345        private:
346            static void initialiseIdentifier();
347            ClassIdentifier(const ClassIdentifier<T>& identifier) {}    // don't copy
348            ClassIdentifier()
349            {
350                SuperFunctionInitialization<0, T>::initialize(this);
351            }
352            ~ClassIdentifier()
353            {
354                SuperFunctionDestruction<0, T>::destroy(this);
355            }
356
357            static ClassIdentifier<T>* classIdentifier_s;
358    };
359
360    template <class T>
361    ClassIdentifier<T>* ClassIdentifier<T>::classIdentifier_s = 0;
362
363    /**
364        @brief Returns the only instance of this class.
365        @return The unique Identifier
366    */
367    template <class T>
368    inline ClassIdentifier<T>* ClassIdentifier<T>::getIdentifier()
369    {
370        // check if the Identifier already exists
371        if (!ClassIdentifier<T>::classIdentifier_s)
372            ClassIdentifier<T>::initialiseIdentifier();
373
374        return ClassIdentifier<T>::classIdentifier_s;
375    }
376
377    /**
378        @brief Does the same as getIdentifier() but sets the name if this wasn't done yet.
379        @param name The name of this Identifier
380        @return The Identifier
381    */
382    template <class T>
383    inline ClassIdentifier<T>* ClassIdentifier<T>::getIdentifier(const std::string& name)
384    {
385        ClassIdentifier<T>* identifier = ClassIdentifier<T>::getIdentifier();
386        identifier->setName(name);
387        return identifier;
388    }
389
390    /**
391        @brief Assigns the static field for the identifier singleton.
392    */
393    template <class T>
394    void ClassIdentifier<T>::initialiseIdentifier()
395    {
396        // Get the name of the class
397        const std::string& name = typeid(T).name();
398
399        // create a new identifier anyway. Will be deleted in Identifier::getIdentifier if not used.
400        ClassIdentifier<T>* proposal = new ClassIdentifier<T>();
401
402        // Get the entry from the map
403        ClassIdentifier<T>::classIdentifier_s = (ClassIdentifier<T>*)Identifier::getIdentifierSingleton(name, proposal);
404
405        if (ClassIdentifier<T>::classIdentifier_s == proposal)
406        {
407            COUT(4) << "*** Identifier: Requested Identifier for " << name << " was not yet existing and got created." << std::endl;
408        }
409        else
410        {
411            COUT(4) << "*** Identifier: Requested Identifier for " << name << " was already existing and got assigned." << std::endl;
412        }
413    }
414
415    /**
416        @brief Adds an object of the given type to the ObjectList.
417        @param object The object to add
418        @param className The name of the class T
419        @param bRootClass True if this is a root class (i.e. it inherits directly from OrxonoxClass)
420    */
421    template <class T>
422    bool ClassIdentifier<T>::initialiseObject(T* object, const std::string& className, bool bRootClass)
423    {
424        if (bRootClass)
425            COUT(5) << "*** Register Root-Object: " << className << std::endl;
426        else
427            COUT(5) << "*** Register Object: " << className << std::endl;
428
429        object->identifier_ = this;
430        if (Identifier::isCreatingHierarchy())
431        {
432            if (bRootClass && !object->parents_)
433                object->parents_ = new std::set<const Identifier*>();
434
435            if (object->parents_)
436            {
437                this->initializeClassHierarchy(object->parents_, bRootClass);
438                object->parents_->insert(object->parents_->end(), this);
439            }
440
441            object->setConfigValues();
442            return true;
443        }
444        else
445        {
446            COUT(5) << "*** ClassIdentifier: Added object to " << this->getName() << "-list." << std::endl;
447            object->metaList_->add(this->objects_, this->objects_->add(new ObjectListElement<T>(object)));
448
449            // Add pointer of type T to the map in the OrxonoxClass instance that enables "dynamic_casts"
450            object->objectPointers_.push_back(std::make_pair(this->getClassID(), static_cast<void*>(object)));
451            return false;
452        }
453    }
454
455    /**
456        @brief Updates the config-values of all existing objects of this class by calling their setConfigValues() function.
457    */
458    template <class T>
459    void ClassIdentifier<T>::updateConfigValues(bool updateChildren) const
460    {
461        if (!this->hasConfigValues())
462            return;
463
464        for (ObjectListIterator<T> it = ObjectList<T>::begin(); it; ++it)
465            it->setConfigValues();
466
467        if (updateChildren)
468            for (std::set<const Identifier*>::const_iterator it = this->getChildrenBegin(); it != this->getChildrenEnd(); ++it)
469                (*it)->updateConfigValues(false);
470    }
471
472
473    // ###############################
474    // ###      orxonox_cast       ###
475    // ###############################
476    /**
477    @brief
478        Casts on object of type OrxonoxClass to any derived type that is
479        registered in the class hierarchy.
480    @return
481        Returns NULL if the cast is not possible
482    @note
483        In case of NULL return (and using MSVC), a dynamic_cast might still be possible if
484        a class forgot to register its objects.
485        Also note that the function is implemented differently for GCC/MSVC.
486    */
487    template <class T, class U>
488    FORCEINLINE T orxonox_cast(U* source)
489    {
490#ifdef ORXONOX_COMPILER_MSVC
491        typedef Loki::TypeTraits<typename Loki::TypeTraits<T>::PointeeType>::NonConstType ClassType;
492        if (source != NULL)
493            return source->template getDerivedPointer<ClassType>(ClassIdentifier<ClassType>::getIdentifier()->getClassID());
494        else
495            return NULL;
496#else
497        return dynamic_cast<T>(source);
498#endif
499    }
500}
501
502#endif /* _Identifier_H__ */
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