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source: code/branches/FICN/src/orxonox/core/Identifier.h @ 699

Last change on this file since 699 was 698, checked in by landauf, 17 years ago

hopefully replaced all static pre-main variables with more secure wrapper functions. and now i'll sleep.

File size: 17.3 KB
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1/*
2 *   ORXONOX - the hottest 3D action shooter ever to exist
3 *
4 *
5 *   License notice:
6 *
7 *   This program is free software; you can redistribute it and/or
8 *   modify it under the terms of the GNU General Public License
9 *   as published by the Free Software Foundation; either version 2
10 *   of the License, or (at your option) any later version.
11 *
12 *   This program is distributed in the hope that it will be useful,
13 *   but WITHOUT ANY WARRANTY; without even the implied warranty of
14 *   MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
15 *   GNU General Public License for more details.
16 *
17 *   You should have received a copy of the GNU General Public License
18 *   along with this program; if not, write to the Free Software
19 *   Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA  02110-1301, USA.
20 *
21 *   Author:
22 *      Fabian 'x3n' Landau
23 *   Co-authors:
24 *      ...
25 *
26 */
27
28/*!
29    @file Identifier.h
30    @brief Definition of the Identifier, ClassIdentifier and SubclassIdentifier classes, implementation of the ClassIdentifier and SubclassIdentifier classes.
31
32    The Identifier contains all needed informations about the class it belongs to:
33     - the name
34     - a list with all objects
35     - parents and childs
36     - the factory (if available)
37     - the networkID that can be synchronised with the server
38     - all configurable variables (if available)
39
40    Every object has a pointer to the Identifier of its class. This allows the use isA(...),
41    isDirectlyA(...), isChildOf(...) and isParentOf(...).
42
43    To create the class-hierarchy, the Identifier has some intern functions and variables.
44
45    Every Identifier is in fact a ClassIdentifier, but they are derived from Identifier.
46
47    SubclassIdentifier is a separated class, acting like an Identifier, but has a given class.
48    You can only assign Identifiers of exactly the given class or of a derivative to a SubclassIdentifier.
49*/
50
51#ifndef _Identifier_H__
52#define _Identifier_H__
53
54#include <string>
55#include <map>
56
57#include "CorePrereqs.h"
58
59#include "ObjectList.h"
60#include "IdentifierList.h"
61#include "Factory.h"
62#include "Debug.h"
63// These two files would actually be need, but they would produce
64// circular dependencies. Anyway, it does compile without them
65//#include "OrxonoxClass.h"
66//#include "MetaObjectList.h"
67
68namespace orxonox
69{
70    class BaseObject; // Forward declaration
71
72    // ###############################
73    // ###       Identifier        ###
74    // ###############################
75    //! The Identifier is used to identify the class of an object and to store informations about the class.
76    /**
77        The Identifier contains all needed informations about the class it belongs to:
78         - the name
79         - a list with all objects
80         - parents and childs
81         - the factory (if available)
82         - the networkID that can be synchronised with the server
83         - all configurable variables (if available)
84
85        Every object has a pointer to the Identifier of its class. This allows the use isA(...),
86        isDirectlyA(...), isChildOf(...) and isParentOf(...).
87
88        You can't directly create an Identifier, it's just the base-class for ClassIdentifier.
89    */
90    class _CoreExport Identifier
91    {
92        template <class T>
93        friend class ClassIdentifier; // Forward declaration
94
95        template <class T>
96        friend class SubclassIdentifier; // Forward declaration
97
98        friend class Factory; // Forward declaration
99
100        public:
101            /** @brief Sets the Factory.
102             *  @param factory The factory to assign
103             */
104            inline void addFactory(BaseFactory* factory) { this->factory_ = factory; }
105
106            BaseObject* fabricate();
107
108            bool isA(const Identifier* identifier) const;
109            bool isDirectlyA(const Identifier* identifier) const;
110            bool isChildOf(const Identifier* identifier) const;
111            bool isParentOf(const Identifier* identifier) const;
112
113            /** @returns the name of the class the Identifier belongs to. */
114            inline const std::string& getName() const { return this->name_; }
115
116            /** @returns the parents of the class the Identifier belongs to. */
117            inline const IdentifierList& getParents() const { return this->parents_; }
118
119            /** @returns the children of the class the Identifier belongs to. */
120            inline IdentifierList& getChildren() const { return *this->children_; }
121
122            /** @returns true, if a branch of the class-hierarchy is being created, causing all new objects to store their parents. */
123            inline static bool isCreatingHierarchy() { return (hierarchyCreatingCounter_s > 0); }
124
125            /** @returns the network ID to identify a class through the network. */
126            inline const unsigned int getNetworkID() const { return this->classID_; }
127
128            /** @brief Sets the network ID to a new value. @param id The new value */
129            void setNetworkID(unsigned int id);
130
131            /** @returns the ConfigValueContainer of a variable, given by the string of its name. @param varname The name of the variable */
132            inline ConfigValueContainer* getConfigValueContainer(const std::string& varname)
133                { return this->configValues_[varname]; }
134
135            /** @brief Sets the ConfigValueContainer of a variable, given by the string of its name. @param varname The name of the variablee @param container The container */
136            inline void setConfigValueContainer(const std::string& varname, ConfigValueContainer* container)
137                { this->configValues_[varname] = container; }
138
139            static std::map<std::string, Identifier*>& getIdentifierMap();
140
141        private:
142            Identifier();
143            Identifier(const Identifier& identifier) {} // don't copy
144            virtual ~Identifier();
145            void initialize(const IdentifierList* parents);
146
147            /**
148                @brief Increases the hierarchyCreatingCounter_s variable, causing all new objects to store their parents.
149            */
150            inline static void startCreatingHierarchy()
151            {
152                hierarchyCreatingCounter_s++;
153                COUT(4) << "*** Increased Hierarchy-Creating-Counter to " << hierarchyCreatingCounter_s << std::endl;
154            }
155
156            /**
157                @brief Decreases the hierarchyCreatingCounter_s variable, causing the objects to stop storing their parents.
158            */
159            inline static void stopCreatingHierarchy()
160            {
161                hierarchyCreatingCounter_s--;
162                COUT(4) << "*** Decreased Hierarchy-Creating-Counter to " << hierarchyCreatingCounter_s << std::endl;
163            }
164
165            IdentifierList parents_;                                    //!< The Parents of the class the Identifier belongs to
166            IdentifierList* children_;                                  //!< The Children of the class the Identifier belongs to
167
168            std::string name_;                                          //!< The name of the class the Identifier belongs to
169
170            BaseFactory* factory_;                                      //!< The Factory, able to create new objects of the given class (if available)
171            bool bCreatedOneObject_;                                    //!< True if at least one object of the given type was created (used to determine the need of storing the parents)
172            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)
173            unsigned int classID_;                                      //!< The network ID to identify a class through the network
174            std::map<std::string, ConfigValueContainer*> configValues_; //!< A map to link the string of configurable variables with their ConfigValueContainer
175    };
176
177
178    // ###############################
179    // ###     ClassIdentifier     ###
180    // ###############################
181    //! The ClassIdentifier is derived from Identifier and holds all class-specific functions and variables the Identifier cannot have.
182    /**
183        ClassIdentifier is a Singleton, which means that only one object of a given type T exists.
184        This makes it possible to store informations about a class, sharing them with all
185        objects of that class without defining static variables in every class.
186    */
187    template <class T>
188    class ClassIdentifier : public Identifier
189    {
190        public:
191            static ClassIdentifier<T>* registerClass(const IdentifierList* parents, const std::string& name, bool bRootClass);
192            static void addObject(T* object);
193            static ClassIdentifier<T>* getIdentifier();
194            void setName(const std::string& name);
195
196        private:
197            ClassIdentifier();
198            ClassIdentifier(const ClassIdentifier<T>& identifier) {}    // don't copy
199            ~ClassIdentifier() {}                                       // don't delete
200
201            ObjectList<T>* objects_;    //!< The ObjectList, containing all objects of type T
202            bool bSetName_;             //!< True if the name is set
203    };
204
205    /**
206        @brief Constructor: Creates the ObjectList.
207        @param name The name of the Class
208    */
209    template <class T>
210    ClassIdentifier<T>::ClassIdentifier()
211    {
212        this->objects_ = ObjectList<T>::getList();
213        this->bSetName_ = false;
214    }
215
216    /**
217        @brief Registers a class, which means that the name and the parents get stored.
218        @param parents An IdentifierList, containing the Identifiers of all parents of the class
219        @param name A string, containing exactly the name of the class
220        @param bRootClass True if the class is either an Interface or the BaseObject itself
221        @return The ClassIdentifier itself
222    */
223    template <class T>
224    ClassIdentifier<T>* ClassIdentifier<T>::registerClass(const IdentifierList* parents, const std::string& name, bool bRootClass)
225    {
226        COUT(4) << "*** Register Class in " << name << "-Singleton." << std::endl;
227
228        // Check if at least one object of the given type was created
229        if (!getIdentifier()->bCreatedOneObject_)
230        {
231            // If no: We have to store the informations and initialize the Identifier
232            getIdentifier()->setName(name);
233
234            COUT(4) << "*** Register Class in " << name << "-Singleton -> Initialize Singleton." << std::endl;
235            if (bRootClass)
236                getIdentifier()->initialize(NULL); // If a class is derived from two interfaces, the second interface might think it's derived from the first because of the order of constructor-calls. Thats why we set parents to zero in that case.
237            else
238                getIdentifier()->initialize(parents);
239        }
240
241        return getIdentifier();
242    }
243
244    /**
245        @brief Creates the only instance of this class for the template class T.
246        @param name The name of the Class
247        @return The Identifier itself
248    */
249    template <class T>
250    ClassIdentifier<T>* ClassIdentifier<T>::getIdentifier()
251    {
252        static ClassIdentifier<T> theOneAndOnlyInstance = ClassIdentifier<T>();
253        static bool bIdentifierCreated = false;
254
255        if (!bIdentifierCreated)
256        {
257            COUT(4) << "*** Create Identifier Singleton." << std::endl;
258            bIdentifierCreated = true;
259        }
260
261        return &theOneAndOnlyInstance;
262    }
263
264    /**
265        @brief Sets the name of the class.
266        @param name The name
267    */
268    template <class T>
269    void ClassIdentifier<T>::setName(const std::string& name)
270    {
271        // Make sure we didn't already set the name, to avoid duplicate entries in the Identifier map
272        if (!this->bSetName_)
273        {
274            this->name_ = name;
275            this->getIdentifierMap().insert(std::pair<std::string, Identifier*>(name, this));
276            this->bSetName_ = true;
277        }
278    }
279
280    /**
281        @brief Adds an object of the given type to the ObjectList.
282        @param object The object to add
283    */
284    template <class T>
285    void ClassIdentifier<T>::addObject(T* object)
286    {
287        COUT(4) << "*** Added object to " << ClassIdentifier<T>::getIdentifier()->getName() << "-list." << std::endl;
288        object->getMetaList().add(ClassIdentifier<T>::getIdentifier()->objects_, ClassIdentifier<T>::getIdentifier()->objects_->add(object));
289    }
290
291
292    // ###############################
293    // ###   SubclassIdentifier    ###
294    // ###############################
295    //! The SubclassIdentifier acts almost like an Identifier, but has some prerequisites.
296    /**
297        You can only assign an Identifier that belongs to a class T (or derived) to a SubclassIdentifier<T>.
298        If you assign something else, the program aborts.
299        Because we know the minimal type, a dynamic_cast is done, which makes it easier to create a new object.
300    */
301    template <class T>
302    class SubclassIdentifier
303    {
304        public:
305            /**
306                @brief Constructor: Automaticaly assigns the Identifier of the given class.
307            */
308            SubclassIdentifier()
309            {
310                this->identifier_ = ClassIdentifier<T>::getIdentifier();
311            }
312
313            /**
314                @brief Overloading of the = operator: assigns the identifier and checks its type.
315                @param identifier The Identifier to assign
316                @return The SubclassIdentifier itself
317            */
318            SubclassIdentifier<T>& operator=(Identifier* identifier)
319            {
320                if (!identifier->isA(ClassIdentifier<T>::getIdentifier()))
321                {
322                    COUT(1) << "Error: Class " << identifier->getName() << " is not a " << ClassIdentifier<T>::getIdentifier()->getName() << "!" << std::endl;
323                    COUT(1) << "Error: SubclassIdentifier<" << ClassIdentifier<T>::getIdentifier()->getName() << "> = Class(" << identifier->getName() << ") is forbidden." << std::endl;
324                    COUT(1) << "Aborting..." << std::endl;
325                    abort();
326                }
327                this->identifier_ = identifier;
328                return *this;
329            }
330
331            /**
332                @brief Overloading of the * operator: returns the assigned identifier.
333                @return The assigned identifier
334            */
335            Identifier* operator*()
336            {
337                return this->identifier_;
338            }
339
340            /**
341                @brief Overloading of the -> operator: returns the assigned identifier.
342                @return The assigned identifier
343            */
344            Identifier* operator->() const
345            {
346                return this->identifier_;
347            }
348
349            /**
350                @brief Creates a new object of the type of the assigned Identifier and dynamic_casts it to the minimal type given by T.
351                @return The new object
352            */
353            T* fabricate()
354            {
355                BaseObject* newObject = this->identifier_->fabricate();
356
357                // Check if the creation was successful
358                if (newObject)
359                {
360                    // Do a dynamic_cast, because an object of type T is much better than of type BaseObject
361                    return dynamic_cast<T*>(newObject);
362                }
363                else
364                {
365                    // Something went terribly wrong
366                    if (this->identifier_)
367                    {
368                        COUT(1) << "Error: Class " << this->identifier_->getName() << " is not a " << ClassIdentifier<T>::getIdentifier()->getName() << "!" << std::endl;
369                        COUT(1) << "Error: Couldn't fabricate a new Object." << std::endl;
370                        COUT(1) << "Aborting..." << std::endl;
371                    }
372                    else
373                    {
374                        COUT(1) << "Error: Couldn't fabricate a new Object - Identifier is undefined." << std::endl;
375                        COUT(1) << "Aborting..." << std::endl;
376                    }
377
378                    abort();
379                }
380            }
381
382            /** @returns the assigned identifier. */
383            inline const Identifier* getIdentifier() const
384                { return this->identifier_; }
385
386            /** @returns true, if the assigned identifier is at least of the given type. @param identifier The identifier to compare with */
387            inline bool isA(const Identifier* identifier) const
388                { return this->identifier_->isA(identifier); }
389
390            /** @returns true, if the assigned identifier is exactly of the given type. @param identifier The identifier to compare with */
391            inline bool isDirectlyA(const Identifier* identifier) const
392                { return this->identifier_->isDirectlyA(identifier); }
393
394            /** @returns true, if the assigned identifier is a child of the given identifier. @param identifier The identifier to compare with */
395            inline bool isChildOf(const Identifier* identifier) const
396                { return this->identifier_->isChildOf(identifier); }
397
398            /** @returns true, if the assigned identifier is a parent of the given identifier. @param identifier The identifier to compare with */
399            inline bool isParentOf(const Identifier* identifier) const
400                { return this->identifier_->isParentOf(identifier); }
401
402        private:
403            Identifier* identifier_;        //!< The assigned identifier
404    };
405}
406
407#endif /* _Identifier_H__ */
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