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Revision 132 by tim, Thu Oct 21 16:22:01 2004 UTC vs.
Revision 877 by gezelter, Wed Feb 1 17:26:43 2006 UTC

# Line 1 | Line 1
1   /*
2 < * Copyright (C) 2000-2004  Object Oriented Parallel Simulation Engine (OOPSE) project
3 < *
4 < * Contact: oopse@oopse.org
5 < *
6 < * This program is free software; you can redistribute it and/or
7 < * modify it under the terms of the GNU Lesser General Public License
8 < * as published by the Free Software Foundation; either version 2.1
9 < * of the License, or (at your option) any later version.
10 < * All we ask is that proper credit is given for our work, which includes
11 < * - but is not limited to - adding the above copyright notice to the beginning
12 < * of your source code files, and to any copyright notice that you may distribute
13 < * with programs based on this work.
14 < *
15 < * This program is distributed in the hope that it will be useful,
16 < * but WITHOUT ANY WARRANTY; without even the implied warranty of
17 < * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the
18 < * GNU Lesser General Public License for more details.
19 < *
20 < * You should have received a copy of the GNU Lesser General Public License
21 < * along with this program; if not, write to the Free Software
22 < * Foundation, Inc., 59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.
2 > * Copyright (c) 2005 The University of Notre Dame. All Rights Reserved.
3   *
4 + * The University of Notre Dame grants you ("Licensee") a
5 + * non-exclusive, royalty free, license to use, modify and
6 + * redistribute this software in source and binary code form, provided
7 + * that the following conditions are met:
8 + *
9 + * 1. Acknowledgement of the program authors must be made in any
10 + *    publication of scientific results based in part on use of the
11 + *    program.  An acceptable form of acknowledgement is citation of
12 + *    the article in which the program was described (Matthew
13 + *    A. Meineke, Charles F. Vardeman II, Teng Lin, Christopher
14 + *    J. Fennell and J. Daniel Gezelter, "OOPSE: An Object-Oriented
15 + *    Parallel Simulation Engine for Molecular Dynamics,"
16 + *    J. Comput. Chem. 26, pp. 252-271 (2005))
17 + *
18 + * 2. Redistributions of source code must retain the above copyright
19 + *    notice, this list of conditions and the following disclaimer.
20 + *
21 + * 3. Redistributions in binary form must reproduce the above copyright
22 + *    notice, this list of conditions and the following disclaimer in the
23 + *    documentation and/or other materials provided with the
24 + *    distribution.
25 + *
26 + * This software is provided "AS IS," without a warranty of any
27 + * kind. All express or implied conditions, representations and
28 + * warranties, including any implied warranty of merchantability,
29 + * fitness for a particular purpose or non-infringement, are hereby
30 + * excluded.  The University of Notre Dame and its licensors shall not
31 + * be liable for any damages suffered by licensee as a result of
32 + * using, modifying or distributing the software or its
33 + * derivatives. In no event will the University of Notre Dame or its
34 + * licensors be liable for any lost revenue, profit or data, or for
35 + * direct, indirect, special, consequential, incidental or punitive
36 + * damages, however caused and regardless of the theory of liability,
37 + * arising out of the use of or inability to use software, even if the
38 + * University of Notre Dame has been advised of the possibility of
39 + * such damages.
40   */
41 <
41 >
42   /**
43   * @file GenericData.hpp
44   * @brief
# Line 40 | Line 56 | namespace oopse{
56   #include <vector>
57   namespace oopse{
58  
59 <    /**
60 <     * @ class GenericData GenericData.hpp "utils/GenericData.hpp"
61 <     * @brief Base class for generic data which is associated with an id
62 <     */
63 <    class GenericData{
64 <        public:
65 <            GenericData() :  id_("UndefinedGenericData"){}
59 >  /**
60 >   * @ class GenericData GenericData.hpp "utils/GenericData.hpp"
61 >   * @brief Base class for generic data which is associated with an id
62 >   */
63 >  class GenericData{
64 >  public:
65 >    GenericData() :  id_("UndefinedGenericData"){}
66  
67 <            GenericData(const std::string& id) {  setID(id);  }
67 >    GenericData(const std::string& id) {  setID(id);  }
68  
69 <            /** virtual destructor */
70 <            virtual ~GenericData() {}
69 >    /** virtual destructor */
70 >    virtual ~GenericData() {}
71  
72  
73 <            /**
74 <             *  Returns the id of this generic data
75 <             *
76 <             * @return the id of this generic data
77 <             *
78 <             * @see #setID
79 <             */
80 <            const std::string getID() const { return id_;  }
73 >    /**
74 >     *  Returns the id of this generic data
75 >     *
76 >     * @return the id of this generic data
77 >     *
78 >     * @see #setID
79 >     */
80 >    const std::string getID() const { return id_;  }
81  
82 <            /**
83 <             *  Sets the id of this generic data
84 <             *
85 <             * @param id the id to be set
86 <             *
87 <             * @see #getID
88 <             */
89 <            void setID(const std::string& id) { id_ = id;  }
82 >    /**
83 >     *  Sets the id of this generic data
84 >     *
85 >     * @param id the id to be set
86 >     *
87 >     * @see #getID
88 >     */
89 >    void setID(const std::string& id) { id_ = id;  }
90  
91              
92 <        private:
93 <            GenericData(const GenericData&);
94 <            GenericData& operator=(GenericData&);
95 <            std::string id_;
92 >  private:
93 >    GenericData(const GenericData&);
94 >    GenericData& operator=(GenericData&);
95 >    std::string id_;
96  
97 <    };
97 >  };
98  
99 <    /**
100 <     * @class SimpleTypeData
101 <     * @brief SimpleTypeData class is a POD  repository class
102 <     * @warning ElemDataType must be copy constructible, and copy assignable
103 <     */
104 <    template<typename ElemDataType> class SimpleTypeData : public GenericData{
99 >  /**
100 >   * @class SimpleTypeData
101 >   * @brief SimpleTypeData class is a POD  repository class
102 >   * @warning ElemDataType must be copy constructible, and copy assignable
103 >   */
104 >  template<typename ElemDataType> class SimpleTypeData : public GenericData{
105  
106 <        public:
107 <            SimpleTypeData() :  GenericData(), data_(ElemDataType()) {}
108 <            SimpleTypeData(const std::string& id) : GenericData(id), data_(ElemDataType()) {}
106 >  public:
107 >    SimpleTypeData() :  GenericData(), data_(ElemDataType()) {}
108 >    SimpleTypeData(const std::string& id) : GenericData(id), data_(ElemDataType()) {}
109 >    SimpleTypeData(const std::string&id , const ElemDataType& data) : GenericData(id), data_(data) {}
110 >    template<typename T>
111 >    SimpleTypeData(const SimpleTypeData<T>& s) {
112 >      data_ = s.getData();
113 >    }
114  
115 <            template<typename T>
116 <            SimpleTypeData(const SimpleTypeData<T>& s) {
117 <                data_ = s.getData();
97 <            }
98 <
99 <            SimpleTypeData<ElemDataType>& operator =(const SimpleTypeData<ElemDataType>& s) {
100 <                if (this == &s)
101 <                    return *this;
115 >    SimpleTypeData<ElemDataType>& operator =(const SimpleTypeData<ElemDataType>& s) {
116 >      if (this == &s)
117 >        return *this;
118                  
119 <                data_ = s.getData();
120 <                return *this;                
121 <            }
119 >      data_ = s.getData();
120 >      return *this;                
121 >    }
122              
123 <            template<typename T>
124 <            SimpleTypeData<ElemDataType>& operator =(const SimpleTypeData<T>& s) {                
125 <                data_ = s.getData();
126 <                return *this;
127 <            }
123 >    template<typename T>
124 >    SimpleTypeData<ElemDataType>& operator =(const SimpleTypeData<T>& s) {                
125 >      data_ = s.getData();
126 >      return *this;
127 >    }
128              
129 <            /** Returns POD data */    
130 <            const ElemDataType& getData() const {return data_;}
131 <            ElemDataType& getData()  {return data_;}
132 <            /**
133 <            * Sets POD data
134 <            * @data POD data to be set
135 <            */
136 <            void setData(const ElemDataType& data) { data_ = data;  }
129 >    /** Returns POD data */    
130 >    const ElemDataType& getData() const {return data_;}
131 >    ElemDataType& getData()  {return data_;}
132 >    /**
133 >     * Sets POD data
134 >     * @data POD data to be set
135 >     */
136 >    void setData(const ElemDataType& data) { data_ = data;  }
137  
138 <        private:
139 <            ElemDataType data_;
140 <    };
138 >  private:
139 >    ElemDataType data_;
140 >  };
141  
142 <    /** BoolGenericData is a generic data type contains a bool variable */
143 <    typedef SimpleTypeData<bool> BoolGenericData;
142 >  /** BoolGenericData is a generic data type contains a bool variable */
143 >  typedef SimpleTypeData<bool> BoolGenericData;
144  
145 <    /** IntGenericData is a generic data type contains an integer variable */
146 <    typedef SimpleTypeData<int> IntGenericData;
145 >  /** IntGenericData is a generic data type contains an integer variable */
146 >  typedef SimpleTypeData<int> IntGenericData;
147  
148 <    /** FloatGenericData is a generic data type contains a float variable */
149 <    typedef SimpleTypeData<float> FloatGenericData;
148 >  /** FloatGenericData is a generic data type contains a float variable */
149 >  typedef SimpleTypeData<float> FloatGenericData;
150  
151 <    /** DoubleGenericData is a generic data type contains a double variable */
152 <    typedef SimpleTypeData<double> DoubleGenericData;
151 >  /** DoubleGenericData is a generic data type contains a double variable */
152 >  typedef SimpleTypeData<double> DoubleGenericData;
153    
154 <    /**
155 <     * @typedef StringGenericData
156 <     * A generic data type contains a string variable
157 <     *
158 <     * @code
159 <     *   StringGenericData* s = new StringGenericData("MyStringGenericData");
160 <     *   PropertyMap propMap;
161 <     *   GenericData* gdata;
162 <     *
163 <     *   s->setData("OOPSE");
164 <     *   propMap->addProperty(s);
165 <     *  
166 <     *   gdata = propMap->getProperty("MyStringGenericData");
167 <     *   if (gdata != NULL){
168 <     *     s = dynamic_cast<StringGenericData*>(gdata);
169 <     *     if (s != NULL)
170 <     *       std::cout << s->getData() << std::endl;
171 <     *   }
172 <     *
173 <     * @endcode
174 <     */  
175 <    typedef SimpleTypeData<std::string> StringGenericData;
154 >  /**
155 >   * @typedef StringGenericData
156 >   * A generic data type contains a  std::string variable
157 >   *
158 >   * @code
159 >   *   StringGenericData* s = new StringGenericData("MyStringGenericData");
160 >   *   PropertyMap propMap;
161 >   *   GenericData* gdata;
162 >   *
163 >   *   s->setData("OOPSE");
164 >   *   propMap->addProperty(s);
165 >   *  
166 >   *   gdata = propMap->getPropertyByName("MyStringGenericData");
167 >   *   if (gdata != NULL){
168 >   *     s = dynamic_cast<StringGenericData*>(gdata);
169 >   *     if (s != NULL)
170 >   *       std::cout << s->getData() << std::endl;
171 >   *   }
172 >   *
173 >   * @endcode
174 >   */  
175 >  typedef SimpleTypeData<std::string> StringGenericData;
176  
177 <    /**
178 <    * @class STLContainerTypeData
179 <    * @brief STL container type generic data which is associated with an id
180 <    *
181 <    * @template ContainerType
182 <    * @template ElemDataType
183 <    */
184 <    template <template<typename ELEM, typename = std::allocator<ELEM> > class ContainerType,
185 <                     typename ElemDataType >
186 <    class STLContainerTypeData : public GenericData, public ContainerType<ElemDataType>{
187 <        public:
172 <            typedef STLContainerTypeData<ContainerType, ElemDataType> SelfType;
173 <            typedef ContainerType<ElemDataType> STLContainerType;
177 >  /**
178 >   * @class STLContainerTypeData
179 >   * @brief STL container type generic data which is associated with an id
180 >   *
181 >   * @template ContainerType
182 >   * @template ElemDataType
183 >   */
184 >  template <typename ElemDataType >
185 >  class VectorTypeData : public GenericData {
186 >  public:
187 >    typedef VectorTypeData<ElemDataType> SelfType;
188  
189 <            STLContainerTypeData(const std::string& id)
190 <                : GenericData(id),  ContainerType<ElemDataType> () {}
189 >    VectorTypeData(const std::string& id)
190 >      : GenericData(id){}
191              
192 <            STLContainerTypeData(const SelfType& s) : SelfType(s){}
192 >    VectorTypeData(const SelfType& s) : data_(s){}
193  
194 <            SelfType& operator =(const SelfType& s){
195 <                if (this == &s)
196 <                    return *this;
194 >    SelfType& operator =(const SelfType& s){
195 >      if (this == &s)
196 >        return *this;
197  
198 <                STLContainerType::operator=(s);
199 <                return *this;
200 <            }
201 <    };
198 >      this->data_ = s.data_;
199 >      return *this;
200 >    }
201 >            
202 >  private:
203 >    std::vector<ElemDataType> data_;
204 >  };
205  
206 <    /**
207 <     * @typedef IntVectorGenericData
208 <     * A generic data type contains a vector<int> variable.
209 <     */  
210 <    typedef STLContainerTypeData<std::vector, int> IntVectorGenericData;
206 >  /**
207 >   * @typedef IntVectorGenericData
208 >   * A generic data type contains a  std::vector<int> variable.
209 >   */  
210 >  typedef VectorTypeData<int> IntVectorGenericData;
211  
212 <    /**
213 <     * @typedef IntVectorGenericData
214 <     * A generic data type contains a vector<float> variable.
215 <     */  
216 <    typedef STLContainerTypeData<std::vector, float> FloatVectorGenericData;
212 >  /**
213 >   * @typedef IntVectorGenericData
214 >   * A generic data type contains a  std::vector<float> variable.
215 >   */  
216 >  typedef VectorTypeData<float> FloatVectorGenericData;
217  
218 <    /**
219 <     * @typedef IntVectorGenericData
220 <     * A generic data type contains a vector<double> variable.
221 <     */  
222 <    typedef STLContainerTypeData<std::vector, double> DoubleVectorGenericData;
218 >  /**
219 >   * @typedef IntVectorGenericData
220 >   * A generic data type contains a  std::vector<double> variable.
221 >   */  
222 >  typedef VectorTypeData<double> DoubleVectorGenericData;
223  
224 <    /**
225 <     * @typedef StringVectorGenericData
226 <     *  A generic data type contains a vector<string> variable.
227 <     *
228 <     * @code
229 <     *  StringVectorGenericData* sv = new StringVectorGenericData("MyStringVector");
230 <     *  GenericData* gdata;
231 <     *  PropertyMap propMap;
232 <     *  std::vector<std::string>::iterator iter;
233 <     *  
234 <     *  sv->push_back("Hello World");
235 <     *  sv->push_back("OOPSE");
236 <     *
237 <     *  propMap.addProperty(sv);
238 <     *  
239 <     *  gdata = propMap.getProperty("MyStringVector");
240 <     *
241 <     *  if (gdata != NULL){
242 <     *
243 <     *    sv = dynamic_cast<StringVectorGenericData*>(gdata);
244 <     *
245 <     *    if (sv != NULL){
246 <     *      for (iter = sv->begin(); iter != sv->end(); ++ iter)
247 <     *        std::cout << *iter << std::endl;
248 <     *    }
249 <     *  }
250 <     * @endcode
251 <     */  
252 <    typedef STLContainerTypeData<std::vector, std::string> StringVectorGenericData;
236 <
237 <    /**
238 <     * @typedef IntVectorGenericData
239 <     * A generic data type contains a  list<vector<string> >  variable.
240 <     */  
241 <    typedef STLContainerTypeData<std::list, std::vector<int> > IntVectorListGenericData;
224 >  /**
225 >   * @typedef StringVectorGenericData
226 >   *  A generic data type contains a  std::vector<string> variable.
227 >   *
228 >   * @code
229 >   *  StringVectorGenericData* sv = new StringVectorGenericData("MyStringVector");
230 >   *  GenericData* gdata;
231 >   *  PropertyMap propMap;
232 >   *  std::vector<std::string>::iterator iter;
233 >   *  
234 >   *  sv->push_back("Hello World");
235 >   *  sv->push_back("OOPSE");
236 >   *
237 >   *  propMap.addProperty(sv);
238 >   *  
239 >   *  gdata = propMap.getPropertyByName("MyStringVector");
240 >   *
241 >   *  if (gdata != NULL){
242 >   *
243 >   *    sv = dynamic_cast<StringVectorGenericData*>(gdata);
244 >   *
245 >   *    if (sv != NULL){
246 >   *      for (iter = sv->begin(); iter != sv->end(); ++ iter)
247 >   *        std::cout << *iter << std::endl;
248 >   *    }
249 >   *  }
250 >   * @endcode
251 >   */  
252 >  typedef VectorTypeData<std::string> StringVectorGenericData;
253    
243 #define CHIVALUE_ID "CHIVALUE"
244 #define INTEGRALOFCHIDT_ID "INTEGRALOFCHIDT"
245 #define ETAVALUE_ID "ETAVALUE"
254  
255   } // namespace oopse
256   #endif //UTIL _GENERICDATA_HPP

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