Documentation/OpenFlipper-3.1/a02086_source.html

 /*===========================================================================*\
  *                                                                           *
  *                            OpenVolumeMesh                                 *
  *        Copyright (C) 2011 by Computer Graphics Group, RWTH Aachen         *
  *                        www.openvolumemesh.org                             *
  *                                                                           *
  *---------------------------------------------------------------------------*
  *  This file is part of OpenVolumeMesh.                                     *
  *                                                                           *
  *  OpenVolumeMesh is free software: you can redistribute it and/or modify   *
  *  it under the terms of the GNU Lesser General Public License as           *
  *  published by the Free Software Foundation, either version 3 of           *
  *  the License, or (at your option) any later version with the              *
  *  following exceptions:                                                    *
  *                                                                           *
  *  If other files instantiate templates or use macros                       *
  *  or inline functions from this file, or you compile this file and         *
  *  link it with other files to produce an executable, this file does        *
  *  not by itself cause the resulting executable to be covered by the        *
  *  GNU Lesser General Public License. This exception does not however       *
  *  invalidate any other reasons why the executable file might be            *
  *  covered by the GNU Lesser General Public License.                        *
  *                                                                           *
  *  OpenVolumeMesh is distributed in the hope that it will be useful,        *
  *  but WITHOUT ANY WARRANTY; without even the implied warranty of           *
  *  MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE.  See the            *
  *  GNU Lesser General Public License for more details.                      *
  *                                                                           *
  *  You should have received a copy of the GNU LesserGeneral Public          *
  *  License along with OpenVolumeMesh.  If not,                              *
  *  see <http://www.gnu.org/licenses/>.                                      *
  *                                                                           *
 \*===========================================================================*/

 /*===========================================================================*\
  *                                                                           *
  *   $Revision$                                                         *
  *   $Date$                    *
  *   $LastChangedBy$                                                *
  *                                                                           *
 \*===========================================================================*/

 #ifndef OPENVOLUMEMESHPROPERTY_HH
 #define OPENVOLUMEMESHPROPERTY_HH

 //== INCLUDES =================================================================

 #include <cassert>
 #include <istream>
 #include <ostream>
 #include <numeric>
 #include <string>
 #include <vector>

 #include "OpenVolumeMeshBaseProperty.hh"

 #include "Serializers.hh"

 namespace OpenVolumeMesh {

 //== CLASS DEFINITION =========================================================

 template<class T>
 class OpenVolumeMeshPropertyT: public OpenVolumeMeshBaseProperty {
 public:

     template <class PropT, class HandleT> friend class PropertyPtr;

         typedef T                                                                               Value;
         typedef std::vector<T>                                      vector_type;
         typedef T                                                                               value_type;
         typedef typename vector_type::reference                 reference;
         typedef typename vector_type::const_reference   const_reference;

 public:

         OpenVolumeMeshPropertyT(const std::string& _name = "<unknown>", const T _def = T()) :
                 OpenVolumeMeshBaseProperty(_name),
                 def_(_def) {
         }

         OpenVolumeMeshPropertyT(const OpenVolumeMeshPropertyT& _rhs) :
                 OpenVolumeMeshBaseProperty(_rhs),
                 data_(_rhs.data_),
                 def_(_rhs.def_) {
         }

 public:
         // inherited from OpenVolumeMeshBaseProperty
         virtual void reserve(size_t _n) {
                 data_.reserve(_n);
         }
         virtual void resize(size_t _n) {
                 data_.resize(_n, def_);
         }
         virtual void clear() {
                 data_.clear();
                 vector_type().swap(data_);
         }
         virtual void push_back() {
                 data_.push_back(def_);
         }
         virtual void swap(size_t _i0, size_t _i1) {
                 std::swap(data_[_i0], data_[_i1]);
         }

         void delete_element(size_t _idx) {
                 data_.erase(data_.begin() + _idx);
         }

 public:

         virtual size_t n_elements() const {
                 return data_.size();
         }
         virtual size_t element_size() const {
                 return sizeof(T);
         }

 #ifndef DOXY_IGNORE_THIS
         struct plus {
                 size_t operator ()(size_t _b, const T& /*_v*/) {
                         return _b + sizeof(T);
                 }
         };
 #endif

         virtual size_t size_of() const {
                 if (element_size() != OpenVolumeMeshBaseProperty::UnknownSize)
                         return this->OpenVolumeMeshBaseProperty::size_of(n_elements());
                 return std::accumulate(data_.begin(), data_.end(), 0, plus());
         }

         virtual size_t size_of(size_t _n_elem) const {
                 return this->OpenVolumeMeshBaseProperty::size_of(_n_elem);
         }

         // Function to serialize a property
     virtual void serialize(std::ostream& _ostr) const {
         for(typename vector_type::const_iterator it = data_.begin();
                 it != data_.end(); ++it) {
             OpenVolumeMesh::serialize(_ostr, *it) << std::endl;
         }
     }

     // Function to deserialize a property
     virtual void deserialize(std::istream& _istr) {
         for(unsigned int i = 0; i < n_elements(); ++i) {
             OpenVolumeMesh::deserialize(_istr, data_[i]);
         }
     }

 public:
         // data access interface

         const T* data() const {

                 if (data_.empty())
                         return 0;

                 return &data_[0];
         }

         vector_type& data_vector() {

                 return data_;
         }

         reference operator[](int _idx) {
                 assert(size_t(_idx) < data_.size());
                 return data_[_idx];
         }

         const_reference operator[](int _idx) const {
                 assert(size_t(_idx) < data_.size());
                 return data_[_idx];
         }

         OpenVolumeMeshPropertyT<T>* clone() const {
                 OpenVolumeMeshPropertyT<T>* p = new OpenVolumeMeshPropertyT<T>(*this);
                 return p;
         }

         typename vector_type::const_iterator begin() const { return data_.begin(); }

         typename vector_type::iterator begin() { return data_.begin(); }

         typename vector_type::const_iterator end() const { return data_.end(); }

     typename vector_type::iterator end() { return data_.end(); }

 protected:

     virtual void delete_multiple_entries(const std::vector<bool>& _tags) {

         assert(_tags.size() == data_.size());
         vector_type new_data;
         typename vector_type::iterator d_it = data_.begin();
         std::vector<bool>::const_iterator t_it = _tags.begin();
         std::vector<bool>::const_iterator t_end = _tags.end();
         for(; t_it != t_end; ++t_it, ++d_it) {
             if(!*t_it) {
                 new_data.push_back(*d_it);
             }
         }
         data_.swap(new_data);
     }

 private:

         vector_type data_;

         const T def_;
 };

 //-----------------------------------------------------------------------------


 template<>
 class OpenVolumeMeshPropertyT<bool> : public OpenVolumeMeshBaseProperty {
 public:

     template <class PropT, class HandleT> friend class PropertyPtr;

     typedef std::vector<bool>                           vector_type;
     typedef bool                                                        value_type;
     typedef vector_type::reference                      reference;
     typedef vector_type::const_reference        const_reference;

 public:

     OpenVolumeMeshPropertyT(const std::string& _name = "<unknown>", const bool _def = bool()) :
         OpenVolumeMeshBaseProperty(_name),
         def_(_def) {
     }

 public:
     // inherited from OpenVolumeMeshBaseProperty

     virtual void reserve(size_t _n) {
         data_.reserve(_n);
     }
     virtual void resize(size_t _n) {
         data_.resize(_n, def_);
     }
     virtual void clear() {
         data_.clear();
         vector_type().swap(data_);
     }
     virtual void push_back() {
         data_.push_back(def_);
     }
     virtual void swap(size_t _i0, size_t _i1) {
         bool t(data_[_i0]);
         data_[_i0] = data_[_i1];
         data_[_i1] = t;
     }

     void delete_element(size_t _idx) {
         data_.erase(data_.begin() + _idx);
     }

 public:

     virtual size_t n_elements() const {
         return data_.size();
     }
     virtual size_t element_size() const {
         return OpenVolumeMeshBaseProperty::UnknownSize;
     }
     virtual size_t size_of() const {
         return size_of(n_elements());
     }
     virtual size_t size_of(size_t _n_elem) const {
         return _n_elem / 8 + ((_n_elem % 8) != 0);
     }

     // Function to serialize a property
     virtual void serialize(std::ostream& _ostr) const {
         for(vector_type::const_iterator it = data_.begin();
                 it != data_.end(); ++it) {
             OpenVolumeMesh::serialize(_ostr, *it) << std::endl;
         }
     }

     // Function to deserialize a property
     virtual void deserialize(std::istream& _istr) {
         for(unsigned int i = 0; i < n_elements(); ++i) {
             value_type val;
             OpenVolumeMesh::deserialize(_istr, val);
             data_[i] = val;
         }
     }

 public:

     reference operator[](int _idx) {
         assert(size_t(_idx) < data_.size());
         return data_[_idx];
     }

     const_reference operator[](int _idx) const {
         assert(size_t(_idx) < data_.size());
         return data_[_idx];
     }

     OpenVolumeMeshPropertyT<bool>* clone() const {
         OpenVolumeMeshPropertyT<bool>* p = new OpenVolumeMeshPropertyT<bool> (
                 *this);
         return p;
     }

     vector_type::const_iterator begin() const { return data_.begin(); }

     vector_type::iterator begin() { return data_.begin(); }

     vector_type::const_iterator end() const { return data_.end(); }

     vector_type::iterator end() { return data_.end(); }

 protected:

     virtual void delete_multiple_entries(const std::vector<bool>& _tags) {

         assert(_tags.size() == data_.size());
         vector_type new_data;
         vector_type::iterator d_it = data_.begin();
         std::vector<bool>::const_iterator t_it = _tags.begin();
         std::vector<bool>::const_iterator t_end = _tags.end();
         for(; t_it != t_end; ++t_it, ++d_it) {
             if(!*t_it) {
                 new_data.push_back(*d_it);
             }
         }
         data_.swap(new_data);
     }

 private:

     vector_type data_;

     const bool def_;
 };

 //-----------------------------------------------------------------------------


 template<>
 class OpenVolumeMeshPropertyT<std::string> : public OpenVolumeMeshBaseProperty {
 public:

     template <class PropT, class HandleT> friend class PropertyPtr;

     typedef std::string                                         Value;
     typedef std::vector<std::string>            vector_type;
     typedef std::string                                         value_type;
     typedef vector_type::reference                      reference;
     typedef vector_type::const_reference        const_reference;

 public:

     OpenVolumeMeshPropertyT(const std::string& _name = "<unknown>", const std::string& _def = "") :
         OpenVolumeMeshBaseProperty(_name),
         def_(_def) {
     }

 public:
     // inherited from OpenVolumeMeshBaseProperty

     virtual void reserve(size_t _n) {
         data_.reserve(_n);
     }
     virtual void resize(size_t _n) {
         data_.resize(_n, def_);
     }
     virtual void clear() {
         data_.clear();
         vector_type().swap(data_);
     }
     virtual void push_back() {
         data_.push_back(def_);
     }
     virtual void swap(size_t _i0, size_t _i1) {
         std::swap(data_[_i0], data_[_i1]);
     }

     virtual void delete_element(size_t _idx) {
         data_.erase(data_.begin() + _idx);
     }

 public:

     virtual size_t n_elements() const {
         return data_.size();
     }
     virtual size_t element_size() const {
         return OpenVolumeMeshBaseProperty::UnknownSize;
     }
     virtual size_t size_of() const {
         return sizeof(data_);
     }

     virtual size_t size_of(size_t /* _n_elem */) const {
         return OpenVolumeMeshBaseProperty::UnknownSize;
     }

     virtual void stats(std::ostream& _ostr) const {
         for(vector_type::const_iterator it = data_.begin();
             it != data_.end(); ++it) {
                 _ostr << *it << " ";
         }
     }

     // Function to serialize a property
     virtual void serialize(std::ostream& _ostr) const {
         for(vector_type::const_iterator it = data_.begin();
                 it != data_.end(); ++it) {
             OpenVolumeMesh::serialize(_ostr, *it) << std::endl;
         }
     }

     // Function to deserialize a property
     virtual void deserialize(std::istream& _istr) {
         for(unsigned int i = 0; i < n_elements(); ++i) {
             OpenVolumeMesh::deserialize(_istr, data_[i]);
         }
     }

 public:

     const value_type* data() const {
         if (data_.empty())
             return 0;

         return (value_type*) &data_[0];
     }

     reference operator[](int _idx) {
         assert(size_t(_idx) < data_.size());
         return ((value_type*) &data_[0])[_idx];
     }

     const_reference operator[](int _idx) const {
         assert(size_t(_idx) < data_.size());
         return ((value_type*) &data_[0])[_idx];
     }

     OpenVolumeMeshPropertyT<value_type>* clone() const {
         OpenVolumeMeshPropertyT<value_type>* p = new OpenVolumeMeshPropertyT<
                 value_type> (*this);
         return p;
     }

     vector_type::const_iterator begin() const { return data_.begin(); }

     vector_type::iterator begin() { return data_.begin(); }

     vector_type::const_iterator end() const { return data_.end(); }

     vector_type::iterator end() { return data_.end(); }

 protected:

     virtual void delete_multiple_entries(const std::vector<bool>& _tags) {

         assert(_tags.size() == data_.size());
         vector_type new_data;
         vector_type::iterator d_it = data_.begin();
         std::vector<bool>::const_iterator t_it = _tags.begin();
         std::vector<bool>::const_iterator t_end = _tags.end();
         for(; t_it != t_end; ++t_it, ++d_it) {
             if(!*t_it) {
                 new_data.push_back(*d_it);
             }
         }
         data_.swap(new_data);
     }

 private:

     vector_type data_;

     const std::string def_;
 };

 } // Namespace OpenVolumeMesh

 //=============================================================================
 #endif // OPENVOLUMEMESHPROPERTY_HH defined
 //=============================================================================
OpenVolumeMesh::OpenVolumeMeshBaseProperty
Definition: OpenVolumeMeshBaseProperty.hh:63

OpenVolumeMesh::OpenVolumeMeshPropertyT::OpenVolumeMeshPropertyT
OpenVolumeMeshPropertyT(const std::string &_name="<unknown>", const T _def=T())
Default constructor.
Definition: OpenVolumeMeshProperty.hh:85

OpenVolumeMesh::OpenVolumeMeshPropertyT< std::string >::n_elements
virtual size_t n_elements() const
Number of elements in property.
Definition: OpenVolumeMeshProperty.hh:418

OpenVolumeMesh::OpenVolumeMeshPropertyT< bool >::element_size
virtual size_t element_size() const
Size of one element in bytes or UnknownSize if not known.
Definition: OpenVolumeMeshProperty.hh:286

OpenVolumeMesh::OpenVolumeMeshPropertyT::clone
OpenVolumeMeshPropertyT< T > * clone() const
Make a copy of self.
Definition: OpenVolumeMeshProperty.hh:193

OpenVolumeMesh::OpenVolumeMeshPropertyT::resize
virtual void resize(size_t _n)
Resize storage to hold n elements.
Definition: OpenVolumeMeshProperty.hh:102

OpenVolumeMesh::OpenVolumeMeshBaseProperty::size_of
virtual size_t size_of() const
Return size of property in bytes.
Definition: OpenVolumeMeshBaseProperty.hh:130

OpenVolumeMesh::OpenVolumeMeshPropertyT::size_of
virtual size_t size_of() const
Return size of property in bytes.
Definition: OpenVolumeMeshProperty.hh:137

OpenVolumeMesh::OpenVolumeMeshPropertyT::delete_element
void delete_element(size_t _idx)
Erase an element of the vector.
Definition: OpenVolumeMeshProperty.hh:116

OpenVolumeMesh::OpenVolumeMeshPropertyT< bool >::clone
OpenVolumeMeshPropertyT< bool > * clone() const
Make a copy of self.
Definition: OpenVolumeMeshProperty.hh:328

OpenVolumeMesh::OpenVolumeMeshPropertyT< std::string >::clear
virtual void clear()
Clear all elements and free memory.
Definition: OpenVolumeMeshProperty.hh:401

OpenVolumeMesh::OpenVolumeMeshPropertyT< std::string >::reserve
virtual void reserve(size_t _n)
Reserve memory for n elements.
Definition: OpenVolumeMeshProperty.hh:395

OpenVolumeMesh::OpenVolumeMeshPropertyT< std::string >::operator[]
const_reference operator[](int _idx) const
Const access the i&#39;th element. No range check is performed!
Definition: OpenVolumeMeshProperty.hh:470

OpenVolumeMesh
Definition: ColorAttrib.hh:53

OpenVolumeMesh::OpenVolumeMeshPropertyT::data
const T * data() const
Get pointer to array (does not work for T==bool)
Definition: OpenVolumeMeshProperty.hh:166

OpenVolumeMesh::OpenVolumeMeshPropertyT::operator[]
reference operator[](int _idx)
Access the i&#39;th element. No range check is performed!
Definition: OpenVolumeMeshProperty.hh:181

OpenVolumeMesh::OpenVolumeMeshPropertyT< bool >::n_elements
virtual size_t n_elements() const
Number of elements in property.
Definition: OpenVolumeMeshProperty.hh:283

OpenVolumeMesh::OpenVolumeMeshPropertyT::element_size
virtual size_t element_size() const
Size of one element in bytes or UnknownSize if not known.
Definition: OpenVolumeMeshProperty.hh:125

OpenVolumeMesh::OpenVolumeMeshPropertyT< std::string >::clone
OpenVolumeMeshPropertyT< value_type > * clone() const
Return a deep copy of self.
Definition: OpenVolumeMeshProperty.hh:475

OpenVolumeMesh::OpenVolumeMeshPropertyT< bool >::delete_element
void delete_element(size_t _idx)
Erase an element of the vector.
Definition: OpenVolumeMeshProperty.hh:277

OpenVolumeMesh::OpenVolumeMeshPropertyT< std::string >::element_size
virtual size_t element_size() const
Size of one element in bytes or UnknownSize if not known.
Definition: OpenVolumeMeshProperty.hh:421

OpenVolumeMesh::OpenVolumeMeshPropertyT< std::string >::operator[]
reference operator[](int _idx)
Access the i&#39;th element. No range check is performed!
Definition: OpenVolumeMeshProperty.hh:464

OpenVolumeMesh::OpenVolumeMeshPropertyT< bool >::size_of
virtual size_t size_of() const
Return size of property in bytes.
Definition: OpenVolumeMeshProperty.hh:289

OpenVolumeMesh::OpenVolumeMeshPropertyT< std::string >::size_of
virtual size_t size_of(size_t) const
Definition: OpenVolumeMeshProperty.hh:428

OpenVolumeMesh::OpenVolumeMeshPropertyT< bool >::push_back
virtual void push_back()
Extend the number of elements by one.
Definition: OpenVolumeMeshProperty.hh:268

OpenVolumeMesh::OpenVolumeMeshPropertyT< std::string >::delete_multiple_entries
virtual void delete_multiple_entries(const std::vector< bool > &_tags)
Delete multiple entries in list.
Definition: OpenVolumeMeshProperty.hh:492

OpenVolumeMesh::OpenVolumeMeshPropertyT< std::string >::delete_element
virtual void delete_element(size_t _idx)
Erase an element of the vector.
Definition: OpenVolumeMeshProperty.hh:412

OpenVolumeMesh::OpenVolumeMeshPropertyT::delete_multiple_entries
virtual void delete_multiple_entries(const std::vector< bool > &_tags)
Delete multiple entries in list.
Definition: OpenVolumeMeshProperty.hh:209

OpenVolumeMesh::OpenVolumeMeshPropertyT::clear
virtual void clear()
Clear all elements and free memory.
Definition: OpenVolumeMeshProperty.hh:105

OpenVolumeMesh::OpenVolumeMeshPropertyT
Default property class for any type T.
Definition: OpenVolumeMeshProperty.hh:71

OpenVolumeMesh::OpenVolumeMeshPropertyT< bool >::resize
virtual void resize(size_t _n)
Resize storage to hold n elements.
Definition: OpenVolumeMeshProperty.hh:261

OpenVolumeMesh::OpenVolumeMeshPropertyT::size_of
virtual size_t size_of(size_t _n_elem) const
Definition: OpenVolumeMeshProperty.hh:143

OpenVolumeMesh::OpenVolumeMeshPropertyT::data_vector
vector_type & data_vector()
Get reference to property vector (be careful, improper usage, e.g. resizing, may crash) ...
Definition: OpenVolumeMeshProperty.hh:175

OpenVolumeMesh::PropertyPtr
Definition: PropertyPtr.hh:65

OpenVolumeMesh::OpenVolumeMeshPropertyT< bool >::operator[]
const_reference operator[](int _idx) const
Const access to the i&#39;th element. No range check is performed!
Definition: OpenVolumeMeshProperty.hh:322

OpenVolumeMesh::OpenVolumeMeshPropertyT::OpenVolumeMeshPropertyT
OpenVolumeMeshPropertyT(const OpenVolumeMeshPropertyT &_rhs)
Copy constructor.
Definition: OpenVolumeMeshProperty.hh:91

OpenVolumeMesh::OpenVolumeMeshPropertyT::swap
virtual void swap(size_t _i0, size_t _i1)
Let two elements swap their storage place.
Definition: OpenVolumeMeshProperty.hh:112

OpenVolumeMesh::OpenVolumeMeshPropertyT::operator[]
const_reference operator[](int _idx) const
Const access to the i&#39;th element. No range check is performed!
Definition: OpenVolumeMeshProperty.hh:187

OpenVolumeMesh::OpenVolumeMeshPropertyT< bool >::swap
virtual void swap(size_t _i0, size_t _i1)
Let two elements swap their storage place.
Definition: OpenVolumeMeshProperty.hh:271

OpenVolumeMesh::OpenVolumeMeshPropertyT< bool >
Definition: OpenVolumeMeshProperty.hh:238

OpenVolumeMesh::OpenVolumeMeshBaseProperty::UnknownSize
static const size_t UnknownSize
Indicates an error when a size is returned by a member.
Definition: OpenVolumeMeshBaseProperty.hh:70

OpenVolumeMesh::OpenVolumeMeshPropertyT::n_elements
virtual size_t n_elements() const
Number of elements in property.
Definition: OpenVolumeMeshProperty.hh:122

OpenVolumeMesh::OpenVolumeMeshPropertyT::reserve
virtual void reserve(size_t _n)
Reserve memory for n elements.
Definition: OpenVolumeMeshProperty.hh:99

OpenVolumeMesh::OpenVolumeMeshPropertyT< bool >::clear
virtual void clear()
Clear all elements and free memory.
Definition: OpenVolumeMeshProperty.hh:264

OpenVolumeMesh::OpenVolumeMeshPropertyT< std::string >::push_back
virtual void push_back()
Extend the number of elements by one.
Definition: OpenVolumeMeshProperty.hh:405

OpenVolumeMesh::OpenVolumeMeshPropertyT< bool >::delete_multiple_entries
virtual void delete_multiple_entries(const std::vector< bool > &_tags)
Delete multiple entries in list.
Definition: OpenVolumeMeshProperty.hh:345

std
STL namespace.

OpenVolumeMesh::OpenVolumeMeshPropertyT< std::string >::size_of
virtual size_t size_of() const
Return size of property in bytes.
Definition: OpenVolumeMeshProperty.hh:424

OpenVolumeMesh::OpenVolumeMeshPropertyT< bool >::operator[]
reference operator[](int _idx)
Access the i&#39;th element. No range check is performed!
Definition: OpenVolumeMeshProperty.hh:316

OpenVolumeMesh::OpenVolumeMeshPropertyT< std::string >::resize
virtual void resize(size_t _n)
Resize storage to hold n elements.
Definition: OpenVolumeMeshProperty.hh:398

OpenVolumeMesh::OpenVolumeMeshPropertyT< std::string >::swap
virtual void swap(size_t _i0, size_t _i1)
Let two elements swap their storage place.
Definition: OpenVolumeMeshProperty.hh:408

OpenVolumeMesh::OpenVolumeMeshPropertyT< bool >::reserve
virtual void reserve(size_t _n)
Reserve memory for n elements.
Definition: OpenVolumeMeshProperty.hh:258

OpenVolumeMesh::OpenVolumeMeshPropertyT::push_back
virtual void push_back()
Extend the number of elements by one.
Definition: OpenVolumeMeshProperty.hh:109

OpenVolumeMesh::OpenVolumeMeshPropertyT< bool >::size_of
virtual size_t size_of(size_t _n_elem) const
Definition: OpenVolumeMeshProperty.hh:292