array_dynamic_no_mem_check.hpp
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00001 
00008 /*****************************************************************************
00009 ** Ifdefs
00010 *****************************************************************************/
00011 
00012 #ifndef ECL_CONTAINERS_ARRAY_DYNAMIC_NO_MEM_CHECK_HPP_
00013 #define ECL_CONTAINERS_ARRAY_DYNAMIC_NO_MEM_CHECK_HPP_
00014 
00015 /*****************************************************************************
00016 ** Includes
00017 *****************************************************************************/
00018 
00019 #include <algorithm>
00020 #include <ecl/config/macros.hpp>
00021 #include <ecl/utilities/blueprints.hpp>
00022 #include "../definitions.hpp"
00023 #include "../initialiser.hpp"
00024 #include "../stencil.hpp"
00025 #include "array_no_mem_check.hpp"
00026 
00027 /*****************************************************************************
00028 ** Namespaces
00029 *****************************************************************************/
00030 
00031 namespace ecl {
00032 
00033 /*****************************************************************************
00034 ** Forward Declarations
00035 *****************************************************************************/
00036 
00037 template <typename Type> class Array<Type,DynamicStorage>;
00038 
00039 namespace blueprints {
00040 
00041 template <typename Type> class ConstantDynamicArray;
00042 
00043 } // namespace blueprints
00044 
00045 namespace formatters {
00046 
00047 template <typename Type, size_t N> class ArrayFormatter;
00048 
00049 } // namespace formatters
00050 
00051 /*****************************************************************************
00052 ** BluePrintFactory
00053 *****************************************************************************/
00062 template<typename Type>
00063 class ECL_PUBLIC BluePrintFactory< Array<Type,DynamicStorage> > {
00064     public:
00073         static blueprints::ConstantDynamicArray<Type> Constant(size_t size, const Type &value) {
00074             return blueprints::ConstantDynamicArray<Type>(size,value);
00075         }
00076         virtual ~BluePrintFactory() {};
00077 };
00078 
00079 /*****************************************************************************
00080 ** Interface [Array][Dynamic]
00081 *****************************************************************************/
00128 template<typename Type>
00129 class ECL_PUBLIC Array<Type,DynamicStorage> : public BluePrintFactory< Array<Type,DynamicStorage> >  {
00130     public:
00131         /*********************
00132         ** Typedefs
00133         **********************/
00134         typedef Type           value_type; 
00135         typedef Type*          iterator;   
00136         typedef const Type*    const_iterator;  
00137         typedef Type&          reference;  
00138         typedef const Type&    const_reference; 
00139         typedef std::size_t    size_type;  
00140         typedef std::ptrdiff_t difference_type;
00141         typedef std::reverse_iterator<iterator> reverse_iterator; 
00142         typedef std::reverse_iterator<const_iterator> const_reverse_iterator;  
00143         typedef formatters::ArrayFormatter<Type,DynamicStorage> Formatter; 
00146         typedef BluePrintFactory< Array<Type,DynamicStorage> > Factory;
00147 
00148         /*********************
00149         ** Constructors
00150         **********************/
00156         explicit Array() : buffer_size(0), buffer(NULL) {}
00165         explicit Array(const unsigned int reserve_size) : buffer_size(reserve_size), buffer(NULL) {
00166                         buffer = new Type[reserve_size];
00167         };
00175         Array(const Array<Type,DynamicStorage>& array) :
00176                 Factory(),
00177                 buffer_size(0),
00178                 buffer(NULL)
00179                 {
00180                 if ( array.size() != 0 ) {
00181                                 resize(array.size());
00182                                 std::copy(array.begin(),array.end(),begin());
00183                 }
00184         }
00205         template<typename T>
00206         Array(const blueprints::ArrayBluePrint< T > &blueprint) : buffer_size(0), buffer(NULL) {
00207             // Note we're using a partially specialised parent interface here otherwise the
00208             // constructor that reserves sizes as well as the comma initialiser won't
00209             // conveniently convert types correctly
00210             // (e.g. Array<double> array(4); array = 1,2,3,4; will fail)
00211             ecl_compile_time_concept_check(BluePrintConcept<T>);
00212             blueprint.implementApply(*this);
00213         }
00219         ~Array() {
00220             if ( buffer != NULL ) {
00221                 delete[] buffer;
00222             }
00223         }
00224         /*********************
00225         ** Assignment
00226         **********************/
00240         containers::BoundedListInitialiser<value_type,iterator,DynamicStorage> operator<<(const Type &value) {
00241             return containers::BoundedListInitialiser<value_type,iterator,DynamicStorage>(value,buffer,buffer_size);
00242         }
00243 
00244         void operator=(const Array<Type,DynamicStorage>& array) {
00245                 if ( array.size() == 0 ) {
00246                         clear();
00247                 } else {
00248                                 resize(array.size());
00249                                 std::copy(array.begin(),array.end(),begin());
00250                 }
00251         }
00252 
00253         /*********************
00254         ** Iterators
00255         **********************/
00262         iterator begin() ecl_assert_throw_decl(StandardException) {
00263             ecl_assert_throw( buffer != NULL, StandardException(LOC,OutOfRangeError) );
00264             return buffer;
00265             }
00272         const_iterator begin() const ecl_assert_throw_decl(StandardException) {
00273             ecl_assert_throw( buffer != NULL, StandardException(LOC,OutOfRangeError) );
00274             return buffer;
00275         }
00282         iterator end() ecl_assert_throw_decl(StandardException) {
00283             ecl_assert_throw( buffer != NULL, StandardException(LOC,OutOfRangeError) );
00284             return buffer+buffer_size;
00285         }
00292         const_iterator end() const ecl_assert_throw_decl(StandardException) {
00293             ecl_assert_throw( buffer != NULL, StandardException(LOC,OutOfRangeError) );
00294             return buffer+buffer_size;
00295         }
00302         reverse_iterator rbegin() ecl_assert_throw_decl(StandardException) {
00303             ecl_assert_throw( buffer != NULL, StandardException(LOC,OutOfRangeError) );
00304             return reverse_iterator(end());
00305         }
00312         const_reverse_iterator rbegin() const ecl_assert_throw_decl(StandardException) {
00313             ecl_assert_throw( buffer != NULL, StandardException(LOC,OutOfRangeError) );
00314             return const_reverse_iterator(end());
00315         }
00322         reverse_iterator rend() ecl_assert_throw_decl(StandardException) {
00323             ecl_assert_throw( buffer != NULL, StandardException(LOC,OutOfRangeError) );
00324             return reverse_iterator(begin());
00325         }
00332         const_reverse_iterator rend() const ecl_assert_throw_decl(StandardException) {
00333             ecl_assert_throw( buffer != NULL, StandardException(LOC,OutOfRangeError) );
00334             return const_reverse_iterator(begin());
00335         }
00336 
00337         /*********************
00338         ** Front/Back
00339         **********************/
00346         reference front() ecl_assert_throw_decl(StandardException) {
00347             ecl_assert_throw( buffer != NULL, StandardException(LOC,OutOfRangeError) );
00348             return buffer[0];
00349         }
00356         const_reference front() const ecl_assert_throw_decl(StandardException) {
00357             ecl_assert_throw( buffer != NULL, StandardException(LOC,OutOfRangeError) );
00358             return buffer[0];
00359         }
00366         reference back() ecl_assert_throw_decl(StandardException) {
00367             ecl_assert_throw( buffer != NULL, StandardException(LOC,OutOfRangeError) );
00368             return buffer[buffer_size-1];
00369         }
00376         const_reference back() const ecl_assert_throw_decl(StandardException) {
00377             ecl_assert_throw( buffer != NULL, StandardException(LOC,OutOfRangeError) );
00378             return buffer[buffer_size-1];
00379         }
00380 
00381         /*********************
00382         ** Accessors
00383         **********************/
00395         Stencil< Array<Type,DynamicStorage> > stencil(const unsigned int& start_index, const unsigned int& n) ecl_assert_throw_decl(StandardException) {
00396                 ecl_assert_throw(start_index < size(), StandardException(LOC, OutOfRangeError, "Start index provided is larger than the underlying array size."));
00397                 ecl_assert_throw(start_index+n <= size(), StandardException(LOC, OutOfRangeError, "Finish index provided is larger than the underlying array size."));
00398                 return Stencil< Array<Type,DynamicStorage> >(*this, begin()+start_index, begin()+start_index+n);
00399         }
00409         reference operator[](size_type i) ecl_assert_throw_decl(StandardException) {
00410             ecl_assert_throw( i<buffer_size, StandardException(LOC,OutOfRangeError));
00411             return buffer[i];
00412         }
00424         const_reference operator[](size_type i) const ecl_assert_throw_decl(StandardException) {
00425             ecl_assert_throw( i<buffer_size, StandardException(LOC,OutOfRangeError));
00426             return buffer[i];
00427         }
00438         reference at(size_type i) throw(StandardException) {
00439             if ( i>=buffer_size ) {
00440                 throw StandardException(LOC,OutOfRangeError);
00441             }
00442             return buffer[i];
00443         }
00456         const_reference at(size_type i) const throw(StandardException) {
00457             if ( i>=buffer_size ) {
00458                 throw StandardException(LOC,OutOfRangeError);
00459             }
00460             return buffer[i];
00461         }
00462 
00463         /*********************
00464         ** Utilities
00465         **********************/
00473         size_type size() const { return buffer_size; }
00474 
00483         void resize( size_t n ) {
00484             if ( buffer != NULL ) {
00485                 delete[] buffer;
00486             }
00487             buffer = new Type[n];
00488             buffer_size = n;
00489         }
00495         void clear() {
00496             if ( buffer != NULL ) {
00497                 delete[] buffer;
00498                 buffer = NULL;
00499             }
00500             buffer_size = 0;
00501         }
00502 
00503         /*********************
00504         ** Streaming
00505         **********************/
00513         template <typename OutputStream, typename ElementType>
00514         friend OutputStream& operator<<(OutputStream &ostream , const Array<ElementType,DynamicStorage> &array);
00515 
00516     private:
00517         unsigned int buffer_size;
00518         Type *buffer;
00519 
00520 };
00521 
00522 /*****************************************************************************
00523 ** Implementation [Array]
00524 *****************************************************************************/
00525 
00526 template <typename OutputStream, typename ElementType>
00527 OutputStream& operator<<(OutputStream &ostream , const Array<ElementType,DynamicStorage> &array) {
00528 
00529     ostream << "[ ";
00530     for(size_t i = 0; i < array.buffer_size; ++i )
00531     {
00532         ostream << array[i] << " ";
00533     }
00534     ostream << "]";
00535     ostream.flush();
00536 
00537     return ostream;
00538 }
00539 
00540 /*****************************************************************************
00541 ** BluePrints
00542 *****************************************************************************/
00543 
00544 namespace blueprints {
00545 
00546 /*****************************************************************************
00547 ** Interface [ConstantDynamicArray]
00548 *****************************************************************************/
00549 
00557 template <typename Type>
00558 class ConstantDynamicArray: public ArrayBluePrint< ConstantDynamicArray<Type> >  {
00559     public:
00563         typedef ecl::Array<Type,ecl::DynamicStorage> base_type;
00569         ConstantDynamicArray() {};
00570 
00580         ConstantDynamicArray(size_t size, const Type &value ) :
00581             reserve_size(size),
00582             val(value)
00583             {}
00584 
00585         virtual ~ConstantDynamicArray() {};
00586 
00597         base_type instantiate() {
00598             ecl::Array<Type> array(reserve_size);
00599             std::fill_n(array.begin(),reserve_size,val);
00600             return array;
00601         }
00602 
00611         void apply(base_type& array) const {
00612             array.resize(reserve_size);
00613             std::fill_n(array.begin(),reserve_size,val);
00614         }
00615 
00616     private:
00617         size_t reserve_size;
00618         Type val;
00619 };
00620 
00621 
00622 } // namespace blueprints
00623 } // namespace ecl
00624 
00625 
00626 #endif /* ECL_CONTAINERS_ARRAY_DYNAMIC_NO_MEM_CHECK_HPP_ */


ecl_containers
Author(s): Daniel Stonier
autogenerated on Thu Jun 6 2019 21:17:43