corelib/include/ebcl/inline/MultiArrays.hh

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/******************************************************************************/
/* ARRAYS - INLINE CODE *******************************************************/
/******************************************************************************/
#ifndef _H_EBCL_INLINE_MULTIARRAYS
#define _H_EBCL_INLINE_MULTIARRAYS
#include <ebcl/MultiArrays.hh>
namespace ebcl {
/*= T_MultiArray ============================================================-*/
template< typename T >
inline void swap( T_MultiArray< T >& lhs , T_MultiArray< T >& rhs )
{
using std::swap;
swap( lhs.meta_ , rhs.meta_ );
swap( lhs.values_ , rhs.values_ );
}
/*----------------------------------------------------------------------------*/
template< typename T >
inline void T_MultiArray< T >::next( )
{
const auto sz( meta_.size( ) );
const auto first( ( sz == 0 ) ? 0 : ( meta_[ sz - 2 ] + meta_[ sz - 1 ] ) );
meta_ << first << 0;
}
template< typename T >
inline void T_MultiArray< T >::add( T value )
{
if ( meta_.size( ) == 0 ) {
meta_ << 0 << 1;
} else {
meta_[ meta_.size( ) - 1 ] ++;
}
values_ << value;
}
template< typename T >
template<
typename Q ,
typename... Args ,
typename >
inline Q& T_MultiArray< T >::addNew( Args&& ... args )
{
if ( meta_.size( ) == 0 ) {
meta_ << 0 << 1;
} else {
meta_[ meta_.size( ) - 1 ] ++;
}
return values_.addNew( std::forward< Args >( args ) ... );
}
template< typename T >
inline void T_MultiArray< T >::copyFrom( T_Array< T > const& source )
{
values_.addAll( source );
if ( meta_.size( ) == 0 ) {
meta_ << 0 << source.size( );
} else {
meta_[ meta_.size( ) - 1 ] += source.size( );
}
}
/*----------------------------------------------------------------------------*/
template< typename T >
inline uint32_t T_MultiArray< T >::size( ) const noexcept
{
return meta_.size( ) >> 1;
}
template< typename T >
inline uint32_t T_MultiArray< T >::firstOf( uint32_t item ) const noexcept
{
return meta_[ item * 2 ];
}
template< typename T >
inline uint32_t T_MultiArray< T >::sizeOf( uint32_t item ) const noexcept
{
return meta_[ item * 2 + 1 ];
}
template< typename T >
inline uint32_t T_MultiArray< T >::values( ) const noexcept
{
return values_.size( );
}
/*----------------------------------------------------------------------------*/
template< typename T >
inline T const& T_MultiArray< T >::get( uint32_t item , uint32_t sub ) const
{
assert( sub < meta_[ item * 2 + 1 ] );
return values_[ meta_[ item * 2 ] + sub ];
}
template< typename T >
inline T& T_MultiArray< T >::get( uint32_t item , uint32_t sub )
{
assert( sub < meta_[ item * 2 + 1 ] );
return values_[ meta_[ item * 2 ] + sub ];
}
/*----------------------------------------------------------------------------*/
template< typename T >
inline T const& T_MultiArray< T >::operator[] ( uint32_t index ) const
{
return values_[ index ];
}
template< typename T >
inline T& T_MultiArray< T >::operator[] ( uint32_t index )
{
return values_[ index ];
}
/*----------------------------------------------------------------------------*/
template< typename T >
inline bool T_MultiArray< T >::contains( uint32_t index , T const& value ) const
{
const auto first( firstOf( index ) );
const auto end( first + sizeOf( index ) );
for ( uint32_t i = first ; i < end ; i ++ ) {
if ( values_[ i ] == value ) {
return true;
}
}
return false;
}
/*----------------------------------------------------------------------------*/
template< typename T >
inline void T_MultiArray< T >::clear( )
{
meta_.clear( );
values_.clear( );
}
template< typename T >
inline void T_MultiArray< T >::free( )
{
meta_.free( );
values_.free( );
}
/*----------------------------------------------------------------------------*/
template< typename T >
inline void T_MultiArray< T >::copyFrom( uint32_t index )
{
copyFrom( *this , index );
}
template< typename T >
inline void T_MultiArray< T >::copyFrom(
T_MultiArray< T > const& other , uint32_t index )
{
const auto size( other.sizeOf( index ) );
if ( size == 0 ) {
return;
}
const auto first( other.firstOf( index ) );
T const* ptr( &( other[ first ] ) );
for ( uint32_t i = 0 ; i < size ; i ++ , ptr ++ ) {
values_ << *ptr;
}
if ( meta_.size( ) == 0 ) {
meta_ << 0 << size;
} else {
meta_[ meta_.size( ) - 1 ] += size;
}
}
/*----------------------------------------------------------------------------*/
template< typename T >
inline void T_MultiArray< T >::copyUnique( uint32_t index )
{
copyUnique( *this , index );
}
template< typename T >
inline void T_MultiArray< T >::copyUnique( T_MultiArray< T > const& other , uint32_t index )
{
const auto oSize( other.sizeOf( index ) );
if ( oSize == 0 ) {
return;
}
const auto ms( meta_.size( ) );
const auto tSize( ms == 0 ? 0 : meta_[ ms - 1 ] );
const auto tFirst( ms == 0 ? 0 : meta_[ ms - 2 ] );
const auto oFirst( other.firstOf( index ) );
T const* ptr( &( other[ oFirst ] ) );
uint32_t added = 0;
for ( uint32_t i = 0 ; i < oSize ; i ++ , ptr ++ ) {
bool found = false;
if ( tSize != 0 ) {
T const* pCheck( &values_[ tFirst ] );
for ( uint32_t j = 0 ; j < tSize ; j ++ , pCheck ++ ) {
if ( *pCheck == *ptr ) {
found = true;
break;
}
}
}
if ( !found ) {
values_ << *ptr;
added ++;
}
}
if ( ms == 0 ) {
meta_ << 0 << added;
} else {
meta_[ ms - 1 ] += added;
}
}
/*----------------------------------------------------------------------------*/
template< typename T >
inline void T_MultiArray< T >::sort( uint32_t index , F_Comparator< T > cmp )
{
values_.sort( meta_[ index * 2 ] , meta_[ index * 2 + 1 ] , cmp );
}
} // namespace
#endif // _H_EBCL_INLINE_MULTIARRAYS