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//*************************************************************************************************
//*************************************************************************************************
//
// XArray
//
// Developed by jief666, from 1997.
//
//*************************************************************************************************
//*************************************************************************************************
# if !defined(__XARRAY_H__)
# define __XARRAY_H__
# include "XToolsCommon.h"
#if 0
# define XArray_DBG(...) DebugLog(2, __VA_ARGS__)
# else
# define XArray_DBG(...)
# endif
template < class TYPE >
class XArray
{
protected :
TYPE * m_data ;
xsize m_len ;
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xsize m_allocatedSize ;
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xsize _GrowBy ;
public :
void Init ( ) ;
XArray ( ) { Init ( ) ; }
XArray ( const XArray < TYPE > & anArray ) ;
const XArray < TYPE > & operator = ( const XArray < TYPE > & anArray ) ;
virtual ~ XArray ( ) ;
public :
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const TYPE * data ( ) const { return m_data ; }
TYPE * data ( ) { return m_data ; }
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public :
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xsize allocatedSize ( ) const { return m_allocatedSize ; }
xsize length ( ) const { return m_len ; }
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xsize size ( ) const { return m_len ; }
void setSize ( xsize l ) ;
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//low case functions like in std::vector
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const TYPE & begin ( ) const { return ElementAt ( 0 ) ; }
TYPE & begin ( ) { return ElementAt ( 0 ) ; }
const TYPE & end ( ) const { return ElementAt ( m_len - 1 ) ; }
TYPE & end ( ) { return ElementAt ( m_len - 1 ) ; }
xsize insert ( const TYPE newElement , xsize pos , xsize count = 1 ) { return Insert ( newElement , pos , count ) ; }
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//--------------------------------------------------
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const TYPE & ElementAt ( xsize nIndex ) const ;
TYPE & ElementAt ( xsize nIndex ) ;
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const TYPE & ElementAt ( int nIndex ) const ;
TYPE & ElementAt ( int nIndex ) ;
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const TYPE & operator [ ] ( xsize nIndex ) const { return ElementAt ( nIndex ) ; }
TYPE & operator [ ] ( xsize nIndex ) { return ElementAt ( nIndex ) ; }
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const TYPE & operator [ ] ( int nIndex ) const { return ElementAt ( nIndex ) ; }
TYPE & operator [ ] ( int nIndex ) { return ElementAt ( nIndex ) ; }
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operator const void * ( ) const { return m_data ; } ;
operator void * ( ) { return m_data ; } ;
operator const TYPE * ( ) const { return m_data ; } ;
operator TYPE * ( ) { return m_data ; } ;
const TYPE * operator + ( int i ) const { return m_data + i ; } ;
TYPE * operator + ( int i ) { return m_data + i ; } ;
const TYPE * operator + ( xsize i ) const { return m_data + i ; } ;
TYPE * operator + ( xsize i ) { return m_data + i ; } ;
const TYPE * operator - ( int i ) const { return m_data - i ; } ;
TYPE * operator - ( int i ) { return m_data - i ; } ;
const TYPE * operator - ( xsize i ) const { return m_data - i ; } ;
TYPE * operator - ( xsize i ) { return m_data - i ; } ;
// xsize Add(const TYPE newElement);
// TYPE AddNew();
// xsize Inserts(const TYPE &newElement, xsize pos, xsize count);
void CheckSize ( xsize nNewSize ) ;
void CheckSize ( xsize nNewSize , xsize nGrowBy ) ;
xsize AddUninitialized ( xsize count ) ; // add count uninitialzed elements
xsize Add ( const TYPE newElement , xsize count = 1 ) ;
xsize AddArray ( const TYPE * newElements , xsize count = 1 ) ;
xsize Insert ( const TYPE newElement , xsize pos , xsize count = 1 ) ;
void Remove ( const TYPE * Element ) ;
void Remove ( const TYPE & Element ) ;
void RemoveAtIndex ( xsize nIndex ) ;
void RemoveAtIndex ( int nIndex ) ;
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void setEmpty ( ) ;
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bool isEmpty ( ) const { return size ( ) = = 0 ; }
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xsize IdxOf ( TYPE & e ) const ;
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bool ExistIn ( TYPE & e ) const { return IdxOf ( e ) ! = MAX_XSIZE ; } //logically it should be named as Contains(e)
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} ;
//xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
//
// XArray
//
//xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
template < class TYPE >
xsize XArray < TYPE > : : IdxOf ( TYPE & e ) const
{
xsize i ;
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for ( i = 0 ; i < size ( ) ; i + = 1 ) {
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if ( ElementAt ( i ) = = e ) return i ;
}
return MAX_XSIZE ;
}
/* Constructeur */
template < class TYPE >
void XArray < TYPE > : : Init ( )
{
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m_data = nullptr ;
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m_allocatedSize = 0 ;
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m_len = 0 ;
_GrowBy = XArrayGrowByDefault ;
}
/* Constructeur */
template < class TYPE >
XArray < TYPE > : : XArray ( const XArray < TYPE > & anArray )
{
Init ( ) ;
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AddArray ( anArray . data ( ) , anArray . size ( ) ) ;
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}
/* operator = */
template < class TYPE >
const XArray < TYPE > & XArray < TYPE > : : operator = ( const XArray < TYPE > & anArray )
{
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if ( anArray . length ( ) > 0 )
{
CheckSize ( anArray . length ( ) , 0 ) ;
memcpy ( m_data , anArray . m_data , anArray . m_len * sizeof ( TYPE ) ) ;
m_len = anArray . m_len ;
}
else
{
setEmpty ( ) ;
}
//
//
//xsize ui;
//
// setEmpty();
// for ( ui=0 ; ui<anArray.length() ; ui+=1 ) Add(anArray[ui] );
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return * this ;
}
/* Destructeur */
template < class TYPE >
XArray < TYPE > : : ~ XArray ( )
{
//printf("XArray Destructor\n");
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if ( m_data ) free ( m_data ) ;
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}
/* CheckSize() */
template < class TYPE >
void XArray < TYPE > : : CheckSize ( xsize nNewSize , xsize nGrowBy )
{
//XArray_DBG("CheckSize: m_len=%d, m_size=%d, nGrowBy=%d, nNewSize=%d\n", m_len, m_size, nGrowBy, nNewSize);
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if ( nNewSize > m_allocatedSize ) {
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nNewSize + = nGrowBy ;
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m_data = ( TYPE * ) realloc ( ( void * ) m_data , nNewSize * sizeof ( TYPE ) , m_allocatedSize * sizeof ( TYPE ) ) ;
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if ( ! m_data ) {
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DebugLog ( 2 , " XArray<TYPE>::CheckSize(nNewSize=%llu, nGrowBy=%llu) : Xrealloc(%llu, %llu, % " PRIuPTR " ) returned NULL. System halted \n " , nNewSize , nGrowBy , m_allocatedSize , nNewSize * sizeof ( TYPE ) , ( uintptr_t ) m_data ) ;
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panic ( ) ;
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}
// memset(&_Data[_Size], 0, (nNewSize-_Size) * sizeof(TYPE)); // Could help for debugging, but zeroing in not needed.
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m_allocatedSize = nNewSize ;
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}
}
/* CheckSize() */
template < class TYPE >
void XArray < TYPE > : : CheckSize ( xsize nNewSize )
{
CheckSize ( nNewSize , XArrayGrowByDefault ) ;
}
/* SetLength (xsize i) */
template < class TYPE >
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void XArray < TYPE > : : setSize ( xsize l )
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{
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CheckSize ( l , XArrayGrowByDefault ) ; // be sure the size is allocated
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m_len = l ;
# ifdef DEBUG
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if ( m_len > m_allocatedSize ) {
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DebugLog ( 2 , " XArray::SetLength(xsize) -> _Len > _Size " ) ;
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panic ( ) ;
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}
# endif
}
/* ElementAt() */
template < class TYPE >
TYPE & XArray < TYPE > : : ElementAt ( xsize index )
{
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// #ifdef _DEBUG
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if ( index > = m_len ) {
DebugLog ( 2 , " XArray::ElementAt(xsize) -> Operator [] : index > m_len " ) ;
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panic ( ) ;
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}
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// #endif
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return m_data [ index ] ;
}
/* ElementAt() */
template < class TYPE >
const TYPE & XArray < TYPE > : : ElementAt ( xsize index ) const
{
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// #ifdef _DEBUG
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if ( index > = m_len ) {
DebugLog ( 2 , " XArray::ElementAt(xsize) const -> Operator [] : index > m_len " ) ;
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panic ( ) ;
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}
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// #endif
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return m_data [ index ] ;
}
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/* ElementAt() */
template < class TYPE >
TYPE & XArray < TYPE > : : ElementAt ( int index )
{
// #ifdef _DEBUG
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if ( index < 0 ) {
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panic ( " XArray::ElementAt(int) -> Operator [] : index < 0 " ) ;
}
if ( ( unsigned int ) index > = m_len ) { // cast safe, index > 0
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DebugLog ( 2 , " XArray::ElementAt(int) -> Operator [] : index > m_len " ) ;
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panic ( ) ;
}
// #endif
return m_data [ index ] ;
}
/* ElementAt() */
template < class TYPE >
const TYPE & XArray < TYPE > : : ElementAt ( int index ) const
{
// #ifdef _DEBUG
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if ( index < 0 ) {
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panic ( " XArray::ElementAt(int) const -> Operator [] : index < 0 " ) ;
}
if ( ( unsigned int ) index > = m_len ) { // cast ok as index > 0. Ideally cast would be like '(unsigned __typeof__(index))'
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DebugLog ( 2 , " XArray::ElementAt(int) const -> Operator [] : index > m_len " ) ;
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panic ( ) ;
}
// #endif
return m_data [ index ] ;
}
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/* Add(xsize) */
template < class TYPE >
xsize XArray < TYPE > : : AddUninitialized ( xsize count )
{
CheckSize ( m_len + count ) ;
m_len + = count ;
return m_len - count ;
}
/* Add(TYPE, xsize) */
template < class TYPE >
xsize XArray < TYPE > : : Add ( const TYPE newElement , xsize count )
{
// XArray_DBG("xsize XArray<TYPE>::Add(const TYPE newElement, xsize count) -> Enter. count=%d _Len=%d _Size=%d\n", count, m_len, m_size);
xsize i ;
CheckSize ( m_len + count ) ;
for ( i = 0 ; i < count ; i + + ) {
m_data [ m_len + i ] = newElement ;
}
m_len + = count ;
return m_len - count ;
}
/* Add(TYPE *, xsize) */
template < class TYPE >
xsize XArray < TYPE > : : AddArray ( const TYPE * newElements , xsize count )
{
xsize i ;
CheckSize ( m_len + count ) ;
for ( i = 0 ; i < count ; i + + ) {
m_data [ m_len + i ] = newElements [ i ] ;
}
m_len + = count ;
return m_len - count ;
}
/* Insert(TYPE &, xsize, xsize) */
template < class TYPE >
xsize XArray < TYPE > : : Insert ( const TYPE newElement , xsize pos , xsize count )
{
xsize i ;
if ( pos < m_len ) {
CheckSize ( m_len + count ) ;
memmove ( & m_data [ pos ] , & m_data [ pos + count ] , ( m_len - pos ) * sizeof ( TYPE ) ) ;
for ( i = 0 ; i < count ; i + + ) {
m_data [ pos + i ] = newElement ;
}
m_len + = count ;
return pos ;
} else {
return Add ( newElement , count ) ;
}
}
/* Remove(xsize) */
template < class TYPE >
void XArray < TYPE > : : RemoveAtIndex ( xsize nIndex )
{
if ( nIndex < m_len ) {
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if ( nIndex < m_len - 1 ) memmove ( & m_data [ nIndex ] , & m_data [ nIndex + 1 ] , ( m_len - nIndex - 1 ) * sizeof ( TYPE ) ) ;
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m_len - = 1 ;
return ;
}
# if defined(_DEBUG) && defined(TRACE)
TRACE ( " XArray::Remove(xsize) -> nIndex > m_len \n " ) ;
# endif
}
/* Remove(int) */
template < class TYPE >
void XArray < TYPE > : : RemoveAtIndex ( int nIndex )
{
# if defined(__XTOOLS_INT_CHECK__)
if ( nIndex < 0 ) {
DebugLog ( 2 , " XArray<TYPE>::RemoveAtIndex(int nIndex) : BUG nIndex (%d) is < 0. System halted \n " , nIndex ) ;
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panic ( ) ;
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}
# endif
RemoveAtIndex ( ( xsize ) nIndex ) ; // Check of nIndex is made in Remove(xsize nIndex)
return ;
}
/* Remove(TYPE) */
template < class TYPE >
void XArray < TYPE > : : Remove ( const TYPE & Element )
{
xsize i ;
for ( i = 0 ; i < m_len ; i + = 1 ) {
if ( m_data [ i ] = = Element ) {
Remove ( i ) ;
return ;
}
}
# if defined(_DEBUG) && defined(TRACE)
TRACE ( " XArray::Remove(const TYPE &) -> Element not found \n " ) ;
# endif
}
/* Remove(TYPE *) */
template < class TYPE >
void XArray < TYPE > : : Remove ( const TYPE * Element )
{
Remove ( * Element ) ;
}
/* Empty() */
template < class TYPE >
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void XArray < TYPE > : : setEmpty ( )
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{
//printf("XArray Empty\n");
m_len = 0 ;
}
# endif