mirror of
https://github.com/CloverHackyColor/CloverBootloader.git
synced 2024-12-26 16:47:40 +01:00
360 lines
9.6 KiB
C++
Executable File
360 lines
9.6 KiB
C++
Executable File
/*
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*
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* Created by jief in 1997.
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* Copyright (c) 2020 Jief
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* All rights reserved.
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*
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*/
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#if !defined(__XARRAY_H__)
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#define __XARRAY_H__
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#include <XToolsConf.h>
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#include "XToolsCommon.h"
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#if 0
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#define XArray_DBG(...) printf(__VA_ARGS__)
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#else
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#define XArray_DBG(...)
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#endif
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template<class TYPE>
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class XArray
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{
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protected:
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TYPE* m_data;
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size_t m_len;
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size_t m_allocatedSize;
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public:
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// void Init();
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XArray() : m_data(0), m_len(0), m_allocatedSize(0) { }
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XArray(const XArray<TYPE> &anArray);
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const XArray<TYPE> &operator =(const XArray<TYPE> &anArray);
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virtual ~XArray();
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public:
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const TYPE *data() const { return m_data; }
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TYPE *data() { return m_data; }
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public:
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size_t allocatedSize() const { return m_allocatedSize; }
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size_t length() const { return m_len; }
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size_t size() const { return m_len; }
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void setSize(size_t l);
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//low case functions like in std::vector
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const TYPE& begin() const { if ( m_len == 0 ) panic("m_len == 0"); return ElementAt(0); }
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TYPE& begin() { if ( m_len == 0 ) panic("m_len == 0"); return ElementAt(0); }
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const TYPE& end() const { if ( m_len == 0 ) panic("m_len == 0"); return ElementAt(m_len - 1); }
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TYPE& end() { if ( m_len == 0 ) panic("m_len == 0"); return ElementAt(m_len - 1); }
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size_t insert(const TYPE newElement, size_t pos, size_t count = 1) { return Insert(newElement, pos, count); }
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//--------------------------------------------------
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template<typename IntegralType, enable_if(is_integral(IntegralType))>
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const TYPE& ElementAt(IntegralType index) const
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{
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#ifdef DEBUG
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if ( index < 0 ) {
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panic("XArray::ElementAt(int) -> Operator [] : index < 0");
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}
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if ( (unsigned int)index >= m_len ) { // cast safe, index > 0
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panic("XArray::ElementAt(int) -> Operator [] : index > m_len");
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}
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#endif
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return m_data[index];
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}
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template<typename IntegralType, enable_if(is_integral(IntegralType))>
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TYPE& ElementAt(IntegralType index) { return const_cast<TYPE&>(const_cast<const XArray<TYPE>*>(this)->ElementAt(index)); }
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template<typename IntegralType, enable_if(is_integral(IntegralType))>
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const TYPE &operator[](IntegralType nIndex) const { return ElementAt(nIndex); }
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template<typename IntegralType, enable_if(is_integral(IntegralType))>
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TYPE &operator[](IntegralType nIndex) { return ElementAt(nIndex); }
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bool operator==(const XArray<TYPE>& other) const
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{
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if ( size() != other.size() ) return false;
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for ( size_t idx = 0 ; idx < other.size() ; ++idx ) {
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if ( !( ElementAt(idx) == other.ElementAt(idx) ) ) return false;
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}
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return true;
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}
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bool isEqual(const XArray<TYPE>& other) const
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{
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if ( size() != other.size() ) return false;
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for ( size_t idx = 0 ; idx < other.size() ; ++idx ) {
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if ( !( ElementAt(idx).isEqual(other.ElementAt(idx)) ) ) return false;
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}
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return true;
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}
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operator const void *() const { return m_data; };
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operator void *() { return m_data; };
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operator const TYPE *() const { return m_data; };
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operator TYPE *() { return m_data; };
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const TYPE * operator +( int i) const { return m_data+i; };
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TYPE * operator +( int i) { return m_data+i; };
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const TYPE * operator +(size_t i) const { return m_data+i; };
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TYPE * operator +(size_t i) { return m_data+i; };
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const TYPE * operator -( int i) const { return m_data-i; };
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TYPE * operator -( int i) { return m_data-i; };
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const TYPE * operator -(size_t i) const { return m_data-i; };
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TYPE * operator -(size_t i) { return m_data-i; };
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// size_t Add(const TYPE newElement);
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// TYPE AddNew();
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// size_t Inserts(const TYPE &newElement, size_t pos, size_t count);
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void CheckSize(size_t nNewSize);
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void CheckSize(size_t nNewSize, size_t nGrowBy);
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size_t AddUninitialized(size_t count); // add count uninitialzed elements
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size_t Add(const TYPE newElement, size_t count = 1);
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size_t AddArray(const TYPE *newElements, size_t count = 1);
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size_t Insert(const TYPE newElement, size_t pos, size_t count = 1);
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void Remove(const TYPE *Element);
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void Remove(const TYPE &Element);
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void RemoveAtIndex(size_t nIndex);
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void RemoveAtIndex(int nIndex);
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void setEmpty();
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bool isEmpty() const { return size() == 0; }
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size_t indexOf(TYPE& e) const;
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bool contains(TYPE& e) const { return indexOf(e) != MAX_XSIZE; } //logically it should be named as Contains(e)
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};
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//xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
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//
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// XArray
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//
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//xxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxxx
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template<class TYPE>
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size_t XArray<TYPE>::indexOf(TYPE& e) const
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{
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size_t i;
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for ( i=0 ; i<size() ; i+=1 ) {
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if ( ElementAt(i) == e ) return i;
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}
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return MAX_XSIZE;
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}
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///* Constructeur */
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//template<class TYPE>
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//void XArray<TYPE>::Init()
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//{
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// m_data = nullptr;
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// m_allocatedSize = 0;
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// m_len = 0;
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// _GrowBy = XArrayGrowByDefault;
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//}
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/* Constructeur */
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template<class TYPE>
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XArray<TYPE>::XArray(const XArray<TYPE> &anArray) : m_data(0), m_len(0), m_allocatedSize(0)
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{
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// Init();
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AddArray(anArray.data(), anArray.size());
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}
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/* operator = */
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template<class TYPE>
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const XArray<TYPE> &XArray<TYPE>::operator =(const XArray<TYPE> &anArray)
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{
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if ( anArray.length() > 0 )
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{
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CheckSize(anArray.length(), 0);
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memcpy(m_data, anArray.m_data, anArray.m_len * sizeof(TYPE));
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m_len = anArray.m_len;
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}
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else
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{
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setEmpty();
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}
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//
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//
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//size_t ui;
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//
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// setEmpty();
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// for ( ui=0 ; ui<anArray.length() ; ui+=1 ) Add(anArray[ui] );
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return *this;
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}
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/* Destructeur */
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template<class TYPE>
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XArray<TYPE>::~XArray()
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{
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//printf("XArray Destructor\n");
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if ( m_data ) free(m_data);
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}
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/* CheckSize() // nNewSize is number of TYPE, not in bytes */
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template<class TYPE>
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void XArray<TYPE>::CheckSize(size_t nNewSize, size_t nGrowBy)
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{
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//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 *)Xrealloc((void *)m_data, nNewSize * sizeof(TYPE), m_allocatedSize * sizeof(TYPE) );
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if ( !m_data ) {
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#ifdef DEBUG
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panic("XArray<TYPE>::CheckSize(nNewSize=%zu, nGrowBy=%zu) : Xrealloc(%zu, %lu, %" PRIuPTR ") returned NULL. System halted\n", nNewSize, nGrowBy, m_allocatedSize, nNewSize*sizeof(TYPE), (uintptr_t)m_data);
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#endif
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}
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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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}
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}
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/* CheckSize() */
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template<class TYPE>
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void XArray<TYPE>::CheckSize(size_t nNewSize)
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{
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CheckSize(nNewSize, XArrayGrowByDefault);
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}
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/* SetLength (size_t i) */
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template<class TYPE>
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void XArray<TYPE>::setSize(size_t l)
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{
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CheckSize(l, 0); // be sure the size is allocated
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m_len = l;
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#ifdef DEBUG
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if(m_len > m_allocatedSize) {
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panic("XArray::SetLength(size_t) -> _Len > _Size");
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}
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#endif
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}
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/* Add(size_t) */
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template<class TYPE>
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size_t XArray<TYPE>::AddUninitialized(size_t count)
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{
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CheckSize(m_len+count);
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m_len += count;
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return m_len-count;
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}
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/* Add(TYPE, size_t) */
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template<class TYPE>
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size_t XArray<TYPE>::Add(const TYPE newElement, size_t count)
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{
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// XArray_DBG("size_t XArray<TYPE>::Add(const TYPE newElement, size_t count) -> Enter. count=%d _Len=%d _Size=%d\n", count, m_len, m_size);
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size_t i;
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CheckSize(m_len+count);
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for ( i=0 ; i<count ; i++ ) {
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m_data[m_len+i] = newElement;
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}
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m_len += count;
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return m_len-count;
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}
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/* Add(TYPE *, size_t) */
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template<class TYPE>
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size_t XArray<TYPE>::AddArray(const TYPE *newElements, size_t count)
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{
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size_t i;
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CheckSize(m_len+count);
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for ( i=0 ; i<count ; i++ ) {
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m_data[m_len+i] = newElements[i];
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}
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m_len += count;
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return m_len-count;
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}
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/* Insert(TYPE &, size_t, size_t) */
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template<class TYPE>
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size_t XArray<TYPE>::Insert(const TYPE newElement, size_t pos, size_t count)
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{
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size_t i;
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if ( pos < m_len ) {
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CheckSize(m_len+count);
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memmove(&m_data[pos], &m_data[pos+count], (m_len-pos)*sizeof(TYPE));
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for ( i=0 ; i<count ; i++ ) {
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m_data[pos+i] = newElement;
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}
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m_len += count;
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return pos;
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}else{
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return Add(newElement, count);
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}
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}
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/* Remove(size_t) */
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template<class TYPE>
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void XArray<TYPE>::RemoveAtIndex(size_t nIndex)
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{
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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;
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return;
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}
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#if defined(_DEBUG) && defined(TRACE)
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TRACE("XArray::Remove(size_t) -> nIndex > m_len\n");
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#endif
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}
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/* Remove(int) */
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template<class TYPE>
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void XArray<TYPE>::RemoveAtIndex(int nIndex)
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{
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#if defined(__XTOOLS_CHECK_OVERFLOW__)
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if ( nIndex < 0 ) {
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panic("XArray<TYPE>::RemoveAtIndex(int nIndex) : BUG nIndex (%d) is < 0. System halted\n", nIndex);
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}
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#endif
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RemoveAtIndex( (size_t)nIndex ); // Check of nIndex is made in Remove(size_t nIndex)
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return;
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}
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/* Remove(TYPE) */
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template<class TYPE>
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void XArray<TYPE>::Remove(const TYPE &Element)
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{
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size_t i;
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for ( i=0 ; i<m_len ; i+= 1) {
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if ( m_data[i] == Element ) {
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Remove(i);
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return ;
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}
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}
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#if defined(_DEBUG) && defined(TRACE)
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TRACE("XArray::Remove(const TYPE &) -> Element not found\n");
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#endif
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}
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/* Remove(TYPE *) */
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template<class TYPE>
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void XArray<TYPE>::Remove(const TYPE *Element)
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{
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Remove(*Element);
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}
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/* Empty() */
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template<class TYPE>
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void XArray<TYPE>::setEmpty()
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{
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//printf("XArray Empty\n");
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m_len = 0;
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}
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#endif
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