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170 lines
3.1 KiB
C++
170 lines
3.1 KiB
C++
#ifndef _RAR_ARRAY_
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#define _RAR_ARRAY_
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extern ErrorHandler ErrHandler;
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template <class T> class Array
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{
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private:
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T *Buffer;
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size_t BufSize;
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size_t AllocSize;
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size_t MaxSize;
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public:
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Array();
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Array(size_t Size);
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Array(const Array &Src); // Copy constructor.
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~Array();
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inline void CleanData();
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inline T& operator [](size_t Item) const;
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inline T* operator + (size_t Pos);
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inline size_t Size(); // Returns the size in items, not in bytes.
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void Add(size_t Items);
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void Alloc(size_t Items);
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void Reset();
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void SoftReset();
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Array<T>& operator = (const Array<T> &Src);
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void Push(T Item);
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void Append(T *Item,size_t Count);
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T* Addr(size_t Item) {return Buffer+Item;}
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void SetMaxSize(size_t Size) {MaxSize=Size;}
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T* Begin() {return Buffer;}
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T* End() {return Buffer==NULL ? NULL:Buffer+BufSize;}
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};
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template <class T> void Array<T>::CleanData()
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{
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Buffer=NULL;
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BufSize=0;
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AllocSize=0;
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MaxSize=0;
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}
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template <class T> Array<T>::Array()
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{
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CleanData();
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}
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template <class T> Array<T>::Array(size_t Size)
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{
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CleanData();
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Add(Size);
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}
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// Copy constructor in case we need to pass an object as value.
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template <class T> Array<T>::Array(const Array &Src)
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{
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CleanData();
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Alloc(Src.BufSize);
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if (Src.BufSize!=0)
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memcpy((void *)Buffer,(void *)Src.Buffer,Src.BufSize*sizeof(T));
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}
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template <class T> Array<T>::~Array()
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{
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if (Buffer!=NULL)
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free(Buffer);
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}
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template <class T> inline T& Array<T>::operator [](size_t Item) const
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{
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return Buffer[Item];
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}
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template <class T> inline T* Array<T>::operator +(size_t Pos)
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{
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return Buffer+Pos;
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}
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template <class T> inline size_t Array<T>::Size()
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{
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return BufSize;
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}
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template <class T> void Array<T>::Add(size_t Items)
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{
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BufSize+=Items;
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if (BufSize>AllocSize)
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{
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if (MaxSize!=0 && BufSize>MaxSize)
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{
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ErrHandler.GeneralErrMsg(L"Maximum allowed array size (%u) is exceeded",MaxSize);
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ErrHandler.MemoryError();
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}
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size_t Suggested=AllocSize+AllocSize/4+32;
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size_t NewSize=Max(BufSize,Suggested);
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T *NewBuffer=(T *)realloc(Buffer,NewSize*sizeof(T));
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if (NewBuffer==NULL)
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ErrHandler.MemoryError();
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Buffer=NewBuffer;
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AllocSize=NewSize;
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}
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}
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template <class T> void Array<T>::Alloc(size_t Items)
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{
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if (Items>AllocSize)
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Add(Items-BufSize);
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else
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BufSize=Items;
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}
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template <class T> void Array<T>::Reset()
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{
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if (Buffer!=NULL)
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{
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free(Buffer);
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Buffer=NULL;
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}
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BufSize=0;
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AllocSize=0;
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}
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// Reset buffer size, but preserve already allocated memory if any,
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// so we can reuse it without wasting time to allocation.
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template <class T> void Array<T>::SoftReset()
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{
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BufSize=0;
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}
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template <class T> Array<T>& Array<T>::operator =(const Array<T> &Src)
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{
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Reset();
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Alloc(Src.BufSize);
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if (Src.BufSize!=0)
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memcpy((void *)Buffer,(void *)Src.Buffer,Src.BufSize*sizeof(T));
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return *this;
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}
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template <class T> void Array<T>::Push(T Item)
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{
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Add(1);
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(*this)[Size()-1]=Item;
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}
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template <class T> void Array<T>::Append(T *Items,size_t Count)
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{
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size_t CurSize=Size();
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Add(Count);
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memcpy(Buffer+CurSize,Items,Count*sizeof(T));
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}
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#endif
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