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102 lines
3.1 KiB
C++
102 lines
3.1 KiB
C++
#ifndef _MEMBLOCK_H
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#define _MEMBLOCK_H
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//#include <bfc/wasabi_std.h>
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#include <bfc/std_mem.h>
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//#include <wasabicfg.h>
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#ifdef _DEBUG
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extern int memblocks_totalsize;
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#endif
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class VoidMemBlock {
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protected:
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VoidMemBlock(int size=0, const void *data=0);
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~VoidMemBlock();
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void *setSize(int newsize);
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void *setMinimumSize(int newminsize, int increment=0);
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void *getMemory() const { return mem; }
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void setMemory(const void *data, int datalen, int offsetby=0);
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int getSize() const;
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int isMine(void *ptr);
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void zeroMemory();
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private:
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void *mem;
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int size;
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};
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// just a convenient resizeable block of memory wrapper
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// doesn't handle constructors or anything, meant for int, char, etc.
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template <class T>
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class MemBlock : private VoidMemBlock {
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public:
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MemBlock(int _size = 0, const T *data = NULL) : VoidMemBlock(_size*sizeof(T), data) {}
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MemBlock(const MemBlock<T> &source) : VoidMemBlock(source.getSizeInBytes(), source.getMemory()) {}
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MemBlock(const MemBlock<T> *source) : VoidMemBlock(source->getSizeInBytes(), source->getMemory()) {}
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T *setSize(int newsize) {
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return static_cast<T*>(VoidMemBlock::setSize(newsize * sizeof(T)));
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}
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T *setMinimumSize(int newminsize, int increment = 0) {
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return static_cast<T*>(VoidMemBlock::setMinimumSize(newminsize * sizeof(T), increment*sizeof(T)));
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}
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T *getMemory() const { return static_cast<T *>(VoidMemBlock::getMemory()); }
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T *getMemory(int offset) const { return static_cast<T *>(VoidMemBlock::getMemory())+offset; } // note pointer arithmetic
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T *m() const { return getMemory(); }
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T *m(int offset) const { return getMemory(offset); }
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operator T *() const { return getMemory(); }
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T& operator() (unsigned int ofs) { return getMemory()[ofs]; }
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const T& operator() (unsigned int ofs) const { return getMemory()[ofs]; }
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void copyTo(T *dest) { MEMCPY(getMemory(), dest, getSizeInBytes()); }
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int getSize() const { return VoidMemBlock::getSize()/sizeof(T); }// # of T's
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int getSizeInBytes() const { return VoidMemBlock::getSize(); }
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int isMine(T *ptr) { return VoidMemBlock::isMine(ptr); }
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void setMemory(const T *data, int datalen, int offsetby = 0) { VoidMemBlock::setMemory(data, datalen*sizeof(T), offsetby*sizeof(T)); } // # of T's
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void zeroMemory() { VoidMemBlock::zeroMemory(); }
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void reverse() {
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const int nitems = getSize();
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if (nitems <= 1) return;
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MemBlock<T> nm(this);
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T *mymem = getMemory(), *revmem = nm.getMemory();
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for (int i = 0, j = nitems-1; j >= 0; i++, j--) {
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MEMCPY(mymem+i, revmem+j, sizeof(T));
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}
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}
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};
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// just a convenience class for a 2d MemBlock<>
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template <class T>
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class MemMatrix : public MemBlock<T> {
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public:
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MemMatrix(int _width, int height, const T *data = NULL) : MemBlock<T>(_width * height, data), width(_width) {}
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T *setSize(int _width, int height) {
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MemBlock<T>::setSize(width * height);
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width = _width;
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}
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// () access i.e. obj(x,y)
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T& operator() (unsigned int x, unsigned int y) {
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return *MemBlock<T>::m(x + y * width);
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}
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const T& operator() (unsigned int x, unsigned int y) const {
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return *MemBlock<T>::m(x + y * width);
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}
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private:
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int width;
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};
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#endif
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