mirror of
https://github.com/AquariaOSE/Aquaria.git
synced 2024-11-29 22:35:45 +00:00
511 lines
11 KiB
C++
511 lines
11 KiB
C++
#ifndef BYTEBUFFER_H
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#define BYTEBUFFER_H
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#include <stdlib.h>
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#include <string.h> // for memcpy
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#include <stdio.h>
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#include <string>
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#include <algorithm>
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#include "minipstdint.h"
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#if defined(__GNUC__) && __GNUC__ <= 2
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# define BB_OLD_GNUC
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#endif
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// ** compatibility stuff for BBGE .... **
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#define BYTEBUFFER_NO_EXCEPTIONS
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// from SDL headers
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#if defined(__hppa__) || \
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defined(__m68k__) || defined(mc68000) || defined(_M_M68K) || \
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(defined(__MIPS__) && defined(__MISPEB__)) || \
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defined(__ppc__) || defined(__POWERPC__) || defined(_M_PPC) || \
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defined(__sparc__)
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#define BB_IS_BIG_ENDIAN 1
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#endif
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// ****
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namespace ByteBufferTools
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{
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template<int T> inline void convert(char *val)
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{
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std::swap(*val, *(val + T - 1));
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convert<T - 2>(val + 1);
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}
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template<> inline void convert<0>(char *) {}
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template<> inline void convert<1>(char *) {}
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template<typename T> inline void EndianConvert(T *val)
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{
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convert<sizeof(T)>((char *)(val));
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}
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inline void EndianConvertRT(char *p, unsigned int size)
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{
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std::reverse(p, p + size);
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}
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#if BB_IS_BIG_ENDIAN
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template<typename T> inline void ToLittleEndian(T& val) { EndianConvert<T>(&val); }
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inline void ToLittleEndianRT(void *p, unsigned int size) { EndianConvertRT((char*)p, size); }
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template<typename T> inline void ToBigEndian(T&) { }
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inline void ToBigEndianRT(void *p, unsigned int size) { }
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#else
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template<typename T> inline void ToLittleEndian(T&) { }
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inline void ToLittleEndianRT(void *p, unsigned int size) { }
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template<typename T> inline void ToBigEndian(T& val) { EndianConvert<T>(&val); }
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inline void ToBigEndianRT(void *p, unsigned int size) { EndianConvertRT((char*)p, size); }
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#endif
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template<typename T> void ToLittleEndian(T*); // will generate link error
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template<typename T> void ToBigEndian(T*); // will generate link error
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}
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#ifdef BB_OLD_GNUC
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# define BB_MAKE_WRITE_OP(T) inline ByteBuffer& operator<<(T val) { appendT(&val, sizeof(T)); return *this; }
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# define BB_MAKE_READ_OP(T) inline ByteBuffer& operator>>(T &val) { readT(&val, sizeof(T)); return *this; }
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#else
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# define BB_MAKE_WRITE_OP(T) inline ByteBuffer& operator<<(T val) { append<T>(val); return *this; }
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# define BB_MAKE_READ_OP(T) inline ByteBuffer& operator>>(T &val) { val = read<T>(); return *this; }
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#endif
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class ByteBuffer
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{
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public:
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typedef void (*delete_func)(void*);
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typedef void *(*allocator_func)(size_t);
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enum Mode // for creation with existing pointers
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{
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COPY, //- Make a copy of the buffer (default action).
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REUSE, //- Use the passed-in buffer as is. Requires the pointer
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// to remain valid over the life of this object.
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TAKE_OVER, //- Take over the passed-in buffer; it will be deleted on object destruction.
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};
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typedef int64_t int64;
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typedef int32_t int32;
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typedef int16_t int16;
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typedef int8_t int8;
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typedef uint64_t uint64;
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typedef uint32_t uint32;
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typedef uint16_t uint16;
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typedef uint8_t uint8;
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class Exception
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{
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public:
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Exception(const ByteBuffer *bb, const char *act, uint32 sp = 0)
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{
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action = act;
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rpos = bb->rpos();
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wpos = bb->wpos();
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sizeparam = sp;
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cursize = bb->size();
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}
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uint32 rpos, wpos, sizeparam, cursize;
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const char *action;
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};
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#ifdef BYTEBUFFER_NO_EXCEPTIONS
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#define BYTEBUFFER_EXCEPT(bb, desc, sz) { Exception __e(bb, desc, sz); \
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fprintf(stderr, "Exception in ByteBuffer: '%s', rpos: %u, wpos: %u, cursize: %u, sizeparam: %u", \
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__e.action, __e.rpos, __e.wpos, __e.cursize, __e.sizeparam); abort(); }
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#else
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#define BYTEBUFFER_EXCEPT(bb, desc, sz) throw Exception(bb, desc, sz)
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#endif
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protected:
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uint8 *_buf; // the ptr to the buffer that holds all the bytes
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uint32 _rpos, // read position, [0 ... _size]
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_wpos, // write position, [0 ... _size]
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_res, // reserved buffer size, [0 ... _size ... _res]
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_size; // used buffer size
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delete_func _delfunc;
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allocator_func _allocfunc;
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bool _mybuf; // if true, destructor deletes buffer
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bool _growable; // default true, if false, buffer will not re-allocate more space
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public:
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ByteBuffer()
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: _buf(NULL), _rpos(0), _wpos(0), _res(0), _size(0), _delfunc(NULL),
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_allocfunc(NULL), _mybuf(false), _growable(true)
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{
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}
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ByteBuffer(uint32 res)
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: _buf(NULL), _rpos(0), _wpos(0), _res(0), _size(0), _delfunc(NULL),
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_allocfunc(NULL), _mybuf(false), _growable(true)
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{
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_allocate(res);
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}
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ByteBuffer(ByteBuffer &buf, Mode mode = COPY, uint32 extra = 0)
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: _buf(NULL), _rpos(0), _wpos(0), _res(0), _size(0), _delfunc(NULL),
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_allocfunc(NULL), _mybuf(false), _growable(true)
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{
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init(buf, mode, extra);
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}
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// del param only used with TAKE_OVER, extra only used with COPY
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ByteBuffer(void *buf, uint32 size, Mode mode = COPY, delete_func del = NULL, uint32 extra = 0)
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: _buf(NULL), _rpos(0), _wpos(0), _res(0), _size(0), _delfunc(NULL),
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_allocfunc(NULL), _mybuf(false), _growable(true) // for mode == REUSE
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{
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init(buf, size, mode, del, extra);
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}
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void init(void *buf, uint32 size, Mode mode = COPY, delete_func del = NULL, uint32 extra = 0)
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{
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_mybuf = false;
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switch(mode)
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{
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case COPY:
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_allocate(size + extra);
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append(buf, size);
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break;
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case TAKE_OVER:
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_mybuf = true; // fallthrough
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case REUSE:
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_buf = (uint8*)buf;
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_res = size;
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_size = size;
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}
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}
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void init(ByteBuffer& bb, Mode mode = COPY, uint32 extra = 0)
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{
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_allocfunc = bb._allocfunc;
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switch(mode)
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{
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case COPY:
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reserve(bb.size() + extra);
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append(bb);
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break;
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case TAKE_OVER:
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case REUSE:
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_mybuf = bb._mybuf;
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_delfunc = bb._delfunc;
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_buf = bb._buf;
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_res = bb._res;
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_size = bb._size;
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_growable = bb._growable;
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break;
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}
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if(mode == TAKE_OVER)
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{
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bb._buf = NULL;
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bb._size = 0;
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bb._res = 0;
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}
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}
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virtual ~ByteBuffer()
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{
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clear();
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}
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void clear(void)
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{
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_delete();
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reset();
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}
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inline void reset(void)
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{
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_rpos = _wpos = _size = 0;
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}
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void resize(uint32 newsize)
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{
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reserve(newsize);
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_rpos = 0;
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_wpos = newsize;
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_size = newsize;
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}
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void reserve(uint32 newsize)
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{
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if(_res < newsize)
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_allocate(newsize);
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}
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// ---------------------- Write methods -----------------------
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BB_MAKE_WRITE_OP(char);
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BB_MAKE_WRITE_OP(uint8);
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BB_MAKE_WRITE_OP(uint16);
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BB_MAKE_WRITE_OP(uint32);
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BB_MAKE_WRITE_OP(uint64);
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BB_MAKE_WRITE_OP(float);
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BB_MAKE_WRITE_OP(double);
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ByteBuffer &operator<<(const char *str)
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{
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append((uint8 *)str, str ? strlen(str) : 0);
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appendByte(0);
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return *this;
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}
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ByteBuffer &operator<<(const std::string &value)
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{
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append((uint8 *)value.c_str(), value.length());
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appendByte(0);
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return *this;
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}
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// -------------------- Read methods --------------------
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BB_MAKE_READ_OP(char);
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BB_MAKE_READ_OP(uint8);
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BB_MAKE_READ_OP(uint16);
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BB_MAKE_READ_OP(uint32);
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BB_MAKE_READ_OP(uint64);
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BB_MAKE_READ_OP(float);
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BB_MAKE_READ_OP(double);
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inline uint8 operator[](uint32 pos) const
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{
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if(pos >= size())
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BYTEBUFFER_EXCEPT(this, "operator[]", 1);
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return _buf[pos];
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}
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ByteBuffer &operator>>(std::string& value)
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{
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value.clear();
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char c;
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while(readable() && (c = readByte()))
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value += c;
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return *this;
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}
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// --------------------------------------------------
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uint32 rpos() const { return _rpos; }
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uint32 rpos(uint32 rpos)
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{
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_rpos = rpos < size() ? rpos : size();
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return _rpos;
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}
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uint32 wpos() const { return _wpos; }
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uint32 wpos(uint32 wpos)
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{
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_wpos = wpos < size() ? wpos : size();
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return _wpos;
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}
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template <typename T> T read()
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{
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T r = read<T>(_rpos);
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_rpos += sizeof(T);
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return r;
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}
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template <typename T> T read(uint32 pos) const
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{
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if(pos + sizeof(T) > size())
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BYTEBUFFER_EXCEPT(this, "read", sizeof(T));
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T val = *((T const*)(_buf + pos));
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ByteBufferTools::ToLittleEndian<T>(val);
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return val;
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}
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inline uint8 readByte()
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{
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if (_rpos < size())
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return _buf[_rpos++];
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BYTEBUFFER_EXCEPT(this, "readByte", 1);
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return 0;
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}
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void readT(void *dest, uint32 len)
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{
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read(dest, len);
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ByteBufferTools::ToLittleEndianRT(dest, len);
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}
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void read(void *dest, uint32 len)
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{
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if (_rpos + len <= size())
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memcpy(dest, &_buf[_rpos], len);
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else
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BYTEBUFFER_EXCEPT(this, "read-into", len);
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_rpos += len;
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}
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void skipRead(uint32 len)
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{
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_rpos += len;
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}
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inline const uint8 *contents() const { return _buf; }
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inline uint8 *contents() { return _buf; }
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inline const void *ptr() const { return _buf; }
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inline void *ptr() { return _buf; }
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inline uint32 size() const { return _size; }
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inline uint32 bytes() const { return size(); }
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inline uint32 bits() const { return bytes() * 8; }
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inline uint32 capacity() const { return _res; }
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inline uint32 readable(void) const { return size() - rpos(); }
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inline uint32 writable(void) const { return size() - wpos(); } // free space left before realloc will occur
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template <typename T> inline void append(T value)
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{
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ByteBufferTools::ToLittleEndian<T>(value);
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_enlargeIfReq(_wpos + sizeof(T));
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*((T*)(_buf + _wpos)) = value;
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_wpos += sizeof(T);
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if(_size < _wpos)
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_size = _wpos;
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}
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inline void appendByte(uint8 value)
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{
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_enlargeIfReq(_wpos + 1);
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_buf[_wpos++] = value;
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if(_size < _wpos)
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_size = _wpos;
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}
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// GCC 2.95 fails with an internal error in the template function above
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void appendT(const void *src, uint32 bytes)
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{
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append(src, bytes);
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ByteBufferTools::ToLittleEndianRT(_buf + (_wpos - bytes), bytes);
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}
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void append(const void *src, uint32 bytes)
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{
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if (!bytes) return;
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_enlargeIfReq(_wpos + bytes);
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memcpy(_buf + _wpos, src, bytes);
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_wpos += bytes;
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if(_size < _wpos)
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_size = _wpos;
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}
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void append(const ByteBuffer& buffer)
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{
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if(buffer.size())
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append(buffer.contents(), buffer.size());
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}
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void put(uint32 pos, const void *src, uint32 bytes)
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{
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memcpy(_buf + pos, src, bytes);
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}
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template <typename T> void put(uint32 pos, const T& value)
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{
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if(pos >= size())
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BYTEBUFFER_EXCEPT(this, "put", sizeof(T));
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ByteBufferTools::ToLittleEndian<T>(value);
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*((T*)(_buf + pos)) = value;
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}
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inline bool growable(void) { return _growable; }
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inline void growable(bool b) { _growable = b; }
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// dangerous functions
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void _setPtr(void *p)
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{
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_buf = (uint8*)p;
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}
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void _setAllocFunc(allocator_func f)
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{
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_allocfunc = f;
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}
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void _setDelFunc(delete_func f)
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{
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_delfunc = f;
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}
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void _setSize(uint32 s)
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{
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_size = s;
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}
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void _setReserved(uint32 s)
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{
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_res = s;
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}
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protected:
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void _delete(void)
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{
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if(_mybuf)
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{
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if(_delfunc)
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_delfunc(_buf);
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else
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delete [] _buf;
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_buf = NULL;
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_res = 0;
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}
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}
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// allocate larger buffer and copy contents. if we own the current buffer, delete old, otherwise, leave it as it is.
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void _allocate(uint32 s)
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{
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if(!_growable && _buf) // only throw if we already have a buf
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BYTEBUFFER_EXCEPT(this, "_alloc+locked", s);
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// dangerous: It's up to the user to be sure that _allocfunc and _delfunc are matching
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uint8 *newbuf = (uint8*)(_allocfunc ? _allocfunc(s) : new char[s]);
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if(_buf)
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{
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memcpy(newbuf, _buf, _size);
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_delete();
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}
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_buf = newbuf;
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_res = s;
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_mybuf = true;
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if (!_allocfunc)
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_delfunc = NULL;
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}
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void _enlargeIfReq(uint32 minSize)
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{
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if(_res < minSize)
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{
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uint32 a = _res * 2;
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if(a < minSize) // fallback if doubling the space was not enough
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a += minSize;
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_allocate(a);
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}
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}
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};
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#undef BB_MAKE_WRITE_OP
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#undef BB_MAKE_READ_OP
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#undef BB_IS_BIG_ENDIAN
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#endif
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