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539 lines
14 KiB
539 lines
14 KiB
/***
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*rtcpriv.h - declarations and definitions for RTC use
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*
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* Copyright (c) 1985-2001, Microsoft Corporation. All rights reserved.
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*
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*Purpose:
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* Contains the declarations and definitions for all RunTime Check
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* support.
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*
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*Revision History:
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* ??-??-?? KBF Created implementation header for RTC
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* 05-26-99 KBF Removed RTCl & RTCv, added _RTC_ADVMEM stuff
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* 10-14-99 PML Replace InitializeCriticalSection with wrapper function
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* __crtInitCritSecAndSpinCount
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*
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****/
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#ifndef _INC_RTCPRIV
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#define _INC_RTCPRIV
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#ifdef _RTC
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#include <windows.h>
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#include <winbase.h>
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#include <malloc.h>
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#include "rtcapi.h"
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#pragma warning(disable:4710)
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#pragma warning(disable:4711)
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#ifndef __cplusplus
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#error This header is only for use with the C++ compiler while building the RTC library code.
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#endif
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#ifdef _MSC_VER
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#pragma pack(push, 4)
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#endif /* _MSC_VER */
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#ifndef _RTC_DEBUG
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#pragma optimize("gb1", on)
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#endif
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// Multithreaded code locking stuff...
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#define INIT_LOCK __crtInitCritSecAndSpinCount(&_RTC_memlock, _CRT_SPINCOUNT)
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#define LOCK EnterCriticalSection(&_RTC_memlock)
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#define UNLOCK LeaveCriticalSection(&_RTC_memlock)
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#define DEL_LOCK DeleteCriticalSection(&_RTC_memlock)
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#define TRY_LOCK TryEnterCriticalSection(&_RTC_memlock)
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extern CRITICAL_SECTION _RTC_memlock;
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// Typedefs
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struct _RTC_globals;
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#ifdef _RTC_ADVMEM
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class _RTC_SimpleHeap;
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class _RTC_Container;
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class _RTC_HeapBlock;
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class _RTC_BinaryTree;
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template<class T> class HashTable;
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typedef unsigned char shadowtag;
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typedef unsigned char index_elem;
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#endif
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// General global functions & symbols
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extern int _RTC_ErrorLevels[_RTC_ILLEGAL];
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extern _RTC_globals *_RTC_globptr;
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bool _RTC_Lock();
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void _RTC_Unlock();
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void _RTC_Failure(void *retaddr, int errnum);
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_RTC_error_fn _RTC_GetErrorFunc(LPCVOID addr);
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void _RTC_StackFailure(void *retaddr, const char *varname);
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BOOL _RTC_GetSrcLine(DWORD address, char* source, int sourcelen,
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int* pline, char** moduleName);
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extern "C" {
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void __fastcall _RTC_APISet(int on_off);
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}
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void _RTC_NotifyOthersOfChange(void *addr);
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// When this changes, you'd better be sure that everything still works with the old stuff!
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#define _RTC_CURRENT_VERSION 1
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// The order of the initial stuff here can't change AT ALL!!!
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struct _RTC_Funcs {
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_RTC_error_fn err;
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void (*notify)(void);
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void *allocationBase;
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_RTC_Funcs *next;
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#ifdef _RTC_ADVMEM
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int (*shadowoff)(void);
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#endif
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};
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// definitions of library globals
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// The order of this stuff MUST STAY THE SAME BETWEEN VERSION!!!
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struct _RTC_globals {
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int version;
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CRITICAL_SECTION memlock;
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_RTC_Funcs *callbacks;
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#ifdef _RTC_ADVMEM
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_RTC_SimpleHeap *heap2;
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_RTC_SimpleHeap *heap4;
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_RTC_SimpleHeap *heap8;
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_RTC_Container *memhier;
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shadowtag *shadow;
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index_elem *pageidx;
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HashTable<_RTC_HeapBlock> *heapblocks;
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bool *pi_array;
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bool shadowmemory;
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#endif
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};
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#define _RTC_GLOBALS_SIZE 1024
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/* Shadow Memory stuff */
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#ifdef _RTC_ADVMEM
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void _RTC_MS_Init();
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void _RTC_MemFailure(void *retaddr, int errnum, const void *assign);
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short _RTC_MSAllocShadow(memptr addr, unsigned size, unsigned state);
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void _RTC_MSRestoreShadow(memptr addr, unsigned size, short id);
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short _RTC_MSRenumberShadow(memptr addr, unsigned size, short notID);
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void _RTC_MSFreeShadow(memptr addr, unsigned size);
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void __cdecl _RTC_MSAllocateGlobals(void);
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void _RTC_MSDecommitRange(memptr addr, unsigned size);
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void _RTC_MSCommitRange(memptr addr, unsigned size, unsigned state);
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extern "C" {
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void __fastcall _RTC_CheckMem_API(memref addr, unsigned size);
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}
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// Unknown MUST be 0
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#define IDX_STATE_UNKNOWN 0
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#define IDX_STATE_ILLEGAL 1
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#define IDX_STATE_PARTIALLY_KNOWN 2
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#define IDX_STATE_FULLY_KNOWN 3
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extern _RTC_Container *_RTC_memhier;
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extern HashTable<_RTC_HeapBlock> *_RTC_heapblocks;
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extern _RTC_SimpleHeap *_RTC_heap2;
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extern _RTC_SimpleHeap *_RTC_heap4;
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extern _RTC_SimpleHeap *_RTC_heap8;
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extern shadowtag *_RTC_shadow;
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extern index_elem *_RTC_pageidx;
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extern bool *_RTC_pi_array;
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extern bool _RTC_shadowmemory;
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/**********************************/
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#define ALLOC_SIZE 65536
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class _RTC_SimpleHeap
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{
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struct FreeList
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{
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FreeList *next;
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};
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struct HeapNode
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{
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HeapNode *next; // next page in list (not necessarily free)
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FreeList *free; // node-local free-list
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union info
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{
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struct topStuff
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{ // Stuff that pertains only to the top node
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HeapNode *nxtFree; // Pointer to node containing free items
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short wordSize; // The size of blocks in this heap
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bool freePage; // True if there's a 100% free page
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} top;
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struct nonTopStuff
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{ // Stuff that pertais only to non-top nodes
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unsigned freeCount; // The free count for this node
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HeapNode *prev; // previous link
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} nontop;
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} inf;
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} head;
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public:
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_RTC_SimpleHeap(unsigned blockSize) throw();
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~_RTC_SimpleHeap() throw();
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void *operator new(unsigned) throw();
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void operator delete(void *addr) throw();
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void *alloc() throw();
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void free(void *addr) throw();
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};
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extern _RTC_SimpleHeap *_RTC_heap2;
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extern _RTC_SimpleHeap *_RTC_heap4;
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extern _RTC_SimpleHeap *_RTC_heap8;
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#define DATA(type, name) \
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private: \
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type _##name; \
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public: \
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type name() const { return _##name; }\
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void name(type a) { _##name = a; }
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class _RTC_HeapBlock
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{
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DATA(void *, addr); // The memory block address
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DATA(unsigned, size); // The size of the block
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DATA(_RTC_HeapBlock *, next); // The next element
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DATA(_RTC_HeapBlock **,list); // The head list pointer
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DATA(short, id); // The level ID of the block (for tiers)
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DATA(short, tag); // The shadow tag of the block in shadow memory
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public:
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_RTC_HeapBlock(void *address, short lev)
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: _addr(address), _id(lev) , _next(0), _list(0) {}
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_RTC_HeapBlock(void *MemAddress, short Identifier, unsigned Size)
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: _addr(MemAddress), _id(Identifier), _size(Size), _next(0), _list(0) {}
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~_RTC_HeapBlock() throw()
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{
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if (_list) del(_list);
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}
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void *operator new(unsigned) throw()
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{
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return _RTC_heap8->alloc();
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}
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void operator delete(void *addr) throw()
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{
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_RTC_heap8->free(addr);
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}
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int operator<(const _RTC_HeapBlock &h) const
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{
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return _addr < h._addr;
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}
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int operator==(const _RTC_HeapBlock &h) const
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{
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return h._addr == _addr && h._id == _id;
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}
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bool contains(const _RTC_HeapBlock &h) const
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{
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return ((unsigned)_addr <= (unsigned)h._addr) &&
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((unsigned)h._addr < (unsigned)_addr + _size);
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}
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unsigned hash(unsigned sz) const
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{
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return (((unsigned)_addr) ^ _id) % sz;
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}
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void add(_RTC_HeapBlock **lstHead) throw()
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{
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this->next(*lstHead);
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this->list(lstHead);
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*lstHead = this;
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}
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void del(_RTC_HeapBlock **lstHead) throw()
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{
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_RTC_HeapBlock *head = *lstHead;
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_RTC_HeapBlock *prev = 0;
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while (head != this)
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{
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prev = head;
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head = head->next();
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}
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if (prev)
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prev->next(this->next());
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else
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*lstHead = this->next();
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next(0);
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list(0);
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}
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};
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#undef DATA
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class _RTC_BinaryTree
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{
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public:
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class BinaryNode
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{
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public:
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BinaryNode *l, *r;
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_RTC_Container *val;
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void *operator new(unsigned) throw()
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{
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return _RTC_heap4->alloc();
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}
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void operator delete(void *addr) throw()
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{
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_RTC_heap4->free(addr);
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}
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BinaryNode(BinaryNode *L, BinaryNode *R, _RTC_Container *V)
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: l(L), r(R), val(V) {}
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void kill() throw();
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};
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private:
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BinaryNode *tree;
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public:
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_RTC_BinaryTree(_RTC_Container *i) throw()
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: tree(new BinaryNode(0, 0, i)) {}
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~_RTC_BinaryTree() throw()
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{
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if (tree)
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{
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tree->kill();
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delete tree;
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}
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}
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void *operator new(unsigned) throw()
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{
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return _RTC_heap2->alloc();
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}
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void operator delete(void *addr) throw() { _RTC_heap2->free(addr); }
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// This will return either the container or null
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_RTC_Container *get(_RTC_HeapBlock *) throw();
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// This just adds to the current sib list
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_RTC_Container* add(_RTC_HeapBlock *) throw();
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// This just removes the item from the current sib list
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_RTC_Container *del(_RTC_HeapBlock *) throw();
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// Here's an iterator
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class iter
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{
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_RTC_Container **allSibs;
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int curSib;
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int totSibs;
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friend class _RTC_BinaryTree;
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public:
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// This thing should never be allocated...
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void *operator new(unsigned)
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{
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return 0;
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}
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};
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_RTC_Container *FindFirst(iter *) throw();
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_RTC_Container *FindNext(iter *) throw();
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};
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class _RTC_Container
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{
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// kids - the item that has all the children
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_RTC_BinaryTree *kids;
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// inf - the item that specifies containment
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_RTC_HeapBlock *inf;
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// This kills this container, and all contained info
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void kill() throw();
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public:
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_RTC_Container(_RTC_HeapBlock *hb)
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: inf(hb), kids(0) {}
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~_RTC_Container() throw()
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{
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if (inf || kids)
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kill();
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}
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_RTC_HeapBlock *info() const
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{
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return inf;
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}
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bool contains(const _RTC_HeapBlock *i) const throw()
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{
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return inf ? inf->contains(*i) : true;
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}
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// Returns the parent container
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_RTC_Container *DelChild(_RTC_HeapBlock *i) throw();
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// Add this item as a child inside this container
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// It may or may not be a direct child
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// It returns the parent container
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_RTC_Container *AddChild(_RTC_HeapBlock *i) throw();
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// Find the container that contains the data given
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_RTC_Container *FindChild(_RTC_HeapBlock *i) throw();
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typedef _RTC_HeapBlock data;
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void *operator new(unsigned) throw() { return _RTC_heap2->alloc(); }
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void operator delete(void *addr) throw() { _RTC_heap2->free(addr); }
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};
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template <class T>
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class HashTable
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{
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unsigned size;
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T **elems;
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public:
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HashTable(unsigned s, void *mem)
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: elems((T**)mem), size(s)
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{
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memset(elems, 0, size * sizeof(T*));
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}
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~HashTable() {}
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void *operator new(unsigned) throw()
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{
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return _RTC_heap2->alloc();
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}
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void operator delete(void *addr) throw()
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{
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_RTC_heap2->free(addr);
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}
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T *find(T *key) throw()
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{
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unsigned hkey = key->hash(size);
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T *elem = elems[hkey];
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while (elem && !(*elem == *key))
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elem = elem->next();
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return elem;
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}
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void add(T *itm) throw()
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{
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unsigned hkey = itm->hash(size);
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itm->add(&elems[hkey]);
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}
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void del(T *key) throw()
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{
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unsigned hkey = key->hash(size);
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T *elem = elems[hkey];
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while (elem && !(*elem == *key))
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elem = elem->next();
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elem->del(&elems[hkey]);
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}
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};
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#endif
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// Stuff for the debugger exception mechanism
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// Swiped fro vcexcept.h in the LangAPI
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#if !defined(_vcexcept_h)
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#define _vcexcept_h
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// the facility code we have chosen is based on the fact that we already
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// use an exception of 'msc' when we throw C++ exceptions
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#define FACILITY_VISUALCPP ((LONG)0x6D)
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#define VcppException(sev,err) ((sev) | (FACILITY_VISUALCPP<<16) | err)
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/////////////////////////////////////////////////////////////////
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// define all exceptions here, so we don't mess with each other
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/////////////////////////////////////////////////////////////////
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// used by CRTs for C++ exceptions, really defined in ehdata.h
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//#define EH_EXCEPTION_NUMBER VcppException( 3<<30, 0x7363 ) // SEV_ERROR, used by CRTs for C++
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// used by debugger to do e.g. SetThreadName call
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#define EXCEPTION_VISUALCPP_DEBUGGER VcppException(1<<30, 5000) // SEV_INFORMATIONAL
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#endif // _vcexcept_h
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// Ping the VC debugger
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#define HelloVC( exinfo ) \
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RaiseException( EXCEPTION_VISUALCPP_DEBUGGER, 0, sizeof(exinfo)/sizeof(DWORD), (DWORD*)&exinfo )
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enum EXCEPTION_DEBUGGER_ENUM
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{
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EXCEPTION_DEBUGGER_NAME_THREAD = 0x1000,
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EXCEPTION_DEBUGGER_PROBE = 0x1001,
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EXCEPTION_DEBUGGER_RUNTIMECHECK = 0x1002,
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EXCEPTION_DEBUGGER_MAX = 0x1002 // largest value this debugger understands
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};
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// must be convertible to DWORDs for use by RaiseException
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typedef struct tagEXCEPTION_VISUALCPP_DEBUG_INFO
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{
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DWORD dwType; // one of the enums from above
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union
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{
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struct
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{
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LPCSTR szName; // pointer to name (in user addr space)
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DWORD dwThreadID; // thread ID (-1=caller thread)
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DWORD dwFlags; // reserved for future use (eg User thread, System thread)
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} SetName;
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struct
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{
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DWORD dwLevelRequired; // 0 = do you understand this private exception, else max value of enum
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PBYTE pbDebuggerPresent; // debugger puts a non-zero value in this address if there
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} DebuggerProbe;
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struct
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{
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DWORD dwRuntimeNumber; // the type of the runtime check
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BOOL bRealBug; // TRUE if never a false-positive
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PVOID pvReturnAddress; // caller puts a return address in here
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PBYTE pbDebuggerPresent; // debugger puts a non-zero value in this address if handled it
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LPCWSTR pwRuntimeMessage; // pointer to Unicode message (or NULL)
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} RuntimeError;
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};
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} EXCEPTION_VISUALCPP_DEBUG_INFO;
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#ifdef _MSC_VER
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#pragma pack(pop)
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#endif /* _MSC_VER */
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#endif
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#endif /* _INC_RTCPRIV */
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