windows-nt/Source/XPSP1/NT/multimedia/directx/dmusic/dmusic16/debug.c

//==========================================================================; 
//
//      Copyright (c) 1991-1999 Microsoft Corporation
//
//      You have a royalty-free right to use, modify, reproduce and 
//      distribute the Sample Files (and/or any modified version) in 
//      any way you find useful, provided that you agree that 
//      Microsoft has no warranty obligations or liability for any 
//      Sample Application Files which are modified. 
//
//--------------------------------------------------------------------------;
//
//  debug.c
//
//  Description:
//      This file contains code yanked from several places to provide debug
//      support that works in win 16 and win 32.
//
//  History:
//      11/23/92    cjp     [curtisp] 
//
//==========================================================================;

#ifdef   DEBUG

#include <windows.h>
#include <windowsx.h>
#include <mmsystem.h>
#include <stdarg.h>

#include "debug.h"

#ifdef WIN32
   #define  BCODE
#else
   #define  BCODE                   __based(__segname("_TEXT"))
#endif


#define WSPRINTF_LIMIT 1024

typedef struct tagLOG
{
     LPBYTE             lpbQueue;
     UINT               cbBuffer;
     UINT               idxRead;
     UINT               idxWrite;
} LOG, FAR *LPLOG;

#define LOG_INCIDX(pl,x) ((++(x) >= pl->cbBuffer) ? x = 0 : x)

VOID FAR CDECL DbgVPrintF(LPSTR szFmt, LPSTR va) ;

BOOL NEAR PASCAL LogInit(LPLOG lpLog, UINT ckBuffer);
VOID NEAR PASCAL LogWrite(LPLOG lpLog, LPSTR lpstrEvent);
BOOL NEAR PASCAL LogRead(LPLOG lpLog, LPSTR lpstrBuffer, UINT cbBuffer);

#ifdef ISRDEBUG
int wivsprintf(LPSTR lpOut, LPCSTR lpFmt, VOID FAR* lpParms) ;

LPCSTR  NEAR PASCAL SP_GetFmtValue(LPCSTR lpch, LPWORD lpw) ;
UINT    NEAR PASCAL SP_PutNumber(LPSTR lpb, DWORD n, UINT limit, UINT radix, UINT icase) ;
VOID    NEAR PASCAL SP_Reverse(LPSTR lpFirst, LPSTR lpLast) ;
UINT    NEAR PASCAL ilstrlen(LPSTR lpstr) ;
VOID    NEAR PASCAL ilstrcat(LPSTR lpstrDest, LPSTR lpstrSrc) ;
#endif

//
//  since we don't UNICODE our debugging messages, use the ASCII entry
//  points regardless of how we are compiled.
//
#define wvsprintfA           wvsprintf
#define GetProfileIntA       GetProfileInt
#define OutputDebugStringA   OutputDebugString

#ifdef ISRDEBUG
   #define wvsprintf        wivsprintf
   #define lstrcatA         ilstrcat
   #define lstrlenA         ilstrlen    
#else
   #define lstrcatA         lstrcat
   #define lstrlenA         lstrlen
#endif

//
//
//
BOOL    __gfDbgEnabled  = TRUE;     // master enable
UINT    __guDbgLevel    = 0;        // current debug level
BOOL    __gfLogging     = 0;        // Are we logging as well?
BOOL    __gfAssertBreak = 0;        // Break on assert?

HWND    ghWndCB         = (HWND)NULL;
LOG     gLog;
WORD    wDebugLevel     = 0;

//************************************************************************
//**
//**  DbgAssert();
//**
//**  DESCRIPTION:
//**
//**
//**  ARGUMENTS:
//**     LPSTR lpstrExp
//**     LPSTR lpstrFile
//**     DWORD dwLine  
//**
//**  RETURNS:
//**     VOID 
//**
//**  HISTORY:
//**
//************************************************************************
VOID WINAPI DbgAssert(
    LPSTR           lpstrExp,
    LPSTR           lpstrFile,
    DWORD           dwLine)
{
    static char BCODE szFormat[] =
        "Assert:%s@%lu %s";
    dprintf(0, szFormat, lpstrFile, dwLine, lpstrExp);
    if (__gfAssertBreak)
        DebugBreak();
}

//************************************************************************
//**
//**  DbgVPrintF();
//**
//**  DESCRIPTION:
//**
//**
//**  ARGUMENTS:
//**     LPSTR szFmt
//**     LPSTR va
//**
//**  RETURNS:
//**     VOID 
//**
//**  HISTORY:
//**
//************************************************************************

VOID FAR CDECL DbgVPrintF(
   LPSTR szFmt, 
   LPSTR va)
{
    char    ach[DEBUG_MAX_LINE_LEN];
    BOOL    fDebugBreak = FALSE;
    BOOL    fPrefix     = TRUE;
    BOOL    fCRLF       = TRUE;

    ach[0] = '\0';

    for (;;)
    {
        switch(*szFmt)
        {
            case '!':
                fDebugBreak = TRUE;
                szFmt++;
                continue;

            case '`':
                fPrefix = FALSE;
                szFmt++;
                continue;

            case '~':
                fCRLF = FALSE;
                szFmt++;
                continue;
        }

        break;
    }

    if (fDebugBreak)
    {
        ach[0] = '\007';
        ach[1] = '\0';
    }

    if (fPrefix)
        lstrcatA(ach, DEBUG_MODULE_NAME ": ");

    wvsprintfA(ach + lstrlenA(ach), szFmt, (LPSTR)va);

    if (fCRLF)
        lstrcatA(ach, "\r\n");

    if (__gfLogging)
    {
        LogWrite(&gLog, ach);
        if (ghWndCB)
            PostMessage(ghWndCB, WM_DEBUGUPDATE, 0, 0);
    }

    OutputDebugStringA(ach);

    if (fDebugBreak)
        DebugBreak();
} //** DbgVPrintF()


//************************************************************************
//**
//**  dprintf();
//**
//**  DESCRIPTION:
//**     dprintf() is called by the DPF macro if DEBUG is defined at compile
//**     time.
//**     
//**     The messages will be send to COM1: like any debug message. To
//**     enable debug output, add the following to WIN.INI :
//**
//**     [debug]
//**     ICSAMPLE=1
//**
//**
//**  ARGUMENTS:
//**     UINT     uDbgLevel
//**     LPCSTR   szFmt
//**     ...
//**
//**  RETURNS:
//**     VOID 
//**
//**  HISTORY:
//**     06/12/93       [t-kyleb]      
//**
//************************************************************************

VOID FAR CDECL dprintf(
   UINT     uDbgLevel, 
   LPSTR   szFmt, 
   ...)
{
    va_list va;

    if (!__gfDbgEnabled || (__guDbgLevel < uDbgLevel))
        return;

    va_start(va, szFmt);
    DbgVPrintF(szFmt, (LPSTR)va);
    va_end(va);
} //** dprintf()


//************************************************************************
//**
//**  DbgEnable();
//**
//**  DESCRIPTION:
//**
//**
//**  ARGUMENTS:
//**     BOOL fEnable
//**
//**  RETURNS:
//**     BOOL 
//**
//**  HISTORY:
//**     06/12/93       [t-kyleb]      
//**
//************************************************************************

BOOL WINAPI DbgEnable(
   BOOL fEnable)
{
    BOOL    fOldState;

    fOldState      = __gfDbgEnabled;
    __gfDbgEnabled = fEnable;

    return (fOldState);
} //** DbgEnable()


//************************************************************************
//**
//**  DbgSetLevel();
//**
//**  DESCRIPTION:
//**
//**
//**  ARGUMENTS:
//**     UINT uLevel
//**
//**  RETURNS:
//**     UINT 
//**
//**  HISTORY:
//**     06/12/93       [t-kyleb]      
//**
//************************************************************************

UINT WINAPI DbgSetLevel(
   UINT uLevel)
{
    UINT    uOldLevel;

    uOldLevel    = __guDbgLevel;
    __guDbgLevel = wDebugLevel = uLevel;

    return (uOldLevel);
} //** DbgSetLevel()


//--------------------------------------------------------------------------;
//
//  UINT DbgInitialize(VOID)
//
//  Description:
//      
//
//  Arguments:
//
//  Return (UINT):
//
//
//  History:
//      11/24/92    cjp     [curtisp] 
//
//--------------------------------------------------------------------------;


UINT WINAPI DbgInitialize(BOOL fEnable)
{
    char            szTemp[64];
    LPSTR           pstr;
    UINT            uLevel;
    UINT            uLogMem;
    
    __gfAssertBreak = GetProfileInt(DEBUG_SECTION, ASSERT_BREAK, 0);

    GetProfileString(DEBUG_SECTION, DEBUG_MODULE_NAME, "", szTemp, sizeof(szTemp));

    pstr = szTemp;
    uLevel = 0;
    while (*pstr >= '0' && *pstr <= '9')
    {
        uLevel = uLevel*10 + (UINT)(*pstr - '0');
        pstr++;
    }

    __gfLogging = FALSE;
    if (*pstr == ',')
    {
        pstr++;
        uLogMem = 0;
        while (*pstr >= '0' && *pstr <= '9')
        {
            uLogMem = uLogMem*10 + (UINT)(*pstr - '0');
            pstr++;
        }

        if (0 == uLogMem) uLogMem = K_DEFAULT_LOGMEM;
        if (uLogMem > K_MAX_LOGMEM) uLogMem = K_MAX_LOGMEM;

        __gfLogging = TRUE;
    }
    
    if (__gfLogging)
        __gfLogging = LogInit(&gLog, uLogMem);
    
    DbgSetLevel(GetProfileIntA(DEBUG_SECTION, DEBUG_MODULE_NAME, 0));
    DbgEnable(fEnable);

    return (__guDbgLevel);
} // DbgInitialize()

VOID WINAPI DbgRegisterCallback(HWND hWnd)
{
    ghWndCB = hWnd;
}

BOOL WINAPI DbgGetNextLogEntry(LPSTR lpstrBuffer, UINT cbBuffer)
{
    if (!__gfLogging)
        return FALSE;

    return LogRead(&gLog, lpstrBuffer, cbBuffer);
}

BOOL NEAR PASCAL LogInit(LPLOG lpLog, UINT ckMem)
{
    DWORD               cbMem;

    cbMem = 1024L * ckMem;

    lpLog->lpbQueue = GlobalAllocPtr(GPTR, cbMem);
    if (NULL == lpLog->lpbQueue)
        return FALSE;

    if (!GlobalSmartPageLock(HIWORD(lpLog->lpbQueue)))
    {
        GlobalFreePtr(lpLog->lpbQueue);
        return FALSE;
    }

    lpLog->cbBuffer = (UINT)cbMem;
    lpLog->idxRead = 0;
    lpLog->idxWrite = 0;

    return TRUE;
}

VOID NEAR PASCAL LogWrite(LPLOG lpLog, LPSTR lpstrEvent)
{
    if (!*lpstrEvent)
        return;

    while (*lpstrEvent)
    {
        lpLog->lpbQueue[lpLog->idxWrite] = *lpstrEvent++;
        LOG_INCIDX(lpLog,lpLog->idxWrite);
    }

    lpLog->idxRead = lpLog->idxWrite;

    while (lpLog->lpbQueue[lpLog->idxRead])
    {
        lpLog->lpbQueue[lpLog->idxRead] = '\0';
        LOG_INCIDX(lpLog,lpLog->idxRead);
    }
    
    LOG_INCIDX(lpLog,lpLog->idxRead);
    LOG_INCIDX(lpLog,lpLog->idxWrite);
}

BOOL NEAR PASCAL LogRead(LPLOG lpLog, LPSTR lpstrBuffer, UINT cbBuffer)
{
    BYTE                    c;
    UINT                    idx;

    if (!cbBuffer)
        return FALSE;
    
    idx = lpLog->idxRead;

    while ('\0' == lpLog->lpbQueue[idx])
    {
        LOG_INCIDX(lpLog,idx);
        if (idx == lpLog->idxRead)
            return FALSE;
    }

    cbBuffer--;
    while (0 != (c = lpLog->lpbQueue[idx]))
    {
        if (cbBuffer)
        {
            *lpstrBuffer++ = c;
            cbBuffer--;
        }
            
        lpLog->lpbQueue[idx] = '\0';
        LOG_INCIDX(lpLog,idx);
    }

    *lpstrBuffer = '\0';

    LOG_INCIDX(lpLog,idx);

    lpLog->idxRead = idx;
    return TRUE;
}


//--------------------------------------------------------------------------;
//
// The rest of the code is only needed if we're in Win16 and need to be
// interrupt callable.
//
//--------------------------------------------------------------------------;

#ifdef ISRDEBUG

#define OUT(ch) if (--cchLimit) *lpOut++=(ch); else goto error_Out

//************************************************************************
//**
//**  wivsprintf();
//**
//**  DESCRIPTION:
//**     Interrupt callable version of wvsprintf() 
//**
//**
//**  ARGUMENTS:
//**     LPSTR       lpOut    -  Buffer to format into.
//**     LPCSTR      lpFmt    -  Format string.
//**     VOID FAR*   lpParms  -  Points to the first of args 
//**                             described by lpFmt.
//**
//**  RETURNS:
//**     int   -  Number of characters stored.
//**
//**  HISTORY:
//**     3/28/93     jfg      [jimge] 
//**
//************************************************************************

int wivsprintf(
    LPSTR       lpOut,
    LPCSTR      lpFmt,
    VOID FAR*   lpParms)
{
    int         left ;
    char        prefix ;
    int         width ;
    int         prec ;
    char        fillch ;
    int         size ;
    int         sign ;
    int         radix ;
    int         upper ;
    int         cchLimit = WSPRINTF_LIMIT;
    int         cch ;
    LPSTR       lpT ;
    union
    {
        long            l ;
        unsigned long   ul ;
        char sz[sizeof(long)] ;
    } val;
                
    while (*lpFmt)
    {
        if (*lpFmt=='%')
        {
            //
            // Read the format flags. 
            //
            left   = 0 ;
            prefix = 0 ;

            while (*++lpFmt)
            {
                if (*lpFmt=='-')
                {    
                    left++;
                }
                else if (*lpFmt=='#')
                {
                    prefix++;
                }
                else
                {
                    break;
                }
            }

            //
            // Find the fill character (either '0' or ' ')
            //
            if (*lpFmt=='0')
            {
                fillch = '0' ;
                lpFmt++ ;
            }
            else
            {
                fillch = ' ' ;
            }

            //
            // Now parse [width[.precision]]
            //
            lpFmt = SP_GetFmtValue(lpFmt,&cch);
            width = cch;

            if (*lpFmt=='.')
            {
                lpFmt = SP_GetFmtValue(++lpFmt,&cch);
                prec = cch;
            }
            else
            {
                prec = (UINT)-1 ;
            }

            //
            // Get the operand size modifier
            //
            if (*lpFmt=='l')
            {
                size = 1 ;
                lpFmt++ ;
            }
            else
            {
                size = 0 ;
                if (*lpFmt=='h')
                {
                    lpFmt++ ;
                }
            }
            
            //
            // We've gotten all the modifier; now format the output
            // based on the type (which should now be pointed at
            // by lpFmt).
            //
            upper = 0 ;
            sign = 0 ;
            radix = 10 ;

            switch (*lpFmt)
            {
                case 0:
                    goto error_Out ;

                case 'i' :
                case 'd' :
                    sign++ ;

                case 'u':
                    //
                    // Don't show a prefix for decimal formats
                    // 
                    prefix=0 ;
do_Numeric:
                    //
                    // Special cases to act like MSC v5.10
                    //
                    if (left || prec>=0)
                    {
                        fillch = ' ';
                    }

                    //
                    // Get value from parm list into val union 
                    // 
                    if (size)
                    {
                        val.l=*((long far *)lpParms)++;
                    }
                    else
                    {
                        if (sign)
                        {
                            val.l=(long)*((short far *)lpParms)++;
                        }
                        else
                        {
                            val.ul=(unsigned long)*((unsigned far *)lpParms)++;
                        }
                    }

                    //
                    // Save sign of val.l in sign and set val.l positive.
                    //
                    if (sign && val.l<0L)
                    {
                        val.l=-val.l;
                    }
                    else
                    {
                        sign=0;
                    }

                    //
                    // Save start of output stream for later reverse
                    //
                    lpT = lpOut;

                    //
                    // Blast the number backwards into the user buffer 
                    //
                    cch = SP_PutNumber(lpOut,val.l,cchLimit,radix,upper) ;
                    if (!(cchLimit-=cch))
                        goto error_Out ;

                    lpOut += cch ;
                    width -= cch ;
                    prec -= cch ;

                    if (prec>0)
                    {
                        width -= prec ;
                    }

                    //
                    // Fill in up to precision
                    //
                    while (prec-- > 0)
                    {
                        OUT('0') ;
                    }

                    if (width>0 && !left)
                    {
                        //
                        // If we're filling with spaces, put sign first 
                        //
                        if (fillch != '0')
                        {
                            if (sign)
                            {
                                sign = 0 ;
                                OUT('-') ;
                                width-- ;
                            }

                            if (prefix)
                            {
                                OUT(prefix) ;
                                OUT('0') ;
                                prefix = 0 ;
                            }
                        }

                        if (sign)
                        {
                            width-- ;
                        }

                        //
                        // Now fill to width
                        //
                        while (width-- > 0)
                        {
                            OUT(fillch) ;
                        }

                        //
                        // Still have a sign? 
                        //
                        if (sign)
                        {
                            OUT('-') ;
                        }

                        if (prefix)
                        {
                            OUT(prefix) ;
                            OUT('0') ;
                        }

                        //
                        // Now reverse the string in place
                        //
                        SP_Reverse(lpT,lpOut-1);
                    }
                    else
                    {
                        //
                        // Add the sign character
                        //
                        if (sign)
                        {
                            OUT('-') ;
                            width-- ;
                        }

                        if (prefix)
                        {
                            OUT(prefix);
                            OUT('0');
                        }

                        //
                        // Now reverse the string in place
                        //
                        SP_Reverse(lpT,lpOut-1);

                        //
                        // Pad to the right of the string in case left aligned 
                        //
                        while (width-- > 0)
                        {
                            OUT(fillch) ;
                        }
                    }
                    break ;

                case 'X':
                    upper++ ;
                    //
                    // Falling through...
                    //

                case 'x':
                    radix=16 ;
                    if (prefix)
                    {
                        prefix = upper ? 'X' : 'x' ;
                    }
                    goto do_Numeric ;

                case 'c':
                    //
                    // Save as one character string and join common code
                    // 
                    val.sz[0] = *((char far*)lpParms) ;
                    val.sz[1]=0 ;
                    lpT = val.sz ;
                    cch = 1 ;  
                    (BYTE far*)lpParms += sizeof(WORD) ;

                    goto put_String ;

                case 's':
                    lpT = *((LPSTR FAR *)lpParms)++ ;
                    cch = ilstrlen(lpT) ;
put_String:
                    if (prec>=0 && cch>prec)
                    {
                        cch = prec ;
                    }

                    width -= cch ;

                    if (left)
                    {
                        while (cch--)
                        {
                            OUT(*lpT++) ;
                        }

                        while (width-->0)
                        {
                            OUT(fillch) ;
                        }
                    }
                    else
                    {
                        while (width-- > 0)
                        {
                            OUT(fillch) ;
                        }

                        while (cch--)
                        {
                            OUT(*lpT++) ;
                        }
                    }
                    break ;

                default:
                    //
                    // An unsupported type character was given. We just
                    // print the character and go on. 
                    //
                    OUT(*lpFmt) ;
                    break ;

            } // switch(*lpfmt)
        } // if (*lpfmt == '%')
        else
        {
            //
            // Normal not-format character
            //
            OUT(*lpFmt) ;
        }
                
        lpFmt++ ;
    } // while (*lpFmt) 

error_Out:
    *lpOut = 0 ;

    return WSPRINTF_LIMIT-cchLimit ;
} //** wivsprintf()


//************************************************************************
//**
//**  SP_GetFmtValue();
//**
//**  DESCRIPTION:
//**     Parse a decimal integer forming part of a format string.
//**
//**
//**  ARGUMENTS:
//**     LPCSTR   lpch  -  Points to the string to parse.
//**     LPWORD   lpw   -  Points to a word where the value will be 
//**                       returned.
//**
//**  RETURNS:
//**     LPCSTR   -  Pointer of first character past the format value.
//**
//**  HISTORY:
//**     3/28/93     jfg      [jimge] 
//**
//************************************************************************

LPCSTR NEAR PASCAL SP_GetFmtValue(
   LPCSTR   lpch,
   LPWORD   lpw)
{
    WORD        i = 0 ;

    while (*lpch>='0' && *lpch<='9')
    {
        i *= 10;
        i += (UINT)(*lpch++-'0');
    }     

    *lpw = i;

    return(lpch); 
} //** SP_GetFmtValue()

//************************************************************************
//**
//**  SP_PutNumber();
//**
//**  DESCRIPTION:
//**     Formats the given number in the given radix into the buffer
//**     *backwards*. The entire string will be reversed after printf
//**     has added sign, prefix, etc. to it.
//**
//**  
//**  ARGUMENTS:
//**     LPSTR lpb   -  Points to the output buffer.
//**     DWORD n     -  Number to convert.
//**     UINT  limit -  Maximum number of characters to store.
//**     UINT  radix -  Base to format in.
//**     UINT  icase -  Non-zero if the string should be upper case (hex).
//**
//**  RETURNS:
//**     UINT  -  Number of characters output.
//**
//**  HISTORY:
//**
//************************************************************************

UINT NEAR PASCAL SP_PutNumber(
   LPSTR lpb,
   DWORD n,
   UINT  limit,
   UINT  radix,
   UINT  icase)
{
   BYTE  bTemp;
   UINT  cchStored = 0;

   //
   // Set icase to the offset to add to the character if it
   // represents a value > 10
   //
   icase = (icase ? 'A' : 'a') - '0' - 10 ;

   while (limit--)
   {
//
//    AVOID a call to __aFulrem
//    This code words because radix is only a word
//
//    bTemp = '0' + (BYTE)(n%radix) ;
//
      _asm
      {
         mov     cx, radix
         mov     ax, word ptr n+2
         xor     dx, dx
         div     cx
         mov     ax, word ptr n
         div     cx
         add     dl, '0'
         mov     bTemp, dl
      }

      if (bTemp > '9')
      {
         bTemp += icase ;
      }

      *lpb++ = bTemp ;
      ++cchStored ;

//       
//    AVOID a call to __aFFauldiv
//    This code words because radix is only a word
//
//    n /= radix
//
      _asm
      {
         push    bx
         mov     cx, radix
         mov     ax, word ptr n+2
         xor     dx, dx
         div     cx
         mov     bx, ax
         mov     ax, word ptr n
         div     cx
         mov     word ptr n+2, bx
         mov     word ptr n, ax
         pop     bx
      }

      if (n == 0)
      {
         break ;
      }    
   }

   return cchStored ;
} //** SP_PutNumber()


//************************************************************************
//**
//**  SP_Reverse();
//**
//**  DESCRIPTION:
//**     Reverse string in place.
//**
//**  ARGUMENTS:
//**     LPSTR pFirst
//**     LPSTR pLast
//**
//**  RETURNS:
//**     VOID 
//**
//**  HISTORY:
//**
//************************************************************************

VOID NEAR PASCAL SP_Reverse(
   LPSTR pFirst,
   LPSTR pLast)
{
   UINT  uSwaps = (pLast - pFirst + 1) / 2;
   BYTE  bTemp;

   while (uSwaps--)
   {
      bTemp   = *pFirst;
      *pFirst = *pLast;
      *pLast  = bTemp;

      pFirst++, pLast--;
   }
} //** SP_Reverse()

//************************************************************************
//**
//**  ilstrlen();
//**
//**  DESCRIPTION:
//**     Interrupt callable version of strlen().
//**
//**  ARGUMENTS:
//**     LPSTR   pstr
//**
//**  RETURNS:
//**     UINT 
//**
//**  HISTORY:
//**
//************************************************************************

UINT NEAR PASCAL ilstrlen(
    LPSTR   pstr)
{
   UINT    cch = 0 ;

   while (*pstr++)
      ++cch;

   return(cch);
} //** ilstrlen()

//************************************************************************
//**
//**  ilstrcat();
//**
//**  DESCRIPTION:
//**     Interrupt callable version of lstrcat().
//**
//**  ARGUMENTS:
//**     LPSTR   pstrDest
//**     LPSTR   pstrSrc
//**
//**  RETURNS:
//**     VOID 
//**
//**  HISTORY:
//**
//************************************************************************

VOID NEAR PASCAL ilstrcat(
    LPSTR   pstrDest,
    LPSTR   pstrSrc)
{
   while (*pstrDest)
      pstrDest++;

   while (*pstrDest++ = *pstrSrc++)
      ;

} //** ilstrcat()

#endif // #ifdef ISRDEBUG

#endif // #ifdef DEBUG
Add source files 2020-09-26 03:20:57 -05:00			`//==========================================================================;`
			`//`
			`// Copyright (c) 1991-1999 Microsoft Corporation`
			`//`
			`// You have a royalty-free right to use, modify, reproduce and`
			`// distribute the Sample Files (and/or any modified version) in`
			`// any way you find useful, provided that you agree that`
			`// Microsoft has no warranty obligations or liability for any`
			`// Sample Application Files which are modified.`
			`//`
			`//--------------------------------------------------------------------------;`
			`//`
			`// debug.c`
			`//`
			`// Description:`
			`// This file contains code yanked from several places to provide debug`
			`// support that works in win 16 and win 32.`
			`//`
			`// History:`
			`// 11/23/92 cjp [curtisp]`
			`//`
			`//==========================================================================;`

			`#ifdef DEBUG`

			`#include <windows.h>`
			`#include <windowsx.h>`
			`#include <mmsystem.h>`
			`#include <stdarg.h>`

			`#include "debug.h"`

			`#ifdef WIN32`
			`#define BCODE`
			`#else`
			`#define BCODE __based(__segname("_TEXT"))`
			`#endif`


			`#define WSPRINTF_LIMIT 1024`

			`typedef struct tagLOG`
			`{`
			`LPBYTE lpbQueue;`
			`UINT cbBuffer;`
			`UINT idxRead;`
			`UINT idxWrite;`
			`} LOG, FAR *LPLOG;`

			`#define LOG_INCIDX(pl,x) ((++(x) >= pl->cbBuffer) ? x = 0 : x)`

			`VOID FAR CDECL DbgVPrintF(LPSTR szFmt, LPSTR va) ;`

			`BOOL NEAR PASCAL LogInit(LPLOG lpLog, UINT ckBuffer);`
			`VOID NEAR PASCAL LogWrite(LPLOG lpLog, LPSTR lpstrEvent);`
			`BOOL NEAR PASCAL LogRead(LPLOG lpLog, LPSTR lpstrBuffer, UINT cbBuffer);`

			`#ifdef ISRDEBUG`
			`int wivsprintf(LPSTR lpOut, LPCSTR lpFmt, VOID FAR* lpParms) ;`

			`LPCSTR NEAR PASCAL SP_GetFmtValue(LPCSTR lpch, LPWORD lpw) ;`
			`UINT NEAR PASCAL SP_PutNumber(LPSTR lpb, DWORD n, UINT limit, UINT radix, UINT icase) ;`
			`VOID NEAR PASCAL SP_Reverse(LPSTR lpFirst, LPSTR lpLast) ;`
			`UINT NEAR PASCAL ilstrlen(LPSTR lpstr) ;`
			`VOID NEAR PASCAL ilstrcat(LPSTR lpstrDest, LPSTR lpstrSrc) ;`
			`#endif`

			`//`
			`// since we don't UNICODE our debugging messages, use the ASCII entry`
			`// points regardless of how we are compiled.`
			`//`
			`#define wvsprintfA wvsprintf`
			`#define GetProfileIntA GetProfileInt`
			`#define OutputDebugStringA OutputDebugString`

			`#ifdef ISRDEBUG`
			`#define wvsprintf wivsprintf`
			`#define lstrcatA ilstrcat`
			`#define lstrlenA ilstrlen`
			`#else`
			`#define lstrcatA lstrcat`
			`#define lstrlenA lstrlen`
			`#endif`

			`//`
			`//`
			`//`
			`BOOL __gfDbgEnabled = TRUE; // master enable`
			`UINT __guDbgLevel = 0; // current debug level`
			`BOOL __gfLogging = 0; // Are we logging as well?`
			`BOOL __gfAssertBreak = 0; // Break on assert?`

			`HWND ghWndCB = (HWND)NULL;`
			`LOG gLog;`
			`WORD wDebugLevel = 0;`

			`//************************************************************************`
			`//**`
			`//** DbgAssert();`
			`//**`
			`//** DESCRIPTION:`
			`//**`
			`//**`
			`//** ARGUMENTS:`
			`//** LPSTR lpstrExp`
			`//** LPSTR lpstrFile`
			`//** DWORD dwLine`
			`//**`
			`//** RETURNS:`
			`//** VOID`
			`//**`
			`//** HISTORY:`
			`//**`
			`//************************************************************************`
			`VOID WINAPI DbgAssert(`
			`LPSTR lpstrExp,`
			`LPSTR lpstrFile,`
			`DWORD dwLine)`
			`{`
			`static char BCODE szFormat[] =`
			`"Assert:%s@%lu %s";`
			`dprintf(0, szFormat, lpstrFile, dwLine, lpstrExp);`
			`if (__gfAssertBreak)`
			`DebugBreak();`
			`}`

			`//************************************************************************`
			`//**`
			`//** DbgVPrintF();`
			`//**`
			`//** DESCRIPTION:`
			`//**`
			`//**`
			`//** ARGUMENTS:`
			`//** LPSTR szFmt`
			`//** LPSTR va`
			`//**`
			`//** RETURNS:`
			`//** VOID`
			`//**`
			`//** HISTORY:`
			`//**`
			`//************************************************************************`

			`VOID FAR CDECL DbgVPrintF(`
			`LPSTR szFmt,`
			`LPSTR va)`
			`{`
			`char ach[DEBUG_MAX_LINE_LEN];`
			`BOOL fDebugBreak = FALSE;`
			`BOOL fPrefix = TRUE;`
			`BOOL fCRLF = TRUE;`

			`ach[0] = '\0';`

			`for (;;)`
			`{`
			`switch(*szFmt)`
			`{`
			`case '!':`
			`fDebugBreak = TRUE;`
			`szFmt++;`
			`continue;`

			case '`':
			`fPrefix = FALSE;`
			`szFmt++;`
			`continue;`

			`case '~':`
			`fCRLF = FALSE;`
			`szFmt++;`
			`continue;`
			`}`

			`break;`
			`}`

			`if (fDebugBreak)`
			`{`
			`ach[0] = '\007';`
			`ach[1] = '\0';`
			`}`

			`if (fPrefix)`
			`lstrcatA(ach, DEBUG_MODULE_NAME ": ");`

			`wvsprintfA(ach + lstrlenA(ach), szFmt, (LPSTR)va);`

			`if (fCRLF)`
			`lstrcatA(ach, "\r\n");`

			`if (__gfLogging)`
			`{`
			`LogWrite(&gLog, ach);`
			`if (ghWndCB)`
			`PostMessage(ghWndCB, WM_DEBUGUPDATE, 0, 0);`
			`}`

			`OutputDebugStringA(ach);`

			`if (fDebugBreak)`
			`DebugBreak();`
			`} //** DbgVPrintF()`


			`//************************************************************************`
			`//**`
			`//** dprintf();`
			`//**`
			`//** DESCRIPTION:`
			`//** dprintf() is called by the DPF macro if DEBUG is defined at compile`
			`//** time.`
			`//**`
			`//** The messages will be send to COM1: like any debug message. To`
			`//** enable debug output, add the following to WIN.INI :`
			`//**`
			`//** [debug]`
			`//** ICSAMPLE=1`
			`//**`
			`//**`
			`//** ARGUMENTS:`
			`//** UINT uDbgLevel`
			`//** LPCSTR szFmt`
			`//** ...`
			`//**`
			`//** RETURNS:`
			`//** VOID`
			`//**`
			`//** HISTORY:`
			`//** 06/12/93 [t-kyleb]`
			`//**`
			`//************************************************************************`

			`VOID FAR CDECL dprintf(`
			`UINT uDbgLevel,`
			`LPSTR szFmt,`
			`...)`
			`{`
			`va_list va;`

			`if (!__gfDbgEnabled \|\| (__guDbgLevel < uDbgLevel))`
			`return;`

			`va_start(va, szFmt);`
			`DbgVPrintF(szFmt, (LPSTR)va);`
			`va_end(va);`
			`} //** dprintf()`


			`//************************************************************************`
			`//**`
			`//** DbgEnable();`
			`//**`
			`//** DESCRIPTION:`
			`//**`
			`//**`
			`//** ARGUMENTS:`
			`//** BOOL fEnable`
			`//**`
			`//** RETURNS:`
			`//** BOOL`
			`//**`
			`//** HISTORY:`
			`//** 06/12/93 [t-kyleb]`
			`//**`
			`//************************************************************************`

			`BOOL WINAPI DbgEnable(`
			`BOOL fEnable)`
			`{`
			`BOOL fOldState;`

			`fOldState = __gfDbgEnabled;`
			`__gfDbgEnabled = fEnable;`

			`return (fOldState);`
			`} //** DbgEnable()`



			`//************************************************************************`
			`//**`
			`//** DbgSetLevel();`
			`//**`
			`//** DESCRIPTION:`
			`//**`
			`//**`
			`//** ARGUMENTS:`
			`//** UINT uLevel`
			`//**`
			`//** RETURNS:`
			`//** UINT`
			`//**`
			`//** HISTORY:`
			`//** 06/12/93 [t-kyleb]`
			`//**`
			`//************************************************************************`

			`UINT WINAPI DbgSetLevel(`
			`UINT uLevel)`
			`{`
			`UINT uOldLevel;`

			`uOldLevel = __guDbgLevel;`
			`__guDbgLevel = wDebugLevel = uLevel;`

			`return (uOldLevel);`
			`} //** DbgSetLevel()`


			`//--------------------------------------------------------------------------;`
			`//`
			`// UINT DbgInitialize(VOID)`
			`//`
			`// Description:`
			`//`
			`//`
			`// Arguments:`
			`//`
			`// Return (UINT):`
			`//`
			`//`
			`// History:`
			`// 11/24/92 cjp [curtisp]`
			`//`
			`//--------------------------------------------------------------------------;`


			`UINT WINAPI DbgInitialize(BOOL fEnable)`
			`{`
			`char szTemp[64];`
			`LPSTR pstr;`
			`UINT uLevel;`
			`UINT uLogMem;`

			`__gfAssertBreak = GetProfileInt(DEBUG_SECTION, ASSERT_BREAK, 0);`

			`GetProfileString(DEBUG_SECTION, DEBUG_MODULE_NAME, "", szTemp, sizeof(szTemp));`

			`pstr = szTemp;`
			`uLevel = 0;`
			`while (pstr >= '0' && pstr <= '9')`
			`{`
			`uLevel = uLevel10 + (UINT)(pstr - '0');`
			`pstr++;`
			`}`

			`__gfLogging = FALSE;`
			`if (*pstr == ',')`
			`{`
			`pstr++;`
			`uLogMem = 0;`
			`while (pstr >= '0' && pstr <= '9')`
			`{`
			`uLogMem = uLogMem10 + (UINT)(pstr - '0');`
			`pstr++;`
			`}`

			`if (0 == uLogMem) uLogMem = K_DEFAULT_LOGMEM;`
			`if (uLogMem > K_MAX_LOGMEM) uLogMem = K_MAX_LOGMEM;`

			`__gfLogging = TRUE;`
			`}`

			`if (__gfLogging)`
			`__gfLogging = LogInit(&gLog, uLogMem);`

			`DbgSetLevel(GetProfileIntA(DEBUG_SECTION, DEBUG_MODULE_NAME, 0));`
			`DbgEnable(fEnable);`

			`return (__guDbgLevel);`
			`} // DbgInitialize()`

			`VOID WINAPI DbgRegisterCallback(HWND hWnd)`
			`{`
			`ghWndCB = hWnd;`
			`}`

			`BOOL WINAPI DbgGetNextLogEntry(LPSTR lpstrBuffer, UINT cbBuffer)`
			`{`
			`if (!__gfLogging)`
			`return FALSE;`

			`return LogRead(&gLog, lpstrBuffer, cbBuffer);`
			`}`

			`BOOL NEAR PASCAL LogInit(LPLOG lpLog, UINT ckMem)`
			`{`
			`DWORD cbMem;`

			`cbMem = 1024L * ckMem;`

			`lpLog->lpbQueue = GlobalAllocPtr(GPTR, cbMem);`
			`if (NULL == lpLog->lpbQueue)`
			`return FALSE;`

			`if (!GlobalSmartPageLock(HIWORD(lpLog->lpbQueue)))`
			`{`
			`GlobalFreePtr(lpLog->lpbQueue);`
			`return FALSE;`
			`}`

			`lpLog->cbBuffer = (UINT)cbMem;`
			`lpLog->idxRead = 0;`
			`lpLog->idxWrite = 0;`

			`return TRUE;`
			`}`

			`VOID NEAR PASCAL LogWrite(LPLOG lpLog, LPSTR lpstrEvent)`
			`{`
			`if (!*lpstrEvent)`
			`return;`

			`while (*lpstrEvent)`
			`{`
			`lpLog->lpbQueue[lpLog->idxWrite] = *lpstrEvent++;`
			`LOG_INCIDX(lpLog,lpLog->idxWrite);`
			`}`

			`lpLog->idxRead = lpLog->idxWrite;`

			`while (lpLog->lpbQueue[lpLog->idxRead])`
			`{`
			`lpLog->lpbQueue[lpLog->idxRead] = '\0';`
			`LOG_INCIDX(lpLog,lpLog->idxRead);`
			`}`

			`LOG_INCIDX(lpLog,lpLog->idxRead);`
			`LOG_INCIDX(lpLog,lpLog->idxWrite);`
			`}`

			`BOOL NEAR PASCAL LogRead(LPLOG lpLog, LPSTR lpstrBuffer, UINT cbBuffer)`
			`{`
			`BYTE c;`
			`UINT idx;`

			`if (!cbBuffer)`
			`return FALSE;`

			`idx = lpLog->idxRead;`

			`while ('\0' == lpLog->lpbQueue[idx])`
			`{`
			`LOG_INCIDX(lpLog,idx);`
			`if (idx == lpLog->idxRead)`
			`return FALSE;`
			`}`

			`cbBuffer--;`
			`while (0 != (c = lpLog->lpbQueue[idx]))`
			`{`
			`if (cbBuffer)`
			`{`
			`*lpstrBuffer++ = c;`
			`cbBuffer--;`
			`}`

			`lpLog->lpbQueue[idx] = '\0';`
			`LOG_INCIDX(lpLog,idx);`
			`}`

			`*lpstrBuffer = '\0';`

			`LOG_INCIDX(lpLog,idx);`

			`lpLog->idxRead = idx;`
			`return TRUE;`
			`}`



			`//--------------------------------------------------------------------------;`
			`//`
			`// The rest of the code is only needed if we're in Win16 and need to be`
			`// interrupt callable.`
			`//`
			`//--------------------------------------------------------------------------;`

			`#ifdef ISRDEBUG`

			`#define OUT(ch) if (--cchLimit) *lpOut++=(ch); else goto error_Out`

			`//************************************************************************`
			`//**`
			`//** wivsprintf();`
			`//**`
			`//** DESCRIPTION:`
			`//** Interrupt callable version of wvsprintf()`
			`//**`
			`//**`
			`//** ARGUMENTS:`
			`//** LPSTR lpOut - Buffer to format into.`
			`//** LPCSTR lpFmt - Format string.`
			`//** VOID FAR* lpParms - Points to the first of args`
			`//** described by lpFmt.`
			`//**`
			`//** RETURNS:`
			`//** int - Number of characters stored.`
			`//**`
			`//** HISTORY:`
			`//** 3/28/93 jfg [jimge]`
			`//**`
			`//************************************************************************`

			`int wivsprintf(`
			`LPSTR lpOut,`
			`LPCSTR lpFmt,`
			`VOID FAR* lpParms)`
			`{`
			`int left ;`
			`char prefix ;`
			`int width ;`
			`int prec ;`
			`char fillch ;`
			`int size ;`
			`int sign ;`
			`int radix ;`
			`int upper ;`
			`int cchLimit = WSPRINTF_LIMIT;`
			`int cch ;`
			`LPSTR lpT ;`
			`union`
			`{`
			`long l ;`
			`unsigned long ul ;`
			`char sz[sizeof(long)] ;`
			`} val;`

			`while (*lpFmt)`
			`{`
			`if (*lpFmt=='%')`
			`{`
			`//`
			`// Read the format flags.`
			`//`
			`left = 0 ;`
			`prefix = 0 ;`

			`while (*++lpFmt)`
			`{`
			`if (*lpFmt=='-')`
			`{`
			`left++;`
			`}`
			`else if (*lpFmt=='#')`
			`{`
			`prefix++;`
			`}`
			`else`
			`{`
			`break;`
			`}`
			`}`

			`//`
			`// Find the fill character (either '0' or ' ')`
			`//`
			`if (*lpFmt=='0')`
			`{`
			`fillch = '0' ;`
			`lpFmt++ ;`
			`}`
			`else`
			`{`
			`fillch = ' ' ;`
			`}`

			`//`
			`// Now parse [width[.precision]]`
			`//`
			`lpFmt = SP_GetFmtValue(lpFmt,&cch);`
			`width = cch;`

			`if (*lpFmt=='.')`
			`{`
			`lpFmt = SP_GetFmtValue(++lpFmt,&cch);`
			`prec = cch;`
			`}`
			`else`
			`{`
			`prec = (UINT)-1 ;`
			`}`

			`//`
			`// Get the operand size modifier`
			`//`
			`if (*lpFmt=='l')`
			`{`
			`size = 1 ;`
			`lpFmt++ ;`
			`}`
			`else`
			`{`
			`size = 0 ;`
			`if (*lpFmt=='h')`
			`{`
			`lpFmt++ ;`
			`}`
			`}`

			`//`
			`// We've gotten all the modifier; now format the output`
			`// based on the type (which should now be pointed at`
			`// by lpFmt).`
			`//`
			`upper = 0 ;`
			`sign = 0 ;`
			`radix = 10 ;`

			`switch (*lpFmt)`
			`{`
			`case 0:`
			`goto error_Out ;`

			`case 'i' :`
			`case 'd' :`
			`sign++ ;`

			`case 'u':`
			`//`
			`// Don't show a prefix for decimal formats`
			`//`
			`prefix=0 ;`
			`do_Numeric:`
			`//`
			`// Special cases to act like MSC v5.10`
			`//`
			`if (left \|\| prec>=0)`
			`{`
			`fillch = ' ';`
			`}`

			`//`
			`// Get value from parm list into val union`
			`//`
			`if (size)`
			`{`
			`val.l=((long far )lpParms)++;`
			`}`
			`else`
			`{`
			`if (sign)`
			`{`
			`val.l=(long)((short far )lpParms)++;`
			`}`
			`else`
			`{`
			`val.ul=(unsigned long)((unsigned far )lpParms)++;`
			`}`
			`}`

			`//`
			`// Save sign of val.l in sign and set val.l positive.`
			`//`
			`if (sign && val.l<0L)`
			`{`
			`val.l=-val.l;`
			`}`
			`else`
			`{`
			`sign=0;`
			`}`

			`//`
			`// Save start of output stream for later reverse`
			`//`
			`lpT = lpOut;`

			`//`
			`// Blast the number backwards into the user buffer`
			`//`
			`cch = SP_PutNumber(lpOut,val.l,cchLimit,radix,upper) ;`
			`if (!(cchLimit-=cch))`
			`goto error_Out ;`

			`lpOut += cch ;`
			`width -= cch ;`
			`prec -= cch ;`

			`if (prec>0)`
			`{`
			`width -= prec ;`
			`}`

			`//`
			`// Fill in up to precision`
			`//`
			`while (prec-- > 0)`
			`{`
			`OUT('0') ;`
			`}`

			`if (width>0 && !left)`
			`{`
			`//`
			`// If we're filling with spaces, put sign first`
			`//`
			`if (fillch != '0')`
			`{`
			`if (sign)`
			`{`
			`sign = 0 ;`
			`OUT('-') ;`
			`width-- ;`
			`}`

			`if (prefix)`
			`{`
			`OUT(prefix) ;`
			`OUT('0') ;`
			`prefix = 0 ;`
			`}`
			`}`

			`if (sign)`
			`{`
			`width-- ;`
			`}`

			`//`
			`// Now fill to width`
			`//`
			`while (width-- > 0)`
			`{`
			`OUT(fillch) ;`
			`}`

			`//`
			`// Still have a sign?`
			`//`
			`if (sign)`
			`{`
			`OUT('-') ;`
			`}`

			`if (prefix)`
			`{`
			`OUT(prefix) ;`
			`OUT('0') ;`
			`}`

			`//`
			`// Now reverse the string in place`
			`//`
			`SP_Reverse(lpT,lpOut-1);`
			`}`
			`else`
			`{`
			`//`
			`// Add the sign character`
			`//`
			`if (sign)`
			`{`
			`OUT('-') ;`
			`width-- ;`
			`}`

			`if (prefix)`
			`{`
			`OUT(prefix);`
			`OUT('0');`
			`}`

			`//`
			`// Now reverse the string in place`
			`//`
			`SP_Reverse(lpT,lpOut-1);`

			`//`
			`// Pad to the right of the string in case left aligned`
			`//`
			`while (width-- > 0)`
			`{`
			`OUT(fillch) ;`
			`}`
			`}`
			`break ;`

			`case 'X':`
			`upper++ ;`
			`//`
			`// Falling through...`
			`//`

			`case 'x':`
			`radix=16 ;`
			`if (prefix)`
			`{`
			`prefix = upper ? 'X' : 'x' ;`
			`}`
			`goto do_Numeric ;`

			`case 'c':`
			`//`
			`// Save as one character string and join common code`
			`//`
			`val.sz[0] = ((char far)lpParms) ;`
			`val.sz[1]=0 ;`
			`lpT = val.sz ;`
			`cch = 1 ;`
			`(BYTE far*)lpParms += sizeof(WORD) ;`

			`goto put_String ;`

			`case 's':`
			`lpT = ((LPSTR FAR )lpParms)++ ;`
			`cch = ilstrlen(lpT) ;`
			`put_String:`
			`if (prec>=0 && cch>prec)`
			`{`
			`cch = prec ;`
			`}`

			`width -= cch ;`

			`if (left)`
			`{`
			`while (cch--)`
			`{`
			`OUT(*lpT++) ;`
			`}`

			`while (width-->0)`
			`{`
			`OUT(fillch) ;`
			`}`
			`}`
			`else`
			`{`
			`while (width-- > 0)`
			`{`
			`OUT(fillch) ;`
			`}`

			`while (cch--)`
			`{`
			`OUT(*lpT++) ;`
			`}`
			`}`
			`break ;`

			`default:`
			`//`
			`// An unsupported type character was given. We just`
			`// print the character and go on.`
			`//`
			`OUT(*lpFmt) ;`
			`break ;`

			`} // switch(*lpfmt)`
			`} // if (*lpfmt == '%')`
			`else`
			`{`
			`//`
			`// Normal not-format character`
			`//`
			`OUT(*lpFmt) ;`
			`}`

			`lpFmt++ ;`
			`} // while (*lpFmt)`

			`error_Out:`
			`*lpOut = 0 ;`

			`return WSPRINTF_LIMIT-cchLimit ;`
			`} //** wivsprintf()`


			`//************************************************************************`
			`//**`
			`//** SP_GetFmtValue();`
			`//**`
			`//** DESCRIPTION:`
			`//** Parse a decimal integer forming part of a format string.`
			`//**`
			`//**`
			`//** ARGUMENTS:`
			`//** LPCSTR lpch - Points to the string to parse.`
			`//** LPWORD lpw - Points to a word where the value will be`
			`//** returned.`
			`//**`
			`//** RETURNS:`
			`//** LPCSTR - Pointer of first character past the format value.`
			`//**`
			`//** HISTORY:`
			`//** 3/28/93 jfg [jimge]`
			`//**`
			`//************************************************************************`

			`LPCSTR NEAR PASCAL SP_GetFmtValue(`
			`LPCSTR lpch,`
			`LPWORD lpw)`
			`{`
			`WORD i = 0 ;`

			`while (lpch>='0' && lpch<='9')`
			`{`
			`i *= 10;`
			`i += (UINT)(*lpch++-'0');`
			`}`

			`*lpw = i;`

			`return(lpch);`
			`} //** SP_GetFmtValue()`

			`//************************************************************************`
			`//**`
			`//** SP_PutNumber();`
			`//**`
			`//** DESCRIPTION:`
			`//** Formats the given number in the given radix into the buffer`
			`//** backwards. The entire string will be reversed after printf`
			`//** has added sign, prefix, etc. to it.`
			`//**`
			`//**`
			`//** ARGUMENTS:`
			`//** LPSTR lpb - Points to the output buffer.`
			`//** DWORD n - Number to convert.`
			`//** UINT limit - Maximum number of characters to store.`
			`//** UINT radix - Base to format in.`
			`//** UINT icase - Non-zero if the string should be upper case (hex).`
			`//**`
			`//** RETURNS:`
			`//** UINT - Number of characters output.`
			`//**`
			`//** HISTORY:`
			`//**`
			`//************************************************************************`

			`UINT NEAR PASCAL SP_PutNumber(`
			`LPSTR lpb,`
			`DWORD n,`
			`UINT limit,`
			`UINT radix,`
			`UINT icase)`
			`{`
			`BYTE bTemp;`
			`UINT cchStored = 0;`

			`//`
			`// Set icase to the offset to add to the character if it`
			`// represents a value > 10`
			`//`
			`icase = (icase ? 'A' : 'a') - '0' - 10 ;`

			`while (limit--)`
			`{`
			`//`
			`// AVOID a call to __aFulrem`
			`// This code words because radix is only a word`
			`//`
			`// bTemp = '0' + (BYTE)(n%radix) ;`
			`//`
			`_asm`
			`{`
			`mov cx, radix`
			`mov ax, word ptr n+2`
			`xor dx, dx`
			`div cx`
			`mov ax, word ptr n`
			`div cx`
			`add dl, '0'`
			`mov bTemp, dl`
			`}`

			`if (bTemp > '9')`
			`{`
			`bTemp += icase ;`
			`}`

			`*lpb++ = bTemp ;`
			`++cchStored ;`

			`//`
			`// AVOID a call to __aFFauldiv`
			`// This code words because radix is only a word`
			`//`
			`// n /= radix`
			`//`
			`_asm`
			`{`
			`push bx`
			`mov cx, radix`
			`mov ax, word ptr n+2`
			`xor dx, dx`
			`div cx`
			`mov bx, ax`
			`mov ax, word ptr n`
			`div cx`
			`mov word ptr n+2, bx`
			`mov word ptr n, ax`
			`pop bx`
			`}`

			`if (n == 0)`
			`{`
			`break ;`
			`}`
			`}`

			`return cchStored ;`
			`} //** SP_PutNumber()`


			`//************************************************************************`
			`//**`
			`//** SP_Reverse();`
			`//**`
			`//** DESCRIPTION:`
			`//** Reverse string in place.`
			`//**`
			`//** ARGUMENTS:`
			`//** LPSTR pFirst`
			`//** LPSTR pLast`
			`//**`
			`//** RETURNS:`
			`//** VOID`
			`//**`
			`//** HISTORY:`
			`//**`
			`//************************************************************************`

			`VOID NEAR PASCAL SP_Reverse(`
			`LPSTR pFirst,`
			`LPSTR pLast)`
			`{`
			`UINT uSwaps = (pLast - pFirst + 1) / 2;`
			`BYTE bTemp;`

			`while (uSwaps--)`
			`{`
			`bTemp = *pFirst;`
			`pFirst = pLast;`
			`*pLast = bTemp;`

			`pFirst++, pLast--;`
			`}`
			`} //** SP_Reverse()`

			`//************************************************************************`
			`//**`
			`//** ilstrlen();`
			`//**`
			`//** DESCRIPTION:`
			`//** Interrupt callable version of strlen().`
			`//**`
			`//** ARGUMENTS:`
			`//** LPSTR pstr`
			`//**`
			`//** RETURNS:`
			`//** UINT`
			`//**`
			`//** HISTORY:`
			`//**`
			`//************************************************************************`

			`UINT NEAR PASCAL ilstrlen(`
			`LPSTR pstr)`
			`{`
			`UINT cch = 0 ;`

			`while (*pstr++)`
			`++cch;`

			`return(cch);`
			`} //** ilstrlen()`

			`//************************************************************************`
			`//**`
			`//** ilstrcat();`
			`//**`
			`//** DESCRIPTION:`
			`//** Interrupt callable version of lstrcat().`
			`//**`
			`//** ARGUMENTS:`
			`//** LPSTR pstrDest`
			`//** LPSTR pstrSrc`
			`//**`
			`//** RETURNS:`
			`//** VOID`
			`//**`
			`//** HISTORY:`
			`//**`
			`//************************************************************************`

			`VOID NEAR PASCAL ilstrcat(`
			`LPSTR pstrDest,`
			`LPSTR pstrSrc)`
			`{`
			`while (*pstrDest)`
			`pstrDest++;`

			`while (pstrDest++ = pstrSrc++)`
			`;`

			`} //** ilstrcat()`

			`#endif // #ifdef ISRDEBUG`

			`#endif // #ifdef DEBUG`