kolibrios/programs/develop/open watcom/trunk/clib/convert/lltoa.c

/****************************************************************************
*
*                            Open Watcom Project
*
*    Portions Copyright (c) 1983-2002 Sybase, Inc. All Rights Reserved.
*
*  ========================================================================
*
*    This file contains Original Code and/or Modifications of Original
*    Code as defined in and that are subject to the Sybase Open Watcom
*    Public License version 1.0 (the 'License'). You may not use this file
*    except in compliance with the License. BY USING THIS FILE YOU AGREE TO
*    ALL TERMS AND CONDITIONS OF THE LICENSE. A copy of the License is
*    provided with the Original Code and Modifications, and is also
*    available at www.sybase.com/developer/opensource.
*
*    The Original Code and all software distributed under the License are
*    distributed on an 'AS IS' basis, WITHOUT WARRANTY OF ANY KIND, EITHER
*    EXPRESS OR IMPLIED, AND SYBASE AND ALL CONTRIBUTORS HEREBY DISCLAIM
*    ALL SUCH WARRANTIES, INCLUDING WITHOUT LIMITATION, ANY WARRANTIES OF
*    MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE, QUIET ENJOYMENT OR
*    NON-INFRINGEMENT. Please see the License for the specific language
*    governing rights and limitations under the License.
*
*  ========================================================================
*
* Description:  Long long integer to ASCII conversion routines.
*
****************************************************************************/


#include "variety.h"
#include "widechar.h"
#include "watcom.h"
#include "clibi64.h"
#include <stdlib.h>

extern const char __based(__segname("_CONST")) __Alphabet[];

#if defined(__386__) || defined(M_I86)
unsigned long long __ulldiv( unsigned long long, unsigned _WCNEAR *);
#if defined(__386__)
    #pragma aux __ulldiv = \
        "xor ecx,ecx"     /* set high word of quotient to 0 */ \
        "cmp edx,dword ptr[ebx]" /* if quotient will be >= 4G */ \
        "jb less4g"       /* then */ \
        "mov ecx,eax"     /* - save low word of dividend */ \
        "mov eax,edx"     /* - get high word of dividend */ \
        "xor edx,edx"     /* - zero high part */ \
        "div dword ptr[ebx]"  /* - divide into high part of dividend */ \
        "xchg eax,ecx"    /* - swap high part of quot,low word of dvdnd */ \
      "less4g:"           \
        "div dword ptr[ebx]" /* calculate low part */ \
        "mov [ebx],edx"   /* store remainder */ \
        parm [eax edx] [ebx] value [eax ecx];
#elif defined(M_I86)  && defined(__BIG_DATA__)
    #pragma aux __ulldiv = \
        "mov di,dx"        /* initial dividend = ax:bx:cx:dx(di); save dx */ \
        "test ax,ax"       /* less work to do if ax == 0 */ \
        "jz skip1"  \
        "mov dx,ax"        /* dx:ax = ax:bx */ \
        "mov ax,bx" \
        "xor bx,bx"           /* set word 3 of quotient to 0 */ \
        "cmp dx,word ptr ss:[si]" /* if quotient will be >= 64K */ \
        "jb div2"             /* then */ \
        "mov bx,ax"       /* restore word 2 of dividend */ \
        "mov ax,dx"       /* restore word 3 of dividend */ \
        "xor dx,dx"       /* - zero high part */ \
        "div word ptr ss:[si]"  /* - divide into word 3 of dividend */ \
        "xchg ax,bx"      /* - swap word 3,word 2 of dvdnd */ \
      "div2:"           \
        "div word ptr ss:[si]"  /* - divide into word 2 of dividend */ \
        "xchg ax,cx"      /* - swap word 2,word 1 of dvdnd */ \
      "div3:"           \
        "div word ptr ss:[si]"  /* - divide into word 1 of dividend */ \
        "xchg ax,di"      /* - swap word 1,word 0 of dvdnd */ \
      "div4:"           \
        "div word ptr ss:[si]" /* calculate low part */ \
        "mov  ss:[si],dx"      /* store remainder */ \
        "mov dx,ax"        /* dx is word 0 */ \
        "mov ax,bx"        /* ax:bx:cx:dx = bx:cx:di:ax */ \
        "mov bx,cx" \
        "mov cx,di" \
        "jmp end_div" \
      "skip1:"      /* ax==0 */  \
        "test bx,bx"       /* even less work to do if bx == 0 too */ \
        "jz skip2" \
        "mov dx,bx"        /* dx:ax = bx:cx */ \
        "mov ax,cx" \
        "xor bx,bx"        /* set word 3 of quotient to 0 */ \
        "xor cx,cx"        /* set word 2 of quotient to 0 */ \
        "cmp dx,word ptr ss:[si]" /* if quotient will be < 64K */ \
        "jb div3"             /* then need to do two divisions */ \
        "mov cx,ax"        /* restore word 1 of dividend */ \
        "mov ax,dx"        /* restore word 2 of dividend */ \
        "xor dx,dx"        /* zero high part */ \
        "jmp div2"         /* do three divisions*/ \
      "skip2:"      /* ax==bx==0 */ \
        "mov dx,cx"        /* dx:ax = cx:di */ \
        "mov ax,di" \
        "xor cx,cx"        /* set word 2 of quotient to 0 */ \
        "xor di,di"        /* set word 1 of quotient to 0 */ \
        "cmp dx,word ptr ss:[si]" /* if quotient will be < 64K */ \
        "jb div4"             /* then only one division to do */ \
        "mov di,ax"        /* restore word 0 of dividend */ \
        "mov ax,dx"        /* restore word 1 of dividend */ \
        "xor dx,dx"        /* zero high part */ \
        "jmp div3"         /* do two divisions */ \
      "end_div:" \
        parm [ax bx cx dx] [si] modify [di] value [ax bx cx dx];
#elif defined(M_I86) && defined(__SMALL_DATA__)
    #pragma aux __ulldiv = \
        "mov di,dx"        /* initial dividend = ax:bx:cx:dx(di); save dx */ \
        "test ax,ax"       /* less work to do if ax == 0 */ \
        "jz skip1"  \
        "mov dx,ax"        /* dx:ax = ax:bx */ \
        "mov ax,bx" \
        "xor bx,bx"           /* set word 3 of quotient to 0 */ \
        "cmp dx,word ptr[si]" /* if quotient will be >= 64K */ \
        "jb div2"             /* then */ \
        "mov bx,ax"       /* restore word 2 of dividend */ \
        "mov ax,dx"       /* restore word 3 of dividend */ \
        "xor dx,dx"       /* - zero high part */ \
        "div word ptr[si]"  /* - divide into word 3 of dividend */ \
        "xchg ax,bx"      /* - swap word 3,word 2 of dvdnd */ \
      "div2:"           \
        "div word ptr[si]"  /* - divide into word 2 of dividend */ \
        "xchg ax,cx"      /* - swap word 2,word 1 of dvdnd */ \
      "div3:"           \
        "div word ptr[si]"  /* - divide into word 1 of dividend */ \
        "xchg ax,di"      /* - swap word 1,word 0 of dvdnd */ \
      "div4:"           \
        "div word ptr[si]" /* calculate low part */ \
        "mov [si],dx"      /* store remainder */ \
        "mov dx,ax"        /* dx is word 0 */ \
        "mov ax,bx"        /* ax:bx:cx:dx = bx:cx:di:ax */ \
        "mov bx,cx" \
        "mov cx,di" \
        "jmp end_div" \
      "skip1:"      /* dx==0 */  \
        "test bx,bx"       /* even less work to do if bx == 0 too */ \
        "jz skip2" \
        "mov dx,bx"        /* dx:ax = bx:cx */ \
        "mov ax,cx" \
        "xor bx,bx"        /* set word 3 of quotient to 0 */ \
        "xor cx,cx"        /* set word 2 of quotient to 0 */ \
        "cmp dx,word ptr[si]" /* if quotient will be < 64K */ \
        "jb div3"             /* then need to do two divisions */ \
        "mov cx,ax"        /* restore word 1 of dividend */ \
        "mov ax,dx"        /* restore word 2 of dividend */ \
        "xor dx,dx"        /* zero high part */ \
        "jmp div2"         /* do three divisions*/ \
      "skip2:"      /* ax==bx==0 */ \
        "mov dx,cx"        /* dx:ax = cx:di */ \
        "mov ax,di" \
        "xor cx,cx"        /* set word 2 of quotient to 0 */ \
        "xor di,di"        /* set word 1 of quotient to 0 */ \
        "cmp dx,word ptr[si]" /* if quotient will be < 64K */ \
        "jb div4"             /* then only one division to do */ \
        "mov di,ax"        /* restore word 0 of dividend */ \
        "mov ax,dx"        /* restore word 1 of dividend */ \
        "xor dx,dx"        /* zero high part */ \
        "jmp div3"         /* do two divisions */ \
      "end_div:" \
        parm [ax bx cx dx] [si] modify [di] value [ax bx cx dx];
#endif
#endif

_WCRTLINK CHAR_TYPE *__F_NAME(ulltoa,_ulltow)(
        unsigned long long int value,
        CHAR_TYPE *buffer,
        int radix )
    {
        CHAR_TYPE *p = buffer;
        char *q;
        unsigned rem;
        auto char buf[66];      // only holds ASCII so 'char' is OK

        buf[0] = '\0';
        q = &buf[1];
        do {
#if defined(__386__) || defined(M_I86)
            rem = radix;
            value = __ulldiv( value, (unsigned _WCNEAR *) &rem );
#else
            rem = value % radix;
            value = value / radix;
#endif
            *q = __Alphabet[ rem ];
            ++q;
        } while( value );
        while( *p++ = (CHAR_TYPE)*--q );
        return( buffer );
    }


_WCRTLINK CHAR_TYPE *__F_NAME(lltoa,_lltow)(
        long long int value,
        CHAR_TYPE *buffer,
        int radix )
    {
        register CHAR_TYPE *p = buffer;

        if( radix == 10 ) {
            if( value < 0 ) {
                *p++ = '-';
                value = -value;
            }
        }
        __F_NAME(ulltoa,_ulltow)( value, p, radix );
        return( buffer );
    }