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https://github.com/reactos/reactos.git
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95b3eebf71
Fixes GCC 8 warning:
sdk/lib/crt/misc/i10output.c:83:25: error: '%d' directive writing between 1 and 11 bytes into a region of size 6 [-Werror=format-overflow=]
sprintf(format, "%%.%dle", prec);
^~
sdk/lib/crt/misc/i10output.c:83:21: note: directive argument in the range [-2147483648, 2147483646]
sprintf(format, "%%.%dle", prec);
^~~~~~~~~
sdk/lib/crt/misc/i10output.c:83:5: note: 'sprintf' output between 6 and 16 bytes into a destination of size 8
sprintf(format, "%%.%dle", prec);
^~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~
106 lines
2.5 KiB
C
106 lines
2.5 KiB
C
#include <precomp.h>
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#define I10_OUTPUT_MAX_PREC 21
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/* Internal structure used by $I10_OUTPUT */
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struct _I10_OUTPUT_DATA {
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short pos;
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char sign;
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BYTE len;
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char str[I10_OUTPUT_MAX_PREC+1]; /* add space for '\0' */
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};
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/*********************************************************************
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* $I10_OUTPUT (MSVCRT.@)
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* ld80 - long double (Intel 80 bit FP in 12 bytes) to be printed to data
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* prec - precision of part, we're interested in
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* flag - 0 for first prec digits, 1 for fractional part
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* data - data to be populated
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*
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* return value
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* 0 if given double is NaN or INF
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* 1 otherwise
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*
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* FIXME
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* Native sets last byte of data->str to '0' or '9', I don't know what
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* it means. Current implementation sets it always to '0'.
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*/
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int CDECL MSVCRT_I10_OUTPUT(_LDOUBLE ld80, int prec, int flag, struct _I10_OUTPUT_DATA *data)
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{
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static const char inf_str[] = "1#INF";
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static const char nan_str[] = "1#QNAN";
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/* MS' long double type wants 12 bytes for Intel's 80 bit FP format.
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* Some UNIX have sizeof(long double) == 16, yet only 80 bit are used.
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* Assume long double uses 80 bit FP, never seen 128 bit FP. */
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long double ld = 0;
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double d;
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char format[8];
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char buf[I10_OUTPUT_MAX_PREC+9]; /* 9 = strlen("0.e+0000") + '\0' */
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char *p;
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memcpy(&ld, &ld80, 10);
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d = ld;
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TRACE("(%lf %d %x %p)\n", d, prec, flag, data);
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if(d<0) {
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data->sign = '-';
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d = -d;
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} else
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data->sign = ' ';
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if(!_finite(d)) {
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data->pos = 1;
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data->len = 5;
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memcpy(data->str, inf_str, sizeof(inf_str));
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return 0;
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}
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if(_isnan(d)) {
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data->pos = 1;
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data->len = 6;
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memcpy(data->str, nan_str, sizeof(nan_str));
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return 0;
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}
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if(flag&1) {
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int exp = 1+floor(log10(d));
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prec += exp;
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if(exp < 0)
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prec--;
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}
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prec--;
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if(prec+1 > I10_OUTPUT_MAX_PREC)
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prec = I10_OUTPUT_MAX_PREC-1;
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else if(prec < 0) {
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d = 0.0;
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prec = 0;
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}
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sprintf_s(format, sizeof(format), "%%.%dle", prec);
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sprintf_s(buf, sizeof(buf), format, d);
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buf[1] = buf[0];
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data->pos = atoi(buf+prec+3);
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if(buf[1] != '0')
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data->pos++;
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for(p = buf+prec+1; p>buf+1 && *p=='0'; p--);
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data->len = p-buf;
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memcpy(data->str, buf+1, data->len);
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data->str[data->len] = '\0';
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if(buf[1]!='0' && prec-data->len+1>0)
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memcpy(data->str+data->len+1, buf+data->len+1, prec-data->len+1);
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return 1;
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}
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#undef I10_OUTPUT_MAX_PREC
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