/*** *_fptostr.c - workhorse routine for converting floating point to string * * Copyright (c) 1985-1997, Microsoft Corporation. All rights reserved. * *Purpose: * Workhorse routine for fcvt, ecvt. * *******************************************************************************/ #include #include #include /*** *void _fptostr(buf, digits, pflt) - workhorse floating point conversion * *Purpose: * This is the workhorse routine for fcvt, ecvt. Here is where * all the digits are put into a buffer and the rounding is * performed and indicators of the decimal point position are set. Note, * this must not change the mantissa field of pflt since routines which * use this routine rely on this being unchanged. * *Entry: * char *buf - the buffer in which the digits are to be put * int digits - the number of digits which are to go into the buffer * STRFLT pflt - a pointer to a structure containing information on the * floating point value, including a string containing the * non-zero significant digits of the mantissa. * *Exit: * Changes the contents of the buffer and also may increment the decpt * field of the structure pointer to by the 'pflt' parameter if overflow * occurs during rounding (e.g. 9.999999... gets rounded to 10.000...). * *Exceptions: * *******************************************************************************/ void __cdecl _fptostr ( char *buf, REG4 int digits, REG3 STRFLT pflt ) { REG1 char *pbuf = buf; REG2 char *mantissa = pflt->mantissa; /* initialize the first digit in the buffer to '0' (NOTE - NOT '\0') * and set the pointer to the second digit of the buffer. The first * digit is used to handle overflow on rounding (e.g. 9.9999... * becomes 10.000...) which requires a carry into the first digit. */ *pbuf++ = '0'; /* Copy the digits of the value into the buffer (with 0 padding) * and insert the terminating null character. */ while (digits > 0) { *pbuf++ = (*mantissa) ? *mantissa++ : (char)'0'; digits--; } *pbuf = '\0'; /* do any rounding which may be needed. Note - if digits < 0 don't * do any rounding since in this case, the rounding occurs in a digit * which will not be output beause of the precision requested */ if (digits >= 0 && *mantissa >= '5') { pbuf--; while (*pbuf == '9') *pbuf-- = '0'; *pbuf += 1; } if (*buf == '1') { /* the rounding caused overflow into the leading digit (e.g. * 9.999.. went to 10.000...), so increment the decpt position * by 1 */ pflt->decpt++; } else { /* move the entire string to the left one digit to remove the * unused overflow digit. */ memmove(buf, buf+1, strlen(buf+1)+1); } }