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If applicable, add the following below this CDDL HEADER, with the fields enclosed by brackets "[]" replaced with your own identifying information: Portions Copyright [yyyy] [name of copyright owner] .TH FLOATING_TO_DECIMAL 3C "Jun 7, 2005" .SH NAME floating_to_decimal, single_to_decimal, double_to_decimal, extended_to_decimal, quadruple_to_decimal \- convert floating-point value to decimal record .SH SYNOPSIS .LP .nf #include \fBvoid\fR \fBsingle_to_decimal\fR(\fBsingle *\fR\fIpx\fR, \fBdecimal_mode *\fR\fIpm\fR, \fBdecimal_record *\fR\fIpd\fR, \fBfp_exception_field_type *\fR\fIps\fR); .fi .LP .nf \fBvoid\fR \fBdouble_to_decimal\fR(\fBdouble *\fR\fIpx\fR, \fBdecimal_mode *\fR\fIpm\fR, \fBdecimal_record *\fR\fIpd\fR, \fBfp_exception_field_type *\fR\fIps\fR); .fi .LP .nf \fBvoid\fR \fBextended_to_decimal\fR(\fBextended *\fR\fIpx\fR, \fBdecimal_mode *\fR\fIpm\fR, \fBdecimal_record *\fR\fIpd\fR, \fBfp_exception_field_type *\fR\fIps\fR); .fi .LP .nf \fBvoid\fR \fBquadruple_to_decimal\fR(\fBquadruple *\fR\fIpx\fR, \fBdecimal_mode *\fR\fIpm\fR, \fBdecimal_record *\fR\fIpd\fR, \fBfp_exception_field_type *\fR\fIps\fR); .fi .SH DESCRIPTION .sp .LP The \fBfloating_to_decimal\fR functions convert the floating-point value at \fI*px\fR into a decimal record at *\fIpd\fR, observing the modes specified in *\fIpm\fR and setting exceptions in *\fIps\fR. If there are no IEEE exceptions, *\fIps\fR will be zero. .sp .LP If *\fIpx\fR is zero, infinity, or NaN, then only \fIpd\fR\(->\fIsign\fR and \fIpd\fR\(->\fIfpclass\fR are set. Otherwise \fIpd\fR\(->\fIexponent\fR and \fIpd\fR\(->\fIds\fR are also set so that .sp .in +2 .nf (sig)*(pd->ds)*10**(pd->exponent) .fi .in -2 .sp .LP is a correctly rounded approximation to *\fIpx\fR, where \fIsig\fR is +1 or \(mi1, depending upon whether \fIpd\fR\(->\fIsign\fR is 0 or \(mi1. \fIpd\fR\(->\fIds\fR has at least one and no more than \fBDECIMAL_STRING_LENGTH\fR-1 significant digits because one character is used to terminate the string with a null. .sp .LP \fIpd\fR\(->\fIds\fR is correctly rounded according to the IEEE rounding modes in \fIpm\fR\(->\fIrd\fR. *\fIps\fR has \fIfp_inexact\fR set if the result was inexact, and has \fIfp_overflow\fR set if the string result does not fit in \fIpd\fR\(->\fIds\fR because of the limitation \fBDECIMAL_STRING_LENGTH\fR. .sp .LP If \fIpm\fR\(->\fIdf\fR == \fIfloating_form\fR, then \fIpd\fR\(->\fIds\fR always contains \fIpm\fR\(->\fIndigits\fR significant digits. Thus if *\fIpx\fR == 12.34 and \fIpm\fR\(->\fIndigits\fR == 8, then \fIpd\fR\(->\fIds\fR will contain 12340000 and \fIpd\fR\(->\fIexponent\fR will contain \(mi6. .sp .LP If \fIpm\fR\(->\fIdf\fR == \fIfixed_form\fR and \fIpm\fR\(->\fIndigits\fR >= 0, then the decimal value is rounded at \fIpm\fR\(->\fIndigits\fR digits to the right of the decimal point. For example, if *\fIpx\fR == 12.34 and \fIpm\fR\(->\fIndigits\fR == 1, then \fIpd\fR\(->\fIds\fR will contain 123 and \fIpd\fR\(->\fIexponent\fR will be set to \(mi1. .sp .LP If \fIpm\fR\(->\fIdf\fR == \fIfixed_form\fR and \fIpm\fR\(->\fIndigits\fR< 0, then the decimal value is rounded at \(mi\fIpm\fR\(->\fIndigits\fR digits to the left of the decimal point, and \fIpd\fR\(->\fIds\fR is padded with trailing zeros up to the decimal point. For example, if *\fIpx\fR == 12.34 and \fIpm\fR\(->\fIn\fR digits == \(mi1, then \fIpd\fR\(->\fIds\fR will contain 10 and \fIpd\fR\(->\fIexponent\fR will be set to 0. .sp .LP When \fIpm\fR\(->\fIdf\fR == \fIfixed_form\fR and the value to be converted is large enough that the resulting string would contain more than \fBDECIMAL_STRING_LENGTH\fR\(mi1 digits, then the string placed in \fIpd\fR\(->\fIds\fR is limited to exactly \fBDECIMAL_STRING_LENGTH\fR-1 digits (by moving the place at which the value is rounded further left if need be), \fIpd\fR\(->\fIexponent\fR is adjusted accordingly and the overflow flag is set in *\fIps\fR. .sp .LP \fIpd->more\fR is not used. .sp .LP The \fBeconvert\fR(3C), \fBfconvert\fR(3C), \fBgconvert\fR(3C), \fBprintf\fR(3C), and \fBsprintf\fR(3C) functions all use \fBdouble_to_decimal()\fR. .SH ATTRIBUTES .sp .LP See \fBattributes\fR(5) for descriptions of the following attributes: .sp .sp .TS box; c | c l | l . ATTRIBUTE TYPE ATTRIBUTE VALUE _ MT-Level MT-Safe .TE .SH SEE ALSO .sp .LP \fBeconvert\fR(3C), \fBfconvert\fR(3C), \fBgconvert\fR(3C), \fBprintf\fR(3C), \fBsprintf\fR(3C), \fBattributes\fR(5)