Lines Matching full:arithmetic

3 and extended-precision IEEE binary floating-point arithmetic, and
14 The conversion routines use double-precision floating-point arithmetic
15 and, where necessary, high precision integer arithmetic.  The routines
27 VAX, or IBM-mainframe double-precision arithmetic internally, but I (dmg)
29 arithmetic.
34 exponent of type Long, and arithmetic characteristics described in
42 that know details of the particular binary arithmetic of interest and
44 of IEEE binary floating-point arithmetic, each indicated by one or
60 mode on IEEE-arithmetic systems that provide the C99 fegetround()
93 arithmetic can easily make one-ulp adjustments on values in the
95 native arithmetic.  Routine strtodI is a variant of strtoId that
97 arithmetic -- but whether this is more efficient remains to be seen.
114 should use true IEEE double arithmetic (not, e.g., double extended),
119 arithmetic departs from the IEEE standard by flushing denormalized
129 126-bit arithmetic, then, if necessary, one specifying 53-bit
130 arithmetic).
139 arithmetic with the default rounding mode (round-to-nearest) and, on
142 Intel 80x87 arithmetic, the call
160 arithmetic of the target machine.
196 On IEEE-arithmetic systems that provide the C99 fegetround() function,
203 For double-double -> decimal, g_ddfmt() assumes IEEE-like arithmetic
298 IEEE-like arithmetic, some explanation of struct FPI and the bits
308 P754 standard for binary IEEE arithmetic specifies doubles as having