Lines Matching refs:base
8093 # F = 1.xxxxxx1 in base 2 where the six "x" match those #
8752 # slog10(): computes the base-10 logarithm of a normalized input #
8753 # slog10d(): computes the base-10 logarithm of a denormalized input #
8754 # slog2(): computes the base-2 logarithm of a normalized input #
8755 # slog2d(): computes the base-2 logarithm of a denormalized input #
8950 # 1. If |X| > 16480*log_10(2) (base 10 log of 2), go to ExpBig. #
8954 # 3. Set y := X*log_2(10)*64 (base 2 log of 10). Set #
18886 # " " " w/ " (base displacement): (bd, An, Xn) #
18892 bsr.l fetch_dreg # fetch base areg
18985 # " " w/ " (base displacement): (bd, PC, An) #
18997 mov.l EXC_EXTWPTR(%a6),%a0 # put base in a0
18998 subq.l &0x2,%a0 # adjust base
19033 # d3 = base
19043 mov.l %a0,%d3 # put base in d3
19067 # base address (passed as parameter in d3):
19074 # base displacement:
19103 add.l %d0,%d3 # base += bd
19165 add.l %d2,%d3 # ea = (base + bd) + index
22957 # the base reg must be updated for both -(An) and (An)+.
23389 lea.l RTABLE(%pc),%a1 # load rtable base
23484 # ILOG is the log base 10 of the input value. It is #
23665 # ILOG is the log base 10 of the input value. It is approx-
23856 lea.l RBDTBL(%pc),%a2 # load rbdtbl base
23863 lea.l PTENRN(%pc),%a1 # load a1 with RN table base
23868 lea.l PTENRP(%pc),%a1 # load a1 with RP table base
23871 lea.l PTENRM(%pc),%a1 # load a1 with RM table base