Lines Matching defs:zero
418 set z_bit, 0x2 # zero result
429 set dz_bit, 2 # divide by zero
444 set z_mask, 0x04000000 # zero bit mask (lw)
449 set z_bmask, 0x04 # zero bit mask (byte)
464 set adz_mask, 0x00000010 # accrued divide by zero
504 set rz_mode, 0x1 # round-to-zero
569 fmov.l &0x0,%fpcr # zero FPCR
626 fmov.l &0x0,%fpcr # zero FPCR
684 fmov.l &0x0,%fpcr # zero FPCR
746 fmov.l &0x0,%fpcr # zero FPCR
803 fmov.l &0x0,%fpcr # zero FPCR
861 fmov.l &0x0,%fpcr # zero FPCR
923 fmov.l &0x0,%fpcr # zero FPCR
980 fmov.l &0x0,%fpcr # zero FPCR
1038 fmov.l &0x0,%fpcr # zero FPCR
1100 fmov.l &0x0,%fpcr # zero FPCR
1157 fmov.l &0x0,%fpcr # zero FPCR
1215 fmov.l &0x0,%fpcr # zero FPCR
1277 fmov.l &0x0,%fpcr # zero FPCR
1334 fmov.l &0x0,%fpcr # zero FPCR
1392 fmov.l &0x0,%fpcr # zero FPCR
1454 fmov.l &0x0,%fpcr # zero FPCR
1511 fmov.l &0x0,%fpcr # zero FPCR
1569 fmov.l &0x0,%fpcr # zero FPCR
1631 fmov.l &0x0,%fpcr # zero FPCR
1688 fmov.l &0x0,%fpcr # zero FPCR
1746 fmov.l &0x0,%fpcr # zero FPCR
1808 fmov.l &0x0,%fpcr # zero FPCR
1865 fmov.l &0x0,%fpcr # zero FPCR
1923 fmov.l &0x0,%fpcr # zero FPCR
1985 fmov.l &0x0,%fpcr # zero FPCR
2042 fmov.l &0x0,%fpcr # zero FPCR
2100 fmov.l &0x0,%fpcr # zero FPCR
2162 fmov.l &0x0,%fpcr # zero FPCR
2219 fmov.l &0x0,%fpcr # zero FPCR
2277 fmov.l &0x0,%fpcr # zero FPCR
2339 fmov.l &0x0,%fpcr # zero FPCR
2396 fmov.l &0x0,%fpcr # zero FPCR
2454 fmov.l &0x0,%fpcr # zero FPCR
2516 fmov.l &0x0,%fpcr # zero FPCR
2573 fmov.l &0x0,%fpcr # zero FPCR
2631 fmov.l &0x0,%fpcr # zero FPCR
2693 fmov.l &0x0,%fpcr # zero FPCR
2750 fmov.l &0x0,%fpcr # zero FPCR
2808 fmov.l &0x0,%fpcr # zero FPCR
2870 fmov.l &0x0,%fpcr # zero FPCR
2927 fmov.l &0x0,%fpcr # zero FPCR
2985 fmov.l &0x0,%fpcr # zero FPCR
3047 fmov.l &0x0,%fpcr # zero FPCR
3104 fmov.l &0x0,%fpcr # zero FPCR
3162 fmov.l &0x0,%fpcr # zero FPCR
3224 fmov.l &0x0,%fpcr # zero FPCR
3281 fmov.l &0x0,%fpcr # zero FPCR
3339 fmov.l &0x0,%fpcr # zero FPCR
3401 fmov.l &0x0,%fpcr # zero FPCR
3458 fmov.l &0x0,%fpcr # zero FPCR
3516 fmov.l &0x0,%fpcr # zero FPCR
3578 fmov.l &0x0,%fpcr # zero FPCR
3635 fmov.l &0x0,%fpcr # zero FPCR
3693 fmov.l &0x0,%fpcr # zero FPCR
3755 fmov.l &0x0,%fpcr # zero FPCR
3812 fmov.l &0x0,%fpcr # zero FPCR
3870 fmov.l &0x0,%fpcr # zero FPCR
3932 fmov.l &0x0,%fpcr # zero FPCR
3989 fmov.l &0x0,%fpcr # zero FPCR
4047 fmov.l &0x0,%fpcr # zero FPCR
4109 fmov.l &0x0,%fpcr # zero FPCR
4168 fmov.l &0x0,%fpcr # zero FPCR
4228 fmov.l &0x0,%fpcr # zero FPCR
4292 fmov.l &0x0,%fpcr # zero FPCR
4358 fmov.l &0x0,%fpcr # zero FPCR
4424 fmov.l &0x0,%fpcr # zero FPCR
4496 fmov.l &0x0,%fpcr # zero FPCR
4562 fmov.l &0x0,%fpcr # zero FPCR
4628 fmov.l &0x0,%fpcr # zero FPCR
4700 fmov.l &0x0,%fpcr # zero FPCR
4766 fmov.l &0x0,%fpcr # zero FPCR
4832 fmov.l &0x0,%fpcr # zero FPCR
6672 bra ld_pzero # answer is positive zero
6806 # zero. The reason for such a special form is that T-1, #
6835 # Notes: For non-zero X, the inexact exception will always be #
6934 # zero. The reason for such a special form is that T-1, #
7102 #--entry point for EXP(X), here X is finite, non-zero, and not NaN's
7265 #--entry point for EXPM1(X), here X is finite, non-zero, non-NaN
8028 zero:
8532 fmov.s zero(%pc),%fp1 # FP1 IS K = 0
8546 fmov.s zero(%pc),%fp0
8589 # divide-by-zero by #
8741 fbeq.l ld_pzero # return an EXACT zero
9280 clr.l -(%sp) # insert zero low mantissa
9282 clr.l -(%sp) # make zero exponent
9288 clr.l -(%sp) # insert zero high mantissa
9289 clr.l -(%sp) # make zero exponent
9766 # If it's an unnormalized zero, alter the operand and force it #
9767 # to be a normal zero. #
9798 bsr.l unnorm_fix # convert to norm,denorm,or zero
10159 # Must check, too, if the result was zero, in which case we just #
10460 # src_zero(): Return signed zero according to sign of src operand. #
10465 bmi.b ld_mzero # if neg, load neg zero
10468 # ld_pzero(): return a positive zero.
10476 # ld_mzero(): return a negative zero.
10484 # dst_zero(): Return signed zero according to sign of dst operand. #
10489 bmi.b ld_mzero # if neg, load neg zero
10490 bra.b ld_pzero # load positive zero
10869 clr.l FTEMP_LO(%a0) # lo(man) is now zero
10894 # zero; both the exponent and mantissa are changed. #
10907 bfffo FTEMP_LO(%a0){&0:&32}, %d0 # is operand really a zero?
10974 # whole mantissa is zero so this UNNORM is actually a zero
10977 and.w &0x8000, FTEMP_EX(%a0) # force exponent to zero