Lines Matching refs:D6
8517 clr.l %d6
8518 bfffo %d4{&0:&32},%d6
8519 lsl.l %d6,%d4
8520 add.l %d6,%d2 # (D3,D4,D5) is normalized
8533 clr.l %d6
8534 bfffo %d4{&0:&32},%d6 # find first 1
8535 mov.l %d6,%d2 # get k
8536 lsl.l %d6,%d4
8538 lsl.l %d6,%d5
8539 neg.l %d6
8540 add.l &32,%d6
8541 lsr.l %d6,%d7
9821 clr.l %d6
9822 bfffo %d4{&0:&32},%d6
9823 lsl.l %d6,%d4
9824 sub.l %d6,%d3 # (D3,D4,D5) is normalized
9829 clr.l %d6
9830 bfffo %d4{&0:&32},%d6
9831 sub.l %d6,%d3
9832 lsl.l %d6,%d4
9834 lsl.l %d6,%d5
9835 neg.l %d6
9836 add.l &32,%d6
9837 lsr.l %d6,%d7
9866 clr.l %d6
9867 bfffo %d1{&0:&32},%d6
9868 lsl.l %d6,%d1
9869 sub.l %d6,%d0 # (D0,D1,D2) is normalized
9874 clr.l %d6
9875 bfffo %d1{&0:&32},%d6
9876 sub.l %d6,%d0
9877 lsl.l %d6,%d1
9879 lsl.l %d6,%d2
9880 neg.l %d6
9881 add.l &32,%d6
9882 lsr.l %d6,%d7
9897 clr.l %d6 # D6 := carry <- 0
9914 tst.l %d6 # test carry bit
9935 clr.l %d6 # clear carry
9946 scs %d6 # set Carry if 2(R) overflows
9965 clr.l %d6
9966 bfffo %d1{&0:&32},%d6
9967 lsl.l %d6,%d1
9968 sub.l %d6,%d0 # (D0,D1,D2) is normalized
9973 clr.l %d6
9974 bfffo %d1{&0:&32},%d6
9976 sub.l %d6,%d0
9977 lsl.l %d6,%d1
9979 lsl.l %d6,%d2
9980 neg.l %d6
9981 add.l &32,%d6
9982 lsr.l %d6,%d7
9993 mov.l L_SCR1(%a6),%d6
9994 mov.w %d6,Y(%a6)
10005 mov.l L_SCR1(%a6),%d6
10006 sub.l &0x3FFE,%d6
10007 mov.l %d6,L_SCR1(%a6)
10009 mov.w %d6,Y(%a6)
10019 mov.l L_SCR1(%a6),%d6 # new biased expo(Y)
10020 subq.l &1,%d6 # biased expo(Y/2)
10021 cmp.l %d0,%d6
10042 mov.w SignX(%a6),%d6
10049 clr.l %d6
10050 mov.w SignQ(%a6),%d6 # D6 is sign(Q)
10052 lsr.l %d7,%d6
10054 or.l %d6,%d3 # sign and bits of Q
10056 # fmov.l %fpsr,%d6
10057 # and.l &0xFF00FFFF,%d6
10058 # or.l %d3,%d6
10059 # fmov.l %d6,%fpsr # put Q in fpsr
10103 mov.l %d3,%d6
10104 and.l &0x00000001,%d6
10105 tst.l %d6
10110 mov.w SignX(%a6),%d6
10111 eor.l &0x00008000,%d6
10112 mov.w %d6,SignX(%a6)
21124 mov.l %d6,%d0
21209 mov.l %d0,%d6
21270 mov.w %d0,%d6
21331 mov.b %d0,%d6
23496 # This value is stored in d6. #
23606 # d6: ILOG
23677 # in d6.
23686 # d6: x/ILOG
23701 mov.l &-4933,%d6 # force ILOG = -4933
23712 fmov.l %fp0,%d6 # put ILOG in d6 as a lword
23716 fmov.l %fp0,%d6 # put ILOG in d6 as a lword
23748 # d6: ILOG/Unchanged
23767 mov.l %d6,%d4 # first load ILOG to d4
23820 # d6: ILOG/ILOG or k if ((k<=0)&(ILOG<k))
23836 cmp.l %d7,%d6 # test k - ILOG
23838 mov.l %d7,%d6 # if ((k<0) & (ILOG < k)) ILOG = k
23840 mov.l %d6,%d0 # calc ILOG + 1 - LEN in d0
23923 # d6: ILOG/Unchanged
24011 # d6: ILOG/Unchanged
24052 # d6: ILOG/Unchanged
24120 # d6: ILOG/ILOG adjusted
24167 subq.l &1,%d6 # subtract 1 from ILOG
24178 addq.l &1,%d6 # and inc ILOG
24181 addq.l &1,%d6 # increment ILOG by 1
24207 addq.l &1,%d6 # and inc ILOG by 1
24228 # d6: ILOG
24301 # d6: ILOG
24319 fmov.l %d6,%fp0 # float ILOG
24328 fmov.l %d6,%fp0 # float ILOG
24337 fmov.l %d6,%fp0 # float ILOG
24372 # Sigma is bit 31 of initial value; RHO is bit 31 of d6 (ILOG).
24381 # d6: ILOG/ILOG adjusted
24401 tst.l %d6 # check sign of ILOG
24503 # A7. Decrement d6 (LEN counter) and repeat the loop until zero. #
24517 # d6: temp for bit-field extracts
24542 bfextu %d3{&0:&3},%d6 # copy 3 msbs of d3 into d6
24544 or.l %d6,%d2 # or in msbs from d3 into d2
24550 swap %d6 # put 0 in d6 lower word
24551 addx.w %d6,%d1 # add in extend from mul by 2
24559 addx.w %d6,%d1 # add in extend from add to d1
24560 swap %d6 # with d6 = 0; put 0 in upper word
Indexes created Sat Oct 25 10:09:55 GMT 2025