; HP-PA 2.0 64-bit __gmpn_addmul_1 -- Multiply a limb vector with a limb and ; add the result to a second limb vector. ; Copyright (C) 1998, 1999, 2000 Free Software Foundation, Inc. ; This file is part of the GNU MP Library. ; The GNU MP Library is free software; you can redistribute it and/or modify ; it under the terms of the GNU Library General Public License as published by ; the Free Software Foundation; either version 2 of the License, or (at your ; option) any later version. ; The GNU MP Library is distributed in the hope that it will be useful, but ; WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY ; or FITNESS FOR A PARTICULAR PURPOSE. See the GNU Library General Public ; License for more details. ; You should have received a copy of the GNU Library General Public License ; along with the GNU MP Library; see the file COPYING.LIB. If not, write to ; the Free Software Foundation, Inc., 59 Temple Place - Suite 330, Boston, ; MA 02111-1307, USA. ; INPUT PARAMETERS #define rptr %r26 #define sptr %r25 #define size %r24 #define s2limb -56(%r30) ; This runs at 11 cycles/limb on a PA8000. It might be possible to make ; it faster, but the PA8000 pipeline is not publically documented and it ; is very complex to reverse engineer #define t1 %r19 #define rlimb %r20 #define hi %r21 #define lo %r22 #define m0 %r28 #define m1 %r3 #define cylimb %r29 #define t3 %r4 #define t2 %r6 #define t5 %r23 #define t4 %r31 .level 2.0n .code .export __gmpn_addmul_1 __gmpn_addmul_1 .proc .callinfo frame=128,no_calls .entry fldd -56(%r30),%fr5 ; s2limb passed on stack ldo 128(%r30),%r30 add %r0,%r0,cylimb ; clear cy and cylimb std %r3,-96(%r30) std %r4,-88(%r30) std %r5,-80(%r30) std %r6,-72(%r30) depdi,z 1,31,1,%r5 fldd 0(sptr),%fr4 ldo 8(sptr),sptr xmpyu %fr5R,%fr4R,%fr6 fstd %fr6,-128(%r30) xmpyu %fr5R,%fr4L,%fr7 fstd %fr7,-120(%r30) xmpyu %fr5L,%fr4R,%fr8 fstd %fr8,-112(%r30) xmpyu %fr5L,%fr4L,%fr9 fstd %fr9,-104(%r30) ldd -128(%r30),lo ; lo = low 64 bit of product ldd -120(%r30),m0 ; m0 = mid0 64 bit of product ldd -112(%r30),m1 ; m1 = mid1 64 bit of product ldd -104(%r30),hi ; hi = high 64 bit of product addib,= -1,%r24,L$end1 nop fldd 0(sptr),%fr4 ldo 8(sptr),sptr addib,= -1,%r24,L$end2 nop L$loop xmpyu %fr5R,%fr4R,%fr6 fstd %fr6,-128(%r30) xmpyu %fr5R,%fr4L,%fr7 fstd %fr7,-120(%r30) xmpyu %fr5L,%fr4R,%fr8 fstd %fr8,-112(%r30) xmpyu %fr5L,%fr4L,%fr9 fstd %fr9,-104(%r30) ldd 0(rptr),rlimb extrd,u lo,31,32,t1 ; t1 = hi32(lo) extrd,u lo,63,32,t4 ; t4 = lo32(lo) add,l m0,t1,t1 ; t1 += m0 add,l,*nuv m1,t1,t1 ; t1 += m1 add,l %r5,hi,hi ; propagate carry extrd,u t1,31,32,t2 ; t2 = hi32(t1) depd,z t1,31,32,t5 ; t5 = lo32(t1) add,l t5,t4,t4 ; t4 += lo32(t1) ldd -128(%r30),lo ; lo = low 64 bit of product add cylimb,rlimb,rlimb ldd -120(%r30),m0 ; m0 = mid0 64 bit of product add,dc t2,hi,cylimb ldd -112(%r30),m1 ; m1 = mid1 64 bit of product add t4,rlimb,t3 ldd -104(%r30),hi ; hi = high 64 bit of product add,dc %r0,cylimb,cylimb fldd 0(sptr),%fr4 ldo 8(sptr),sptr std t3,0(rptr) addib,<> -1,%r24,L$loop ldo 8(rptr),rptr L$end2 xmpyu %fr5R,%fr4R,%fr6 fstd %fr6,-128(%r30) xmpyu %fr5R,%fr4L,%fr7 fstd %fr7,-120(%r30) xmpyu %fr5L,%fr4R,%fr8 fstd %fr8,-112(%r30) xmpyu %fr5L,%fr4L,%fr9 fstd %fr9,-104(%r30) ldd 0(rptr),rlimb extrd,u lo,31,32,t1 ; t1 = hi32(lo) extrd,u lo,63,32,t4 ; t4 = lo32(lo) add,l m0,t1,t1 ; t1 += m0 add,l,*nuv m1,t1,t1 ; t1 += m0 add,l %r5,hi,hi ; propagate carry extrd,u t1,31,32,t2 ; t2 = hi32(t1) depd,z t1,31,32,t5 ; t5 = lo32(t1) add,l t5,t4,t4 ; t4 += lo32(t1) ldd -128(%r30),lo ; lo = low 64 bit of product add cylimb,rlimb,rlimb ldd -120(%r30),m0 ; m0 = mid0 64 bit of product add,dc t2,hi,cylimb ldd -112(%r30),m1 ; m1 = mid1 64 bit of product add t4,rlimb,t3 ldd -104(%r30),hi ; hi = high 64 bit of product add,dc %r0,cylimb,cylimb std t3,0(rptr) ldo 8(rptr),rptr L$end1 ldd 0(rptr),rlimb extrd,u lo,31,32,t1 ; t1 = hi32(lo) extrd,u lo,63,32,t4 ; t4 = lo32(lo) add,l m0,t1,t1 ; t1 += m0 add,l,*nuv m1,t1,t1 ; t1 += m0 add,l %r5,hi,hi ; propagate carry extrd,u t1,31,32,t2 ; t2 = hi32(t1) depd,z t1,31,32,t5 ; t5 = lo32(t1) add,l t5,t4,t4 ; t4 += lo32(t1) add cylimb,rlimb,rlimb add,dc t2,hi,cylimb add t4,rlimb,t3 add,dc %r0,cylimb,cylimb std t3,0(rptr) ldo 8(rptr),rptr ldd -96(%r30),%r3 ldd -88(%r30),%r4 ldd -80(%r30),%r5 ldd -72(%r30),%r6 extrd,u cylimb,31,32,%r28 bve (%r2) .exit ldo -128(%r30),%r30 .procend