dnl Alpha mpn_bdiv_dbm1c.
dnl Copyright 2008 Free Software Foundation, Inc.
dnl This file is part of the GNU MP Library.
dnl
dnl The GNU MP Library is free software; you can redistribute it and/or modify
dnl it under the terms of either:
dnl
dnl * the GNU Lesser General Public License as published by the Free
dnl Software Foundation; either version 3 of the License, or (at your
dnl option) any later version.
dnl
dnl or
dnl
dnl * the GNU General Public License as published by the Free Software
dnl Foundation; either version 2 of the License, or (at your option) any
dnl later version.
dnl
dnl or both in parallel, as here.
dnl
dnl The GNU MP Library is distributed in the hope that it will be useful, but
dnl WITHOUT ANY WARRANTY; without even the implied warranty of MERCHANTABILITY
dnl or FITNESS FOR A PARTICULAR PURPOSE. See the GNU General Public License
dnl for more details.
dnl
dnl You should have received copies of the GNU General Public License and the
dnl GNU Lesser General Public License along with the GNU MP Library. If not,
dnl see https://www.gnu.org/licenses/.
include(`../config.m4')
C cycles/limb
C EV4: 42
C EV5: 18
C EV6: 3
C TODO
C * Try less unrolling, 2-way should give the same performance.
C * Optimize feed-in and wind-down code, for speed, and perhaps further for
C code size.
C * This runs optimally given the algorithm, r8 is on a 3 operation recurrency
C path. We have not tried very hard to find a better algorithm. Perhaps
C it would be a good task for the GNU superoptimizer.
C INPUT PARAMETERS
define(`rp', `r16')
define(`up', `r17')
define(`n', `r18')
define(`bd', `r19')
define(`cy', `r19')
ASM_START()
PROLOGUE(mpn_bdiv_dbm1c)
mov r20, r8
ldq r24, 0(r17)
and r18, 3, r28
lda r18, -4(r18)
beq r28, L(b0)
cmpeq r28, 1, r21
bne r21, L(b1)
cmpeq r28, 2, r21
bne r21, L(b2)
L(b3): ldq r2, 8(r17)
ldq r3, 16(r17)
bgt r18, L(gt3)
mulq r24, r19, r5 C U1
umulh r24, r19, r21 C U1
mulq r2, r19, r6 C U1
umulh r2, r19, r22 C U1
mulq r3, r19, r7 C U1
umulh r3, r19, r23 C U1
lda r16, -32(r16)
br L(cj3)
L(gt3): ldq r0, 24(r17)
mulq r24, r19, r5 C U1
umulh r24, r19, r21 C U1
ldq r1, 32(r17)
mulq r2, r19, r6 C U1
umulh r2, r19, r22 C U1
ldq r2, 40(r17)
mulq r3, r19, r7 C U1
umulh r3, r19, r23 C U1
ldq r3, 48(r17)
lda r18, -4(r18)
lda r17, 56(r17)
mulq r0, r19, r4 C U1
bgt r18, L(L3)
br L(cj7)
L(b2): ldq r3, 8(r17)
bgt r18, L(gt2)
mulq r24, r19, r6 C U1
umulh r24, r19, r22 C U1
mulq r3, r19, r7 C U1
umulh r3, r19, r23 C U1
lda r16, -40(r16)
br L(cj2)
L(gt2): ldq r0, 16(r17)
ldq r1, 24(r17)
mulq r24, r19, r6 C U1
umulh r24, r19, r22 C U1
ldq r2, 32(r17)
mulq r3, r19, r7 C U1
umulh r3, r19, r23 C U1
ldq r3, 40(r17)
lda r18, -4(r18)
lda r17, 48(r17)
mulq r0, r19, r4 C U1
umulh r0, r19, r20 C U1
lda r16, -8(r16)
bgt r18, L(gt6)
mulq r1, r19, r5 C U1
br L(cj6)
L(gt6): ldq r0, 0(r17)
mulq r1, r19, r5 C U1
br L(L2)
L(b1): bgt r18, L(gt1)
mulq r24, r19, r7 C U1
umulh r24, r19, r23 C U1
lda r16, -48(r16)
br L(cj1)
L(gt1): ldq r0, 8(r17)
ldq r1, 16(r17)
ldq r2, 24(r17)
mulq r24, r19, r7 C U1
umulh r24, r19, r23 C U1
ldq r3, 32(r17)
lda r18, -4(r18)
lda r17, 40(r17)
mulq r0, r19, r4 C U1
umulh r0, r19, r20 C U1
lda r16, -16(r16)
bgt r18, L(gt5)
mulq r1, r19, r5 C U1
umulh r1, r19, r21 C U1
mulq r2, r19, r6 C U1
br L(cj5)
L(gt5): ldq r0, 0(r17)
mulq r1, r19, r5 C U1
umulh r1, r19, r21 C U1
ldq r1, 8(r17)
mulq r2, r19, r6 C U1
br L(L1)
L(b0): ldq r1, 8(r17)
ldq r2, 16(r17)
ldq r3, 24(r17)
lda r17, 32(r17)
lda r16, -24(r16)
mulq r24, r19, r4 C U1
umulh r24, r19, r20 C U1
bgt r18, L(gt4)
mulq r1, r19, r5 C U1
umulh r1, r19, r21 C U1
mulq r2, r19, r6 C U1
umulh r2, r19, r22 C U1
mulq r3, r19, r7 C U1
br L(cj4)
L(gt4): ldq r0, 0(r17)
mulq r1, r19, r5 C U1
umulh r1, r19, r21 C U1
ldq r1, 8(r17)
mulq r2, r19, r6 C U1
umulh r2, r19, r22 C U1
ldq r2, 16(r17)
mulq r3, r19, r7 C U1
br L(L0)
C *** MAIN LOOP START ***
ALIGN(16)
L(top): mulq r0, r19, r4 C U1
subq r8, r28, r8
L(L3): umulh r0, r19, r20 C U1
cmpult r8, r5, r28
ldq r0, 0(r17)
subq r8, r5, r8
addq r21, r28, r28
stq r8, 0(r16)
mulq r1, r19, r5 C U1
subq r8, r28, r8
L(L2): umulh r1, r19, r21 C U1
cmpult r8, r6, r28
ldq r1, 8(r17)
subq r8, r6, r8
addq r22, r28, r28
stq r8, 8(r16)
mulq r2, r19, r6 C U1
subq r8, r28, r8
L(L1): umulh r2, r19, r22 C U1
cmpult r8, r7, r28
ldq r2, 16(r17)
subq r8, r7, r8
addq r23, r28, r28
stq r8, 16(r16)
mulq r3, r19, r7 C U1
subq r8, r28, r8
L(L0): umulh r3, r19, r23 C U1
cmpult r8, r4, r28
ldq r3, 24(r17)
subq r8, r4, r8
addq r20, r28, r28
stq r8, 24(r16)
lda r18, -4(r18)
lda r17, 32(r17)
lda r16, 32(r16)
bgt r18, L(top)
C *** MAIN LOOP END ***
mulq r0, r19, r4 C U1
subq r8, r28, r8
L(cj7): umulh r0, r19, r20 C U1
cmpult r8, r5, r28
subq r8, r5, r8
addq r21, r28, r28
stq r8, 0(r16)
mulq r1, r19, r5 C U1
subq r8, r28, r8
L(cj6): umulh r1, r19, r21 C U1
cmpult r8, r6, r28
subq r8, r6, r8
addq r22, r28, r28
stq r8, 8(r16)
mulq r2, r19, r6 C U1
subq r8, r28, r8
L(cj5): umulh r2, r19, r22 C U1
cmpult r8, r7, r28
subq r8, r7, r8
addq r23, r28, r28
stq r8, 16(r16)
mulq r3, r19, r7 C U1
subq r8, r28, r8
L(cj4): umulh r3, r19, r23 C U1
cmpult r8, r4, r28
subq r8, r4, r8
addq r20, r28, r28
stq r8, 24(r16)
subq r8, r28, r8
L(cj3): cmpult r8, r5, r28
subq r8, r5, r8
addq r21, r28, r28
stq r8, 32(r16)
subq r8, r28, r8
L(cj2): cmpult r8, r6, r28
subq r8, r6, r8
addq r22, r28, r28
stq r8, 40(r16)
subq r8, r28, r8
L(cj1): cmpult r8, r7, r28
subq r8, r7, r8
addq r23, r28, r28
stq r8, 48(r16)
subq r8, r28, r0
ret r31, (r26), 1
EPILOGUE()
ASM_END()