dnl PowerPC-64 mpn_divrem_1 -- Divide an mpn number by an unnormalized limb.
dnl Copyright 2003-2005, 2007, 2008, 2010, 2012 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 norm unorm frac
C POWER3/PPC630 16-34 16-34 ~11 outdated figures
C POWER4/PPC970 28 28 19
C POWER5 29 29 ~19
C POWER6 49 59 ~42
C POWER7 24.5 23 ~14
C INPUT PARAMETERS
C qp = r3
C fn = r4
C up = r5
C un = r6
C d = r7
C We use a not very predictable branch in the frac code, therefore the cycle
C count wobbles somewhat. With the alternative branch-free code, things run
C considerably slower on POWER4/PPC970 and POWER5.
C Add preinv entry point.
ASM_START()
EXTERN_FUNC(mpn_invert_limb)
PROLOGUE(mpn_divrem_1,toc)
mfcr r12
add. r10, r6, r4
std r25, -56(r1)
mr r25, r4
mflr r0
std r26, -48(r1)
mr r26, r5
std r28, -32(r1)
mr r28, r6
std r29, -24(r1)
mr r29, r3
li r3, 0
std r30, -16(r1)
mr r30, r7
std r31, -8(r1)
li r31, 0
std r27, -40(r1)
std r0, 16(r1)
stw r12, 8(r1)
stdu r1, -176(r1)
beq- cr0, L(1)
cmpdi cr7, r7, 0
sldi r0, r10, 3
add r11, r0, r29
addi r29, r11, -8
blt- cr7, L(162)
cmpdi cr4, r6, 0
beq+ cr4, L(71)
L(163):
sldi r9, r6, 3
add r9, r9, r5
ld r7, -8(r9)
cmpld cr7, r7, r30
bge- cr7, L(71)
cmpdi cr7, r10, 1
li r0, 0
mr r31, r7
std r0, -8(r11)
addi r29, r29, -8
mr r3, r7
beq- cr7, L(1)
addi r28, r6, -1
cmpdi cr4, r28, 0
L(71):
cntlzd r27, r30
sld r30, r30, r27
sld r31, r31, r27
mr r3, r30
CALL( mpn_invert_limb)
beq- cr4, L(110)
sldi r9, r28, 3
addic. r6, r28, -2
add r9, r9, r26
subfic r5, r27, 64
ld r8, -8(r9)
srd r0, r8, r5
or r31, r31, r0
sld r7, r8, r27
blt- cr0, L(154)
addi r28, r28, -1
mtctr r28
sldi r6, r6, 3
ALIGN(16)
L(uloop):
ldx r8, r26, r6
nop
mulld r0, r31, r3
mulhdu r10, r31, r3
addi r11, r31, 1
srd r9, r8, r5
addi r6, r6, -8
or r9, r7, r9
addc r0, r0, r9
adde r10, r10, r11
mulld r31, r10, r30
subf r31, r31, r9
subfc r0, r31, r0 C r <= ql
subfe r0, r0, r0 C r0 = -(r <= ql)
and r9, r30, r0
add r31, r31, r9
add r10, r0, r10 C qh -= (r >= ql)
cmpld cr7, r31, r30
bge- cr7, L(164)
L(123):
std r10, 0(r29)
addi r29, r29, -8
sld r7, r8, r27
bdnz L(uloop)
L(154):
addi r11, r31, 1
nop
mulld r0, r31, r3
mulhdu r8, r31, r3
addc r0, r0, r7
adde r8, r8, r11
mulld r31, r8, r30
subf r31, r31, r7
subfc r0, r0, r31 C r >= ql
subfe r0, r0, r0 C r0 = -(r >= ql)
not r7, r0
add r8, r7, r8 C qh -= (r >= ql)
andc r0, r30, r0
add r31, r31, r0
cmpld cr7, r31, r30
bge- cr7, L(165)
L(134):
std r8, 0(r29)
addi r29, r29, -8
L(110):
addic. r0, r25, -1
blt- cr0, L(156)
mtctr r25
neg r9, r30
ALIGN(16)
L(ufloop):
addi r11, r31, 1
nop
mulld r0, r3, r31
mulhdu r10, r3, r31
add r10, r10, r11
mulld r31, r9, r10
ifelse(0,1,`
subfc r0, r0, r31
subfe r0, r0, r0 C r0 = -(r >= ql)
not r7, r0
add r10, r7, r10 C qh -= (r >= ql)
andc r0, r30, r0
add r31, r31, r0
',`
cmpld cr7, r31, r0
blt cr7, L(29)
add r31, r30, r31
addi r10, r10, -1
L(29):
')
std r10, 0(r29)
addi r29, r29, -8
bdnz L(ufloop)
L(156):
srd r3, r31, r27
L(1):
addi r1, r1, 176
ld r0, 16(r1)
lwz r12, 8(r1)
mtlr r0
ld r25, -56(r1)
ld r26, -48(r1)
mtcrf 8, r12
ld r27, -40(r1)
ld r28, -32(r1)
ld r29, -24(r1)
ld r30, -16(r1)
ld r31, -8(r1)
blr
L(162):
cmpdi cr7, r6, 0
beq- cr7, L(8)
sldi r9, r6, 3
addi r29, r29, -8
add r9, r9, r5
addi r28, r6, -1
ld r31, -8(r9)
subfc r9, r7, r31
li r9, 0
adde r9, r9, r9
neg r0, r9
std r9, -8(r11)
and r0, r0, r7
subf r31, r0, r31
L(8):
mr r3, r30
CALL( mpn_invert_limb)
li r27, 0
addic. r6, r28, -1
blt- cr0, L(110)
mtctr r28
sldi r6, r6, 3
ALIGN(16)
L(nloop):
addi r11, r31, 1
ldx r8, r26, r6
mulld r0, r31, r3
mulhdu r10, r31, r3
addi r6, r6, -8
addc r0, r0, r8
adde r10, r10, r11
mulld r31, r10, r30
subf r31, r31, r8 C r = nl - qh * d
subfc r0, r31, r0 C r <= ql
subfe r0, r0, r0 C r0 = -(r <= ql)
and r9, r30, r0
add r31, r31, r9
add r10, r0, r10 C qh -= (r >= ql)
cmpld cr7, r31, r30
bge- cr7, L(167)
L(51):
std r10, 0(r29)
addi r29, r29, -8
bdnz L(nloop)
b L(110)
L(164):
subf r31, r30, r31
addi r10, r10, 1
b L(123)
L(167):
subf r31, r30, r31
addi r10, r10, 1
b L(51)
L(165):
subf r31, r30, r31
addi r8, r8, 1
b L(134)
EPILOGUE()