; HP-PA-1.1 __gmpn_mul_1 -- Multiply a limb vector with a limb and store
; the result in a second limb vector.

; Copyright (C) 1992, 1993, 1994, 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 Lesser General Public License as published by
; the Free Software Foundation; either version 2.1 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 Lesser General Public
; License for more details.

; You should have received a copy of the GNU Lesser 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
; res_ptr	r26
; s1_ptr	r25
; size		r24
; s2_limb	r23

; This runs at 9 cycles/limb on a PA7000.  With the used instructions, it can
; not become faster due to data cache contention after a store.  On the
; PA7100 it runs at 7 cycles/limb, and that can not be improved either, since
; only the xmpyu does not need the integer pipeline, so the only dual-issue
; we will get are addc+xmpyu.  Unrolling would not help either CPU.

; We could use fldds to read two limbs at a time from the S1 array, and that
; could bring down the times to 8.5 and 6.5 cycles/limb for the PA7000 and
; PA7100, respectively.  We don't do that since it does not seem worth the
; (alignment) troubles...

; At least the PA7100 is rumored to be able to deal with cache-misses
; without stalling instruction issue.  If this is true, and the cache is
; actually also lockup-free, we should use a deeper software pipeline, and
; load from S1 very early!  (The loads and stores to -12(sp) will surely be
; in the cache.)

	.code
	.export		__gmpn_mul_1
__gmpn_mul_1
	.proc
	.callinfo	frame=64,no_calls
	.entry

	ldo		64(%r30),%r30
	fldws,ma	4(%r25),%fr5
	stw		%r23,-16(%r30)		; move s2_limb ...
	addib,=		-1,%r24,L$just_one_limb
	 fldws		-16(%r30),%fr4		; ... into fr4
	add		%r0,%r0,%r0		; clear carry
	xmpyu		%fr4,%fr5,%fr6
	fldws,ma	4(%r25),%fr7
	fstds	 	%fr6,-16(%r30)
	xmpyu		%fr4,%fr7,%fr8
	ldw		-12(%r30),%r19		; least significant limb in product
	ldw		-16(%r30),%r28

	fstds		%fr8,-16(%r30)
	addib,=		-1,%r24,L$end
	 ldw		-12(%r30),%r1

; Main loop
L$loop	fldws,ma	4(%r25),%fr5
	stws,ma		%r19,4(%r26)
	addc		%r28,%r1,%r19
	xmpyu		%fr4,%fr5,%fr6
	ldw		-16(%r30),%r28
	fstds		%fr6,-16(%r30)
	addib,<>	-1,%r24,L$loop
	 ldw		-12(%r30),%r1

L$end	stws,ma		%r19,4(%r26)
	addc		%r28,%r1,%r19
	ldw		-16(%r30),%r28
	stws,ma		%r19,4(%r26)
	addc		%r0,%r28,%r28
	bv		0(%r2)
	 ldo		-64(%r30),%r30

L$just_one_limb
	xmpyu		%fr4,%fr5,%fr6
	fstds		%fr6,-16(%r30)
	ldw		-16(%r30),%r28
	ldo		-64(%r30),%r30
	bv		0(%r2)
	 fstws		%fr6R,0(%r26)

	.exit
	.procend