NetBSD/gnu/dist/gcc/config/pa/ee.asm

262 lines
5.7 KiB
NASM

; Subroutines for out of line prologues and epilogues on for the HPPA
; Copyright (C) 1994, 1995, 1996 Free Software Foundation, Inc.
; This file is part of GNU CC.
; GNU CC is free software; you can redistribute it and/or modify
; it under the terms of the GNU General Public License as published by
; the Free Software Foundation; either version 2, or (at your option)
; any later version.
; GNU CC 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 General Public License for more details.
; You should have received a copy of the GNU General Public License
; along with GNU CC; see the file COPYING. If not, write to
; the Free Software Foundation, 59 Temple Place - Suite 330,
; Boston, MA 02111-1307, USA.
.SPACE $PRIVATE$
.SUBSPA $DATA$,QUAD=1,ALIGN=8,ACCESS=31
.SUBSPA $BSS$,QUAD=1,ALIGN=8,ACCESS=31,ZERO,SORT=82
.SPACE $TEXT$
.SUBSPA $LIT$,QUAD=0,ALIGN=8,ACCESS=44
.SUBSPA $CODE$,QUAD=0,ALIGN=8,ACCESS=44,CODE_ONLY
.SUBSPA $MILLICODE$,QUAD=0,ALIGN=8,ACCESS=44,SORT=8
; This is an out-of-line prologue.
;
; It performs the following operations:
;
; * Saves the return pointer at sp - 20
;
; * Creates a new stack frame (sp'), size of the frame is passed in %r21
;
; * The old stack pointer is saved at sp (frame pointer version only).
;
; * Saves grs (passed in low 16 bits of %r22 into the stack frame
; at sp' + local_fsize (passed in %r19).
;
; * Saves frs (passed in high 16 bits of %r22) into the stack
; frame at sp' + local_fsize (passed in %r19).
;
; * Sets up a frame pointer (in %r3) (frame pointer version only).
;
; * Returns to the instruction _immediately_ after the call to
; this function.
.SPACE $TEXT$
.SUBSPA $MILLICODE$
.EXPORT __outline_prologue,MILLICODE
.align 32
__outline_prologue
.PROC
.CALLINFO FRAME=0,NO_CALLS
.ENTRY
copy %r30,%r20
; Subtract 4 from our return pointer so that we return to
; the right location.
ldo -4(%r31),%r31
; Save off %r2
stw %r2,-20(0,%r30)
; Make our new frame.
add %r21,%r30,%r30
; Add in local_fsize to our frame pointer so we do register
; saves into the right place
add %r20,%r19,%r20
; %r22 tells us what registers we need to save. The upper half
; is for fp registers, the lower half for integer registers.
; We put the lower half in %r1 and the upper half into %r22
; for later use.
extru %r22,31,16,%r1
extrs %r22,15,16,%r22
; %r1 now olds a value 0-18 which corresponds to the number
; of grs we need to save. We need to reverse that value so
; we can just into the table and straight-line execute to the
; end of the gr saves.
comb,= %r0,%r1,L$0000
subi 18,%r1,%r1
blr,n %r1,%r0
b,n L$0000
stws,ma %r18,4(0,%r20)
nop
stws,ma %r17,4(0,%r20)
nop
stws,ma %r16,4(0,%r20)
nop
stws,ma %r15,4(0,%r20)
nop
stws,ma %r14,4(0,%r20)
nop
stws,ma %r13,4(0,%r20)
nop
stws,ma %r12,4(0,%r20)
nop
stws,ma %r11,4(0,%r20)
nop
stws,ma %r10,4(0,%r20)
nop
stws,ma %r9,4(0,%r20)
nop
stws,ma %r8,4(0,%r20)
nop
stws,ma %r7,4(0,%r20)
nop
stws,ma %r6,4(0,%r20)
nop
stws,ma %r5,4(0,%r20)
nop
stws,ma %r4,4(0,%r20)
nop
stws,ma %r3,4(0,%r20)
nop
L$0000
; All gr saves are done. Align the temporary frame pointer and
; do the fr saves.
ldo 7(%r20),%r20
depi 0,31,3,%r20
comb,= %r0,%r22,L$0001
subi 21,%r22,%r22
blr,n %r22,%r0
b,n L$0001
fstws,ma %fr21,8(0,%r20)
nop
fstws,ma %fr20,8(0,%r20)
nop
fstws,ma %fr19,8(0,%r20)
nop
fstws,ma %fr18,8(0,%r20)
nop
fstws,ma %fr17,8(0,%r20)
nop
fstws,ma %fr16,8(0,%r20)
nop
fstws,ma %fr15,8(0,%r20)
nop
fstws,ma %fr14,8(0,%r20)
nop
fstws,ma %fr13,8(0,%r20)
nop
fstws,ma %fr12,8(0,%r20)
nop
L$0001
; Return
bv,n 0(%r31)
.EXIT
.PROCEND
.EXPORT __outline_epilogue,MILLICODE
.align 32
__outline_epilogue
.PROC
.CALLINFO FRAME=0,NO_CALLS
.ENTRY
; Get our original stack pointer and put it in %r20
sub %r30,%r21,%r20
; Subtract 4 from our return pointer so that we return to
; the right location.
ldo -4(%r31),%r31
; Reload %r2
ldw -20(0,%r20),%r2
; Add in local_fsize (%r19) to the frame pointer to find
; the saved registers.
add %r20,%r19,%r20
; %r22 tells us what registers we need to restore. The upper half
; is for fp registers, the lower half for integer registers.
; We put the lower half in %r1 and the upper half into %r22
; for later use.
extru %r22,31,16,%r1
extrs %r22,15,16,%r22
; %r1 now olds a value 0-18 which corresponds to the number
; of grs we need to restore. We need to reverse that value so
; we can just into the table and straight-line execute to the
; end of the gr restore.
comb,= %r0,%r1,L$0004
subi 18,%r1,%r1
blr,n %r1,%r0
b,n L$0004
ldws,ma 4(0,%r20),%r18
nop
ldws,ma 4(0,%r20),%r17
nop
ldws,ma 4(0,%r20),%r16
nop
ldws,ma 4(0,%r20),%r15
nop
ldws,ma 4(0,%r20),%r14
nop
ldws,ma 4(0,%r20),%r13
nop
ldws,ma 4(0,%r20),%r12
nop
ldws,ma 4(0,%r20),%r11
nop
ldws,ma 4(0,%r20),%r10
nop
ldws,ma 4(0,%r20),%r9
nop
ldws,ma 4(0,%r20),%r8
nop
ldws,ma 4(0,%r20),%r7
nop
ldws,ma 4(0,%r20),%r6
nop
ldws,ma 4(0,%r20),%r5
nop
ldws,ma 4(0,%r20),%r4
nop
ldws,ma 4(0,%r20),%r3
nop
L$0004
; All gr restore are done. Align the temporary frame pointer and
; do the fr restore.
ldo 7(%r20),%r20
depi 0,31,3,%r20
comb,= %r0,%r22,L$0005
subi 21,%r22,%r22
blr,n %r22,%r0
b,n L$0005
fldws,ma 8(0,%r20),%fr21
nop
fldws,ma 8(0,%r20),%fr20
nop
fldws,ma 8(0,%r20),%fr19
nop
fldws,ma 8(0,%r20),%fr18
nop
fldws,ma 8(0,%r20),%fr17
nop
fldws,ma 8(0,%r20),%fr16
nop
fldws,ma 8(0,%r20),%fr15
nop
fldws,ma 8(0,%r20),%fr14
nop
fldws,ma 8(0,%r20),%fr13
nop
fldws,ma 8(0,%r20),%fr12
nop
L$0005
; Return and deallocate our frame.
bv 0(%r31)
sub %r30,%r21,%r30
.EXIT
.PROCEND