Retro68/gcc/newlib/libc/machine/hppa/strcpy.S

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2017-04-11 21:13:36 +00:00
/*
* (c) Copyright 1986 HEWLETT-PACKARD COMPANY
*
* To anyone who acknowledges that this file is provided "AS IS"
* without any express or implied warranty:
* permission to use, copy, modify, and distribute this file
* for any purpose is hereby granted without fee, provided that
* the above copyright notice and this notice appears in all
* copies, and that the name of Hewlett-Packard Company not be
* used in advertising or publicity pertaining to distribution
* of the software without specific, written prior permission.
* Hewlett-Packard Company makes no representations about the
* suitability of this software for any purpose.
*/
/*
A faster strcpy.
by
Jerry Huck (aligned case)
Daryl Odnert (equal-alignment case)
Edgar Circenis (non-aligned case)
*/
/*
* strcpy(s1, s2)
*
* Copy string s2 to s1. s1 must be large enough.
* return s1
*/
#include "DEFS.h"
#define d_addr r26
#define s_addr r25
#define tmp6 r24
#define tmp1 r19
#define evenside r19
#define tmp2 r20
#define oddside r20
#define tmp3 r21
#define tmp4 r22
#define tmp5 arg3
#define save r1
ENTRY(strcpy)
/* Do some quick alignment checking on and fast path both word aligned */
extru,<> s_addr,31,2,tmp6 /*Is source word aligned? */
ldwm 4(0,s_addr),oddside /*Assume yes and guess that it
is double-word aligned. */
dep,= d_addr,29,2,tmp6 /*Is target word aligned? */
b case_analysis
copy d_addr,ret0
/* Both are aligned. First source word already loaded assuming that
source was oddword aligned. Fall through (therefore fastest) code
shuffles the registers to join the main loop */
bothaligned:
bb,>= s_addr,29,twoatatime /*Branch if source was odd aligned*/
uxor,nbz oddside,r0,save
/* Even aligned source. save holds that operand.
Do one iteration of the main copy loop juggling the registers to avoid
one copy. */
b,n nullfound
ldwm 4(s_addr),oddside
stwm save,4(d_addr)
uxor,nbz oddside,r0,save
b,n nullfound
ldwm 4(s_addr),evenside
stwm oddside,4(d_addr)
uxor,nbz evenside,r0,save
b,n nullfound
ldwm 4(s_addr),oddside
/* Main loop body. Entry expects evenside still to be stored, oddside
just loaded. */
loop:
stwm evenside,4(d_addr)
uxor,nbz oddside,r0,save
/* mid loop entry */
twoatatime:
b,n nullfound
ldwm 4(s_addr),evenside
stwm oddside,4(d_addr)
uxor,sbz evenside,r0,save
b loop
ldwm 4(s_addr),oddside
/* fall through when null found in evenside. oddside actually loaded */
nullfound: /* adjust d_addr and store final word */
extru,<> save,7,8,r0 /* pick up leftmost byte */
addib,tr,n 1,d_addr,store_final
extru,<> save,15,8,r0
addib,tr,n 2,d_addr,store_final
extru,<> save,23,8,r0
addib,tr 3,d_addr,store_final2
bv 0(rp)
stw save,0(d_addr)
store_final:
bv 0(rp)
store_final2:
stbys,e save,0(d_addr) /* delay slot */
case_analysis:
blr tmp6,r0
nop
/* NOTE: the delay slots for the non-aligned cases load a */
/* shift quantity which is TGT-SRC into tmp3. */
/* Note also, the case for both strings being word aligned */
/* is already checked before the BLR is executed, so that */
/* case can never occur. */
/* TGT SRC */
nop /* 00 00 can't happen */
nop
b neg_aligned_copy /* 00 01 */
ldi -1,tmp3 /* load shift quantity. delay slot */
b neg_aligned_copy /* 00 10 */
ldi -2,tmp3 /* load shift quantity. delay slot */
b neg_aligned_copy /* 00 11 */
ldi -3,tmp3 /* load shift quantity. delay slot */
b pos_aligned_copy0 /* 01 00 */
ldi 1,tmp3 /* load shift quantity. delay slot */
b equal_alignment_1 /* 01 01 */
ldbs,ma 1(s_addr),tmp1
b neg_aligned_copy /* 01 10 */
ldi -1,tmp3 /* load shift quantity. delay slot */
b neg_aligned_copy /* 01 11 */
ldi -2,tmp3 /* load shift quantity. delay slot */
b pos_aligned_copy0 /* 10 00 */
ldi 2,tmp3 /* load shift quantity. delay slot */
b pos_aligned_copy /* 10 01 */
ldi 1,tmp3 /* load shift quantity. delay slot */
b equal_alignment_2 /* 10 10 */
ldhs,ma 2(s_addr),tmp1
b neg_aligned_copy /* 10 11 */
ldi -1,tmp3 /* load shift quantity. delay slot */
b pos_aligned_copy0 /* 11 00 */
ldi 3,tmp3 /* load shift quantity. delay slot */
b pos_aligned_copy /* 11 01 */
ldi 2,tmp3 /* load shift quantity. delay slot */
b pos_aligned_copy /* 11 10 */
ldi 1,tmp3 /* load shift quantity. delay slot */
ldbs,ma 1(s_addr),tmp1 /* 11 11 */
comiclr,<> r0,tmp1,r0
bv 0(rp) /* return if 1st byte was null */
stbs,ma tmp1,1(d_addr) /* store a byte to dst string */
b bothaligned /* can now goto word_aligned */
ldwm 4(s_addr),oddside /* load next word of source */
equal_alignment_1:
comiclr,<> r0,tmp1,r0 /* nullify next if tmp1 <> 0 */
bv 0(rp) /* return if null byte found */
stbs,ma tmp1,1(d_addr) /* store a byte to dst string */
ldhs,ma 2(s_addr),tmp1 /* load next halfword */
equal_alignment_2:
extru,<> tmp1,23,8,tmp6 /* look at left byte of halfword */
bv 0(rp) /* return if 1st byte was null */
stbs,ma tmp6,1(d_addr)
extru,<> tmp1,31,8,r0
bv 0(rp) /* return if 2nd byte was null */
stbs,ma tmp1,1(d_addr)
b bothaligned
ldwm 4(s_addr),oddside /* load next word */
/* source and destination are not aligned, so we do it the hard way. */
/* target alignment is greater than source alignment */
pos_aligned_copy0:
addi -4,s_addr,s_addr
pos_aligned_copy:
extru d_addr,31,2,tmp6 /* Extract low 2 bits of the dest addr */
extru s_addr,31,2,tmp1 /* Extract low 2 bits of the src addr */
dep r0,31,2,s_addr /* Compute word address of the source. */
sh3add tmp3,r0,tmp4 /* compute shift amt */
ldwm 4(0,s_addr),tmp2 /* get 1st source word */
sh3add tmp1,r0,save /* setup mask shift amount */
mtctl save,r11 /* set-up cr11 for mask */
zvdepi -2,32,save /* create mask */
or save,tmp2,tmp2 /* mask unused bytes in src */
ldi -1,tmp1 /* load tmp1 with 0xffffffff */
mtctl tmp4,r11 /* shift count -> shift count reg */
vshd tmp1,tmp2,tmp3 /* position data ! */
uxor,nbz tmp3,r0,save
b,n first_null
uxor,nbz tmp2,r0,save
b nullfound1
mtctl tmp4,r11 /* re-load shift cnt (delay slot) */
b loop_entry
ldwm 4(0,s_addr),tmp1 /* get next word. delay slot */
neg_aligned_copy:
extru d_addr,31,2,tmp6 /* Extract low 2 bits of the dest addr */
extru s_addr,31,2,tmp2 /* Extract low 2 bits of the src addr */
dep r0,31,2,s_addr /* Compute word address of the source. */
sh3add tmp3,r0,tmp4 /* compute shift amt */
ldwm 4(0,s_addr),tmp1 /* load first word from source. */
/* check to see if next word can be read safely */
sh3add tmp2,r0,save
mtctl save,r11 /* shift count -> shift count reg */
zvdepi -2,32,save
or save, tmp1, tmp1
uxor,nbz tmp1,r0,save /* any nulls in first word? */
b first_null0
mtctl tmp4,r11
ldwm 4(0,s_addr),tmp2 /* load second word from source */
combt,= tmp6,r0,chunk1 /* don't mask if whole word valid */
vshd tmp1,tmp2,tmp3 /* position data ! */
sh3add tmp6,r0,save /* setup r1 */
mtctl save,r11 /* set-up cr11 for mask */
zvdepi -2,32,save
or save, tmp3, tmp3
uxor,nbz tmp3,r0,save
b,n first_null
uxor,nbz tmp2,r0,save
b nullfound1
mtctl tmp4,r11 /* re-load shift cnt (delay slot) */
b loop_entry
ldwm 4(0,s_addr),tmp1 /* get next word. delay slot */
chunk1:
uxor,nbz tmp2,r0,save
b nullfound0
vshd tmp1,tmp2,tmp3
did_mask:
ldwm 4(0,s_addr),tmp1 /* get next word ! */
loop_entry:
stbys,b,m tmp3,4(0,d_addr) /* store ! */
uxor,nbz tmp1, r0, save
b nullfound2
vshd tmp2,tmp1,tmp3 /* position data ! */
ldwm 4(s_addr),tmp2
stwm tmp3,4(d_addr)
uxor,sbz tmp2,r0,save
b did_mask
nullfound0:
vshd tmp1,tmp2,tmp3 /* delay slot */
uxor,nbz tmp3,r0,save
b,n nullfound
nullfound1:
stbys,b,m tmp3,4(0,d_addr)
b nullfound
vshd tmp2,r0,save /* delay slot */
nullfound2:
uxor,nbz tmp3,r0,save
b,n nullfound
stwm tmp3,4(d_addr)
b nullfound
/* notice that delay slot is in next routine */
first_null0: /* null found in first word of non-aligned (wrt d_addr) */
vshd tmp1,r0,save /* delay slot */
combt,= tmp6,r0,check4
extru save,7,8,tmp4
first_null:
addibt,= -1,tmp6,check3 /* check last 3 bytes of word */
extru save,15,8,tmp4
addibt,=,n -1,tmp6,check2 /* check last 2 bytes */
bv 0(rp) /* null in last byte--store and exit */
stbys,b save, 0(d_addr)
check4:
combt,= tmp4,r0,done
stbs,ma tmp4,1(d_addr)
extru,<> save,15,8,tmp4
check3:
combt,= tmp4,r0,done
stbs,ma tmp4,1(d_addr)
check2:
extru,<> save,23,8,tmp4
bv 0(rp)
stbs,ma tmp4,1(d_addr)
bv 0(rp)
stbs r0,0(d_addr)
done:
EXIT(strcpy)