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/*
* (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.
*/
/*
strcmp
Jerry Huck
Edgar Circenis
*/
/*
* strcmp(s1, s2)
*
* returns integer: < 0 iff s1 lexicographically less than s2
* > 0 iff s1 lexicographically greater than s2
* = 0 iff s1 lexicographically equal to s2
*/
#include "DEFS.h"
#define s1 26
#define s2 25
#define tmp1 19
#define s2word 20
#define tmp3 21
#define tmp7 22
#define s1word 23
#define save 1
#define tmp6 24
#define tmp5 28
ENTRY(strcmp)
comb,=,n s1,s2,samestring
comib,=,n 0,s1,s1isnull
comib,=,n 0,s2,s2isnull
/* Hope for word alignment. Pick up low two bits of each adress */
extru,<> s1,31,2,tmp1
ldwm 4(s1),s1word
dep,= s2,29,2,tmp1
b,n case_analysis
/* Start looping until null is found in s1 or they mis-compare */
loop:
ldwm 4(s2),s2word
loop_plus:
uxor,nbz s1word,r0,r0 /* Null in this? */
b,n nullins1
comb,=,n s1word,s2word,loop
ldwm 4(s1),s1word
/* The words do not compare equal and s1 does not have a null.
Need to treat words as unsigned and generate either a positive
or negative return value */
wordcomparereturn:
comclr,>> s1word,s2word,ret0 /*Set ret0 to 0 and skip if greater*/
ldi -2,ret0 /*Set ret0 to -2 when less */
bv r0(rp)
addi 1,ret0,ret0 /*Fix return value to be -1 or +1 */
/* s1 has a null. s2 has not been checked. */
nullins1:
/*If s2 has no nulls this is simple, but assume that it might
and fix up s1 to allow the word comparision to work by
scanning s1 and duplicating all the bytes in s2 below that byte into
the remainder of s1. A remainder only exists if the zero byte
is found in the upper three bytes */
extru,<> s1word,7,8,r0 /*in the first byte? */
dep,tr s2word,31,24,s1word /*copy low 3 bytes of *s2 into *s1 */
extru,<> s1word,15,8,r0 /*in the second byte? */
dep,tr s2word,31,16,s1word /*copy low 2 bytes of *s2 into *s1 */
extru,<> s1word,23,8,r0 /*in the third byte? */
dep s2word,31,8,s1word /*copy low 1 byte of *s2 into *s1 */
/* Do the normal unsigned compare and return */
comclr,<> s1word,s2word,ret0 /*Set ret0 to 0 and skip if not equal */
bv,n r0(rp)
comclr,>> s1word,s2word,ret0 /*Set ret0 to 0 and skip if greater*/
ldi -2,ret0 /*Set ret0 to -2 when less */
bv r0(rp)
addi 1,ret0,ret0 /*Fix return value to be -1 or +1 */
/* s1 and s2 are the same string and therefore equal */
samestring:
bv r0(rp)
copy r0,ret0
/* s1 is null. Treat as string of nulls. Therefore return
the negative of s2's first byte. s2 cannot be zero. */
s1isnull:
ldbs 0(0,s2),ret0
bv r0(rp)
sub 0,ret0,ret0
/* s2 is null. Treat as string of nulls. Therefore return
s1's first byte. s1 cannot be zero. */
s2isnull:
bv r0(rp)
ldbs 0(0,s1),ret0
case_analysis:
blr tmp1,r0
nop
/*
Case statement for non-aligned cases (we've already
checked the aligned case.
NOTE: for non-aligned cases, the absolute shift value
gets loaded into tmp3.
*/
/* S2 S1 */
nop /* 00 00 can't happen */
nop
b shifts2 /* 00 01 */
ldi 8,tmp3 /* load shift count (delay slot) */
b shifts2 /* 00 10 */
ldi 16,tmp3 /* load shift count (delay slot) */
b shifts2 /* 00 11 */
ldi 24,tmp3 /* load shift count (delay slot) */
b shifts1_0 /* 01 00 */
ldi 8,tmp3 /* load shift count (delay slot) */
b eq_align1 /* 01 01 */
ldbs,ma 1(s1),s1word
b shifts2 /* 01 10 */
ldi 8,tmp3 /* load shift count (delay slot) */
b shifts2 /* 01 11 */
ldi 16,tmp3 /* load shift count (delay slot) */
b shifts1_0 /* 10 00 */
ldi 16,tmp3 /* load shift count (delay slot) */
b shifts1 /* 10 01 */
ldi 8,tmp3 /* load shift count (delay slot) */
b eq_align2 /* 10 10 */
ldhs,ma 2(s1),s1word
b shifts2 /* 10 11 */
ldi 8,tmp3 /* load shift count (delay slot) */
b shifts1_0 /* 11 00 */
ldi 24,tmp3 /* load shift count (delay slot) */
b shifts1 /* 11 01 */
ldi 16,tmp3 /* load shift count (delay slot) */
b shifts1 /* 11 10 */
ldi 8,tmp3 /* load shift count (delay slot) */
ldbs,ma 1(s1),s1word /* 11 11 */
ldbs,ma 1(s2),s2word
sub,= s1word,s2word,ret0 /* if not equal, we can return now */
bv,n r0(rp)
comclr,<> s1word,r0,ret0
bv,n r0(rp)
b loop /* fall into main loop */
ldwm 4(s1),s1word
eq_align1:
ldbs,ma 1(s2),s2word
sub,= s1word,s2word,ret0 /* if not equal, we can return now */
bv,n r0(rp)
comclr,<> s1word,r0,ret0
bv,n r0(rp)
/* fall through to half-word aligned case */
ldhs,ma 2(s1),s1word /* load next halfword */
eq_align2:
ldhs,ma 2(s2),s2word /* load next halfword */
/* form the mask: 0xffff0000 and mask leading nulls in s1word and s2word
so that we can fall into the main loop with word aligned data */
ldi 16,save
mtctl save,r11
zvdepi -2,32,save
or save,s1word,s1word
b loop_plus /* fall into main loop */
or save,s2word,s2word
/* s2's alignment is greater than s1's alignment, so we will shift s1 */
shifts1_0:
addi -4,s1,s1 /* fix up s1 due to earlier read */
shifts1:
extru s1,31,2,tmp1
extru s2,31,2,tmp5
dep r0,31,2,s1 /* Compute word address of s1 */
dep r0,31,2,s2 /* Compute word address of s2 */
ldwm 4(s1),s1word /* get first word of s1 */
ldwm 4(s2),s2word /* get first word of s2 */
combt,=,n r0,tmp1,masks2 /* Do we need to mask beginning of s1 */
sh3add tmp1,r0,save /* save now has number of bits to mask */
mtctl save,r11
zvdepi -2,32,save /* load save with proper mask */
or save,s1word,s1word
masks2:
sh3add tmp5,r0,save /* save now has number of bits to mask */
mtctl save,r11
zvdepi -2,32,save /* load save with proper mask */
or save,s2word,s2word
ldi -1,tmp7 /* load tmp7 with 0xffffffff */
mtctl tmp3,r11 /* Move shift amount to CR11 */
more: uxor,nbz s1word,r0,r0 /* Is there a null in s1? */
b ends1
vshd tmp7,s1word,save
combf,=,n save,s2word,cmps1
ldwm 4(s1),tmp7
ldwm 4(s2),s2word
uxor,nbz tmp7,r0,r0 /* is there a null in s1? */
b ends1_0
vshd s1word,tmp7,save
combf,=,n save,s2word,cmps1
ldwm 4(s1),s1word
b more
ldwm 4(s2),s2word
cmps1: movb,tr save,s1word,wordcomparereturn
nop
ends1_0:
copy tmp7,s1word /* move tmp7 to s1word */
ends1:
combf,=,n save,s2word,nullins1 /* branch if no match */
copy save,s1word /* delay slot */
/* At this point, we know that we've read a null */
/* from s1, so we can't read more from s1 */
uxor,nbz save,r0,r0 /* are the strings equal? */
b,n samestring
vshd s1word,r0,s1word
b nullins1
ldwm 4(s2),s2word
/* s1's alignment is greater than s2's alignment, so we will shift s2 */
shifts2:
extru s1,31,2,tmp1
extru s2,31,2,tmp5
dep r0,31,2,s1 /* Compute word address of s1 */
dep r0,31,2,s2 /* Compute word address of s2 */
ldwm 4(s2),s2word /* get first word of s2 */
ldwm 4(s1),s1word /* get first word of s1 */
combt,=,n r0,tmp5,masks1 /* Do we need to mask beginning of s2 */
sh3add tmp5,r0,save /* save now has number of bits to mask */
mtctl save,r11
zvdepi -2,32,save /* load save with proper mask */
or save,s2word,s2word
masks1:
sh3add tmp1,r0,save /* save now has number of bits to mask */
mtctl save,r11
zvdepi -2,32,save /* load save with proper mask */
or save,s1word,s1word
ldi -1,tmp7 /* load tmp7 with 0xffffffff */
mtctl tmp3,r11 /* Move shift amount to CR11 */
more1: uxor,nbz s2word,r0,r0 /* is there a null in s2? */
b ends2
vshd tmp7,s2word,save
combf,=,n s1word,save,cmps2
ldwm 4(s2),tmp7
ldwm 4(s1),s1word
uxor,nbz tmp7,r0,r0 /* is there a null in s2? */
b ends2_0
vshd s2word,tmp7,save
combf,=,n s1word,save,cmps2
ldwm 4(s2),s2word
b more1
ldwm 4(s1),s1word
cmps2: movb,tr save,s2word,wordcomparereturn
nop
ends2_0:
copy tmp7,s2word /* move tmp7 to s2word */
ends2:
combf,=,n s1word,save,nullins1 /* branch if no match */
copy save,s2word /* delay slot */
/* At this point, we know that we've read a null */
/* from s2, so we can't read more from s2 */
uxor,nbz save,r0,r0 /* are the strings equal? */
b,n samestring
vshd s2word,r0,s2word
b nullins1
ldwm 4(s1),s1word
EXIT(strcmp)