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[/] [or1k/] [trunk/] [newlib/] [newlib/] [libc/] [machine/] [hppa/] [memcmp.S] - Rev 39

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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.
 */

/* memcmp(s1, s2, n) */
/* returns integer: < 0 iff s1 lexicographically less than s2 */
/*                  > 0 iff s1 lexicographically greater than s2 */
/*                  = 0 iff s1 lexicographically equal to s2 */
/*                  = 0 iff s1 lexicographically equal to s2 */
/*                  quit after n charachters */
#ifndef _NAMESPACE_CLEAN
#define NOSECDEF   /* prevents _memcmp from becoming primary entry */
#endif

#include "DEFS.h"

#define s1 26
#define s2 25
#define tmp1 19
#define s2word 20
#define tmp3 21
#define tmp7 22
#define s1word 29
#define save 1
#define tmp6 23
#define tmp5 28
#define count 24

ENTRY(memcmp)
        combt,<,n       r0,count,search /*N <= 0 yields equality */
        b       done                    /**/
        copy    0,ret0                  /*return 0 (DELAY SLOT) */
search: combf,=,n       s1,s2,findout   /*s1 != s2? */
        b       done
        copy    0,ret0                  /*return 0 (delay slot)          */
findout:
        comibf,=,n      0,s1,checks1    /*s1 == NULL?    */
        ldbs    0(0,s2),ret0            /**/
        b       done                    /*quit   */
        sub     0,ret0,ret0             /*ret0 <- -*s2 */
checks1:
        comibf,=,n      0,s2,checkitout /*s2 == NULL?    */
        b       done                    /* quit  */
        ldbs    0(0,s1),28              /* return *s1 */

checkitout:
        extru   s2,31,2,tmp1            /* Extract the low two bits of the s2. */
        extru   s1,31,2,tmp5            /* Extract the low two bits of the s1 */
        sub,=   tmp5,tmp1,tmp3          /* Are s1 & s2 aligned with each other? */
        b       not_aligned             /* It's more complicated (not_aligned) */
        dep     0,31,2,s1               /* Compute word address of s1 (DELAY SLOT) */
        dep     0,31,2,s2               /* Compute word address of s2 */
        ldwm    4(0,s1),s1word          /* get next s1 word  s1+=4 */
        combt,= tmp5,r0,skipmask        /* skip masking, if we can */
        ldwm    4(0,s2),s2word          /* get next s2 word  s2+=4 (DELAY SLOT) */
        add     tmp5,count,count        /* bump count by the number of bytes */
                                        /*  we are going to mask */
        sh3add  tmp5,r0,save            /* save now has number of bits to mask */
        mtctl   save,11
        zvdepi  -2,32,save              /* load save with proper mask */
        or      save,s1word,s1word      /* mask s1word (s1) */
        or      save,s2word,s2word      /* mask s2word (s2) */
        

skipmask:
        combt,=,n       s1word,s2word,checkN    /* We may be done */

checkbyte:
        extru   s1word,7,8,tmp3         /* get first byte (character) */
ckbyte2:        extru   s2word,7,8,tmp7         /* get first byte (character) */
        combf,= tmp3,tmp7,done          /* quit if first byte is not equal */
        sub     tmp3,tmp7,ret0          /* return difference (delay slot) */
        addibt,<=,n     -1,count,done   /* have we checked N chars? ret0 == 0 */
        extru   s1word,15,8,tmp3        /* get second byte (character) */
        extru   s2word,15,8,tmp7        /* get second byte (character)   */
        combf,= tmp3,tmp7,done          /* quit if second byte is not equal */
        sub     tmp3,tmp7,ret0          /* return difference (delay slot) */
        addibt,<=,n     -1,count,done   /* have we checked N chars? */
        extru   s1word,23,8,tmp3        /* get third byte (character) */
        extru   s2word,23,8,tmp7        /* get third byte (character)    */
        combf,= tmp3,tmp7,done          /* done if third byte is not equal */
        sub     tmp3,tmp7,ret0          /* return difference (delay slot) */
        addibt,<=,n     -1,count,done   /* have we checked N chars? */
        extru   s1word,31,8,tmp3        /* get last byte (character) */
        extru   s2word,31,8,tmp7        /* get last byte (character)     */
        b       done                    /* if we reach this point we know that */
        sub     tmp3,tmp7,ret0          /*  the last character in the word is */
                                        /*   where the  difference is, so return */
                                        /*    the difference and we're outta here */


checkN:
        addibt,<=,n     -4,count,zero   /* have we checked N chars? */
        ldwm    4(0,s2),s2word          /* get next s2 word  s2+=4 */
        b       skipmask                /* keep checking */
        ldwm    4(0,s1),s1word          /* get next s1 word  s1+=4 */


not_aligned:
        dep     r0,31,2,s2              /* Compute word address of s2 */
        combt,<,n       r0,tmp3,shifts1 /* Do we shift s1 or s2 */
        sh3add  tmp3,r0,tmp3            /* eight bits per byte so mul by 8 */
        ldwm    4(0,s1),s1word          /* get first word of s1 */
        ldwm    4(0,s2),s2word          /* get first word or s2 */
        combt,=,n       r0,tmp5,masks2  /* Do we need to mask beginning of s1 */
        add     tmp5,count,count        /* bump count by the number of bytes */
                                        /*  we are going to mask */
        sh3add  tmp5,r0,save            /* save now has number of bits to mask */
        mtctl   save,11
        zvdepi  -2,32,save              /* load save with proper mask */
        or      save,s1word,s1word      /**/
masks2: sh3add  tmp1,r0,save            /* save now has number of bits to mask */
        mtctl   save,11
        zvdepi  -2,32,save              /* load save with proper mask */
        or      save,s2word,s2word      /**/
        subi    4,tmp1,tmp1             /* tmp1 now has the number of byte that */
                                        /* are valid in s2word before the vshd */
        mtctl   tmp3,11                 /* Move shift amount to CR11 */
more:   combt,<=,n      count,tmp1,chunk1       /* Can we do the vshd? */
        ldwm    4(0,s2),tmp7            /* load second word to enable us to shift */
        vshd    s2word,tmp7,s2word      /**/
        combf,=,n       s1word,s2word,ckbyte2   /**/
        extru   s1word,7,8,tmp3         /* get first byte (DELAY SLOT) */
        addibt,<=,n     -4,count,zero   /* have we checked N chars? */
        copy    tmp7,s2word             /**/
        b       more                    /* keep checking */
        ldwm    4(0,s1),s1word          /* get next s1 (DELAY SLOT) */

chunk1:
        vshd    s2word,r0,s2word        /* do an arithmetic shift left to position data */
        b       ckbyte2                 /**/
        extru   s1word,7,8,tmp3         /**/


shifts1:
        sh3add  tmp3,r0,tmp3            /* eight bits per byte so mul by 8 */
        sub     r0,tmp3,tmp3            /* Get negative value for left shift */
        dep     r0,31,2,s2              /* Compute word address of s2 */
        ldwm    4(0,s2),s2word          /* get first word of s2 */
        ldwm    4(0,s1),s1word          /* get first word or s1 */
        combt,=,n       r0,tmp1,masks1  /*Do we need to mask beginning of s2 */
        add     tmp1,count,count        /*bump count by the number of bytes */
                                        /* we are going to mask */
        sh3add  tmp1,r0,save            /*save now has number of bits to mask */
        mtctl   save,11
        zvdepi  -2,32,save              /*load save with proper mask */
        or      save,s2word,s2word      /**/
masks1: sh3add  tmp5,r0,save            /*save now has number of bits to mask */
        mtctl   save,11
        zvdepi  -2,32,save              /*load save with proper mask */
        or      save,s1word,s1word      /**/
        subi    4,tmp5,tmp5             /*tmp5 now has the number of byte that */
                                        /*are valid in s1word before the vshd */
        mtctl   tmp3,11                 /*Move shift amount to CR11 */
more1:  combt,<=,n      count,tmp5,chunk2       /*Can we do the vshd? */
        ldwm    4(0,s1),tmp7            /*load second word to enable us to shift */
        vshd    s1word,tmp7,s1word      /**/
        combf,=,n       s2word,s1word,ckbyte2   /**/
        extru   s1word,7,8,tmp3         /*get first byte (DELAY SLOT) */
        addibt,<=,n     -4,count,zero   /*have we checked N chars? */
        copy    tmp7,s1word             /**/
        b       more1                   /*keep checking */
        ldwm    4(0,s2),s2word          /*get next s2 (DELAY SLOT) */

chunk2: 
        vshd    s1word,r0,s1word        /**/
        b       ckbyte2                 /**/
        extru   s1word,7,8,tmp3         /**/

zero:   copy    r0,ret0
done:
EXIT(memcmp)

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