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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.

 */

/*

        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)