Plan 9 from Bell Labs’s /usr/web/sources/contrib/gabidiaz/root/sys/src/cmd/perl/ext/Unicode/Normalize/Normalize.xs

Copyright © 2021 Plan 9 Foundation.
Distributed under the MIT License.
Download the Plan 9 distribution.



#include "EXTERN.h"
#include "perl.h"
#include "XSUB.h"

/* These 5 files are prepared by mkheader */
#include "unfcmb.h"
#include "unfcan.h"
#include "unfcpt.h"
#include "unfcmp.h"
#include "unfexc.h"

/* Perl 5.6.1 ? */
#ifndef uvuni_to_utf8
#define uvuni_to_utf8   uv_to_utf8
#endif /* uvuni_to_utf8 */ 

/* Perl 5.6.1 ? */
#ifndef utf8n_to_uvuni
#define utf8n_to_uvuni  utf8_to_uv
#endif /* utf8n_to_uvuni */ 

/* At present, char > 0x10ffff are unaffected without complaint, right? */
#define VALID_UTF_MAX    (0x10ffff)
#define OVER_UTF_MAX(uv) (VALID_UTF_MAX < (uv))

/* HANGUL_H */
#define Hangul_SBase  0xAC00
#define Hangul_SFinal 0xD7A3
#define Hangul_SCount  11172

#define Hangul_NCount    588

#define Hangul_LBase  0x1100
#define Hangul_LFinal 0x1112
#define Hangul_LCount     19

#define Hangul_VBase  0x1161
#define Hangul_VFinal 0x1175
#define Hangul_VCount     21

#define Hangul_TBase  0x11A7
#define Hangul_TFinal 0x11C2
#define Hangul_TCount     28

#define Hangul_IsS(u)  ((Hangul_SBase <= (u)) && ((u) <= Hangul_SFinal))
#define Hangul_IsN(u)  (((u) - Hangul_SBase) % Hangul_TCount == 0)
#define Hangul_IsLV(u) (Hangul_IsS(u) && Hangul_IsN(u))
#define Hangul_IsL(u)  ((Hangul_LBase <= (u)) && ((u) <= Hangul_LFinal))
#define Hangul_IsV(u)  ((Hangul_VBase <= (u)) && ((u) <= Hangul_VFinal))
#define Hangul_IsT(u)  ((Hangul_TBase  < (u)) && ((u) <= Hangul_TFinal))
/* HANGUL_H */

/* this is used for canonical ordering of combining characters (c.c.). */
typedef struct {
    U8 cc;	/* combining class */
    UV uv;	/* codepoint */
    STRLEN pos; /* position */
} UNF_cc;

int compare_cc(const void *a, const void *b)
{
    int ret_cc;
    ret_cc = (*(UNF_cc*)a).cc - (*(UNF_cc*)b).cc;
    if (ret_cc)
	return ret_cc;
    return (*(UNF_cc*)a).pos - (*(UNF_cc*)b).pos;
}

U8* dec_canonical (UV uv)
{
    U8 ***plane, **row;
    if (OVER_UTF_MAX(uv))
	return NULL;
    plane = (U8***)UNF_canon[uv >> 16];
    if (! plane)
	return NULL;
    row = plane[(uv >> 8) & 0xff];
    return row ? row[uv & 0xff] : NULL;
}

U8* dec_compat (UV uv)
{
    U8 ***plane, **row;
    if (OVER_UTF_MAX(uv))
	return NULL;
    plane = (U8***)UNF_compat[uv >> 16];
    if (! plane)
	return NULL;
    row = plane[(uv >> 8) & 0xff];
    return row ? row[uv & 0xff] : NULL;
}

UV composite_uv (UV uv, UV uv2)
{
    UNF_complist ***plane, **row, *cell, *i;

    if (! uv2 || OVER_UTF_MAX(uv) || OVER_UTF_MAX(uv2))
	return 0;

    if (Hangul_IsL(uv) && Hangul_IsV(uv2)) {
	uv  -= Hangul_LBase; /* lindex */
	uv2 -= Hangul_VBase; /* vindex */
	return(Hangul_SBase + (uv * Hangul_VCount + uv2) * Hangul_TCount);
    }
    if (Hangul_IsLV(uv) && Hangul_IsT(uv2)) {
	uv2 -= Hangul_TBase; /* tindex */
	return(uv + uv2);
    }
    plane = UNF_compos[uv >> 16];
    if (! plane)
	return 0;
    row = plane[(uv >> 8) & 0xff];
    if (! row)
	return 0;
    cell = row[uv & 0xff];
    if (! cell)
	return 0;
    for (i = cell; i->nextchar; i++) {
	if (uv2 == i->nextchar)
	    return i->composite;
    }
    return 0;
}

U8 getCombinClass (UV uv)
{
    U8 **plane, *row;
    if (OVER_UTF_MAX(uv))
	return 0;
    plane = (U8**)UNF_combin[uv >> 16];
    if (! plane)
	return 0;
    row = plane[(uv >> 8) & 0xff];
    return row ? row[uv & 0xff] : 0;
}

void sv_cat_decompHangul (SV* sv, UV uv)
{
    UV sindex, lindex, vindex, tindex;
    U8 *t, tmp[3 * UTF8_MAXLEN + 1];

    if (! Hangul_IsS(uv))
	return;

    sindex =  uv - Hangul_SBase;
    lindex =  sindex / Hangul_NCount;
    vindex = (sindex % Hangul_NCount) / Hangul_TCount;
    tindex =  sindex % Hangul_TCount;

    t = tmp;
    t = uvuni_to_utf8(t, (lindex + Hangul_LBase));
    t = uvuni_to_utf8(t, (vindex + Hangul_VBase));
    if (tindex)
	t = uvuni_to_utf8(t, (tindex + Hangul_TBase));
    *t = '\0';
    sv_catpvn(sv, (char *)tmp, strlen((char *)tmp));
}

MODULE = Unicode::Normalize	PACKAGE = Unicode::Normalize

SV*
decompose(arg, compat = &PL_sv_no)
    SV * arg
    SV * compat
  PROTOTYPE: $;$
  PREINIT:
    UV uv;
    SV *src, *dst;
    STRLEN srclen, retlen;
    U8 *s, *e, *p, *r;
    bool iscompat;
  CODE:
    if (SvUTF8(arg)) {
	src = arg;
    } else {
	src = sv_mortalcopy(arg);
	sv_utf8_upgrade(src);
    }
    iscompat = SvTRUE(compat);

    dst = newSV(1);
    (void)SvPOK_only(dst);
    SvUTF8_on(dst);

    s = (U8*)SvPV(src,srclen);
    e = s + srclen;
    for (p = s; p < e;) {
	uv = utf8n_to_uvuni(p, e - p, &retlen, 0);
	p += retlen;
	if (Hangul_IsS(uv))
	    sv_cat_decompHangul(dst, uv);
	else {
	    r = iscompat ? dec_compat(uv) : dec_canonical(uv);
	    if (r)
		sv_catpv(dst, (char *)r);
	    else
		sv_catpvn(dst, (char *)p - retlen, retlen);
	}
    }
    RETVAL = dst;
  OUTPUT:
    RETVAL



SV*
reorder(arg)
    SV * arg
  PROTOTYPE: $
  PREINIT:
    SV *src, *dst;
    STRLEN srclen, dstlen, retlen, stk_cc_max;
    U8 *s, *e, *p, *d, curCC;
    UV uv;
    UNF_cc * stk_cc;
  CODE:
    if (SvUTF8(arg)) {
	src = arg;
    } else {
	src = sv_mortalcopy(arg);
	sv_utf8_upgrade(src);
    }

    s = (U8*)SvPV(src, srclen);

    dstlen = srclen + 1;
    dst = newSV(dstlen);
    sv_setpvn(dst,(const char*)s,srclen);
    SvUTF8_on(dst);

    stk_cc_max = 10; /* enough as an initial value? */
    New(0, stk_cc, stk_cc_max, UNF_cc);

    d = (U8*)SvPV(dst,dstlen);
    e = d + dstlen;

    for (p = d; p < e;) {
	U8 *cc_in;
	STRLEN cc_len, cc_iter, cc_pos;

	uv = utf8n_to_uvuni(p, e - p, &retlen, 0);
	curCC = getCombinClass(uv);
	p += retlen;

	if (! (curCC && p < e))
	    continue;
	else
	    cc_in = p - retlen;

	cc_pos = 0;
	stk_cc[cc_pos].cc  = curCC;
	stk_cc[cc_pos].uv  = uv;
	stk_cc[cc_pos].pos = cc_pos;

	while (p < e) {
	    uv = utf8n_to_uvuni(p, e - p, &retlen, 0);
	    curCC = getCombinClass(uv);
	    if (!curCC)
		break;
	    p += retlen;
	    cc_pos++;
	    if (stk_cc_max <= cc_pos) { /* extend if need */
		stk_cc_max = cc_pos + 1;
		Renew(stk_cc, stk_cc_max, UNF_cc);
	    }
	    stk_cc[cc_pos].cc  = curCC;
	    stk_cc[cc_pos].uv  = uv;
	    stk_cc[cc_pos].pos = cc_pos;
	}

	 /* only one c.c. in cc_len from cc_in, no need of reordering */
	if (!cc_pos)
	    continue;

	qsort((void*)stk_cc, cc_pos + 1, sizeof(UNF_cc), compare_cc);

	cc_len = p - cc_in;
	p = cc_in;
	for (cc_iter = 0; cc_iter <= cc_pos; cc_iter++) {
	    p = uvuni_to_utf8(p, stk_cc[cc_iter].uv);
	}
    }
    Safefree(stk_cc);
    RETVAL = dst;
  OUTPUT:
    RETVAL



SV*
compose(arg)
    SV * arg
  PROTOTYPE: $
  PREINIT:
    SV  *src, *dst, *tmp;
    U8  *s, *p, *e, *d, *t, *tmp_start, curCC, preCC;
    UV uv, uvS, uvComp;
    STRLEN srclen, dstlen, tmplen, retlen;
    bool beginning = TRUE;
  CODE:
    if (SvUTF8(arg)) {
	src = arg;
    } else {
	src = sv_mortalcopy(arg);
	sv_utf8_upgrade(src);
    }

    s = (U8*)SvPV(src, srclen);
    e = s + srclen;
    dstlen = srclen + 1;
    dst = newSV(dstlen);
    (void)SvPOK_only(dst);
    SvUTF8_on(dst);
    d = (U8*)SvPVX(dst);

  /* for uncomposed combining char */
    tmp = sv_2mortal(newSV(dstlen));
    (void)SvPOK_only(tmp);
    SvUTF8_on(tmp);

    for (p = s; p < e;) {
	if (beginning) {
	    uvS = utf8n_to_uvuni(p, e - p, &retlen, 0);
	    p += retlen;

            if (getCombinClass(uvS)) { /* no Starter found yet */
		d = uvuni_to_utf8(d, uvS);
		continue;
	    }
            beginning = FALSE;
	}

    /* Starter */
	t = tmp_start = (U8*)SvPVX(tmp);
	preCC = 0;

    /* to the next Starter */
	while (p < e) {
	    uv = utf8n_to_uvuni(p, e - p, &retlen, 0);
	    p += retlen;
	    curCC = getCombinClass(uv);

	    if (preCC && preCC == curCC) {
		preCC = curCC;
		t = uvuni_to_utf8(t, uv);
	    } else {
		uvComp = composite_uv(uvS, uv);

		if (uvComp && ! isExclusion(uvComp) && preCC <= curCC) {
		    STRLEN leftcur, rightcur, dstcur;
		    leftcur  = UNISKIP(uvComp);
		    rightcur = UNISKIP(uvS) + UNISKIP(uv);

		    if (leftcur > rightcur) {
			dstcur = d - (U8*)SvPVX(dst);
			dstlen += leftcur - rightcur;
			d = (U8*)SvGROW(dst,dstlen) + dstcur;
		    }
		    /* preCC not changed to curCC */
		    uvS = uvComp;
	        } else if (! curCC && p < e) { /* blocked */
		    break;
		} else {
		    preCC = curCC;
		    t = uvuni_to_utf8(t, uv);
		}
	    }
	}
	d = uvuni_to_utf8(d, uvS); /* starter (composed or not) */
	tmplen = t - tmp_start;
	if (tmplen) { /* uncomposed combining char */
	    t = (U8*)SvPVX(tmp);
	    while (tmplen--)
		*d++ = *t++;
	}
	uvS = uv;
    } /* for */
    SvCUR_set(dst, d - (U8*)SvPVX(dst));
    RETVAL = dst;
  OUTPUT:
    RETVAL



void
checkNFD(arg)
    SV * arg
  PROTOTYPE: $
  ALIAS:
    checkNFKD = 1
  PREINIT:
    UV uv;
    SV *src;
    STRLEN srclen, retlen;
    U8 *s, *e, *p, curCC, preCC;
  PPCODE:
    if (SvUTF8(arg)) {
	src = arg;
    } else {
	src = sv_mortalcopy(arg);
	sv_utf8_upgrade(src);
    }
    
    s = (U8*)SvPV(src,srclen);
    e = s + srclen;

    preCC = 0;
    for (p = s; p < e; p += retlen) {
	uv = utf8n_to_uvuni(p, e - p, &retlen, 0);
	curCC = getCombinClass(uv);
	if (preCC > curCC && curCC != 0) /* canonical ordering violated */
	    XSRETURN_NO;
	if (Hangul_IsS(uv) || (ix ? dec_compat(uv) : dec_canonical(uv)))
	    XSRETURN_NO;
	preCC = curCC;
    }
    XSRETURN_YES;



void
checkNFC(arg)
    SV * arg
  PROTOTYPE: $
  ALIAS:
    checkNFKC = 1
  PREINIT:
    UV uv;
    SV *src;
    STRLEN srclen, retlen;
    U8 *s, *e, *p, curCC, preCC;
    bool isMAYBE;
  PPCODE:
    if (SvUTF8(arg)) {
	src = arg;
    } else {
	src = sv_mortalcopy(arg);
	sv_utf8_upgrade(src);
    }
    
    s = (U8*)SvPV(src,srclen);
    e = s + srclen;

    preCC = 0;
    isMAYBE = FALSE;
    for (p = s; p < e; p += retlen) {
	uv = utf8n_to_uvuni(p, e - p, &retlen, 0);
	curCC = getCombinClass(uv);

	if (preCC > curCC && curCC != 0) /* canonical ordering violated */
	    XSRETURN_NO;

	/* get NFC/NFKC property */
	if (Hangul_IsS(uv)) /* Hangul syllables are canonical composites */
	    ; /* YES */
	else if (isExclusion(uv) || isSingleton(uv) || isNonStDecomp(uv))
	    XSRETURN_NO;
	else if (isComp2nd(uv))
	    isMAYBE = TRUE;
	else if (ix) {
	    char *canon, *compat;
	 /*
	  * NFKC_NO when having compatibility mapping;
	  * i.e. dec_compat(uv) defined & different with dec_canonical(uv).
	  */
	    canon  = (char *) dec_canonical(uv);
	    compat = (char *) dec_compat(uv);
	    if (compat && (!canon || strNE(canon, compat)))
		XSRETURN_NO;
	} /* end of get NFC/NFKC property */

	preCC = curCC;
    }
    if (isMAYBE)
	XSRETURN_UNDEF;
    else
	XSRETURN_YES;



U8
getCombinClass(uv)
    UV uv
  PROTOTYPE: $

bool
isExclusion(uv)
    UV uv
  PROTOTYPE: $

bool
isSingleton(uv)
    UV uv
  PROTOTYPE: $

bool
isNonStDecomp(uv)
    UV uv
  PROTOTYPE: $

bool
isComp2nd(uv)
    UV uv
  PROTOTYPE: $
  ALIAS:
    isNFC_MAYBE  = 1
    isNFKC_MAYBE = 2



void
isNFD_NO(uv)
    UV uv
  PROTOTYPE: $
  ALIAS:
    isNFKD_NO = 1
  PPCODE:
    if (Hangul_IsS(uv) || (ix ? dec_compat(uv) : dec_canonical(uv)))
	XSRETURN_YES; /* NFD_NO or NFKD_NO */
    else
	XSRETURN_NO;



void
isComp_Ex(uv)
    UV uv
  PROTOTYPE: $
  ALIAS:
    isNFC_NO  = 0
    isNFKC_NO = 1
  PPCODE:
    if (isExclusion(uv) || isSingleton(uv) || isNonStDecomp(uv))
	XSRETURN_YES; /* NFC_NO or NFKC_NO */
    else if (ix) {
	char *canon, *compat;
	canon  = (char *) dec_canonical(uv);
	compat = (char *) dec_compat(uv);
	if (compat && (!canon || strNE(canon, compat)))
	    XSRETURN_YES; /* NFC_NO or NFKC_NO */
	else
	    XSRETURN_NO;
    }
    else
	XSRETURN_NO;



SV*
getComposite(uv, uv2)
    UV uv
    UV uv2
  PROTOTYPE: $$
  PREINIT:
    UV composite;
  CODE:
    composite = composite_uv(uv, uv2);
    RETVAL = composite ? newSVuv(composite) : &PL_sv_undef;
  OUTPUT:
    RETVAL



SV*
getCanon(uv)
    UV uv
  PROTOTYPE: $
  ALIAS:
    getCompat = 1
  PREINIT:
    U8 * rstr;
  CODE:
    if (Hangul_IsS(uv)) {
	SV * dst;
	dst = newSV(1);
	(void)SvPOK_only(dst);
	sv_cat_decompHangul(dst, uv);
	RETVAL = dst;
    } else {
	rstr = ix ? dec_compat(uv) : dec_canonical(uv);
	if (!rstr)
	    XSRETURN_UNDEF;
	RETVAL = newSVpvn((char *)rstr, strlen((char *)rstr));
    }
    SvUTF8_on(RETVAL);
  OUTPUT:
    RETVAL


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