Various fixes and warnings

[wxWidgets.git] / src / regex / regc_color.c

/*
 * colorings of characters
 * This file is #included by regcomp.c.
 *
 * Copyright (c) 1998, 1999 Henry Spencer.	All rights reserved.
 *
 * Development of this software was funded, in part, by Cray Research Inc.,
 * UUNET Communications Services Inc., Sun Microsystems Inc., and Scriptics
 * Corporation, none of whom are responsible for the results.  The author
 * thanks all of them.
 *
 * Redistribution and use in source and binary forms -- with or without
 * modification -- are permitted for any purpose, provided that
 * redistributions in source form retain this entire copyright notice and
 * indicate the origin and nature of any modifications.
 *
 * I'd appreciate being given credit for this package in the documentation
 * of software which uses it, but that is not a requirement.
 *
 * THIS SOFTWARE IS PROVIDED ``AS IS'' AND ANY EXPRESS OR IMPLIED WARRANTIES,
 * INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY
 * AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL
 * HENRY SPENCER BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
 * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
 * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS;
 * OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY,
 * WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR
 * OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF
 * ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
 *
 * $Header$
 *
 *
 * Note that there are some incestuous relationships between this code and
 * NFA arc maintenance, which perhaps ought to be cleaned up sometime.
 */



#define CISERR()	VISERR(cm->v)
#define CERR(e)		VERR(cm->v, (e))



/*
 * initcm - set up new colormap
 */
static void
initcm(struct vars * v,
	   struct colormap * cm)
{
	int			i;
	int			j;
	union tree *t;
	union tree *nextt;
	struct colordesc *cd;

	cm->magic = CMMAGIC;
	cm->v = v;

	cm->ncds = NINLINECDS;
	cm->cd = cm->cdspace;
	cm->max = 0;
	cm->free = 0;

	cd = cm->cd;				/* cm->cd[WHITE] */
	cd->sub = NOSUB;
	cd->arcs = NULL;
	cd->flags = 0;
	cd->nchrs = CHR_MAX - CHR_MIN + 1;

	/* upper levels of tree */
	for (t = &cm->tree[0], j = NBYTS - 1; j > 0; t = nextt, j--)
	{
		nextt = t + 1;
		for (i = BYTTAB - 1; i >= 0; i--)
			t->tptr[i] = nextt;
	}
	/* bottom level is solid white */
	t = &cm->tree[NBYTS - 1];
	for (i = BYTTAB - 1; i >= 0; i--)
		t->tcolor[i] = WHITE;
	cd->block = t;
}

/*
 * freecm - free dynamically-allocated things in a colormap
 */
static void
freecm(struct colormap * cm)
{
	size_t		i;
	union tree *cb;

	cm->magic = 0;
	if (NBYTS > 1)
		cmtreefree(cm, cm->tree, 0);
	for (i = 1; i <= cm->max; i++)		/* skip WHITE */
		if (!UNUSEDCOLOR(&cm->cd[i]))
		{
			cb = cm->cd[i].block;
			if (cb != NULL)
				FREE(cb);
		}
	if (cm->cd != cm->cdspace)
		FREE(cm->cd);
}

/*
 * cmtreefree - free a non-terminal part of a colormap tree
 */
static void
cmtreefree(struct colormap * cm,
		   union tree * tree,
		   int level)			/* level number (top == 0) of this block */
{
	int			i;
	union tree *t;
	union tree *fillt = &cm->tree[level + 1];
	union tree *cb;

	assert(level < NBYTS - 1);	/* this level has pointers */
	for (i = BYTTAB - 1; i >= 0; i--)
	{
		t = tree->tptr[i];
		assert(t != NULL);
		if (t != fillt)
		{
			if (level < NBYTS - 2)
			{					/* more pointer blocks below */
				cmtreefree(cm, t, level + 1);
				FREE(t);
			}
			else
			{					/* color block below */
				cb = cm->cd[t->tcolor[0]].block;
				if (t != cb)	/* not a solid block */
					FREE(t);
			}
		}
	}
}

/*
 * setcolor - set the color of a character in a colormap
 */
static color					/* previous color */
setcolor(struct colormap * cm,
		 chr c,
		 pcolor co)
{
	uchr		uc = c;
	int			shift;
	int			level;
	int			b;
	int			bottom;
	union tree *t;
	union tree *newt;
	union tree *fillt;
	union tree *lastt;
	union tree *cb;
	color		prev;

	assert(cm->magic == CMMAGIC);
	if (CISERR() || co == COLORLESS)
		return COLORLESS;

	t = cm->tree;
	for (level = 0, shift = BYTBITS * (NBYTS - 1); shift > 0;
		 level++, shift -= BYTBITS)
	{
		b = (uc >> shift) & BYTMASK;
		lastt = t;
		t = lastt->tptr[b];
		assert(t != NULL);
		fillt = &cm->tree[level + 1];
		bottom = (shift <= BYTBITS) ? 1 : 0;
		cb = (bottom) ? cm->cd[t->tcolor[0]].block : fillt;
		if (t == fillt || t == cb)
		{						/* must allocate a new block */
			newt = (union tree *) MALLOC((bottom) ?
							sizeof(struct colors) : sizeof(struct ptrs));
			if (newt == NULL)
			{
				CERR(REG_ESPACE);
				return COLORLESS;
			}
			if (bottom)
				memcpy(VS(newt->tcolor), VS(t->tcolor),
					   BYTTAB * sizeof(color));
			else
				memcpy(VS(newt->tptr), VS(t->tptr),
					   BYTTAB * sizeof(union tree *));
			t = newt;
			lastt->tptr[b] = t;
		}
	}

	b = uc & BYTMASK;
	prev = t->tcolor[b];
	t->tcolor[b] = (color) co;
	return prev;
}

/*
 * maxcolor - report largest color number in use
 */
static color
maxcolor(struct colormap * cm)
{
	if (CISERR())
		return COLORLESS;

	return (color) cm->max;
}

/*
 * newcolor - find a new color (must be subject of setcolor at once)
 * Beware:	may relocate the colordescs.
 */
static color					/* COLORLESS for error */
newcolor(struct colormap * cm)
{
	struct colordesc *cd;
	struct colordesc *new;
	size_t		n;

	if (CISERR())
		return COLORLESS;

	if (cm->free != 0)
	{
		assert(cm->free > 0);
		assert((size_t) cm->free < cm->ncds);
		cd = &cm->cd[cm->free];
		assert(UNUSEDCOLOR(cd));
		assert(cd->arcs == NULL);
		cm->free = cd->sub;
	}
	else if (cm->max < cm->ncds - 1)
	{
		cm->max++;
		cd = &cm->cd[cm->max];
	}
	else
	{
		/* oops, must allocate more */
		n = cm->ncds * 2;
		if (cm->cd == cm->cdspace)
		{
			new = (struct colordesc *) MALLOC(n *
											  sizeof(struct colordesc));
			if (new != NULL)
				memcpy(VS(new), VS(cm->cdspace), cm->ncds *
					   sizeof(struct colordesc));
		}
		else
			new = (struct colordesc *) REALLOC(cm->cd,
										   n * sizeof(struct colordesc));
		if (new == NULL)
		{
			CERR(REG_ESPACE);
			return COLORLESS;
		}
		cm->cd = new;
		cm->ncds = n;
		assert(cm->max < cm->ncds - 1);
		cm->max++;
		cd = &cm->cd[cm->max];
	}

	cd->nchrs = 0;
	cd->sub = NOSUB;
	cd->arcs = NULL;
	cd->flags = 0;
	cd->block = NULL;

	return (color) (cd - cm->cd);
}

/*
 * freecolor - free a color (must have no arcs or subcolor)
 */
static void
freecolor(struct colormap * cm,
		  pcolor co)
{
	struct colordesc *cd = &cm->cd[co];
	color		pco,
				nco;			/* for freelist scan */

	assert(co >= 0);
	if (co == WHITE)
		return;

	assert(cd->arcs == NULL);
	assert(cd->sub == NOSUB);
	assert(cd->nchrs == 0);
	cd->flags = FREECOL;
	if (cd->block != NULL)
	{
		FREE(cd->block);
		cd->block = NULL;		/* just paranoia */
	}

	if ((size_t) co == cm->max)
	{
		while (cm->max > WHITE && UNUSEDCOLOR(&cm->cd[cm->max]))
			cm->max--;
		assert(cm->free >= 0);
		while ((size_t) cm->free > cm->max)
			cm->free = cm->cd[cm->free].sub;
		if (cm->free > 0)
		{
			assert(cm->free < cm->max);
			pco = cm->free;
			nco = cm->cd[pco].sub;
			while (nco > 0)
				if ((size_t) nco > cm->max)
				{
					/* take this one out of freelist */
					nco = cm->cd[nco].sub;
					cm->cd[pco].sub = nco;
				}
				else
				{
					assert(nco < cm->max);
					pco = nco;
					nco = cm->cd[pco].sub;
				}
		}
	}
	else
	{
		cd->sub = cm->free;
		cm->free = (color) (cd - cm->cd);
	}
}

/*
 * pseudocolor - allocate a false color, to be managed by other means
 */
static color
pseudocolor(struct colormap * cm)
{
	color		co;

	co = newcolor(cm);
	if (CISERR())
		return COLORLESS;
	cm->cd[co].nchrs = 1;
	cm->cd[co].flags = PSEUDO;
	return co;
}

/*
 * subcolor - allocate a new subcolor (if necessary) to this chr
 */
static color
subcolor(struct colormap * cm, chr c)
{
	color		co;				/* current color of c */
	color		sco;			/* new subcolor */

	co = GETCOLOR(cm, c);
	sco = newsub(cm, co);
	if (CISERR())
		return COLORLESS;
	assert(sco != COLORLESS);

	if (co == sco)				/* already in an open subcolor */
		return co;				/* rest is redundant */
	cm->cd[co].nchrs--;
	cm->cd[sco].nchrs++;
	setcolor(cm, c, sco);
	return sco;
}

/*
 * newsub - allocate a new subcolor (if necessary) for a color
 */
static color
newsub(struct colormap * cm,
	   pcolor co)
{
	color		sco;			/* new subcolor */

	sco = cm->cd[co].sub;
	if (sco == NOSUB)
	{							/* color has no open subcolor */
		if (cm->cd[co].nchrs == 1)		/* optimization */
			return co;
		sco = newcolor(cm);		/* must create subcolor */
		if (sco == COLORLESS)
		{
			assert(CISERR());
			return COLORLESS;
		}
		cm->cd[co].sub = sco;
		cm->cd[sco].sub = sco;	/* open subcolor points to self */
	}
	assert(sco != NOSUB);

	return sco;
}

/*
 * subrange - allocate new subcolors to this range of chrs, fill in arcs
 */
static void
subrange(struct vars * v,
		 chr from,
		 chr to,
		 struct state * lp,
		 struct state * rp)
{
	uchr		uf;
	int			i;

	assert(from <= to);

	/* first, align "from" on a tree-block boundary */
	uf = (uchr) from;
	i = (int) (((uf + BYTTAB - 1) & (uchr) ~BYTMASK) - uf);
	for (; from <= to && i > 0; i--, from++)
		newarc(v->nfa, PLAIN, subcolor(v->cm, from), lp, rp);
	if (from > to)				/* didn't reach a boundary */
		return;

	/* deal with whole blocks */
	for (; to - from >= BYTTAB; from += BYTTAB)
		subblock(v, from, lp, rp);

	/* clean up any remaining partial table */
	for (; from <= to; from++)
		newarc(v->nfa, PLAIN, subcolor(v->cm, from), lp, rp);
}

/*
 * subblock - allocate new subcolors for one tree block of chrs, fill in arcs
 */
static void
subblock(struct vars * v,
		 chr start,				/* first of BYTTAB chrs */
		 struct state * lp,
		 struct state * rp)
{
	uchr		uc = start;
	struct colormap *cm = v->cm;
	int			shift;
	int			level;
	int			i;
	int			b;
	union tree *t;
	union tree *cb;
	union tree *fillt;
	union tree *lastt;
	int			previ;
	int			ndone;
	color		co;
	color		sco;

	assert((uc % BYTTAB) == 0);

	/* find its color block, making new pointer blocks as needed */
	t = cm->tree;
	fillt = NULL;
	for (level = 0, shift = BYTBITS * (NBYTS - 1); shift > 0;
		 level++, shift -= BYTBITS)
	{
		b = (uc >> shift) & BYTMASK;
		lastt = t;
		t = lastt->tptr[b];
		assert(t != NULL);
		fillt = &cm->tree[level + 1];
		if (t == fillt && shift > BYTBITS)
		{						/* need new ptr block */
			t = (union tree *) MALLOC(sizeof(struct ptrs));
			if (t == NULL)
			{
				CERR(REG_ESPACE);
				return;
			}
			memcpy(VS(t->tptr), VS(fillt->tptr),
				   BYTTAB * sizeof(union tree *));
			lastt->tptr[b] = t;
		}
	}

	/* special cases:  fill block or solid block */
	co = t->tcolor[0];
	cb = cm->cd[co].block;
	if (t == fillt || t == cb)
	{
		/* either way, we want a subcolor solid block */
		sco = newsub(cm, co);
		t = cm->cd[sco].block;
		if (t == NULL)
		{						/* must set it up */
			t = (union tree *) MALLOC(sizeof(struct colors));
			if (t == NULL)
			{
				CERR(REG_ESPACE);
				return;
			}
			for (i = 0; i < BYTTAB; i++)
				t->tcolor[i] = sco;
			cm->cd[sco].block = t;
		}
		/* find loop must have run at least once */
		lastt->tptr[b] = t;
		newarc(v->nfa, PLAIN, sco, lp, rp);
		cm->cd[co].nchrs -= BYTTAB;
		cm->cd[sco].nchrs += BYTTAB;
		return;
	}

	/* general case, a mixed block to be altered */
	i = 0;
	while (i < BYTTAB)
	{
		co = t->tcolor[i];
		sco = newsub(cm, co);
		newarc(v->nfa, PLAIN, sco, lp, rp);
		previ = i;
		do
		{
			t->tcolor[i++] = sco;
		} while (i < BYTTAB && t->tcolor[i] == co);
		ndone = i - previ;
		cm->cd[co].nchrs -= ndone;
		cm->cd[sco].nchrs += ndone;
	}
}

/*
 * okcolors - promote subcolors to full colors
 */
static void
okcolors(struct nfa * nfa,
		 struct colormap * cm)
{
	struct colordesc *cd;
	struct colordesc *end = CDEND(cm);
	struct colordesc *scd;
	struct arc *a;
	color		co;
	color		sco;

	for (cd = cm->cd, co = 0; cd < end; cd++, co++)
	{
		sco = cd->sub;
		if (UNUSEDCOLOR(cd) || sco == NOSUB)
		{
			/* has no subcolor, no further action */
		}
		else if (sco == co)
		{
			/* is subcolor, let parent deal with it */
		}
		else if (cd->nchrs == 0)
		{
			/* parent empty, its arcs change color to subcolor */
			cd->sub = NOSUB;
			scd = &cm->cd[sco];
			assert(scd->nchrs > 0);
			assert(scd->sub == sco);
			scd->sub = NOSUB;
			while ((a = cd->arcs) != NULL)
			{
				assert(a->co == co);
				/* uncolorchain(cm, a); */
				cd->arcs = a->colorchain;
				a->co = sco;
				/* colorchain(cm, a); */
				a->colorchain = scd->arcs;
				scd->arcs = a;
			}
			freecolor(cm, co);
		}
		else
		{
			/* parent's arcs must gain parallel subcolor arcs */
			cd->sub = NOSUB;
			scd = &cm->cd[sco];
			assert(scd->nchrs > 0);
			assert(scd->sub == sco);
			scd->sub = NOSUB;
			for (a = cd->arcs; a != NULL; a = a->colorchain)
			{
				assert(a->co == co);
				newarc(nfa, a->type, sco, a->from, a->to);
			}
		}
	}
}

/*
 * colorchain - add this arc to the color chain of its color
 */
static void
colorchain(struct colormap * cm,
		   struct arc * a)
{
	struct colordesc *cd = &cm->cd[a->co];

	a->colorchain = cd->arcs;
	cd->arcs = a;
}

/*
 * uncolorchain - delete this arc from the color chain of its color
 */
static void
uncolorchain(struct colormap * cm,
			 struct arc * a)
{
	struct colordesc *cd = &cm->cd[a->co];
	struct arc *aa;

	aa = cd->arcs;
	if (aa == a)				/* easy case */
		cd->arcs = a->colorchain;
	else
	{
		for (; aa != NULL && aa->colorchain != a; aa = aa->colorchain)
			continue;
		assert(aa != NULL);
		aa->colorchain = a->colorchain;
	}
	a->colorchain = NULL;		/* paranoia */
}

/*
 * singleton - is this character in its own color?
 */
static int						/* predicate */
singleton(struct colormap * cm,
		  chr c)
{
	color		co;				/* color of c */

	co = GETCOLOR(cm, c);
	if (cm->cd[co].nchrs == 1 && cm->cd[co].sub == NOSUB)
		return 1;
	return 0;
}

/*
 * rainbow - add arcs of all full colors (but one) between specified states
 */
static void
rainbow(struct nfa * nfa,
		struct colormap * cm,
		int type,
		pcolor but,				/* COLORLESS if no exceptions */
		struct state * from,
		struct state * to)
{
	struct colordesc *cd;
	struct colordesc *end = CDEND(cm);
	color		co;

	for (cd = cm->cd, co = 0; cd < end && !CISERR(); cd++, co++)
		if (!UNUSEDCOLOR(cd) && cd->sub != co && co != but &&
			!(cd->flags & PSEUDO))
			newarc(nfa, type, co, from, to);
}

/*
 * colorcomplement - add arcs of complementary colors
 *
 * The calling sequence ought to be reconciled with cloneouts().
 */
static void
colorcomplement(struct nfa * nfa,
				struct colormap * cm,
				int type,
				struct state * of,		/* complements of this guy's PLAIN
										 * outarcs */
				struct state * from,
				struct state * to)
{
	struct colordesc *cd;
	struct colordesc *end = CDEND(cm);
	color		co;

	assert(of != from);
	for (cd = cm->cd, co = 0; cd < end && !CISERR(); cd++, co++)
		if (!UNUSEDCOLOR(cd) && !(cd->flags & PSEUDO))
			if (findarc(of, PLAIN, co) == NULL)
				newarc(nfa, type, co, from, to);
}


#ifdef REG_DEBUG

/*
 * dumpcolors - debugging output
 */
static void
dumpcolors(struct colormap * cm,
		   FILE *f)
{
	struct colordesc *cd;
	struct colordesc *end;
	color		co;
	chr			c;
	char	   *has;

	fprintf(f, "max %ld\n", (long) cm->max);
	if (NBYTS > 1)
		fillcheck(cm, cm->tree, 0, f);
	end = CDEND(cm);
	for (cd = cm->cd + 1, co = 1; cd < end; cd++, co++) /* skip 0 */
		if (!UNUSEDCOLOR(cd))
		{
			assert(cd->nchrs > 0);
			has = (cd->block != NULL) ? "#" : "";
			if (cd->flags & PSEUDO)
				fprintf(f, "#%2ld%s(ps): ", (long) co, has);
			else
				fprintf(f, "#%2ld%s(%2d): ", (long) co,
						has, cd->nchrs);
			/* it's hard to do this more efficiently */
			for (c = CHR_MIN; c < CHR_MAX; c++)
				if (GETCOLOR(cm, c) == co)
					dumpchr(c, f);
			assert(c == CHR_MAX);
			if (GETCOLOR(cm, c) == co)
				dumpchr(c, f);
			fprintf(f, "\n");
		}
}

/*
 * fillcheck - check proper filling of a tree
 */
static void
fillcheck(struct colormap * cm,
		  union tree * tree,
		  int level,			/* level number (top == 0) of this block */
		  FILE *f)
{
	int			i;
	union tree *t;
	union tree *fillt = &cm->tree[level + 1];

	assert(level < NBYTS - 1);	/* this level has pointers */
	for (i = BYTTAB - 1; i >= 0; i--)
	{
		t = tree->tptr[i];
		if (t == NULL)
			fprintf(f, "NULL found in filled tree!\n");
		else if (t == fillt)
		{
		}
		else if (level < NBYTS - 2)		/* more pointer blocks below */
			fillcheck(cm, t, level + 1, f);
	}
}

/*
 * dumpchr - print a chr
 *
 * Kind of char-centric but works well enough for debug use.
 */
static void
dumpchr(chr c,
		FILE *f)
{
	if (c == '\\')
		fprintf(f, "\\\\");
	else if (c > ' ' && c <= '~')
		putc((char) c, f);
	else
		fprintf(f, "\\u%04lx", (long) c);
}

#endif   /* REG_DEBUG */