src/rt/text.c

/* Copyright (c) 1992 Regents of the University of California */

#ifndef lint
static char SCCSid[] = "$SunId$ LBL";
#endif

/*
 *  text.c - functions for text patterns and mixtures.
 *
 *     11/12/86
 */

#include  "ray.h"

#include  "otypes.h"

#include  "font.h"

/*
 *      A text pattern is specified as the text (a file or line),
 *  the upper left anchor point, the right motion vector, the down
 *  motion vector, and the foreground and background brightness.
 *  For a file, the description is as follows:
 *
 *      modifier brighttext id
 *      2 fontfile textfile
 *      0
 *      11+
 *              Ax Ay Az
 *              Rx Ry Rz
 *              Dx Dy Dz
 *              foreground background
 *              [spacing]
 *
 *  For a single line, we use:
 *
 *      modifier brighttext id
 *      N+2 fontfile . This is a line with N words...
 *      0
 *      11+
 *              Ax Ay Az
 *              Rx Ry Rz
 *              Dx Dy Dz
 *              foreground background
 *              [spacing]
 *
 *  Colortext is identical, except colors are given rather than
 *  brightnesses.  Mixtext has foreground and background modifiers:
 *
 *      modifier mixtext id
 *      4+ foremod backmod fontfile text..
 *      0
 *      9+
 *              Ax Ay Az
 *              Rx Ry Rz
 *              Dx Dy Dz
 *              [spacing]
 */

#define  fndx(m)        ((m)->otype==MIX_TEXT ? 2 : 0)
#define  tndx(m)        ((m)->otype==MIX_TEXT ? 3 : 1)
#define  sndx(m)        ((m)->otype==PAT_BTEXT ? 11 : \
                                (m)->otype==PAT_CTEXT ? 15 : 9)

typedef struct tline {
        struct tline  *next;            /* pointer to next line */
        short  *spc;                    /* character spacing */
        int  width;                     /* total line width */
                                        /* followed by the string */
}  TLINE;

#define  TLSTR(l)       ((char *)((l)+1))

typedef struct {
        FVECT  right, down;             /* right and down unit vectors */
        FONT  *f;                       /* our font */
        TLINE  tl;                      /* line list */
}  TEXT;

extern char  *libpath;

extern char  *fgetword();

TEXT  *gettext();

TLINE  *tlalloc();


text(m, r)
register OBJREC  *m;
RAY  *r;
{
        FVECT  v;
        int  foreground;
                                /* get transformed position */
        if (r->rox != NULL)
                multp3(v, r->rop, r->rox->b.xfm);
        else
                VCOPY(v, r->rop);
                                /* check if we are within a text glyph */
        foreground = intext(v, m);
                                /* modify */
        if (m->otype == MIX_TEXT) {
                OBJECT  omod;
                char  *modname = m->oargs.sarg[foreground ? 0 : 1];
                if (!strcmp(modname, VOIDID))
                        omod = OVOID;
                else if ((omod = modifier(modname)) == OVOID) {
                        sprintf(errmsg, "undefined modifier \"%s\"", modname);
                        objerror(m, USER, errmsg);
                }
                raytexture(r, omod);
        } else if (m->otype == PAT_BTEXT) {
                if (foreground)
                        scalecolor(r->pcol, m->oargs.farg[9]);
                else
                        scalecolor(r->pcol, m->oargs.farg[10]);
        } else { /* PAT_CTEXT */
                COLOR  cval;
                if (foreground)
                        setcolor(cval, m->oargs.farg[9],
                                        m->oargs.farg[10],
                                        m->oargs.farg[11]);
                else
                        setcolor(cval, m->oargs.farg[12],
                                        m->oargs.farg[13],
                                        m->oargs.farg[14]);
                multcolor(r->pcol, cval);
        }
}


TLINE *
tlalloc(s)                      /* allocate and assign text line */
char  *s;
{
        extern char  *strcpy();
        register int  siz;
        register TLINE  *tl;

        siz = strlen(s) + 1;
        if ((tl=(TLINE *)malloc(sizeof(TLINE)+siz)) == NULL ||
                        (tl->spc=(short *)malloc(siz*sizeof(short))) == NULL)
                error(SYSTEM, "out of memory in tlalloc");
        tl->next = NULL;
        strcpy(TLSTR(tl), s);
        return(tl);
}


TEXT *
gettext(tm)                     /* get text structure for material */
register OBJREC  *tm;
{
#define  R      (tm->oargs.farg+3)
#define  D      (tm->oargs.farg+6)
        extern char  *strcpy(), *fgets();
        FVECT  DxR;
        double  d;
        FILE  *fp;
        char  linbuf[512];
        TEXT  *t;
        register int  i;
        register TLINE  *tlp;
        register char  *s;

        if ((t = (TEXT *)tm->os) != NULL)
                return(t);
                                                /* check arguments */
        if (tm->oargs.nsargs - tndx(tm) < 1 || tm->oargs.nfargs < sndx(tm))
                objerror(tm, USER, "bad # arguments");
        if ((t = (TEXT *)malloc(sizeof(TEXT))) == NULL)
                error(SYSTEM, "out of memory in gettext");
                                                /* compute vectors */
        fcross(DxR, D, R);
        fcross(t->right, DxR, D);
        d = DOT(D,D)/DOT(t->right,t->right);
        for (i = 0; i < 3; i++)
                t->right[i] *= d;
        fcross(t->down, R, DxR);
        d = DOT(R,R)/DOT(t->down,t->down);
        for (i = 0; i < 3; i++)
                t->down[i] *= d;
                                                /* get text */
        tlp = &t->tl;
        if (tm->oargs.nsargs - tndx(tm) > 1) {  /* single line */
                s = linbuf;
                for (i = tndx(tm)+1; i < tm->oargs.nsargs; i++) {
                        strcpy(s, tm->oargs.sarg[i]);
                        s += strlen(s);
                        *s++ = ' ';
                }
                *--s = '\0';
                tlp->next = tlalloc(linbuf);
                tlp = tlp->next;
        } else {                                /* text file */
                if ((s = getpath(tm->oargs.sarg[tndx(tm)],
                                libpath, R_OK)) == NULL) {
                        sprintf(errmsg, "cannot find text file \"%s\"",
                                        tm->oargs.sarg[tndx(tm)]);
                        error(USER, errmsg);
                }
                if ((fp = fopen(s, "r")) == NULL) {
                        sprintf(errmsg, "cannot open text file \"%s\"", s);
                        error(SYSTEM, errmsg);
                }
                while (fgets(linbuf, sizeof(linbuf), fp) != NULL) {
                        s = linbuf + strlen(linbuf) - 1;
                        if (*s == '\n')
                                *s = '\0';
                        tlp->next = tlalloc(linbuf);
                        tlp = tlp->next;
                }
                fclose(fp);
        }
        tlp->next = NULL;
                                                /* get the font */
        t->f = getfont(tm->oargs.sarg[fndx(tm)]);
                                                /* compute character spacing */
        i = sndx(tm);
        d = i < tm->oargs.nfargs ? tm->oargs.farg[i] : 0.0;
        i = d * 256.0;
        t->tl.width = 0;
        for (tlp = t->tl.next; tlp != NULL; tlp = tlp->next) {
                if (i < 0)
                        tlp->width = squeeztext(tlp->spc, TLSTR(tlp), t->f, -i);
                else if (i > 0)
                        tlp->width = proptext(tlp->spc, TLSTR(tlp), t->f, i, 3);
                else
                        tlp->width = uniftext(tlp->spc, TLSTR(tlp), t->f);
                if (tlp->width > t->tl.width)
                        t->tl.width = tlp->width;
        }
                                                /* we're done */
        tm->os = (char *)t;
        return(t);
#undef  R
#undef  D
}


freetext(m)                     /* free text structures associated with m */
OBJREC  *m;
{
        register TEXT  *tp;
        register TLINE  *tlp;

        tp = (TEXT *)m->os;
        if (tp == NULL)
                return;
        while ((tlp = tp->tl.next) != NULL) {
                tp->tl.next = tlp->next;
                free((char *)tlp->spc);
                free((char *)tlp);
        }
        free((char *)tp);
        m->os = NULL;
}


intext(p, m)                    /* check to see if p is in text glyph */
FVECT  p;
OBJREC  *m;
{
        register TEXT  *tp;
        register TLINE  *tlp;
        FVECT  v;
        double  y, x;
        register int  i, h;
                                /* first, compute position in text */
        tp = gettext(m);
        v[0] = p[0] - m->oargs.farg[0];
        v[1] = p[1] - m->oargs.farg[1];
        v[2] = p[2] - m->oargs.farg[2];
        x = DOT(v, tp->right);
        i = sndx(m);
        if (i < m->oargs.nfargs)
                x *= tp->f->mwidth + 256.*fabs(m->oargs.farg[i]);
        else
                x *= 256.;
        h = x;
        i = y = DOT(v, tp->down);
        if (x < 0.0 || y < 0.0)
                return(0);
        x -= (double)h;
        y = ((i+1) - y)*256.;
                                /* find the line position */
        for (tlp = tp->tl.next; tlp != NULL; tlp = tlp->next)
                if (--i < 0)
                        break;
        if (tlp == NULL || h >= tlp->width)
                return(0);
        for (i = 0; (h -= tlp->spc[i]) >= 0; i++)
                if (h < 256 && inglyph(h+x, y,
                                tp->f->fg[TLSTR(tlp)[i]&0xff]))
                        return(1);
        return(0);
}


inglyph(x, y, gl)               /* (x,y) within font glyph gl? */
double  x, y;           /* real coordinates in range [0,256) */
register GLYPH  *gl;
{
        int  n, ncross;
        int  xlb, ylb;
        int  tv;
        register GORD  *p0, *p1;

        if (gl == NULL)
                return(0);
        xlb = x;
        ylb = y;
        if (gl->left > xlb || gl->right <= xlb ||       /* check extent */
                        gl->bottom > ylb || gl->top <= ylb)
                return(0);
        xlb = xlb<<1 | 1;               /* add 1/2 to test points... */
        ylb = ylb<<1 | 1;               /* ...so no equal comparisons */
        n = gl->nverts;                 /* get # of vertices */
        p0 = gvlist(gl) + 2*(n-1);      /* connect last to first */
        p1 = gvlist(gl);
        ncross = 0;
                                        /* positive x axis cross test */
        while (n--) {
                if ((p0[1]<<1 > ylb) ^ (p1[1]<<1 > ylb)) {
                        tv = p0[0]<<1 > xlb | (p1[0]<<1 > xlb) << 1;
                        if (tv == 03)
                                ncross++;
                        else if (tv)
                                ncross += (p1[1] > p0[1]) ^
                                                ((p0[1]-y)*(p1[0]-x) >
                                                (p0[0]-x)*(p1[1]-y));
                }
                p0 = p1;
                p1 += 2;
        }
        return(ncross & 01);
}
Revision:	2.10
Committed:	Sun Nov 22 17:54:00 1992 UTC (31 years, 5 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 2.9:	+1 -7 lines
Log Message:	fixed bug where memory was allocated and discarded in tlalloc()
#	Content
1	/* Copyright (c) 1992 Regents of the University of California */
2
3	#ifndef lint
4	static char SCCSid[] = "$SunId$ LBL";
5	#endif
6
7	/*
8	* text.c - functions for text patterns and mixtures.
9	*
10	* 11/12/86
11	*/
12
13	#include "ray.h"
14
15	#include "otypes.h"
16
17	#include "font.h"
18
19	/*
20	* A text pattern is specified as the text (a file or line),
21	* the upper left anchor point, the right motion vector, the down
22	* motion vector, and the foreground and background brightness.
23	* For a file, the description is as follows:
24	*
25	* modifier brighttext id
26	* 2 fontfile textfile
27	* 0
28	* 11+
29	* Ax Ay Az
30	* Rx Ry Rz
31	* Dx Dy Dz
32	* foreground background
33	* [spacing]
34	*
35	* For a single line, we use:
36	*
37	* modifier brighttext id
38	* N+2 fontfile . This is a line with N words...
39	* 0
40	* 11+
41	* Ax Ay Az
42	* Rx Ry Rz
43	* Dx Dy Dz
44	* foreground background
45	* [spacing]
46	*
47	* Colortext is identical, except colors are given rather than
48	* brightnesses. Mixtext has foreground and background modifiers:
49	*
50	* modifier mixtext id
51	* 4+ foremod backmod fontfile text..
52	* 0
53	* 9+
54	* Ax Ay Az
55	* Rx Ry Rz
56	* Dx Dy Dz
57	* [spacing]
58	*/
59
60	#define fndx(m) ((m)->otype==MIX_TEXT ? 2 : 0)
61	#define tndx(m) ((m)->otype==MIX_TEXT ? 3 : 1)
62	#define sndx(m) ((m)->otype==PAT_BTEXT ? 11 : \
63	(m)->otype==PAT_CTEXT ? 15 : 9)
64
65	typedef struct tline {
66	struct tline next; / pointer to next line */
67	short spc; / character spacing */
68	int width; /* total line width */
69	/* followed by the string */
70	} TLINE;
71
72	#define TLSTR(l) ((char *)((l)+1))
73
74	typedef struct {
75	FVECT right, down; /* right and down unit vectors */
76	FONT f; / our font */
77	TLINE tl; /* line list */
78	} TEXT;
79
80	extern char *libpath;
81
82	extern char *fgetword();
83
84	TEXT *gettext();
85
86	TLINE *tlalloc();
87
88
89	text(m, r)
90	register OBJREC *m;
91	RAY *r;
92	{
93	FVECT v;
94	int foreground;
95	/* get transformed position */
96	if (r->rox != NULL)
97	multp3(v, r->rop, r->rox->b.xfm);
98	else
99	VCOPY(v, r->rop);
100	/* check if we are within a text glyph */
101	foreground = intext(v, m);
102	/* modify */
103	if (m->otype == MIX_TEXT) {
104	OBJECT omod;
105	char *modname = m->oargs.sarg[foreground ? 0 : 1];
106	if (!strcmp(modname, VOIDID))
107	omod = OVOID;
108	else if ((omod = modifier(modname)) == OVOID) {
109	sprintf(errmsg, "undefined modifier \"%s\"", modname);
110	objerror(m, USER, errmsg);
111	}
112	raytexture(r, omod);
113	} else if (m->otype == PAT_BTEXT) {
114	if (foreground)
115	scalecolor(r->pcol, m->oargs.farg[9]);
116	else
117	scalecolor(r->pcol, m->oargs.farg[10]);
118	} else { /* PAT_CTEXT */
119	COLOR cval;
120	if (foreground)
121	setcolor(cval, m->oargs.farg[9],
122	m->oargs.farg[10],
123	m->oargs.farg[11]);
124	else
125	setcolor(cval, m->oargs.farg[12],
126	m->oargs.farg[13],
127	m->oargs.farg[14]);
128	multcolor(r->pcol, cval);
129	}
130	}
131
132
133	TLINE *
134	tlalloc(s) /* allocate and assign text line */
135	char *s;
136	{
137	extern char *strcpy();
138	register int siz;
139	register TLINE *tl;
140
141	siz = strlen(s) + 1;
142	if ((tl=(TLINE *)malloc(sizeof(TLINE)+siz)) == NULL \|\|
143	(tl->spc=(short )malloc(sizsizeof(short))) == NULL)
144	error(SYSTEM, "out of memory in tlalloc");
145	tl->next = NULL;
146	strcpy(TLSTR(tl), s);
147	return(tl);
148	}
149
150
151	TEXT *
152	gettext(tm) /* get text structure for material */
153	register OBJREC *tm;
154	{
155	#define R (tm->oargs.farg+3)
156	#define D (tm->oargs.farg+6)
157	extern char strcpy(), fgets();
158	FVECT DxR;
159	double d;
160	FILE *fp;
161	char linbuf[512];
162	TEXT *t;
163	register int i;
164	register TLINE *tlp;
165	register char *s;
166
167	if ((t = (TEXT *)tm->os) != NULL)
168	return(t);
169	/* check arguments */
170	if (tm->oargs.nsargs - tndx(tm) < 1 \|\| tm->oargs.nfargs < sndx(tm))
171	objerror(tm, USER, "bad # arguments");
172	if ((t = (TEXT *)malloc(sizeof(TEXT))) == NULL)
173	error(SYSTEM, "out of memory in gettext");
174	/* compute vectors */
175	fcross(DxR, D, R);
176	fcross(t->right, DxR, D);
177	d = DOT(D,D)/DOT(t->right,t->right);
178	for (i = 0; i < 3; i++)
179	t->right[i] *= d;
180	fcross(t->down, R, DxR);
181	d = DOT(R,R)/DOT(t->down,t->down);
182	for (i = 0; i < 3; i++)
183	t->down[i] *= d;
184	/* get text */
185	tlp = &t->tl;
186	if (tm->oargs.nsargs - tndx(tm) > 1) { /* single line */
187	s = linbuf;
188	for (i = tndx(tm)+1; i < tm->oargs.nsargs; i++) {
189	strcpy(s, tm->oargs.sarg[i]);
190	s += strlen(s);
191	*s++ = ' ';
192	}
193	*--s = '\0';
194	tlp->next = tlalloc(linbuf);
195	tlp = tlp->next;
196	} else { /* text file */
197	if ((s = getpath(tm->oargs.sarg[tndx(tm)],
198	libpath, R_OK)) == NULL) {
199	sprintf(errmsg, "cannot find text file \"%s\"",
200	tm->oargs.sarg[tndx(tm)]);
201	error(USER, errmsg);
202	}
203	if ((fp = fopen(s, "r")) == NULL) {
204	sprintf(errmsg, "cannot open text file \"%s\"", s);
205	error(SYSTEM, errmsg);
206	}
207	while (fgets(linbuf, sizeof(linbuf), fp) != NULL) {
208	s = linbuf + strlen(linbuf) - 1;
209	if (*s == '\n')
210	*s = '\0';
211	tlp->next = tlalloc(linbuf);
212	tlp = tlp->next;
213	}
214	fclose(fp);
215	}
216	tlp->next = NULL;
217	/* get the font */
218	t->f = getfont(tm->oargs.sarg[fndx(tm)]);
219	/* compute character spacing */
220	i = sndx(tm);
221	d = i < tm->oargs.nfargs ? tm->oargs.farg[i] : 0.0;
222	i = d * 256.0;
223	t->tl.width = 0;
224	for (tlp = t->tl.next; tlp != NULL; tlp = tlp->next) {
225	if (i < 0)
226	tlp->width = squeeztext(tlp->spc, TLSTR(tlp), t->f, -i);
227	else if (i > 0)
228	tlp->width = proptext(tlp->spc, TLSTR(tlp), t->f, i, 3);
229	else
230	tlp->width = uniftext(tlp->spc, TLSTR(tlp), t->f);
231	if (tlp->width > t->tl.width)
232	t->tl.width = tlp->width;
233	}
234	/* we're done */
235	tm->os = (char *)t;
236	return(t);
237	#undef R
238	#undef D
239	}
240
241
242	freetext(m) /* free text structures associated with m */
243	OBJREC *m;
244	{
245	register TEXT *tp;
246	register TLINE *tlp;
247
248	tp = (TEXT *)m->os;
249	if (tp == NULL)
250	return;
251	while ((tlp = tp->tl.next) != NULL) {
252	tp->tl.next = tlp->next;
253	free((char *)tlp->spc);
254	free((char *)tlp);
255	}
256	free((char *)tp);
257	m->os = NULL;
258	}
259
260
261	intext(p, m) /* check to see if p is in text glyph */
262	FVECT p;
263	OBJREC *m;
264	{
265	register TEXT *tp;
266	register TLINE *tlp;
267	FVECT v;
268	double y, x;
269	register int i, h;
270	/* first, compute position in text */
271	tp = gettext(m);
272	v[0] = p[0] - m->oargs.farg[0];
273	v[1] = p[1] - m->oargs.farg[1];
274	v[2] = p[2] - m->oargs.farg[2];
275	x = DOT(v, tp->right);
276	i = sndx(m);
277	if (i < m->oargs.nfargs)
278	x = tp->f->mwidth + 256.fabs(m->oargs.farg[i]);
279	else
280	x *= 256.;
281	h = x;
282	i = y = DOT(v, tp->down);
283	if (x < 0.0 \|\| y < 0.0)
284	return(0);
285	x -= (double)h;
286	y = ((i+1) - y)*256.;
287	/* find the line position */
288	for (tlp = tp->tl.next; tlp != NULL; tlp = tlp->next)
289	if (--i < 0)
290	break;
291	if (tlp == NULL \|\| h >= tlp->width)
292	return(0);
293	for (i = 0; (h -= tlp->spc[i]) >= 0; i++)
294	if (h < 256 && inglyph(h+x, y,
295	tp->f->fg[TLSTR(tlp)[i]&0xff]))
296	return(1);
297	return(0);
298	}
299
300
301	inglyph(x, y, gl) /* (x,y) within font glyph gl? */
302	double x, y; /* real coordinates in range [0,256) */
303	register GLYPH *gl;
304	{
305	int n, ncross;
306	int xlb, ylb;
307	int tv;
308	register GORD p0, p1;
309
310	if (gl == NULL)
311	return(0);
312	xlb = x;
313	ylb = y;
314	if (gl->left > xlb \|\| gl->right <= xlb \|\| /* check extent */
315	gl->bottom > ylb \|\| gl->top <= ylb)
316	return(0);
317	xlb = xlb<<1 \| 1; /* add 1/2 to test points... */
318	ylb = ylb<<1 \| 1; /* ...so no equal comparisons */
319	n = gl->nverts; /* get # of vertices */
320	p0 = gvlist(gl) + 2(n-1); / connect last to first */
321	p1 = gvlist(gl);
322	ncross = 0;
323	/* positive x axis cross test */
324	while (n--) {
325	if ((p0[1]<<1 > ylb) ^ (p1[1]<<1 > ylb)) {
326	tv = p0[0]<<1 > xlb \| (p1[0]<<1 > xlb) << 1;
327	if (tv == 03)
328	ncross++;
329	else if (tv)
330	ncross += (p1[1] > p0[1]) ^
331	((p0[1]-y)*(p1[0]-x) >
332	(p0[0]-x)*(p1[1]-y));
333	}
334	p0 = p1;
335	p1 += 2;
336	}
337	return(ncross & 01);
338	}