src/meta/segment.c

#ifndef lint
static const char       RCSid[] = "$Id$";
#endif
/*
 *   Routines for segment storage and inclusion for meta-files
 *
 *   12/18/84
 */


#include  "meta.h"


#define  NODEC  0               /* null declaration (must be 0) */

#define  MAXDEC  2048           /* maximum number of declarations */

#define  NHASH  101             /* hash size (prime) */


static struct declaration {
                    char        *sname;         /* segment name */
                    PLIST       sprims;         /* segment primitives */
                    int         context;        /* declaration containing us */
                    int         nexthash;       /* next in hash list */
                } dectabl[MAXDEC];

static int      hashtabl[NHASH];

static int      dectop = 0;             /* top of declaration table */

static int      curdec = NODEC;         /* current declaration */


static int
hash(s)                 /* hash a string */

register char   *s;

{
    register int        hval = 0;

    while (*s)
        hval += *s++;

    return(hval % NHASH);
}


static int
lookup(name)            /* find name in declaration table */

register char   *name;

{
    register int        curd;

    if (name == NULL)
        error(USER, "illegal null segment name in lookup");

    for (curd = hashtabl[hash(name)]; curd != NODEC; curd = dectabl[curd].nexthash)
        if (strcmp(name, dectabl[curd].sname) == 0)
            break;

    return(curd);
}


inseg()                 /* return TRUE if currently in a segment */

{

    return(curdec != NODEC);
}


openseg(name)                   /* open a new segment */

char    *name;

{
    register int  olddec;

    if ((olddec = lookup(name)) != NODEC &&
                dectabl[olddec].context == curdec)      /* redefined segment */
        plfree(&dectabl[olddec].sprims);

    if (++dectop >= MAXDEC)
        error(SYSTEM, "too many segments in openseg");

    dectabl[dectop].sname = savestr(name);
                                /* save previous context */
    dectabl[dectop].context = curdec;
    curdec = dectop;
    
}


segprim(p)              /* store primitive in current segment */

register PRIMITIVE  *p;

{
    register PRIMITIVE  *newp;

    if (!inseg())
        error(SYSTEM, "illegal call to segprim");

    switch (p->com) {

        case POPEN:
            openseg(p->args);
            break;
            
        case PSEG:
            segment(p, segprim);
            break;

        case PCLOSE:
            closeseg();
            break;

        default:
            if ((newp = palloc()) == NULL)
                error(SYSTEM, "memory limit exceeded in segprim");
            mcopy((char *)newp, (char *)p, sizeof(PRIMITIVE));
            newp->args = savestr(p->args);
            add(newp, &dectabl[curdec].sprims);
            break;
    }

}


closeseg()              /* close the current segment */

{
    register int  i;
    
    if (!inseg())
        error(SYSTEM, "illegal call to closeseg");
        
                                /* undefine internal declarations */
    for (i = dectop; i > curdec; i--) {
        hashtabl[hash(dectabl[i].sname)] = dectabl[i].nexthash;
        freestr(dectabl[i].sname);
        plfree(&dectabl[i].sprims);
    }
    dectop = curdec;
                                /* define this declaration */
    i = hash(dectabl[curdec].sname);
    dectabl[curdec].nexthash = hashtabl[i];
    hashtabl[i] = curdec;
                                /* return context */
    curdec = dectabl[curdec].context;

}


segment(p, funcp)                       /* expand segment p */
PRIMITIVE       *p;
int             (*funcp)();

{
    int         decln;
    PRIMITIVE   curp;
    register PRIMITIVE  *sp;

    if ((decln = lookup(p->args)) == NODEC)  {
        sprintf(errmsg, "reference to undefined segment \"%s\" in segment",
                                                p->args);
        error(USER, errmsg);
    }

    for (sp = dectabl[decln].sprims.ptop; sp != NULL; sp = sp->pnext)

        if (isglob(sp->com))

            (*funcp)(sp);

        else {

            switch (curp.com = sp->com) {

                case PSEG:
                case PVSTR:
                case PTFILL:
                case PPFILL:
                    curp.arg0 = (sp->arg0 & 0100) |
                                (((sp->arg0 & 060) + p->arg0) & 060);
                    break;

                case PLSEG:
                    if (p->arg0 & 020)
                        curp.arg0 = (~sp->arg0 & 0100) | (sp->arg0 & 060);
                    else
                        curp.arg0 = sp->arg0 & 0160;
                    break;

                default:
                    curp.arg0 = sp->arg0 & 0160;
                    break;
            }
            if (p->arg0 & 014)
                curp.arg0 |= p->arg0 & 014;
            else
                curp.arg0 |= sp->arg0 & 014;
            if (p->arg0 & 03)
                curp.arg0 |= p->arg0 & 03;
            else
                curp.arg0 |= sp->arg0 & 03;

            curp.xy[XMN] = xlate(XMN, sp, p);
            curp.xy[YMN] = xlate(YMN, sp, p);
            curp.xy[XMX] = xlate(XMX, sp, p);
            curp.xy[YMX] = xlate(YMX, sp, p);
            curp.args = sp->args;

            (*funcp)(&curp);
        }

}


int
xlate(extrema, p, px)           /* return extrema from p through px */

short                   extrema;
PRIMITIVE               *p;
register PRIMITIVE      *px;

{
    short       oldex;
    int         val;

    if (((oldex = (extrema + 4 - ((px->arg0 >> 4) & 03))%4) ^ extrema) & 02)
        val = (XYSIZE-1) - p->xy[oldex];
    else
        val = p->xy[oldex];
    
    if (extrema & 01)
        return(CONV(val, px->xy[YMX] - px->xy[YMN]) + px->xy[YMN]);
    else
        return(CONV(val, px->xy[XMX] - px->xy[XMN]) + px->xy[XMN]);
}
Revision:	1.1
Committed:	Sat Feb 22 02:07:26 2003 UTC (21 years, 2 months ago) by greg
Content type:	text/plain
Branch:	MAIN
CVS Tags:	rad3R5
Log Message:	Changes and check-in for 3.5 release Includes new source files and modifications not recorded for many years See ray/doc/notes/ReleaseNotes for notes between 3.1 and 3.5 release
#	Content
1	#ifndef lint
2	static const char RCSid[] = "$Id$";
3	#endif
4	/*
5	* Routines for segment storage and inclusion for meta-files
6	*
7	* 12/18/84
8	*/
9
10
11	#include "meta.h"
12
13
14	#define NODEC 0 /* null declaration (must be 0) */
15
16	#define MAXDEC 2048 /* maximum number of declarations */
17
18	#define NHASH 101 /* hash size (prime) */
19
20
21	static struct declaration {
22	char sname; / segment name */
23	PLIST sprims; /* segment primitives */
24	int context; /* declaration containing us */
25	int nexthash; /* next in hash list */
26	} dectabl[MAXDEC];
27
28	static int hashtabl[NHASH];
29
30	static int dectop = 0; /* top of declaration table */
31
32	static int curdec = NODEC; /* current declaration */
33
34
35
36
37
38	static int
39	hash(s) /* hash a string */
40
41	register char *s;
42
43	{
44	register int hval = 0;
45
46	while (*s)
47	hval += *s++;
48
49	return(hval % NHASH);
50	}
51
52
53
54
55
56	static int
57	lookup(name) /* find name in declaration table */
58
59	register char *name;
60
61	{
62	register int curd;
63
64	if (name == NULL)
65	error(USER, "illegal null segment name in lookup");
66
67	for (curd = hashtabl[hash(name)]; curd != NODEC; curd = dectabl[curd].nexthash)
68	if (strcmp(name, dectabl[curd].sname) == 0)
69	break;
70
71	return(curd);
72	}
73
74
75
76
77	inseg() /* return TRUE if currently in a segment */
78
79	{
80
81	return(curdec != NODEC);
82	}
83
84
85
86
87	openseg(name) /* open a new segment */
88
89	char *name;
90
91	{
92	register int olddec;
93
94	if ((olddec = lookup(name)) != NODEC &&
95	dectabl[olddec].context == curdec) /* redefined segment */
96	plfree(&dectabl[olddec].sprims);
97
98	if (++dectop >= MAXDEC)
99	error(SYSTEM, "too many segments in openseg");
100
101	dectabl[dectop].sname = savestr(name);
102	/* save previous context */
103	dectabl[dectop].context = curdec;
104	curdec = dectop;
105
106	}
107
108
109
110
111
112	segprim(p) /* store primitive in current segment */
113
114	register PRIMITIVE *p;
115
116	{
117	register PRIMITIVE *newp;
118
119	if (!inseg())
120	error(SYSTEM, "illegal call to segprim");
121
122	switch (p->com) {
123
124	case POPEN:
125	openseg(p->args);
126	break;
127
128	case PSEG:
129	segment(p, segprim);
130	break;
131
132	case PCLOSE:
133	closeseg();
134	break;
135
136	default:
137	if ((newp = palloc()) == NULL)
138	error(SYSTEM, "memory limit exceeded in segprim");
139	mcopy((char )newp, (char )p, sizeof(PRIMITIVE));
140	newp->args = savestr(p->args);
141	add(newp, &dectabl[curdec].sprims);
142	break;
143	}
144
145	}
146
147
148
149	closeseg() /* close the current segment */
150
151	{
152	register int i;
153
154	if (!inseg())
155	error(SYSTEM, "illegal call to closeseg");
156
157	/* undefine internal declarations */
158	for (i = dectop; i > curdec; i--) {
159	hashtabl[hash(dectabl[i].sname)] = dectabl[i].nexthash;
160	freestr(dectabl[i].sname);
161	plfree(&dectabl[i].sprims);
162	}
163	dectop = curdec;
164	/* define this declaration */
165	i = hash(dectabl[curdec].sname);
166	dectabl[curdec].nexthash = hashtabl[i];
167	hashtabl[i] = curdec;
168	/* return context */
169	curdec = dectabl[curdec].context;
170
171	}
172
173
174
175
176	segment(p, funcp) /* expand segment p */
177	PRIMITIVE *p;
178	int (*funcp)();
179
180	{
181	int decln;
182	PRIMITIVE curp;
183	register PRIMITIVE *sp;
184
185	if ((decln = lookup(p->args)) == NODEC) {
186	sprintf(errmsg, "reference to undefined segment \"%s\" in segment",
187	p->args);
188	error(USER, errmsg);
189	}
190
191	for (sp = dectabl[decln].sprims.ptop; sp != NULL; sp = sp->pnext)
192
193	if (isglob(sp->com))
194
195	(*funcp)(sp);
196
197	else {
198
199	switch (curp.com = sp->com) {
200
201	case PSEG:
202	case PVSTR:
203	case PTFILL:
204	case PPFILL:
205	curp.arg0 = (sp->arg0 & 0100) \|
206	(((sp->arg0 & 060) + p->arg0) & 060);
207	break;
208
209	case PLSEG:
210	if (p->arg0 & 020)
211	curp.arg0 = (~sp->arg0 & 0100) \| (sp->arg0 & 060);
212	else
213	curp.arg0 = sp->arg0 & 0160;
214	break;
215
216	default:
217	curp.arg0 = sp->arg0 & 0160;
218	break;
219	}
220	if (p->arg0 & 014)
221	curp.arg0 \|= p->arg0 & 014;
222	else
223	curp.arg0 \|= sp->arg0 & 014;
224	if (p->arg0 & 03)
225	curp.arg0 \|= p->arg0 & 03;
226	else
227	curp.arg0 \|= sp->arg0 & 03;
228
229	curp.xy[XMN] = xlate(XMN, sp, p);
230	curp.xy[YMN] = xlate(YMN, sp, p);
231	curp.xy[XMX] = xlate(XMX, sp, p);
232	curp.xy[YMX] = xlate(YMX, sp, p);
233	curp.args = sp->args;
234
235	(*funcp)(&curp);
236	}
237
238	}
239
240
241
242
243
244	int
245	xlate(extrema, p, px) /* return extrema from p through px */
246
247	short extrema;
248	PRIMITIVE *p;
249	register PRIMITIVE *px;
250
251	{
252	short oldex;
253	int val;
254
255	if (((oldex = (extrema + 4 - ((px->arg0 >> 4) & 03))%4) ^ extrema) & 02)
256	val = (XYSIZE-1) - p->xy[oldex];
257	else
258	val = p->xy[oldex];
259
260	if (extrema & 01)
261	return(CONV(val, px->xy[YMX] - px->xy[YMN]) + px->xy[YMN]);
262	else
263	return(CONV(val, px->xy[XMX] - px->xy[XMN]) + px->xy[XMN]);
264	}