src/meta/psplot.c

#ifndef lint
static const char       RCSid[] = "$Id$";
#endif
/*
 *  psplot.c - routines for generating PostScript output.
 *
 *      9/23/88
 */

#include "meta.h"

#include <ctype.h>

#ifdef SMALLAREA
#define HMARGIN         (0.2*72)                /* horizontal margin */
#define VMARGIN         (0.2*72)                /* vertical margin */
#define PWIDTH          (6*72-2*HMARGIN)        /* width of device */
#define PHEIGHT         (6*72-2*VMARGIN)        /* height of device */
#else
#define HMARGIN         (.6*72)                 /* horizontal margin */
#define VMARGIN         (.6*72)                 /* vertical margin */
#define PWIDTH          (8.5*72-2*HMARGIN)      /* width of device */
#define PHEIGHT         (11*72-2*VMARGIN)       /* height of device */
#endif

#define PSQUARE         PWIDTH                  /* maximal square */

#define MAXPATHL        700                     /* maximum path length */

#define PREFIX          "seg_"          /* name prefix */
#define ESCCHAR         '#'             /* to introduce hex in name */

#define checkline()     if (inaline) endline()


static int      savelvl = 0;

static int      inaline = 0;

static char     hexdigit[] = "0123456789ABCDEF";

static char     buf[512];


static char *
convertname(s)                          /* convert to segment name */
char    *s;
{
        register char   *cp, *cp0;

        for (cp = buf, cp0 = PREFIX; *cp0; )
                *cp++ = *cp0++;
        for (cp0 = s; *cp0; cp0++) {
                if (isalnum(*cp0))
                        *cp++ = *cp0;
                else {
                        *cp++ = ESCCHAR;
                        *cp++ = hexdigit[*cp0 >> 4];
                        *cp++ = hexdigit[*cp0 & 0xf];
                }
        }
        *cp = '\0';
        return(buf);
}


static char *
convertstring(s)                /* convert to acceptable string */
register char   *s;
{
        register char   *cp;
        
        for (cp = buf; *s; s++) {
                if (*s == '(' || *s == ')')
                        *cp++ = '\\';
                if (isprint(*s))
                        *cp++ = *s;
                else {
                        *cp++ = '\\';
                        *cp++ = (*s>>6) + '0';
                        *cp++ = (*s>>3 & 07) + '0';
                        *cp++ = (*s & 07) + '0';
                }
        }
        *cp = '\0';
        return(buf);
}


init(id)                        /* initialize */
char    *id;
{
        printf("%%!PS-Adobe-2.0 EPSF-2.0\n");
        printf("%%%%BoundingBox: %.0f %.0f %.0f %.0f\n",
                        HMARGIN+(PWIDTH-PSQUARE)/2.,
                        VMARGIN+(PHEIGHT-PSQUARE)/2.,
                        HMARGIN+(PWIDTH-PSQUARE)/2.+PSQUARE,
                        VMARGIN+(PHEIGHT-PSQUARE)/2.+PSQUARE);
        printf("%%%%DocumentFonts: Helvetica Courier\n");
        if (id != NULL)
                printf("%%%%Creator: %s\n", id);
        printf("gsave\n");
        printf("save\n");
        printf("256 dict begin\n");
        printf("%f %f translate\n", HMARGIN+(PWIDTH-PSQUARE)/2.,
                        VMARGIN+(PHEIGHT-PSQUARE)/2.);
        printf("%f %f scale\n", (double)PSQUARE/XYSIZE,
                        (double)PSQUARE/XYSIZE);
        printf("/mapping matrix currentmatrix def\n");
        printf("/segment {\t\t%% name lth pat col dir xmn ymn xmx ymx\n");
        printf("\t/startstate save def\n");
        printf("\t128 dict begin\t\t%% get parameters\n");
        printf("\t/ymax exch def /xmax exch def\n");
        printf("\t/ymin exch def /xmin exch def\n");
        printf("\t/orient exch def\n");
        printf("\t/colndx exch def /patndx exch def /lthick exch def\n");
        printf("\t%% segment name left on stack\n");
        printf("\txmax xmin add 2 div ymax ymin add 2 div translate\n");
        printf("\txmax xmin sub %d div ymax ymin sub %d div scale\n",
                        XYSIZE, XYSIZE);
        printf("\torient 90 mul rotate\n");
        printf("\t%d %d translate\n", -XYSIZE/2, -XYSIZE/2);
        printf("\tcvx exec\t\t\t%% execute segment\n");
        printf("\tend\n");
        printf("\tstartstate restore\n");
        printf("} def\n");
        printf("/vstr {\t\t\t%% string\n");
        printf("\t0 setcolor\n");
        printf("\t/Helvetica findfont setfont\n");
        printf("\tdup stringwidth pop %d exch div %d scale\n", XYSIZE, XYSIZE);
        printf("\tcurrentfont charorigin translate\n");
        printf("\t0 0 moveto show\n");
        printf("} def\n");
        printf("/charorigin {\t\t\t%% font charorigin xorg yorg\n");
        printf("\tdup /FontBBox get aload pop pop pop\n");
        printf("\t3 2 roll /FontMatrix get transform\n");
        printf("\texch neg exch neg\n");
        printf("} def\n");
        printf("/newline {\t\t\t%% lpat lthick col x0 y0\n");
        printf("\tnewpath moveto\n");
        printf("\tsetcolor setlthick setlpat\n");
        printf("} def\n");
        printf("/rfilldict 4 dict def\n");
        printf("/rfill {\t\t\t%% pat col xmn ymn xmx ymx\n");
        printf("\trfilldict begin\n");
        printf("\t/ymax exch def /xmax exch def\n");
        printf("\t/ymin exch def /xmin exch def\n");
        printf("\tsetcolor setpattern\n");
        printf("\tnewpath\n");
        printf("\txmin ymin moveto\n");
        printf("\txmax ymin lineto\n");
        printf("\txmax ymax lineto\n");
        printf("\txmin ymax lineto\n");
        printf("\tclosepath patfill\n");
        printf("\tend\n");
        printf("} def\n");
        printf("/fillpoly {\t\t\t%% pat col mark x1 y1 .. xn yn\n");
        printf("\tnewpath moveto\n");
        printf("\tcounttomark 2 idiv { lineto } repeat cleartomark\n");
        printf("\tclosepath\n");
        printf("\tsetcolor setpattern\n");
        printf("\t{ gsave 0 setlinewidth stroke grestore } if\n");
        printf("\tpatfill\n");
        printf("} def\n");
        printf("/mstr {\t\t\t%% fnt col x y\n");
        printf("\t100 add moveto setcolor setmfont show\n");
        printf("} def\n");
        printf("/patfill {\n");
        printf("\tfill\t\t\t\t%% unimplemented\n");
        printf("} def\n");
        printf("/setmfont {\t\t\t%% fontndx\n");
        printf("\tmfontab exch get setfont\n");
        printf("} def\n");
        printf("/setcolor {\t\t\t%% colndx\n");
        printf("\tcolndx 0 ne { pop colndx } if\n");
        printf("\trgbcoltab exch get aload pop setrgbcolor\n");
        printf("} def\n");
        printf("/setlthick {\t\t\t%% lthick\n");
        printf("\tlthick 0 ne { pop lthick } if\n");
        printf("\tsetlinewidth\n");
        printf("} def\n");
        printf("/setlpat {\t\t\t%% lpatndx\n");
        printf("\tdashtab exch get 0 setdash\n");
        printf("} def\n");
        printf("/setpattern {\t\t\t%% patndx\n");
        printf("\tpop\t\t\t\t%% unimplemented\n");
        printf("} def\n");
        printf("/canonfont\t\t\t%% canonical matrix string font\n");
        printf("\t/Courier findfont\n");
        printf("\tdup charorigin matrix translate\n");
        printf("\tmakefont\n");
        printf("def\n");
        printf("/mfontab [\t\t\t%% hardware font table\n");
        printf("\t[\n");
        printf("\t\t[ 340 0 0 340 0 -340 ]\n");
        printf("\t\t[ 681 0 0 340 0 -340 ]\n");
        printf("\t\t[ 340 0 0 681 0 -681 ]\n");
        printf("\t\t[ 681 0 0 681 0 -681 ]\n");
        printf("\t\t[ 282 0 0 282 0 -282 ]\n");
        printf("\t\t[ 564 0 0 282 0 -282 ]\n");
        printf("\t\t[ 282 0 0 564 0 -564 ]\n");
        printf("\t\t[ 564 0 0 564 0 -564 ]\n");
        printf("\t\t[ 199 0 0 199 0 -199 ]\n");
        printf("\t\t[ 398 0 0 199 0 -199 ]\n");
        printf("\t\t[ 199 0 0 398 0 -398 ]\n");
        printf("\t\t[ 398 0 0 398 0 -398 ]\n");
        printf("\t\t[ 169 0 0 169 0 -169 ]\n");
        printf("\t\t[ 339 0 0 169 0 -169 ]\n");
        printf("\t\t[ 169 0 0 339 0 -339 ]\n");
        printf("\t\t[ 339 0 0 339 0 -339 ]\n");
        printf("\t]\n");
        printf("\t{ canonfont exch makefont }\n");
        printf("\tforall\n");
        printf("] def\n");
        printf("/dashtab [ [ ] [ 200 80 ] [ 80 80 ] [ 200 80 80 80 ] ] def\n");
        printf("/rgbcoltab [ [ 0 0 0 ] [ 1 0 0 ] [ 0 1 0 ] [ 0 0 1 ] ] def\n");
        printf("/colndx 0 def /patndx 0 def /lthick 0 def\n");
        printf("%%%%EndProlog\n");
}


done()                          /* done with graphics */
{
        printf("end\nrestore\ngrestore\n");
}


endpage()                       /* done with page */
{
        checkline();

        printf("showpage\nmapping setmatrix\n");
}


segopen(s)                      /* open a segment */
char    *s;
{
        checkline();

        printf("/%s {\n", convertname(s));
}


segclose()                      /* close a segment */
{
        checkline();

        printf("} def\n");
}


doseg(p)                        /* instance of a segment */
register PRIMITIVE      *p;
{
        checkline();

        printf("/%s %d %d %d ", convertname(p->args),
                        WIDTH(p->arg0>>2 & 03),
                        p->arg0>>2 & 03, p->arg0 & 03);
        printf("%d %d %d %d %d segment\n", p->arg0>>4,
                        p->xy[XMN], p->xy[YMN], p->xy[XMX], p->xy[YMX]);
}


printstr(p)                     /* print a string */
register PRIMITIVE      *p;
{
        checkline();
        printf("(%s) %d %d %d %d mstr\n", convertstring(p->args),
                        p->arg0>>2 & 017, p->arg0 & 03,
                        p->xy[XMN], p->xy[YMX]);
}


plotvstr(p)                     /* print a vector string */
register PRIMITIVE      *p;
{
        checkline();

        printf("(%s) /vstr %d 0 %d ", convertstring(p->args),
                        WIDTH(p->arg0>>2 & 03), p->arg0 & 03);
        printf("%d %d %d %d %d segment\n", p->arg0>>4,
                        p->xy[XMN], p->xy[YMN], p->xy[XMX], p->xy[YMX]);
}


plotlseg(p)                     /* plot a line segment */
register PRIMITIVE      *p;
{
        static int      right = FALSE;
        static int      curx, cury;
        static int      curlpat, curlthick, curlcol;
        int     y1, y2;
        int     lpat, lthick, lcol;

        if (p->arg0 & 0100) {
                y1 = p->xy[YMX];
                y2 = p->xy[YMN];
        } else {
                y1 = p->xy[YMN];
                y2 = p->xy[YMX];
        }
        lpat = p->arg0>>4 & 03;
        lthick = WIDTH(p->arg0>>2 & 03);
        lcol = p->arg0 & 03;
        if (!inaline || lpat != curlpat ||
                        lthick != curlthick || lcol != curlcol) {
                checkline();
                printf("%d %d %d %d %d newline\n",
                                curlpat = lpat,
                                curlthick = lthick,
                                curlcol = lcol,
                                curx = p->xy[XMN],
                                cury = y1);
        }
        if (curx == p->xy[XMN] && cury == y1) {
                printf("%d %d lineto\n", curx = p->xy[XMX], cury = y2);
        } else if (curx == p->xy[XMX] && cury == y2) {
                printf("%d %d lineto\n", curx = p->xy[XMN], cury = y1);
        } else if (right = !right) {
                printf("%d %d moveto ", p->xy[XMN], y1);
                printf("%d %d lineto\n", curx = p->xy[XMX], cury = y2);
        } else {
                printf("%d %d moveto ", p->xy[XMX], y2);
                printf("%d %d lineto\n", curx = p->xy[XMN], cury = y1);
        }
        if (++inaline >= MAXPATHL)
                endline();
}


endline()                       /* close current line */
{
        printf("stroke\n");
        inaline = 0;
}


fillrect(p)                     /* fill a rectangle */
register PRIMITIVE      *p;
{
        checkline();

        printf("%d %d %d %d %d %d rfill\n", p->arg0>>2 & 03, p->arg0 & 03,
                        p->xy[XMN], p->xy[YMN], p->xy[XMX], p->xy[YMX]);
}


filltri(p)                      /* fill a triangle */
register PRIMITIVE      *p;
{
        static short    corn[4][2] = {XMN,YMX,XMN,YMN,XMX,YMN,XMX,YMX};
        int             orient;
        register int    i;
        
        checkline();

        printf("false %d %d mark\n", p->arg0>>2 & 03, p->arg0 & 03);
        orient = p->arg0>>4 & 03;
        for (i = 0; i < 4; i++)
                if (i != orient)
                        printf("%d %d ", p->xy[corn[i][0]],
                                        p->xy[corn[i][1]]);
        printf("fillpoly\n");
}


xform(xp, yp, p)                /* transform a point according to p */
register int  *xp, *yp;
register PRIMITIVE  *p;
{
    int  x, y;

    switch (p->arg0 & 060) {
        case 0:                 /* right */
            x = *xp;
            y = *yp;
            break;
        case 020:               /* up */
            x = (XYSIZE-1) - *yp;
            y = *xp;
            break;
        case 040:               /* left */
            x = (XYSIZE-1) - *xp;
            y = (XYSIZE-1) - *yp;
            break;
        case 060:               /* down */
            x = *yp;
            y = (XYSIZE-1) - *xp;
            break;
    }
    *xp = CONV(x, p->xy[XMX] - p->xy[XMN]) + p->xy[XMN];
    *yp = CONV(y, p->xy[YMX] - p->xy[YMN]) + p->xy[YMN];
}


fillpoly(p)                     /* fill a polygon */
register PRIMITIVE      *p;
{
        extern char     *nextscan();
        register char   *s;
        int     curx, cury;

        checkline();

        printf("%s %d %d mark\n", p->arg0 & 0100 ? "false" : "true",
                        p->arg0>>2 & 03, p->arg0 & 03);
        s = p->args;
        while ((s = nextscan(nextscan(s, "%d", &curx), "%d", &cury)) != NULL) {
                xform(&curx, &cury, p);
                printf("%d %d ", curx, cury);
        }
        printf("fillpoly\n");
}


set(attrib, val)                /* set an attribute or context */
int     attrib;
char    *val;
{
        checkline();

        switch (attrib) {
        case SALL:
                printf("save\n");
                savelvl++;
                break;
        case SPAT0:
        case SPAT1:
        case SPAT2:
        case SPAT3:
                break;
        default:
                error(WARNING, "illegal set command");
                break;
        }
}


unset(attrib)                   /* unset an attribute or context */
int     attrib;
{
        checkline();

        switch (attrib) {
        case SALL:
                if (savelvl > 0) {
                        printf("restore\n");
                        savelvl--;
                }
                break;
        case SPAT0:
        case SPAT1:
        case SPAT2:
        case SPAT3:
                break;
        default:
                error(WARNING, "illegal unset command");
                break;
        }
}


reset(attrib)                   /* reset an attribute or context */
int     attrib;
{
        checkline();

        switch (attrib) {
        case SALL:
                while (savelvl > 0) {
                        printf("restore\n");
                        savelvl--;
                }
                printf("restore save\n");
                break;
        case SPAT0:
        case SPAT1:
        case SPAT2:
        case SPAT3:
                break;
        default:
                error(WARNING, "illegal reset command");
                break;
        }
}
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	* psplot.c - routines for generating PostScript output.
6	*
7	* 9/23/88
8	*/
9
10	#include "meta.h"
11
12	#include <ctype.h>
13
14	#ifdef SMALLAREA
15	#define HMARGIN (0.272) / horizontal margin */
16	#define VMARGIN (0.272) / vertical margin */
17	#define PWIDTH (672-2HMARGIN) /* width of device */
18	#define PHEIGHT (672-2VMARGIN) /* height of device */
19	#else
20	#define HMARGIN (.672) / horizontal margin */
21	#define VMARGIN (.672) / vertical margin */
22	#define PWIDTH (8.572-2HMARGIN) /* width of device */
23	#define PHEIGHT (1172-2VMARGIN) /* height of device */
24	#endif
25
26	#define PSQUARE PWIDTH /* maximal square */
27
28	#define MAXPATHL 700 /* maximum path length */
29
30	#define PREFIX "seg_" /* name prefix */
31	#define ESCCHAR '#' /* to introduce hex in name */
32
33	#define checkline() if (inaline) endline()
34
35
36	static int savelvl = 0;
37
38	static int inaline = 0;
39
40	static char hexdigit[] = "0123456789ABCDEF";
41
42	static char buf[512];
43
44
45	static char *
46	convertname(s) /* convert to segment name */
47	char *s;
48	{
49	register char cp, cp0;
50
51	for (cp = buf, cp0 = PREFIX; *cp0; )
52	cp++ = cp0++;
53	for (cp0 = s; *cp0; cp0++) {
54	if (isalnum(*cp0))
55	cp++ = cp0;
56	else {
57	*cp++ = ESCCHAR;
58	cp++ = hexdigit[cp0 >> 4];
59	cp++ = hexdigit[cp0 & 0xf];
60	}
61	}
62	*cp = '\0';
63	return(buf);
64	}
65
66
67	static char *
68	convertstring(s) /* convert to acceptable string */
69	register char *s;
70	{
71	register char *cp;
72
73	for (cp = buf; *s; s++) {
74	if (s == '(' \|\| s == ')')
75	*cp++ = '\\';
76	if (isprint(*s))
77	cp++ = s;
78	else {
79	*cp++ = '\\';
80	cp++ = (s>>6) + '0';
81	cp++ = (s>>3 & 07) + '0';
82	cp++ = (s & 07) + '0';
83	}
84	}
85	*cp = '\0';
86	return(buf);
87	}
88
89
90	init(id) /* initialize */
91	char *id;
92	{
93	printf("%%!PS-Adobe-2.0 EPSF-2.0\n");
94	printf("%%%%BoundingBox: %.0f %.0f %.0f %.0f\n",
95	HMARGIN+(PWIDTH-PSQUARE)/2.,
96	VMARGIN+(PHEIGHT-PSQUARE)/2.,
97	HMARGIN+(PWIDTH-PSQUARE)/2.+PSQUARE,
98	VMARGIN+(PHEIGHT-PSQUARE)/2.+PSQUARE);
99	printf("%%%%DocumentFonts: Helvetica Courier\n");
100	if (id != NULL)
101	printf("%%%%Creator: %s\n", id);
102	printf("gsave\n");
103	printf("save\n");
104	printf("256 dict begin\n");
105	printf("%f %f translate\n", HMARGIN+(PWIDTH-PSQUARE)/2.,
106	VMARGIN+(PHEIGHT-PSQUARE)/2.);
107	printf("%f %f scale\n", (double)PSQUARE/XYSIZE,
108	(double)PSQUARE/XYSIZE);
109	printf("/mapping matrix currentmatrix def\n");
110	printf("/segment {\t\t%% name lth pat col dir xmn ymn xmx ymx\n");
111	printf("\t/startstate save def\n");
112	printf("\t128 dict begin\t\t%% get parameters\n");
113	printf("\t/ymax exch def /xmax exch def\n");
114	printf("\t/ymin exch def /xmin exch def\n");
115	printf("\t/orient exch def\n");
116	printf("\t/colndx exch def /patndx exch def /lthick exch def\n");
117	printf("\t%% segment name left on stack\n");
118	printf("\txmax xmin add 2 div ymax ymin add 2 div translate\n");
119	printf("\txmax xmin sub %d div ymax ymin sub %d div scale\n",
120	XYSIZE, XYSIZE);
121	printf("\torient 90 mul rotate\n");
122	printf("\t%d %d translate\n", -XYSIZE/2, -XYSIZE/2);
123	printf("\tcvx exec\t\t\t%% execute segment\n");
124	printf("\tend\n");
125	printf("\tstartstate restore\n");
126	printf("} def\n");
127	printf("/vstr {\t\t\t%% string\n");
128	printf("\t0 setcolor\n");
129	printf("\t/Helvetica findfont setfont\n");
130	printf("\tdup stringwidth pop %d exch div %d scale\n", XYSIZE, XYSIZE);
131	printf("\tcurrentfont charorigin translate\n");
132	printf("\t0 0 moveto show\n");
133	printf("} def\n");
134	printf("/charorigin {\t\t\t%% font charorigin xorg yorg\n");
135	printf("\tdup /FontBBox get aload pop pop pop\n");
136	printf("\t3 2 roll /FontMatrix get transform\n");
137	printf("\texch neg exch neg\n");
138	printf("} def\n");
139	printf("/newline {\t\t\t%% lpat lthick col x0 y0\n");
140	printf("\tnewpath moveto\n");
141	printf("\tsetcolor setlthick setlpat\n");
142	printf("} def\n");
143	printf("/rfilldict 4 dict def\n");
144	printf("/rfill {\t\t\t%% pat col xmn ymn xmx ymx\n");
145	printf("\trfilldict begin\n");
146	printf("\t/ymax exch def /xmax exch def\n");
147	printf("\t/ymin exch def /xmin exch def\n");
148	printf("\tsetcolor setpattern\n");
149	printf("\tnewpath\n");
150	printf("\txmin ymin moveto\n");
151	printf("\txmax ymin lineto\n");
152	printf("\txmax ymax lineto\n");
153	printf("\txmin ymax lineto\n");
154	printf("\tclosepath patfill\n");
155	printf("\tend\n");
156	printf("} def\n");
157	printf("/fillpoly {\t\t\t%% pat col mark x1 y1 .. xn yn\n");
158	printf("\tnewpath moveto\n");
159	printf("\tcounttomark 2 idiv { lineto } repeat cleartomark\n");
160	printf("\tclosepath\n");
161	printf("\tsetcolor setpattern\n");
162	printf("\t{ gsave 0 setlinewidth stroke grestore } if\n");
163	printf("\tpatfill\n");
164	printf("} def\n");
165	printf("/mstr {\t\t\t%% fnt col x y\n");
166	printf("\t100 add moveto setcolor setmfont show\n");
167	printf("} def\n");
168	printf("/patfill {\n");
169	printf("\tfill\t\t\t\t%% unimplemented\n");
170	printf("} def\n");
171	printf("/setmfont {\t\t\t%% fontndx\n");
172	printf("\tmfontab exch get setfont\n");
173	printf("} def\n");
174	printf("/setcolor {\t\t\t%% colndx\n");
175	printf("\tcolndx 0 ne { pop colndx } if\n");
176	printf("\trgbcoltab exch get aload pop setrgbcolor\n");
177	printf("} def\n");
178	printf("/setlthick {\t\t\t%% lthick\n");
179	printf("\tlthick 0 ne { pop lthick } if\n");
180	printf("\tsetlinewidth\n");
181	printf("} def\n");
182	printf("/setlpat {\t\t\t%% lpatndx\n");
183	printf("\tdashtab exch get 0 setdash\n");
184	printf("} def\n");
185	printf("/setpattern {\t\t\t%% patndx\n");
186	printf("\tpop\t\t\t\t%% unimplemented\n");
187	printf("} def\n");
188	printf("/canonfont\t\t\t%% canonical matrix string font\n");
189	printf("\t/Courier findfont\n");
190	printf("\tdup charorigin matrix translate\n");
191	printf("\tmakefont\n");
192	printf("def\n");
193	printf("/mfontab [\t\t\t%% hardware font table\n");
194	printf("\t[\n");
195	printf("\t\t[ 340 0 0 340 0 -340 ]\n");
196	printf("\t\t[ 681 0 0 340 0 -340 ]\n");
197	printf("\t\t[ 340 0 0 681 0 -681 ]\n");
198	printf("\t\t[ 681 0 0 681 0 -681 ]\n");
199	printf("\t\t[ 282 0 0 282 0 -282 ]\n");
200	printf("\t\t[ 564 0 0 282 0 -282 ]\n");
201	printf("\t\t[ 282 0 0 564 0 -564 ]\n");
202	printf("\t\t[ 564 0 0 564 0 -564 ]\n");
203	printf("\t\t[ 199 0 0 199 0 -199 ]\n");
204	printf("\t\t[ 398 0 0 199 0 -199 ]\n");
205	printf("\t\t[ 199 0 0 398 0 -398 ]\n");
206	printf("\t\t[ 398 0 0 398 0 -398 ]\n");
207	printf("\t\t[ 169 0 0 169 0 -169 ]\n");
208	printf("\t\t[ 339 0 0 169 0 -169 ]\n");
209	printf("\t\t[ 169 0 0 339 0 -339 ]\n");
210	printf("\t\t[ 339 0 0 339 0 -339 ]\n");
211	printf("\t]\n");
212	printf("\t{ canonfont exch makefont }\n");
213	printf("\tforall\n");
214	printf("] def\n");
215	printf("/dashtab [ [ ] [ 200 80 ] [ 80 80 ] [ 200 80 80 80 ] ] def\n");
216	printf("/rgbcoltab [ [ 0 0 0 ] [ 1 0 0 ] [ 0 1 0 ] [ 0 0 1 ] ] def\n");
217	printf("/colndx 0 def /patndx 0 def /lthick 0 def\n");
218	printf("%%%%EndProlog\n");
219	}
220
221
222	done() /* done with graphics */
223	{
224	printf("end\nrestore\ngrestore\n");
225	}
226
227
228	endpage() /* done with page */
229	{
230	checkline();
231
232	printf("showpage\nmapping setmatrix\n");
233	}
234
235
236	segopen(s) /* open a segment */
237	char *s;
238	{
239	checkline();
240
241	printf("/%s {\n", convertname(s));
242	}
243
244
245	segclose() /* close a segment */
246	{
247	checkline();
248
249	printf("} def\n");
250	}
251
252
253	doseg(p) /* instance of a segment */
254	register PRIMITIVE *p;
255	{
256	checkline();
257
258	printf("/%s %d %d %d ", convertname(p->args),
259	WIDTH(p->arg0>>2 & 03),
260	p->arg0>>2 & 03, p->arg0 & 03);
261	printf("%d %d %d %d %d segment\n", p->arg0>>4,
262	p->xy[XMN], p->xy[YMN], p->xy[XMX], p->xy[YMX]);
263	}
264
265
266	printstr(p) /* print a string */
267	register PRIMITIVE *p;
268	{
269	checkline();
270	printf("(%s) %d %d %d %d mstr\n", convertstring(p->args),
271	p->arg0>>2 & 017, p->arg0 & 03,
272	p->xy[XMN], p->xy[YMX]);
273	}
274
275
276	plotvstr(p) /* print a vector string */
277	register PRIMITIVE *p;
278	{
279	checkline();
280
281	printf("(%s) /vstr %d 0 %d ", convertstring(p->args),
282	WIDTH(p->arg0>>2 & 03), p->arg0 & 03);
283	printf("%d %d %d %d %d segment\n", p->arg0>>4,
284	p->xy[XMN], p->xy[YMN], p->xy[XMX], p->xy[YMX]);
285	}
286
287
288	plotlseg(p) /* plot a line segment */
289	register PRIMITIVE *p;
290	{
291	static int right = FALSE;
292	static int curx, cury;
293	static int curlpat, curlthick, curlcol;
294	int y1, y2;
295	int lpat, lthick, lcol;
296
297	if (p->arg0 & 0100) {
298	y1 = p->xy[YMX];
299	y2 = p->xy[YMN];
300	} else {
301	y1 = p->xy[YMN];
302	y2 = p->xy[YMX];
303	}
304	lpat = p->arg0>>4 & 03;
305	lthick = WIDTH(p->arg0>>2 & 03);
306	lcol = p->arg0 & 03;
307	if (!inaline \|\| lpat != curlpat \|\|
308	lthick != curlthick \|\| lcol != curlcol) {
309	checkline();
310	printf("%d %d %d %d %d newline\n",
311	curlpat = lpat,
312	curlthick = lthick,
313	curlcol = lcol,
314	curx = p->xy[XMN],
315	cury = y1);
316	}
317	if (curx == p->xy[XMN] && cury == y1) {
318	printf("%d %d lineto\n", curx = p->xy[XMX], cury = y2);
319	} else if (curx == p->xy[XMX] && cury == y2) {
320	printf("%d %d lineto\n", curx = p->xy[XMN], cury = y1);
321	} else if (right = !right) {
322	printf("%d %d moveto ", p->xy[XMN], y1);
323	printf("%d %d lineto\n", curx = p->xy[XMX], cury = y2);
324	} else {
325	printf("%d %d moveto ", p->xy[XMX], y2);
326	printf("%d %d lineto\n", curx = p->xy[XMN], cury = y1);
327	}
328	if (++inaline >= MAXPATHL)
329	endline();
330	}
331
332
333	endline() /* close current line */
334	{
335	printf("stroke\n");
336	inaline = 0;
337	}
338
339
340	fillrect(p) /* fill a rectangle */
341	register PRIMITIVE *p;
342	{
343	checkline();
344
345	printf("%d %d %d %d %d %d rfill\n", p->arg0>>2 & 03, p->arg0 & 03,
346	p->xy[XMN], p->xy[YMN], p->xy[XMX], p->xy[YMX]);
347	}
348
349
350	filltri(p) /* fill a triangle */
351	register PRIMITIVE *p;
352	{
353	static short corn[4][2] = {XMN,YMX,XMN,YMN,XMX,YMN,XMX,YMX};
354	int orient;
355	register int i;
356
357	checkline();
358
359	printf("false %d %d mark\n", p->arg0>>2 & 03, p->arg0 & 03);
360	orient = p->arg0>>4 & 03;
361	for (i = 0; i < 4; i++)
362	if (i != orient)
363	printf("%d %d ", p->xy[corn[i][0]],
364	p->xy[corn[i][1]]);
365	printf("fillpoly\n");
366	}
367
368
369	xform(xp, yp, p) /* transform a point according to p */
370	register int xp, yp;
371	register PRIMITIVE *p;
372	{
373	int x, y;
374
375	switch (p->arg0 & 060) {
376	case 0: /* right */
377	x = *xp;
378	y = *yp;
379	break;
380	case 020: /* up */
381	x = (XYSIZE-1) - *yp;
382	y = *xp;
383	break;
384	case 040: /* left */
385	x = (XYSIZE-1) - *xp;
386	y = (XYSIZE-1) - *yp;
387	break;
388	case 060: /* down */
389	x = *yp;
390	y = (XYSIZE-1) - *xp;
391	break;
392	}
393	*xp = CONV(x, p->xy[XMX] - p->xy[XMN]) + p->xy[XMN];
394	*yp = CONV(y, p->xy[YMX] - p->xy[YMN]) + p->xy[YMN];
395	}
396
397
398	fillpoly(p) /* fill a polygon */
399	register PRIMITIVE *p;
400	{
401	extern char *nextscan();
402	register char *s;
403	int curx, cury;
404
405	checkline();
406
407	printf("%s %d %d mark\n", p->arg0 & 0100 ? "false" : "true",
408	p->arg0>>2 & 03, p->arg0 & 03);
409	s = p->args;
410	while ((s = nextscan(nextscan(s, "%d", &curx), "%d", &cury)) != NULL) {
411	xform(&curx, &cury, p);
412	printf("%d %d ", curx, cury);
413	}
414	printf("fillpoly\n");
415	}
416
417
418	set(attrib, val) /* set an attribute or context */
419	int attrib;
420	char *val;
421	{
422	checkline();
423
424	switch (attrib) {
425	case SALL:
426	printf("save\n");
427	savelvl++;
428	break;
429	case SPAT0:
430	case SPAT1:
431	case SPAT2:
432	case SPAT3:
433	break;
434	default:
435	error(WARNING, "illegal set command");
436	break;
437	}
438	}
439
440
441	unset(attrib) /* unset an attribute or context */
442	int attrib;
443	{
444	checkline();
445
446	switch (attrib) {
447	case SALL:
448	if (savelvl > 0) {
449	printf("restore\n");
450	savelvl--;
451	}
452	break;
453	case SPAT0:
454	case SPAT1:
455	case SPAT2:
456	case SPAT3:
457	break;
458	default:
459	error(WARNING, "illegal unset command");
460	break;
461	}
462	}
463
464
465	reset(attrib) /* reset an attribute or context */
466	int attrib;
467	{
468	checkline();
469
470	switch (attrib) {
471	case SALL:
472	while (savelvl > 0) {
473	printf("restore\n");
474	savelvl--;
475	}
476	printf("restore save\n");
477	break;
478	case SPAT0:
479	case SPAT1:
480	case SPAT2:
481	case SPAT3:
482	break;
483	default:
484	error(WARNING, "illegal reset command");
485	break;
486	}
487	}