src/meta/mgvars.c

#ifndef lint
static const char       RCSid[] = "$Id: mgvars.c,v 1.4 2003/11/14 00:14:40 schorsch Exp $";
#endif
/*
 *  mgvars.c - routines dealing with graph variables.
 *
 *     6/23/86
 *
 *     Greg Ward Larson
 */

#include  <stdio.h>
#include  <stdlib.h>
#include  <math.h>
#include  <string.h>
#include  <ctype.h>

#include  "rtprocess.h"
#include  "rterror.h"
#include  "rtio.h"
#include  "calcomp.h"
#include  "mgvars.h"

#define  MAXLINE        512

#define  isnum(c) (isdigit(c)||(c)=='-'||(c)=='+'||(c)=='.'||(c)=='e'||(c)=='E')

static void mgprint(register VARIABLE *vp, FILE *fp);
static void setivar(char *vname, char *fname, char *definition);
static char *findfile(char *fname, register char **pathlist);
static void loaddata(char *fname, FILE *fp, register DARRAY *dp);
static void undefine(register VARIABLE *vp);

extern char *progname, *libpath[];

IVAR  *ivhead = NULL;                   /* intermediate variables */

VARIABLE  gparam[NVARS] = {             /* standard variables */
        { "fthick", REAL, "frame thickness" },
        { "grid", REAL, "grid on?" },
        { "legend", STRING, "legend title" },
        { "othick", REAL, "origin thickness" },
        { "period", REAL, "period of polar plot" },
        { "subtitle", STRING },
        { "symfile", STRING, "symbol file" },
        { "tstyle", REAL, "tick mark style" },
        { "title", STRING },
        { "xlabel", STRING },
        { "xmap", FUNCTION, "x axis mapping function" },
        { "xmax", REAL },
        { "xmin", REAL },
        { "xstep", REAL },
        { "ylabel", STRING },
        { "ymap", FUNCTION, "y axis mapping function" },
        { "ymax", REAL },
        { "ymin", REAL },
        { "ystep", REAL },
};

VARIABLE  cparam[MAXCUR][NCVARS] = {    /* curve variables */
        {
                { "A", FUNCTION, "function for curve A" },
                { "Acolor", REAL, "color for A" },
                { "Adata", DATA, "point data for A" },
                { "Alabel", STRING },
                { "Alintype", REAL, "line type for A" },
                { "Anpoints", REAL, "number of points for A" },
                { "Asymsize", REAL, "symbol size for A" },
                { "Asymtype", STRING, "symbol type for A" },
                { "Athick", REAL, "line thickness for A" },
        }, {
                { "B", FUNCTION, "function for curve B" },
                { "Bcolor", REAL, "color for B" },
                { "Bdata", DATA, "point data for B" },
                { "Blabel", STRING },
                { "Blintype", REAL, "line type for B" },
                { "Bnpoints", REAL, "number of points for B" },
                { "Bsymsize", REAL, "symbol size for B" },
                { "Bsymtype", STRING, "symbol type for B" },
                { "Bthick", REAL, "line thickness for B" },
        }, {
                { "C", FUNCTION, "function for curve C" },
                { "Ccolor", REAL, "color for C" },
                { "Cdata", DATA, "point data for C" },
                { "Clabel", STRING },
                { "Clintype", REAL, "line type for C" },
                { "Cnpoints", REAL, "number of points for C" },
                { "Csymsize", REAL, "symbol size for C" },
                { "Csymtype", STRING, "symbol type for C" },
                { "Cthick", REAL, "line thickness for C" },
        }, {
                { "D", FUNCTION, "function for curve D" },
                { "Dcolor", REAL, "color for D" },
                { "Ddata", DATA, "point data for D" },
                { "Dlabel", STRING },
                { "Dlintype", REAL, "line type for D" },
                { "Dnpoints", REAL, "number of points for D" },
                { "Dsymsize", REAL, "symbol size for D" },
                { "Dsymtype", STRING, "symbol type for D" },
                { "Dthick", REAL, "line thickness for D" },
        }, {
                { "E", FUNCTION, "function for curve E" },
                { "Ecolor", REAL, "color for E" },
                { "Edata", DATA, "point data for E" },
                { "Elabel", STRING },
                { "Elintype", REAL, "line type for E" },
                { "Enpoints", REAL, "number of points for E" },
                { "Esymsize", REAL, "symbol size for E" },
                { "Esymtype", STRING, "symbol type for E" },
                { "Ethick", REAL, "line thickness for E" },
        }, {
                { "F", FUNCTION, "function for curve F" },
                { "Fcolor", REAL, "color for F" },
                { "Fdata", DATA, "point data for F" },
                { "Flabel", STRING },
                { "Flintype", REAL, "line type for F" },
                { "Fnpoints", REAL, "number of points for F" },
                { "Fsymsize", REAL, "symbol size for F" },
                { "Fsymtype", STRING, "symbol type for F" },
                { "Fthick", REAL, "line thickness for F" },
        }, {
                { "G", FUNCTION, "function for curve G" },
                { "Gcolor", REAL, "color for G" },
                { "Gdata", DATA, "point data for G" },
                { "Glabel", STRING },
                { "Glintype", REAL, "line type for G" },
                { "Gnpoints", REAL, "number of points for G" },
                { "Gsymsize", REAL, "symbol size for G" },
                { "Gsymtype", STRING, "symbol type for G" },
                { "Gthick", REAL, "line thickness for G" },
        }, {
                { "H", FUNCTION, "function for curve H" },
                { "Hcolor", REAL, "color for H" },
                { "Hdata", DATA, "point data for H" },
                { "Hlabel", STRING },
                { "Hlintype", REAL, "line type for H" },
                { "Hnpoints", REAL, "number of points for H" },
                { "Hsymsize", REAL, "symbol size for H" },
                { "Hsymtype", STRING, "symbol type for H" },
                { "Hthick", REAL, "line thickness for H" },
        },
};


void
mgclearall(void)                        /* clear all variable settings */
{
        int  j;
        register IVAR  *iv;
        register int  i;

        for (iv = ivhead; iv != NULL; iv = iv->next) {
                dremove(iv->name);
                freestr(iv->name);
                freestr(iv->dfn);
                efree((char *)iv);
        }
        ivhead = NULL;

        for (i = 0; i < NVARS; i++)
                if (gparam[i].flags & DEFINED)
                        undefine(&gparam[i]);
        
        for (j = 0; j < MAXCUR; j++)
                for (i = 0; i < NCVARS; i++)
                        if (cparam[j][i].flags & DEFINED)
                                undefine(&cparam[j][i]);
}


void
mgload(                 /* load a file */
char  *file
)
{
        FILE  *fp;
        char  sbuf[MAXLINE], *fgets();
        int  inquote;
        register char  *cp, *cp2;

        if (file == NULL) {
                fp = stdin;
                file = "<stdin>";
        } else if ((fp = fopen(file, "r")) == NULL) {
                fprintf(stderr, "%s: Cannot open: %s\n", progname, file);
                quit(1);
        }
        while (fgets(sbuf+1, sizeof(sbuf)-1, fp) != NULL) {
                inquote = 0;
                cp2 = sbuf;
                for (cp = sbuf+1; *cp; cp++)    /* condition the input line */
                        switch (*cp) {
                        case '#':
                                if (!inquote) {
                                        cp[0] = '\n';
                                        cp[1] = '\0';
                                        break;
                                }
                                *cp2++ = *cp;
                                break;
                        case '"':
                                inquote = !inquote;
                                break;
                        case '\\':
                                if (!cp[1])
                                        break;
                                if (cp[1] == '\n') {
                                        cp[0] = '\0';
                                        fgets(cp, sizeof(sbuf)-(cp-sbuf), fp);
                                        cp--;
                                        break;
                                }
                                *cp2++ = *++cp;
                                break;
                        case ' ':
                        case '\t':
                        case '\n':
                                if (!inquote)
                                        break;
                                *cp2++ = *cp;
                                break;
                        default:
                                *cp2++ = *cp;
                                break;
                        }
                *cp2 = '\0';
                if (inquote) {
                        fputs(sbuf, stderr);
                        fprintf(stderr, "%s: %s: Missing quote\n",
                                        progname, file);
                        quit(1);
                }
                if (sbuf[0])
                        setmgvar(file, fp, sbuf);
        }
        if (fp != stdin)
                fclose(fp);
}


void
mgsave(                         /* save our variables */
char  *file
)
{
        FILE  *fp;
        int  j;
        register IVAR  *iv;
        register int  i;

        if (file == NULL)
                fp = stdout;
        else if ((fp = fopen(file, "w")) == NULL) {
                fprintf(stderr, "%s: Cannot write: %s\n", progname, file);
                quit(1);
        }
        for (iv = ivhead; iv != NULL; iv = iv->next)
                fprintf(fp, "%s\n", iv->dfn);

        for (i = 0; i < NVARS; i++)
                if (gparam[i].flags & DEFINED)
                        mgprint(&gparam[i], fp);
        
        for (j = 0; j < MAXCUR; j++)
                for (i = 0; i < NCVARS; i++)
                        if (cparam[j][i].flags & DEFINED)
                                mgprint(&cparam[j][i], fp);

        if (fp != stdout)
                fclose(fp);
}


void
setmgvar(               /* set a variable */
char  *fname,
FILE  *fp,
char  *string
)
{
        char  name[128];
        FILE  *fp2;
        register int  i;
        register char  *s;
        register VARIABLE  *vp;

        if (!strncmp(string, "include=", 8)) {  /* include file */
                if ((s = findfile(string+8, libpath)) == NULL) {
                        fprintf(stderr, "%s\n", string);
                        fprintf(stderr, "%s: %s: File not found: %s\n",
                                        progname, fname, string+8);
                        quit(1);
                }
                strcpy(name, s);
                mgload(name);
                return;
        }
        s = string;
        i = 0;
        while (i < sizeof(name)-1 && isid(*s))
                name[i++] = *s++;
        name[i] = '\0';
        vp = vlookup(name);
        if (vp != NULL) {
                undefine(vp);
                switch (vp->type) {
                case REAL:
                case FUNCTION:
                        if ((*s == '(') != (vp->type == FUNCTION)) {
                                fprintf(stderr, "%s\n", string);
                                fprintf(stderr,
                                        "%s: %s: Bad %s declaration: %s\n",
                                        progname, fname,
                                        vp->type == FUNCTION ?
                                        "function" : "variable",
                                        name);
                                quit(1);
                        }
                        scompile(string, fname, 0);
                        vp->v.dfn = savestr(string);
                        break;
                case STRING:
                        if (*s++ != '=') {
                                fprintf(stderr, "%s\n", string);
                                fprintf(stderr, "%s: %s: Missing '='\n",
                                                progname, fname);
                                quit(1);
                        }
                        vp->v.s = savestr(s);
                        break;
                case DATA:
                        if (*s++ != '=') {
                                fprintf(stderr, "%s\n", string);
                                fprintf(stderr, "%s: %s: Missing '='\n",
                                                progname, fname);
                                quit(1);
                        }
                        if (!*s) {
                                loaddata(fname, fp, &vp->v.d);
                        } else if (*s == '!') {
                                if ((fp2 = popen(s+1, "r")) == NULL) {
                                        fprintf(stderr, "%s\n", string);
                                        fprintf(stderr,
                                        "%s: %s: Cannot execute: %s\n",
                                                        progname, fname, s+1);
                                        quit(1);
                                }
                                loaddata(s, fp2, &vp->v.d);
                                pclose(fp2);
                        } else {
                                if ((fp2 = fopen(s, "r")) == NULL) {
                                    fprintf(stderr, "%s\n", string);
                                    fprintf(stderr,
                                            "%s: %s: Data file not found: %s\n",
                                            progname, fname, s);
                                    quit(1);
                                }
                                loaddata(s, fp2, &vp->v.d);
                                fclose(fp2);
                        }
                        break;
                }
                vp->flags |= DEFINED;
        } else
                setivar(name, fname, string);           /* intermediate */
}


static void
setivar(        /* set an intermediate variable */
char  *vname,
char  *fname,
char  *definition
)
{
        IVAR  ivbeg;
        register IVAR  *iv;

        scompile(definition, fname, 0);         /* compile the string */

        ivbeg.next = ivhead;
        for (iv = &ivbeg; iv->next != NULL; iv = iv->next)
                if (!strcmp(vname, iv->next->name)) {
                        iv = iv->next;
                        freestr(iv->dfn);
                        iv->dfn = savestr(definition);
                        return;
                }

        iv->next = (IVAR *)emalloc(sizeof(IVAR));
        iv = iv->next;
        iv->name = savestr(vname);
        iv->dfn = savestr(definition);
        iv->next = NULL;
        ivhead = ivbeg.next;
}


void
mgtoa(                  /* get a variable's value in ascii form */
register char  *s,
VARIABLE  *vp
)
{
        register  char  *sv;

        if (!(vp->flags & DEFINED)) {
                strcpy(s, "UNDEFINED");
                return;
        }
        switch (vp->type) {
        case REAL:
        case FUNCTION:
                sv = vp->v.dfn;
                while (*sv != '=' && *sv != ':')
                        sv++;
                while (*++sv && *sv != ';')
                        *s++ = *sv;
                *s = '\0';
                break;
        case STRING:
                strcpy(s, vp->v.s);
                break;
        case DATA:
                strcpy(s, "DATA");
                break;
        }
}


static void
mgprint(                        /* print a variable definition */
register VARIABLE  *vp,
FILE  *fp
)
{
        register int  i;
        
        switch (vp->type) {
        case REAL:
        case FUNCTION:
                fprintf(fp, "%s\n", vp->v.dfn);
                break;
        case STRING:
                fprintf(fp, "%s=\"", vp->name);
                for (i = 0; vp->v.s[i]; i++)
                        switch (vp->v.s[i]) {
                        case '"':
                        case '\\':
                                putc('\\', fp);
                        /* fall through */
                        default:
                                putc(vp->v.s[i], fp);
                                break;
                        }
                fprintf(fp, "\"\n");
                break;
        case DATA:
                fprintf(fp, "%s=", vp->name);
                for (i = 0; i < vp->v.d.size; i++) {
                        if (i % 4 == 0)
                                fprintf(fp, "\n");
                        fprintf(fp, "\t%10e", vp->v.d.data[i]);
                }
                fprintf(fp, "\n;\n");
                break;
        }
}


static void
undefine(                       /* undefine a variable */
register VARIABLE  *vp
)
{
        if (vp == NULL || !(vp->flags & DEFINED))
                return;

        switch (vp->type) {
        case REAL:
        case FUNCTION:
                dremove(vp->name);
                freestr(vp->v.dfn);
                break;
        case STRING:
                freestr(vp->v.s);
                break;
        case DATA:
                efree((char *)vp->v.d.data);
                break;
        }
        vp->flags &= ~DEFINED;
}


VARIABLE *
vlookup(vname)                  /* look up a variable by its name */
char  *vname;
{
        register int  i;
        register VARIABLE  *vp;

        i = vname[0] - 'A';
        if (i >= 0 && i < MAXCUR)               /* curve variables */
                for (vp = cparam[i], i = 0; i < NCVARS; vp++, i++)
                        if (!strcmp(vp->name, vname))
                                return(vp);
                                                /* standard variables */
        for (vp = gparam; vp < &gparam[NVARS]; vp++)
                if (!strcmp(vp->name, vname))
                        return(vp);
        return(NULL);                           /* not found */
}


static void
loaddata(                       /* load data from a stream */
char  *fname,
FILE  *fp,
register DARRAY  *dp
)
{
        char  sbuf[MAXLINE], *fgets();
        register char  *cp;

        dp->size = 0;
        dp->data = NULL;
        while (fgets(sbuf, sizeof(sbuf), fp) != NULL) {
                cp = sbuf;
                while (*cp) {
                        while (isspace(*cp) || *cp == ',')
                                cp++;
                        if (isnum(*cp)) {
                                dp->data = (float *)erealloc((char *)dp->data,
                                                (dp->size+1)*sizeof(float));
                                dp->data[dp->size++] = atof(cp);
                                do
                                        cp++;
                                while (isnum(*cp));
                        } else if (*cp == ';') {
                                return;
                        } else if (*cp) {
                                fputs(sbuf, stderr);
                                fprintf(stderr, "%s: %s: Bad data\n",
                                                progname, fname);
                                quit(1);
                        }
                }
        }
}


static char *
findfile(       /* find the file fname, return full path */
char  *fname,
register char  **pathlist
)
{
        static char  ffname[128];
        register int  fd;

        if (fname[0] == '/')
                return(fname);

        while (*pathlist != NULL) {
                strcpy(ffname, *pathlist);
                strcat(ffname, fname);
                if ((fd = open(ffname, 0)) != -1) {
                        close(fd);
                        return(ffname);
                }
                pathlist++;
        }
        return(NULL);
}


int
mgcurve(                        /* get a curve's (unmapped) values */
        int  c,
        void (*f)(int c, double x, double y)
)
{
        int  nargs;
        double  x[2], step;
        register VARIABLE  *cv;
        register float  *p;
        register int npts = 0;

        if (c < 0 || c >= MAXCUR)
                return(-1);
        cv = cparam[c];

        if (cv[C].flags & DEFINED) {            /* function or map */

                nargs = fundefined(cv[C].name);
                if (nargs < 1 || nargs > 2) {
                        fprintf(stderr, "%s: bad # of arguments for '%c'\n",
                                        progname, c+'A');
                        quit(1);
                }

                if (cv[CDATA].flags & DEFINED) {                /* map */
                        npts = cv[CDATA].v.d.size / nargs;
                        p = cv[CDATA].v.d.data;
                        while (npts--) {
                                x[0] = *p++;
                                if (nargs == 2)
                                        x[1] = *p++;
                                (*f)(c, x[0],
                                        funvalue(cv[C].name, nargs, x));
                        }
                        npts = cv[CDATA].v.d.size / nargs;
                } else if ( nargs == 1 &&                       /* function */
                                gparam[XMIN].flags & DEFINED &&
                                gparam[XMAX].flags & DEFINED &&
                                cv[CNPOINTS].flags & DEFINED ) {
                        npts = varvalue(cv[CNPOINTS].name);
                        if (npts > 1)
                                step = (varvalue(gparam[XMAX].name) -
                                        varvalue(gparam[XMIN].name)) /
                                        (npts - 1);
                        else
                                step = 0.0;
                        for (x[0] = varvalue(gparam[XMIN].name);
                                        npts--; x[0] += step)
                                (*f)(c, x[0],
                                        funvalue(cv[C].name, 1, x));
                        npts = varvalue(cv[CNPOINTS].name);
                } else {
                        fprintf(stderr,
                        "%s: function '%c' needs %cdata or xmin, xmax, %cnpoints\n",
                                        progname, c+'A', c+'A', c+'A');
                        quit(1);
                }

        } else if (cv[CDATA].flags & DEFINED) { /* data */

                npts = cv[CDATA].v.d.size / 2;
                p = cv[CDATA].v.d.data;
                while (npts--) {
                        (*f)(c, p[0], p[1]);
                        p += 2;
                }
                npts = cv[CDATA].v.d.size / 2;

        } else

                npts = 0;

        return(npts);
}
Revision:	1.5
Committed:	Sat Nov 15 02:13:37 2003 UTC (20 years, 5 months ago) by schorsch
Content type:	text/plain
Branch:	MAIN
Changes since 1.4:	+3 -3 lines
Log Message:	Continued ANSIfication, and reduced other compile warnings.
#	User	Rev	Content
1	greg	1.1	#ifndef lint
2	schorsch	1.5	static const char RCSid[] = "$Id: mgvars.c,v 1.4 2003/11/14 00:14:40 schorsch Exp $";
3	greg	1.1	#endif
4			/*
5			* mgvars.c - routines dealing with graph variables.
6			*
7			* 6/23/86
8			*
9			* Greg Ward Larson
10			*/
11
12			#include <stdio.h>
13			#include <stdlib.h>
14			#include <math.h>
15	schorsch	1.4	#include <string.h>
16	greg	1.1	#include <ctype.h>
17
18	schorsch	1.3	#include "rtprocess.h"
19	schorsch	1.4	#include "rterror.h"
20	schorsch	1.3	#include "rtio.h"
21	schorsch	1.4	#include "calcomp.h"
22	greg	1.1	#include "mgvars.h"
23
24			#define MAXLINE 512
25
26			#define isnum(c) (isdigit(c)\|\|(c)=='-'\|\|(c)=='+'\|\|(c)=='.'\|\|(c)=='e'\|\|(c)=='E')
27
28	schorsch	1.4	static void mgprint(register VARIABLE vp, FILE fp);
29			static void setivar(char vname, char fname, char *definition);
30			static char findfile(char fname, register char **pathlist);
31			static void loaddata(char fname, FILE fp, register DARRAY *dp);
32			static void undefine(register VARIABLE *vp);
33	greg	1.1
34	schorsch	1.4	extern char progname, libpath[];
35	greg	1.1
36			IVAR ivhead = NULL; / intermediate variables */
37
38			VARIABLE gparam[NVARS] = { /* standard variables */
39			{ "fthick", REAL, "frame thickness" },
40			{ "grid", REAL, "grid on?" },
41			{ "legend", STRING, "legend title" },
42			{ "othick", REAL, "origin thickness" },
43			{ "period", REAL, "period of polar plot" },
44			{ "subtitle", STRING },
45			{ "symfile", STRING, "symbol file" },
46			{ "tstyle", REAL, "tick mark style" },
47			{ "title", STRING },
48			{ "xlabel", STRING },
49			{ "xmap", FUNCTION, "x axis mapping function" },
50			{ "xmax", REAL },
51			{ "xmin", REAL },
52			{ "xstep", REAL },
53			{ "ylabel", STRING },
54			{ "ymap", FUNCTION, "y axis mapping function" },
55			{ "ymax", REAL },
56			{ "ymin", REAL },
57			{ "ystep", REAL },
58			};
59
60			VARIABLE cparam[MAXCUR][NCVARS] = { /* curve variables */
61			{
62			{ "A", FUNCTION, "function for curve A" },
63			{ "Acolor", REAL, "color for A" },
64			{ "Adata", DATA, "point data for A" },
65			{ "Alabel", STRING },
66			{ "Alintype", REAL, "line type for A" },
67			{ "Anpoints", REAL, "number of points for A" },
68			{ "Asymsize", REAL, "symbol size for A" },
69			{ "Asymtype", STRING, "symbol type for A" },
70			{ "Athick", REAL, "line thickness for A" },
71			}, {
72			{ "B", FUNCTION, "function for curve B" },
73			{ "Bcolor", REAL, "color for B" },
74			{ "Bdata", DATA, "point data for B" },
75			{ "Blabel", STRING },
76			{ "Blintype", REAL, "line type for B" },
77			{ "Bnpoints", REAL, "number of points for B" },
78			{ "Bsymsize", REAL, "symbol size for B" },
79			{ "Bsymtype", STRING, "symbol type for B" },
80			{ "Bthick", REAL, "line thickness for B" },
81			}, {
82			{ "C", FUNCTION, "function for curve C" },
83			{ "Ccolor", REAL, "color for C" },
84			{ "Cdata", DATA, "point data for C" },
85			{ "Clabel", STRING },
86			{ "Clintype", REAL, "line type for C" },
87			{ "Cnpoints", REAL, "number of points for C" },
88			{ "Csymsize", REAL, "symbol size for C" },
89			{ "Csymtype", STRING, "symbol type for C" },
90			{ "Cthick", REAL, "line thickness for C" },
91			}, {
92			{ "D", FUNCTION, "function for curve D" },
93			{ "Dcolor", REAL, "color for D" },
94			{ "Ddata", DATA, "point data for D" },
95			{ "Dlabel", STRING },
96			{ "Dlintype", REAL, "line type for D" },
97			{ "Dnpoints", REAL, "number of points for D" },
98			{ "Dsymsize", REAL, "symbol size for D" },
99			{ "Dsymtype", STRING, "symbol type for D" },
100			{ "Dthick", REAL, "line thickness for D" },
101			}, {
102			{ "E", FUNCTION, "function for curve E" },
103			{ "Ecolor", REAL, "color for E" },
104			{ "Edata", DATA, "point data for E" },
105			{ "Elabel", STRING },
106			{ "Elintype", REAL, "line type for E" },
107			{ "Enpoints", REAL, "number of points for E" },
108			{ "Esymsize", REAL, "symbol size for E" },
109			{ "Esymtype", STRING, "symbol type for E" },
110			{ "Ethick", REAL, "line thickness for E" },
111			}, {
112			{ "F", FUNCTION, "function for curve F" },
113			{ "Fcolor", REAL, "color for F" },
114			{ "Fdata", DATA, "point data for F" },
115			{ "Flabel", STRING },
116			{ "Flintype", REAL, "line type for F" },
117			{ "Fnpoints", REAL, "number of points for F" },
118			{ "Fsymsize", REAL, "symbol size for F" },
119			{ "Fsymtype", STRING, "symbol type for F" },
120			{ "Fthick", REAL, "line thickness for F" },
121			}, {
122			{ "G", FUNCTION, "function for curve G" },
123			{ "Gcolor", REAL, "color for G" },
124			{ "Gdata", DATA, "point data for G" },
125			{ "Glabel", STRING },
126			{ "Glintype", REAL, "line type for G" },
127			{ "Gnpoints", REAL, "number of points for G" },
128			{ "Gsymsize", REAL, "symbol size for G" },
129			{ "Gsymtype", STRING, "symbol type for G" },
130			{ "Gthick", REAL, "line thickness for G" },
131			}, {
132			{ "H", FUNCTION, "function for curve H" },
133			{ "Hcolor", REAL, "color for H" },
134			{ "Hdata", DATA, "point data for H" },
135			{ "Hlabel", STRING },
136			{ "Hlintype", REAL, "line type for H" },
137			{ "Hnpoints", REAL, "number of points for H" },
138			{ "Hsymsize", REAL, "symbol size for H" },
139			{ "Hsymtype", STRING, "symbol type for H" },
140			{ "Hthick", REAL, "line thickness for H" },
141			},
142			};
143
144
145	schorsch	1.4	void
146			mgclearall(void) /* clear all variable settings */
147	greg	1.1	{
148			int j;
149			register IVAR *iv;
150			register int i;
151
152			for (iv = ivhead; iv != NULL; iv = iv->next) {
153			dremove(iv->name);
154			freestr(iv->name);
155			freestr(iv->dfn);
156			efree((char *)iv);
157			}
158			ivhead = NULL;
159
160			for (i = 0; i < NVARS; i++)
161			if (gparam[i].flags & DEFINED)
162			undefine(&gparam[i]);
163
164			for (j = 0; j < MAXCUR; j++)
165			for (i = 0; i < NCVARS; i++)
166			if (cparam[j][i].flags & DEFINED)
167			undefine(&cparam[j][i]);
168			}
169
170
171	schorsch	1.4	void
172			mgload( /* load a file */
173			char *file
174			)
175	greg	1.1	{
176			FILE *fp;
177			char sbuf[MAXLINE], *fgets();
178			int inquote;
179			register char cp, cp2;
180
181			if (file == NULL) {
182			fp = stdin;
183			file = "<stdin>";
184			} else if ((fp = fopen(file, "r")) == NULL) {
185			fprintf(stderr, "%s: Cannot open: %s\n", progname, file);
186			quit(1);
187			}
188			while (fgets(sbuf+1, sizeof(sbuf)-1, fp) != NULL) {
189			inquote = 0;
190			cp2 = sbuf;
191			for (cp = sbuf+1; cp; cp++) / condition the input line */
192			switch (*cp) {
193			case '#':
194			if (!inquote) {
195			cp[0] = '\n';
196			cp[1] = '\0';
197			break;
198			}
199			cp2++ = cp;
200			break;
201			case '"':
202			inquote = !inquote;
203			break;
204			case '\\':
205			if (!cp[1])
206			break;
207			if (cp[1] == '\n') {
208			cp[0] = '\0';
209			fgets(cp, sizeof(sbuf)-(cp-sbuf), fp);
210			cp--;
211			break;
212			}
213			cp2++ = ++cp;
214			break;
215			case ' ':
216			case '\t':
217			case '\n':
218			if (!inquote)
219			break;
220			cp2++ = cp;
221			break;
222			default:
223			cp2++ = cp;
224			break;
225			}
226			*cp2 = '\0';
227			if (inquote) {
228			fputs(sbuf, stderr);
229			fprintf(stderr, "%s: %s: Missing quote\n",
230			progname, file);
231			quit(1);
232			}
233			if (sbuf[0])
234			setmgvar(file, fp, sbuf);
235			}
236			if (fp != stdin)
237			fclose(fp);
238			}
239
240
241	schorsch	1.4	void
242			mgsave( /* save our variables */
243			char *file
244			)
245	greg	1.1	{
246			FILE *fp;
247			int j;
248			register IVAR *iv;
249			register int i;
250
251			if (file == NULL)
252			fp = stdout;
253			else if ((fp = fopen(file, "w")) == NULL) {
254			fprintf(stderr, "%s: Cannot write: %s\n", progname, file);
255			quit(1);
256			}
257			for (iv = ivhead; iv != NULL; iv = iv->next)
258			fprintf(fp, "%s\n", iv->dfn);
259
260			for (i = 0; i < NVARS; i++)
261			if (gparam[i].flags & DEFINED)
262			mgprint(&gparam[i], fp);
263
264			for (j = 0; j < MAXCUR; j++)
265			for (i = 0; i < NCVARS; i++)
266			if (cparam[j][i].flags & DEFINED)
267			mgprint(&cparam[j][i], fp);
268
269			if (fp != stdout)
270			fclose(fp);
271			}
272
273
274	schorsch	1.4	void
275			setmgvar( /* set a variable */
276			char *fname,
277			FILE *fp,
278			char *string
279			)
280	greg	1.1	{
281			char name[128];
282			FILE *fp2;
283			register int i;
284			register char *s;
285			register VARIABLE *vp;
286
287			if (!strncmp(string, "include=", 8)) { /* include file */
288			if ((s = findfile(string+8, libpath)) == NULL) {
289			fprintf(stderr, "%s\n", string);
290			fprintf(stderr, "%s: %s: File not found: %s\n",
291			progname, fname, string+8);
292			quit(1);
293			}
294			strcpy(name, s);
295			mgload(name);
296			return;
297			}
298			s = string;
299			i = 0;
300			while (i < sizeof(name)-1 && isid(*s))
301			name[i++] = *s++;
302			name[i] = '\0';
303			vp = vlookup(name);
304			if (vp != NULL) {
305			undefine(vp);
306			switch (vp->type) {
307			case REAL:
308			case FUNCTION:
309			if ((*s == '(') != (vp->type == FUNCTION)) {
310			fprintf(stderr, "%s\n", string);
311			fprintf(stderr,
312			"%s: %s: Bad %s declaration: %s\n",
313			progname, fname,
314			vp->type == FUNCTION ?
315			"function" : "variable",
316			name);
317			quit(1);
318			}
319			scompile(string, fname, 0);
320			vp->v.dfn = savestr(string);
321			break;
322			case STRING:
323			if (*s++ != '=') {
324			fprintf(stderr, "%s\n", string);
325			fprintf(stderr, "%s: %s: Missing '='\n",
326			progname, fname);
327			quit(1);
328			}
329			vp->v.s = savestr(s);
330			break;
331			case DATA:
332			if (*s++ != '=') {
333			fprintf(stderr, "%s\n", string);
334			fprintf(stderr, "%s: %s: Missing '='\n",
335			progname, fname);
336			quit(1);
337			}
338			if (!*s) {
339			loaddata(fname, fp, &vp->v.d);
340			} else if (*s == '!') {
341			if ((fp2 = popen(s+1, "r")) == NULL) {
342			fprintf(stderr, "%s\n", string);
343			fprintf(stderr,
344			"%s: %s: Cannot execute: %s\n",
345			progname, fname, s+1);
346			quit(1);
347			}
348			loaddata(s, fp2, &vp->v.d);
349			pclose(fp2);
350			} else {
351			if ((fp2 = fopen(s, "r")) == NULL) {
352			fprintf(stderr, "%s\n", string);
353			fprintf(stderr,
354			"%s: %s: Data file not found: %s\n",
355			progname, fname, s);
356			quit(1);
357			}
358			loaddata(s, fp2, &vp->v.d);
359			fclose(fp2);
360			}
361			break;
362			}
363			vp->flags \|= DEFINED;
364			} else
365			setivar(name, fname, string); /* intermediate */
366			}
367
368
369	schorsch	1.4	static void
370			setivar( /* set an intermediate variable */
371			char *vname,
372			char *fname,
373			char *definition
374			)
375	greg	1.1	{
376			IVAR ivbeg;
377			register IVAR *iv;
378
379			scompile(definition, fname, 0); /* compile the string */
380
381			ivbeg.next = ivhead;
382			for (iv = &ivbeg; iv->next != NULL; iv = iv->next)
383			if (!strcmp(vname, iv->next->name)) {
384			iv = iv->next;
385			freestr(iv->dfn);
386			iv->dfn = savestr(definition);
387			return;
388			}
389
390			iv->next = (IVAR *)emalloc(sizeof(IVAR));
391			iv = iv->next;
392			iv->name = savestr(vname);
393			iv->dfn = savestr(definition);
394			iv->next = NULL;
395			ivhead = ivbeg.next;
396			}
397
398
399	schorsch	1.4	void
400			mgtoa( /* get a variable's value in ascii form */
401			register char *s,
402			VARIABLE *vp
403			)
404	greg	1.1	{
405			register char *sv;
406
407			if (!(vp->flags & DEFINED)) {
408			strcpy(s, "UNDEFINED");
409			return;
410			}
411			switch (vp->type) {
412			case REAL:
413			case FUNCTION:
414			sv = vp->v.dfn;
415			while (sv != '=' && sv != ':')
416			sv++;
417			while (++sv && sv != ';')
418			s++ = sv;
419			*s = '\0';
420			break;
421			case STRING:
422			strcpy(s, vp->v.s);
423			break;
424			case DATA:
425			strcpy(s, "DATA");
426			break;
427			}
428			}
429
430
431	schorsch	1.4	static void
432			mgprint( /* print a variable definition */
433			register VARIABLE *vp,
434			FILE *fp
435			)
436	greg	1.1	{
437			register int i;
438
439			switch (vp->type) {
440			case REAL:
441			case FUNCTION:
442			fprintf(fp, "%s\n", vp->v.dfn);
443			break;
444			case STRING:
445			fprintf(fp, "%s=\"", vp->name);
446			for (i = 0; vp->v.s[i]; i++)
447			switch (vp->v.s[i]) {
448			case '"':
449			case '\\':
450			putc('\\', fp);
451			/* fall through */
452			default:
453			putc(vp->v.s[i], fp);
454			break;
455			}
456			fprintf(fp, "\"\n");
457			break;
458			case DATA:
459			fprintf(fp, "%s=", vp->name);
460			for (i = 0; i < vp->v.d.size; i++) {
461			if (i % 4 == 0)
462			fprintf(fp, "\n");
463			fprintf(fp, "\t%10e", vp->v.d.data[i]);
464			}
465			fprintf(fp, "\n;\n");
466			break;
467			}
468			}
469
470
471	schorsch	1.4	static void
472			undefine( /* undefine a variable */
473			register VARIABLE *vp
474			)
475	greg	1.1	{
476			if (vp == NULL \|\| !(vp->flags & DEFINED))
477			return;
478
479			switch (vp->type) {
480			case REAL:
481			case FUNCTION:
482			dremove(vp->name);
483			freestr(vp->v.dfn);
484			break;
485			case STRING:
486			freestr(vp->v.s);
487			break;
488			case DATA:
489			efree((char *)vp->v.d.data);
490			break;
491			}
492			vp->flags &= ~DEFINED;
493			}
494
495
496			VARIABLE *
497			vlookup(vname) /* look up a variable by its name */
498			char *vname;
499			{
500			register int i;
501			register VARIABLE *vp;
502
503			i = vname[0] - 'A';
504			if (i >= 0 && i < MAXCUR) /* curve variables */
505			for (vp = cparam[i], i = 0; i < NCVARS; vp++, i++)
506			if (!strcmp(vp->name, vname))
507			return(vp);
508			/* standard variables */
509			for (vp = gparam; vp < &gparam[NVARS]; vp++)
510			if (!strcmp(vp->name, vname))
511			return(vp);
512			return(NULL); /* not found */
513			}
514
515
516	schorsch	1.4	static void
517			loaddata( /* load data from a stream */
518			char *fname,
519			FILE *fp,
520			register DARRAY *dp
521			)
522	greg	1.1	{
523			char sbuf[MAXLINE], *fgets();
524			register char *cp;
525
526			dp->size = 0;
527			dp->data = NULL;
528			while (fgets(sbuf, sizeof(sbuf), fp) != NULL) {
529			cp = sbuf;
530			while (*cp) {
531			while (isspace(cp) \|\| cp == ',')
532			cp++;
533			if (isnum(*cp)) {
534			dp->data = (float )erealloc((char )dp->data,
535			(dp->size+1)*sizeof(float));
536			dp->data[dp->size++] = atof(cp);
537			do
538			cp++;
539			while (isnum(*cp));
540			} else if (*cp == ';') {
541			return;
542			} else if (*cp) {
543			fputs(sbuf, stderr);
544			fprintf(stderr, "%s: %s: Bad data\n",
545			progname, fname);
546			quit(1);
547			}
548			}
549			}
550			}
551
552
553	schorsch	1.4	static char *
554			findfile( /* find the file fname, return full path */
555			char *fname,
556			register char **pathlist
557			)
558	greg	1.1	{
559			static char ffname[128];
560			register int fd;
561
562			if (fname[0] == '/')
563			return(fname);
564
565			while (*pathlist != NULL) {
566			strcpy(ffname, *pathlist);
567			strcat(ffname, fname);
568			if ((fd = open(ffname, 0)) != -1) {
569			close(fd);
570			return(ffname);
571			}
572			pathlist++;
573			}
574			return(NULL);
575			}
576
577
578			int
579	schorsch	1.4	mgcurve( /* get a curve's (unmapped) values */
580	schorsch	1.5	int c,
581			void (*f)(int c, double x, double y)
582	schorsch	1.4	)
583	greg	1.1	{
584			int nargs;
585			double x[2], step;
586			register VARIABLE *cv;
587			register float *p;
588	schorsch	1.4	register int npts = 0;
589	greg	1.1
590			if (c < 0 \|\| c >= MAXCUR)
591			return(-1);
592			cv = cparam[c];
593
594			if (cv[C].flags & DEFINED) { /* function or map */
595
596			nargs = fundefined(cv[C].name);
597			if (nargs < 1 \|\| nargs > 2) {
598			fprintf(stderr, "%s: bad # of arguments for '%c'\n",
599			progname, c+'A');
600			quit(1);
601			}
602
603			if (cv[CDATA].flags & DEFINED) { /* map */
604			npts = cv[CDATA].v.d.size / nargs;
605			p = cv[CDATA].v.d.data;
606			while (npts--) {
607			x[0] = *p++;
608			if (nargs == 2)
609			x[1] = *p++;
610			(*f)(c, x[0],
611			funvalue(cv[C].name, nargs, x));
612			}
613			npts = cv[CDATA].v.d.size / nargs;
614			} else if ( nargs == 1 && /* function */
615			gparam[XMIN].flags & DEFINED &&
616			gparam[XMAX].flags & DEFINED &&
617			cv[CNPOINTS].flags & DEFINED ) {
618			npts = varvalue(cv[CNPOINTS].name);
619			if (npts > 1)
620			step = (varvalue(gparam[XMAX].name) -
621			varvalue(gparam[XMIN].name)) /
622			(npts - 1);
623			else
624			step = 0.0;
625			for (x[0] = varvalue(gparam[XMIN].name);
626			npts--; x[0] += step)
627			(*f)(c, x[0],
628			funvalue(cv[C].name, 1, x));
629			npts = varvalue(cv[CNPOINTS].name);
630			} else {
631			fprintf(stderr,
632			"%s: function '%c' needs %cdata or xmin, xmax, %cnpoints\n",
633			progname, c+'A', c+'A', c+'A');
634			quit(1);
635			}
636
637			} else if (cv[CDATA].flags & DEFINED) { /* data */
638
639			npts = cv[CDATA].v.d.size / 2;
640			p = cv[CDATA].v.d.data;
641			while (npts--) {
642			(*f)(c, p[0], p[1]);
643			p += 2;
644			}
645			npts = cv[CDATA].v.d.size / 2;
646
647			} else
648
649			npts = 0;
650
651			return(npts);
652			}