src/common/calexpr.c

/* Copyright (c) 1991 Regents of the University of California */

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

/*
 *  Compute data values using expression parser
 *
 *  7/1/85  Greg Ward
 *
 *  11/11/85  Made channel input conditional with (INCHAN) compiles.
 *
 *  4/2/86  Added conditional compiles for function definitions (FUNCTION).
 *
 *  1/29/87  Made variables conditional (VARIABLE)
 *
 *  5/19/88  Added constant subexpression elimination (RCONST)
 */

#include  <stdio.h>

#include  <ctype.h>

#include  <errno.h>

#include  "calcomp.h"

#define  MAXLINE        256             /* maximum line length */

#define  newnode()      (EPNODE *)ecalloc(1, sizeof(EPNODE))

#define  isdecimal(c)   (isdigit(c) || (c) == '.')

#ifndef atof
extern double  atof();
#endif
extern double  pow();
extern char  *fgets(), *savestr();
extern char  *emalloc(), *ecalloc();
extern EPNODE  *curfunc;
extern double  efunc(), evariable();
static double  euminus(), echannel(), eargument(), enumber();
static double  eadd(), esubtr(), emult(), edivi(), epow();
static double  ebotch();
extern int  errno;

int  nextc;                             /* lookahead character */

double  (*eoper[])() = {                /* expression operations */
        ebotch,
#ifdef  VARIABLE
        evariable,
#else
        ebotch,
#endif
        enumber,
        euminus,
#ifdef  INCHAN
        echannel,
#else
        ebotch,
#endif
#ifdef  FUNCTION
        efunc,
        eargument,
#else
        ebotch,
        ebotch,
#endif
        ebotch,
        ebotch,
        0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
        0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
        emult,
        eadd,
        0,
        esubtr,
        0,
        edivi,
        0,0,0,0,0,0,0,0,0,0,
        ebotch,
        0,0,
        ebotch,
        0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
        0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
        epow,
};

static FILE  *infp;                     /* input file pointer */
static char  *linbuf;                   /* line buffer */
static char  *infile;                   /* input file name */
static int  lineno;                     /* input line number */
static int  linepos;                    /* position in buffer */


EPNODE *
eparse(expr)                    /* parse an expression string */
char  *expr;
{
    EPNODE  *ep;

    initstr(expr, NULL, 0);
#if  defined(VARIABLE) && defined(FUNCTION)
    curfunc = NULL;
#endif
    ep = getE1();
    if (nextc != EOF)
        syntax("unexpected character");
    return(ep);
}


double
eval(expr)                      /* evaluate an expression string */
char  *expr;
{
    register EPNODE  *ep;
    double  rval;

    ep = eparse(expr);
    rval = evalue(ep);
    epfree(ep);
    return(rval);
}


epfree(epar)                    /* free a parse tree */
register EPNODE  *epar;
{
    register EPNODE  *ep;

    switch (epar->type) {

#if  defined(VARIABLE) || defined(FUNCTION)
        case VAR:
            varfree(epar->v.ln);
            break;
#endif
            
        case SYM:
            freestr(epar->v.name);
            break;

        case NUM:
        case CHAN:
        case ARG:
        case TICK:
            break;

        default:
            for (ep = epar->v.kid; ep != NULL; ep = ep->sibling)
                epfree(ep);
            break;

    }

    efree((char *)epar);
}

                                /* the following used to be a switch */
#ifdef  FUNCTION
static double
eargument(ep)
EPNODE  *ep;
{
    return(argument(ep->v.chan));
}
#endif

static double
enumber(ep)
EPNODE  *ep;
{
    return(ep->v.num);
}

static double
euminus(ep)
EPNODE  *ep;
{
    register EPNODE  *ep1 = ep->v.kid;

    return(-evalue(ep1));
}

#ifdef  INCHAN
static double
echannel(ep)
EPNODE  *ep;
{
    return(chanvalue(ep->v.chan));
}
#endif

static double
eadd(ep)
EPNODE  *ep;
{
    register EPNODE  *ep1 = ep->v.kid;

    return(evalue(ep1) + evalue(ep1->sibling));
}

static double
esubtr(ep)
EPNODE  *ep;
{
    register EPNODE  *ep1 = ep->v.kid;

    return(evalue(ep1) - evalue(ep1->sibling));
}

static double
emult(ep)
EPNODE  *ep;
{
    register EPNODE  *ep1 = ep->v.kid;

    return(evalue(ep1) * evalue(ep1->sibling));
}

static double
edivi(ep)
EPNODE  *ep;
{
    register EPNODE  *ep1 = ep->v.kid;
    double  d;

    d = evalue(ep1->sibling);
    if (d == 0.0) {
        wputs("Division by zero\n");
        errno = ERANGE;
        return(0.0);
    }
    return(evalue(ep1) / d);
}

static double
epow(ep)
EPNODE  *ep;
{
    register EPNODE  *ep1 = ep->v.kid;
    double  d;
    int  lasterrno;

    lasterrno = errno;
    errno = 0;
    d = pow(evalue(ep1), evalue(ep1->sibling));
#ifdef  IEEE
    if (!finite(d))
        errno = EDOM;
#endif
    if (errno) {
        wputs("Illegal power\n");
        return(0.0);
    }
    errno = lasterrno;
    return(d);
}

static double
ebotch(ep)
EPNODE  *ep;
{
    eputs("Bad expression!\n");
    quit(1);
}


EPNODE *
ekid(ep, n)                     /* return pointer to a node's nth kid */
register EPNODE  *ep;
register int  n;
{

    for (ep = ep->v.kid; ep != NULL; ep = ep->sibling)
        if (--n < 0)
            break;

    return(ep);
}


int
nekids(ep)                      /* return # of kids for node ep */
register EPNODE  *ep;
{
    register int  n = 0;

    for (ep = ep->v.kid; ep != NULL; ep = ep->sibling)
        n++;

    return(n);
}


initfile(fp, fn, ln)            /* prepare input file */
FILE  *fp;
char  *fn;
int  ln;
{
    static char  inpbuf[MAXLINE];

    infp = fp;
    linbuf = inpbuf;
    infile = fn;
    lineno = ln;
    linepos = 0;
    inpbuf[0] = '\0';
    scan();
}


initstr(s, fn, ln)              /* prepare input string */
char  *s;
char  *fn;
int  ln;
{
    infp = NULL;
    infile = fn;
    lineno = ln;
    linbuf = s;
    linepos = 0;
    scan();
}


getscanpos(fnp, lnp, spp, fpp)  /* return current scan position */
char  **fnp;
int  *lnp;
char  **spp;
FILE  **fpp;
{
    if (fnp != NULL) *fnp = infile;
    if (lnp != NULL) *lnp = lineno;
    if (spp != NULL) *spp = linbuf+linepos;
    if (fpp != NULL) *fpp = infp;
}


int
scan()                          /* scan next character, return literal next */
{
    register int  lnext = 0;

    do {
        if (linbuf[linepos] == '\0')
            if (infp == NULL || fgets(linbuf, MAXLINE, infp) == NULL)
                nextc = EOF;
            else {
                nextc = linbuf[0];
                lineno++;
                linepos = 1;
            }
        else
            nextc = linbuf[linepos++];
        if (!lnext)
                lnext = nextc;
        if (nextc == '{') {
            scan();
            while (nextc != '}')
                if (nextc == EOF)
                    syntax("'}' expected");
                else
                    scan();
            scan();
        }
    } while (isspace(nextc));
    return(lnext);
}


char *
ltoa(l)                         /* convert long to ascii */
long  l;
{
    static char  buf[16];
    register char  *cp;
    int  neg = 0;

    if (l == 0)
        return("0");
    if (l < 0) {
        l = -l;
        neg++;
    }
    cp = buf + sizeof(buf);
    *--cp = '\0';
    while (l) {
        *--cp = l % 10 + '0';
        l /= 10;
    }
    if (neg)
        *--cp = '-';
    return(cp);
}


syntax(err)                     /* report syntax error and quit */
char  *err;
{
    register int  i;

    if (infile != NULL || lineno != 0) {
        if (infile != NULL) eputs(infile);
        if (lineno != 0) {
            eputs(infile != NULL ? ", line " : "line ");
            eputs(ltoa((long)lineno));
        }
        eputs(": syntax error:\n");
    }
    eputs(linbuf);
    if (linbuf[strlen(linbuf)-1] != '\n')
        eputs("\n");
    for (i = 0; i < linepos-1; i++)
        eputs(linbuf[i] == '\t' ? "\t" : " ");
    eputs("^ ");
    eputs(err);
    eputs("\n");
    quit(1);
}


addekid(ep, ekid)                       /* add a child to ep */
register EPNODE  *ep;
EPNODE  *ekid;
{
    if (ep->v.kid == NULL)
        ep->v.kid = ekid;
    else {
        for (ep = ep->v.kid; ep->sibling != NULL; ep = ep->sibling)
            ;
        ep->sibling = ekid;
    }
    ekid->sibling = NULL;
}


char *
getname()                       /* scan an identifier */
{
    static char  str[MAXWORD+1];
    register int  i, lnext;

    lnext = nextc;
    for (i = 0; i < MAXWORD && isid(lnext); i++, lnext = scan())
        str[i] = lnext;
    str[i] = '\0';
    while (isid(lnext))         /* skip rest of name */
        lnext = scan();

    return(str);
}


int
getinum()                       /* scan a positive integer */
{
    register int  n, lnext;

    n = 0;
    lnext = nextc;
    while (isdigit(lnext)) {
        n = n * 10 + lnext - '0';
        lnext = scan();
    }
    return(n);
}


double
getnum()                        /* scan a positive float */
{
    register int  i, lnext;
    char  str[MAXWORD+1];

    i = 0;
    lnext = nextc;
    while (isdigit(lnext) && i < MAXWORD) {
        str[i++] = lnext;
        lnext = scan();
    }
    if (lnext == '.' && i < MAXWORD) {
        str[i++] = lnext;
        lnext = scan();
        while (isdigit(lnext) && i < MAXWORD) {
            str[i++] = lnext;
            lnext = scan();
        }
    }
    if ((lnext == 'e' || lnext == 'E') && i < MAXWORD) {
        str[i++] = lnext;
        lnext = scan();
        if ((lnext == '-' || lnext == '+') && i < MAXWORD) {
            str[i++] = lnext;
            lnext = scan();
        }
        while (isdigit(lnext) && i < MAXWORD) {
            str[i++] = lnext;
            lnext = scan();
        }
    }
    str[i] = '\0';

    return(atof(str));
}


EPNODE *
getE1()                         /* E1 -> E1 ADDOP E2 */
                                /*       E2 */
{
    register EPNODE  *ep1, *ep2;

    ep1 = getE2();
    while (nextc == '+' || nextc == '-') {
        ep2 = newnode();
        ep2->type = nextc;
        scan();
        addekid(ep2, ep1);
        addekid(ep2, getE2());
#ifdef  RCONST
        if (ep1->type == NUM && ep1->sibling->type == NUM)
                ep2 = rconst(ep2);
#endif
        ep1 = ep2;
    }
    return(ep1);
}


EPNODE *
getE2()                         /* E2 -> E2 MULOP E3 */
                                /*       E3 */
{
    register EPNODE  *ep1, *ep2;

    ep1 = getE3();
    while (nextc == '*' || nextc == '/') {
        ep2 = newnode();
        ep2->type = nextc;
        scan();
        addekid(ep2, ep1);
        addekid(ep2, getE3());
#ifdef  RCONST
        if (ep1->type == NUM && ep1->sibling->type == NUM)
                ep2 = rconst(ep2);
#endif
        ep1 = ep2;
    }
    return(ep1);
}


EPNODE *
getE3()                         /* E3 -> E4 ^ E3 */
                                /*       E4 */
{
    register EPNODE  *ep1, *ep2;

    ep1 = getE4();
    if (nextc == '^') {
        ep2 = newnode();
        ep2->type = nextc;
        scan();
        addekid(ep2, ep1);
        addekid(ep2, getE3());
#ifdef  RCONST
        if (ep1->type == NUM && ep1->sibling->type == NUM)
                ep2 = rconst(ep2);
#endif
        return(ep2);
    }
    return(ep1);
}


EPNODE *
getE4()                         /* E4 -> ADDOP E5 */
                                /*       E5 */
{
    register EPNODE  *ep1, *ep2;

    if (nextc == '-') {
        scan();
        ep2 = getE5();
        if (ep2->type == NUM) {
                ep2->v.num = -ep2->v.num;
                return(ep2);
        }
        if (ep2->type == UMINUS) {      /* don't generate -(-E5) */
            efree((char *)ep2);
            return(ep2->v.kid);
        }
        ep1 = newnode();
        ep1->type = UMINUS;
        addekid(ep1, ep2);
        return(ep1);
    }
    if (nextc == '+')
        scan();
    return(getE5());
}


EPNODE *
getE5()                         /* E5 -> (E1) */
                                /*       VAR */
                                /*       NUM */
                                /*       $N */
                                /*       FUNC(E1,..) */
                                /*       ARG */
{
    int  i;
    char  *nam;
    register EPNODE  *ep1, *ep2;

    if (nextc == '(') {
        scan();
        ep1 = getE1();
        if (nextc != ')')
            syntax("')' expected");
        scan();
        return(ep1);
    }

#ifdef  INCHAN
    if (nextc == '$') {
        scan();
        ep1 = newnode();
        ep1->type = CHAN;
        ep1->v.chan = getinum();
        return(ep1);
    }
#endif

#if  defined(VARIABLE) || defined(FUNCTION)
    if (isalpha(nextc) || nextc == CNTXMARK) {
        nam = getname();
#if  defined(VARIABLE) && defined(FUNCTION)
        ep1 = NULL;
        if (curfunc != NULL)
            for (i = 1, ep2 = curfunc->v.kid->sibling;
                                ep2 != NULL; i++, ep2 = ep2->sibling)
                if (!strcmp(ep2->v.name, nam)) {
                    ep1 = newnode();
                    ep1->type = ARG;
                    ep1->v.chan = i;
                    break;
                }
        if (ep1 == NULL)
#endif
        {
            ep1 = newnode();
            ep1->type = VAR;
            ep1->v.ln = varinsert(nam);
        }
#ifdef  FUNCTION
        if (nextc == '(') {
            ep2 = newnode();
            ep2->type = FUNC;
            addekid(ep2, ep1);
            ep1 = ep2;
            do {
                scan();
                addekid(ep1, getE1());
            } while (nextc == ',');
            if (nextc != ')')
                syntax("')' expected");
            scan();
        }
#ifndef  VARIABLE
        else
            syntax("'(' expected");
#endif
#endif
#ifdef  RCONST
        if (isconstvar(ep1))
            ep1 = rconst(ep1);
#endif
        return(ep1);
    }
#endif

    if (isdecimal(nextc)) {
        ep1 = newnode();
        ep1->type = NUM;
        ep1->v.num = getnum();
        return(ep1);
    }
    syntax("unexpected character");
}


#ifdef  RCONST
EPNODE *
rconst(epar)                    /* reduce a constant expression */
register EPNODE  *epar;
{
    register EPNODE  *ep;

    ep = newnode();
    ep->type = NUM;
    errno = 0;
    ep->v.num = evalue(epar);
    if (errno)
        syntax("bad constant expression");
    epfree(epar);
 
    return(ep);
}


isconstvar(ep)                  /* is ep linked to a constant expression? */
register EPNODE  *ep;
{
#ifdef  VARIABLE
    register EPNODE  *ep1;
#ifdef  FUNCTION

    if (ep->type == FUNC) {
        if (!isconstfun(ep->v.kid))
                return(0);
        for (ep1 = ep->v.kid->sibling; ep1 != NULL; ep1 = ep1->sibling)
            if (ep1->type != NUM && !isconstfun(ep1))
                return(0);
        return(1);
    }
#endif
    if (ep->type != VAR)
        return(0);
    ep1 = ep->v.ln->def;
    if (ep1 == NULL || ep1->type != ':')
        return(0);
#ifdef  FUNCTION
    if (ep1->v.kid->type != SYM)
        return(0);
#endif
    return(1);
#else
    return(ep->type == FUNC);
#endif
}


#if  defined(FUNCTION) && defined(VARIABLE)
isconstfun(ep)                  /* is ep linked to a constant function? */
register EPNODE  *ep;
{
    register EPNODE  *dp;
    register LIBR  *lp;

    if (ep->type != VAR)
        return(0);
    if ((dp = ep->v.ln->def) != NULL && dp->v.kid->type == FUNC)
        return(dp->type == ':');
    if ((lp = liblookup(ep->v.ln->name)) != NULL)
        return(lp->atyp == ':');
    return(0);
}
#endif
#endif
Revision:	2.3
Committed:	Thu May 7 22:30:41 1992 UTC (33 years, 6 months ago) by greg
Content type:	text/plain
Branch:	MAIN
Changes since 2.2:	+5 -8 lines
Log Message:	simplified and improved logic for testing of constant functions
#	Content
1	/* Copyright (c) 1991 Regents of the University of California */
2
3	#ifndef lint
4	static char SCCSid[] = "$SunId$ LBL";
5	#endif
6
7	/*
8	* Compute data values using expression parser
9	*
10	* 7/1/85 Greg Ward
11	*
12	* 11/11/85 Made channel input conditional with (INCHAN) compiles.
13	*
14	* 4/2/86 Added conditional compiles for function definitions (FUNCTION).
15	*
16	* 1/29/87 Made variables conditional (VARIABLE)
17	*
18	* 5/19/88 Added constant subexpression elimination (RCONST)
19	*/
20
21	#include <stdio.h>
22
23	#include <ctype.h>
24
25	#include <errno.h>
26
27	#include "calcomp.h"
28
29	#define MAXLINE 256 /* maximum line length */
30
31	#define newnode() (EPNODE *)ecalloc(1, sizeof(EPNODE))
32
33	#define isdecimal(c) (isdigit(c) \|\| (c) == '.')
34
35	#ifndef atof
36	extern double atof();
37	#endif
38	extern double pow();
39	extern char fgets(), savestr();
40	extern char emalloc(), ecalloc();
41	extern EPNODE *curfunc;
42	extern double efunc(), evariable();
43	static double euminus(), echannel(), eargument(), enumber();
44	static double eadd(), esubtr(), emult(), edivi(), epow();
45	static double ebotch();
46	extern int errno;
47
48	int nextc; /* lookahead character */
49
50	double (eoper[])() = { / expression operations */
51	ebotch,
52	#ifdef VARIABLE
53	evariable,
54	#else
55	ebotch,
56	#endif
57	enumber,
58	euminus,
59	#ifdef INCHAN
60	echannel,
61	#else
62	ebotch,
63	#endif
64	#ifdef FUNCTION
65	efunc,
66	eargument,
67	#else
68	ebotch,
69	ebotch,
70	#endif
71	ebotch,
72	ebotch,
73	0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
74	0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
75	emult,
76	eadd,
77	0,
78	esubtr,
79	0,
80	edivi,
81	0,0,0,0,0,0,0,0,0,0,
82	ebotch,
83	0,0,
84	ebotch,
85	0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
86	0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,
87	epow,
88	};
89
90	static FILE infp; / input file pointer */
91	static char linbuf; / line buffer */
92	static char infile; / input file name */
93	static int lineno; /* input line number */
94	static int linepos; /* position in buffer */
95
96
97	EPNODE *
98	eparse(expr) /* parse an expression string */
99	char *expr;
100	{
101	EPNODE *ep;
102
103	initstr(expr, NULL, 0);
104	#if defined(VARIABLE) && defined(FUNCTION)
105	curfunc = NULL;
106	#endif
107	ep = getE1();
108	if (nextc != EOF)
109	syntax("unexpected character");
110	return(ep);
111	}
112
113
114	double
115	eval(expr) /* evaluate an expression string */
116	char *expr;
117	{
118	register EPNODE *ep;
119	double rval;
120
121	ep = eparse(expr);
122	rval = evalue(ep);
123	epfree(ep);
124	return(rval);
125	}
126
127
128	epfree(epar) /* free a parse tree */
129	register EPNODE *epar;
130	{
131	register EPNODE *ep;
132
133	switch (epar->type) {
134
135	#if defined(VARIABLE) \|\| defined(FUNCTION)
136	case VAR:
137	varfree(epar->v.ln);
138	break;
139	#endif
140
141	case SYM:
142	freestr(epar->v.name);
143	break;
144
145	case NUM:
146	case CHAN:
147	case ARG:
148	case TICK:
149	break;
150
151	default:
152	for (ep = epar->v.kid; ep != NULL; ep = ep->sibling)
153	epfree(ep);
154	break;
155
156	}
157
158	efree((char *)epar);
159	}
160
161	/* the following used to be a switch */
162	#ifdef FUNCTION
163	static double
164	eargument(ep)
165	EPNODE *ep;
166	{
167	return(argument(ep->v.chan));
168	}
169	#endif
170
171	static double
172	enumber(ep)
173	EPNODE *ep;
174	{
175	return(ep->v.num);
176	}
177
178	static double
179	euminus(ep)
180	EPNODE *ep;
181	{
182	register EPNODE *ep1 = ep->v.kid;
183
184	return(-evalue(ep1));
185	}
186
187	#ifdef INCHAN
188	static double
189	echannel(ep)
190	EPNODE *ep;
191	{
192	return(chanvalue(ep->v.chan));
193	}
194	#endif
195
196	static double
197	eadd(ep)
198	EPNODE *ep;
199	{
200	register EPNODE *ep1 = ep->v.kid;
201
202	return(evalue(ep1) + evalue(ep1->sibling));
203	}
204
205	static double
206	esubtr(ep)
207	EPNODE *ep;
208	{
209	register EPNODE *ep1 = ep->v.kid;
210
211	return(evalue(ep1) - evalue(ep1->sibling));
212	}
213
214	static double
215	emult(ep)
216	EPNODE *ep;
217	{
218	register EPNODE *ep1 = ep->v.kid;
219
220	return(evalue(ep1) * evalue(ep1->sibling));
221	}
222
223	static double
224	edivi(ep)
225	EPNODE *ep;
226	{
227	register EPNODE *ep1 = ep->v.kid;
228	double d;
229
230	d = evalue(ep1->sibling);
231	if (d == 0.0) {
232	wputs("Division by zero\n");
233	errno = ERANGE;
234	return(0.0);
235	}
236	return(evalue(ep1) / d);
237	}
238
239	static double
240	epow(ep)
241	EPNODE *ep;
242	{
243	register EPNODE *ep1 = ep->v.kid;
244	double d;
245	int lasterrno;
246
247	lasterrno = errno;
248	errno = 0;
249	d = pow(evalue(ep1), evalue(ep1->sibling));
250	#ifdef IEEE
251	if (!finite(d))
252	errno = EDOM;
253	#endif
254	if (errno) {
255	wputs("Illegal power\n");
256	return(0.0);
257	}
258	errno = lasterrno;
259	return(d);
260	}
261
262	static double
263	ebotch(ep)
264	EPNODE *ep;
265	{
266	eputs("Bad expression!\n");
267	quit(1);
268	}
269
270
271	EPNODE *
272	ekid(ep, n) /* return pointer to a node's nth kid */
273	register EPNODE *ep;
274	register int n;
275	{
276
277	for (ep = ep->v.kid; ep != NULL; ep = ep->sibling)
278	if (--n < 0)
279	break;
280
281	return(ep);
282	}
283
284
285	int
286	nekids(ep) /* return # of kids for node ep */
287	register EPNODE *ep;
288	{
289	register int n = 0;
290
291	for (ep = ep->v.kid; ep != NULL; ep = ep->sibling)
292	n++;
293
294	return(n);
295	}
296
297
298	initfile(fp, fn, ln) /* prepare input file */
299	FILE *fp;
300	char *fn;
301	int ln;
302	{
303	static char inpbuf[MAXLINE];
304
305	infp = fp;
306	linbuf = inpbuf;
307	infile = fn;
308	lineno = ln;
309	linepos = 0;
310	inpbuf[0] = '\0';
311	scan();
312	}
313
314
315	initstr(s, fn, ln) /* prepare input string */
316	char *s;
317	char *fn;
318	int ln;
319	{
320	infp = NULL;
321	infile = fn;
322	lineno = ln;
323	linbuf = s;
324	linepos = 0;
325	scan();
326	}
327
328
329	getscanpos(fnp, lnp, spp, fpp) /* return current scan position */
330	char **fnp;
331	int *lnp;
332	char **spp;
333	FILE **fpp;
334	{
335	if (fnp != NULL) *fnp = infile;
336	if (lnp != NULL) *lnp = lineno;
337	if (spp != NULL) *spp = linbuf+linepos;
338	if (fpp != NULL) *fpp = infp;
339	}
340
341
342	int
343	scan() /* scan next character, return literal next */
344	{
345	register int lnext = 0;
346
347	do {
348	if (linbuf[linepos] == '\0')
349	if (infp == NULL \|\| fgets(linbuf, MAXLINE, infp) == NULL)
350	nextc = EOF;
351	else {
352	nextc = linbuf[0];
353	lineno++;
354	linepos = 1;
355	}
356	else
357	nextc = linbuf[linepos++];
358	if (!lnext)
359	lnext = nextc;
360	if (nextc == '{') {
361	scan();
362	while (nextc != '}')
363	if (nextc == EOF)
364	syntax("'}' expected");
365	else
366	scan();
367	scan();
368	}
369	} while (isspace(nextc));
370	return(lnext);
371	}
372
373
374	char *
375	ltoa(l) /* convert long to ascii */
376	long l;
377	{
378	static char buf[16];
379	register char *cp;
380	int neg = 0;
381
382	if (l == 0)
383	return("0");
384	if (l < 0) {
385	l = -l;
386	neg++;
387	}
388	cp = buf + sizeof(buf);
389	*--cp = '\0';
390	while (l) {
391	*--cp = l % 10 + '0';
392	l /= 10;
393	}
394	if (neg)
395	*--cp = '-';
396	return(cp);
397	}
398
399
400	syntax(err) /* report syntax error and quit */
401	char *err;
402	{
403	register int i;
404
405	if (infile != NULL \|\| lineno != 0) {
406	if (infile != NULL) eputs(infile);
407	if (lineno != 0) {
408	eputs(infile != NULL ? ", line " : "line ");
409	eputs(ltoa((long)lineno));
410	}
411	eputs(": syntax error:\n");
412	}
413	eputs(linbuf);
414	if (linbuf[strlen(linbuf)-1] != '\n')
415	eputs("\n");
416	for (i = 0; i < linepos-1; i++)
417	eputs(linbuf[i] == '\t' ? "\t" : " ");
418	eputs("^ ");
419	eputs(err);
420	eputs("\n");
421	quit(1);
422	}
423
424
425	addekid(ep, ekid) /* add a child to ep */
426	register EPNODE *ep;
427	EPNODE *ekid;
428	{
429	if (ep->v.kid == NULL)
430	ep->v.kid = ekid;
431	else {
432	for (ep = ep->v.kid; ep->sibling != NULL; ep = ep->sibling)
433	;
434	ep->sibling = ekid;
435	}
436	ekid->sibling = NULL;
437	}
438
439
440	char *
441	getname() /* scan an identifier */
442	{
443	static char str[MAXWORD+1];
444	register int i, lnext;
445
446	lnext = nextc;
447	for (i = 0; i < MAXWORD && isid(lnext); i++, lnext = scan())
448	str[i] = lnext;
449	str[i] = '\0';
450	while (isid(lnext)) /* skip rest of name */
451	lnext = scan();
452
453	return(str);
454	}
455
456
457	int
458	getinum() /* scan a positive integer */
459	{
460	register int n, lnext;
461
462	n = 0;
463	lnext = nextc;
464	while (isdigit(lnext)) {
465	n = n * 10 + lnext - '0';
466	lnext = scan();
467	}
468	return(n);
469	}
470
471
472	double
473	getnum() /* scan a positive float */
474	{
475	register int i, lnext;
476	char str[MAXWORD+1];
477
478	i = 0;
479	lnext = nextc;
480	while (isdigit(lnext) && i < MAXWORD) {
481	str[i++] = lnext;
482	lnext = scan();
483	}
484	if (lnext == '.' && i < MAXWORD) {
485	str[i++] = lnext;
486	lnext = scan();
487	while (isdigit(lnext) && i < MAXWORD) {
488	str[i++] = lnext;
489	lnext = scan();
490	}
491	}
492	if ((lnext == 'e' \|\| lnext == 'E') && i < MAXWORD) {
493	str[i++] = lnext;
494	lnext = scan();
495	if ((lnext == '-' \|\| lnext == '+') && i < MAXWORD) {
496	str[i++] = lnext;
497	lnext = scan();
498	}
499	while (isdigit(lnext) && i < MAXWORD) {
500	str[i++] = lnext;
501	lnext = scan();
502	}
503	}
504	str[i] = '\0';
505
506	return(atof(str));
507	}
508
509
510	EPNODE *
511	getE1() /* E1 -> E1 ADDOP E2 */
512	/* E2 */
513	{
514	register EPNODE ep1, ep2;
515
516	ep1 = getE2();
517	while (nextc == '+' \|\| nextc == '-') {
518	ep2 = newnode();
519	ep2->type = nextc;
520	scan();
521	addekid(ep2, ep1);
522	addekid(ep2, getE2());
523	#ifdef RCONST
524	if (ep1->type == NUM && ep1->sibling->type == NUM)
525	ep2 = rconst(ep2);
526	#endif
527	ep1 = ep2;
528	}
529	return(ep1);
530	}
531
532
533	EPNODE *
534	getE2() /* E2 -> E2 MULOP E3 */
535	/* E3 */
536	{
537	register EPNODE ep1, ep2;
538
539	ep1 = getE3();
540	while (nextc == '*' \|\| nextc == '/') {
541	ep2 = newnode();
542	ep2->type = nextc;
543	scan();
544	addekid(ep2, ep1);
545	addekid(ep2, getE3());
546	#ifdef RCONST
547	if (ep1->type == NUM && ep1->sibling->type == NUM)
548	ep2 = rconst(ep2);
549	#endif
550	ep1 = ep2;
551	}
552	return(ep1);
553	}
554
555
556	EPNODE *
557	getE3() /* E3 -> E4 ^ E3 */
558	/* E4 */
559	{
560	register EPNODE ep1, ep2;
561
562	ep1 = getE4();
563	if (nextc == '^') {
564	ep2 = newnode();
565	ep2->type = nextc;
566	scan();
567	addekid(ep2, ep1);
568	addekid(ep2, getE3());
569	#ifdef RCONST
570	if (ep1->type == NUM && ep1->sibling->type == NUM)
571	ep2 = rconst(ep2);
572	#endif
573	return(ep2);
574	}
575	return(ep1);
576	}
577
578
579	EPNODE *
580	getE4() /* E4 -> ADDOP E5 */
581	/* E5 */
582	{
583	register EPNODE ep1, ep2;
584
585	if (nextc == '-') {
586	scan();
587	ep2 = getE5();
588	if (ep2->type == NUM) {
589	ep2->v.num = -ep2->v.num;
590	return(ep2);
591	}
592	if (ep2->type == UMINUS) { /* don't generate -(-E5) */
593	efree((char *)ep2);
594	return(ep2->v.kid);
595	}
596	ep1 = newnode();
597	ep1->type = UMINUS;
598	addekid(ep1, ep2);
599	return(ep1);
600	}
601	if (nextc == '+')
602	scan();
603	return(getE5());
604	}
605
606
607	EPNODE *
608	getE5() /* E5 -> (E1) */
609	/* VAR */
610	/* NUM */
611	/* $N */
612	/* FUNC(E1,..) */
613	/* ARG */
614	{
615	int i;
616	char *nam;
617	register EPNODE ep1, ep2;
618
619	if (nextc == '(') {
620	scan();
621	ep1 = getE1();
622	if (nextc != ')')
623	syntax("')' expected");
624	scan();
625	return(ep1);
626	}
627
628	#ifdef INCHAN
629	if (nextc == '$') {
630	scan();
631	ep1 = newnode();
632	ep1->type = CHAN;
633	ep1->v.chan = getinum();
634	return(ep1);
635	}
636	#endif
637
638	#if defined(VARIABLE) \|\| defined(FUNCTION)
639	if (isalpha(nextc) \|\| nextc == CNTXMARK) {
640	nam = getname();
641	#if defined(VARIABLE) && defined(FUNCTION)
642	ep1 = NULL;
643	if (curfunc != NULL)
644	for (i = 1, ep2 = curfunc->v.kid->sibling;
645	ep2 != NULL; i++, ep2 = ep2->sibling)
646	if (!strcmp(ep2->v.name, nam)) {
647	ep1 = newnode();
648	ep1->type = ARG;
649	ep1->v.chan = i;
650	break;
651	}
652	if (ep1 == NULL)
653	#endif
654	{
655	ep1 = newnode();
656	ep1->type = VAR;
657	ep1->v.ln = varinsert(nam);
658	}
659	#ifdef FUNCTION
660	if (nextc == '(') {
661	ep2 = newnode();
662	ep2->type = FUNC;
663	addekid(ep2, ep1);
664	ep1 = ep2;
665	do {
666	scan();
667	addekid(ep1, getE1());
668	} while (nextc == ',');
669	if (nextc != ')')
670	syntax("')' expected");
671	scan();
672	}
673	#ifndef VARIABLE
674	else
675	syntax("'(' expected");
676	#endif
677	#endif
678	#ifdef RCONST
679	if (isconstvar(ep1))
680	ep1 = rconst(ep1);
681	#endif
682	return(ep1);
683	}
684	#endif
685
686	if (isdecimal(nextc)) {
687	ep1 = newnode();
688	ep1->type = NUM;
689	ep1->v.num = getnum();
690	return(ep1);
691	}
692	syntax("unexpected character");
693	}
694
695
696	#ifdef RCONST
697	EPNODE *
698	rconst(epar) /* reduce a constant expression */
699	register EPNODE *epar;
700	{
701	register EPNODE *ep;
702
703	ep = newnode();
704	ep->type = NUM;
705	errno = 0;
706	ep->v.num = evalue(epar);
707	if (errno)
708	syntax("bad constant expression");
709	epfree(epar);
710
711	return(ep);
712	}
713
714
715	isconstvar(ep) /* is ep linked to a constant expression? */
716	register EPNODE *ep;
717	{
718	#ifdef VARIABLE
719	register EPNODE *ep1;
720	#ifdef FUNCTION
721
722	if (ep->type == FUNC) {
723	if (!isconstfun(ep->v.kid))
724	return(0);
725	for (ep1 = ep->v.kid->sibling; ep1 != NULL; ep1 = ep1->sibling)
726	if (ep1->type != NUM && !isconstfun(ep1))
727	return(0);
728	return(1);
729	}
730	#endif
731	if (ep->type != VAR)
732	return(0);
733	ep1 = ep->v.ln->def;
734	if (ep1 == NULL \|\| ep1->type != ':')
735	return(0);
736	#ifdef FUNCTION
737	if (ep1->v.kid->type != SYM)
738	return(0);
739	#endif
740	return(1);
741	#else
742	return(ep->type == FUNC);
743	#endif
744	}
745
746
747	#if defined(FUNCTION) && defined(VARIABLE)
748	isconstfun(ep) /* is ep linked to a constant function? */
749	register EPNODE *ep;
750	{
751	register EPNODE *dp;
752	register LIBR *lp;
753
754	if (ep->type != VAR)
755	return(0);
756	if ((dp = ep->v.ln->def) != NULL && dp->v.kid->type == FUNC)
757	return(dp->type == ':');
758	if ((lp = liblookup(ep->v.ln->name)) != NULL)
759	return(lp->atyp == ':');
760	return(0);
761	}
762	#endif
763	#endif