Annotation of src/usr.bin/awk/lib.c, Revision 1.5
1.5 ! millert 1: /* $OpenBSD: lib.c,v 1.4 1997/08/25 16:17:11 kstailey Exp $ */
1.1 tholo 2: /****************************************************************
1.4 kstailey 3: Copyright (C) Lucent Technologies 1997
1.1 tholo 4: All Rights Reserved
5:
6: Permission to use, copy, modify, and distribute this software and
7: its documentation for any purpose and without fee is hereby
8: granted, provided that the above copyright notice appear in all
9: copies and that both that the copyright notice and this
10: permission notice and warranty disclaimer appear in supporting
1.4 kstailey 11: documentation, and that the name Lucent Technologies or any of
12: its entities not be used in advertising or publicity pertaining
13: to distribution of the software without specific, written prior
14: permission.
15:
16: LUCENT DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE,
17: INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS.
18: IN NO EVENT SHALL LUCENT OR ANY OF ITS ENTITIES BE LIABLE FOR ANY
19: SPECIAL, INDIRECT OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES
20: WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER
21: IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION,
22: ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF
23: THIS SOFTWARE.
1.1 tholo 24: ****************************************************************/
25:
26: #define DEBUG
27: #include <stdio.h>
28: #include <string.h>
29: #include <ctype.h>
30: #include <errno.h>
31: #include <stdlib.h>
32: #include "awk.h"
1.4 kstailey 33: #include "ytab.h"
1.1 tholo 34:
35: FILE *infile = NULL;
36: char *file = "";
1.4 kstailey 37: char *record;
1.1 tholo 38: int recsize = RECSIZE;
39: char *fields;
1.4 kstailey 40: int fieldssize = RECSIZE;
41:
42: Cell **fldtab; /* pointers to Cells */
1.5 ! millert 43: char inputFS[100] = " ";
1.1 tholo 44:
45: #define MAXFLD 200
1.4 kstailey 46: int nfields = MAXFLD; /* last allocated slot for $i */
1.1 tholo 47:
48: int donefld; /* 1 = implies rec broken into fields */
49: int donerec; /* 1 = record is valid (no flds have changed) */
50:
1.4 kstailey 51: int lastfld = 0; /* last used field */
1.1 tholo 52: int argno = 1; /* current input argument number */
53: extern Awkfloat *ARGC;
54:
1.4 kstailey 55: static Cell dollar0 = { OCELL, CFLD, NULL, "", 0.0, REC|STR|DONTFREE };
56: static Cell dollar1 = { OCELL, CFLD, NULL, "", 0.0, FLD|STR|DONTFREE };
57:
1.1 tholo 58: void recinit(unsigned int n)
59: {
1.4 kstailey 60: record = (char *) malloc(n);
61: fields = (char *) malloc(n);
62: fldtab = (Cell **) malloc((nfields+1) * sizeof(Cell *));
63: if (record == NULL || fields == NULL || fldtab == NULL)
64: ERROR "out of space for $0 and fields" FATAL;
65:
66: fldtab[0] = (Cell *) malloc(sizeof (Cell));
67: *fldtab[0] = dollar0;
68: fldtab[0]->sval = record;
69: fldtab[0]->nval = tostring("0");
70: makefields(1, nfields);
71: }
72:
73: void makefields(int n1, int n2) /* create $n1..$n2 inclusive */
74: {
75: char temp[50];
1.1 tholo 76: int i;
77:
1.4 kstailey 78: for (i = n1; i <= n2; i++) {
79: fldtab[i] = (Cell *) malloc(sizeof (struct Cell));
80: if (fldtab[i] == NULL)
81: ERROR "out of space in makefields %d", i FATAL;
82: *fldtab[i] = dollar1;
83: sprintf(temp, "%d", i);
84: fldtab[i]->nval = tostring(temp);
85: }
1.1 tholo 86: }
87:
88: void initgetrec(void)
89: {
90: int i;
91: char *p;
92:
93: for (i = 1; i < *ARGC; i++) {
94: if (!isclvar(p = getargv(i))) { /* find 1st real filename */
95: setsval(lookup("FILENAME", symtab), getargv(i));
96: return;
97: }
98: setclvar(p); /* a commandline assignment before filename */
99: argno++;
100: }
101: infile = stdin; /* no filenames, so use stdin */
102: }
103:
1.4 kstailey 104: int getrec(char **pbuf, int *pbufsize, int isrecord) /* get next input record */
105: { /* note: cares whether buf == record */
1.1 tholo 106: int c;
107: static int firsttime = 1;
1.4 kstailey 108: char *buf = *pbuf;
109: int bufsize = *pbufsize;
1.1 tholo 110:
111: if (firsttime) {
112: firsttime = 0;
113: initgetrec();
114: }
1.4 kstailey 115: dprintf( ("RS=<%s>, FS=<%s>, ARGC=%g, FILENAME=%s\n",
1.1 tholo 116: *RS, *FS, *ARGC, *FILENAME) );
1.5 ! millert 117: if (isrecord) {
! 118: donefld = 0;
! 119: donerec = 1;
! 120: }
1.1 tholo 121: buf[0] = 0;
122: while (argno < *ARGC || infile == stdin) {
1.4 kstailey 123: dprintf( ("argno=%d, file=|%s|\n", argno, file) );
1.1 tholo 124: if (infile == NULL) { /* have to open a new file */
125: file = getargv(argno);
126: if (*file == '\0') { /* it's been zapped */
127: argno++;
128: continue;
129: }
130: if (isclvar(file)) { /* a var=value arg */
131: setclvar(file);
132: argno++;
133: continue;
134: }
135: *FILENAME = file;
1.4 kstailey 136: dprintf( ("opening file %s\n", file) );
1.1 tholo 137: if (*file == '-' && *(file+1) == '\0')
138: infile = stdin;
1.4 kstailey 139: else if ((infile = fopen(file, "r")) == NULL)
1.1 tholo 140: ERROR "can't open file %s", file FATAL;
141: setfval(fnrloc, 0.0);
142: }
1.4 kstailey 143: c = readrec(&buf, &bufsize, infile);
1.1 tholo 144: if (c != 0 || buf[0] != '\0') { /* normal record */
1.4 kstailey 145: if (isrecord) {
146: if (freeable(fldtab[0]))
147: xfree(fldtab[0]->sval);
148: fldtab[0]->sval = buf; /* buf == record */
149: fldtab[0]->tval = REC | STR | DONTFREE;
1.5 ! millert 150: if (is_number(fldtab[0]->sval)) {
1.4 kstailey 151: fldtab[0]->fval = atof(fldtab[0]->sval);
152: fldtab[0]->tval |= NUM;
1.1 tholo 153: }
154: }
155: setfval(nrloc, nrloc->fval+1);
156: setfval(fnrloc, fnrloc->fval+1);
1.4 kstailey 157: *pbuf = buf;
158: *pbufsize = bufsize;
1.1 tholo 159: return 1;
160: }
161: /* EOF arrived on this file; set up next */
162: if (infile != stdin)
163: fclose(infile);
164: infile = NULL;
165: argno++;
166: }
1.4 kstailey 167: *pbuf = buf;
168: *pbufsize = bufsize;
1.1 tholo 169: return 0; /* true end of file */
170: }
171:
172: void nextfile(void)
173: {
174: if (infile != stdin)
175: fclose(infile);
176: infile = NULL;
177: argno++;
178: }
179:
1.4 kstailey 180: int readrec(char **pbuf, int *pbufsize, FILE *inf) /* read one record into buf */
1.1 tholo 181: {
182: int sep, c;
1.4 kstailey 183: char *rr, *buf = *pbuf;
184: int bufsize = *pbufsize;
1.1 tholo 185:
1.4 kstailey 186: if (strlen(*FS) >= sizeof(inputFS))
187: ERROR "field separator %.10s... is too long", *FS FATAL;
1.2 millert 188: strcpy(inputFS, *FS); /* for subsequent field splitting */
1.1 tholo 189: if ((sep = **RS) == 0) {
190: sep = '\n';
191: while ((c=getc(inf)) == '\n' && c != EOF) /* skip leading \n's */
192: ;
193: if (c != EOF)
194: ungetc(c, inf);
195: }
1.4 kstailey 196: for (rr = buf; ; ) {
197: for (; (c=getc(inf)) != sep && c != EOF; ) {
198: if (rr-buf+1 > bufsize)
199: if (!adjbuf(&buf, &bufsize, 1+rr-buf, recsize, &rr, "readrec 1"))
200: ERROR "input record `%.30s...' too long", buf FATAL;
201: *rr++ = c;
202: }
1.1 tholo 203: if (**RS == sep || c == EOF)
204: break;
205: if ((c = getc(inf)) == '\n' || c == EOF) /* 2 in a row */
206: break;
1.4 kstailey 207: if (!adjbuf(&buf, &bufsize, 2+rr-buf, recsize, &rr, "readrec 2"))
208: ERROR "input record `%.30s...' too long", buf FATAL;
1.1 tholo 209: *rr++ = '\n';
210: *rr++ = c;
211: }
1.4 kstailey 212: if (!adjbuf(&buf, &bufsize, 1+rr-buf, recsize, &rr, "readrec 3"))
213: ERROR "input record `%.30s...' too long", buf FATAL;
1.1 tholo 214: *rr = 0;
1.4 kstailey 215: dprintf( ("readrec saw <%s>, returns %d\n", buf, c == EOF && rr == buf ? 0 : 1) );
216: *pbuf = buf;
217: *pbufsize = bufsize;
1.1 tholo 218: return c == EOF && rr == buf ? 0 : 1;
219: }
220:
221: char *getargv(int n) /* get ARGV[n] */
222: {
223: Cell *x;
1.4 kstailey 224: char *s, temp[50];
1.1 tholo 225: extern Array *ARGVtab;
226:
227: sprintf(temp, "%d", n);
228: x = setsymtab(temp, "", 0.0, STR, ARGVtab);
229: s = getsval(x);
1.4 kstailey 230: dprintf( ("getargv(%d) returns |%s|\n", n, s) );
1.1 tholo 231: return s;
232: }
233:
234: void setclvar(char *s) /* set var=value from s */
235: {
236: char *p;
237: Cell *q;
238:
239: for (p=s; *p != '='; p++)
240: ;
241: *p++ = 0;
242: p = qstring(p, '\0');
243: q = setsymtab(s, p, 0.0, STR, symtab);
244: setsval(q, p);
1.5 ! millert 245: if (is_number(q->sval)) {
1.1 tholo 246: q->fval = atof(q->sval);
247: q->tval |= NUM;
248: }
1.4 kstailey 249: dprintf( ("command line set %s to |%s|\n", s, p) );
1.1 tholo 250: }
251:
252:
253: void fldbld(void) /* create fields from current record */
254: {
1.4 kstailey 255: /* this relies on having fields[] the same length as $0 */
256: /* the fields are all stored in this one array with \0's */
1.1 tholo 257: char *r, *fr, sep;
258: Cell *p;
1.4 kstailey 259: int i, j, n;
1.1 tholo 260:
261: if (donefld)
262: return;
1.4 kstailey 263: if (!isstr(fldtab[0]))
264: getsval(fldtab[0]);
265: r = fldtab[0]->sval;
266: n = strlen(r);
267: if (n > fieldssize) {
268: xfree(fields);
269: if ((fields = (char *) malloc(n+1)) == NULL)
270: ERROR "out of space for fields in fldbld %d", n FATAL;
271: fieldssize = n;
272: }
1.1 tholo 273: fr = fields;
274: i = 0; /* number of fields accumulated here */
1.2 millert 275: if (strlen(inputFS) > 1) { /* it's a regular expression */
276: i = refldbld(r, inputFS);
277: } else if ((sep = *inputFS) == ' ') { /* default whitespace */
1.1 tholo 278: for (i = 0; ; ) {
279: while (*r == ' ' || *r == '\t' || *r == '\n')
280: r++;
281: if (*r == 0)
282: break;
283: i++;
1.4 kstailey 284: if (i > nfields)
285: growfldtab(i);
286: if (freeable(fldtab[i]))
287: xfree(fldtab[i]->sval);
288: fldtab[i]->sval = fr;
289: fldtab[i]->tval = FLD | STR | DONTFREE;
1.1 tholo 290: do
291: *fr++ = *r++;
292: while (*r != ' ' && *r != '\t' && *r != '\n' && *r != '\0');
293: *fr++ = 0;
294: }
295: *fr = 0;
1.2 millert 296: } else if ((sep = *inputFS) == 0) { /* new: FS="" => 1 char/field */
1.1 tholo 297: for (i = 0; *r != 0; r++) {
298: char buf[2];
299: i++;
1.4 kstailey 300: if (i > nfields)
301: growfldtab(i);
302: if (freeable(fldtab[i]))
303: xfree(fldtab[i]->sval);
1.1 tholo 304: buf[0] = *r;
305: buf[1] = 0;
1.4 kstailey 306: fldtab[i]->sval = tostring(buf);
307: fldtab[i]->tval = FLD | STR;
1.1 tholo 308: }
309: *fr = 0;
310: } else if (*r != 0) { /* if 0, it's a null field */
311: for (;;) {
312: i++;
1.4 kstailey 313: if (i > nfields)
314: growfldtab(i);
315: if (freeable(fldtab[i]))
316: xfree(fldtab[i]->sval);
317: fldtab[i]->sval = fr;
318: fldtab[i]->tval = FLD | STR | DONTFREE;
1.1 tholo 319: while (*r != sep && *r != '\n' && *r != '\0') /* \n is always a separator */
320: *fr++ = *r++;
321: *fr++ = 0;
322: if (*r++ == 0)
323: break;
324: }
325: *fr = 0;
326: }
1.4 kstailey 327: if (i > nfields)
328: ERROR "record `%.30s...' has too many fields; can't happen", r FATAL;
329: cleanfld(i+1, lastfld); /* clean out junk from previous record */
330: lastfld = i;
1.1 tholo 331: donefld = 1;
1.4 kstailey 332: for (j = 1; j <= lastfld; j++) {
333: p = fldtab[j];
1.5 ! millert 334: if(is_number(p->sval)) {
1.1 tholo 335: p->fval = atof(p->sval);
336: p->tval |= NUM;
337: }
338: }
1.4 kstailey 339: setfval(nfloc, (Awkfloat) lastfld);
340: if (dbg) {
341: for (j = 0; j <= lastfld; j++) {
342: p = fldtab[j];
343: printf("field %d (%s): |%s|\n", j, p->nval, p->sval);
344: }
345: }
1.1 tholo 346: }
347:
1.4 kstailey 348: void cleanfld(int n1, int n2) /* clean out fields n1 .. n2 inclusive */
349: { /* nvals remain intact */
350: Cell *p;
351: int i;
1.1 tholo 352:
1.4 kstailey 353: for (i = n1; i <= n2; i++) {
354: p = fldtab[i];
355: if (freeable(p))
1.1 tholo 356: xfree(p->sval);
1.4 kstailey 357: p->sval = "";
1.1 tholo 358: p->tval = FLD | STR | DONTFREE;
359: }
360: }
361:
1.4 kstailey 362: void newfld(int n) /* add field n after end of existing lastfld */
1.1 tholo 363: {
1.4 kstailey 364: if (n > nfields)
365: growfldtab(n);
366: cleanfld(lastfld+1, n);
367: lastfld = n;
1.1 tholo 368: setfval(nfloc, (Awkfloat) n);
369: }
370:
1.4 kstailey 371: Cell *fieldadr(int n) /* get nth field */
372: {
373: if (n < 0)
374: ERROR "trying to access field %d", n FATAL;
375: if (n > nfields) /* fields after NF are empty */
376: growfldtab(n); /* but does not increase NF */
377: return(fldtab[n]);
378: }
379:
380: void growfldtab(int n) /* make new fields up to at least $n */
381: {
382: int nf = 2 * nfields;
383:
384: if (n > nf)
385: nf = n;
386: fldtab = (Cell **) realloc(fldtab, (nf+1) * (sizeof (struct Cell *)));
387: if (fldtab == NULL)
388: ERROR "out of space creating %d fields", nf FATAL;
389: makefields(nfields+1, nf);
390: nfields = nf;
391: }
392:
1.1 tholo 393: int refldbld(char *rec, char *fs) /* build fields from reg expr in FS */
394: {
1.4 kstailey 395: /* this relies on having fields[] the same length as $0 */
396: /* the fields are all stored in this one array with \0's */
1.1 tholo 397: char *fr;
1.4 kstailey 398: int i, tempstat, n;
1.1 tholo 399: fa *pfa;
400:
1.4 kstailey 401: n = strlen(rec);
402: if (n > fieldssize) {
403: xfree(fields);
404: if ((fields = (char *) malloc(n+1)) == NULL)
405: ERROR "out of space for fields in refldbld %d", n FATAL;
406: fieldssize = n;
407: }
1.1 tholo 408: fr = fields;
409: *fr = '\0';
410: if (*rec == '\0')
411: return 0;
412: pfa = makedfa(fs, 1);
1.4 kstailey 413: dprintf( ("into refldbld, rec = <%s>, pat = <%s>\n", rec, fs) );
1.1 tholo 414: tempstat = pfa->initstat;
1.4 kstailey 415: for (i = 1; ; i++) {
416: if (i > nfields)
417: growfldtab(i);
418: if (freeable(fldtab[i]))
419: xfree(fldtab[i]->sval);
420: fldtab[i]->tval = FLD | STR | DONTFREE;
421: fldtab[i]->sval = fr;
422: dprintf( ("refldbld: i=%d\n", i) );
1.1 tholo 423: if (nematch(pfa, rec)) {
1.4 kstailey 424: pfa->initstat = 2; /* horrible coupling to b.c */
425: dprintf( ("match %s (%d chars)\n", patbeg, patlen) );
1.1 tholo 426: strncpy(fr, rec, patbeg-rec);
427: fr += patbeg - rec + 1;
428: *(fr-1) = '\0';
429: rec = patbeg + patlen;
430: } else {
1.4 kstailey 431: dprintf( ("no match %s\n", rec) );
1.1 tholo 432: strcpy(fr, rec);
433: pfa->initstat = tempstat;
434: break;
435: }
436: }
437: return i;
438: }
439:
440: void recbld(void) /* create $0 from $1..$NF if necessary */
441: {
442: int i;
443: char *r, *p;
444:
445: if (donerec == 1)
446: return;
1.5 ! millert 447: r = record;
1.1 tholo 448: for (i = 1; i <= *NF; i++) {
1.4 kstailey 449: p = getsval(fldtab[i]);
1.5 ! millert 450: if (!adjbuf(&record, &recsize, 1+strlen(p)+r-record, recsize, &r, "recbld 1"))
! 451: ERROR "created $0 `%.30s...' too long", record FATAL;
1.4 kstailey 452: while ((*r = *p++) != 0)
1.1 tholo 453: r++;
1.4 kstailey 454: if (i < *NF) {
1.5 ! millert 455: if (!adjbuf(&record, &recsize, 2+strlen(*OFS)+r-record, recsize, &r, "recbld 2"))
! 456: ERROR "created $0 `%.30s...' too long", record FATAL;
1.4 kstailey 457: for (p = *OFS; (*r = *p++) != 0; )
1.1 tholo 458: r++;
1.4 kstailey 459: }
1.1 tholo 460: }
1.5 ! millert 461: if (!adjbuf(&record, &recsize, 2+r-record, recsize, &r, "recbld 3"))
! 462: ERROR "built giant record `%.30s...'", record FATAL;
1.1 tholo 463: *r = '\0';
1.4 kstailey 464: dprintf( ("in recbld inputFS=%s, fldtab[0]=%p\n", inputFS, fldtab[0]) );
465:
466: if (freeable(fldtab[0]))
467: xfree(fldtab[0]->sval);
468: fldtab[0]->tval = REC | STR | DONTFREE;
469: fldtab[0]->sval = record;
470:
471: dprintf( ("in recbld inputFS=%s, fldtab[0]=%p\n", inputFS, fldtab[0]) );
472: dprintf( ("recbld = |%s|\n", record) );
1.1 tholo 473: donerec = 1;
474: }
475:
476: int errorflag = 0;
1.4 kstailey 477: char errbuf[300]; /* used by ERROR macro */
1.1 tholo 478:
479: void yyerror(char *s)
480: {
481: extern char *cmdname, *curfname;
482: static int been_here = 0;
483:
484: if (been_here++ > 2)
485: return;
486: fprintf(stderr, "%s: %s", cmdname, s);
487: fprintf(stderr, " at source line %d", lineno);
488: if (curfname != NULL)
489: fprintf(stderr, " in function %s", curfname);
490: fprintf(stderr, "\n");
491: errorflag = 2;
492: eprint();
493: }
494:
495: void fpecatch(int n)
496: {
497: ERROR "floating point exception %d", n FATAL;
498: }
499:
500: extern int bracecnt, brackcnt, parencnt;
501:
502: void bracecheck(void)
503: {
504: int c;
505: static int beenhere = 0;
506:
507: if (beenhere++)
508: return;
1.3 millert 509: while ((c = input()) != EOF && c != '\0')
1.1 tholo 510: bclass(c);
511: bcheck2(bracecnt, '{', '}');
512: bcheck2(brackcnt, '[', ']');
513: bcheck2(parencnt, '(', ')');
514: }
515:
516: void bcheck2(int n, int c1, int c2)
517: {
518: if (n == 1)
519: fprintf(stderr, "\tmissing %c\n", c2);
520: else if (n > 1)
521: fprintf(stderr, "\t%d missing %c's\n", n, c2);
522: else if (n == -1)
523: fprintf(stderr, "\textra %c\n", c2);
524: else if (n < -1)
525: fprintf(stderr, "\t%d extra %c's\n", -n, c2);
526: }
527:
528: void error(int f, char *s)
529: {
530: extern Node *curnode;
531: extern char *cmdname;
532:
533: fflush(stdout);
534: fprintf(stderr, "%s: ", cmdname);
535: fprintf(stderr, "%s", s);
536: fprintf(stderr, "\n");
537: if (compile_time != 2 && NR && *NR > 0) {
538: fprintf(stderr, " input record number %d", (int) (*FNR));
539: if (strcmp(*FILENAME, "-") != 0)
540: fprintf(stderr, ", file %s", *FILENAME);
541: fprintf(stderr, "\n");
542: }
543: if (compile_time != 2 && curnode)
544: fprintf(stderr, " source line number %d\n", curnode->lineno);
545: else if (compile_time != 2 && lineno)
546: fprintf(stderr, " source line number %d\n", lineno);
547: eprint();
548: if (f) {
549: if (dbg > 1) /* core dump if serious debugging on */
550: abort();
551: exit(2);
552: }
553: }
554:
555: void eprint(void) /* try to print context around error */
556: {
557: char *p, *q;
558: int c;
559: static int been_here = 0;
560: extern char ebuf[], *ep;
561:
562: if (compile_time == 2 || compile_time == 0 || been_here++ > 0)
563: return;
564: p = ep - 1;
565: if (p > ebuf && *p == '\n')
566: p--;
567: for ( ; p > ebuf && *p != '\n' && *p != '\0'; p--)
568: ;
569: while (*p == '\n')
570: p++;
571: fprintf(stderr, " context is\n\t");
572: for (q=ep-1; q>=p && *q!=' ' && *q!='\t' && *q!='\n'; q--)
573: ;
574: for ( ; p < q; p++)
575: if (*p)
576: putc(*p, stderr);
577: fprintf(stderr, " >>> ");
578: for ( ; p < ep; p++)
579: if (*p)
580: putc(*p, stderr);
581: fprintf(stderr, " <<< ");
582: if (*ep)
583: while ((c = input()) != '\n' && c != '\0' && c != EOF) {
584: putc(c, stderr);
585: bclass(c);
586: }
587: putc('\n', stderr);
588: ep = ebuf;
589: }
590:
591: void bclass(int c)
592: {
593: switch (c) {
594: case '{': bracecnt++; break;
595: case '}': bracecnt--; break;
596: case '[': brackcnt++; break;
597: case ']': brackcnt--; break;
598: case '(': parencnt++; break;
599: case ')': parencnt--; break;
600: }
601: }
602:
603: double errcheck(double x, char *s)
604: {
605: extern int errno;
606:
607: if (errno == EDOM) {
608: errno = 0;
609: ERROR "%s argument out of domain", s WARNING;
610: x = 1;
611: } else if (errno == ERANGE) {
612: errno = 0;
613: ERROR "%s result out of range", s WARNING;
614: x = 1;
615: }
616: return x;
617: }
618:
619: int isclvar(char *s) /* is s of form var=something ? */
620: {
621: char *os = s;
622:
623: if (!isalpha(*s) && *s != '_')
624: return 0;
625: for ( ; *s; s++)
626: if (!(isalnum(*s) || *s == '_'))
627: break;
628: return *s == '=' && s > os && *(s+1) != '=';
629: }
630:
1.4 kstailey 631: /* strtod is supposed to be a proper test of what's a valid number */
1.1 tholo 632:
1.4 kstailey 633: #include <math.h>
1.5 ! millert 634: int is_number(char *s)
1.1 tholo 635: {
1.4 kstailey 636: double r;
637: char *ep;
638: errno = 0;
639: r = strtod(s, &ep);
640: if (ep == s || r == HUGE_VAL || errno == ERANGE)
641: return 0;
642: while (*ep == ' ' || *ep == '\t' || *ep == '\n')
643: ep++;
644: if (*ep == '\0')
645: return 1;
1.1 tholo 646: else
1.4 kstailey 647: return 0;
1.1 tholo 648: }