rs.c revision 1.3
1 1.1 tls /*- 2 1.1 tls * Copyright (c) 1993 3 1.1 tls * The Regents of the University of California. All rights reserved. 4 1.1 tls * 5 1.1 tls * Redistribution and use in source and binary forms, with or without 6 1.1 tls * modification, are permitted provided that the following conditions 7 1.1 tls * are met: 8 1.1 tls * 1. Redistributions of source code must retain the above copyright 9 1.1 tls * notice, this list of conditions and the following disclaimer. 10 1.1 tls * 2. Redistributions in binary form must reproduce the above copyright 11 1.1 tls * notice, this list of conditions and the following disclaimer in the 12 1.1 tls * documentation and/or other materials provided with the distribution. 13 1.1 tls * 3. All advertising materials mentioning features or use of this software 14 1.1 tls * must display the following acknowledgement: 15 1.1 tls * This product includes software developed by the University of 16 1.1 tls * California, Berkeley and its contributors. 17 1.1 tls * 4. Neither the name of the University nor the names of its contributors 18 1.1 tls * may be used to endorse or promote products derived from this software 19 1.1 tls * without specific prior written permission. 20 1.1 tls * 21 1.1 tls * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 22 1.1 tls * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 23 1.1 tls * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 24 1.1 tls * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 25 1.1 tls * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 26 1.1 tls * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 27 1.1 tls * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 28 1.1 tls * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 29 1.1 tls * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 30 1.1 tls * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 31 1.1 tls * SUCH DAMAGE. 32 1.1 tls */ 33 1.1 tls 34 1.1 tls #ifndef lint 35 1.1 tls static char copyright[] = 36 1.1 tls "@(#) Copyright (c) 1993\n\ 37 1.1 tls The Regents of the University of California. All rights reserved.\n"; 38 1.1 tls #endif /* not lint */ 39 1.1 tls 40 1.1 tls #ifndef lint 41 1.1 tls static char sccsid[] = "@(#)rs.c 8.1 (Berkeley) 6/6/93"; 42 1.1 tls #endif /* not lint */ 43 1.1 tls 44 1.1 tls /* 45 1.1 tls * rs - reshape a data array 46 1.1 tls * Author: John Kunze, Office of Comp. Affairs, UCB 47 1.1 tls * BEWARE: lots of unfinished edges 48 1.1 tls */ 49 1.1 tls 50 1.1 tls #include <ctype.h> 51 1.1 tls #include <stdio.h> 52 1.1 tls #include <stdlib.h> 53 1.2 cgd #include <string.h> 54 1.1 tls 55 1.1 tls long flags; 56 1.1 tls #define TRANSPOSE 000001 57 1.1 tls #define MTRANSPOSE 000002 58 1.1 tls #define ONEPERLINE 000004 59 1.1 tls #define ONEISEPONLY 000010 60 1.1 tls #define ONEOSEPONLY 000020 61 1.1 tls #define NOTRIMENDCOL 000040 62 1.1 tls #define SQUEEZE 000100 63 1.1 tls #define SHAPEONLY 000200 64 1.1 tls #define DETAILSHAPE 000400 65 1.1 tls #define RIGHTADJUST 001000 66 1.1 tls #define NULLPAD 002000 67 1.1 tls #define RECYCLE 004000 68 1.1 tls #define SKIPPRINT 010000 69 1.1 tls #define ICOLBOUNDS 020000 70 1.1 tls #define OCOLBOUNDS 040000 71 1.1 tls #define ONEPERCHAR 0100000 72 1.1 tls #define NOARGS 0200000 73 1.1 tls 74 1.1 tls short *colwidths; 75 1.1 tls short *cord; 76 1.1 tls short *icbd; 77 1.1 tls short *ocbd; 78 1.1 tls int nelem; 79 1.1 tls char **elem; 80 1.1 tls char **endelem; 81 1.1 tls char *curline; 82 1.1 tls int allocsize = BUFSIZ; 83 1.1 tls int curlen; 84 1.1 tls int irows, icols; 85 1.1 tls int orows, ocols; 86 1.1 tls int maxlen; 87 1.1 tls int skip; 88 1.1 tls int propgutter; 89 1.1 tls char isep = ' ', osep = ' '; 90 1.1 tls int owidth = 80, gutter = 2; 91 1.1 tls 92 1.3 pk void usage __P((char *, char *)); 93 1.1 tls void getargs __P((int, char *[])); 94 1.1 tls void getfile __P((void)); 95 1.1 tls int getline __P((void)); 96 1.1 tls char *getlist __P((short **, char *)); 97 1.1 tls char *getnum __P((int *, char *, int)); 98 1.1 tls char **getptrs __P((char **)); 99 1.1 tls void prepfile __P((void)); 100 1.1 tls void prints __P((char *, int)); 101 1.1 tls void putfile __P((void)); 102 1.1 tls 103 1.3 pk #define INCR(ep) do { \ 104 1.3 pk if (++ep >= endelem) \ 105 1.3 pk ep = getptrs(ep); \ 106 1.3 pk } while(0) 107 1.3 pk 108 1.1 tls int 109 1.1 tls main(argc, argv) 110 1.1 tls int argc; 111 1.1 tls char *argv[]; 112 1.1 tls { 113 1.1 tls getargs(argc, argv); 114 1.1 tls getfile(); 115 1.1 tls if (flags & SHAPEONLY) { 116 1.1 tls printf("%d %d\n", irows, icols); 117 1.1 tls exit(0); 118 1.1 tls } 119 1.1 tls prepfile(); 120 1.1 tls putfile(); 121 1.1 tls exit(0); 122 1.1 tls } 123 1.1 tls 124 1.1 tls void 125 1.1 tls getfile() 126 1.1 tls { 127 1.1 tls register char *p; 128 1.1 tls register char *endp; 129 1.1 tls register char **ep = 0; 130 1.1 tls int multisep = (flags & ONEISEPONLY ? 0 : 1); 131 1.1 tls int nullpad = flags & NULLPAD; 132 1.1 tls char **padto; 133 1.1 tls 134 1.1 tls while (skip--) { 135 1.1 tls getline(); 136 1.1 tls if (flags & SKIPPRINT) 137 1.1 tls puts(curline); 138 1.1 tls } 139 1.1 tls getline(); 140 1.1 tls if (flags & NOARGS && curlen < owidth) 141 1.1 tls flags |= ONEPERLINE; 142 1.1 tls if (flags & ONEPERLINE) 143 1.1 tls icols = 1; 144 1.1 tls else /* count cols on first line */ 145 1.1 tls for (p = curline, endp = curline + curlen; p < endp; p++) { 146 1.1 tls if (*p == isep && multisep) 147 1.1 tls continue; 148 1.1 tls icols++; 149 1.1 tls while (*p && *p != isep) 150 1.1 tls p++; 151 1.1 tls } 152 1.1 tls ep = getptrs(elem); 153 1.1 tls p = curline; 154 1.1 tls do { 155 1.1 tls if (flags & ONEPERLINE) { 156 1.3 pk *ep = curline; 157 1.3 pk INCR(ep); /* prepare for next entry */ 158 1.1 tls if (maxlen < curlen) 159 1.1 tls maxlen = curlen; 160 1.1 tls irows++; 161 1.1 tls continue; 162 1.1 tls } 163 1.1 tls for (p = curline, endp = curline + curlen; p < endp; p++) { 164 1.1 tls if (*p == isep && multisep) 165 1.1 tls continue; /* eat up column separators */ 166 1.1 tls if (*p == isep) /* must be an empty column */ 167 1.1 tls *ep = ""; 168 1.1 tls else /* store column entry */ 169 1.1 tls *ep = p; 170 1.1 tls while (p < endp && *p != isep) 171 1.1 tls p++; /* find end of entry */ 172 1.1 tls *p = '\0'; /* mark end of entry */ 173 1.1 tls if (maxlen < p - *ep) /* update maxlen */ 174 1.1 tls maxlen = p - *ep; 175 1.3 pk INCR(ep); /* prepare for next entry */ 176 1.1 tls } 177 1.1 tls irows++; /* update row count */ 178 1.1 tls if (nullpad) { /* pad missing entries */ 179 1.1 tls padto = elem + irows * icols; 180 1.3 pk while (ep < padto) { 181 1.3 pk *ep = ""; 182 1.3 pk INCR(ep); 183 1.3 pk } 184 1.1 tls } 185 1.1 tls } while (getline() != EOF); 186 1.1 tls *ep = 0; /* mark end of pointers */ 187 1.1 tls nelem = ep - elem; 188 1.1 tls } 189 1.1 tls 190 1.1 tls void 191 1.1 tls putfile() 192 1.1 tls { 193 1.1 tls register char **ep; 194 1.3 pk register int i, j, n; 195 1.1 tls 196 1.1 tls ep = elem; 197 1.3 pk if (flags & TRANSPOSE) { 198 1.1 tls for (i = 0; i < orows; i++) { 199 1.1 tls for (j = i; j < nelem; j += orows) 200 1.1 tls prints(ep[j], (j - i) / orows); 201 1.1 tls putchar('\n'); 202 1.1 tls } 203 1.3 pk } else { 204 1.3 pk for (n = 0, i = 0; i < orows && n < nelem; i++) { 205 1.3 pk for (j = 0; j < ocols; j++) { 206 1.3 pk if (n++ >= nelem) 207 1.3 pk break; 208 1.1 tls prints(*ep++, j); 209 1.3 pk } 210 1.1 tls putchar('\n'); 211 1.1 tls } 212 1.3 pk } 213 1.1 tls } 214 1.1 tls 215 1.1 tls void 216 1.1 tls prints(s, col) 217 1.1 tls char *s; 218 1.1 tls int col; 219 1.1 tls { 220 1.1 tls register int n; 221 1.1 tls register char *p = s; 222 1.1 tls 223 1.1 tls while (*p) 224 1.1 tls p++; 225 1.1 tls n = (flags & ONEOSEPONLY ? 1 : colwidths[col] - (p - s)); 226 1.1 tls if (flags & RIGHTADJUST) 227 1.1 tls while (n-- > 0) 228 1.1 tls putchar(osep); 229 1.1 tls for (p = s; *p; p++) 230 1.1 tls putchar(*p); 231 1.1 tls while (n-- > 0) 232 1.1 tls putchar(osep); 233 1.1 tls } 234 1.1 tls 235 1.1 tls void 236 1.3 pk usage(msg, s) 237 1.1 tls char *msg, *s; 238 1.1 tls { 239 1.3 pk warnx(msg, s); 240 1.1 tls fprintf(stderr, 241 1.3 pk "Usage: rs [ -[csCS][x][kKgGw][N]tTeEnyjhHm ] [ rows [ cols ] ]\n"); 242 1.1 tls exit(1); 243 1.1 tls } 244 1.1 tls 245 1.1 tls void 246 1.1 tls prepfile() 247 1.1 tls { 248 1.1 tls register char **ep; 249 1.1 tls register int i; 250 1.1 tls register int j; 251 1.1 tls char **lp; 252 1.1 tls int colw; 253 1.1 tls int max = 0; 254 1.1 tls int n; 255 1.1 tls 256 1.1 tls if (!nelem) 257 1.1 tls exit(0); 258 1.1 tls gutter += maxlen * propgutter / 100.0; 259 1.1 tls colw = maxlen + gutter; 260 1.1 tls if (flags & MTRANSPOSE) { 261 1.1 tls orows = icols; 262 1.1 tls ocols = irows; 263 1.1 tls } 264 1.1 tls else if (orows == 0 && ocols == 0) { /* decide rows and cols */ 265 1.1 tls ocols = owidth / colw; 266 1.3 pk if (ocols == 0) { 267 1.3 pk warnx("Display width %d is less than column width %d\n", owidth, colw); 268 1.3 pk ocols = 1; 269 1.3 pk } 270 1.1 tls if (ocols > nelem) 271 1.1 tls ocols = nelem; 272 1.1 tls orows = nelem / ocols + (nelem % ocols ? 1 : 0); 273 1.1 tls } 274 1.1 tls else if (orows == 0) /* decide on rows */ 275 1.1 tls orows = nelem / ocols + (nelem % ocols ? 1 : 0); 276 1.1 tls else if (ocols == 0) /* decide on cols */ 277 1.1 tls ocols = nelem / orows + (nelem % orows ? 1 : 0); 278 1.1 tls lp = elem + orows * ocols; 279 1.1 tls while (lp > endelem) { 280 1.1 tls getptrs(elem + nelem); 281 1.1 tls lp = elem + orows * ocols; 282 1.1 tls } 283 1.1 tls if (flags & RECYCLE) { 284 1.1 tls for (ep = elem + nelem; ep < lp; ep++) 285 1.1 tls *ep = *(ep - nelem); 286 1.1 tls nelem = lp - elem; 287 1.1 tls } 288 1.1 tls if (!(colwidths = (short *) malloc(ocols * sizeof(short)))) 289 1.3 pk errx(1, "malloc: No gutter space"); 290 1.1 tls if (flags & SQUEEZE) { 291 1.1 tls if (flags & TRANSPOSE) 292 1.1 tls for (ep = elem, i = 0; i < ocols; i++) { 293 1.1 tls for (j = 0; j < orows; j++) 294 1.1 tls if ((n = strlen(*ep++)) > max) 295 1.1 tls max = n; 296 1.1 tls colwidths[i] = max + gutter; 297 1.1 tls } 298 1.1 tls else 299 1.1 tls for (i = 0; i < ocols; i++) { 300 1.1 tls for (j = i; j < nelem; j += ocols) 301 1.1 tls if ((n = strlen(ep[j])) > max) 302 1.1 tls max = n; 303 1.1 tls colwidths[i] = max + gutter; 304 1.1 tls } 305 1.1 tls } 306 1.1 tls /* for (i = 0; i < orows; i++) { 307 1.1 tls for (j = i; j < nelem; j += orows) 308 1.1 tls prints(ep[j], (j - i) / orows); 309 1.1 tls putchar('\n'); 310 1.1 tls } 311 1.1 tls else 312 1.1 tls for (i = 0; i < orows; i++) { 313 1.1 tls for (j = 0; j < ocols; j++) 314 1.1 tls prints(*ep++, j); 315 1.1 tls putchar('\n'); 316 1.1 tls }*/ 317 1.1 tls else 318 1.1 tls for (i = 0; i < ocols; i++) 319 1.1 tls colwidths[i] = colw; 320 1.1 tls if (!(flags & NOTRIMENDCOL)) { 321 1.1 tls if (flags & RIGHTADJUST) 322 1.1 tls colwidths[0] -= gutter; 323 1.1 tls else 324 1.1 tls colwidths[ocols - 1] = 0; 325 1.1 tls } 326 1.1 tls n = orows * ocols; 327 1.1 tls if (n > nelem && (flags & RECYCLE)) 328 1.1 tls nelem = n; 329 1.1 tls /*for (i = 0; i < ocols; i++) 330 1.1 tls fprintf(stderr, "%d ",colwidths[i]); 331 1.1 tls fprintf(stderr, "is colwidths, nelem %d\n", nelem);*/ 332 1.1 tls } 333 1.1 tls 334 1.1 tls #define BSIZE 2048 335 1.1 tls char ibuf[BSIZE]; /* two screenfuls should do */ 336 1.1 tls 337 1.1 tls int 338 1.1 tls getline() /* get line; maintain curline, curlen; manage storage */ 339 1.1 tls { 340 1.1 tls static int putlength; 341 1.1 tls static char *endblock = ibuf + BSIZE; 342 1.1 tls register char *p; 343 1.1 tls register int c, i; 344 1.1 tls 345 1.1 tls if (!irows) { 346 1.1 tls curline = ibuf; 347 1.1 tls putlength = flags & DETAILSHAPE; 348 1.1 tls } 349 1.1 tls else if (skip <= 0) { /* don't waste storage */ 350 1.1 tls curline += curlen + 1; 351 1.1 tls if (putlength) /* print length, recycle storage */ 352 1.1 tls printf(" %d line %d\n", curlen, irows); 353 1.1 tls } 354 1.1 tls if (!putlength && endblock - curline < BUFSIZ) { /* need storage */ 355 1.1 tls /*ww = endblock-curline; tt += ww;*/ 356 1.1 tls /*printf("#wasted %d total %d\n",ww,tt);*/ 357 1.1 tls if (!(curline = (char *) malloc(BSIZE))) 358 1.3 pk errx(1, "File too large"); 359 1.1 tls endblock = curline + BSIZE; 360 1.1 tls /*printf("#endb %d curline %d\n",endblock,curline);*/ 361 1.1 tls } 362 1.1 tls for (p = curline, i = 1; i < BUFSIZ; *p++ = c, i++) 363 1.1 tls if ((c = getchar()) == EOF || c == '\n') 364 1.1 tls break; 365 1.1 tls *p = '\0'; 366 1.1 tls curlen = i - 1; 367 1.1 tls return(c); 368 1.1 tls } 369 1.1 tls 370 1.1 tls char ** 371 1.1 tls getptrs(sp) 372 1.1 tls char **sp; 373 1.1 tls { 374 1.3 pk register char **p; 375 1.1 tls 376 1.3 pk allocsize += allocsize; 377 1.3 pk p = (char **)realloc(elem, allocsize * sizeof(char *)); 378 1.3 pk if (p == (char **)0) 379 1.3 pk err(1, "no memory"); 380 1.3 pk 381 1.3 pk sp += (p - elem); 382 1.3 pk endelem = (elem = p) + allocsize; 383 1.3 pk return(sp); 384 1.1 tls } 385 1.1 tls 386 1.1 tls void 387 1.1 tls getargs(ac, av) 388 1.1 tls int ac; 389 1.1 tls char *av[]; 390 1.1 tls { 391 1.1 tls register char *p; 392 1.1 tls 393 1.1 tls if (ac == 1) { 394 1.1 tls flags |= NOARGS | TRANSPOSE; 395 1.1 tls } 396 1.1 tls while (--ac && **++av == '-') 397 1.1 tls for (p = *av+1; *p; p++) 398 1.1 tls switch (*p) { 399 1.1 tls case 'T': 400 1.1 tls flags |= MTRANSPOSE; 401 1.1 tls case 't': 402 1.1 tls flags |= TRANSPOSE; 403 1.1 tls break; 404 1.1 tls case 'c': /* input col. separator */ 405 1.1 tls flags |= ONEISEPONLY; 406 1.1 tls case 's': /* one or more allowed */ 407 1.1 tls if (p[1]) 408 1.1 tls isep = *++p; 409 1.1 tls else 410 1.1 tls isep = '\t'; /* default is ^I */ 411 1.1 tls break; 412 1.1 tls case 'C': 413 1.1 tls flags |= ONEOSEPONLY; 414 1.1 tls case 'S': 415 1.1 tls if (p[1]) 416 1.1 tls osep = *++p; 417 1.1 tls else 418 1.1 tls osep = '\t'; /* default is ^I */ 419 1.1 tls break; 420 1.1 tls case 'w': /* window width, default 80 */ 421 1.1 tls p = getnum(&owidth, p, 0); 422 1.1 tls if (owidth <= 0) 423 1.3 pk usage("Width must be a positive integer", ""); 424 1.1 tls break; 425 1.1 tls case 'K': /* skip N lines */ 426 1.1 tls flags |= SKIPPRINT; 427 1.1 tls case 'k': /* skip, do not print */ 428 1.1 tls p = getnum(&skip, p, 0); 429 1.1 tls if (!skip) 430 1.1 tls skip = 1; 431 1.1 tls break; 432 1.1 tls case 'm': 433 1.1 tls flags |= NOTRIMENDCOL; 434 1.1 tls break; 435 1.1 tls case 'g': /* gutter space */ 436 1.1 tls p = getnum(&gutter, p, 0); 437 1.1 tls break; 438 1.1 tls case 'G': 439 1.1 tls p = getnum(&propgutter, p, 0); 440 1.1 tls break; 441 1.1 tls case 'e': /* each line is an entry */ 442 1.1 tls flags |= ONEPERLINE; 443 1.1 tls break; 444 1.1 tls case 'E': 445 1.1 tls flags |= ONEPERCHAR; 446 1.1 tls break; 447 1.1 tls case 'j': /* right adjust */ 448 1.1 tls flags |= RIGHTADJUST; 449 1.1 tls break; 450 1.1 tls case 'n': /* null padding for missing values */ 451 1.1 tls flags |= NULLPAD; 452 1.1 tls break; 453 1.1 tls case 'y': 454 1.1 tls flags |= RECYCLE; 455 1.1 tls break; 456 1.1 tls case 'H': /* print shape only */ 457 1.1 tls flags |= DETAILSHAPE; 458 1.1 tls case 'h': 459 1.1 tls flags |= SHAPEONLY; 460 1.1 tls break; 461 1.1 tls case 'z': /* squeeze col width */ 462 1.1 tls flags |= SQUEEZE; 463 1.1 tls break; 464 1.1 tls /*case 'p': 465 1.1 tls ipagespace = atoi(++p); (default is 1) 466 1.1 tls break;*/ 467 1.1 tls case 'o': /* col order */ 468 1.1 tls p = getlist(&cord, p); 469 1.1 tls break; 470 1.1 tls case 'b': 471 1.1 tls flags |= ICOLBOUNDS; 472 1.1 tls p = getlist(&icbd, p); 473 1.1 tls break; 474 1.1 tls case 'B': 475 1.1 tls flags |= OCOLBOUNDS; 476 1.1 tls p = getlist(&ocbd, p); 477 1.1 tls break; 478 1.1 tls default: 479 1.3 pk usage("Bad flag: %.1s", p); 480 1.1 tls } 481 1.1 tls /*if (!osep) 482 1.1 tls osep = isep;*/ 483 1.1 tls switch (ac) { 484 1.1 tls /*case 3: 485 1.1 tls opages = atoi(av[2]);*/ 486 1.1 tls case 2: 487 1.1 tls ocols = atoi(av[1]); 488 1.1 tls case 1: 489 1.1 tls orows = atoi(av[0]); 490 1.1 tls case 0: 491 1.1 tls break; 492 1.1 tls default: 493 1.3 pk usage("Too many arguments.", ""); 494 1.1 tls } 495 1.1 tls } 496 1.1 tls 497 1.1 tls char * 498 1.1 tls getlist(list, p) 499 1.1 tls short **list; 500 1.1 tls char *p; 501 1.1 tls { 502 1.1 tls register int count = 1; 503 1.1 tls register char *t; 504 1.1 tls 505 1.1 tls for (t = p + 1; *t; t++) { 506 1.1 tls if (!isdigit(*t)) 507 1.3 pk usage("Option %.1s requires a list of unsigned numbers separated by commas", t); 508 1.1 tls count++; 509 1.1 tls while (*t && isdigit(*t)) 510 1.1 tls t++; 511 1.1 tls if (*t != ',') 512 1.1 tls break; 513 1.1 tls } 514 1.1 tls if (!(*list = (short *) malloc(count * sizeof(short)))) 515 1.3 pk errx(1, "No list space"); 516 1.1 tls count = 0; 517 1.1 tls for (t = p + 1; *t; t++) { 518 1.1 tls (*list)[count++] = atoi(t); 519 1.1 tls printf("++ %d ", (*list)[count-1]); 520 1.1 tls fflush(stdout); 521 1.1 tls while (*t && isdigit(*t)) 522 1.1 tls t++; 523 1.1 tls if (*t != ',') 524 1.1 tls break; 525 1.1 tls } 526 1.1 tls (*list)[count] = 0; 527 1.1 tls return(t - 1); 528 1.1 tls } 529 1.1 tls 530 1.1 tls char * 531 1.1 tls getnum(num, p, strict) /* num = number p points to; if (strict) complain */ 532 1.1 tls int *num, strict; /* returns pointer to end of num */ 533 1.1 tls char *p; 534 1.1 tls { 535 1.1 tls register char *t = p; 536 1.1 tls 537 1.1 tls if (!isdigit(*++t)) { 538 1.1 tls if (strict || *t == '-' || *t == '+') 539 1.3 pk usage("Option %.1s requires an unsigned integer", p); 540 1.1 tls *num = 0; 541 1.1 tls return(p); 542 1.1 tls } 543 1.1 tls *num = atoi(t); 544 1.1 tls while (*++t) 545 1.1 tls if (!isdigit(*t)) 546 1.1 tls break; 547 1.1 tls return(--t); 548 1.1 tls } 549
Indexes created Mon Sep 22 05:09:51 GMT 2025