parse.c revision 1.20
1 1.20 dholland /* $NetBSD: parse.c,v 1.20 2020/08/09 00:22:53 dholland Exp $ */ 2 1.6 cgd 3 1.1 cgd /*- 4 1.5 mycroft * Copyright (c) 1980, 1991, 1993 5 1.5 mycroft * The Regents of the University of California. All rights reserved. 6 1.1 cgd * 7 1.1 cgd * Redistribution and use in source and binary forms, with or without 8 1.1 cgd * modification, are permitted provided that the following conditions 9 1.1 cgd * are met: 10 1.1 cgd * 1. Redistributions of source code must retain the above copyright 11 1.1 cgd * notice, this list of conditions and the following disclaimer. 12 1.1 cgd * 2. Redistributions in binary form must reproduce the above copyright 13 1.1 cgd * notice, this list of conditions and the following disclaimer in the 14 1.1 cgd * documentation and/or other materials provided with the distribution. 15 1.14 agc * 3. Neither the name of the University nor the names of its contributors 16 1.1 cgd * may be used to endorse or promote products derived from this software 17 1.1 cgd * without specific prior written permission. 18 1.1 cgd * 19 1.1 cgd * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 20 1.1 cgd * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 21 1.1 cgd * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 22 1.1 cgd * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 23 1.1 cgd * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 24 1.1 cgd * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 25 1.1 cgd * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 26 1.1 cgd * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 27 1.1 cgd * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 28 1.1 cgd * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 29 1.1 cgd * SUCH DAMAGE. 30 1.1 cgd */ 31 1.1 cgd 32 1.8 christos #include <sys/cdefs.h> 33 1.1 cgd #ifndef lint 34 1.6 cgd #if 0 35 1.6 cgd static char sccsid[] = "@(#)parse.c 8.1 (Berkeley) 5/31/93"; 36 1.6 cgd #else 37 1.20 dholland __RCSID("$NetBSD: parse.c,v 1.20 2020/08/09 00:22:53 dholland Exp $"); 38 1.6 cgd #endif 39 1.1 cgd #endif /* not lint */ 40 1.1 cgd 41 1.1 cgd #include <sys/types.h> 42 1.11 wiz 43 1.13 wiz #include <stdarg.h> 44 1.1 cgd #include <stdlib.h> 45 1.1 cgd #include <string.h> 46 1.1 cgd 47 1.1 cgd #include "csh.h" 48 1.1 cgd #include "extern.h" 49 1.1 cgd 50 1.11 wiz static void asyntax(struct wordent *, struct wordent *); 51 1.11 wiz static void asyn0(struct wordent *, struct wordent *); 52 1.11 wiz static void asyn3(struct wordent *, struct wordent *); 53 1.11 wiz static struct wordent *freenod(struct wordent *, struct wordent *); 54 1.11 wiz static struct command *syn0(struct wordent *, struct wordent *, int); 55 1.11 wiz static struct command *syn1(struct wordent *, struct wordent *, int); 56 1.11 wiz static struct command *syn1a(struct wordent *, struct wordent *, int); 57 1.11 wiz static struct command *syn1b(struct wordent *, struct wordent *, int); 58 1.11 wiz static struct command *syn2(struct wordent *, struct wordent *, int); 59 1.11 wiz static struct command *syn3(struct wordent *, struct wordent *, int); 60 1.1 cgd 61 1.11 wiz #define ALEFT 21 /* max of 20 alias expansions */ 62 1.11 wiz #define HLEFT 11 /* max of 10 history expansions */ 63 1.1 cgd /* 64 1.1 cgd * Perform aliasing on the word list lex 65 1.1 cgd * Do a (very rudimentary) parse to separate into commands. 66 1.1 cgd * If word 0 of a command has an alias, do it. 67 1.1 cgd * Repeat a maximum of 20 times. 68 1.1 cgd */ 69 1.1 cgd static int aleft; 70 1.1 cgd extern int hleft; 71 1.11 wiz 72 1.1 cgd void 73 1.12 lukem alias(struct wordent *lexp) 74 1.1 cgd { 75 1.1 cgd jmp_buf osetexit; 76 1.1 cgd 77 1.1 cgd aleft = ALEFT; 78 1.1 cgd hleft = HLEFT; 79 1.1 cgd getexit(osetexit); 80 1.11 wiz (void)setexit(); 81 1.1 cgd if (haderr) { 82 1.1 cgd resexit(osetexit); 83 1.1 cgd reset(); 84 1.1 cgd } 85 1.10 mycroft if (--aleft == 0) 86 1.1 cgd stderror(ERR_ALIASLOOP); 87 1.12 lukem asyntax(lexp->next, lexp); 88 1.1 cgd resexit(osetexit); 89 1.1 cgd } 90 1.1 cgd 91 1.1 cgd static void 92 1.11 wiz asyntax(struct wordent *p1, struct wordent *p2) 93 1.1 cgd { 94 1.1 cgd while (p1 != p2) 95 1.1 cgd if (any(";&\n", p1->word[0])) 96 1.1 cgd p1 = p1->next; 97 1.1 cgd else { 98 1.1 cgd asyn0(p1, p2); 99 1.1 cgd return; 100 1.1 cgd } 101 1.1 cgd } 102 1.1 cgd 103 1.1 cgd static void 104 1.11 wiz asyn0(struct wordent *p1, struct wordent *p2) 105 1.1 cgd { 106 1.7 tls struct wordent *p; 107 1.11 wiz int l; 108 1.1 cgd 109 1.11 wiz l = 0; 110 1.1 cgd for (p = p1; p != p2; p = p->next) 111 1.1 cgd switch (p->word[0]) { 112 1.1 cgd case '(': 113 1.1 cgd l++; 114 1.1 cgd continue; 115 1.1 cgd case ')': 116 1.1 cgd l--; 117 1.10 mycroft if (l < 0) 118 1.1 cgd stderror(ERR_TOOMANYRP); 119 1.1 cgd continue; 120 1.1 cgd case '>': 121 1.1 cgd if (p->next != p2 && eq(p->next->word, STRand)) 122 1.1 cgd p = p->next; 123 1.1 cgd continue; 124 1.1 cgd case '&': 125 1.1 cgd case '|': 126 1.1 cgd case ';': 127 1.1 cgd case '\n': 128 1.1 cgd if (l != 0) 129 1.1 cgd continue; 130 1.1 cgd asyn3(p1, p); 131 1.1 cgd asyntax(p->next, p2); 132 1.1 cgd return; 133 1.1 cgd } 134 1.1 cgd if (l == 0) 135 1.1 cgd asyn3(p1, p2); 136 1.1 cgd } 137 1.1 cgd 138 1.1 cgd static void 139 1.11 wiz asyn3(struct wordent *p1, struct wordent *p2) 140 1.1 cgd { 141 1.7 tls struct varent *ap; 142 1.1 cgd struct wordent alout; 143 1.17 christos int redid; 144 1.1 cgd 145 1.1 cgd if (p1 == p2) 146 1.1 cgd return; 147 1.1 cgd if (p1->word[0] == '(') { 148 1.1 cgd for (p2 = p2->prev; p2->word[0] != ')'; p2 = p2->prev) 149 1.1 cgd if (p2 == p1) 150 1.1 cgd return; 151 1.1 cgd if (p2 == p1->next) 152 1.1 cgd return; 153 1.1 cgd asyn0(p1->next, p2); 154 1.1 cgd return; 155 1.1 cgd } 156 1.1 cgd ap = adrof1(p1->word, &aliases); 157 1.1 cgd if (ap == 0) 158 1.1 cgd return; 159 1.1 cgd alhistp = p1->prev; 160 1.1 cgd alhistt = p2; 161 1.1 cgd alvec = ap->vec; 162 1.1 cgd redid = lex(&alout); 163 1.1 cgd alhistp = alhistt = 0; 164 1.1 cgd alvec = 0; 165 1.1 cgd if (seterr) { 166 1.1 cgd freelex(&alout); 167 1.1 cgd stderror(ERR_OLD); 168 1.1 cgd } 169 1.1 cgd if (p1->word[0] && eq(p1->word, alout.next->word)) { 170 1.11 wiz Char *cp; 171 1.1 cgd 172 1.11 wiz cp = alout.next->word; 173 1.1 cgd alout.next->word = Strspl(STRQNULL, cp); 174 1.19 christos free(cp); 175 1.1 cgd } 176 1.1 cgd p1 = freenod(p1, redid ? p2 : p1->next); 177 1.1 cgd if (alout.next != &alout) { 178 1.1 cgd p1->next->prev = alout.prev->prev; 179 1.1 cgd alout.prev->prev->next = p1->next; 180 1.1 cgd alout.next->prev = p1; 181 1.1 cgd p1->next = alout.next; 182 1.19 christos free(alout.prev->word); 183 1.19 christos free(alout.prev); 184 1.1 cgd } 185 1.1 cgd reset(); /* throw! */ 186 1.1 cgd } 187 1.1 cgd 188 1.1 cgd static struct wordent * 189 1.11 wiz freenod(struct wordent *p1, struct wordent *p2) 190 1.1 cgd { 191 1.11 wiz struct wordent *retp; 192 1.1 cgd 193 1.11 wiz retp = p1->prev; 194 1.1 cgd while (p1 != p2) { 195 1.19 christos free(p1->word); 196 1.1 cgd p1 = p1->next; 197 1.19 christos free(p1->prev); 198 1.1 cgd } 199 1.1 cgd retp->next = p2; 200 1.1 cgd p2->prev = retp; 201 1.1 cgd return (retp); 202 1.1 cgd } 203 1.1 cgd 204 1.1 cgd #define PHERE 1 205 1.1 cgd #define PIN 2 206 1.1 cgd #define POUT 4 207 1.5 mycroft #define PERR 8 208 1.1 cgd 209 1.1 cgd /* 210 1.1 cgd * syntax 211 1.1 cgd * empty 212 1.1 cgd * syn0 213 1.1 cgd */ 214 1.1 cgd struct command * 215 1.11 wiz syntax(struct wordent *p1, struct wordent *p2, int flags) 216 1.1 cgd { 217 1.1 cgd while (p1 != p2) 218 1.1 cgd if (any(";&\n", p1->word[0])) 219 1.1 cgd p1 = p1->next; 220 1.1 cgd else 221 1.1 cgd return (syn0(p1, p2, flags)); 222 1.1 cgd return (0); 223 1.1 cgd } 224 1.1 cgd 225 1.1 cgd /* 226 1.1 cgd * syn0 227 1.1 cgd * syn1 228 1.1 cgd * syn1 & syntax 229 1.1 cgd */ 230 1.1 cgd static struct command * 231 1.11 wiz syn0(struct wordent *p1, struct wordent *p2, int flags) 232 1.1 cgd { 233 1.7 tls struct wordent *p; 234 1.7 tls struct command *t, *t1; 235 1.11 wiz int l; 236 1.1 cgd 237 1.1 cgd l = 0; 238 1.1 cgd for (p = p1; p != p2; p = p->next) 239 1.1 cgd switch (p->word[0]) { 240 1.1 cgd case '(': 241 1.1 cgd l++; 242 1.1 cgd continue; 243 1.1 cgd case ')': 244 1.1 cgd l--; 245 1.1 cgd if (l < 0) 246 1.1 cgd seterror(ERR_TOOMANYRP); 247 1.1 cgd continue; 248 1.1 cgd case '|': 249 1.1 cgd if (p->word[1] == '|') 250 1.1 cgd continue; 251 1.9 mycroft /* FALLTHROUGH */ 252 1.1 cgd case '>': 253 1.1 cgd if (p->next != p2 && eq(p->next->word, STRand)) 254 1.1 cgd p = p->next; 255 1.1 cgd continue; 256 1.1 cgd case '&': 257 1.1 cgd if (l != 0) 258 1.1 cgd break; 259 1.1 cgd if (p->word[1] == '&') 260 1.1 cgd continue; 261 1.1 cgd t1 = syn1(p1, p, flags); 262 1.1 cgd if (t1->t_dtyp == NODE_LIST || 263 1.1 cgd t1->t_dtyp == NODE_AND || 264 1.1 cgd t1->t_dtyp == NODE_OR) { 265 1.20 dholland t = xcalloc(1, sizeof(*t)); 266 1.1 cgd t->t_dtyp = NODE_PAREN; 267 1.1 cgd t->t_dflg = F_AMPERSAND | F_NOINTERRUPT; 268 1.1 cgd t->t_dspr = t1; 269 1.1 cgd t1 = t; 270 1.1 cgd } 271 1.1 cgd else 272 1.1 cgd t1->t_dflg |= F_AMPERSAND | F_NOINTERRUPT; 273 1.20 dholland t = xcalloc(1, sizeof(*t)); 274 1.1 cgd t->t_dtyp = NODE_LIST; 275 1.1 cgd t->t_dflg = 0; 276 1.1 cgd t->t_dcar = t1; 277 1.1 cgd t->t_dcdr = syntax(p, p2, flags); 278 1.1 cgd return (t); 279 1.1 cgd } 280 1.1 cgd if (l == 0) 281 1.1 cgd return (syn1(p1, p2, flags)); 282 1.1 cgd seterror(ERR_TOOMANYLP); 283 1.1 cgd return (0); 284 1.1 cgd } 285 1.1 cgd 286 1.1 cgd /* 287 1.1 cgd * syn1 288 1.1 cgd * syn1a 289 1.1 cgd * syn1a ; syntax 290 1.1 cgd */ 291 1.1 cgd static struct command * 292 1.11 wiz syn1(struct wordent *p1, struct wordent *p2, int flags) 293 1.1 cgd { 294 1.7 tls struct wordent *p; 295 1.7 tls struct command *t; 296 1.11 wiz int l; 297 1.1 cgd 298 1.1 cgd l = 0; 299 1.1 cgd for (p = p1; p != p2; p = p->next) 300 1.1 cgd switch (p->word[0]) { 301 1.1 cgd case '(': 302 1.1 cgd l++; 303 1.1 cgd continue; 304 1.1 cgd case ')': 305 1.1 cgd l--; 306 1.1 cgd continue; 307 1.1 cgd case ';': 308 1.1 cgd case '\n': 309 1.1 cgd if (l != 0) 310 1.1 cgd break; 311 1.20 dholland t = xcalloc(1, sizeof(*t)); 312 1.1 cgd t->t_dtyp = NODE_LIST; 313 1.1 cgd t->t_dcar = syn1a(p1, p, flags); 314 1.1 cgd t->t_dcdr = syntax(p->next, p2, flags); 315 1.1 cgd if (t->t_dcdr == 0) 316 1.1 cgd t->t_dcdr = t->t_dcar, t->t_dcar = 0; 317 1.1 cgd return (t); 318 1.1 cgd } 319 1.1 cgd return (syn1a(p1, p2, flags)); 320 1.1 cgd } 321 1.1 cgd 322 1.1 cgd /* 323 1.1 cgd * syn1a 324 1.1 cgd * syn1b 325 1.1 cgd * syn1b || syn1a 326 1.1 cgd */ 327 1.1 cgd static struct command * 328 1.11 wiz syn1a(struct wordent *p1, struct wordent *p2, int flags) 329 1.1 cgd { 330 1.7 tls struct wordent *p; 331 1.7 tls struct command *t; 332 1.11 wiz int l; 333 1.1 cgd 334 1.11 wiz l = 0; 335 1.1 cgd for (p = p1; p != p2; p = p->next) 336 1.1 cgd switch (p->word[0]) { 337 1.1 cgd case '(': 338 1.1 cgd l++; 339 1.1 cgd continue; 340 1.1 cgd case ')': 341 1.1 cgd l--; 342 1.1 cgd continue; 343 1.1 cgd case '|': 344 1.1 cgd if (p->word[1] != '|') 345 1.1 cgd continue; 346 1.1 cgd if (l == 0) { 347 1.20 dholland t = xcalloc(1, sizeof(*t)); 348 1.1 cgd t->t_dtyp = NODE_OR; 349 1.1 cgd t->t_dcar = syn1b(p1, p, flags); 350 1.1 cgd t->t_dcdr = syn1a(p->next, p2, flags); 351 1.1 cgd t->t_dflg = 0; 352 1.1 cgd return (t); 353 1.1 cgd } 354 1.1 cgd continue; 355 1.1 cgd } 356 1.1 cgd return (syn1b(p1, p2, flags)); 357 1.1 cgd } 358 1.1 cgd 359 1.1 cgd /* 360 1.1 cgd * syn1b 361 1.1 cgd * syn2 362 1.1 cgd * syn2 && syn1b 363 1.1 cgd */ 364 1.1 cgd static struct command * 365 1.11 wiz syn1b(struct wordent *p1, struct wordent *p2, int flags) 366 1.1 cgd { 367 1.7 tls struct wordent *p; 368 1.7 tls struct command *t; 369 1.11 wiz int l; 370 1.1 cgd 371 1.11 wiz l = 0; 372 1.1 cgd for (p = p1; p != p2; p = p->next) 373 1.1 cgd switch (p->word[0]) { 374 1.1 cgd case '(': 375 1.1 cgd l++; 376 1.1 cgd continue; 377 1.1 cgd case ')': 378 1.1 cgd l--; 379 1.1 cgd continue; 380 1.1 cgd case '&': 381 1.1 cgd if (p->word[1] == '&' && l == 0) { 382 1.20 dholland t = xcalloc(1, sizeof(*t)); 383 1.1 cgd t->t_dtyp = NODE_AND; 384 1.1 cgd t->t_dcar = syn2(p1, p, flags); 385 1.1 cgd t->t_dcdr = syn1b(p->next, p2, flags); 386 1.1 cgd t->t_dflg = 0; 387 1.1 cgd return (t); 388 1.1 cgd } 389 1.1 cgd continue; 390 1.1 cgd } 391 1.1 cgd return (syn2(p1, p2, flags)); 392 1.1 cgd } 393 1.1 cgd 394 1.1 cgd /* 395 1.1 cgd * syn2 396 1.1 cgd * syn3 397 1.1 cgd * syn3 | syn2 398 1.1 cgd * syn3 |& syn2 399 1.1 cgd */ 400 1.1 cgd static struct command * 401 1.11 wiz syn2(struct wordent *p1, struct wordent *p2, int flags) 402 1.1 cgd { 403 1.7 tls struct wordent *p, *pn; 404 1.7 tls struct command *t; 405 1.11 wiz int f, l; 406 1.1 cgd 407 1.11 wiz l = 0; 408 1.1 cgd for (p = p1; p != p2; p = p->next) 409 1.1 cgd switch (p->word[0]) { 410 1.1 cgd case '(': 411 1.1 cgd l++; 412 1.1 cgd continue; 413 1.1 cgd case ')': 414 1.1 cgd l--; 415 1.1 cgd continue; 416 1.1 cgd case '|': 417 1.1 cgd if (l != 0) 418 1.1 cgd continue; 419 1.20 dholland t = xcalloc(1, sizeof(*t)); 420 1.1 cgd f = flags | POUT; 421 1.1 cgd pn = p->next; 422 1.1 cgd if (pn != p2 && pn->word[0] == '&') { 423 1.5 mycroft f |= PERR; 424 1.1 cgd t->t_dflg |= F_STDERR; 425 1.1 cgd } 426 1.1 cgd t->t_dtyp = NODE_PIPE; 427 1.1 cgd t->t_dcar = syn3(p1, p, f); 428 1.1 cgd if (pn != p2 && pn->word[0] == '&') 429 1.1 cgd p = pn; 430 1.1 cgd t->t_dcdr = syn2(p->next, p2, flags | PIN); 431 1.1 cgd return (t); 432 1.1 cgd } 433 1.1 cgd return (syn3(p1, p2, flags)); 434 1.1 cgd } 435 1.1 cgd 436 1.1 cgd static char RELPAR[] = {'<', '>', '(', ')', '\0'}; 437 1.1 cgd 438 1.1 cgd /* 439 1.1 cgd * syn3 440 1.1 cgd * ( syn0 ) [ < in ] [ > out ] 441 1.1 cgd * word word* [ < in ] [ > out ] 442 1.1 cgd * KEYWORD ( word* ) word* [ < in ] [ > out ] 443 1.1 cgd * 444 1.1 cgd * KEYWORD = (@ exit foreach if set switch test while) 445 1.1 cgd */ 446 1.1 cgd static struct command * 447 1.11 wiz syn3(struct wordent *p1, struct wordent *p2, int flags) 448 1.1 cgd { 449 1.11 wiz struct wordent *lp, *p, *rp; 450 1.7 tls struct command *t; 451 1.11 wiz Char **av; 452 1.11 wiz int c, l, n; 453 1.17 christos int specp; 454 1.1 cgd 455 1.11 wiz specp = 0; 456 1.1 cgd if (p1 != p2) { 457 1.1 cgd p = p1; 458 1.1 cgd again: 459 1.1 cgd switch (srchx(p->word)) { 460 1.1 cgd case T_ELSE: 461 1.1 cgd p = p->next; 462 1.1 cgd if (p != p2) 463 1.1 cgd goto again; 464 1.1 cgd break; 465 1.1 cgd case T_EXIT: 466 1.1 cgd case T_FOREACH: 467 1.1 cgd case T_IF: 468 1.1 cgd case T_LET: 469 1.1 cgd case T_SET: 470 1.1 cgd case T_SWITCH: 471 1.1 cgd case T_WHILE: 472 1.1 cgd specp = 1; 473 1.1 cgd break; 474 1.1 cgd } 475 1.1 cgd } 476 1.1 cgd n = 0; 477 1.1 cgd l = 0; 478 1.1 cgd for (p = p1; p != p2; p = p->next) 479 1.1 cgd switch (p->word[0]) { 480 1.1 cgd case '(': 481 1.1 cgd if (specp) 482 1.1 cgd n++; 483 1.1 cgd l++; 484 1.1 cgd continue; 485 1.1 cgd case ')': 486 1.1 cgd if (specp) 487 1.1 cgd n++; 488 1.1 cgd l--; 489 1.1 cgd continue; 490 1.1 cgd case '>': 491 1.1 cgd case '<': 492 1.1 cgd if (l != 0) { 493 1.1 cgd if (specp) 494 1.1 cgd n++; 495 1.1 cgd continue; 496 1.1 cgd } 497 1.1 cgd if (p->next == p2) 498 1.1 cgd continue; 499 1.1 cgd if (any(RELPAR, p->next->word[0])) 500 1.1 cgd continue; 501 1.1 cgd n--; 502 1.1 cgd continue; 503 1.1 cgd default: 504 1.1 cgd if (!specp && l != 0) 505 1.1 cgd continue; 506 1.1 cgd n++; 507 1.1 cgd continue; 508 1.1 cgd } 509 1.1 cgd if (n < 0) 510 1.1 cgd n = 0; 511 1.20 dholland t = xcalloc(1, sizeof(*t)); 512 1.20 dholland av = xcalloc((size_t)(n + 1), sizeof(Char **)); 513 1.1 cgd t->t_dcom = av; 514 1.1 cgd n = 0; 515 1.1 cgd if (p2->word[0] == ')') 516 1.1 cgd t->t_dflg = F_NOFORK; 517 1.1 cgd lp = 0; 518 1.1 cgd rp = 0; 519 1.1 cgd l = 0; 520 1.1 cgd for (p = p1; p != p2; p = p->next) { 521 1.1 cgd c = p->word[0]; 522 1.1 cgd switch (c) { 523 1.1 cgd case '(': 524 1.1 cgd if (l == 0) { 525 1.1 cgd if (lp != 0 && !specp) 526 1.1 cgd seterror(ERR_BADPLP); 527 1.1 cgd lp = p->next; 528 1.1 cgd } 529 1.1 cgd l++; 530 1.1 cgd goto savep; 531 1.1 cgd case ')': 532 1.1 cgd l--; 533 1.1 cgd if (l == 0) 534 1.1 cgd rp = p; 535 1.1 cgd goto savep; 536 1.1 cgd case '>': 537 1.1 cgd if (l != 0) 538 1.1 cgd goto savep; 539 1.1 cgd if (p->word[1] == '>') 540 1.1 cgd t->t_dflg |= F_APPEND; 541 1.1 cgd if (p->next != p2 && eq(p->next->word, STRand)) { 542 1.1 cgd t->t_dflg |= F_STDERR, p = p->next; 543 1.5 mycroft if (flags & (POUT | PERR)) { 544 1.1 cgd seterror(ERR_OUTRED); 545 1.1 cgd continue; 546 1.1 cgd } 547 1.1 cgd } 548 1.1 cgd if (p->next != p2 && eq(p->next->word, STRbang)) 549 1.1 cgd t->t_dflg |= F_OVERWRITE, p = p->next; 550 1.1 cgd if (p->next == p2) { 551 1.1 cgd seterror(ERR_MISRED); 552 1.1 cgd continue; 553 1.1 cgd } 554 1.1 cgd p = p->next; 555 1.1 cgd if (any(RELPAR, p->word[0])) { 556 1.1 cgd seterror(ERR_MISRED); 557 1.1 cgd continue; 558 1.1 cgd } 559 1.5 mycroft if ((flags & POUT) && ((flags & PERR) == 0 || t->t_drit)) 560 1.1 cgd seterror(ERR_OUTRED); 561 1.1 cgd else 562 1.1 cgd t->t_drit = Strsave(p->word); 563 1.1 cgd continue; 564 1.1 cgd case '<': 565 1.1 cgd if (l != 0) 566 1.1 cgd goto savep; 567 1.1 cgd if (p->word[1] == '<') 568 1.1 cgd t->t_dflg |= F_READ; 569 1.1 cgd if (p->next == p2) { 570 1.1 cgd seterror(ERR_MISRED); 571 1.1 cgd continue; 572 1.1 cgd } 573 1.1 cgd p = p->next; 574 1.1 cgd if (any(RELPAR, p->word[0])) { 575 1.1 cgd seterror(ERR_MISRED); 576 1.1 cgd continue; 577 1.1 cgd } 578 1.1 cgd if ((flags & PHERE) && (t->t_dflg & F_READ)) 579 1.1 cgd seterror(ERR_REDPAR); 580 1.1 cgd else if ((flags & PIN) || t->t_dlef) 581 1.1 cgd seterror(ERR_INRED); 582 1.1 cgd else 583 1.1 cgd t->t_dlef = Strsave(p->word); 584 1.1 cgd continue; 585 1.9 mycroft savep: 586 1.1 cgd if (!specp) 587 1.1 cgd continue; 588 1.9 mycroft /* FALLTHROUGH */ 589 1.1 cgd default: 590 1.1 cgd if (l != 0 && !specp) 591 1.1 cgd continue; 592 1.1 cgd if (seterr == 0) 593 1.1 cgd av[n] = Strsave(p->word); 594 1.1 cgd n++; 595 1.1 cgd continue; 596 1.1 cgd } 597 1.1 cgd } 598 1.1 cgd if (lp != 0 && !specp) { 599 1.1 cgd if (n != 0) 600 1.1 cgd seterror(ERR_BADPLPS); 601 1.1 cgd t->t_dtyp = NODE_PAREN; 602 1.1 cgd t->t_dspr = syn0(lp, rp, PHERE); 603 1.1 cgd } 604 1.1 cgd else { 605 1.1 cgd if (n == 0) 606 1.1 cgd seterror(ERR_NULLCOM); 607 1.1 cgd t->t_dtyp = NODE_COMMAND; 608 1.1 cgd } 609 1.1 cgd return (t); 610 1.1 cgd } 611 1.1 cgd 612 1.1 cgd void 613 1.11 wiz freesyn(struct command *t) 614 1.1 cgd { 615 1.7 tls Char **v; 616 1.1 cgd 617 1.1 cgd if (t == 0) 618 1.1 cgd return; 619 1.1 cgd switch (t->t_dtyp) { 620 1.1 cgd case NODE_COMMAND: 621 1.1 cgd for (v = t->t_dcom; *v; v++) 622 1.19 christos free(* v); 623 1.19 christos free(t->t_dcom); 624 1.19 christos free(t->t_dlef); 625 1.19 christos free(t->t_drit); 626 1.1 cgd break; 627 1.1 cgd case NODE_PAREN: 628 1.1 cgd freesyn(t->t_dspr); 629 1.19 christos free(t->t_dlef); 630 1.19 christos free(t->t_drit); 631 1.1 cgd break; 632 1.1 cgd case NODE_AND: 633 1.1 cgd case NODE_OR: 634 1.1 cgd case NODE_PIPE: 635 1.1 cgd case NODE_LIST: 636 1.1 cgd freesyn(t->t_dcar), freesyn(t->t_dcdr); 637 1.1 cgd break; 638 1.1 cgd } 639 1.19 christos free(t); 640 1.1 cgd } 641
Indexes created Sun Sep 21 16:09:51 GMT 2025