arithmetic.c revision 1.3
1 1.3 kre /* $NetBSD: arithmetic.c,v 1.3 2017/06/07 05:08:32 kre Exp $ */ 2 1.1 kre 3 1.1 kre /*- 4 1.1 kre * Copyright (c) 1993 5 1.1 kre * The Regents of the University of California. All rights reserved. 6 1.1 kre * Copyright (c) 2007 7 1.1 kre * Herbert Xu <herbert (at) gondor.apana.org.au>. All rights reserved. 8 1.1 kre * 9 1.1 kre * This code is derived from software contributed to Berkeley by 10 1.1 kre * Kenneth Almquist. 11 1.1 kre * 12 1.1 kre * Redistribution and use in source and binary forms, with or without 13 1.1 kre * modification, are permitted provided that the following conditions 14 1.1 kre * are met: 15 1.1 kre * 1. Redistributions of source code must retain the above copyright 16 1.1 kre * notice, this list of conditions and the following disclaimer. 17 1.1 kre * 2. Redistributions in binary form must reproduce the above copyright 18 1.1 kre * notice, this list of conditions and the following disclaimer in the 19 1.1 kre * documentation and/or other materials provided with the distribution. 20 1.1 kre * 3. Neither the name of the University nor the names of its contributors 21 1.1 kre * may be used to endorse or promote products derived from this software 22 1.1 kre * without specific prior written permission. 23 1.1 kre * 24 1.1 kre * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 25 1.1 kre * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 26 1.1 kre * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 27 1.1 kre * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 28 1.1 kre * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 29 1.1 kre * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 30 1.1 kre * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 31 1.1 kre * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 32 1.1 kre * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 33 1.1 kre * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 34 1.1 kre * SUCH DAMAGE. 35 1.1 kre * 36 1.1 kre * From FreeBSD, who obtained it from dash, modified both times... 37 1.1 kre */ 38 1.1 kre 39 1.1 kre #include <sys/cdefs.h> 40 1.1 kre 41 1.1 kre #ifndef lint 42 1.3 kre __RCSID("$NetBSD: arithmetic.c,v 1.3 2017/06/07 05:08:32 kre Exp $"); 43 1.1 kre #endif /* not lint */ 44 1.1 kre 45 1.1 kre #include <limits.h> 46 1.1 kre #include <errno.h> 47 1.1 kre #include <inttypes.h> 48 1.1 kre #include <stdlib.h> 49 1.1 kre #include <stdio.h> 50 1.3 kre #include <string.h> 51 1.1 kre 52 1.1 kre #include "shell.h" 53 1.1 kre #include "arithmetic.h" 54 1.1 kre #include "arith_tokens.h" 55 1.1 kre #include "expand.h" 56 1.1 kre #include "error.h" 57 1.1 kre #include "memalloc.h" 58 1.1 kre #include "output.h" 59 1.1 kre #include "options.h" 60 1.1 kre #include "var.h" 61 1.2 kre #include "show.h" 62 1.1 kre 63 1.1 kre #if ARITH_BOR + ARITH_ASS_GAP != ARITH_BORASS || \ 64 1.1 kre ARITH_ASS + ARITH_ASS_GAP != ARITH_EQ 65 1.1 kre #error Arithmetic tokens are out of order. 66 1.1 kre #endif 67 1.1 kre 68 1.1 kre static const char *arith_startbuf; 69 1.1 kre 70 1.1 kre const char *arith_buf; 71 1.1 kre union a_token_val a_t_val; 72 1.1 kre 73 1.1 kre static int last_token; 74 1.1 kre 75 1.3 kre int arith_lno, arith_var_lno; 76 1.3 kre 77 1.1 kre #define ARITH_PRECEDENCE(op, prec) [op - ARITH_BINOP_MIN] = prec 78 1.1 kre 79 1.1 kre static const char prec[ARITH_BINOP_MAX - ARITH_BINOP_MIN] = { 80 1.1 kre ARITH_PRECEDENCE(ARITH_MUL, 0), 81 1.1 kre ARITH_PRECEDENCE(ARITH_DIV, 0), 82 1.1 kre ARITH_PRECEDENCE(ARITH_REM, 0), 83 1.1 kre ARITH_PRECEDENCE(ARITH_ADD, 1), 84 1.1 kre ARITH_PRECEDENCE(ARITH_SUB, 1), 85 1.1 kre ARITH_PRECEDENCE(ARITH_LSHIFT, 2), 86 1.1 kre ARITH_PRECEDENCE(ARITH_RSHIFT, 2), 87 1.1 kre ARITH_PRECEDENCE(ARITH_LT, 3), 88 1.1 kre ARITH_PRECEDENCE(ARITH_LE, 3), 89 1.1 kre ARITH_PRECEDENCE(ARITH_GT, 3), 90 1.1 kre ARITH_PRECEDENCE(ARITH_GE, 3), 91 1.1 kre ARITH_PRECEDENCE(ARITH_EQ, 4), 92 1.1 kre ARITH_PRECEDENCE(ARITH_NE, 4), 93 1.1 kre ARITH_PRECEDENCE(ARITH_BAND, 5), 94 1.1 kre ARITH_PRECEDENCE(ARITH_BXOR, 6), 95 1.1 kre ARITH_PRECEDENCE(ARITH_BOR, 7), 96 1.1 kre }; 97 1.1 kre 98 1.1 kre #define ARITH_MAX_PREC 8 99 1.1 kre 100 1.1 kre int expcmd(int, char **); 101 1.1 kre 102 1.1 kre static void __dead 103 1.1 kre arith_err(const char *s) 104 1.1 kre { 105 1.1 kre error("arithmetic expression: %s: \"%s\"", s, arith_startbuf); 106 1.1 kre /* NOTREACHED */ 107 1.1 kre } 108 1.1 kre 109 1.1 kre static intmax_t 110 1.1 kre arith_lookupvarint(char *varname) 111 1.1 kre { 112 1.1 kre const char *str; 113 1.1 kre char *p; 114 1.1 kre intmax_t result; 115 1.3 kre const int oln = line_number; 116 1.3 kre 117 1.3 kre VTRACE(DBG_ARITH, ("Arith var lookup(\"%s\") with lno=%d\n", varname, 118 1.3 kre arith_var_lno)); 119 1.1 kre 120 1.3 kre line_number = arith_var_lno; 121 1.1 kre str = lookupvar(varname); 122 1.3 kre line_number = oln; 123 1.3 kre 124 1.1 kre if (uflag && str == NULL) 125 1.1 kre arith_err("variable not set"); 126 1.1 kre if (str == NULL || *str == '\0') 127 1.1 kre str = "0"; 128 1.1 kre errno = 0; 129 1.1 kre result = strtoimax(str, &p, 0); 130 1.1 kre if (errno != 0 || *p != '\0') 131 1.1 kre arith_err("variable contains non-numeric value"); 132 1.1 kre return result; 133 1.1 kre } 134 1.1 kre 135 1.1 kre static inline int 136 1.1 kre arith_prec(int op) 137 1.1 kre { 138 1.1 kre 139 1.1 kre return prec[op - ARITH_BINOP_MIN]; 140 1.1 kre } 141 1.1 kre 142 1.1 kre static inline int 143 1.1 kre higher_prec(int op1, int op2) 144 1.1 kre { 145 1.1 kre 146 1.1 kre return arith_prec(op1) < arith_prec(op2); 147 1.1 kre } 148 1.1 kre 149 1.1 kre static intmax_t 150 1.1 kre do_binop(int op, intmax_t a, intmax_t b) 151 1.1 kre { 152 1.1 kre 153 1.2 kre VTRACE(DBG_ARITH, ("Arith do binop %d (%jd, %jd)\n", op, a, b)); 154 1.1 kre switch (op) { 155 1.1 kre default: 156 1.1 kre arith_err("token error"); 157 1.1 kre case ARITH_REM: 158 1.1 kre case ARITH_DIV: 159 1.1 kre if (b == 0) 160 1.1 kre arith_err("division by zero"); 161 1.1 kre if (a == INTMAX_MIN && b == -1) 162 1.1 kre arith_err("divide error"); 163 1.1 kre return op == ARITH_REM ? a % b : a / b; 164 1.1 kre case ARITH_MUL: 165 1.1 kre return (uintmax_t)a * (uintmax_t)b; 166 1.1 kre case ARITH_ADD: 167 1.1 kre return (uintmax_t)a + (uintmax_t)b; 168 1.1 kre case ARITH_SUB: 169 1.1 kre return (uintmax_t)a - (uintmax_t)b; 170 1.1 kre case ARITH_LSHIFT: 171 1.1 kre return (uintmax_t)a << (b & (sizeof(uintmax_t) * CHAR_BIT - 1)); 172 1.1 kre case ARITH_RSHIFT: 173 1.1 kre return a >> (b & (sizeof(uintmax_t) * CHAR_BIT - 1)); 174 1.1 kre case ARITH_LT: 175 1.1 kre return a < b; 176 1.1 kre case ARITH_LE: 177 1.1 kre return a <= b; 178 1.1 kre case ARITH_GT: 179 1.1 kre return a > b; 180 1.1 kre case ARITH_GE: 181 1.1 kre return a >= b; 182 1.1 kre case ARITH_EQ: 183 1.1 kre return a == b; 184 1.1 kre case ARITH_NE: 185 1.1 kre return a != b; 186 1.1 kre case ARITH_BAND: 187 1.1 kre return a & b; 188 1.1 kre case ARITH_BXOR: 189 1.1 kre return a ^ b; 190 1.1 kre case ARITH_BOR: 191 1.1 kre return a | b; 192 1.1 kre } 193 1.1 kre } 194 1.1 kre 195 1.1 kre static intmax_t assignment(int var, int noeval); 196 1.1 kre 197 1.1 kre static intmax_t 198 1.1 kre primary(int token, union a_token_val *val, int op, int noeval) 199 1.1 kre { 200 1.1 kre intmax_t result; 201 1.1 kre 202 1.2 kre VTRACE(DBG_ARITH, ("Arith primary: token %d op %d%s\n", 203 1.2 kre token, op, noeval ? " noeval" : "")); 204 1.2 kre 205 1.1 kre switch (token) { 206 1.1 kre case ARITH_LPAREN: 207 1.1 kre result = assignment(op, noeval); 208 1.1 kre if (last_token != ARITH_RPAREN) 209 1.1 kre arith_err("expecting ')'"); 210 1.1 kre last_token = arith_token(); 211 1.1 kre return result; 212 1.1 kre case ARITH_NUM: 213 1.1 kre last_token = op; 214 1.1 kre return val->val; 215 1.1 kre case ARITH_VAR: 216 1.1 kre last_token = op; 217 1.1 kre return noeval ? val->val : arith_lookupvarint(val->name); 218 1.1 kre case ARITH_ADD: 219 1.1 kre *val = a_t_val; 220 1.1 kre return primary(op, val, arith_token(), noeval); 221 1.1 kre case ARITH_SUB: 222 1.1 kre *val = a_t_val; 223 1.1 kre return -primary(op, val, arith_token(), noeval); 224 1.1 kre case ARITH_NOT: 225 1.1 kre *val = a_t_val; 226 1.1 kre return !primary(op, val, arith_token(), noeval); 227 1.1 kre case ARITH_BNOT: 228 1.1 kre *val = a_t_val; 229 1.1 kre return ~primary(op, val, arith_token(), noeval); 230 1.1 kre default: 231 1.1 kre arith_err("expecting primary"); 232 1.1 kre } 233 1.1 kre return 0; /* never reached */ 234 1.1 kre } 235 1.1 kre 236 1.1 kre static intmax_t 237 1.1 kre binop2(intmax_t a, int op, int precedence, int noeval) 238 1.1 kre { 239 1.1 kre union a_token_val val; 240 1.1 kre intmax_t b; 241 1.1 kre int op2; 242 1.1 kre int token; 243 1.1 kre 244 1.2 kre VTRACE(DBG_ARITH, ("Arith: binop2 %jd op %d (P:%d)%s\n", 245 1.2 kre a, op, precedence, noeval ? " noeval" : "")); 246 1.2 kre 247 1.1 kre for (;;) { 248 1.1 kre token = arith_token(); 249 1.1 kre val = a_t_val; 250 1.1 kre 251 1.1 kre b = primary(token, &val, arith_token(), noeval); 252 1.1 kre 253 1.1 kre op2 = last_token; 254 1.1 kre if (op2 >= ARITH_BINOP_MIN && op2 < ARITH_BINOP_MAX && 255 1.1 kre higher_prec(op2, op)) { 256 1.1 kre b = binop2(b, op2, arith_prec(op), noeval); 257 1.1 kre op2 = last_token; 258 1.1 kre } 259 1.1 kre 260 1.1 kre a = noeval ? b : do_binop(op, a, b); 261 1.1 kre 262 1.1 kre if (op2 < ARITH_BINOP_MIN || op2 >= ARITH_BINOP_MAX || 263 1.1 kre arith_prec(op2) >= precedence) 264 1.1 kre return a; 265 1.1 kre 266 1.1 kre op = op2; 267 1.1 kre } 268 1.1 kre } 269 1.1 kre 270 1.1 kre static intmax_t 271 1.1 kre binop(int token, union a_token_val *val, int op, int noeval) 272 1.1 kre { 273 1.1 kre intmax_t a = primary(token, val, op, noeval); 274 1.1 kre 275 1.1 kre op = last_token; 276 1.1 kre if (op < ARITH_BINOP_MIN || op >= ARITH_BINOP_MAX) 277 1.1 kre return a; 278 1.1 kre 279 1.1 kre return binop2(a, op, ARITH_MAX_PREC, noeval); 280 1.1 kre } 281 1.1 kre 282 1.1 kre static intmax_t 283 1.1 kre and(int token, union a_token_val *val, int op, int noeval) 284 1.1 kre { 285 1.1 kre intmax_t a = binop(token, val, op, noeval); 286 1.1 kre intmax_t b; 287 1.1 kre 288 1.1 kre op = last_token; 289 1.1 kre if (op != ARITH_AND) 290 1.1 kre return a; 291 1.1 kre 292 1.2 kre VTRACE(DBG_ARITH, ("Arith: AND %jd%s\n", a, noeval ? " noeval" : "")); 293 1.2 kre 294 1.1 kre token = arith_token(); 295 1.1 kre *val = a_t_val; 296 1.1 kre 297 1.1 kre b = and(token, val, arith_token(), noeval | !a); 298 1.1 kre 299 1.1 kre return a && b; 300 1.1 kre } 301 1.1 kre 302 1.1 kre static intmax_t 303 1.1 kre or(int token, union a_token_val *val, int op, int noeval) 304 1.1 kre { 305 1.1 kre intmax_t a = and(token, val, op, noeval); 306 1.1 kre intmax_t b; 307 1.1 kre 308 1.1 kre op = last_token; 309 1.1 kre if (op != ARITH_OR) 310 1.1 kre return a; 311 1.1 kre 312 1.2 kre VTRACE(DBG_ARITH, ("Arith: OR %jd%s\n", a, noeval ? " noeval" : "")); 313 1.2 kre 314 1.1 kre token = arith_token(); 315 1.1 kre *val = a_t_val; 316 1.1 kre 317 1.1 kre b = or(token, val, arith_token(), noeval | !!a); 318 1.1 kre 319 1.1 kre return a || b; 320 1.1 kre } 321 1.1 kre 322 1.1 kre static intmax_t 323 1.1 kre cond(int token, union a_token_val *val, int op, int noeval) 324 1.1 kre { 325 1.1 kre intmax_t a = or(token, val, op, noeval); 326 1.1 kre intmax_t b; 327 1.1 kre intmax_t c; 328 1.1 kre 329 1.1 kre if (last_token != ARITH_QMARK) 330 1.1 kre return a; 331 1.1 kre 332 1.2 kre VTRACE(DBG_ARITH, ("Arith: ?: %jd%s\n", a, noeval ? " noeval" : "")); 333 1.2 kre 334 1.1 kre b = assignment(arith_token(), noeval | !a); 335 1.1 kre 336 1.1 kre if (last_token != ARITH_COLON) 337 1.1 kre arith_err("expecting ':'"); 338 1.1 kre 339 1.1 kre token = arith_token(); 340 1.1 kre *val = a_t_val; 341 1.1 kre 342 1.1 kre c = cond(token, val, arith_token(), noeval | !!a); 343 1.1 kre 344 1.1 kre return a ? b : c; 345 1.1 kre } 346 1.1 kre 347 1.1 kre static intmax_t 348 1.1 kre assignment(int var, int noeval) 349 1.1 kre { 350 1.1 kre union a_token_val val = a_t_val; 351 1.1 kre int op = arith_token(); 352 1.1 kre intmax_t result; 353 1.1 kre char sresult[DIGITS(result) + 1]; 354 1.1 kre 355 1.1 kre 356 1.1 kre if (var != ARITH_VAR) 357 1.1 kre return cond(var, &val, op, noeval); 358 1.1 kre 359 1.1 kre if (op != ARITH_ASS && (op < ARITH_ASS_MIN || op >= ARITH_ASS_MAX)) 360 1.1 kre return cond(var, &val, op, noeval); 361 1.1 kre 362 1.2 kre VTRACE(DBG_ARITH, ("Arith: %s ASSIGN %d%s\n", val.name, op, 363 1.2 kre noeval ? " noeval" : "")); 364 1.2 kre 365 1.1 kre result = assignment(arith_token(), noeval); 366 1.1 kre if (noeval) 367 1.1 kre return result; 368 1.1 kre 369 1.1 kre if (op != ARITH_ASS) 370 1.1 kre result = do_binop(op - ARITH_ASS_GAP, 371 1.1 kre arith_lookupvarint(val.name), result); 372 1.1 kre snprintf(sresult, sizeof(sresult), ARITH_FORMAT_STR, result); 373 1.1 kre setvar(val.name, sresult, 0); 374 1.1 kre return result; 375 1.1 kre } 376 1.1 kre 377 1.1 kre intmax_t 378 1.3 kre arith(const char *s, int lno) 379 1.1 kre { 380 1.1 kre struct stackmark smark; 381 1.1 kre intmax_t result; 382 1.3 kre const char *p; 383 1.3 kre int nls = 0; 384 1.1 kre 385 1.1 kre setstackmark(&smark); 386 1.1 kre 387 1.3 kre arith_lno = lno; 388 1.3 kre 389 1.3 kre CTRACE(DBG_ARITH, ("Arith(\"%s\", %d) @%d\n", s, lno, arith_lno)); 390 1.3 kre 391 1.3 kre /* check if it is possible we might reference LINENO */ 392 1.3 kre p = s; 393 1.3 kre while ((p = strchr(p, 'L')) != NULL) { 394 1.3 kre if (p[1] == 'I' && p[2] == 'N') { 395 1.3 kre /* if it is possible, we need to correct airth_lno */ 396 1.3 kre p = s; 397 1.3 kre while ((p = strchr(p, '\n')) != NULL) 398 1.3 kre nls++, p++; 399 1.3 kre VTRACE(DBG_ARITH, ("Arith found %d newlines\n", nls)); 400 1.3 kre arith_lno -= nls; 401 1.3 kre break; 402 1.3 kre } 403 1.3 kre p++; 404 1.3 kre } 405 1.2 kre 406 1.1 kre arith_buf = arith_startbuf = s; 407 1.1 kre 408 1.1 kre result = assignment(arith_token(), 0); 409 1.1 kre 410 1.1 kre if (last_token) 411 1.1 kre arith_err("expecting end of expression"); 412 1.1 kre 413 1.1 kre popstackmark(&smark); 414 1.1 kre 415 1.2 kre CTRACE(DBG_ARITH, ("Arith result=%jd\n", result)); 416 1.2 kre 417 1.1 kre return result; 418 1.1 kre } 419 1.1 kre 420 1.1 kre /* 421 1.1 kre * The let(1)/exp(1) builtin. 422 1.1 kre */ 423 1.1 kre int 424 1.1 kre expcmd(int argc, char **argv) 425 1.1 kre { 426 1.1 kre const char *p; 427 1.1 kre char *concat; 428 1.1 kre char **ap; 429 1.1 kre intmax_t i; 430 1.1 kre 431 1.1 kre if (argc > 1) { 432 1.1 kre p = argv[1]; 433 1.1 kre if (argc > 2) { 434 1.1 kre /* 435 1.1 kre * Concatenate arguments. 436 1.1 kre */ 437 1.1 kre STARTSTACKSTR(concat); 438 1.1 kre ap = argv + 2; 439 1.1 kre for (;;) { 440 1.1 kre while (*p) 441 1.1 kre STPUTC(*p++, concat); 442 1.1 kre if ((p = *ap++) == NULL) 443 1.1 kre break; 444 1.1 kre STPUTC(' ', concat); 445 1.1 kre } 446 1.1 kre STPUTC('\0', concat); 447 1.1 kre p = grabstackstr(concat); 448 1.1 kre } 449 1.1 kre } else 450 1.1 kre p = ""; 451 1.1 kre 452 1.3 kre i = arith(p, line_number); 453 1.1 kre 454 1.1 kre out1fmt(ARITH_FORMAT_STR "\n", i); 455 1.1 kre return !i; 456 1.1 kre } 457
Indexes created Thu Sep 25 08:09:54 GMT 2025