expr.c revision 1.7
1 1.7 rillig /* $NetBSD: expr.c,v 1.7 2005/04/19 20:14:29 rillig Exp $ */ 2 1.2 tls 3 1.1 jtc /* 4 1.1 jtc * Korn expression evaluation 5 1.1 jtc */ 6 1.1 jtc /* 7 1.1 jtc * todo: better error handling: if in builtin, should be builtin error, etc. 8 1.1 jtc */ 9 1.5 agc #include <sys/cdefs.h> 10 1.5 agc 11 1.5 agc #ifndef lint 12 1.7 rillig __RCSID("$NetBSD: expr.c,v 1.7 2005/04/19 20:14:29 rillig Exp $"); 13 1.5 agc #endif 14 1.5 agc 15 1.1 jtc 16 1.1 jtc #include "sh.h" 17 1.1 jtc #include <ctype.h> 18 1.1 jtc 19 1.1 jtc 20 1.1 jtc /* The order of these enums is constrained by the order of opinfo[] */ 21 1.1 jtc enum token { 22 1.1 jtc /* some (long) unary operators */ 23 1.1 jtc O_PLUSPLUS = 0, O_MINUSMINUS, 24 1.1 jtc /* binary operators */ 25 1.1 jtc O_EQ, O_NE, 26 1.1 jtc /* assignments are assumed to be in range O_ASN .. O_BORASN */ 27 1.1 jtc O_ASN, O_TIMESASN, O_DIVASN, O_MODASN, O_PLUSASN, O_MINUSASN, 28 1.1 jtc O_LSHIFTASN, O_RSHIFTASN, O_BANDASN, O_BXORASN, O_BORASN, 29 1.1 jtc O_LSHIFT, O_RSHIFT, 30 1.1 jtc O_LE, O_GE, O_LT, O_GT, 31 1.1 jtc O_LAND, 32 1.1 jtc O_LOR, 33 1.1 jtc O_TIMES, O_DIV, O_MOD, 34 1.1 jtc O_PLUS, O_MINUS, 35 1.1 jtc O_BAND, 36 1.1 jtc O_BXOR, 37 1.1 jtc O_BOR, 38 1.1 jtc O_TERN, 39 1.1 jtc O_COMMA, 40 1.1 jtc /* things after this aren't used as binary operators */ 41 1.1 jtc /* unary that are not also binaries */ 42 1.1 jtc O_BNOT, O_LNOT, 43 1.1 jtc /* misc */ 44 1.1 jtc OPEN_PAREN, CLOSE_PAREN, CTERN, 45 1.1 jtc /* things that don't appear in the opinfo[] table */ 46 1.1 jtc VAR, LIT, END, BAD 47 1.1 jtc }; 48 1.3 hubertf #define IS_BINOP(op) (((int)op) >= (int)O_EQ && ((int)op) <= (int)O_COMMA) 49 1.1 jtc #define IS_ASSIGNOP(op) ((int)(op) >= (int)O_ASN && (int)(op) <= (int)O_BORASN) 50 1.1 jtc 51 1.1 jtc enum prec { 52 1.1 jtc P_PRIMARY = 0, /* VAR, LIT, (), ~ ! - + */ 53 1.1 jtc P_MULT, /* * / % */ 54 1.1 jtc P_ADD, /* + - */ 55 1.1 jtc P_SHIFT, /* << >> */ 56 1.1 jtc P_RELATION, /* < <= > >= */ 57 1.1 jtc P_EQUALITY, /* == != */ 58 1.1 jtc P_BAND, /* & */ 59 1.1 jtc P_BXOR, /* ^ */ 60 1.1 jtc P_BOR, /* | */ 61 1.1 jtc P_LAND, /* && */ 62 1.1 jtc P_LOR, /* || */ 63 1.1 jtc P_TERN, /* ?: */ 64 1.1 jtc P_ASSIGN, /* = *= /= %= += -= <<= >>= &= ^= |= */ 65 1.1 jtc P_COMMA /* , */ 66 1.1 jtc }; 67 1.1 jtc #define MAX_PREC P_COMMA 68 1.1 jtc 69 1.1 jtc struct opinfo { 70 1.1 jtc char name[4]; 71 1.1 jtc int len; /* name length */ 72 1.6 mycroft enum prec prec; /* precedence: lower is higher */ 73 1.1 jtc }; 74 1.1 jtc 75 1.1 jtc /* Tokens in this table must be ordered so the longest are first 76 1.1 jtc * (eg, += before +). If you change something, change the order 77 1.1 jtc * of enum token too. 78 1.1 jtc */ 79 1.1 jtc static const struct opinfo opinfo[] = { 80 1.1 jtc { "++", 2, P_PRIMARY }, /* before + */ 81 1.1 jtc { "--", 2, P_PRIMARY }, /* before - */ 82 1.1 jtc { "==", 2, P_EQUALITY }, /* before = */ 83 1.1 jtc { "!=", 2, P_EQUALITY }, /* before ! */ 84 1.1 jtc { "=", 1, P_ASSIGN }, /* keep assigns in a block */ 85 1.1 jtc { "*=", 2, P_ASSIGN }, 86 1.1 jtc { "/=", 2, P_ASSIGN }, 87 1.1 jtc { "%=", 2, P_ASSIGN }, 88 1.1 jtc { "+=", 2, P_ASSIGN }, 89 1.1 jtc { "-=", 2, P_ASSIGN }, 90 1.1 jtc { "<<=", 3, P_ASSIGN }, 91 1.1 jtc { ">>=", 3, P_ASSIGN }, 92 1.1 jtc { "&=", 2, P_ASSIGN }, 93 1.1 jtc { "^=", 2, P_ASSIGN }, 94 1.1 jtc { "|=", 2, P_ASSIGN }, 95 1.1 jtc { "<<", 2, P_SHIFT }, 96 1.1 jtc { ">>", 2, P_SHIFT }, 97 1.1 jtc { "<=", 2, P_RELATION }, 98 1.1 jtc { ">=", 2, P_RELATION }, 99 1.1 jtc { "<", 1, P_RELATION }, 100 1.1 jtc { ">", 1, P_RELATION }, 101 1.1 jtc { "&&", 2, P_LAND }, 102 1.1 jtc { "||", 2, P_LOR }, 103 1.1 jtc { "*", 1, P_MULT }, 104 1.1 jtc { "/", 1, P_MULT }, 105 1.1 jtc { "%", 1, P_MULT }, 106 1.1 jtc { "+", 1, P_ADD }, 107 1.1 jtc { "-", 1, P_ADD }, 108 1.1 jtc { "&", 1, P_BAND }, 109 1.1 jtc { "^", 1, P_BXOR }, 110 1.1 jtc { "|", 1, P_BOR }, 111 1.1 jtc { "?", 1, P_TERN }, 112 1.1 jtc { ",", 1, P_COMMA }, 113 1.1 jtc { "~", 1, P_PRIMARY }, 114 1.1 jtc { "!", 1, P_PRIMARY }, 115 1.1 jtc { "(", 1, P_PRIMARY }, 116 1.1 jtc { ")", 1, P_PRIMARY }, 117 1.1 jtc { ":", 1, P_PRIMARY }, 118 1.1 jtc { "", 0, P_PRIMARY } /* end of table */ 119 1.1 jtc }; 120 1.1 jtc 121 1.1 jtc 122 1.1 jtc typedef struct expr_state Expr_state; 123 1.1 jtc struct expr_state { 124 1.1 jtc const char *expression; /* expression being evaluated */ 125 1.1 jtc const char *tokp; /* lexical position */ 126 1.1 jtc enum token tok; /* token from token() */ 127 1.1 jtc int noassign; /* don't do assigns (for ?:,&&,||) */ 128 1.1 jtc struct tbl *val; /* value from token() */ 129 1.1 jtc struct tbl *evaling; /* variable that is being recursively 130 1.1 jtc * expanded (EXPRINEVAL flag set) 131 1.1 jtc */ 132 1.1 jtc }; 133 1.1 jtc 134 1.1 jtc enum error_type { ET_UNEXPECTED, ET_BADLIT, ET_RECURSIVE, 135 1.1 jtc ET_LVALUE, ET_RDONLY, ET_STR }; 136 1.1 jtc 137 1.3 hubertf static void evalerr ARGS((Expr_state *es, enum error_type type, 138 1.3 hubertf const char *str)) GCC_FUNC_ATTR(noreturn); 139 1.3 hubertf static struct tbl *evalexpr ARGS((Expr_state *es, enum prec prec)); 140 1.3 hubertf static void token ARGS((Expr_state *es)); 141 1.3 hubertf static struct tbl *do_ppmm ARGS((Expr_state *es, enum token op, 142 1.3 hubertf struct tbl *vasn, bool_t is_prefix)); 143 1.3 hubertf static void assign_check ARGS((Expr_state *es, enum token op, 144 1.3 hubertf struct tbl *vasn)); 145 1.1 jtc static struct tbl *tempvar ARGS((void)); 146 1.3 hubertf static struct tbl *intvar ARGS((Expr_state *es, struct tbl *vp)); 147 1.1 jtc 148 1.1 jtc /* 149 1.6 mycroft * parse and evaluate expression 150 1.1 jtc */ 151 1.1 jtc int 152 1.1 jtc evaluate(expr, rval, error_ok) 153 1.1 jtc const char *expr; 154 1.1 jtc long *rval; 155 1.1 jtc int error_ok; 156 1.1 jtc { 157 1.1 jtc struct tbl v; 158 1.1 jtc int ret; 159 1.1 jtc 160 1.1 jtc v.flag = DEFINED|INTEGER; 161 1.1 jtc v.type = 0; 162 1.1 jtc ret = v_evaluate(&v, expr, error_ok); 163 1.1 jtc *rval = v.val.i; 164 1.1 jtc return ret; 165 1.1 jtc } 166 1.1 jtc 167 1.1 jtc /* 168 1.6 mycroft * parse and evaluate expression, storing result in vp. 169 1.1 jtc */ 170 1.1 jtc int 171 1.1 jtc v_evaluate(vp, expr, error_ok) 172 1.1 jtc struct tbl *vp; 173 1.1 jtc const char *expr; 174 1.1 jtc volatile int error_ok; 175 1.1 jtc { 176 1.1 jtc struct tbl *v; 177 1.1 jtc Expr_state curstate; 178 1.3 hubertf Expr_state * const es = &curstate; 179 1.1 jtc int i; 180 1.1 jtc 181 1.1 jtc /* save state to allow recursive calls */ 182 1.1 jtc curstate.expression = curstate.tokp = expr; 183 1.1 jtc curstate.noassign = 0; 184 1.1 jtc curstate.evaling = (struct tbl *) 0; 185 1.1 jtc 186 1.1 jtc newenv(E_ERRH); 187 1.1 jtc i = ksh_sigsetjmp(e->jbuf, 0); 188 1.1 jtc if (i) { 189 1.1 jtc /* Clear EXPRINEVAL in of any variables we were playing with */ 190 1.1 jtc if (curstate.evaling) 191 1.1 jtc curstate.evaling->flag &= ~EXPRINEVAL; 192 1.1 jtc quitenv(); 193 1.1 jtc if (i == LAEXPR) { 194 1.3 hubertf if (error_ok == KSH_RETURN_ERROR) 195 1.1 jtc return 0; 196 1.1 jtc errorf(null); 197 1.1 jtc } 198 1.1 jtc unwind(i); 199 1.1 jtc /*NOTREACHED*/ 200 1.1 jtc } 201 1.1 jtc 202 1.3 hubertf token(es); 203 1.1 jtc #if 1 /* ifdef-out to disallow empty expressions to be treated as 0 */ 204 1.1 jtc if (es->tok == END) { 205 1.1 jtc es->tok = LIT; 206 1.1 jtc es->val = tempvar(); 207 1.1 jtc } 208 1.1 jtc #endif /* 0 */ 209 1.3 hubertf v = intvar(es, evalexpr(es, MAX_PREC)); 210 1.1 jtc 211 1.1 jtc if (es->tok != END) 212 1.3 hubertf evalerr(es, ET_UNEXPECTED, (char *) 0); 213 1.1 jtc 214 1.1 jtc if (vp->flag & INTEGER) 215 1.1 jtc setint_v(vp, v); 216 1.1 jtc else 217 1.6 mycroft /* can fail if readonly */ 218 1.3 hubertf setstr(vp, str_val(v), error_ok); 219 1.1 jtc 220 1.1 jtc quitenv(); 221 1.1 jtc 222 1.1 jtc return 1; 223 1.1 jtc } 224 1.1 jtc 225 1.1 jtc static void 226 1.3 hubertf evalerr(es, type, str) 227 1.3 hubertf Expr_state *es; 228 1.1 jtc enum error_type type; 229 1.1 jtc const char *str; 230 1.1 jtc { 231 1.1 jtc char tbuf[2]; 232 1.1 jtc const char *s; 233 1.1 jtc 234 1.1 jtc switch (type) { 235 1.1 jtc case ET_UNEXPECTED: 236 1.1 jtc switch (es->tok) { 237 1.1 jtc case VAR: 238 1.1 jtc s = es->val->name; 239 1.1 jtc break; 240 1.1 jtc case LIT: 241 1.1 jtc s = str_val(es->val); 242 1.1 jtc break; 243 1.1 jtc case END: 244 1.1 jtc s = "end of expression"; 245 1.1 jtc break; 246 1.1 jtc case BAD: 247 1.1 jtc tbuf[0] = *es->tokp; 248 1.1 jtc tbuf[1] = '\0'; 249 1.1 jtc s = tbuf; 250 1.1 jtc break; 251 1.1 jtc default: 252 1.1 jtc s = opinfo[(int)es->tok].name; 253 1.1 jtc } 254 1.1 jtc warningf(TRUE, "%s: unexpected `%s'", es->expression, s); 255 1.1 jtc break; 256 1.1 jtc 257 1.1 jtc case ET_BADLIT: 258 1.1 jtc warningf(TRUE, "%s: bad number `%s'", es->expression, str); 259 1.1 jtc break; 260 1.1 jtc 261 1.1 jtc case ET_RECURSIVE: 262 1.1 jtc warningf(TRUE, "%s: expression recurses on parameter `%s'", 263 1.1 jtc es->expression, str); 264 1.1 jtc break; 265 1.1 jtc 266 1.1 jtc case ET_LVALUE: 267 1.1 jtc warningf(TRUE, "%s: %s requires lvalue", 268 1.1 jtc es->expression, str); 269 1.1 jtc break; 270 1.1 jtc 271 1.1 jtc case ET_RDONLY: 272 1.1 jtc warningf(TRUE, "%s: %s applied to read only variable", 273 1.1 jtc es->expression, str); 274 1.1 jtc break; 275 1.1 jtc 276 1.1 jtc default: /* keep gcc happy */ 277 1.1 jtc case ET_STR: 278 1.1 jtc warningf(TRUE, "%s: %s", es->expression, str); 279 1.1 jtc break; 280 1.1 jtc } 281 1.1 jtc unwind(LAEXPR); 282 1.1 jtc } 283 1.1 jtc 284 1.1 jtc static struct tbl * 285 1.3 hubertf evalexpr(es, prec) 286 1.3 hubertf Expr_state *es; 287 1.1 jtc enum prec prec; 288 1.1 jtc { 289 1.3 hubertf struct tbl *vl, UNINITIALIZED(*vr), *vasn; 290 1.3 hubertf enum token op; 291 1.1 jtc long UNINITIALIZED(res); 292 1.1 jtc 293 1.1 jtc if (prec == P_PRIMARY) { 294 1.1 jtc op = es->tok; 295 1.1 jtc if (op == O_BNOT || op == O_LNOT || op == O_MINUS 296 1.1 jtc || op == O_PLUS) 297 1.1 jtc { 298 1.3 hubertf token(es); 299 1.3 hubertf vl = intvar(es, evalexpr(es, P_PRIMARY)); 300 1.1 jtc if (op == O_BNOT) 301 1.1 jtc vl->val.i = ~vl->val.i; 302 1.1 jtc else if (op == O_LNOT) 303 1.1 jtc vl->val.i = !vl->val.i; 304 1.1 jtc else if (op == O_MINUS) 305 1.1 jtc vl->val.i = -vl->val.i; 306 1.1 jtc /* op == O_PLUS is a no-op */ 307 1.1 jtc } else if (op == OPEN_PAREN) { 308 1.3 hubertf token(es); 309 1.3 hubertf vl = evalexpr(es, MAX_PREC); 310 1.1 jtc if (es->tok != CLOSE_PAREN) 311 1.3 hubertf evalerr(es, ET_STR, "missing )"); 312 1.3 hubertf token(es); 313 1.1 jtc } else if (op == O_PLUSPLUS || op == O_MINUSMINUS) { 314 1.3 hubertf token(es); 315 1.3 hubertf vl = do_ppmm(es, op, es->val, TRUE); 316 1.3 hubertf token(es); 317 1.1 jtc } else if (op == VAR || op == LIT) { 318 1.1 jtc vl = es->val; 319 1.3 hubertf token(es); 320 1.1 jtc } else { 321 1.3 hubertf evalerr(es, ET_UNEXPECTED, (char *) 0); 322 1.1 jtc /*NOTREACHED*/ 323 1.1 jtc } 324 1.1 jtc if (es->tok == O_PLUSPLUS || es->tok == O_MINUSMINUS) { 325 1.3 hubertf vl = do_ppmm(es, es->tok, vl, FALSE); 326 1.3 hubertf token(es); 327 1.1 jtc } 328 1.1 jtc return vl; 329 1.1 jtc } 330 1.3 hubertf vl = evalexpr(es, ((int) prec) - 1); 331 1.1 jtc for (op = es->tok; IS_BINOP(op) && opinfo[(int) op].prec == prec; 332 1.1 jtc op = es->tok) 333 1.1 jtc { 334 1.3 hubertf token(es); 335 1.1 jtc vasn = vl; 336 1.1 jtc if (op != O_ASN) /* vl may not have a value yet */ 337 1.3 hubertf vl = intvar(es, vl); 338 1.1 jtc if (IS_ASSIGNOP(op)) { 339 1.3 hubertf assign_check(es, op, vasn); 340 1.3 hubertf vr = intvar(es, evalexpr(es, P_ASSIGN)); 341 1.1 jtc } else if (op != O_TERN && op != O_LAND && op != O_LOR) 342 1.3 hubertf vr = intvar(es, evalexpr(es, ((int) prec) - 1)); 343 1.1 jtc if ((op == O_DIV || op == O_MOD || op == O_DIVASN 344 1.1 jtc || op == O_MODASN) && vr->val.i == 0) 345 1.1 jtc { 346 1.1 jtc if (es->noassign) 347 1.1 jtc vr->val.i = 1; 348 1.1 jtc else 349 1.3 hubertf evalerr(es, ET_STR, "zero divisor"); 350 1.1 jtc } 351 1.1 jtc switch ((int) op) { 352 1.1 jtc case O_TIMES: 353 1.1 jtc case O_TIMESASN: 354 1.1 jtc res = vl->val.i * vr->val.i; 355 1.1 jtc break; 356 1.1 jtc case O_DIV: 357 1.1 jtc case O_DIVASN: 358 1.1 jtc res = vl->val.i / vr->val.i; 359 1.1 jtc break; 360 1.1 jtc case O_MOD: 361 1.1 jtc case O_MODASN: 362 1.1 jtc res = vl->val.i % vr->val.i; 363 1.1 jtc break; 364 1.1 jtc case O_PLUS: 365 1.1 jtc case O_PLUSASN: 366 1.1 jtc res = vl->val.i + vr->val.i; 367 1.1 jtc break; 368 1.1 jtc case O_MINUS: 369 1.1 jtc case O_MINUSASN: 370 1.1 jtc res = vl->val.i - vr->val.i; 371 1.1 jtc break; 372 1.1 jtc case O_LSHIFT: 373 1.1 jtc case O_LSHIFTASN: 374 1.1 jtc res = vl->val.i << vr->val.i; 375 1.1 jtc break; 376 1.1 jtc case O_RSHIFT: 377 1.1 jtc case O_RSHIFTASN: 378 1.1 jtc res = vl->val.i >> vr->val.i; 379 1.1 jtc break; 380 1.1 jtc case O_LT: 381 1.1 jtc res = vl->val.i < vr->val.i; 382 1.1 jtc break; 383 1.1 jtc case O_LE: 384 1.1 jtc res = vl->val.i <= vr->val.i; 385 1.1 jtc break; 386 1.1 jtc case O_GT: 387 1.1 jtc res = vl->val.i > vr->val.i; 388 1.1 jtc break; 389 1.1 jtc case O_GE: 390 1.1 jtc res = vl->val.i >= vr->val.i; 391 1.1 jtc break; 392 1.1 jtc case O_EQ: 393 1.1 jtc res = vl->val.i == vr->val.i; 394 1.1 jtc break; 395 1.1 jtc case O_NE: 396 1.1 jtc res = vl->val.i != vr->val.i; 397 1.1 jtc break; 398 1.1 jtc case O_BAND: 399 1.1 jtc case O_BANDASN: 400 1.1 jtc res = vl->val.i & vr->val.i; 401 1.1 jtc break; 402 1.1 jtc case O_BXOR: 403 1.1 jtc case O_BXORASN: 404 1.1 jtc res = vl->val.i ^ vr->val.i; 405 1.1 jtc break; 406 1.1 jtc case O_BOR: 407 1.1 jtc case O_BORASN: 408 1.1 jtc res = vl->val.i | vr->val.i; 409 1.1 jtc break; 410 1.1 jtc case O_LAND: 411 1.1 jtc if (!vl->val.i) 412 1.1 jtc es->noassign++; 413 1.3 hubertf vr = intvar(es, evalexpr(es, ((int) prec) - 1)); 414 1.1 jtc res = vl->val.i && vr->val.i; 415 1.1 jtc if (!vl->val.i) 416 1.1 jtc es->noassign--; 417 1.1 jtc break; 418 1.1 jtc case O_LOR: 419 1.1 jtc if (vl->val.i) 420 1.1 jtc es->noassign++; 421 1.3 hubertf vr = intvar(es, evalexpr(es, ((int) prec) - 1)); 422 1.1 jtc res = vl->val.i || vr->val.i; 423 1.1 jtc if (vl->val.i) 424 1.1 jtc es->noassign--; 425 1.1 jtc break; 426 1.1 jtc case O_TERN: 427 1.1 jtc { 428 1.1 jtc int e = vl->val.i != 0; 429 1.1 jtc if (!e) 430 1.1 jtc es->noassign++; 431 1.3 hubertf vl = evalexpr(es, MAX_PREC); 432 1.1 jtc if (!e) 433 1.1 jtc es->noassign--; 434 1.1 jtc if (es->tok != CTERN) 435 1.3 hubertf evalerr(es, ET_STR, "missing :"); 436 1.3 hubertf token(es); 437 1.1 jtc if (e) 438 1.1 jtc es->noassign++; 439 1.3 hubertf vr = evalexpr(es, P_TERN); 440 1.1 jtc if (e) 441 1.1 jtc es->noassign--; 442 1.1 jtc vl = e ? vl : vr; 443 1.1 jtc } 444 1.1 jtc break; 445 1.1 jtc case O_ASN: 446 1.1 jtc res = vr->val.i; 447 1.1 jtc break; 448 1.1 jtc case O_COMMA: 449 1.1 jtc res = vr->val.i; 450 1.1 jtc break; 451 1.1 jtc } 452 1.1 jtc if (IS_ASSIGNOP(op)) { 453 1.1 jtc vr->val.i = res; 454 1.1 jtc if (vasn->flag & INTEGER) 455 1.1 jtc setint_v(vasn, vr); 456 1.1 jtc else 457 1.1 jtc setint(vasn, res); 458 1.1 jtc vl = vr; 459 1.1 jtc } else if (op != O_TERN) 460 1.1 jtc vl->val.i = res; 461 1.1 jtc } 462 1.1 jtc return vl; 463 1.1 jtc } 464 1.1 jtc 465 1.1 jtc static void 466 1.3 hubertf token(es) 467 1.3 hubertf Expr_state *es; 468 1.1 jtc { 469 1.3 hubertf const char *cp; 470 1.3 hubertf int c; 471 1.1 jtc char *tvar; 472 1.1 jtc 473 1.1 jtc /* skip white space */ 474 1.7 rillig for (cp = es->tokp; (c = *cp), isspace((unsigned char)c); cp++) 475 1.1 jtc ; 476 1.1 jtc es->tokp = cp; 477 1.1 jtc 478 1.1 jtc if (c == '\0') 479 1.1 jtc es->tok = END; 480 1.1 jtc else if (letter(c)) { 481 1.1 jtc for (; letnum(c); c = *cp) 482 1.1 jtc cp++; 483 1.1 jtc if (c == '[') { 484 1.1 jtc int len; 485 1.1 jtc 486 1.1 jtc len = array_ref_len(cp); 487 1.1 jtc if (len == 0) 488 1.3 hubertf evalerr(es, ET_STR, "missing ]"); 489 1.1 jtc cp += len; 490 1.1 jtc } 491 1.3 hubertf #ifdef KSH 492 1.3 hubertf else if (c == '(' /*)*/ ) { 493 1.3 hubertf /* todo: add math functions (all take single argument): 494 1.3 hubertf * abs acos asin atan cos cosh exp int log sin sinh sqrt 495 1.3 hubertf * tan tanh 496 1.3 hubertf */ 497 1.3 hubertf ; 498 1.3 hubertf } 499 1.3 hubertf #endif /* KSH */ 500 1.1 jtc if (es->noassign) { 501 1.1 jtc es->val = tempvar(); 502 1.1 jtc es->val->flag |= EXPRLVALUE; 503 1.1 jtc } else { 504 1.1 jtc tvar = str_nsave(es->tokp, cp - es->tokp, ATEMP); 505 1.1 jtc es->val = global(tvar); 506 1.1 jtc afree(tvar, ATEMP); 507 1.1 jtc } 508 1.1 jtc es->tok = VAR; 509 1.1 jtc } else if (digit(c)) { 510 1.1 jtc for (; c != '_' && (letnum(c) || c == '#'); c = *cp++) 511 1.1 jtc ; 512 1.1 jtc tvar = str_nsave(es->tokp, --cp - es->tokp, ATEMP); 513 1.1 jtc es->val = tempvar(); 514 1.1 jtc es->val->flag &= ~INTEGER; 515 1.1 jtc es->val->type = 0; 516 1.1 jtc es->val->val.s = tvar; 517 1.1 jtc if (setint_v(es->val, es->val) == NULL) 518 1.3 hubertf evalerr(es, ET_BADLIT, tvar); 519 1.1 jtc afree(tvar, ATEMP); 520 1.1 jtc es->tok = LIT; 521 1.1 jtc } else { 522 1.1 jtc int i, n0; 523 1.1 jtc 524 1.1 jtc for (i = 0; (n0 = opinfo[i].name[0]); i++) 525 1.1 jtc if (c == n0 526 1.1 jtc && strncmp(cp, opinfo[i].name, opinfo[i].len) == 0) 527 1.1 jtc { 528 1.1 jtc es->tok = (enum token) i; 529 1.1 jtc cp += opinfo[i].len; 530 1.1 jtc break; 531 1.1 jtc } 532 1.1 jtc if (!n0) 533 1.1 jtc es->tok = BAD; 534 1.1 jtc } 535 1.1 jtc es->tokp = cp; 536 1.1 jtc } 537 1.1 jtc 538 1.1 jtc /* Do a ++ or -- operation */ 539 1.1 jtc static struct tbl * 540 1.3 hubertf do_ppmm(es, op, vasn, is_prefix) 541 1.3 hubertf Expr_state *es; 542 1.1 jtc enum token op; 543 1.1 jtc struct tbl *vasn; 544 1.1 jtc bool_t is_prefix; 545 1.1 jtc { 546 1.1 jtc struct tbl *vl; 547 1.1 jtc int oval; 548 1.1 jtc 549 1.3 hubertf assign_check(es, op, vasn); 550 1.1 jtc 551 1.3 hubertf vl = intvar(es, vasn); 552 1.1 jtc oval = op == O_PLUSPLUS ? vl->val.i++ : vl->val.i--; 553 1.1 jtc if (vasn->flag & INTEGER) 554 1.1 jtc setint_v(vasn, vl); 555 1.1 jtc else 556 1.1 jtc setint(vasn, vl->val.i); 557 1.1 jtc if (!is_prefix) /* undo the inc/dec */ 558 1.1 jtc vl->val.i = oval; 559 1.1 jtc 560 1.1 jtc return vl; 561 1.1 jtc } 562 1.1 jtc 563 1.1 jtc static void 564 1.3 hubertf assign_check(es, op, vasn) 565 1.3 hubertf Expr_state *es; 566 1.1 jtc enum token op; 567 1.1 jtc struct tbl *vasn; 568 1.1 jtc { 569 1.1 jtc if (vasn->name[0] == '\0' && !(vasn->flag & EXPRLVALUE)) 570 1.3 hubertf evalerr(es, ET_LVALUE, opinfo[(int) op].name); 571 1.1 jtc else if (vasn->flag & RDONLY) 572 1.3 hubertf evalerr(es, ET_RDONLY, opinfo[(int) op].name); 573 1.1 jtc } 574 1.1 jtc 575 1.1 jtc static struct tbl * 576 1.1 jtc tempvar() 577 1.1 jtc { 578 1.1 jtc register struct tbl *vp; 579 1.1 jtc 580 1.1 jtc vp = (struct tbl*) alloc(sizeof(struct tbl), ATEMP); 581 1.1 jtc vp->flag = ISSET|INTEGER; 582 1.1 jtc vp->type = 0; 583 1.1 jtc vp->areap = ATEMP; 584 1.1 jtc vp->val.i = 0; 585 1.1 jtc vp->name[0] = '\0'; 586 1.1 jtc return vp; 587 1.1 jtc } 588 1.1 jtc 589 1.1 jtc /* cast (string) variable to temporary integer variable */ 590 1.1 jtc static struct tbl * 591 1.3 hubertf intvar(es, vp) 592 1.3 hubertf Expr_state *es; 593 1.3 hubertf struct tbl *vp; 594 1.1 jtc { 595 1.3 hubertf struct tbl *vq; 596 1.1 jtc 597 1.1 jtc /* try to avoid replacing a temp var with another temp var */ 598 1.1 jtc if (vp->name[0] == '\0' 599 1.1 jtc && (vp->flag & (ISSET|INTEGER|EXPRLVALUE)) == (ISSET|INTEGER)) 600 1.1 jtc return vp; 601 1.1 jtc 602 1.1 jtc vq = tempvar(); 603 1.1 jtc if (setint_v(vq, vp) == NULL) { 604 1.1 jtc if (vp->flag & EXPRINEVAL) 605 1.3 hubertf evalerr(es, ET_RECURSIVE, vp->name); 606 1.1 jtc es->evaling = vp; 607 1.1 jtc vp->flag |= EXPRINEVAL; 608 1.3 hubertf v_evaluate(vq, str_val(vp), KSH_UNWIND_ERROR); 609 1.1 jtc vp->flag &= ~EXPRINEVAL; 610 1.1 jtc es->evaling = (struct tbl *) 0; 611 1.1 jtc } 612 1.1 jtc return vq; 613 1.1 jtc } 614
Indexes created Sun Sep 21 15:09:59 GMT 2025