tree.c revision 1.695
1 1.695 rillig /* $NetBSD: tree.c,v 1.695 2025/09/17 19:25:22 rillig Exp $ */ 2 1.2 cgd 3 1.1 cgd /* 4 1.1 cgd * Copyright (c) 1994, 1995 Jochen Pohl 5 1.1 cgd * 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 1.1 cgd * 3. All advertising materials mentioning features or use of this software 16 1.1 cgd * must display the following acknowledgement: 17 1.563 rillig * This product includes software developed by Jochen Pohl for 18 1.1 cgd * The NetBSD Project. 19 1.1 cgd * 4. The name of the author may not be used to endorse or promote products 20 1.1 cgd * derived from this software without specific prior written permission. 21 1.1 cgd * 22 1.1 cgd * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 23 1.1 cgd * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 24 1.1 cgd * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 25 1.1 cgd * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 26 1.1 cgd * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 27 1.1 cgd * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 28 1.1 cgd * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 29 1.1 cgd * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 30 1.1 cgd * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 31 1.1 cgd * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 32 1.1 cgd */ 33 1.1 cgd 34 1.37 jmc #if HAVE_NBTOOL_CONFIG_H 35 1.37 jmc #include "nbtool_config.h" 36 1.37 jmc #endif 37 1.37 jmc 38 1.14 christos #include <sys/cdefs.h> 39 1.442 rillig #if defined(__RCSID) 40 1.695 rillig __RCSID("$NetBSD: tree.c,v 1.695 2025/09/17 19:25:22 rillig Exp $"); 41 1.1 cgd #endif 42 1.1 cgd 43 1.1 cgd #include <float.h> 44 1.1 cgd #include <limits.h> 45 1.1 cgd #include <math.h> 46 1.49 christos #include <signal.h> 47 1.92 rillig #include <stdlib.h> 48 1.92 rillig #include <string.h> 49 1.1 cgd 50 1.1 cgd #include "lint1.h" 51 1.1 cgd 52 1.506 rillig 53 1.444 rillig typedef struct integer_constraints { 54 1.444 rillig int64_t smin; /* signed minimum */ 55 1.444 rillig int64_t smax; /* signed maximum */ 56 1.444 rillig uint64_t umin; /* unsigned minimum */ 57 1.444 rillig uint64_t umax; /* unsigned maximum */ 58 1.444 rillig uint64_t bclr; /* bits that are definitely clear */ 59 1.444 rillig } integer_constraints; 60 1.444 rillig 61 1.1 cgd 62 1.656 rillig static int64_t 63 1.656 rillig s64_min(int64_t a, int64_t b) 64 1.656 rillig { 65 1.656 rillig return a < b ? a : b; 66 1.656 rillig } 67 1.656 rillig 68 1.656 rillig static int64_t 69 1.656 rillig s64_max(int64_t a, int64_t b) 70 1.656 rillig { 71 1.656 rillig return a > b ? a : b; 72 1.656 rillig } 73 1.656 rillig 74 1.656 rillig static uint64_t 75 1.656 rillig s64_abs(int64_t x) 76 1.656 rillig { 77 1.656 rillig return x >= 0 ? (uint64_t)x : -(uint64_t)x; 78 1.656 rillig } 79 1.656 rillig 80 1.667 rillig static int64_t 81 1.667 rillig s64_shr(int64_t x, unsigned amount) 82 1.667 rillig { 83 1.667 rillig return x >= 0 84 1.667 rillig ? (int64_t)((uint64_t)x >> amount) 85 1.667 rillig : (int64_t)~(~(uint64_t)x >> amount); 86 1.667 rillig } 87 1.667 rillig 88 1.667 rillig static uint64_t 89 1.667 rillig u64_min(uint64_t a, uint64_t b) 90 1.667 rillig { 91 1.667 rillig return a < b ? a : b; 92 1.667 rillig } 93 1.667 rillig 94 1.656 rillig static uint64_t 95 1.656 rillig u64_max(uint64_t a, uint64_t b) 96 1.656 rillig { 97 1.656 rillig return a > b ? a : b; 98 1.656 rillig } 99 1.656 rillig 100 1.666 rillig static uint64_t 101 1.667 rillig u64_fill_right(uint64_t x) 102 1.667 rillig { 103 1.667 rillig x |= x >> 1; 104 1.667 rillig x |= x >> 2; 105 1.667 rillig x |= x >> 4; 106 1.667 rillig x |= x >> 8; 107 1.667 rillig x |= x >> 16; 108 1.667 rillig x |= x >> 32; 109 1.667 rillig return x; 110 1.667 rillig } 111 1.667 rillig 112 1.693 rillig static unsigned 113 1.693 rillig u64_width(uint64_t x) 114 1.693 rillig { 115 1.693 rillig unsigned m = 0; 116 1.693 rillig if (x >> 32 != 0) 117 1.693 rillig x >>= 32, m += 32; 118 1.693 rillig if (x >> 16 != 0) 119 1.693 rillig x >>= 16, m += 16; 120 1.693 rillig if (x >> 8 != 0) 121 1.693 rillig x >>= 8, m += 8; 122 1.693 rillig if (x >> 4 != 0) 123 1.693 rillig x >>= 4, m += 4; 124 1.693 rillig if (x >> 2 != 0) 125 1.693 rillig x >>= 2, m += 2; 126 1.693 rillig if (x >> 1 != 0) 127 1.693 rillig x >>= 1, m++; 128 1.693 rillig if (x > 0) 129 1.693 rillig m++; 130 1.693 rillig return m; 131 1.693 rillig } 132 1.693 rillig 133 1.667 rillig static int 134 1.667 rillig portable_rank_cmp(tspec_t t1, tspec_t t2) 135 1.667 rillig { 136 1.667 rillig const ttab_t *p1 = type_properties(t1), *p2 = type_properties(t2); 137 1.667 rillig lint_assert(p1->tt_rank_kind == p2->tt_rank_kind); 138 1.667 rillig lint_assert(p1->tt_rank_value > 0); 139 1.667 rillig lint_assert(p2->tt_rank_value > 0); 140 1.667 rillig return (int)p1->tt_rank_value - (int)p2->tt_rank_value; 141 1.667 rillig } 142 1.667 rillig 143 1.667 rillig static unsigned 144 1.667 rillig width_in_bits(const type_t *tp) 145 1.667 rillig { 146 1.667 rillig lint_assert(is_integer(tp->t_tspec)); 147 1.667 rillig return tp->t_bitfield 148 1.667 rillig ? tp->t_bit_field_width 149 1.667 rillig : size_in_bits(tp->t_tspec); 150 1.667 rillig } 151 1.667 rillig 152 1.667 rillig static uint64_t 153 1.666 rillig ui_max_value(const type_t *tp) 154 1.665 rillig { 155 1.667 rillig return value_bits(width_in_bits(tp)); 156 1.665 rillig } 157 1.665 rillig 158 1.665 rillig static int64_t 159 1.665 rillig si_max_value(const type_t *tp) 160 1.665 rillig { 161 1.666 rillig return (int64_t)(ui_max_value(tp) >> 1); 162 1.665 rillig } 163 1.665 rillig 164 1.666 rillig static int64_t 165 1.666 rillig si_min_value(const type_t *tp) 166 1.665 rillig { 167 1.666 rillig return -si_max_value(tp) - 1; 168 1.665 rillig } 169 1.665 rillig 170 1.665 rillig static int64_t 171 1.669 rillig si_mult_sat(const type_t *tp, int64_t l, int64_t r) 172 1.669 rillig { 173 1.669 rillig uint64_t al = s64_abs(l); 174 1.669 rillig uint64_t ar = s64_abs(r); 175 1.669 rillig bool neg = (l >= 0) != (r >= 0); 176 1.676 rillig int64_t max = si_max_value(tp); 177 1.676 rillig uint64_t max_prod = (uint64_t)max + (neg ? 1 : 0); 178 1.669 rillig if (al == 0 || ar <= max_prod / al) 179 1.669 rillig return l * r; 180 1.669 rillig else if (neg) 181 1.676 rillig return -1 - max; 182 1.669 rillig else 183 1.676 rillig return max; 184 1.669 rillig } 185 1.669 rillig 186 1.669 rillig static int64_t 187 1.665 rillig si_plus_sat(const type_t *tp, int64_t a, int64_t b) 188 1.665 rillig { 189 1.666 rillig if (b >= 0) { 190 1.665 rillig int64_t max = si_max_value(tp); 191 1.666 rillig return a <= max - b ? a + b : max; 192 1.665 rillig } else { 193 1.665 rillig int64_t min = si_min_value(tp); 194 1.666 rillig return a >= min - b ? a + b : min; 195 1.665 rillig } 196 1.665 rillig } 197 1.665 rillig 198 1.666 rillig static int64_t 199 1.666 rillig si_minus_sat(const type_t *tp, int64_t a, int64_t b) 200 1.665 rillig { 201 1.666 rillig if (b >= 0) { 202 1.666 rillig int64_t min = si_min_value(tp); 203 1.666 rillig return a >= min + b ? a - b : min; 204 1.666 rillig } else { 205 1.666 rillig int64_t max = si_max_value(tp); 206 1.666 rillig return a <= max + b ? a - b : max; 207 1.666 rillig } 208 1.665 rillig } 209 1.665 rillig 210 1.506 rillig static bool 211 1.667 rillig ic_maybe_signed(const type_t *tp, integer_constraints ic) 212 1.506 rillig { 213 1.667 rillig return !is_uinteger(tp->t_tspec) && ic.bclr >> 63 == 0; 214 1.473 rillig } 215 1.473 rillig 216 1.449 rillig static bool 217 1.667 rillig ic_maybe_signed_binary(const type_t *tp, 218 1.667 rillig integer_constraints a, integer_constraints b) 219 1.449 rillig { 220 1.667 rillig return !is_uinteger(tp->t_tspec) && (a.bclr & b.bclr) >> 63 == 0; 221 1.449 rillig } 222 1.449 rillig 223 1.444 rillig static integer_constraints 224 1.444 rillig ic_any(const type_t *tp) 225 1.444 rillig { 226 1.444 rillig integer_constraints c; 227 1.444 rillig 228 1.666 rillig unsigned width = width_in_bits(tp); 229 1.666 rillig uint64_t vbits = value_bits(width); 230 1.444 rillig if (is_uinteger(tp->t_tspec)) { 231 1.666 rillig c.smin = width < 64 ? 0 : INT64_MIN; 232 1.666 rillig c.smax = width < 64 ? (int64_t)vbits : INT64_MAX; 233 1.444 rillig c.umin = 0; 234 1.444 rillig c.umax = vbits; 235 1.444 rillig c.bclr = ~c.umax; 236 1.444 rillig } else { 237 1.667 rillig c.smin = -1 - (int64_t)(vbits >> 1); 238 1.444 rillig c.smax = (int64_t)(vbits >> 1); 239 1.444 rillig c.umin = 0; 240 1.444 rillig c.umax = UINT64_MAX; 241 1.444 rillig c.bclr = 0; 242 1.444 rillig } 243 1.444 rillig return c; 244 1.444 rillig } 245 1.444 rillig 246 1.444 rillig static integer_constraints 247 1.653 rillig ic_mult(const type_t *tp, integer_constraints a, integer_constraints b) 248 1.653 rillig { 249 1.653 rillig integer_constraints c; 250 1.653 rillig 251 1.669 rillig if (ic_maybe_signed_binary(tp, a, b)) { 252 1.669 rillig int64_t ll = si_mult_sat(tp, a.smin, b.smin); 253 1.669 rillig int64_t lu = si_mult_sat(tp, a.smin, b.smax); 254 1.669 rillig int64_t ul = si_mult_sat(tp, a.smax, b.smin); 255 1.669 rillig int64_t uu = si_mult_sat(tp, a.smax, b.smax); 256 1.669 rillig 257 1.669 rillig c.smin = s64_min(ll, s64_min(lu, s64_min(ul, uu))); 258 1.669 rillig c.smax = s64_max(ll, s64_max(lu, s64_max(ul, uu))); 259 1.669 rillig c.umin = c.smin >= 0 ? (uint64_t)c.smin : 0; 260 1.669 rillig c.umax = c.smin >= 0 ? (uint64_t)c.smax : UINT64_MAX; 261 1.669 rillig c.bclr = ~u64_fill_right(c.umax); 262 1.669 rillig return c; 263 1.669 rillig } 264 1.669 rillig 265 1.669 rillig if (a.umax > 0 && b.umax > ic_any(tp).umax / a.umax) 266 1.653 rillig return ic_any(tp); 267 1.653 rillig 268 1.653 rillig c.smin = INT64_MIN; 269 1.653 rillig c.smax = INT64_MAX; 270 1.653 rillig c.umin = a.umin * b.umin; 271 1.653 rillig c.umax = a.umax * b.umax; 272 1.653 rillig c.bclr = ~u64_fill_right(c.umax); 273 1.653 rillig return c; 274 1.653 rillig } 275 1.653 rillig 276 1.653 rillig static integer_constraints 277 1.655 rillig ic_div(const type_t *tp, integer_constraints a, integer_constraints b) 278 1.444 rillig { 279 1.669 rillig if (ic_maybe_signed_binary(tp, a, b)) { 280 1.669 rillig if (b.smin >= 0) 281 1.669 rillig return a; 282 1.655 rillig return ic_any(tp); 283 1.669 rillig } 284 1.444 rillig 285 1.667 rillig integer_constraints c; 286 1.444 rillig c.smin = INT64_MIN; 287 1.444 rillig c.smax = INT64_MAX; 288 1.667 rillig c.umin = a.umin / u64_max(b.umax, 1); 289 1.667 rillig c.umax = a.umax / u64_max(b.umin, 1); 290 1.655 rillig c.bclr = ~u64_fill_right(c.umax); 291 1.444 rillig return c; 292 1.444 rillig } 293 1.444 rillig 294 1.444 rillig static integer_constraints 295 1.667 rillig ic_mod(const type_t *tp, integer_constraints a, integer_constraints b) 296 1.656 rillig { 297 1.667 rillig if (ic_maybe_signed_binary(tp, a, b)) { 298 1.667 rillig uint64_t max_abs_b = u64_max(s64_abs(b.smin), s64_abs(b.smax)); 299 1.667 rillig if (max_abs_b >> 63 != 0 || max_abs_b == 0) 300 1.667 rillig return a; 301 1.656 rillig 302 1.667 rillig integer_constraints c; 303 1.667 rillig c.smin = s64_max(a.smin, -(int64_t)(max_abs_b - 1)); 304 1.667 rillig c.smax = s64_min(a.smax, (int64_t)(max_abs_b - 1)); 305 1.667 rillig c.umin = 0; 306 1.667 rillig c.umax = UINT64_MAX; 307 1.667 rillig c.bclr = 0; 308 1.667 rillig return c; 309 1.667 rillig } 310 1.656 rillig 311 1.472 rillig integer_constraints c; 312 1.472 rillig c.smin = INT64_MIN; 313 1.472 rillig c.smax = INT64_MAX; 314 1.472 rillig c.umin = 0; 315 1.472 rillig c.umax = b.umax - 1; 316 1.472 rillig c.bclr = ~u64_fill_right(c.umax); 317 1.472 rillig return c; 318 1.472 rillig } 319 1.472 rillig 320 1.472 rillig static integer_constraints 321 1.665 rillig ic_plus(const type_t *tp, integer_constraints a, integer_constraints b) 322 1.665 rillig { 323 1.667 rillig if (ic_maybe_signed_binary(tp, a, b)) { 324 1.666 rillig integer_constraints c; 325 1.666 rillig c.smin = si_plus_sat(tp, a.smin, b.smin); 326 1.666 rillig c.smax = si_plus_sat(tp, a.smax, b.smax); 327 1.667 rillig c.umin = c.smin >= 0 ? (uint64_t)c.smin : 0; 328 1.667 rillig c.umax = c.smin >= 0 ? (uint64_t)c.smax : UINT64_MAX; 329 1.666 rillig c.bclr = 0; 330 1.666 rillig return c; 331 1.666 rillig } 332 1.665 rillig 333 1.666 rillig uint64_t max = ui_max_value(tp); 334 1.665 rillig integer_constraints c; 335 1.666 rillig c.smin = INT64_MIN; 336 1.666 rillig c.smax = INT64_MAX; 337 1.666 rillig if (b.umax <= max - a.umax) { 338 1.666 rillig c.umin = a.umin + b.umin; 339 1.666 rillig c.umax = a.umax + b.umax; 340 1.666 rillig } else { 341 1.666 rillig c.umin = 0; 342 1.666 rillig c.umax = max; 343 1.666 rillig } 344 1.667 rillig if (c.umax >> 63 == 0) { 345 1.667 rillig c.smin = 0; 346 1.667 rillig c.smax = (int64_t)c.umax; 347 1.667 rillig } 348 1.666 rillig c.bclr = ~u64_fill_right(c.umax); 349 1.666 rillig return c; 350 1.666 rillig } 351 1.666 rillig 352 1.666 rillig static integer_constraints 353 1.666 rillig ic_minus(const type_t *tp, integer_constraints a, integer_constraints b) 354 1.666 rillig { 355 1.666 rillig integer_constraints c; 356 1.666 rillig c.smin = si_minus_sat(tp, a.smin, b.smax); 357 1.666 rillig c.smax = si_minus_sat(tp, a.smax, b.smin); 358 1.667 rillig 359 1.667 rillig if (ic_maybe_signed_binary(tp, a, b)) { 360 1.667 rillig c.umin = c.smin >= 0 ? (uint64_t)c.smin : 0; 361 1.667 rillig c.umax = c.smin >= 0 ? (uint64_t)c.smax : UINT64_MAX; 362 1.667 rillig } else if (a.umin >= b.umax) { 363 1.666 rillig c.umin = a.umin - b.umax; 364 1.666 rillig c.umax = a.umax - b.umin; 365 1.666 rillig } else { 366 1.666 rillig c.umin = 0; 367 1.666 rillig c.umax = is_uinteger(tp->t_tspec) ? ui_max_value(tp) 368 1.666 rillig : UINT64_MAX; 369 1.666 rillig } 370 1.665 rillig c.bclr = ~u64_fill_right(c.umax); 371 1.665 rillig return c; 372 1.665 rillig } 373 1.665 rillig 374 1.665 rillig static integer_constraints 375 1.444 rillig ic_shl(const type_t *tp, integer_constraints a, integer_constraints b) 376 1.444 rillig { 377 1.667 rillig if (ic_maybe_signed(tp, a)) 378 1.449 rillig return ic_any(tp); 379 1.449 rillig 380 1.667 rillig unsigned amount; 381 1.444 rillig if (b.smin == b.smax && b.smin >= 0 && b.smin < 64) 382 1.667 rillig amount = (unsigned)b.smin; 383 1.444 rillig else if (b.umin == b.umax && b.umin < 64) 384 1.667 rillig amount = (unsigned)b.umin; 385 1.444 rillig else 386 1.444 rillig return ic_any(tp); 387 1.444 rillig 388 1.667 rillig integer_constraints c; 389 1.667 rillig c.umin = a.umin << amount; 390 1.667 rillig c.umax = a.umax << amount; 391 1.667 rillig if (c.umax >> (width_in_bits(tp) - 1) == 0) { 392 1.667 rillig c.smin = (int64_t)c.umin; 393 1.667 rillig c.smax = (int64_t)c.umax; 394 1.667 rillig } else { 395 1.667 rillig c.smin = INT64_MIN; 396 1.667 rillig c.smax = INT64_MAX; 397 1.667 rillig } 398 1.444 rillig c.bclr = a.bclr << amount | (((uint64_t)1 << amount) - 1); 399 1.444 rillig return c; 400 1.444 rillig } 401 1.444 rillig 402 1.444 rillig static integer_constraints 403 1.449 rillig ic_shr(const type_t *tp, integer_constraints a, integer_constraints b) 404 1.449 rillig { 405 1.667 rillig if (ic_maybe_signed(tp, a)) 406 1.449 rillig return ic_any(tp); 407 1.449 rillig 408 1.667 rillig unsigned amount; 409 1.449 rillig if (b.smin == b.smax && b.smin >= 0 && b.smin < 64) 410 1.667 rillig amount = (unsigned)b.smin; 411 1.449 rillig else if (b.umin == b.umax && b.umin < 64) 412 1.667 rillig amount = (unsigned)b.umin; 413 1.449 rillig else 414 1.449 rillig return ic_any(tp); 415 1.449 rillig 416 1.667 rillig integer_constraints c; 417 1.667 rillig c.smin = s64_shr(a.smin, amount); 418 1.667 rillig c.smax = s64_shr(a.smax, amount); 419 1.667 rillig c.umin = a.umin >> amount; 420 1.667 rillig c.umax = a.umax >> amount; 421 1.449 rillig c.bclr = a.bclr >> amount | ~(~(uint64_t)0 >> amount); 422 1.449 rillig return c; 423 1.449 rillig } 424 1.449 rillig 425 1.449 rillig static integer_constraints 426 1.655 rillig ic_bitand(integer_constraints a, integer_constraints b) 427 1.655 rillig { 428 1.655 rillig integer_constraints c; 429 1.667 rillig c.smin = a.smin & b.smin; 430 1.667 rillig c.smax = a.smax & b.smax; 431 1.667 rillig c.umin = a.umin & b.umin; 432 1.667 rillig c.umax = a.umax & b.umax; 433 1.655 rillig c.bclr = a.bclr | b.bclr; 434 1.655 rillig return c; 435 1.655 rillig } 436 1.655 rillig 437 1.655 rillig static integer_constraints 438 1.666 rillig ic_bitxor(const type_t *tp, integer_constraints a, integer_constraints b) 439 1.666 rillig { 440 1.667 rillig if (ic_maybe_signed_binary(tp, a, b)) 441 1.667 rillig return ic_any(tp); 442 1.667 rillig 443 1.667 rillig integer_constraints c; 444 1.667 rillig c.smin = a.smin & b.smin; 445 1.667 rillig c.smax = a.smax | b.smax; 446 1.667 rillig c.umin = a.umin & b.umin; 447 1.666 rillig c.umax = a.umax | b.umax; 448 1.666 rillig c.bclr = a.bclr & b.bclr; 449 1.666 rillig return c; 450 1.666 rillig } 451 1.666 rillig 452 1.666 rillig static integer_constraints 453 1.655 rillig ic_bitor(integer_constraints a, integer_constraints b) 454 1.655 rillig { 455 1.655 rillig integer_constraints c; 456 1.667 rillig c.smin = a.smin | b.smin; 457 1.667 rillig c.smax = a.smax | b.smax; 458 1.667 rillig c.umin = a.umin | b.umin; 459 1.667 rillig c.umax = a.umax | b.umax; 460 1.655 rillig c.bclr = a.bclr & b.bclr; 461 1.655 rillig return c; 462 1.655 rillig } 463 1.655 rillig 464 1.655 rillig static integer_constraints 465 1.655 rillig ic_quest_colon(integer_constraints a, integer_constraints b) 466 1.521 rillig { 467 1.521 rillig integer_constraints c; 468 1.667 rillig c.smin = s64_min(a.smin, b.smin); 469 1.667 rillig c.smax = s64_max(a.smax, b.smax); 470 1.667 rillig c.umin = u64_min(a.umin, b.umin); 471 1.667 rillig c.umax = u64_max(a.umax, b.umax); 472 1.521 rillig c.bclr = a.bclr & b.bclr; 473 1.521 rillig return c; 474 1.521 rillig } 475 1.521 rillig 476 1.521 rillig static integer_constraints 477 1.655 rillig ic_con(const type_t *tp, const val_t *v) 478 1.655 rillig { 479 1.655 rillig lint_assert(is_integer(tp->t_tspec)); 480 1.655 rillig int64_t si = v->u.integer; 481 1.655 rillig uint64_t ui = (uint64_t)si; 482 1.667 rillig 483 1.667 rillig integer_constraints c; 484 1.655 rillig c.smin = si; 485 1.655 rillig c.smax = si; 486 1.655 rillig c.umin = ui; 487 1.655 rillig c.umax = ui; 488 1.655 rillig c.bclr = ~ui; 489 1.655 rillig return c; 490 1.655 rillig } 491 1.655 rillig 492 1.655 rillig static integer_constraints 493 1.655 rillig ic_cvt(const type_t *ntp, const type_t *otp, integer_constraints a) 494 1.655 rillig { 495 1.668 rillig unsigned new_width = width_in_bits(ntp); 496 1.668 rillig unsigned old_width = width_in_bits(otp); 497 1.668 rillig bool new_unsigned = is_uinteger(ntp->t_tspec); 498 1.668 rillig bool old_unsigned = is_uinteger(otp->t_tspec); 499 1.655 rillig 500 1.668 rillig if (new_width >= old_width && new_unsigned == old_unsigned) 501 1.655 rillig return a; 502 1.668 rillig if (new_width > old_width && old_unsigned) 503 1.655 rillig return a; 504 1.668 rillig if (new_unsigned && (~value_bits(new_width) & ~a.bclr) == 0) 505 1.667 rillig return a; 506 1.655 rillig return ic_any(ntp); 507 1.655 rillig } 508 1.655 rillig 509 1.655 rillig static integer_constraints 510 1.444 rillig ic_expr(const tnode_t *tn) 511 1.444 rillig { 512 1.444 rillig integer_constraints lc, rc; 513 1.444 rillig 514 1.451 rillig lint_assert(is_integer(tn->tn_type->t_tspec)); 515 1.451 rillig 516 1.444 rillig switch (tn->tn_op) { 517 1.653 rillig case MULT: 518 1.670 rillig lc = ic_expr(tn->u.ops.left); 519 1.670 rillig rc = ic_expr(tn->u.ops.right); 520 1.653 rillig return ic_mult(tn->tn_type, lc, rc); 521 1.650 rillig case DIV: 522 1.670 rillig lc = ic_expr(tn->u.ops.left); 523 1.670 rillig rc = ic_expr(tn->u.ops.right); 524 1.650 rillig return ic_div(tn->tn_type, lc, rc); 525 1.472 rillig case MOD: 526 1.670 rillig lc = ic_expr(tn->u.ops.left); 527 1.670 rillig rc = ic_expr(tn->u.ops.right); 528 1.472 rillig return ic_mod(tn->tn_type, lc, rc); 529 1.665 rillig case PLUS: 530 1.670 rillig lc = ic_expr(tn->u.ops.left); 531 1.670 rillig rc = ic_expr(tn->u.ops.right); 532 1.665 rillig return ic_plus(tn->tn_type, lc, rc); 533 1.666 rillig case MINUS: 534 1.668 rillig if (tn->u.ops.left->tn_type->t_tspec == PTR) 535 1.668 rillig return ic_any(tn->tn_type); 536 1.670 rillig lc = ic_expr(tn->u.ops.left); 537 1.670 rillig rc = ic_expr(tn->u.ops.right); 538 1.666 rillig return ic_minus(tn->tn_type, lc, rc); 539 1.444 rillig case SHL: 540 1.612 rillig lc = ic_expr(tn->u.ops.left); 541 1.612 rillig rc = ic_expr(tn->u.ops.right); 542 1.444 rillig return ic_shl(tn->tn_type, lc, rc); 543 1.449 rillig case SHR: 544 1.612 rillig lc = ic_expr(tn->u.ops.left); 545 1.612 rillig rc = ic_expr(tn->u.ops.right); 546 1.449 rillig return ic_shr(tn->tn_type, lc, rc); 547 1.444 rillig case BITAND: 548 1.612 rillig lc = ic_expr(tn->u.ops.left); 549 1.612 rillig rc = ic_expr(tn->u.ops.right); 550 1.444 rillig return ic_bitand(lc, rc); 551 1.666 rillig case BITXOR: 552 1.666 rillig lc = ic_expr(tn->u.ops.left); 553 1.666 rillig rc = ic_expr(tn->u.ops.right); 554 1.666 rillig return ic_bitxor(tn->tn_type, lc, rc); 555 1.444 rillig case BITOR: 556 1.612 rillig lc = ic_expr(tn->u.ops.left); 557 1.612 rillig rc = ic_expr(tn->u.ops.right); 558 1.444 rillig return ic_bitor(lc, rc); 559 1.521 rillig case QUEST: 560 1.612 rillig lc = ic_expr(tn->u.ops.right->u.ops.left); 561 1.612 rillig rc = ic_expr(tn->u.ops.right->u.ops.right); 562 1.655 rillig return ic_quest_colon(lc, rc); 563 1.655 rillig case CON: 564 1.655 rillig return ic_con(tn->tn_type, &tn->u.value); 565 1.655 rillig case CVT: 566 1.655 rillig if (!is_integer(tn->u.ops.left->tn_type->t_tspec)) 567 1.655 rillig return ic_any(tn->tn_type); 568 1.655 rillig lc = ic_expr(tn->u.ops.left); 569 1.655 rillig return ic_cvt(tn->tn_type, tn->u.ops.left->tn_type, lc); 570 1.444 rillig default: 571 1.444 rillig return ic_any(tn->tn_type); 572 1.444 rillig } 573 1.444 rillig } 574 1.444 rillig 575 1.608 rillig uint64_t 576 1.608 rillig possible_bits(const tnode_t *tn) 577 1.608 rillig { 578 1.608 rillig return ~ic_expr(tn).bclr; 579 1.608 rillig } 580 1.608 rillig 581 1.648 rillig bool 582 1.648 rillig attributes_contain(const attribute_list *attrs, const char *str) 583 1.648 rillig { 584 1.648 rillig for (size_t i = 0, n = attrs->len; i < n; i++) { 585 1.648 rillig const attribute *attr = attrs->attrs + i; 586 1.648 rillig if (attr->prefix == NULL && strcmp(attr->name, str) == 0) 587 1.648 rillig return true; 588 1.648 rillig } 589 1.648 rillig return false; 590 1.648 rillig } 591 1.648 rillig 592 1.257 rillig /* Build 'pointer to tp', 'array of tp' or 'function returning tp'. */ 593 1.1 cgd type_t * 594 1.406 rillig block_derive_type(type_t *tp, tspec_t t) 595 1.1 cgd { 596 1.1 cgd 597 1.605 rillig type_t *tp2 = block_zero_alloc(sizeof(*tp2), "type"); 598 1.1 cgd tp2->t_tspec = t; 599 1.1 cgd tp2->t_subt = tp; 600 1.95 rillig return tp2; 601 1.1 cgd } 602 1.1 cgd 603 1.1 cgd /* 604 1.365 rillig * Derive 'pointer to tp' or 'function returning tp'. 605 1.365 rillig * The memory is freed at the end of the current expression. 606 1.1 cgd */ 607 1.1 cgd type_t * 608 1.257 rillig expr_derive_type(type_t *tp, tspec_t t) 609 1.1 cgd { 610 1.1 cgd 611 1.605 rillig type_t *tp2 = expr_zero_alloc(sizeof(*tp2), "type"); 612 1.1 cgd tp2->t_tspec = t; 613 1.1 cgd tp2->t_subt = tp; 614 1.95 rillig return tp2; 615 1.1 cgd } 616 1.1 cgd 617 1.683 rillig static const char * 618 1.683 rillig function_call_descr(const function_call *call) 619 1.683 rillig { 620 1.683 rillig if ((call->func->tn_op == ADDR || call->func->tn_op == LOAD) 621 1.683 rillig && call->func->u.ops.left->tn_op == NAME) 622 1.683 rillig return call->func->u.ops.left->u.sym->s_name; 623 1.683 rillig return type_name(call->func->tn_type->t_subt); 624 1.683 rillig } 625 1.683 rillig 626 1.686 rillig static size_t 627 1.686 rillig str_len(const tnode_t *tn) 628 1.686 rillig { 629 1.686 rillig const buffer *buf = tn->u.str_literals; 630 1.686 rillig if (tn->tn_type->t_subt->t_tspec != CHAR) 631 1.686 rillig return buf->len; 632 1.686 rillig quoted_iterator it = { .end = 0 }; 633 1.686 rillig size_t len = 0; 634 1.686 rillig while (quoted_next(buf, &it)) 635 1.686 rillig len++; 636 1.686 rillig return len; 637 1.686 rillig } 638 1.686 rillig 639 1.564 rillig /* Create an expression from a unary or binary operator and its operands. */ 640 1.506 rillig static tnode_t * 641 1.565 rillig build_op(op_t op, bool sys, type_t *type, tnode_t *ln, tnode_t *rn) 642 1.506 rillig { 643 1.506 rillig 644 1.506 rillig tnode_t *ntn = expr_alloc_tnode(); 645 1.506 rillig ntn->tn_op = op; 646 1.506 rillig ntn->tn_type = type; 647 1.506 rillig ntn->tn_sys = sys; 648 1.612 rillig ntn->u.ops.left = ln; 649 1.612 rillig ntn->u.ops.right = rn; 650 1.506 rillig 651 1.506 rillig if (op == INDIR || op == FSEL) { 652 1.506 rillig lint_assert(ln->tn_type->t_tspec == PTR); 653 1.506 rillig tspec_t t = ln->tn_type->t_subt->t_tspec; 654 1.566 rillig ntn->tn_lvalue = t != FUNC && t != VOID; 655 1.506 rillig } 656 1.506 rillig 657 1.506 rillig return ntn; 658 1.506 rillig } 659 1.506 rillig 660 1.1 cgd tnode_t * 661 1.318 rillig build_constant(type_t *tp, val_t *v) 662 1.1 cgd { 663 1.1 cgd 664 1.536 rillig tnode_t *n = expr_alloc_tnode(); 665 1.1 cgd n->tn_op = CON; 666 1.1 cgd n->tn_type = tp; 667 1.612 rillig n->u.value = *v; 668 1.612 rillig n->u.value.v_tspec = tp->t_tspec; 669 1.1 cgd free(v); 670 1.95 rillig return n; 671 1.1 cgd } 672 1.1 cgd 673 1.1 cgd static tnode_t * 674 1.544 rillig build_integer_constant(tspec_t t, int64_t si) 675 1.1 cgd { 676 1.1 cgd 677 1.536 rillig tnode_t *n = expr_alloc_tnode(); 678 1.1 cgd n->tn_op = CON; 679 1.1 cgd n->tn_type = gettyp(t); 680 1.612 rillig n->u.value.v_tspec = t; 681 1.612 rillig n->u.value.v_unsigned_since_c90 = false; 682 1.612 rillig n->u.value.v_char_constant = false; 683 1.612 rillig n->u.value.u.integer = si; 684 1.95 rillig return n; 685 1.1 cgd } 686 1.1 cgd 687 1.167 rillig static void 688 1.167 rillig fallback_symbol(sym_t *sym) 689 1.167 rillig { 690 1.167 rillig 691 1.493 rillig if (Tflag && fallback_symbol_strict_bool(sym)) 692 1.167 rillig return; 693 1.167 rillig 694 1.645 rillig if (funcsym != NULL && (strcmp(sym->s_name, "__FUNCTION__") == 0 || 695 1.167 rillig strcmp(sym->s_name, "__PRETTY_FUNCTION__") == 0)) { 696 1.167 rillig /* __FUNCTION__/__PRETTY_FUNCTION__ is a GCC extension */ 697 1.167 rillig gnuism(316); 698 1.645 rillig goto return_function_name; 699 1.167 rillig } 700 1.167 rillig 701 1.591 rillig if (funcsym != NULL && strcmp(sym->s_name, "__func__") == 0) { 702 1.437 rillig if (!allow_c99) 703 1.409 rillig /* __func__ is a C99 feature */ 704 1.167 rillig warning(317); 705 1.503 rillig /* C11 6.4.2.2 */ 706 1.645 rillig return_function_name: 707 1.504 rillig sym->s_type = block_derive_type(gettyp(CHAR), ARRAY); 708 1.167 rillig sym->s_type->t_const = true; 709 1.611 rillig sym->s_type->u.dimension = (int)strlen(funcsym->s_name) + 1; 710 1.167 rillig return; 711 1.167 rillig } 712 1.167 rillig 713 1.251 rillig /* '%s' undefined */ 714 1.167 rillig error(99, sym->s_name); 715 1.167 rillig } 716 1.167 rillig 717 1.358 rillig /* 718 1.361 rillig * Functions that are predeclared by GCC or other compilers can be called 719 1.361 rillig * with arbitrary arguments. Since lint usually runs after a successful 720 1.361 rillig * compilation, it's the compiler's job to catch any errors. 721 1.358 rillig */ 722 1.358 rillig bool 723 1.361 rillig is_compiler_builtin(const char *name) 724 1.303 rillig { 725 1.361 rillig /* https://gcc.gnu.org/onlinedocs/gcc/C-Extensions.html */ 726 1.429 rillig if (allow_gcc) { 727 1.362 rillig if (strncmp(name, "__atomic_", 9) == 0 || 728 1.362 rillig strncmp(name, "__builtin_", 10) == 0 || 729 1.400 rillig strcmp(name, "alloca") == 0 || 730 1.362 rillig /* obsolete but still in use, as of 2021 */ 731 1.362 rillig strncmp(name, "__sync_", 7) == 0) 732 1.362 rillig return true; 733 1.362 rillig } 734 1.361 rillig 735 1.361 rillig /* https://software.intel.com/sites/landingpage/IntrinsicsGuide/ */ 736 1.361 rillig if (strncmp(name, "_mm_", 4) == 0) 737 1.361 rillig return true; 738 1.361 rillig 739 1.361 rillig return false; 740 1.303 rillig } 741 1.303 rillig 742 1.667 rillig static bool 743 1.667 rillig str_ends_with(const char *haystack, const char *needle) 744 1.667 rillig { 745 1.667 rillig size_t hlen = strlen(haystack); 746 1.667 rillig size_t nlen = strlen(needle); 747 1.667 rillig 748 1.667 rillig return nlen <= hlen && 749 1.667 rillig memcmp(haystack + hlen - nlen, needle, nlen) == 0; 750 1.667 rillig } 751 1.667 rillig 752 1.372 rillig /* https://gcc.gnu.org/onlinedocs/gcc/Integer-Overflow-Builtins.html */ 753 1.372 rillig static bool 754 1.372 rillig is_gcc_bool_builtin(const char *name) 755 1.372 rillig { 756 1.372 rillig return strncmp(name, "__builtin_", 10) == 0 && 757 1.584 rillig (str_ends_with(name, "_overflow") || 758 1.536 rillig str_ends_with(name, "_overflow_p")); 759 1.372 rillig } 760 1.372 rillig 761 1.371 rillig static void 762 1.371 rillig build_name_call(sym_t *sym) 763 1.371 rillig { 764 1.371 rillig 765 1.371 rillig if (is_compiler_builtin(sym->s_name)) { 766 1.371 rillig /* 767 1.586 rillig * Do not warn about these, just assume that they are regular 768 1.586 rillig * functions compatible with non-prototype calling conventions. 769 1.371 rillig */ 770 1.429 rillig if (allow_gcc && is_gcc_bool_builtin(sym->s_name)) 771 1.372 rillig sym->s_type = gettyp(BOOL); 772 1.604 rillig } else if (allow_c99) 773 1.371 rillig /* function '%s' implicitly declared to return int */ 774 1.371 rillig error(215, sym->s_name); 775 1.604 rillig else if (!allow_trad) 776 1.371 rillig /* function '%s' implicitly declared to return int */ 777 1.371 rillig warning(215, sym->s_name); 778 1.371 rillig 779 1.438 rillig /* XXX if !allow_c90, the symbol should be exported to level 0 */ 780 1.406 rillig sym->s_type = block_derive_type(sym->s_type, FUNC); 781 1.371 rillig } 782 1.371 rillig 783 1.402 rillig /* Create a node for a name (symbol table entry). */ 784 1.1 cgd tnode_t * 785 1.399 rillig build_name(sym_t *sym, bool is_funcname) 786 1.1 cgd { 787 1.1 cgd 788 1.582 rillig if (sym->s_scl == NO_SCL && !in_gcc_attribute) { 789 1.1 cgd sym->s_scl = EXTERN; 790 1.1 cgd sym->s_def = DECL; 791 1.399 rillig if (is_funcname) 792 1.371 rillig build_name_call(sym); 793 1.399 rillig else 794 1.167 rillig fallback_symbol(sym); 795 1.1 cgd } 796 1.1 cgd 797 1.597 rillig lint_assert(sym->s_kind == SK_VCFT || sym->s_kind == SK_MEMBER); 798 1.1 cgd 799 1.536 rillig tnode_t *n = expr_alloc_tnode(); 800 1.1 cgd n->tn_type = sym->s_type; 801 1.422 rillig if (sym->s_scl == BOOL_CONST) { 802 1.401 rillig n->tn_op = CON; 803 1.612 rillig n->u.value.v_tspec = BOOL; 804 1.612 rillig n->u.value.v_unsigned_since_c90 = false; 805 1.612 rillig n->u.value.v_char_constant = false; 806 1.612 rillig n->u.value.u.integer = sym->u.s_bool_constant ? 1 : 0; 807 1.422 rillig } else if (sym->s_scl == ENUM_CONST) { 808 1.422 rillig n->tn_op = CON; 809 1.612 rillig n->u.value.v_tspec = INT; /* ENUM is in n->tn_type */ 810 1.612 rillig n->u.value.v_unsigned_since_c90 = false; 811 1.612 rillig n->u.value.v_char_constant = false; 812 1.612 rillig n->u.value.u.integer = sym->u.s_enum_constant; 813 1.401 rillig } else { 814 1.1 cgd n->tn_op = NAME; 815 1.612 rillig n->u.sym = sym; 816 1.597 rillig if (sym->s_kind == SK_VCFT && sym->s_type->t_tspec != FUNC) 817 1.154 rillig n->tn_lvalue = true; 818 1.1 cgd } 819 1.1 cgd 820 1.95 rillig return n; 821 1.1 cgd } 822 1.1 cgd 823 1.1 cgd tnode_t * 824 1.602 rillig build_string(buffer *lit) 825 1.1 cgd { 826 1.602 rillig size_t value_len = lit->len; 827 1.602 rillig if (lit->data != NULL) { 828 1.609 rillig quoted_iterator it = { .end = 0 }; 829 1.602 rillig for (value_len = 0; quoted_next(lit, &it); value_len++) 830 1.602 rillig continue; 831 1.602 rillig } 832 1.1 cgd 833 1.568 rillig type_t *tp = expr_zero_alloc(sizeof(*tp), "type"); 834 1.365 rillig tp->t_tspec = ARRAY; 835 1.602 rillig tp->t_subt = gettyp(lit->data != NULL ? CHAR : WCHAR_TSPEC); 836 1.611 rillig tp->u.dimension = (int)(value_len + 1); 837 1.365 rillig 838 1.536 rillig tnode_t *n = expr_alloc_tnode(); 839 1.1 cgd n->tn_op = STRING; 840 1.365 rillig n->tn_type = tp; 841 1.154 rillig n->tn_lvalue = true; 842 1.1 cgd 843 1.612 rillig n->u.str_literals = expr_zero_alloc(sizeof(*n->u.str_literals), "tnode.string"); 844 1.612 rillig n->u.str_literals->len = lit->len; 845 1.1 cgd 846 1.602 rillig if (lit->data != NULL) { 847 1.612 rillig n->u.str_literals->data = expr_zero_alloc(lit->len + 1, 848 1.599 rillig "tnode.string.data"); 849 1.612 rillig (void)memcpy(n->u.str_literals->data, lit->data, lit->len + 1); 850 1.602 rillig free(lit->data); 851 1.599 rillig } 852 1.602 rillig free(lit); 853 1.1 cgd 854 1.95 rillig return n; 855 1.1 cgd } 856 1.1 cgd 857 1.291 rillig tnode_t * 858 1.291 rillig build_generic_selection(const tnode_t *expr, 859 1.313 rillig struct generic_association *sel) 860 1.291 rillig { 861 1.291 rillig tnode_t *default_result = NULL; 862 1.291 rillig 863 1.411 rillig for (; sel != NULL; sel = sel->ga_prev) { 864 1.292 rillig if (expr != NULL && 865 1.479 rillig types_compatible(sel->ga_arg, expr->tn_type, 866 1.479 rillig false, false, NULL)) 867 1.313 rillig return sel->ga_result; 868 1.684 rillig if (sel->ga_arg == NULL) 869 1.313 rillig default_result = sel->ga_result; 870 1.411 rillig } 871 1.291 rillig return default_result; 872 1.291 rillig } 873 1.291 rillig 874 1.506 rillig static bool 875 1.506 rillig is_out_of_char_range(const tnode_t *tn) 876 1.506 rillig { 877 1.506 rillig return tn->tn_op == CON && 878 1.612 rillig !tn->u.value.v_char_constant && 879 1.612 rillig !(0 <= tn->u.value.u.integer && 880 1.612 rillig tn->u.value.u.integer < 1 << (CHAR_SIZE - 1)); 881 1.506 rillig } 882 1.506 rillig 883 1.583 rillig static bool 884 1.583 rillig check_nonportable_char_comparison(op_t op, 885 1.583 rillig const tnode_t *ln, tspec_t lt, 886 1.583 rillig const tnode_t *rn, tspec_t rt) 887 1.583 rillig { 888 1.583 rillig if (!(hflag || pflag)) 889 1.583 rillig return true; 890 1.583 rillig 891 1.583 rillig if (lt == CHAR && is_out_of_char_range(rn)) { 892 1.583 rillig char buf[128]; 893 1.583 rillig (void)snprintf(buf, sizeof(buf), "%s %d", 894 1.612 rillig op_name(op), (int)rn->u.value.u.integer); 895 1.583 rillig /* nonportable character comparison '%s' */ 896 1.583 rillig warning(230, buf); 897 1.583 rillig return false; 898 1.583 rillig } 899 1.583 rillig if (rt == CHAR && is_out_of_char_range(ln)) { 900 1.583 rillig char buf[128]; 901 1.583 rillig (void)snprintf(buf, sizeof(buf), "%d %s ?", 902 1.612 rillig (int)ln->u.value.u.integer, op_name(op)); 903 1.583 rillig /* nonportable character comparison '%s' */ 904 1.583 rillig warning(230, buf); 905 1.583 rillig return false; 906 1.583 rillig } 907 1.583 rillig return true; 908 1.583 rillig } 909 1.583 rillig 910 1.506 rillig static void 911 1.506 rillig check_integer_comparison(op_t op, tnode_t *ln, tnode_t *rn) 912 1.1 cgd { 913 1.506 rillig 914 1.536 rillig tspec_t lt = ln->tn_type->t_tspec; 915 1.536 rillig tspec_t rt = rn->tn_type->t_tspec; 916 1.1 cgd 917 1.506 rillig if (ln->tn_op != CON && rn->tn_op != CON) 918 1.506 rillig return; 919 1.1 cgd 920 1.506 rillig if (!is_integer(lt) || !is_integer(rt)) 921 1.506 rillig return; 922 1.1 cgd 923 1.662 rillig if (any_query_enabled && !in_system_header) { 924 1.529 rillig if (lt == CHAR && rn->tn_op == CON && 925 1.612 rillig !rn->u.value.v_char_constant) { 926 1.529 rillig /* comparison '%s' of 'char' with plain integer %d */ 927 1.529 rillig query_message(14, 928 1.612 rillig op_name(op), (int)rn->u.value.u.integer); 929 1.529 rillig } 930 1.529 rillig if (rt == CHAR && ln->tn_op == CON && 931 1.612 rillig !ln->u.value.v_char_constant) { 932 1.529 rillig /* comparison '%s' of 'char' with plain integer %d */ 933 1.529 rillig query_message(14, 934 1.612 rillig op_name(op), (int)ln->u.value.u.integer); 935 1.529 rillig } 936 1.529 rillig } 937 1.529 rillig 938 1.583 rillig if (!check_nonportable_char_comparison(op, ln, lt, rn, rt)) 939 1.583 rillig return; 940 1.1 cgd 941 1.506 rillig if (is_uinteger(lt) && !is_uinteger(rt) && 942 1.612 rillig rn->tn_op == CON && rn->u.value.u.integer <= 0) { 943 1.612 rillig if (rn->u.value.u.integer < 0) { 944 1.506 rillig /* operator '%s' compares '%s' with '%s' */ 945 1.506 rillig warning(162, op_name(op), 946 1.690 rillig expr_type_name(ln), "negative constant"); 947 1.604 rillig } else if (op == LT || op == GE) 948 1.506 rillig /* operator '%s' compares '%s' with '%s' */ 949 1.690 rillig warning(162, op_name(op), expr_type_name(ln), "0"); 950 1.506 rillig return; 951 1.1 cgd } 952 1.506 rillig if (is_uinteger(rt) && !is_uinteger(lt) && 953 1.612 rillig ln->tn_op == CON && ln->u.value.u.integer <= 0) { 954 1.612 rillig if (ln->u.value.u.integer < 0) { 955 1.506 rillig /* operator '%s' compares '%s' with '%s' */ 956 1.506 rillig warning(162, op_name(op), 957 1.690 rillig "negative constant", expr_type_name(rn)); 958 1.604 rillig } else if (op == GT || op == LE) 959 1.506 rillig /* operator '%s' compares '%s' with '%s' */ 960 1.690 rillig warning(162, op_name(op), "0", expr_type_name(rn)); 961 1.506 rillig return; 962 1.1 cgd } 963 1.506 rillig } 964 1.506 rillig 965 1.506 rillig static const tspec_t arith_rank[] = { 966 1.506 rillig LDOUBLE, DOUBLE, FLOAT, 967 1.506 rillig #ifdef INT128_SIZE 968 1.506 rillig UINT128, INT128, 969 1.506 rillig #endif 970 1.545 rillig ULLONG, LLONG, 971 1.506 rillig ULONG, LONG, 972 1.506 rillig UINT, INT, 973 1.506 rillig }; 974 1.506 rillig 975 1.506 rillig /* Keep unsigned in traditional C */ 976 1.506 rillig static tspec_t 977 1.506 rillig usual_arithmetic_conversion_trad(tspec_t lt, tspec_t rt) 978 1.506 rillig { 979 1.1 cgd 980 1.506 rillig size_t i; 981 1.506 rillig for (i = 0; arith_rank[i] != INT; i++) 982 1.506 rillig if (lt == arith_rank[i] || rt == arith_rank[i]) 983 1.506 rillig break; 984 1.1 cgd 985 1.506 rillig tspec_t t = arith_rank[i]; 986 1.506 rillig if (is_uinteger(lt) || is_uinteger(rt)) 987 1.506 rillig if (is_integer(t) && !is_uinteger(t)) 988 1.506 rillig return unsigned_type(t); 989 1.506 rillig return t; 990 1.506 rillig } 991 1.1 cgd 992 1.506 rillig static tspec_t 993 1.506 rillig usual_arithmetic_conversion_c90(tspec_t lt, tspec_t rt) 994 1.506 rillig { 995 1.1 cgd 996 1.506 rillig if (lt == rt) 997 1.506 rillig return lt; 998 1.1 cgd 999 1.506 rillig if (lt == LCOMPLEX || rt == LCOMPLEX) 1000 1.506 rillig return LCOMPLEX; 1001 1.506 rillig if (lt == DCOMPLEX || rt == DCOMPLEX) 1002 1.506 rillig return DCOMPLEX; 1003 1.506 rillig if (lt == FCOMPLEX || rt == FCOMPLEX) 1004 1.506 rillig return FCOMPLEX; 1005 1.506 rillig if (lt == LDOUBLE || rt == LDOUBLE) 1006 1.506 rillig return LDOUBLE; 1007 1.506 rillig if (lt == DOUBLE || rt == DOUBLE) 1008 1.506 rillig return DOUBLE; 1009 1.506 rillig if (lt == FLOAT || rt == FLOAT) 1010 1.506 rillig return FLOAT; 1011 1.1 cgd 1012 1.506 rillig if (size_in_bits(lt) > size_in_bits(rt)) 1013 1.506 rillig return lt; 1014 1.506 rillig if (size_in_bits(lt) < size_in_bits(rt)) 1015 1.506 rillig return rt; 1016 1.1 cgd 1017 1.506 rillig size_t i; 1018 1.506 rillig for (i = 3; arith_rank[i] != INT; i++) 1019 1.506 rillig if (arith_rank[i] == lt || arith_rank[i] == rt) 1020 1.506 rillig break; 1021 1.506 rillig if ((is_uinteger(lt) || is_uinteger(rt)) && 1022 1.506 rillig !is_uinteger(arith_rank[i])) 1023 1.506 rillig i--; 1024 1.506 rillig return arith_rank[i]; 1025 1.1 cgd } 1026 1.1 cgd 1027 1.506 rillig static tnode_t * 1028 1.506 rillig apply_usual_arithmetic_conversions(op_t op, tnode_t *tn, tspec_t t) 1029 1.317 rillig { 1030 1.506 rillig type_t *ntp = expr_dup_type(tn->tn_type); 1031 1.506 rillig ntp->t_tspec = t; 1032 1.506 rillig if (tn->tn_op != CON) { 1033 1.506 rillig /* usual arithmetic conversion for '%s' from '%s' to '%s' */ 1034 1.506 rillig query_message(4, op_name(op), 1035 1.690 rillig expr_type_name(tn), type_name(ntp)); 1036 1.506 rillig } 1037 1.506 rillig return convert(op, 0, ntp, tn); 1038 1.317 rillig } 1039 1.317 rillig 1040 1.506 rillig /* 1041 1.506 rillig * Apply the "usual arithmetic conversions" (C99 6.3.1.8), which gives both 1042 1.506 rillig * operands the same type. 1043 1.506 rillig */ 1044 1.506 rillig static void 1045 1.506 rillig balance(op_t op, tnode_t **lnp, tnode_t **rnp) 1046 1.314 rillig { 1047 1.314 rillig 1048 1.506 rillig tspec_t lt = (*lnp)->tn_type->t_tspec; 1049 1.506 rillig tspec_t rt = (*rnp)->tn_type->t_tspec; 1050 1.506 rillig if (!is_arithmetic(lt) || !is_arithmetic(rt)) 1051 1.506 rillig return; 1052 1.506 rillig 1053 1.506 rillig tspec_t t = allow_c90 1054 1.506 rillig ? usual_arithmetic_conversion_c90(lt, rt) 1055 1.506 rillig : usual_arithmetic_conversion_trad(lt, rt); 1056 1.314 rillig 1057 1.642 rillig if (modtab[op].m_comparison 1058 1.642 rillig && is_integer(lt) && (*lnp)->tn_op != CON 1059 1.642 rillig && is_floating(t) && (*rnp)->tn_op == CON) 1060 1.642 rillig /* comparing integer '%s' to floating point constant %Lg */ 1061 1.690 rillig warning(379, expr_type_name(*lnp), 1062 1.642 rillig (*rnp)->u.value.u.floating); 1063 1.642 rillig 1064 1.506 rillig if (t != lt) 1065 1.506 rillig *lnp = apply_usual_arithmetic_conversions(op, *lnp, t); 1066 1.506 rillig if (t != rt) 1067 1.506 rillig *rnp = apply_usual_arithmetic_conversions(op, *rnp, t); 1068 1.626 rillig 1069 1.638 rillig if (is_integer(t)) { 1070 1.638 rillig unsigned lw = width_in_bits((*lnp)->tn_type); 1071 1.638 rillig unsigned rw = width_in_bits((*rnp)->tn_type); 1072 1.638 rillig if (lw < rw) 1073 1.638 rillig *lnp = convert(NOOP, 0, (*rnp)->tn_type, *lnp); 1074 1.638 rillig if (rw < lw) 1075 1.638 rillig *rnp = convert(NOOP, 0, (*lnp)->tn_type, *rnp); 1076 1.638 rillig } 1077 1.314 rillig } 1078 1.314 rillig 1079 1.506 rillig static tnode_t * 1080 1.673 rillig build_address(bool sys, tnode_t *tn) 1081 1.1 cgd { 1082 1.590 rillig /* eliminate '&*' */ 1083 1.506 rillig if (tn->tn_op == INDIR && 1084 1.612 rillig tn->u.ops.left->tn_type->t_tspec == PTR && 1085 1.612 rillig tn->u.ops.left->tn_type->t_subt == tn->tn_type) { 1086 1.612 rillig return tn->u.ops.left; 1087 1.1 cgd } 1088 1.1 cgd 1089 1.565 rillig return build_op(ADDR, sys, expr_derive_type(tn->tn_type, PTR), 1090 1.506 rillig tn, NULL); 1091 1.1 cgd } 1092 1.1 cgd 1093 1.618 rillig static uint64_t 1094 1.618 rillig fold_unsigned_integer(op_t op, uint64_t l, uint64_t r, 1095 1.618 rillig uint64_t max_value, bool *overflow) 1096 1.151 rillig { 1097 1.618 rillig switch (op) { 1098 1.615 rillig case COMPL: 1099 1.621 rillig return ~l & max_value; 1100 1.506 rillig case UPLUS: 1101 1.620 rillig return +l; 1102 1.506 rillig case UMINUS: 1103 1.621 rillig return -l & max_value; 1104 1.620 rillig case MULT: 1105 1.620 rillig *overflow = r > 0 && l > max_value / r; 1106 1.620 rillig return l * r; 1107 1.506 rillig case DIV: 1108 1.618 rillig if (r == 0) { 1109 1.506 rillig /* division by 0 */ 1110 1.506 rillig error(139); 1111 1.618 rillig return max_value; 1112 1.620 rillig } 1113 1.620 rillig return l / r; 1114 1.506 rillig case MOD: 1115 1.618 rillig if (r == 0) { 1116 1.506 rillig /* modulus by 0 */ 1117 1.506 rillig error(140); 1118 1.618 rillig return 0; 1119 1.620 rillig } 1120 1.620 rillig return l % r; 1121 1.619 rillig case PLUS: 1122 1.619 rillig *overflow = l > max_value - r; 1123 1.619 rillig return l + r; 1124 1.619 rillig case MINUS: 1125 1.619 rillig *overflow = l < r; 1126 1.619 rillig return l - r; 1127 1.506 rillig case SHL: 1128 1.628 rillig /* TODO: warn about out-of-bounds 'r'. */ 1129 1.620 rillig /* TODO: warn about overflow. */ 1130 1.618 rillig return l << (r & 63); 1131 1.506 rillig case SHR: 1132 1.628 rillig /* TODO: warn about out-of-bounds 'r'. */ 1133 1.618 rillig return l >> (r & 63); 1134 1.618 rillig case LT: 1135 1.618 rillig return l < r ? 1 : 0; 1136 1.618 rillig case LE: 1137 1.618 rillig return l <= r ? 1 : 0; 1138 1.618 rillig case GT: 1139 1.618 rillig return l > r ? 1 : 0; 1140 1.618 rillig case GE: 1141 1.618 rillig return l >= r ? 1 : 0; 1142 1.618 rillig case EQ: 1143 1.618 rillig return l == r ? 1 : 0; 1144 1.618 rillig case NE: 1145 1.618 rillig return l != r ? 1 : 0; 1146 1.618 rillig case BITAND: 1147 1.618 rillig return l & r; 1148 1.618 rillig case BITXOR: 1149 1.618 rillig return l ^ r; 1150 1.618 rillig case BITOR: 1151 1.618 rillig return l | r; 1152 1.618 rillig default: 1153 1.680 rillig lint_assert(false); 1154 1.620 rillig /* NOTREACHED */ 1155 1.618 rillig } 1156 1.618 rillig } 1157 1.618 rillig 1158 1.618 rillig static int64_t 1159 1.618 rillig fold_signed_integer(op_t op, int64_t l, int64_t r, 1160 1.618 rillig int64_t min_value, int64_t max_value, bool *overflow) 1161 1.618 rillig { 1162 1.618 rillig switch (op) { 1163 1.618 rillig case COMPL: 1164 1.618 rillig return ~l; 1165 1.618 rillig case UPLUS: 1166 1.620 rillig return +l; 1167 1.618 rillig case UMINUS: 1168 1.618 rillig *overflow = l == min_value; 1169 1.618 rillig return *overflow ? l : -l; 1170 1.618 rillig case MULT:; 1171 1.669 rillig uint64_t al = s64_abs(l); 1172 1.669 rillig uint64_t ar = s64_abs(r); 1173 1.618 rillig bool neg = (l >= 0) != (r >= 0); 1174 1.618 rillig uint64_t max_prod = (uint64_t)max_value + (neg ? 1 : 0); 1175 1.618 rillig if (al > 0 && ar > max_prod / al) { 1176 1.618 rillig *overflow = true; 1177 1.622 rillig return neg ? min_value : max_value; 1178 1.618 rillig } 1179 1.620 rillig return l * r; 1180 1.618 rillig case DIV: 1181 1.618 rillig if (r == 0) { 1182 1.618 rillig /* division by 0 */ 1183 1.618 rillig error(139); 1184 1.618 rillig return max_value; 1185 1.618 rillig } 1186 1.618 rillig if (l == min_value && r == -1) { 1187 1.618 rillig *overflow = true; 1188 1.618 rillig return l; 1189 1.618 rillig } 1190 1.618 rillig return l / r; 1191 1.618 rillig case MOD: 1192 1.618 rillig if (r == 0) { 1193 1.618 rillig /* modulus by 0 */ 1194 1.618 rillig error(140); 1195 1.618 rillig return 0; 1196 1.618 rillig } 1197 1.618 rillig if (l == min_value && r == -1) { 1198 1.618 rillig *overflow = true; 1199 1.618 rillig return 0; 1200 1.618 rillig } 1201 1.618 rillig return l % r; 1202 1.619 rillig case PLUS: 1203 1.619 rillig if (r > 0 && l > max_value - r) { 1204 1.618 rillig *overflow = true; 1205 1.619 rillig return max_value; 1206 1.619 rillig } 1207 1.619 rillig if (r < 0 && l < min_value - r) { 1208 1.618 rillig *overflow = true; 1209 1.619 rillig return min_value; 1210 1.619 rillig } 1211 1.619 rillig return l + r; 1212 1.619 rillig case MINUS: 1213 1.619 rillig if (r > 0 && l < min_value + r) { 1214 1.618 rillig *overflow = true; 1215 1.619 rillig return min_value; 1216 1.619 rillig } 1217 1.619 rillig if (r < 0 && l > max_value + r) { 1218 1.618 rillig *overflow = true; 1219 1.619 rillig return max_value; 1220 1.619 rillig } 1221 1.619 rillig return l - r; 1222 1.618 rillig case SHL: 1223 1.628 rillig /* TODO: warn about out-of-bounds 'r'. */ 1224 1.620 rillig /* TODO: warn about overflow. */ 1225 1.692 rillig return (int64_t)((uint64_t)l << (r & 63)); 1226 1.621 rillig case SHR: 1227 1.628 rillig /* TODO: warn about out-of-bounds 'r'. */ 1228 1.667 rillig return s64_shr(l, r & 63); 1229 1.506 rillig case LT: 1230 1.618 rillig return l < r ? 1 : 0; 1231 1.506 rillig case LE: 1232 1.618 rillig return l <= r ? 1 : 0; 1233 1.615 rillig case GT: 1234 1.618 rillig return l > r ? 1 : 0; 1235 1.506 rillig case GE: 1236 1.618 rillig return l >= r ? 1 : 0; 1237 1.506 rillig case EQ: 1238 1.618 rillig return l == r ? 1 : 0; 1239 1.506 rillig case NE: 1240 1.618 rillig return l != r ? 1 : 0; 1241 1.506 rillig case BITAND: 1242 1.618 rillig return l & r; 1243 1.506 rillig case BITXOR: 1244 1.618 rillig return l ^ r; 1245 1.506 rillig case BITOR: 1246 1.618 rillig return l | r; 1247 1.506 rillig default: 1248 1.680 rillig lint_assert(false); 1249 1.620 rillig /* NOTREACHED */ 1250 1.506 rillig } 1251 1.618 rillig } 1252 1.618 rillig 1253 1.618 rillig static tnode_t * 1254 1.618 rillig fold_constant_integer(tnode_t *tn) 1255 1.618 rillig { 1256 1.618 rillig 1257 1.618 rillig lint_assert(has_operands(tn)); 1258 1.618 rillig tspec_t t = tn->u.ops.left->tn_type->t_tspec; 1259 1.621 rillig int64_t l = tn->u.ops.left->u.value.u.integer; 1260 1.621 rillig int64_t r = is_binary(tn) ? tn->u.ops.right->u.value.u.integer : 0; 1261 1.621 rillig uint64_t mask = value_bits(size_in_bits(t)); 1262 1.618 rillig 1263 1.621 rillig int64_t res; 1264 1.621 rillig bool overflow = false; 1265 1.621 rillig if (!is_integer(t) || is_uinteger(t)) { 1266 1.621 rillig uint64_t u_res = fold_unsigned_integer(tn->tn_op, 1267 1.621 rillig (uint64_t)l, (uint64_t)r, mask, &overflow); 1268 1.621 rillig if (u_res > mask) 1269 1.621 rillig overflow = true; 1270 1.621 rillig res = (int64_t)u_res; 1271 1.623 rillig if (overflow && hflag) { 1272 1.623 rillig char buf[128]; 1273 1.623 rillig if (is_binary(tn)) { 1274 1.623 rillig snprintf(buf, sizeof(buf), "%ju %s %ju", 1275 1.623 rillig (uintmax_t)l, op_name(tn->tn_op), 1276 1.623 rillig (uintmax_t)r); 1277 1.623 rillig } else { 1278 1.623 rillig snprintf(buf, sizeof(buf), "%s%ju", 1279 1.623 rillig op_name(tn->tn_op), (uintmax_t)l); 1280 1.623 rillig } 1281 1.623 rillig /* '%s' overflows '%s' */ 1282 1.690 rillig warning(141, buf, expr_type_name(tn)); 1283 1.623 rillig } 1284 1.621 rillig } else { 1285 1.621 rillig int64_t max_value = (int64_t)(mask >> 1); 1286 1.621 rillig int64_t min_value = -max_value - 1; 1287 1.621 rillig res = fold_signed_integer(tn->tn_op, 1288 1.621 rillig l, r, min_value, max_value, &overflow); 1289 1.621 rillig if (res < min_value || res > max_value) 1290 1.621 rillig overflow = true; 1291 1.623 rillig if (overflow && hflag) { 1292 1.623 rillig char buf[128]; 1293 1.623 rillig if (is_binary(tn)) { 1294 1.623 rillig snprintf(buf, sizeof(buf), "%jd %s %jd", 1295 1.623 rillig (intmax_t)l, op_name(tn->tn_op), 1296 1.623 rillig (intmax_t)r); 1297 1.623 rillig } else if (tn->tn_op == UMINUS && l < 0) { 1298 1.623 rillig snprintf(buf, sizeof(buf), "-(%jd)", 1299 1.623 rillig (intmax_t)l); 1300 1.623 rillig } else { 1301 1.623 rillig snprintf(buf, sizeof(buf), "%s%jd", 1302 1.623 rillig op_name(tn->tn_op), (intmax_t)l); 1303 1.623 rillig } 1304 1.623 rillig /* '%s' overflows '%s' */ 1305 1.690 rillig warning(141, buf, expr_type_name(tn)); 1306 1.623 rillig } 1307 1.506 rillig } 1308 1.506 rillig 1309 1.617 rillig val_t *v = xcalloc(1, sizeof(*v)); 1310 1.617 rillig v->v_tspec = tn->tn_type->t_tspec; 1311 1.629 rillig v->u.integer = convert_integer(res, t, size_in_bits(t)); 1312 1.151 rillig 1313 1.536 rillig tnode_t *cn = build_constant(tn->tn_type, v); 1314 1.612 rillig if (tn->u.ops.left->tn_system_dependent) 1315 1.506 rillig cn->tn_system_dependent = true; 1316 1.612 rillig if (is_binary(tn) && tn->u.ops.right->tn_system_dependent) 1317 1.506 rillig cn->tn_system_dependent = true; 1318 1.190 rillig 1319 1.506 rillig return cn; 1320 1.190 rillig } 1321 1.190 rillig 1322 1.506 rillig static tnode_t * 1323 1.506 rillig build_struct_access(op_t op, bool sys, tnode_t *ln, tnode_t *rn) 1324 1.375 rillig { 1325 1.440 rillig 1326 1.506 rillig lint_assert(rn->tn_op == NAME); 1327 1.612 rillig lint_assert(is_member(rn->u.sym)); 1328 1.440 rillig 1329 1.566 rillig bool lvalue = op == ARROW || ln->tn_lvalue; 1330 1.506 rillig 1331 1.604 rillig if (op == POINT) 1332 1.673 rillig ln = build_address(sys, ln); 1333 1.604 rillig else if (ln->tn_type->t_tspec != PTR) { 1334 1.506 rillig lint_assert(!allow_c90); 1335 1.506 rillig lint_assert(is_integer(ln->tn_type->t_tspec)); 1336 1.506 rillig ln = convert(NOOP, 0, expr_derive_type(gettyp(VOID), PTR), ln); 1337 1.506 rillig } 1338 1.506 rillig 1339 1.536 rillig tnode_t *ctn = build_integer_constant(PTRDIFF_TSPEC, 1340 1.612 rillig rn->u.sym->u.s_member.sm_offset_in_bits / CHAR_SIZE); 1341 1.506 rillig 1342 1.536 rillig type_t *ptr_tp = expr_derive_type(rn->tn_type, PTR); 1343 1.565 rillig tnode_t *ntn = build_op(PLUS, sys, ptr_tp, ln, ctn); 1344 1.506 rillig if (ln->tn_op == CON) 1345 1.589 rillig ntn = fold_constant_integer(ntn); 1346 1.506 rillig 1347 1.566 rillig op_t nop = rn->tn_type->t_bitfield ? FSEL : INDIR; 1348 1.566 rillig ntn = build_op(nop, sys, ntn->tn_type->t_subt, ntn, NULL); 1349 1.566 rillig if (!lvalue) 1350 1.506 rillig ntn->tn_lvalue = false; 1351 1.440 rillig 1352 1.506 rillig return ntn; 1353 1.375 rillig } 1354 1.375 rillig 1355 1.506 rillig /* 1356 1.506 rillig * Get the size in bytes of type tp->t_subt, as a constant expression of type 1357 1.506 rillig * ptrdiff_t as seen from the target platform. 1358 1.506 rillig */ 1359 1.506 rillig static tnode_t * 1360 1.506 rillig subt_size_in_bytes(type_t *tp) 1361 1.375 rillig { 1362 1.506 rillig 1363 1.506 rillig lint_assert(tp->t_tspec == PTR); 1364 1.506 rillig tp = tp->t_subt; 1365 1.375 rillig 1366 1.536 rillig int elem = 1; 1367 1.506 rillig while (tp->t_tspec == ARRAY) { 1368 1.611 rillig elem *= tp->u.dimension; 1369 1.506 rillig tp = tp->t_subt; 1370 1.138 rillig } 1371 1.138 rillig 1372 1.536 rillig int elsz_in_bits = 0; 1373 1.506 rillig switch (tp->t_tspec) { 1374 1.506 rillig case FUNC: 1375 1.506 rillig /* pointer to function is not allowed here */ 1376 1.506 rillig error(110); 1377 1.506 rillig break; 1378 1.506 rillig case VOID: 1379 1.506 rillig /* cannot do pointer arithmetic on operand of unknown size */ 1380 1.506 rillig gnuism(136); 1381 1.506 rillig break; 1382 1.506 rillig case STRUCT: 1383 1.506 rillig case UNION: 1384 1.611 rillig if ((elsz_in_bits = (int)tp->u.sou->sou_size_in_bits) == 0) 1385 1.506 rillig /* cannot do pointer arithmetic on operand of ... */ 1386 1.506 rillig error(136); 1387 1.506 rillig break; 1388 1.506 rillig case ENUM: 1389 1.604 rillig if (is_incomplete(tp)) 1390 1.506 rillig /* cannot do pointer arithmetic on operand of ... */ 1391 1.506 rillig warning(136); 1392 1.506 rillig /* FALLTHROUGH */ 1393 1.506 rillig default: 1394 1.604 rillig if ((elsz_in_bits = size_in_bits(tp->t_tspec)) == 0) 1395 1.506 rillig /* cannot do pointer arithmetic on operand of ... */ 1396 1.506 rillig error(136); 1397 1.604 rillig else 1398 1.506 rillig lint_assert(elsz_in_bits != -1); 1399 1.506 rillig break; 1400 1.139 rillig } 1401 1.506 rillig 1402 1.604 rillig if (elem == 0 && elsz_in_bits != 0) 1403 1.506 rillig /* cannot do pointer arithmetic on operand of unknown size */ 1404 1.506 rillig error(136); 1405 1.506 rillig 1406 1.506 rillig if (elsz_in_bits == 0) 1407 1.506 rillig elsz_in_bits = CHAR_SIZE; 1408 1.506 rillig 1409 1.506 rillig return build_integer_constant(PTRDIFF_TSPEC, 1410 1.506 rillig (int64_t)(elem * elsz_in_bits / CHAR_SIZE)); 1411 1.139 rillig } 1412 1.139 rillig 1413 1.506 rillig static tnode_t * 1414 1.506 rillig build_prepost_incdec(op_t op, bool sys, tnode_t *ln) 1415 1.140 rillig { 1416 1.457 rillig 1417 1.506 rillig lint_assert(ln != NULL); 1418 1.536 rillig tnode_t *cn = ln->tn_type->t_tspec == PTR 1419 1.536 rillig ? subt_size_in_bytes(ln->tn_type) 1420 1.536 rillig : build_integer_constant(INT, 1); 1421 1.565 rillig return build_op(op, sys, ln->tn_type, ln, cn); 1422 1.140 rillig } 1423 1.140 rillig 1424 1.140 rillig static void 1425 1.506 rillig check_enum_array_index(const tnode_t *ln, const tnode_t *rn) 1426 1.140 rillig { 1427 1.506 rillig 1428 1.686 rillig if (ln->tn_op != ADDR) 1429 1.686 rillig return; 1430 1.686 rillig ln = ln->u.ops.left; 1431 1.686 rillig if (ln->tn_op != NAME && ln->tn_op != STRING) 1432 1.506 rillig return; 1433 1.506 rillig 1434 1.686 rillig const type_t *ltp = ln->tn_type; 1435 1.536 rillig if (ltp->t_tspec != ARRAY || ltp->t_incomplete_array) 1436 1.506 rillig return; 1437 1.506 rillig 1438 1.506 rillig if (rn->tn_op != CVT || !rn->tn_type->t_is_enum) 1439 1.506 rillig return; 1440 1.612 rillig if (rn->u.ops.left->tn_op != LOAD) 1441 1.506 rillig return; 1442 1.506 rillig 1443 1.612 rillig const type_t *rtp = rn->u.ops.left->tn_type; 1444 1.611 rillig const sym_t *ec = rtp->u.enumer->en_first_enumerator; 1445 1.540 rillig const sym_t *max_ec = ec; 1446 1.506 rillig lint_assert(ec != NULL); 1447 1.506 rillig for (ec = ec->s_next; ec != NULL; ec = ec->s_next) 1448 1.506 rillig if (ec->u.s_enum_constant > max_ec->u.s_enum_constant) 1449 1.506 rillig max_ec = ec; 1450 1.506 rillig 1451 1.536 rillig int64_t max_enum_value = max_ec->u.s_enum_constant; 1452 1.506 rillig lint_assert(INT_MIN <= max_enum_value && max_enum_value <= INT_MAX); 1453 1.143 rillig 1454 1.611 rillig int max_array_index = ltp->u.dimension - 1; 1455 1.686 rillig size_t nonnull_dimension = ln->tn_op == STRING 1456 1.686 rillig ? str_len(ln) 1457 1.686 rillig : ln->u.sym->u.s_array_nonnull_dimension; 1458 1.686 rillig if (nonnull_dimension > 0) 1459 1.686 rillig max_array_index = (int)nonnull_dimension - 1; 1460 1.506 rillig if (max_enum_value == max_array_index) 1461 1.506 rillig return; 1462 1.143 rillig 1463 1.506 rillig if (max_enum_value == max_array_index + 1 && 1464 1.506 rillig (strstr(max_ec->s_name, "MAX") != NULL || 1465 1.506 rillig strstr(max_ec->s_name, "max") != NULL || 1466 1.506 rillig strstr(max_ec->s_name, "NUM") != NULL || 1467 1.657 rillig strstr(max_ec->s_name, "num") != NULL || 1468 1.657 rillig strncmp(max_ec->s_name, "N_", 2) == 0)) 1469 1.506 rillig return; 1470 1.502 rillig 1471 1.657 rillig /* maximum value %d for '%s' of type '%s' does not match maximum array index %d */ 1472 1.657 rillig warning(348, (int)max_enum_value, max_ec->s_name, type_name(rtp), 1473 1.657 rillig max_array_index); 1474 1.506 rillig print_previous_declaration(max_ec); 1475 1.140 rillig } 1476 1.140 rillig 1477 1.506 rillig static tnode_t * 1478 1.506 rillig build_plus_minus(op_t op, bool sys, tnode_t *ln, tnode_t *rn) 1479 1.182 rillig { 1480 1.506 rillig 1481 1.506 rillig if (rn->tn_type->t_tspec == PTR && is_integer(ln->tn_type->t_tspec)) { 1482 1.506 rillig tnode_t *tmp = ln; 1483 1.506 rillig ln = rn; 1484 1.506 rillig rn = tmp; 1485 1.506 rillig /* pointer addition has integer on the left-hand side */ 1486 1.506 rillig query_message(5); 1487 1.140 rillig } 1488 1.140 rillig 1489 1.506 rillig /* pointer +- integer */ 1490 1.631 rillig tspec_t lt = ln->tn_type->t_tspec; 1491 1.631 rillig tspec_t rt = rn->tn_type->t_tspec; 1492 1.631 rillig if (lt == PTR && rt != PTR) { 1493 1.631 rillig lint_assert(is_integer(rt)); 1494 1.270 rillig 1495 1.506 rillig check_ctype_macro_invocation(ln, rn); 1496 1.506 rillig check_enum_array_index(ln, rn); 1497 1.140 rillig 1498 1.506 rillig tnode_t *elsz = subt_size_in_bytes(ln->tn_type); 1499 1.631 rillig tspec_t szt = elsz->tn_type->t_tspec; 1500 1.631 rillig if (rt != szt && rt != unsigned_type(szt)) 1501 1.506 rillig rn = convert(NOOP, 0, elsz->tn_type, rn); 1502 1.140 rillig 1503 1.565 rillig tnode_t *prod = build_op(MULT, sys, rn->tn_type, rn, elsz); 1504 1.506 rillig if (rn->tn_op == CON) 1505 1.589 rillig prod = fold_constant_integer(prod); 1506 1.392 rillig 1507 1.565 rillig return build_op(op, sys, ln->tn_type, ln, prod); 1508 1.140 rillig } 1509 1.178 rillig 1510 1.506 rillig /* pointer - pointer */ 1511 1.631 rillig if (rt == PTR) { 1512 1.631 rillig lint_assert(lt == PTR); 1513 1.506 rillig lint_assert(op == MINUS); 1514 1.178 rillig 1515 1.506 rillig type_t *ptrdiff = gettyp(PTRDIFF_TSPEC); 1516 1.565 rillig tnode_t *raw_diff = build_op(op, sys, ptrdiff, ln, rn); 1517 1.506 rillig if (ln->tn_op == CON && rn->tn_op == CON) 1518 1.589 rillig raw_diff = fold_constant_integer(raw_diff); 1519 1.178 rillig 1520 1.506 rillig tnode_t *elsz = subt_size_in_bytes(ln->tn_type); 1521 1.506 rillig balance(NOOP, &raw_diff, &elsz); 1522 1.140 rillig 1523 1.565 rillig return build_op(DIV, sys, ptrdiff, raw_diff, elsz); 1524 1.140 rillig } 1525 1.506 rillig 1526 1.565 rillig return build_op(op, sys, ln->tn_type, ln, rn); 1527 1.140 rillig } 1528 1.140 rillig 1529 1.506 rillig static tnode_t * 1530 1.506 rillig build_bit_shift(op_t op, bool sys, tnode_t *ln, tnode_t *rn) 1531 1.206 rillig { 1532 1.206 rillig 1533 1.506 rillig if (!allow_c90 && rn->tn_type->t_tspec != INT) 1534 1.564 rillig // XXX: C1978 7.5 says: "Both [operators] perform the usual 1535 1.564 rillig // arithmetic conversions on their operands." 1536 1.564 rillig // TODO: Add a test to exercise this part of the code. 1537 1.506 rillig rn = convert(NOOP, 0, gettyp(INT), rn); 1538 1.565 rillig return build_op(op, sys, ln->tn_type, ln, rn); 1539 1.206 rillig } 1540 1.206 rillig 1541 1.140 rillig static bool 1542 1.506 rillig is_null_pointer(const tnode_t *tn) 1543 1.140 rillig { 1544 1.506 rillig tspec_t t = tn->tn_type->t_tspec; 1545 1.142 rillig 1546 1.564 rillig // TODO: Investigate how other pointers are stored, in particular, 1547 1.564 rillig // whether a pointer constant can have a non-zero value. 1548 1.564 rillig // If not, simplify the code below. 1549 1.584 rillig return ((t == PTR && tn->tn_type->t_subt->t_tspec == VOID) 1550 1.584 rillig || is_integer(t)) 1551 1.612 rillig && (tn->tn_op == CON && tn->u.value.u.integer == 0); 1552 1.506 rillig } 1553 1.140 rillig 1554 1.506 rillig /* Return a type based on tp1, with added qualifiers from tp2. */ 1555 1.506 rillig static type_t * 1556 1.506 rillig merge_qualifiers(type_t *tp1, const type_t *tp2) 1557 1.506 rillig { 1558 1.140 rillig 1559 1.506 rillig lint_assert(tp1->t_tspec == PTR); 1560 1.506 rillig lint_assert(tp2->t_tspec == PTR); 1561 1.140 rillig 1562 1.536 rillig bool c1 = tp1->t_subt->t_const; 1563 1.536 rillig bool c2 = tp2->t_subt->t_const; 1564 1.536 rillig bool v1 = tp1->t_subt->t_volatile; 1565 1.536 rillig bool v2 = tp2->t_subt->t_volatile; 1566 1.140 rillig 1567 1.506 rillig if (c1 == (c1 | c2) && v1 == (v1 | v2)) 1568 1.506 rillig return tp1; 1569 1.140 rillig 1570 1.536 rillig type_t *nstp = expr_dup_type(tp1->t_subt); 1571 1.506 rillig nstp->t_const |= c2; 1572 1.506 rillig nstp->t_volatile |= v2; 1573 1.140 rillig 1574 1.536 rillig type_t *ntp = expr_dup_type(tp1); 1575 1.506 rillig ntp->t_subt = nstp; 1576 1.506 rillig return ntp; 1577 1.140 rillig } 1578 1.140 rillig 1579 1.506 rillig /* See C99 6.5.15 "Conditional operator". */ 1580 1.506 rillig static tnode_t * 1581 1.506 rillig build_colon(bool sys, tnode_t *ln, tnode_t *rn) 1582 1.140 rillig { 1583 1.536 rillig tspec_t lt = ln->tn_type->t_tspec; 1584 1.536 rillig tspec_t rt = rn->tn_type->t_tspec; 1585 1.332 rillig 1586 1.536 rillig type_t *tp; 1587 1.604 rillig if (is_arithmetic(lt) && is_arithmetic(rt)) 1588 1.506 rillig /* The operands were already balanced in build_binary. */ 1589 1.506 rillig tp = ln->tn_type; 1590 1.604 rillig else if (lt == BOOL && rt == BOOL) 1591 1.506 rillig tp = ln->tn_type; 1592 1.604 rillig else if (lt == VOID || rt == VOID) 1593 1.506 rillig tp = gettyp(VOID); 1594 1.604 rillig else if (is_struct_or_union(lt)) { 1595 1.506 rillig lint_assert(is_struct_or_union(rt)); 1596 1.611 rillig lint_assert(ln->tn_type->u.sou == rn->tn_type->u.sou); 1597 1.506 rillig if (is_incomplete(ln->tn_type)) { 1598 1.506 rillig /* unknown operand size, op '%s' */ 1599 1.506 rillig error(138, op_name(COLON)); 1600 1.506 rillig return NULL; 1601 1.140 rillig } 1602 1.506 rillig tp = ln->tn_type; 1603 1.506 rillig } else if (lt == PTR && is_integer(rt)) { 1604 1.506 rillig if (rt != PTRDIFF_TSPEC) 1605 1.506 rillig rn = convert(NOOP, 0, gettyp(PTRDIFF_TSPEC), rn); 1606 1.506 rillig tp = ln->tn_type; 1607 1.506 rillig } else if (rt == PTR && is_integer(lt)) { 1608 1.506 rillig if (lt != PTRDIFF_TSPEC) 1609 1.506 rillig ln = convert(NOOP, 0, gettyp(PTRDIFF_TSPEC), ln); 1610 1.506 rillig tp = rn->tn_type; 1611 1.604 rillig } else if (lt == PTR && is_null_pointer(rn)) 1612 1.506 rillig tp = merge_qualifiers(ln->tn_type, rn->tn_type); 1613 1.604 rillig else if (rt == PTR && is_null_pointer(ln)) 1614 1.506 rillig tp = merge_qualifiers(rn->tn_type, ln->tn_type); 1615 1.604 rillig else if (lt == PTR && ln->tn_type->t_subt->t_tspec == VOID) 1616 1.506 rillig tp = merge_qualifiers(ln->tn_type, rn->tn_type); 1617 1.604 rillig else if (rt == PTR && rn->tn_type->t_subt->t_tspec == VOID) 1618 1.506 rillig tp = merge_qualifiers(rn->tn_type, ln->tn_type); 1619 1.604 rillig else { 1620 1.506 rillig /* 1621 1.586 rillig * XXX For now we simply take the left type. This is probably 1622 1.586 rillig * wrong, if one type contains a function prototype and the 1623 1.586 rillig * other one, at the same place, only an old-style declaration. 1624 1.506 rillig */ 1625 1.506 rillig tp = merge_qualifiers(ln->tn_type, rn->tn_type); 1626 1.140 rillig } 1627 1.506 rillig 1628 1.565 rillig return build_op(COLON, sys, tp, ln, rn); 1629 1.140 rillig } 1630 1.140 rillig 1631 1.506 rillig /* TODO: check for varargs */ 1632 1.150 rillig static bool 1633 1.506 rillig is_cast_redundant(const tnode_t *tn) 1634 1.1 cgd { 1635 1.612 rillig const type_t *ntp = tn->tn_type, *otp = tn->u.ops.left->tn_type; 1636 1.506 rillig tspec_t nt = ntp->t_tspec, ot = otp->t_tspec; 1637 1.506 rillig 1638 1.506 rillig if (nt == BOOL || ot == BOOL) 1639 1.506 rillig return nt == BOOL && ot == BOOL; 1640 1.506 rillig 1641 1.506 rillig if (is_integer(nt) && is_integer(ot)) { 1642 1.506 rillig unsigned int nw = width_in_bits(ntp), ow = width_in_bits(otp); 1643 1.506 rillig if (is_uinteger(nt) == is_uinteger(ot)) 1644 1.584 rillig return nw >= ow; 1645 1.506 rillig return is_uinteger(ot) && nw > ow; 1646 1.1 cgd } 1647 1.1 cgd 1648 1.506 rillig if (is_complex(nt) || is_complex(ot)) 1649 1.506 rillig return is_complex(nt) && is_complex(ot) && 1650 1.584 rillig size_in_bits(nt) >= size_in_bits(ot); 1651 1.506 rillig 1652 1.506 rillig if (is_floating(nt) && is_floating(ot)) 1653 1.506 rillig return size_in_bits(nt) >= size_in_bits(ot); 1654 1.506 rillig 1655 1.506 rillig if (nt == PTR && ot == PTR) { 1656 1.506 rillig if (!ntp->t_subt->t_const && otp->t_subt->t_const) 1657 1.141 rillig return false; 1658 1.506 rillig if (!ntp->t_subt->t_volatile && otp->t_subt->t_volatile) 1659 1.141 rillig return false; 1660 1.506 rillig 1661 1.506 rillig if (ntp->t_subt->t_tspec == VOID || 1662 1.506 rillig otp->t_subt->t_tspec == VOID || 1663 1.506 rillig types_compatible(ntp->t_subt, otp->t_subt, 1664 1.506 rillig false, false, NULL)) 1665 1.506 rillig return true; 1666 1.1 cgd } 1667 1.1 cgd 1668 1.506 rillig return false; 1669 1.150 rillig } 1670 1.150 rillig 1671 1.523 rillig static bool 1672 1.523 rillig is_assignment(op_t op) 1673 1.523 rillig { 1674 1.523 rillig 1675 1.523 rillig return op == ASSIGN || 1676 1.584 rillig op == MULASS || 1677 1.584 rillig op == DIVASS || 1678 1.584 rillig op == MODASS || 1679 1.584 rillig op == ADDASS || 1680 1.584 rillig op == SUBASS || 1681 1.584 rillig op == SHLASS || 1682 1.584 rillig op == SHRASS || 1683 1.584 rillig op == ANDASS || 1684 1.584 rillig op == XORASS || 1685 1.584 rillig op == ORASS || 1686 1.584 rillig op == RETURN || 1687 1.584 rillig op == INIT; 1688 1.523 rillig } 1689 1.523 rillig 1690 1.506 rillig static tnode_t * 1691 1.506 rillig build_assignment(op_t op, bool sys, tnode_t *ln, tnode_t *rn) 1692 1.150 rillig { 1693 1.150 rillig 1694 1.536 rillig tspec_t lt = ln->tn_type->t_tspec; 1695 1.536 rillig tspec_t rt = rn->tn_type->t_tspec; 1696 1.150 rillig 1697 1.661 rillig if (is_assignment(rn->tn_op)) 1698 1.523 rillig /* chained assignment with '%s' and '%s' */ 1699 1.523 rillig query_message(10, op_name(op), op_name(rn->tn_op)); 1700 1.523 rillig 1701 1.506 rillig if ((op == ADDASS || op == SUBASS) && lt == PTR) { 1702 1.506 rillig lint_assert(is_integer(rt)); 1703 1.536 rillig tnode_t *ctn = subt_size_in_bytes(ln->tn_type); 1704 1.506 rillig if (rn->tn_type->t_tspec != ctn->tn_type->t_tspec) 1705 1.506 rillig rn = convert(NOOP, 0, ctn->tn_type, rn); 1706 1.565 rillig rn = build_op(MULT, sys, rn->tn_type, rn, ctn); 1707 1.612 rillig if (rn->u.ops.left->tn_op == CON) 1708 1.589 rillig rn = fold_constant_integer(rn); 1709 1.150 rillig } 1710 1.150 rillig 1711 1.506 rillig if ((op == ASSIGN || op == RETURN || op == INIT) && 1712 1.506 rillig (lt == STRUCT || rt == STRUCT)) { 1713 1.506 rillig lint_assert(lt == rt); 1714 1.611 rillig lint_assert(ln->tn_type->u.sou == rn->tn_type->u.sou); 1715 1.506 rillig if (is_incomplete(ln->tn_type)) { 1716 1.604 rillig if (op == RETURN) 1717 1.506 rillig /* cannot return incomplete type */ 1718 1.506 rillig error(212); 1719 1.604 rillig else 1720 1.506 rillig /* unknown operand size, op '%s' */ 1721 1.506 rillig error(138, op_name(op)); 1722 1.506 rillig return NULL; 1723 1.506 rillig } 1724 1.506 rillig } 1725 1.506 rillig 1726 1.549 rillig if (op == SHLASS && hflag && allow_trad && allow_c90 1727 1.550 rillig && portable_rank_cmp(lt, rt) < 0) 1728 1.688 rillig /* '%s' %s '%s' differs between traditional C and C90 */ 1729 1.688 rillig warning(118, tspec_name(lt), "<<=", tspec_name(rt)); 1730 1.549 rillig 1731 1.549 rillig if (op != SHLASS && op != SHRASS 1732 1.549 rillig && (op == ASSIGN || lt != PTR) 1733 1.549 rillig && (lt != rt || (ln->tn_type->t_bitfield && rn->tn_op == CON))) { 1734 1.549 rillig rn = convert(op, 0, ln->tn_type, rn); 1735 1.549 rillig rt = lt; 1736 1.506 rillig } 1737 1.506 rillig 1738 1.661 rillig if (lt == PTR && ln->tn_type->t_subt->t_tspec != VOID 1739 1.637 rillig && rt == PTR && rn->tn_type->t_subt->t_tspec == VOID 1740 1.637 rillig && !is_null_pointer(rn)) 1741 1.636 rillig /* implicit narrowing conversion from void ... */ 1742 1.636 rillig query_message(20, type_name(ln->tn_type)); 1743 1.636 rillig 1744 1.662 rillig if (any_query_enabled && rn->tn_op == CVT && rn->tn_cast && 1745 1.506 rillig types_compatible(ln->tn_type, rn->tn_type, false, false, NULL) && 1746 1.506 rillig is_cast_redundant(rn)) { 1747 1.506 rillig /* redundant cast from '%s' to '%s' before assignment */ 1748 1.690 rillig query_message(7, expr_type_name(rn->u.ops.left), 1749 1.612 rillig type_name(rn->tn_type)); 1750 1.506 rillig } 1751 1.150 rillig 1752 1.565 rillig return build_op(op, sys, ln->tn_type, ln, rn); 1753 1.1 cgd } 1754 1.1 cgd 1755 1.506 rillig static tnode_t * 1756 1.506 rillig build_real_imag(op_t op, bool sys, tnode_t *ln) 1757 1.1 cgd { 1758 1.1 cgd 1759 1.506 rillig lint_assert(ln != NULL); 1760 1.506 rillig if (ln->tn_op == NAME) { 1761 1.506 rillig /* 1762 1.586 rillig * This may be too much, but it avoids wrong warnings. See 1763 1.586 rillig * d_c99_complex_split.c. 1764 1.506 rillig */ 1765 1.612 rillig mark_as_used(ln->u.sym, false, false); 1766 1.612 rillig mark_as_set(ln->u.sym); 1767 1.1 cgd } 1768 1.1 cgd 1769 1.561 rillig tspec_t t; 1770 1.506 rillig switch (ln->tn_type->t_tspec) { 1771 1.506 rillig case LCOMPLEX: 1772 1.561 rillig t = LDOUBLE; 1773 1.506 rillig break; 1774 1.506 rillig case DCOMPLEX: 1775 1.561 rillig t = DOUBLE; 1776 1.506 rillig break; 1777 1.506 rillig case FCOMPLEX: 1778 1.561 rillig t = FLOAT; 1779 1.506 rillig break; 1780 1.506 rillig default: 1781 1.681 rillig /* '__%s__' is invalid for type '%s' */ 1782 1.506 rillig error(276, op == REAL ? "real" : "imag", 1783 1.506 rillig type_name(ln->tn_type)); 1784 1.506 rillig return NULL; 1785 1.1 cgd } 1786 1.536 rillig 1787 1.565 rillig tnode_t *ntn = build_op(op, sys, gettyp(t), ln, NULL); 1788 1.506 rillig ntn->tn_lvalue = true; 1789 1.506 rillig return ntn; 1790 1.1 cgd } 1791 1.1 cgd 1792 1.331 rillig static bool 1793 1.664 rillig is_confusing_precedence(op_t op, const tnode_t *operand, op_t *cop) 1794 1.331 rillig { 1795 1.664 rillig if (operand->tn_parenthesized) 1796 1.664 rillig return false; 1797 1.664 rillig op_t oop = operand->tn_op; 1798 1.336 rillig 1799 1.506 rillig if (op == SHL || op == SHR) { 1800 1.664 rillig if (oop == PLUS || oop == MINUS) 1801 1.664 rillig return *cop = oop, true; 1802 1.506 rillig return false; 1803 1.506 rillig } 1804 1.506 rillig 1805 1.506 rillig if (op == LOGOR) { 1806 1.664 rillig if (oop == LOGAND) 1807 1.664 rillig return *cop = oop, true; 1808 1.336 rillig return false; 1809 1.506 rillig } 1810 1.336 rillig 1811 1.506 rillig lint_assert(op == BITAND || op == BITXOR || op == BITOR); 1812 1.664 rillig if (oop != op 1813 1.664 rillig && (oop == PLUS || oop == MINUS || oop == BITAND || oop == BITXOR)) 1814 1.664 rillig return *cop = oop, true; 1815 1.506 rillig return false; 1816 1.336 rillig } 1817 1.336 rillig 1818 1.506 rillig /* 1819 1.506 rillig * Print a warning if the given node has operands which should be 1820 1.506 rillig * parenthesized. 1821 1.506 rillig * 1822 1.506 rillig * XXX Does not work if an operand is a constant expression. Constant 1823 1.506 rillig * expressions are already folded. 1824 1.506 rillig */ 1825 1.506 rillig static void 1826 1.506 rillig check_precedence_confusion(tnode_t *tn) 1827 1.336 rillig { 1828 1.506 rillig tnode_t *ln, *rn; 1829 1.336 rillig 1830 1.506 rillig if (!hflag) 1831 1.506 rillig return; 1832 1.331 rillig 1833 1.506 rillig debug_node(tn); 1834 1.331 rillig 1835 1.506 rillig lint_assert(is_binary(tn)); 1836 1.612 rillig for (ln = tn->u.ops.left; ln->tn_op == CVT; ln = ln->u.ops.left) 1837 1.506 rillig continue; 1838 1.612 rillig for (rn = tn->u.ops.right; rn->tn_op == CVT; rn = rn->u.ops.left) 1839 1.506 rillig continue; 1840 1.331 rillig 1841 1.663 rillig op_t cop; 1842 1.664 rillig if (is_confusing_precedence(tn->tn_op, ln, &cop) || 1843 1.664 rillig is_confusing_precedence(tn->tn_op, rn, &cop)) { 1844 1.663 rillig /* possible precedence confusion between '%s' and '%s' */ 1845 1.663 rillig warning(169, op_name(tn->tn_op), op_name(cop)); 1846 1.506 rillig } 1847 1.331 rillig } 1848 1.331 rillig 1849 1.506 rillig static tnode_t * 1850 1.589 rillig fold_constant_compare_zero(tnode_t *tn) 1851 1.384 rillig { 1852 1.384 rillig 1853 1.536 rillig val_t *v = xcalloc(1, sizeof(*v)); 1854 1.506 rillig v->v_tspec = tn->tn_type->t_tspec; 1855 1.506 rillig lint_assert(v->v_tspec == INT || (Tflag && v->v_tspec == BOOL)); 1856 1.384 rillig 1857 1.581 rillig lint_assert(has_operands(tn)); 1858 1.612 rillig bool l = constant_is_nonzero(tn->u.ops.left); 1859 1.612 rillig bool r = is_binary(tn) && constant_is_nonzero(tn->u.ops.right); 1860 1.336 rillig 1861 1.506 rillig switch (tn->tn_op) { 1862 1.506 rillig case NOT: 1863 1.544 rillig v->u.integer = !l ? 1 : 0; 1864 1.506 rillig break; 1865 1.506 rillig case LOGAND: 1866 1.544 rillig v->u.integer = l && r ? 1 : 0; 1867 1.506 rillig break; 1868 1.506 rillig case LOGOR: 1869 1.544 rillig v->u.integer = l || r ? 1 : 0; 1870 1.506 rillig break; 1871 1.506 rillig default: 1872 1.680 rillig lint_assert(false); 1873 1.506 rillig } 1874 1.336 rillig 1875 1.506 rillig return build_constant(tn->tn_type, v); 1876 1.331 rillig } 1877 1.331 rillig 1878 1.527 rillig static long double 1879 1.527 rillig floating_error_value(tspec_t t, long double lv) 1880 1.384 rillig { 1881 1.509 rillig if (t == FLOAT) 1882 1.506 rillig return lv < 0 ? -FLT_MAX : FLT_MAX; 1883 1.509 rillig if (t == DOUBLE) 1884 1.506 rillig return lv < 0 ? -DBL_MAX : DBL_MAX; 1885 1.512 rillig /* 1886 1.586 rillig * When NetBSD is cross-built in MKLINT=yes mode on x86_64 for sparc64, 1887 1.586 rillig * tools/lint checks this code while building usr.bin/xlint. In that 1888 1.586 rillig * situation, lint uses the preprocessor for sparc64, in which the type 1889 1.586 rillig * 'long double' is IEEE-754-binary128, affecting the macro LDBL_MAX 1890 1.586 rillig * below. The type 'long double', as well as the strtold 1891 1.513 rillig * implementation, comes from the host platform x86_64 though, where 1892 1.513 rillig * 'long double' consumes 128 bits as well but only uses 80 of them. 1893 1.513 rillig * The exponent range of the two 'long double' types is the same, but 1894 1.513 rillig * the maximum finite value differs due to the extended precision on 1895 1.513 rillig * sparc64. 1896 1.512 rillig * 1897 1.586 rillig * To properly handle the data types of the target platform, lint would 1898 1.586 rillig * have to implement the floating-point types in a platform-independent 1899 1.586 rillig * way, which is not worth the effort, given how few programs 1900 1.586 rillig * practically use 'long double'. 1901 1.512 rillig */ 1902 1.512 rillig /* LINTED 248: floating-point constant out of range */ 1903 1.527 rillig long double max = LDBL_MAX; 1904 1.512 rillig return lv < 0 ? -max : max; 1905 1.506 rillig } 1906 1.384 rillig 1907 1.536 rillig static bool 1908 1.536 rillig is_floating_overflow(tspec_t t, long double val) 1909 1.536 rillig { 1910 1.536 rillig if (fpe != 0 || isfinite(val) == 0) 1911 1.536 rillig return true; 1912 1.536 rillig if (t == FLOAT && (val > FLT_MAX || val < -FLT_MAX)) 1913 1.536 rillig return true; 1914 1.536 rillig if (t == DOUBLE && (val > DBL_MAX || val < -DBL_MAX)) 1915 1.536 rillig return true; 1916 1.536 rillig return false; 1917 1.536 rillig } 1918 1.536 rillig 1919 1.506 rillig static tnode_t * 1920 1.589 rillig fold_constant_floating(tnode_t *tn) 1921 1.331 rillig { 1922 1.336 rillig 1923 1.506 rillig fpe = 0; 1924 1.536 rillig 1925 1.536 rillig tspec_t t = tn->tn_type->t_tspec; 1926 1.536 rillig 1927 1.536 rillig val_t *v = xcalloc(1, sizeof(*v)); 1928 1.536 rillig v->v_tspec = t; 1929 1.384 rillig 1930 1.506 rillig lint_assert(is_floating(t)); 1931 1.581 rillig lint_assert(has_operands(tn)); 1932 1.612 rillig lint_assert(t == tn->u.ops.left->tn_type->t_tspec); 1933 1.612 rillig lint_assert(!is_binary(tn) || t == tn->u.ops.right->tn_type->t_tspec); 1934 1.331 rillig 1935 1.612 rillig long double lv = tn->u.ops.left->u.value.u.floating; 1936 1.612 rillig long double rv = is_binary(tn) ? tn->u.ops.right->u.value.u.floating 1937 1.612 rillig : 0.0; 1938 1.1 cgd 1939 1.506 rillig switch (tn->tn_op) { 1940 1.506 rillig case UPLUS: 1941 1.544 rillig v->u.floating = lv; 1942 1.369 rillig break; 1943 1.506 rillig case UMINUS: 1944 1.544 rillig v->u.floating = -lv; 1945 1.369 rillig break; 1946 1.506 rillig case MULT: 1947 1.544 rillig v->u.floating = lv * rv; 1948 1.369 rillig break; 1949 1.506 rillig case DIV: 1950 1.506 rillig if (rv == 0.0) { 1951 1.506 rillig /* division by 0 */ 1952 1.506 rillig error(139); 1953 1.544 rillig v->u.floating = floating_error_value(t, lv); 1954 1.506 rillig } else { 1955 1.544 rillig v->u.floating = lv / rv; 1956 1.1 cgd } 1957 1.369 rillig break; 1958 1.506 rillig case PLUS: 1959 1.544 rillig v->u.floating = lv + rv; 1960 1.369 rillig break; 1961 1.506 rillig case MINUS: 1962 1.544 rillig v->u.floating = lv - rv; 1963 1.369 rillig break; 1964 1.506 rillig case LT: 1965 1.544 rillig v->u.integer = lv < rv ? 1 : 0; 1966 1.369 rillig break; 1967 1.506 rillig case LE: 1968 1.544 rillig v->u.integer = lv <= rv ? 1 : 0; 1969 1.369 rillig break; 1970 1.506 rillig case GE: 1971 1.544 rillig v->u.integer = lv >= rv ? 1 : 0; 1972 1.369 rillig break; 1973 1.506 rillig case GT: 1974 1.544 rillig v->u.integer = lv > rv ? 1 : 0; 1975 1.1 cgd break; 1976 1.506 rillig case EQ: 1977 1.544 rillig v->u.integer = lv == rv ? 1 : 0; 1978 1.1 cgd break; 1979 1.506 rillig case NE: 1980 1.544 rillig v->u.integer = lv != rv ? 1 : 0; 1981 1.1 cgd break; 1982 1.1 cgd default: 1983 1.680 rillig lint_assert(false); 1984 1.506 rillig } 1985 1.506 rillig 1986 1.564 rillig // XXX: Must not access u.floating after setting u.integer. 1987 1.544 rillig lint_assert(fpe != 0 || isnan(v->u.floating) == 0); 1988 1.508 rillig if (is_complex(v->v_tspec)) { 1989 1.508 rillig /* 1990 1.508 rillig * Don't warn, as lint doesn't model the imaginary part of 1991 1.508 rillig * complex numbers. 1992 1.508 rillig */ 1993 1.508 rillig fpe = 0; 1994 1.544 rillig } else if (is_floating_overflow(t, v->u.floating)) { 1995 1.556 rillig /* operator '%s' produces floating point overflow */ 1996 1.506 rillig warning(142, op_name(tn->tn_op)); 1997 1.544 rillig v->u.floating = floating_error_value(t, v->u.floating); 1998 1.506 rillig fpe = 0; 1999 1.1 cgd } 2000 1.506 rillig 2001 1.506 rillig return build_constant(tn->tn_type, v); 2002 1.369 rillig } 2003 1.369 rillig 2004 1.579 rillig static void 2005 1.579 rillig use(const tnode_t *tn) 2006 1.579 rillig { 2007 1.579 rillig if (tn == NULL) 2008 1.579 rillig return; 2009 1.579 rillig switch (tn->tn_op) { 2010 1.579 rillig case NAME: 2011 1.612 rillig mark_as_used(tn->u.sym, false /* XXX */, false /* XXX */); 2012 1.579 rillig break; 2013 1.579 rillig case CON: 2014 1.579 rillig case STRING: 2015 1.579 rillig break; 2016 1.634 rillig case CALL:; 2017 1.612 rillig const function_call *call = tn->u.call; 2018 1.625 rillig for (size_t i = 0, n = call->args_len; i < n; i++) 2019 1.625 rillig use(call->args[i]); 2020 1.603 rillig break; 2021 1.579 rillig default: 2022 1.581 rillig lint_assert(has_operands(tn)); 2023 1.612 rillig use(tn->u.ops.left); 2024 1.603 rillig if (is_binary(tn)) 2025 1.612 rillig use(tn->u.ops.right); 2026 1.579 rillig } 2027 1.579 rillig } 2028 1.579 rillig 2029 1.369 rillig /* 2030 1.506 rillig * Create a tree node for a binary operator and its two operands. Also called 2031 1.506 rillig * for unary operators; in that case rn is NULL. 2032 1.506 rillig * 2033 1.506 rillig * Function calls, sizeof and casts are handled elsewhere. 2034 1.369 rillig */ 2035 1.506 rillig tnode_t * 2036 1.506 rillig build_binary(tnode_t *ln, op_t op, bool sys, tnode_t *rn) 2037 1.369 rillig { 2038 1.536 rillig const mod_t *mp = &modtab[op]; 2039 1.369 rillig 2040 1.506 rillig /* If there was an error in one of the operands, return. */ 2041 1.506 rillig if (ln == NULL || (mp->m_binary && rn == NULL)) 2042 1.506 rillig return NULL; 2043 1.369 rillig 2044 1.506 rillig if (mp->m_value_context || mp->m_compares_with_zero) 2045 1.506 rillig ln = cconv(ln); 2046 1.506 rillig if (mp->m_binary && op != ARROW && op != POINT) 2047 1.506 rillig rn = cconv(rn); 2048 1.369 rillig 2049 1.506 rillig if (mp->m_comparison) 2050 1.506 rillig check_integer_comparison(op, ln, rn); 2051 1.369 rillig 2052 1.506 rillig if (mp->m_value_context || mp->m_compares_with_zero) 2053 1.506 rillig ln = promote(op, false, ln); 2054 1.506 rillig if (mp->m_binary && op != ARROW && op != POINT && 2055 1.589 rillig op != ASSIGN && op != RETURN && op != INIT) 2056 1.506 rillig rn = promote(op, false, rn); 2057 1.369 rillig 2058 1.506 rillig if (mp->m_warn_if_left_unsigned_in_c90 && 2059 1.612 rillig ln->tn_op == CON && ln->u.value.v_unsigned_since_c90) { 2060 1.578 rillig /* C90 treats constant as unsigned, op '%s' */ 2061 1.560 rillig warning(218, op_name(op)); 2062 1.612 rillig ln->u.value.v_unsigned_since_c90 = false; 2063 1.506 rillig } 2064 1.506 rillig if (mp->m_warn_if_right_unsigned_in_c90 && 2065 1.612 rillig rn->tn_op == CON && rn->u.value.v_unsigned_since_c90) { 2066 1.578 rillig /* C90 treats constant as unsigned, op '%s' */ 2067 1.560 rillig warning(218, op_name(op)); 2068 1.612 rillig rn->u.value.v_unsigned_since_c90 = false; 2069 1.506 rillig } 2070 1.369 rillig 2071 1.506 rillig if (mp->m_balance_operands || (!allow_c90 && (op == SHL || op == SHR))) 2072 1.506 rillig balance(op, &ln, &rn); 2073 1.369 rillig 2074 1.683 rillig if (!typeok(op, NULL, 0, ln, rn)) 2075 1.506 rillig return NULL; 2076 1.369 rillig 2077 1.536 rillig tnode_t *ntn; 2078 1.506 rillig switch (op) { 2079 1.506 rillig case POINT: 2080 1.506 rillig case ARROW: 2081 1.506 rillig ntn = build_struct_access(op, sys, ln, rn); 2082 1.506 rillig break; 2083 1.506 rillig case INCAFT: 2084 1.506 rillig case DECAFT: 2085 1.506 rillig case INCBEF: 2086 1.506 rillig case DECBEF: 2087 1.506 rillig ntn = build_prepost_incdec(op, sys, ln); 2088 1.506 rillig break; 2089 1.506 rillig case ADDR: 2090 1.673 rillig ntn = build_address(sys, ln); 2091 1.506 rillig break; 2092 1.506 rillig case INDIR: 2093 1.565 rillig ntn = build_op(INDIR, sys, ln->tn_type->t_subt, ln, NULL); 2094 1.506 rillig break; 2095 1.506 rillig case PLUS: 2096 1.506 rillig case MINUS: 2097 1.506 rillig ntn = build_plus_minus(op, sys, ln, rn); 2098 1.506 rillig break; 2099 1.506 rillig case SHL: 2100 1.506 rillig case SHR: 2101 1.506 rillig ntn = build_bit_shift(op, sys, ln, rn); 2102 1.506 rillig break; 2103 1.506 rillig case COLON: 2104 1.506 rillig ntn = build_colon(sys, ln, rn); 2105 1.506 rillig break; 2106 1.506 rillig case ASSIGN: 2107 1.506 rillig case MULASS: 2108 1.506 rillig case DIVASS: 2109 1.506 rillig case MODASS: 2110 1.506 rillig case ADDASS: 2111 1.506 rillig case SUBASS: 2112 1.506 rillig case SHLASS: 2113 1.506 rillig case SHRASS: 2114 1.506 rillig case ANDASS: 2115 1.506 rillig case XORASS: 2116 1.506 rillig case ORASS: 2117 1.506 rillig case RETURN: 2118 1.506 rillig case INIT: 2119 1.506 rillig ntn = build_assignment(op, sys, ln, rn); 2120 1.506 rillig break; 2121 1.506 rillig case COMMA: 2122 1.661 rillig /* comma operator with types '%s' and '%s' */ 2123 1.661 rillig query_message(12, 2124 1.690 rillig expr_type_name(ln), expr_type_name(rn)); 2125 1.528 rillig /* FALLTHROUGH */ 2126 1.506 rillig case QUEST: 2127 1.565 rillig ntn = build_op(op, sys, rn->tn_type, ln, rn); 2128 1.506 rillig break; 2129 1.506 rillig case REAL: 2130 1.506 rillig case IMAG: 2131 1.506 rillig ntn = build_real_imag(op, sys, ln); 2132 1.506 rillig break; 2133 1.506 rillig default: 2134 1.536 rillig lint_assert(mp->m_binary == (rn != NULL)); 2135 1.682 rillig if ((op == NOT || op == LOGAND || op == LOGOR) 2136 1.682 rillig && ln->tn_op == ASSIGN && ln->u.ops.right->tn_op == CON) { 2137 1.682 rillig /* constant assignment of type '%s' in operand ... */ 2138 1.690 rillig warning(382, expr_type_name(ln), op_name(op), 2139 1.682 rillig is_nonzero_val(&ln->u.ops.right->u.value) 2140 1.682 rillig ? "true" : "false"); 2141 1.682 rillig } 2142 1.682 rillig if ((op == LOGAND || op == LOGOR) 2143 1.682 rillig && rn->tn_op == ASSIGN && rn->u.ops.right->tn_op == CON) { 2144 1.682 rillig /* constant assignment of type '%s' in operand ... */ 2145 1.690 rillig warning(382, expr_type_name(rn), op_name(op), 2146 1.682 rillig is_nonzero_val(&rn->u.ops.right->u.value) 2147 1.682 rillig ? "true" : "false"); 2148 1.682 rillig } 2149 1.536 rillig type_t *rettp = mp->m_returns_bool 2150 1.506 rillig ? gettyp(Tflag ? BOOL : INT) : ln->tn_type; 2151 1.565 rillig ntn = build_op(op, sys, rettp, ln, rn); 2152 1.506 rillig break; 2153 1.506 rillig } 2154 1.1 cgd 2155 1.506 rillig if (ntn == NULL) 2156 1.506 rillig return NULL; 2157 1.1 cgd 2158 1.506 rillig if (mp->m_possible_precedence_confusion) 2159 1.506 rillig check_precedence_confusion(ntn); 2160 1.1 cgd 2161 1.589 rillig if (mp->m_fold_constant_operands && ln->tn_op == CON) { 2162 1.589 rillig if (!mp->m_binary || rn->tn_op == CON) { 2163 1.589 rillig if (mp->m_compares_with_zero) 2164 1.589 rillig ntn = fold_constant_compare_zero(ntn); 2165 1.589 rillig else if (is_floating(ntn->tn_type->t_tspec)) 2166 1.589 rillig ntn = fold_constant_floating(ntn); 2167 1.589 rillig else 2168 1.589 rillig ntn = fold_constant_integer(ntn); 2169 1.589 rillig } else if (op == QUEST) { 2170 1.581 rillig lint_assert(has_operands(rn)); 2171 1.612 rillig use(ln->u.value.u.integer != 0 2172 1.612 rillig ? rn->u.ops.right : rn->u.ops.left); 2173 1.612 rillig ntn = ln->u.value.u.integer != 0 2174 1.612 rillig ? rn->u.ops.left : rn->u.ops.right; 2175 1.506 rillig } 2176 1.1 cgd } 2177 1.1 cgd 2178 1.506 rillig return ntn; 2179 1.506 rillig } 2180 1.506 rillig 2181 1.506 rillig tnode_t * 2182 1.506 rillig build_unary(op_t op, bool sys, tnode_t *tn) 2183 1.506 rillig { 2184 1.506 rillig return build_binary(tn, op, sys, NULL); 2185 1.1 cgd } 2186 1.1 cgd 2187 1.536 rillig static bool 2188 1.536 rillig are_members_compatible(const sym_t *a, const sym_t *b) 2189 1.536 rillig { 2190 1.536 rillig if (a->u.s_member.sm_offset_in_bits != b->u.s_member.sm_offset_in_bits) 2191 1.536 rillig return false; 2192 1.536 rillig 2193 1.536 rillig const type_t *atp = a->s_type; 2194 1.536 rillig const type_t *btp = b->s_type; 2195 1.536 rillig bool w = false; 2196 1.536 rillig if (!types_compatible(atp, btp, false, false, &w) && !w) 2197 1.536 rillig return false; 2198 1.536 rillig if (a->s_bitfield != b->s_bitfield) 2199 1.536 rillig return false; 2200 1.536 rillig if (a->s_bitfield) { 2201 1.536 rillig if (atp->t_bit_field_width != btp->t_bit_field_width) 2202 1.536 rillig return false; 2203 1.536 rillig if (atp->t_bit_field_offset != btp->t_bit_field_offset) 2204 1.536 rillig return false; 2205 1.536 rillig } 2206 1.536 rillig return true; 2207 1.536 rillig } 2208 1.536 rillig 2209 1.1 cgd /* 2210 1.506 rillig * Return whether all struct/union members with the same name have the same 2211 1.506 rillig * type and offset. 2212 1.1 cgd */ 2213 1.506 rillig static bool 2214 1.506 rillig all_members_compatible(const sym_t *msym) 2215 1.1 cgd { 2216 1.506 rillig for (const sym_t *csym = msym; 2217 1.584 rillig csym != NULL; csym = csym->s_symtab_next) { 2218 1.506 rillig if (!is_member(csym)) 2219 1.506 rillig continue; 2220 1.506 rillig if (strcmp(msym->s_name, csym->s_name) != 0) 2221 1.506 rillig continue; 2222 1.506 rillig 2223 1.506 rillig for (const sym_t *sym = csym->s_symtab_next; 2224 1.584 rillig sym != NULL; sym = sym->s_symtab_next) { 2225 1.536 rillig if (is_member(sym) 2226 1.536 rillig && strcmp(csym->s_name, sym->s_name) == 0 2227 1.536 rillig && !are_members_compatible(csym, sym)) 2228 1.506 rillig return false; 2229 1.1 cgd } 2230 1.1 cgd } 2231 1.506 rillig return true; 2232 1.1 cgd } 2233 1.1 cgd 2234 1.539 rillig sym_t * 2235 1.573 rillig find_member(const struct_or_union *sou, const char *name) 2236 1.537 rillig { 2237 1.573 rillig for (sym_t *mem = sou->sou_first_member; 2238 1.584 rillig mem != NULL; mem = mem->s_next) { 2239 1.572 rillig lint_assert(is_member(mem)); 2240 1.573 rillig lint_assert(mem->u.s_member.sm_containing_type == sou); 2241 1.537 rillig if (strcmp(mem->s_name, name) == 0) 2242 1.537 rillig return mem; 2243 1.537 rillig } 2244 1.573 rillig 2245 1.573 rillig for (sym_t *mem = sou->sou_first_member; 2246 1.584 rillig mem != NULL; mem = mem->s_next) { 2247 1.573 rillig if (is_struct_or_union(mem->s_type->t_tspec) 2248 1.573 rillig && mem->s_name == unnamed) { 2249 1.573 rillig sym_t *nested_mem = 2250 1.611 rillig find_member(mem->s_type->u.sou, name); 2251 1.537 rillig if (nested_mem != NULL) 2252 1.537 rillig return nested_mem; 2253 1.537 rillig } 2254 1.537 rillig } 2255 1.537 rillig return NULL; 2256 1.537 rillig } 2257 1.537 rillig 2258 1.506 rillig /* 2259 1.570 rillig * Remove the member if it was unknown until now, which means 2260 1.570 rillig * that no defined struct or union has a member with the same name. 2261 1.570 rillig */ 2262 1.570 rillig static void 2263 1.570 rillig remove_unknown_member(tnode_t *tn, sym_t *msym) 2264 1.570 rillig { 2265 1.570 rillig /* type '%s' does not have member '%s' */ 2266 1.570 rillig error(101, type_name(tn->tn_type), msym->s_name); 2267 1.629 rillig symtab_remove_forever(msym); 2268 1.597 rillig msym->s_kind = SK_MEMBER; 2269 1.570 rillig msym->s_scl = STRUCT_MEMBER; 2270 1.570 rillig 2271 1.570 rillig struct_or_union *sou = expr_zero_alloc(sizeof(*sou), 2272 1.570 rillig "struct_or_union"); 2273 1.570 rillig sou->sou_tag = expr_zero_alloc(sizeof(*sou->sou_tag), "sym"); 2274 1.570 rillig sou->sou_tag->s_name = unnamed; 2275 1.570 rillig 2276 1.570 rillig msym->u.s_member.sm_containing_type = sou; 2277 1.570 rillig /* 2278 1.586 rillig * The member sm_offset_in_bits is not needed here since this symbol 2279 1.586 rillig * can only be used for error reporting. 2280 1.570 rillig */ 2281 1.570 rillig } 2282 1.570 rillig 2283 1.570 rillig /* 2284 1.574 rillig * Returns a symbol which has the same name as 'msym' and is a member of the 2285 1.574 rillig * struct or union specified by 'tn'. 2286 1.506 rillig */ 2287 1.506 rillig static sym_t * 2288 1.506 rillig struct_or_union_member(tnode_t *tn, op_t op, sym_t *msym) 2289 1.1 cgd { 2290 1.506 rillig 2291 1.537 rillig /* Determine the tag type of which msym is expected to be a member. */ 2292 1.537 rillig const type_t *tp = NULL; 2293 1.536 rillig if (op == POINT && is_struct_or_union(tn->tn_type->t_tspec)) 2294 1.537 rillig tp = tn->tn_type; 2295 1.536 rillig if (op == ARROW && tn->tn_type->t_tspec == PTR 2296 1.536 rillig && is_struct_or_union(tn->tn_type->t_subt->t_tspec)) 2297 1.537 rillig tp = tn->tn_type->t_subt; 2298 1.611 rillig struct_or_union *sou = tp != NULL ? tp->u.sou : NULL; 2299 1.386 rillig 2300 1.543 rillig if (sou != NULL) { 2301 1.573 rillig sym_t *nested_mem = find_member(sou, msym->s_name); 2302 1.537 rillig if (nested_mem != NULL) 2303 1.537 rillig return nested_mem; 2304 1.537 rillig } 2305 1.537 rillig 2306 1.582 rillig if (msym->s_scl == NO_SCL) { 2307 1.571 rillig remove_unknown_member(tn, msym); 2308 1.571 rillig return msym; 2309 1.571 rillig } 2310 1.571 rillig 2311 1.506 rillig bool eq = all_members_compatible(msym); 2312 1.390 christos 2313 1.506 rillig /* 2314 1.586 rillig * Now handle the case in which the left operand refers really to a 2315 1.586 rillig * struct/union, but the right operand is not member of it. 2316 1.506 rillig */ 2317 1.543 rillig if (sou != NULL) { 2318 1.604 rillig if (eq && !allow_c90) 2319 1.681 rillig /* invalid use of member '%s' */ 2320 1.506 rillig warning(102, msym->s_name); 2321 1.604 rillig else 2322 1.681 rillig /* invalid use of member '%s' */ 2323 1.506 rillig error(102, msym->s_name); 2324 1.506 rillig return msym; 2325 1.506 rillig } 2326 1.390 christos 2327 1.506 rillig if (eq) { 2328 1.506 rillig if (op == POINT) { 2329 1.604 rillig if (!allow_c90) 2330 1.506 rillig /* left operand of '.' must be struct ... */ 2331 1.690 rillig warning(103, expr_type_name(tn)); 2332 1.604 rillig else 2333 1.506 rillig /* left operand of '.' must be struct ... */ 2334 1.690 rillig error(103, expr_type_name(tn)); 2335 1.506 rillig } else { 2336 1.604 rillig if (!allow_c90 && tn->tn_type->t_tspec == PTR) 2337 1.506 rillig /* left operand of '->' must be pointer ... */ 2338 1.690 rillig warning(104, expr_type_name(tn)); 2339 1.604 rillig else 2340 1.506 rillig /* left operand of '->' must be pointer ... */ 2341 1.690 rillig error(104, expr_type_name(tn)); 2342 1.506 rillig } 2343 1.506 rillig } else { 2344 1.604 rillig if (!allow_c90) 2345 1.506 rillig /* non-unique member requires struct/union %s */ 2346 1.506 rillig error(105, op == POINT ? "object" : "pointer"); 2347 1.604 rillig else 2348 1.506 rillig /* unacceptable operand of '%s' */ 2349 1.506 rillig error(111, op_name(op)); 2350 1.506 rillig } 2351 1.389 rillig 2352 1.506 rillig return msym; 2353 1.506 rillig } 2354 1.386 rillig 2355 1.506 rillig tnode_t * 2356 1.506 rillig build_member_access(tnode_t *ln, op_t op, bool sys, sbuf_t *member) 2357 1.506 rillig { 2358 1.526 rillig sym_t *msym; 2359 1.386 rillig 2360 1.506 rillig if (ln == NULL) 2361 1.506 rillig return NULL; 2362 1.389 rillig 2363 1.604 rillig if (op == ARROW) 2364 1.506 rillig /* must do this before struct_or_union_member is called */ 2365 1.506 rillig ln = cconv(ln); 2366 1.506 rillig msym = struct_or_union_member(ln, op, getsym(member)); 2367 1.506 rillig return build_binary(ln, op, sys, build_name(msym, false)); 2368 1.386 rillig } 2369 1.386 rillig 2370 1.1 cgd /* 2371 1.506 rillig * Perform class conversions. 2372 1.506 rillig * 2373 1.506 rillig * Arrays of type T are converted into pointers to type T. 2374 1.506 rillig * Functions are converted to pointers to functions. 2375 1.506 rillig * Lvalues are converted to rvalues. 2376 1.506 rillig * 2377 1.506 rillig * C99 6.3 "Conversions" 2378 1.506 rillig * C99 6.3.2 "Other operands" 2379 1.506 rillig * C99 6.3.2.1 "Lvalues, arrays, and function designators" 2380 1.1 cgd */ 2381 1.506 rillig tnode_t * 2382 1.506 rillig cconv(tnode_t *tn) 2383 1.1 cgd { 2384 1.506 rillig if (tn->tn_type->t_tspec == ARRAY) { 2385 1.506 rillig if (!tn->tn_lvalue) { 2386 1.506 rillig /* XXX print correct operator */ 2387 1.506 rillig /* %soperand of '%s' must be lvalue */ 2388 1.506 rillig gnuism(114, "", op_name(ADDR)); 2389 1.506 rillig } 2390 1.565 rillig tn = build_op(ADDR, tn->tn_sys, 2391 1.506 rillig expr_derive_type(tn->tn_type->t_subt, PTR), tn, NULL); 2392 1.506 rillig } 2393 1.1 cgd 2394 1.506 rillig if (tn->tn_type->t_tspec == FUNC) 2395 1.673 rillig tn = build_address(tn->tn_sys, tn); 2396 1.1 cgd 2397 1.506 rillig if (tn->tn_lvalue) { 2398 1.509 rillig type_t *tp = expr_dup_type(tn->tn_type); 2399 1.506 rillig /* C99 6.3.2.1p2 sentence 2 says to remove the qualifiers. */ 2400 1.506 rillig tp->t_const = tp->t_volatile = false; 2401 1.565 rillig tn = build_op(LOAD, tn->tn_sys, tp, tn, NULL); 2402 1.1 cgd } 2403 1.1 cgd 2404 1.506 rillig return tn; 2405 1.1 cgd } 2406 1.1 cgd 2407 1.506 rillig const tnode_t * 2408 1.506 rillig before_conversion(const tnode_t *tn) 2409 1.496 rillig { 2410 1.506 rillig while (tn->tn_op == CVT && !tn->tn_cast) 2411 1.612 rillig tn = tn->u.ops.left; 2412 1.506 rillig return tn; 2413 1.496 rillig } 2414 1.496 rillig 2415 1.496 rillig /* 2416 1.578 rillig * Most errors required by C90 are reported in struct_or_union_member(). 2417 1.506 rillig * Here we only check for totally wrong things. 2418 1.496 rillig */ 2419 1.506 rillig static bool 2420 1.506 rillig typeok_point(const tnode_t *ln, const type_t *ltp, tspec_t lt) 2421 1.496 rillig { 2422 1.506 rillig if (is_struct_or_union(lt)) 2423 1.506 rillig return true; 2424 1.496 rillig 2425 1.506 rillig if (lt == FUNC || lt == VOID || ltp->t_bitfield) 2426 1.506 rillig goto wrong; 2427 1.496 rillig 2428 1.506 rillig /* 2429 1.506 rillig * Some C dialects from before C90 tolerated any lvalue on the 2430 1.586 rillig * left-hand side of the '.' operator, allowing things like 'char 2431 1.586 rillig * st[100]; st.st_mtime', assuming that the member 'st_mtime' only 2432 1.586 rillig * occurred in a single struct; see typeok_arrow. 2433 1.506 rillig */ 2434 1.506 rillig if (ln->tn_lvalue) 2435 1.506 rillig return true; 2436 1.1 cgd 2437 1.506 rillig wrong: 2438 1.506 rillig /* With allow_c90 we already got an error */ 2439 1.506 rillig if (!allow_c90) 2440 1.506 rillig /* unacceptable operand of '%s' */ 2441 1.506 rillig error(111, op_name(POINT)); 2442 1.1 cgd 2443 1.506 rillig return false; 2444 1.506 rillig } 2445 1.1 cgd 2446 1.506 rillig static bool 2447 1.506 rillig typeok_arrow(tspec_t lt) 2448 1.506 rillig { 2449 1.496 rillig /* 2450 1.506 rillig * C1978 Appendix A 14.1 says: <quote>In fact, any lvalue is allowed 2451 1.586 rillig * before '.', and that lvalue is then assumed to have the form of the 2452 1.586 rillig * structure of which the name of the right is a member. [...] Such 2453 1.586 rillig * constructions are non-portable.</quote> 2454 1.496 rillig */ 2455 1.506 rillig if (lt == PTR || (!allow_c90 && is_integer(lt))) 2456 1.506 rillig return true; 2457 1.506 rillig 2458 1.506 rillig /* With allow_c90 we already got an error */ 2459 1.506 rillig if (!allow_c90) 2460 1.506 rillig /* unacceptable operand of '%s' */ 2461 1.506 rillig error(111, op_name(ARROW)); 2462 1.506 rillig return false; 2463 1.1 cgd } 2464 1.1 cgd 2465 1.506 rillig static bool 2466 1.506 rillig typeok_incdec(op_t op, const tnode_t *tn, const type_t *tp) 2467 1.488 rillig { 2468 1.506 rillig /* operand has scalar type (checked in typeok) */ 2469 1.506 rillig if (!tn->tn_lvalue) { 2470 1.506 rillig if (tn->tn_op == CVT && tn->tn_cast && 2471 1.612 rillig tn->u.ops.left->tn_op == LOAD) 2472 1.506 rillig /* a cast does not yield an lvalue */ 2473 1.506 rillig error(163); 2474 1.506 rillig /* %soperand of '%s' must be lvalue */ 2475 1.506 rillig error(114, "", op_name(op)); 2476 1.506 rillig return false; 2477 1.509 rillig } 2478 1.604 rillig if (tp->t_const && allow_c90) 2479 1.509 rillig /* %soperand of '%s' must be modifiable lvalue */ 2480 1.509 rillig warning(115, "", op_name(op)); 2481 1.506 rillig return true; 2482 1.488 rillig } 2483 1.488 rillig 2484 1.506 rillig static bool 2485 1.560 rillig typeok_address(op_t op, const tnode_t *tn, const type_t *tp, tspec_t t) 2486 1.497 rillig { 2487 1.506 rillig if (t == ARRAY || t == FUNC) { 2488 1.506 rillig /* ok, a warning comes later (in build_address()) */ 2489 1.506 rillig } else if (!tn->tn_lvalue) { 2490 1.506 rillig if (tn->tn_op == CVT && tn->tn_cast && 2491 1.612 rillig tn->u.ops.left->tn_op == LOAD) 2492 1.506 rillig /* a cast does not yield an lvalue */ 2493 1.506 rillig error(163); 2494 1.506 rillig /* %soperand of '%s' must be lvalue */ 2495 1.560 rillig error(114, "", op_name(op)); 2496 1.506 rillig return false; 2497 1.506 rillig } else if (is_scalar(t)) { 2498 1.506 rillig if (tp->t_bitfield) { 2499 1.506 rillig /* cannot take address of bit-field */ 2500 1.506 rillig error(112); 2501 1.506 rillig return false; 2502 1.506 rillig } 2503 1.506 rillig } else if (t != STRUCT && t != UNION) { 2504 1.506 rillig /* unacceptable operand of '%s' */ 2505 1.560 rillig error(111, op_name(op)); 2506 1.506 rillig return false; 2507 1.506 rillig } 2508 1.612 rillig if (tn->tn_op == NAME && tn->u.sym->s_register) { 2509 1.506 rillig /* cannot take address of register '%s' */ 2510 1.612 rillig error(113, tn->u.sym->s_name); 2511 1.506 rillig return false; 2512 1.506 rillig } 2513 1.506 rillig return true; 2514 1.497 rillig } 2515 1.497 rillig 2516 1.506 rillig static bool 2517 1.506 rillig typeok_indir(const type_t *tp, tspec_t t) 2518 1.497 rillig { 2519 1.497 rillig 2520 1.506 rillig if (t != PTR) { 2521 1.506 rillig /* cannot dereference non-pointer type '%s' */ 2522 1.506 rillig error(96, type_name(tp)); 2523 1.506 rillig return false; 2524 1.506 rillig } 2525 1.506 rillig return true; 2526 1.497 rillig } 2527 1.497 rillig 2528 1.1 cgd static void 2529 1.506 rillig warn_incompatible_types(op_t op, 2530 1.506 rillig const type_t *ltp, tspec_t lt, 2531 1.506 rillig const type_t *rtp, tspec_t rt) 2532 1.1 cgd { 2533 1.560 rillig bool binary = modtab[op].m_binary; 2534 1.1 cgd 2535 1.560 rillig if (lt == VOID || (binary && rt == VOID)) { 2536 1.681 rillig /* void type invalid in expression */ 2537 1.506 rillig error(109); 2538 1.604 rillig } else if (op == ASSIGN) 2539 1.506 rillig /* cannot assign to '%s' from '%s' */ 2540 1.506 rillig error(171, type_name(ltp), type_name(rtp)); 2541 1.604 rillig else if (binary) 2542 1.506 rillig /* operands of '%s' have incompatible types '%s' and '%s' */ 2543 1.560 rillig error(107, op_name(op), type_name(ltp), type_name(rtp)); 2544 1.604 rillig else { 2545 1.524 rillig lint_assert(rt == NO_TSPEC); 2546 1.506 rillig /* operand of '%s' has invalid type '%s' */ 2547 1.560 rillig error(108, op_name(op), type_name(ltp)); 2548 1.506 rillig } 2549 1.1 cgd } 2550 1.1 cgd 2551 1.506 rillig static bool 2552 1.506 rillig typeok_plus(op_t op, 2553 1.506 rillig const type_t *ltp, tspec_t lt, 2554 1.506 rillig const type_t *rtp, tspec_t rt) 2555 1.471 rillig { 2556 1.506 rillig /* operands have scalar types (checked in typeok) */ 2557 1.506 rillig if ((lt == PTR && !is_integer(rt)) || (rt == PTR && !is_integer(lt))) { 2558 1.506 rillig warn_incompatible_types(op, ltp, lt, rtp, rt); 2559 1.506 rillig return false; 2560 1.506 rillig } 2561 1.506 rillig return true; 2562 1.471 rillig } 2563 1.471 rillig 2564 1.506 rillig static bool 2565 1.506 rillig typeok_minus(op_t op, 2566 1.506 rillig const type_t *ltp, tspec_t lt, 2567 1.506 rillig const type_t *rtp, tspec_t rt) 2568 1.1 cgd { 2569 1.506 rillig /* operands have scalar types (checked in typeok) */ 2570 1.506 rillig if ((lt == PTR && rt != PTR && !is_integer(rt)) || 2571 1.506 rillig (lt != PTR && rt == PTR)) { 2572 1.506 rillig warn_incompatible_types(op, ltp, lt, rtp, rt); 2573 1.506 rillig return false; 2574 1.506 rillig } 2575 1.509 rillig if (lt == PTR && rt == PTR && 2576 1.509 rillig !types_compatible(ltp->t_subt, rtp->t_subt, true, false, NULL)) { 2577 1.681 rillig /* invalid pointer subtraction */ 2578 1.509 rillig error(116); 2579 1.1 cgd } 2580 1.506 rillig return true; 2581 1.1 cgd } 2582 1.1 cgd 2583 1.506 rillig static void 2584 1.688 rillig typeok_shr(const tnode_t *ln, tspec_t lt, 2585 1.506 rillig const tnode_t *rn, tspec_t rt) 2586 1.344 rillig { 2587 1.536 rillig tspec_t olt = before_conversion(ln)->tn_type->t_tspec; 2588 1.536 rillig tspec_t ort = before_conversion(rn)->tn_type->t_tspec; 2589 1.367 rillig 2590 1.689 rillig if (is_uinteger(olt)) 2591 1.689 rillig return; 2592 1.689 rillig 2593 1.689 rillig if (pflag) { 2594 1.506 rillig integer_constraints lc = ic_expr(ln); 2595 1.667 rillig if (lc.bclr >> 63 != 0) 2596 1.506 rillig return; 2597 1.367 rillig 2598 1.604 rillig if (ln->tn_op != CON) 2599 1.690 rillig /* bitwise '%s' on signed '%s' possibly nonportable */ 2600 1.690 rillig warning(117, ">>", expr_type_name(ln)); 2601 1.612 rillig else if (ln->u.value.u.integer < 0) 2602 1.690 rillig /* bitwise '%s' on signed '%s' nonportable */ 2603 1.690 rillig warning(120, ">>", expr_type_name(ln)); 2604 1.689 rillig return; 2605 1.364 rillig } 2606 1.689 rillig 2607 1.689 rillig /* The left operand would become unsigned in traditional C. */ 2608 1.689 rillig if (allow_trad && allow_c90 && hflag && is_uinteger(ort) 2609 1.689 rillig && !(ln->tn_op == CON && ln->u.value.u.integer >= 0)) 2610 1.689 rillig /* '%s' %s '%s' differs between traditional C and C90 */ 2611 1.689 rillig warning(118, tspec_name(lt), ">>", tspec_name(rt)); 2612 1.689 rillig 2613 1.689 rillig /* 2614 1.689 rillig * In traditional C, the left operand would be extended 2615 1.689 rillig * (possibly sign-extended) and then shifted. 2616 1.689 rillig */ 2617 1.689 rillig if (allow_trad && allow_c90 && hflag && !is_uinteger(ort) 2618 1.689 rillig && portable_rank_cmp(lt, rt) < 0 2619 1.689 rillig && !(ln->tn_op == CON && ln->u.value.u.integer >= 0)) 2620 1.689 rillig /* '%s' %s '%s' differs between traditional C and C90 */ 2621 1.689 rillig warning(118, tspec_name(lt), ">>", tspec_name(rt)); 2622 1.506 rillig } 2623 1.364 rillig 2624 1.694 rillig // C90 does not mention signed shift-left. Later standards mention that case 2625 1.694 rillig // but leave open whether 'uint8_t << 24' is supposed to have an unsigned or a 2626 1.694 rillig // signed result type. It depends on whether E1 is interpreted to be the left 2627 1.694 rillig // operand's type before or after integral promotions. 2628 1.506 rillig static void 2629 1.693 rillig typeok_shl_signed_to_msb(const tnode_t *ln, const tnode_t *rn) 2630 1.693 rillig { 2631 1.693 rillig integer_constraints lc = ic_expr(ln); 2632 1.693 rillig int64_t n; 2633 1.693 rillig unsigned lw = width_in_bits(ln->tn_type); 2634 1.693 rillig if (!is_uinteger(ln->tn_type->t_tspec) 2635 1.693 rillig && ln->tn_op != CON 2636 1.694 rillig && ((lc.smin == 0 && lc.smax != 0 && lc.smax != INT64_MAX 2637 1.694 rillig && (lc.smax & (lc.smax + 1)) == 0) 2638 1.694 rillig || (lc.smin != INT64_MAX && lc.smax != INT64_MIN 2639 1.694 rillig && lc.smin + 1 == -lc.smax)) 2640 1.693 rillig && rn->tn_op == CON 2641 1.693 rillig && (n = rn->u.value.u.integer, 1 <= n && n <= lw) 2642 1.693 rillig && u64_width((uint64_t)lc.smax - (uint64_t)lc.smin) + n == lw) 2643 1.693 rillig /* bitwise '%s' on signed '%s' possibly nonportable */ 2644 1.693 rillig warning(117, "<<", expr_type_name(ln)); 2645 1.693 rillig } 2646 1.693 rillig 2647 1.693 rillig static void 2648 1.693 rillig typeok_shl(const tnode_t *ln, tspec_t lt, const tnode_t *rn, tspec_t rt) 2649 1.506 rillig { 2650 1.344 rillig /* 2651 1.689 rillig * Traditional C performs the usual arithmetic conversions on the 2652 1.689 rillig * operands, C90 and later don't. 2653 1.688 rillig */ 2654 1.688 rillig if (hflag && allow_trad && allow_c90 && portable_rank_cmp(lt, rt) < 0) 2655 1.688 rillig /* '%s' %s '%s' differs between traditional C and C90 */ 2656 1.688 rillig warning(118, tspec_name(lt), "<<", tspec_name(rt)); 2657 1.693 rillig 2658 1.693 rillig typeok_shl_signed_to_msb(ln, rn); 2659 1.344 rillig } 2660 1.344 rillig 2661 1.1 cgd static void 2662 1.690 rillig typeok_shift(const tnode_t *ln, tspec_t lt, const tnode_t *rn, tspec_t rt) 2663 1.1 cgd { 2664 1.506 rillig if (rn->tn_op != CON) 2665 1.1 cgd return; 2666 1.1 cgd 2667 1.612 rillig if (!is_uinteger(rt) && rn->u.value.u.integer < 0) 2668 1.506 rillig /* negative shift */ 2669 1.506 rillig warning(121); 2670 1.612 rillig else if ((uint64_t)rn->u.value.u.integer == size_in_bits(lt)) 2671 1.506 rillig /* shift amount %u equals bit-size of '%s' */ 2672 1.690 rillig warning(267, 2673 1.690 rillig (unsigned)rn->u.value.u.integer, expr_type_name(ln)); 2674 1.612 rillig else if ((uint64_t)rn->u.value.u.integer > size_in_bits(lt)) { 2675 1.506 rillig /* shift amount %llu is greater than bit-size %llu of '%s' */ 2676 1.612 rillig warning(122, (unsigned long long)rn->u.value.u.integer, 2677 1.506 rillig (unsigned long long)size_in_bits(lt), 2678 1.690 rillig expr_type_name(ln)); 2679 1.364 rillig } 2680 1.1 cgd } 2681 1.1 cgd 2682 1.434 rillig static bool 2683 1.506 rillig is_typeok_eq(const tnode_t *ln, tspec_t lt, const tnode_t *rn, tspec_t rt) 2684 1.434 rillig { 2685 1.506 rillig if (lt == PTR && is_null_pointer(rn)) 2686 1.506 rillig return true; 2687 1.506 rillig if (rt == PTR && is_null_pointer(ln)) 2688 1.444 rillig return true; 2689 1.434 rillig return false; 2690 1.434 rillig } 2691 1.434 rillig 2692 1.1 cgd static void 2693 1.560 rillig warn_incompatible_pointers(op_t op, const type_t *ltp, const type_t *rtp) 2694 1.1 cgd { 2695 1.506 rillig lint_assert(ltp->t_tspec == PTR); 2696 1.506 rillig lint_assert(rtp->t_tspec == PTR); 2697 1.115 rillig 2698 1.509 rillig tspec_t lt = ltp->t_subt->t_tspec; 2699 1.509 rillig tspec_t rt = rtp->t_subt->t_tspec; 2700 1.1 cgd 2701 1.506 rillig if (is_struct_or_union(lt) && is_struct_or_union(rt)) { 2702 1.604 rillig if (op == RETURN) 2703 1.681 rillig /* invalid structure pointer combination */ 2704 1.506 rillig warning(244); 2705 1.604 rillig else { 2706 1.506 rillig /* incompatible structure pointers: '%s' '%s' '%s' */ 2707 1.560 rillig warning(245, type_name(ltp), 2708 1.560 rillig op_name(op), type_name(rtp)); 2709 1.1 cgd } 2710 1.506 rillig } else { 2711 1.604 rillig if (op == RETURN) 2712 1.681 rillig /* invalid combination of '%s' and '%s' */ 2713 1.506 rillig warning(184, type_name(ltp), type_name(rtp)); 2714 1.604 rillig else { 2715 1.681 rillig /* invalid combination of '%s' and '%s', op '%s' */ 2716 1.506 rillig warning(124, 2717 1.560 rillig type_name(ltp), type_name(rtp), op_name(op)); 2718 1.20 lukem } 2719 1.1 cgd } 2720 1.1 cgd } 2721 1.1 cgd 2722 1.1 cgd static void 2723 1.506 rillig check_pointer_comparison(op_t op, const tnode_t *ln, const tnode_t *rn) 2724 1.1 cgd { 2725 1.509 rillig type_t *ltp = ln->tn_type, *rtp = rn->tn_type; 2726 1.509 rillig tspec_t lst = ltp->t_subt->t_tspec, rst = rtp->t_subt->t_tspec; 2727 1.20 lukem 2728 1.506 rillig if (lst == VOID || rst == VOID) { 2729 1.506 rillig /* TODO: C99 behaves like C90 here. */ 2730 1.589 rillig if (!allow_trad && !allow_c99 && 2731 1.506 rillig (lst == FUNC || rst == FUNC)) { 2732 1.509 rillig /* (void *)0 is already handled in typeok() */ 2733 1.509 rillig const char *lsts, *rsts; 2734 1.506 rillig *(lst == FUNC ? &lsts : &rsts) = "function pointer"; 2735 1.506 rillig *(lst == VOID ? &lsts : &rsts) = "'void *'"; 2736 1.578 rillig /* C90 or later forbid comparison of %s with %s */ 2737 1.506 rillig warning(274, lsts, rsts); 2738 1.506 rillig } 2739 1.1 cgd return; 2740 1.506 rillig } 2741 1.506 rillig 2742 1.506 rillig if (!types_compatible(ltp->t_subt, rtp->t_subt, true, false, NULL)) { 2743 1.560 rillig warn_incompatible_pointers(op, ltp, rtp); 2744 1.1 cgd return; 2745 1.506 rillig } 2746 1.1 cgd 2747 1.506 rillig if (lst == FUNC && rst == FUNC) { 2748 1.506 rillig /* TODO: C99 behaves like C90 here, see C99 6.5.8p2. */ 2749 1.589 rillig if (!allow_trad && !allow_c99 && op != EQ && op != NE) 2750 1.578 rillig /* pointers to functions can only be compared ... */ 2751 1.506 rillig warning(125); 2752 1.1 cgd } 2753 1.1 cgd } 2754 1.1 cgd 2755 1.247 rillig static bool 2756 1.506 rillig typeok_compare(op_t op, 2757 1.506 rillig const tnode_t *ln, const type_t *ltp, tspec_t lt, 2758 1.506 rillig const tnode_t *rn, const type_t *rtp, tspec_t rt) 2759 1.462 rillig { 2760 1.506 rillig if (lt == PTR && rt == PTR) { 2761 1.506 rillig check_pointer_comparison(op, ln, rn); 2762 1.506 rillig return true; 2763 1.506 rillig } 2764 1.506 rillig 2765 1.506 rillig if (lt != PTR && rt != PTR) 2766 1.506 rillig return true; 2767 1.506 rillig 2768 1.506 rillig if (!is_integer(lt) && !is_integer(rt)) { 2769 1.506 rillig warn_incompatible_types(op, ltp, lt, rtp, rt); 2770 1.506 rillig return false; 2771 1.506 rillig } 2772 1.462 rillig 2773 1.509 rillig const char *lx = lt == PTR ? "pointer" : "integer"; 2774 1.509 rillig const char *rx = rt == PTR ? "pointer" : "integer"; 2775 1.681 rillig /* invalid combination of %s '%s' and %s '%s', op '%s' */ 2776 1.506 rillig warning(123, lx, type_name(ltp), rx, type_name(rtp), op_name(op)); 2777 1.506 rillig return true; 2778 1.462 rillig } 2779 1.462 rillig 2780 1.462 rillig static bool 2781 1.506 rillig typeok_quest(tspec_t lt, const tnode_t *rn) 2782 1.506 rillig { 2783 1.506 rillig if (!is_scalar(lt)) { 2784 1.557 rillig /* first operand of '?' must have scalar type */ 2785 1.506 rillig error(170); 2786 1.506 rillig return false; 2787 1.506 rillig } 2788 1.506 rillig lint_assert(before_conversion(rn)->tn_op == COLON); 2789 1.506 rillig return true; 2790 1.506 rillig } 2791 1.506 rillig 2792 1.506 rillig static void 2793 1.560 rillig typeok_colon_pointer(const type_t *ltp, const type_t *rtp) 2794 1.461 rillig { 2795 1.506 rillig type_t *lstp = ltp->t_subt; 2796 1.506 rillig type_t *rstp = rtp->t_subt; 2797 1.506 rillig tspec_t lst = lstp->t_tspec; 2798 1.506 rillig tspec_t rst = rstp->t_tspec; 2799 1.506 rillig 2800 1.506 rillig if ((lst == VOID && rst == FUNC) || (lst == FUNC && rst == VOID)) { 2801 1.506 rillig /* (void *)0 is handled in typeok_colon */ 2802 1.506 rillig /* TODO: C99 behaves like C90 here. */ 2803 1.506 rillig if (!allow_trad && !allow_c99) 2804 1.578 rillig /* conversion of %s to %s requires a cast, op %s */ 2805 1.506 rillig warning(305, "function pointer", "'void *'", 2806 1.560 rillig op_name(COLON)); 2807 1.506 rillig return; 2808 1.506 rillig } 2809 1.461 rillig 2810 1.506 rillig if (pointer_types_are_compatible(lstp, rstp, true)) 2811 1.506 rillig return; 2812 1.506 rillig if (!types_compatible(lstp, rstp, true, false, NULL)) 2813 1.560 rillig warn_incompatible_pointers(COLON, ltp, rtp); 2814 1.461 rillig } 2815 1.461 rillig 2816 1.461 rillig static bool 2817 1.560 rillig typeok_colon(const tnode_t *ln, const type_t *ltp, tspec_t lt, 2818 1.506 rillig const tnode_t *rn, const type_t *rtp, tspec_t rt) 2819 1.247 rillig { 2820 1.462 rillig 2821 1.506 rillig if (is_arithmetic(lt) && is_arithmetic(rt)) 2822 1.506 rillig return true; 2823 1.506 rillig if (lt == BOOL && rt == BOOL) 2824 1.506 rillig return true; 2825 1.463 rillig 2826 1.611 rillig if (lt == STRUCT && rt == STRUCT && ltp->u.sou == rtp->u.sou) 2827 1.506 rillig return true; 2828 1.611 rillig if (lt == UNION && rt == UNION && ltp->u.sou == rtp->u.sou) 2829 1.506 rillig return true; 2830 1.272 rillig 2831 1.506 rillig if (lt == PTR && is_null_pointer(rn)) 2832 1.506 rillig return true; 2833 1.506 rillig if (rt == PTR && is_null_pointer(ln)) 2834 1.506 rillig return true; 2835 1.274 rillig 2836 1.506 rillig if ((lt == PTR && is_integer(rt)) || (is_integer(lt) && rt == PTR)) { 2837 1.506 rillig const char *lx = lt == PTR ? "pointer" : "integer"; 2838 1.506 rillig const char *rx = rt == PTR ? "pointer" : "integer"; 2839 1.681 rillig /* invalid combination of %s '%s' and %s '%s', op '%s' */ 2840 1.506 rillig warning(123, lx, type_name(ltp), 2841 1.560 rillig rx, type_name(rtp), op_name(COLON)); 2842 1.506 rillig return true; 2843 1.506 rillig } 2844 1.249 rillig 2845 1.506 rillig if (lt == VOID || rt == VOID) { 2846 1.506 rillig if (lt != VOID || rt != VOID) 2847 1.506 rillig /* incompatible types '%s' and '%s' in conditional */ 2848 1.690 rillig warning(126, expr_type_name(ln), expr_type_name(rn)); 2849 1.506 rillig return true; 2850 1.461 rillig } 2851 1.461 rillig 2852 1.506 rillig if (lt == PTR && rt == PTR) { 2853 1.560 rillig typeok_colon_pointer(ltp, rtp); 2854 1.460 rillig return true; 2855 1.506 rillig } 2856 1.460 rillig 2857 1.506 rillig /* incompatible types '%s' and '%s' in conditional */ 2858 1.690 rillig error(126, expr_type_name(ln), expr_type_name(rn)); 2859 1.506 rillig return false; 2860 1.247 rillig } 2861 1.247 rillig 2862 1.506 rillig static bool 2863 1.506 rillig has_constant_member(const type_t *tp) 2864 1.1 cgd { 2865 1.506 rillig lint_assert(is_struct_or_union(tp->t_tspec)); 2866 1.506 rillig 2867 1.611 rillig for (sym_t *m = tp->u.sou->sou_first_member; 2868 1.584 rillig m != NULL; m = m->s_next) { 2869 1.506 rillig const type_t *mtp = m->s_type; 2870 1.506 rillig if (mtp->t_const) 2871 1.506 rillig return true; 2872 1.506 rillig if (is_struct_or_union(mtp->t_tspec) && 2873 1.506 rillig has_constant_member(mtp)) 2874 1.506 rillig return true; 2875 1.506 rillig } 2876 1.506 rillig return false; 2877 1.506 rillig } 2878 1.1 cgd 2879 1.506 rillig static bool 2880 1.506 rillig typeok_assign(op_t op, const tnode_t *ln, const type_t *ltp, tspec_t lt) 2881 1.506 rillig { 2882 1.506 rillig if (op == RETURN || op == INIT || op == FARG) 2883 1.506 rillig return true; 2884 1.248 rillig 2885 1.506 rillig if (!ln->tn_lvalue) { 2886 1.506 rillig if (ln->tn_op == CVT && ln->tn_cast && 2887 1.612 rillig ln->u.ops.left->tn_op == LOAD) 2888 1.506 rillig /* a cast does not yield an lvalue */ 2889 1.506 rillig error(163); 2890 1.506 rillig /* %soperand of '%s' must be lvalue */ 2891 1.506 rillig error(114, "left ", op_name(op)); 2892 1.506 rillig return false; 2893 1.536 rillig } else if (ltp->t_const 2894 1.536 rillig || (is_struct_or_union(lt) && has_constant_member(ltp))) { 2895 1.506 rillig if (allow_c90) 2896 1.506 rillig /* %soperand of '%s' must be modifiable lvalue */ 2897 1.506 rillig warning(115, "left ", op_name(op)); 2898 1.1 cgd } 2899 1.506 rillig return true; 2900 1.506 rillig } 2901 1.20 lukem 2902 1.506 rillig static bool 2903 1.506 rillig typeok_scalar(op_t op, const mod_t *mp, 2904 1.506 rillig const type_t *ltp, tspec_t lt, 2905 1.506 rillig const type_t *rtp, tspec_t rt) 2906 1.506 rillig { 2907 1.506 rillig if (mp->m_takes_bool && lt == BOOL && rt == BOOL) 2908 1.506 rillig return true; 2909 1.506 rillig if (mp->m_requires_integer) { 2910 1.506 rillig if (!is_integer(lt) || (mp->m_binary && !is_integer(rt))) { 2911 1.506 rillig warn_incompatible_types(op, ltp, lt, rtp, rt); 2912 1.506 rillig return false; 2913 1.506 rillig } 2914 1.506 rillig } else if (mp->m_requires_integer_or_complex) { 2915 1.506 rillig if ((!is_integer(lt) && !is_complex(lt)) || 2916 1.506 rillig (mp->m_binary && (!is_integer(rt) && !is_complex(rt)))) { 2917 1.506 rillig warn_incompatible_types(op, ltp, lt, rtp, rt); 2918 1.506 rillig return false; 2919 1.506 rillig } 2920 1.506 rillig } else if (mp->m_requires_scalar) { 2921 1.506 rillig if (!is_scalar(lt) || (mp->m_binary && !is_scalar(rt))) { 2922 1.506 rillig warn_incompatible_types(op, ltp, lt, rtp, rt); 2923 1.506 rillig return false; 2924 1.506 rillig } 2925 1.506 rillig } else if (mp->m_requires_arith) { 2926 1.506 rillig if (!is_arithmetic(lt) || 2927 1.506 rillig (mp->m_binary && !is_arithmetic(rt))) { 2928 1.506 rillig warn_incompatible_types(op, ltp, lt, rtp, rt); 2929 1.506 rillig return false; 2930 1.506 rillig } 2931 1.1 cgd } 2932 1.506 rillig return true; 2933 1.1 cgd } 2934 1.1 cgd 2935 1.282 rillig static void 2936 1.506 rillig check_assign_void_pointer(op_t op, int arg, 2937 1.506 rillig tspec_t lt, tspec_t lst, 2938 1.506 rillig tspec_t rt, tspec_t rst) 2939 1.282 rillig { 2940 1.506 rillig 2941 1.506 rillig if (!(lt == PTR && rt == PTR && (lst == VOID || rst == VOID))) 2942 1.506 rillig return; 2943 1.506 rillig /* two pointers, at least one pointer to void */ 2944 1.506 rillig 2945 1.506 rillig /* TODO: C99 behaves like C90 here. */ 2946 1.589 rillig if (!(!allow_trad && !allow_c99 && (lst == FUNC || rst == FUNC))) 2947 1.506 rillig return; 2948 1.506 rillig /* comb. of ptr to func and ptr to void */ 2949 1.506 rillig 2950 1.509 rillig const char *lts, *rts; 2951 1.506 rillig *(lst == FUNC ? <s : &rts) = "function pointer"; 2952 1.506 rillig *(lst == VOID ? <s : &rts) = "'void *'"; 2953 1.282 rillig 2954 1.506 rillig switch (op) { 2955 1.506 rillig case INIT: 2956 1.506 rillig case RETURN: 2957 1.578 rillig /* conversion of %s to %s requires a cast */ 2958 1.506 rillig warning(303, rts, lts); 2959 1.506 rillig break; 2960 1.506 rillig case FARG: 2961 1.578 rillig /* conversion of %s to %s requires a cast, arg #%d */ 2962 1.506 rillig warning(304, rts, lts, arg); 2963 1.506 rillig break; 2964 1.282 rillig default: 2965 1.578 rillig /* conversion of %s to %s requires a cast, op %s */ 2966 1.506 rillig warning(305, rts, lts, op_name(op)); 2967 1.506 rillig break; 2968 1.282 rillig } 2969 1.282 rillig } 2970 1.282 rillig 2971 1.286 rillig static bool 2972 1.506 rillig is_direct_function_call(const tnode_t *tn, const char **out_name) 2973 1.286 rillig { 2974 1.506 rillig 2975 1.603 rillig if (tn->tn_op == CALL 2976 1.612 rillig && tn->u.call->func->tn_op == ADDR 2977 1.612 rillig && tn->u.call->func->u.ops.left->tn_op == NAME) { 2978 1.612 rillig *out_name = tn->u.call->func->u.ops.left->u.sym->s_name; 2979 1.603 rillig return true; 2980 1.603 rillig } 2981 1.603 rillig return false; 2982 1.286 rillig } 2983 1.286 rillig 2984 1.506 rillig static bool 2985 1.506 rillig is_unconst_function(const char *name) 2986 1.285 rillig { 2987 1.506 rillig 2988 1.506 rillig return strcmp(name, "memchr") == 0 || 2989 1.584 rillig strcmp(name, "strchr") == 0 || 2990 1.584 rillig strcmp(name, "strpbrk") == 0 || 2991 1.584 rillig strcmp(name, "strrchr") == 0 || 2992 1.584 rillig strcmp(name, "strstr") == 0; 2993 1.285 rillig } 2994 1.285 rillig 2995 1.506 rillig static bool 2996 1.506 rillig is_const_char_pointer(const tnode_t *tn) 2997 1.285 rillig { 2998 1.506 rillig /* 2999 1.506 rillig * For traditional reasons, C99 6.4.5p5 defines that string literals 3000 1.586 rillig * have type 'char[]'. They are often implicitly converted to 'char 3001 1.586 rillig * *', for example when they are passed as function arguments. 3002 1.506 rillig * 3003 1.506 rillig * C99 6.4.5p6 further defines that modifying a string that is 3004 1.506 rillig * constructed from a string literal invokes undefined behavior. 3005 1.506 rillig * 3006 1.506 rillig * Out of these reasons, string literals are treated as 'effectively 3007 1.506 rillig * const' here. 3008 1.506 rillig */ 3009 1.506 rillig if (tn->tn_op == CVT && 3010 1.612 rillig tn->u.ops.left->tn_op == ADDR && 3011 1.612 rillig tn->u.ops.left->u.ops.left->tn_op == STRING) 3012 1.506 rillig return true; 3013 1.506 rillig 3014 1.509 rillig const type_t *tp = before_conversion(tn)->tn_type; 3015 1.506 rillig return tp->t_tspec == PTR && 3016 1.584 rillig tp->t_subt->t_tspec == CHAR && 3017 1.584 rillig tp->t_subt->t_const; 3018 1.285 rillig } 3019 1.285 rillig 3020 1.506 rillig static bool 3021 1.506 rillig is_const_pointer(const tnode_t *tn) 3022 1.285 rillig { 3023 1.509 rillig const type_t *tp = before_conversion(tn)->tn_type; 3024 1.506 rillig return tp->t_tspec == PTR && tp->t_subt->t_const; 3025 1.285 rillig } 3026 1.285 rillig 3027 1.283 rillig static void 3028 1.506 rillig check_unconst_function(const type_t *lstp, const tnode_t *rn) 3029 1.283 rillig { 3030 1.506 rillig const char *function_name; 3031 1.506 rillig 3032 1.506 rillig if (lstp->t_tspec == CHAR && !lstp->t_const && 3033 1.506 rillig is_direct_function_call(rn, &function_name) && 3034 1.506 rillig is_unconst_function(function_name) && 3035 1.625 rillig rn->u.call->args_len >= 1 && 3036 1.625 rillig is_const_char_pointer(rn->u.call->args[0])) { 3037 1.506 rillig /* call to '%s' effectively discards 'const' from argument */ 3038 1.506 rillig warning(346, function_name); 3039 1.506 rillig } 3040 1.283 rillig 3041 1.506 rillig if (!lstp->t_const && 3042 1.506 rillig is_direct_function_call(rn, &function_name) && 3043 1.506 rillig strcmp(function_name, "bsearch") == 0 && 3044 1.625 rillig rn->u.call->args_len >= 2 && 3045 1.625 rillig is_const_pointer(rn->u.call->args[1])) { 3046 1.506 rillig /* call to '%s' effectively discards 'const' from argument */ 3047 1.506 rillig warning(346, function_name); 3048 1.283 rillig } 3049 1.283 rillig } 3050 1.283 rillig 3051 1.506 rillig static bool 3052 1.683 rillig check_assign_void_pointer_compat(op_t op, const function_call *call, int arg, 3053 1.660 rillig tspec_t lt, 3054 1.598 rillig const type_t *lstp, tspec_t lst, 3055 1.598 rillig const tnode_t *rn, 3056 1.598 rillig const type_t *rtp, tspec_t rt, 3057 1.598 rillig const type_t *rstp, tspec_t rst) 3058 1.1 cgd { 3059 1.506 rillig if (!(lt == PTR && rt == PTR && (lst == VOID || rst == VOID || 3060 1.506 rillig types_compatible(lstp, rstp, 3061 1.506 rillig true, false, NULL)))) 3062 1.506 rillig return false; 3063 1.1 cgd 3064 1.506 rillig /* compatible pointer types (qualifiers ignored) */ 3065 1.659 rillig char qualifiers[32]; 3066 1.659 rillig snprintf(qualifiers, sizeof(qualifiers), "%s%s", 3067 1.659 rillig !lstp->t_const && rstp->t_const ? " const" : "", 3068 1.659 rillig !lstp->t_volatile && rstp->t_volatile ? " volatile" : ""); 3069 1.659 rillig if (allow_c90 && qualifiers[0] != '\0') { 3070 1.506 rillig switch (op) { 3071 1.506 rillig case INIT: 3072 1.506 rillig case RETURN: 3073 1.659 rillig /* '%s' discards '%s' from '%s' */ 3074 1.659 rillig warning(182, op_name(op), 3075 1.659 rillig qualifiers + 1, type_name(rtp)); 3076 1.506 rillig break; 3077 1.506 rillig case FARG: 3078 1.683 rillig /* passing '%s' as argument %d to '%s' discards '%s' */ 3079 1.683 rillig warning(383, type_name(rtp), arg, 3080 1.683 rillig function_call_descr(call), qualifiers + 1); 3081 1.506 rillig break; 3082 1.506 rillig default: 3083 1.659 rillig /* operator '%s' discards '%s' from '%s' */ 3084 1.506 rillig warning(128, op_name(op), 3085 1.659 rillig qualifiers + 1, type_name(rtp)); 3086 1.506 rillig break; 3087 1.506 rillig } 3088 1.147 rillig } 3089 1.147 rillig 3090 1.506 rillig if (allow_c90) 3091 1.506 rillig check_unconst_function(lstp, rn); 3092 1.1 cgd 3093 1.506 rillig return true; 3094 1.1 cgd } 3095 1.1 cgd 3096 1.506 rillig static bool 3097 1.506 rillig check_assign_pointer_integer(op_t op, int arg, 3098 1.598 rillig const type_t *ltp, tspec_t lt, 3099 1.598 rillig const type_t *rtp, tspec_t rt) 3100 1.1 cgd { 3101 1.506 rillig 3102 1.506 rillig if (!((lt == PTR && is_integer(rt)) || (is_integer(lt) && rt == PTR))) 3103 1.506 rillig return false; 3104 1.1 cgd 3105 1.536 rillig const char *lx = lt == PTR ? "pointer" : "integer"; 3106 1.536 rillig const char *rx = rt == PTR ? "pointer" : "integer"; 3107 1.1 cgd 3108 1.506 rillig switch (op) { 3109 1.506 rillig case INIT: 3110 1.506 rillig case RETURN: 3111 1.681 rillig /* invalid combination of %s '%s' and %s '%s' for '%s' */ 3112 1.671 rillig warning(183, 3113 1.671 rillig lx, type_name(ltp), rx, type_name(rtp), op_name(op)); 3114 1.506 rillig break; 3115 1.506 rillig case FARG: 3116 1.681 rillig /* invalid combination of %s '%s' and %s '%s', arg #%d */ 3117 1.506 rillig warning(154, 3118 1.506 rillig lx, type_name(ltp), rx, type_name(rtp), arg); 3119 1.506 rillig break; 3120 1.506 rillig default: 3121 1.681 rillig /* invalid combination of %s '%s' and %s '%s', op '%s' */ 3122 1.506 rillig warning(123, 3123 1.506 rillig lx, type_name(ltp), rx, type_name(rtp), op_name(op)); 3124 1.506 rillig break; 3125 1.1 cgd } 3126 1.506 rillig return true; 3127 1.1 cgd } 3128 1.1 cgd 3129 1.506 rillig static bool 3130 1.506 rillig check_assign_pointer(op_t op, int arg, 3131 1.506 rillig const type_t *ltp, tspec_t lt, 3132 1.506 rillig const type_t *rtp, tspec_t rt) 3133 1.1 cgd { 3134 1.506 rillig if (!(lt == PTR && rt == PTR)) 3135 1.506 rillig return false; 3136 1.1 cgd 3137 1.560 rillig if (op == FARG) 3138 1.506 rillig /* converting '%s' to incompatible '%s' for ... */ 3139 1.506 rillig warning(153, type_name(rtp), type_name(ltp), arg); 3140 1.560 rillig else 3141 1.560 rillig warn_incompatible_pointers(op, ltp, rtp); 3142 1.506 rillig return true; 3143 1.506 rillig } 3144 1.1 cgd 3145 1.506 rillig static void 3146 1.506 rillig warn_assign(op_t op, int arg, 3147 1.506 rillig const type_t *ltp, tspec_t lt, 3148 1.506 rillig const type_t *rtp, tspec_t rt) 3149 1.506 rillig { 3150 1.506 rillig switch (op) { 3151 1.506 rillig case INIT: 3152 1.506 rillig /* cannot initialize '%s' from '%s' */ 3153 1.506 rillig error(185, type_name(ltp), type_name(rtp)); 3154 1.506 rillig break; 3155 1.506 rillig case RETURN: 3156 1.506 rillig /* function has return type '%s' but returns '%s' */ 3157 1.506 rillig error(211, type_name(ltp), type_name(rtp)); 3158 1.506 rillig break; 3159 1.506 rillig case FARG: 3160 1.506 rillig /* passing '%s' to incompatible '%s', arg #%d */ 3161 1.506 rillig warning(155, type_name(rtp), type_name(ltp), arg); 3162 1.506 rillig break; 3163 1.506 rillig default: 3164 1.506 rillig warn_incompatible_types(op, ltp, lt, rtp, rt); 3165 1.506 rillig break; 3166 1.1 cgd } 3167 1.1 cgd } 3168 1.1 cgd 3169 1.506 rillig /* 3170 1.506 rillig * Checks type compatibility for ASSIGN, INIT, FARG and RETURN 3171 1.506 rillig * and prints warnings/errors if necessary. 3172 1.506 rillig * Returns whether the types are (almost) compatible. 3173 1.506 rillig */ 3174 1.506 rillig static bool 3175 1.683 rillig check_assign_types_compatible(op_t op, const function_call *call, int arg, 3176 1.506 rillig const tnode_t *ln, const tnode_t *rn) 3177 1.1 cgd { 3178 1.526 rillig tspec_t lt, rt, lst = NO_TSPEC, rst = NO_TSPEC; 3179 1.526 rillig type_t *ltp, *rtp, *lstp = NULL, *rstp = NULL; 3180 1.506 rillig 3181 1.506 rillig if ((lt = (ltp = ln->tn_type)->t_tspec) == PTR) 3182 1.506 rillig lst = (lstp = ltp->t_subt)->t_tspec; 3183 1.506 rillig if ((rt = (rtp = rn->tn_type)->t_tspec) == PTR) 3184 1.506 rillig rst = (rstp = rtp->t_subt)->t_tspec; 3185 1.506 rillig 3186 1.506 rillig if (lt == BOOL && is_scalar(rt)) /* C99 6.3.1.2 */ 3187 1.506 rillig return true; 3188 1.20 lukem 3189 1.506 rillig if (is_arithmetic(lt) && (is_arithmetic(rt) || rt == BOOL)) 3190 1.506 rillig return true; 3191 1.1 cgd 3192 1.506 rillig if (is_struct_or_union(lt) && is_struct_or_union(rt)) 3193 1.611 rillig return ltp->u.sou == rtp->u.sou; 3194 1.263 rillig 3195 1.533 rillig if (lt == PTR && is_null_pointer(rn)) { 3196 1.533 rillig if (is_integer(rn->tn_type->t_tspec)) 3197 1.533 rillig /* implicit conversion from integer 0 to pointer ... */ 3198 1.533 rillig query_message(15, type_name(ltp)); 3199 1.506 rillig return true; 3200 1.533 rillig } 3201 1.263 rillig 3202 1.506 rillig check_assign_void_pointer(op, arg, lt, lst, rt, rst); 3203 1.263 rillig 3204 1.683 rillig if (check_assign_void_pointer_compat(op, call, arg, 3205 1.660 rillig lt, lstp, lst, rn, rtp, rt, rstp, rst)) 3206 1.506 rillig return true; 3207 1.1 cgd 3208 1.506 rillig if (check_assign_pointer_integer(op, arg, ltp, lt, rtp, rt)) 3209 1.506 rillig return true; 3210 1.1 cgd 3211 1.506 rillig if (check_assign_pointer(op, arg, ltp, lt, rtp, rt)) 3212 1.506 rillig return true; 3213 1.107 rillig 3214 1.506 rillig warn_assign(op, arg, ltp, lt, rtp, rt); 3215 1.149 rillig return false; 3216 1.1 cgd } 3217 1.1 cgd 3218 1.506 rillig static bool 3219 1.506 rillig has_side_effect(const tnode_t *tn) /* NOLINT(misc-no-recursion) */ 3220 1.1 cgd { 3221 1.506 rillig op_t op = tn->tn_op; 3222 1.1 cgd 3223 1.506 rillig if (modtab[op].m_has_side_effect) 3224 1.506 rillig return true; 3225 1.1 cgd 3226 1.506 rillig if (op == CVT && tn->tn_type->t_tspec == VOID) 3227 1.612 rillig return has_side_effect(tn->u.ops.left); 3228 1.1 cgd 3229 1.506 rillig if (op == LOGAND || op == LOGOR) 3230 1.612 rillig return has_side_effect(tn->u.ops.right); 3231 1.1 cgd 3232 1.506 rillig if (op == QUEST) 3233 1.612 rillig return has_side_effect(tn->u.ops.right); 3234 1.1 cgd 3235 1.506 rillig if (op == COLON || op == COMMA) { 3236 1.612 rillig return has_side_effect(tn->u.ops.left) || 3237 1.612 rillig has_side_effect(tn->u.ops.right); 3238 1.506 rillig } 3239 1.1 cgd 3240 1.506 rillig return false; 3241 1.506 rillig } 3242 1.1 cgd 3243 1.506 rillig static bool 3244 1.506 rillig is_void_cast(const tnode_t *tn) 3245 1.506 rillig { 3246 1.1 cgd 3247 1.506 rillig return tn->tn_op == CVT && tn->tn_cast && 3248 1.584 rillig tn->tn_type->t_tspec == VOID; 3249 1.1 cgd } 3250 1.1 cgd 3251 1.506 rillig static bool 3252 1.506 rillig is_local_symbol(const tnode_t *tn) 3253 1.1 cgd { 3254 1.1 cgd 3255 1.506 rillig return tn->tn_op == LOAD && 3256 1.612 rillig tn->u.ops.left->tn_op == NAME && 3257 1.612 rillig tn->u.ops.left->u.sym->s_scl == AUTO; 3258 1.506 rillig } 3259 1.1 cgd 3260 1.506 rillig static bool 3261 1.506 rillig is_int_constant_zero(const tnode_t *tn) 3262 1.506 rillig { 3263 1.1 cgd 3264 1.506 rillig return tn->tn_op == CON && 3265 1.584 rillig tn->tn_type->t_tspec == INT && 3266 1.612 rillig tn->u.value.u.integer == 0; 3267 1.1 cgd } 3268 1.1 cgd 3269 1.506 rillig static void 3270 1.506 rillig check_null_effect(const tnode_t *tn) 3271 1.46 christos { 3272 1.46 christos 3273 1.509 rillig if (hflag && 3274 1.509 rillig !has_side_effect(tn) && 3275 1.612 rillig !(is_void_cast(tn) && is_local_symbol(tn->u.ops.left)) && 3276 1.612 rillig !(is_void_cast(tn) && is_int_constant_zero(tn->u.ops.left))) { 3277 1.509 rillig /* expression has null effect */ 3278 1.509 rillig warning(129); 3279 1.509 rillig } 3280 1.506 rillig } 3281 1.275 rillig 3282 1.506 rillig /* 3283 1.506 rillig * Check the types for specific operators and type combinations. 3284 1.506 rillig * 3285 1.506 rillig * At this point, the operands already conform to the type requirements of 3286 1.506 rillig * the operator, such as being integer, floating or scalar. 3287 1.506 rillig */ 3288 1.506 rillig static bool 3289 1.683 rillig typeok_op(op_t op, const function_call *call, int arg, 3290 1.506 rillig const tnode_t *ln, const type_t *ltp, tspec_t lt, 3291 1.506 rillig const tnode_t *rn, const type_t *rtp, tspec_t rt) 3292 1.506 rillig { 3293 1.506 rillig switch (op) { 3294 1.506 rillig case ARROW: 3295 1.506 rillig return typeok_arrow(lt); 3296 1.506 rillig case POINT: 3297 1.506 rillig return typeok_point(ln, ltp, lt); 3298 1.506 rillig case INCBEF: 3299 1.506 rillig case DECBEF: 3300 1.506 rillig case INCAFT: 3301 1.506 rillig case DECAFT: 3302 1.506 rillig return typeok_incdec(op, ln, ltp); 3303 1.506 rillig case INDIR: 3304 1.506 rillig return typeok_indir(ltp, lt); 3305 1.506 rillig case ADDR: 3306 1.560 rillig return typeok_address(op, ln, ltp, lt); 3307 1.506 rillig case PLUS: 3308 1.506 rillig return typeok_plus(op, ltp, lt, rtp, rt); 3309 1.506 rillig case MINUS: 3310 1.506 rillig return typeok_minus(op, ltp, lt, rtp, rt); 3311 1.506 rillig case SHL: 3312 1.693 rillig typeok_shl(ln, lt, rn, rt); 3313 1.506 rillig goto shift; 3314 1.506 rillig case SHR: 3315 1.688 rillig typeok_shr(ln, lt, rn, rt); 3316 1.506 rillig shift: 3317 1.690 rillig typeok_shift(ln, lt, rn, rt); 3318 1.52 matt break; 3319 1.506 rillig case LT: 3320 1.506 rillig case LE: 3321 1.506 rillig case GT: 3322 1.506 rillig case GE: 3323 1.506 rillig compare: 3324 1.506 rillig return typeok_compare(op, ln, ltp, lt, rn, rtp, rt); 3325 1.506 rillig case EQ: 3326 1.506 rillig case NE: 3327 1.506 rillig if (is_typeok_eq(ln, lt, rn, rt)) 3328 1.506 rillig break; 3329 1.506 rillig goto compare; 3330 1.506 rillig case QUEST: 3331 1.506 rillig return typeok_quest(lt, rn); 3332 1.506 rillig case COLON: 3333 1.560 rillig return typeok_colon(ln, ltp, lt, rn, rtp, rt); 3334 1.506 rillig case ASSIGN: 3335 1.506 rillig case INIT: 3336 1.506 rillig case FARG: 3337 1.506 rillig case RETURN: 3338 1.683 rillig if (!check_assign_types_compatible(op, call, arg, ln, rn)) 3339 1.506 rillig return false; 3340 1.506 rillig goto assign; 3341 1.506 rillig case MULASS: 3342 1.506 rillig case DIVASS: 3343 1.506 rillig case MODASS: 3344 1.506 rillig goto assign; 3345 1.506 rillig case ADDASS: 3346 1.506 rillig case SUBASS: 3347 1.506 rillig if ((lt == PTR && !is_integer(rt)) || rt == PTR) { 3348 1.506 rillig warn_incompatible_types(op, ltp, lt, rtp, rt); 3349 1.506 rillig return false; 3350 1.506 rillig } 3351 1.506 rillig goto assign; 3352 1.506 rillig case SHLASS: 3353 1.506 rillig goto assign; 3354 1.506 rillig case SHRASS: 3355 1.506 rillig if (pflag && !is_uinteger(lt) && 3356 1.506 rillig !(!allow_c90 && is_uinteger(rt))) { 3357 1.690 rillig /* bitwise '%s' on signed '%s' possibly nonportable */ 3358 1.690 rillig warning(117, op_name(op), expr_type_name(rn)); 3359 1.506 rillig } 3360 1.506 rillig goto assign; 3361 1.506 rillig case ANDASS: 3362 1.506 rillig case XORASS: 3363 1.506 rillig case ORASS: 3364 1.506 rillig assign: 3365 1.506 rillig return typeok_assign(op, ln, ltp, lt); 3366 1.506 rillig case COMMA: 3367 1.506 rillig if (!modtab[ln->tn_op].m_has_side_effect) 3368 1.506 rillig check_null_effect(ln); 3369 1.46 christos break; 3370 1.506 rillig default: 3371 1.46 christos break; 3372 1.46 christos } 3373 1.506 rillig return true; 3374 1.46 christos } 3375 1.342 rillig 3376 1.506 rillig static void 3377 1.506 rillig check_bad_enum_operation(op_t op, const tnode_t *ln, const tnode_t *rn) 3378 1.1 cgd { 3379 1.20 lukem 3380 1.506 rillig if (!eflag) 3381 1.506 rillig return; 3382 1.1 cgd 3383 1.536 rillig /* Allow enum in array indices. */ 3384 1.506 rillig if (op == PLUS && 3385 1.506 rillig ((ln->tn_type->t_is_enum && rn->tn_type->t_tspec == PTR) || 3386 1.506 rillig (rn->tn_type->t_is_enum && ln->tn_type->t_tspec == PTR))) { 3387 1.506 rillig return; 3388 1.1 cgd } 3389 1.20 lukem 3390 1.556 rillig /* dubious operation '%s' on enum */ 3391 1.506 rillig warning(241, op_name(op)); 3392 1.1 cgd } 3393 1.1 cgd 3394 1.506 rillig static void 3395 1.506 rillig check_enum_type_mismatch(op_t op, int arg, const tnode_t *ln, const tnode_t *rn) 3396 1.1 cgd { 3397 1.509 rillig const mod_t *mp = &modtab[op]; 3398 1.1 cgd 3399 1.611 rillig if (ln->tn_type->u.enumer != rn->tn_type->u.enumer) { 3400 1.506 rillig switch (op) { 3401 1.506 rillig case INIT: 3402 1.506 rillig /* enum type mismatch between '%s' and '%s' in ... */ 3403 1.506 rillig warning(210, 3404 1.506 rillig type_name(ln->tn_type), type_name(rn->tn_type)); 3405 1.506 rillig break; 3406 1.506 rillig case FARG: 3407 1.506 rillig /* function expects '%s', passing '%s' for arg #%d */ 3408 1.506 rillig warning(156, 3409 1.506 rillig type_name(ln->tn_type), type_name(rn->tn_type), 3410 1.506 rillig arg); 3411 1.506 rillig break; 3412 1.506 rillig case RETURN: 3413 1.506 rillig /* function has return type '%s' but returns '%s' */ 3414 1.506 rillig warning(211, 3415 1.506 rillig type_name(ln->tn_type), type_name(rn->tn_type)); 3416 1.506 rillig break; 3417 1.506 rillig default: 3418 1.506 rillig /* enum type mismatch: '%s' '%s' '%s' */ 3419 1.690 rillig warning(130, expr_type_name(before_conversion(ln)), 3420 1.690 rillig op_name(op), 3421 1.690 rillig expr_type_name(before_conversion(rn))); 3422 1.506 rillig break; 3423 1.506 rillig } 3424 1.558 rillig } else if (Pflag && eflag && mp->m_comparison && op != EQ && op != NE) 3425 1.558 rillig /* operator '%s' assumes that '%s' is ordered */ 3426 1.560 rillig warning(243, op_name(op), type_name(ln->tn_type)); 3427 1.1 cgd } 3428 1.1 cgd 3429 1.506 rillig static void 3430 1.506 rillig check_enum_int_mismatch(op_t op, int arg, const tnode_t *ln, const tnode_t *rn) 3431 1.1 cgd { 3432 1.1 cgd 3433 1.506 rillig if (!eflag) 3434 1.506 rillig return; 3435 1.1 cgd 3436 1.506 rillig switch (op) { 3437 1.506 rillig case INIT: 3438 1.506 rillig /* 3439 1.506 rillig * Initialization with 0 is allowed. Otherwise, all implicit 3440 1.506 rillig * initializations would need to be warned upon as well. 3441 1.506 rillig */ 3442 1.506 rillig if (!rn->tn_type->t_is_enum && rn->tn_op == CON && 3443 1.506 rillig is_integer(rn->tn_type->t_tspec) && 3444 1.612 rillig rn->u.value.u.integer == 0) { 3445 1.506 rillig return; 3446 1.1 cgd } 3447 1.506 rillig /* initialization of '%s' with '%s' */ 3448 1.690 rillig warning(277, type_name(ln->tn_type), expr_type_name(rn)); 3449 1.506 rillig break; 3450 1.506 rillig case FARG: 3451 1.506 rillig /* combination of '%s' and '%s', arg #%d */ 3452 1.506 rillig warning(278, 3453 1.690 rillig type_name(ln->tn_type), expr_type_name(rn), arg); 3454 1.506 rillig break; 3455 1.506 rillig case RETURN: 3456 1.506 rillig /* combination of '%s' and '%s' in return */ 3457 1.690 rillig warning(279, type_name(ln->tn_type), expr_type_name(rn)); 3458 1.506 rillig break; 3459 1.506 rillig default: 3460 1.506 rillig /* combination of '%s' and '%s', op '%s' */ 3461 1.690 rillig warning(242, type_name(ln->tn_type), expr_type_name(rn), 3462 1.506 rillig op_name(op)); 3463 1.506 rillig break; 3464 1.1 cgd } 3465 1.1 cgd } 3466 1.1 cgd 3467 1.506 rillig static void 3468 1.506 rillig typeok_enum(op_t op, const mod_t *mp, int arg, 3469 1.506 rillig const tnode_t *ln, const type_t *ltp, 3470 1.506 rillig const tnode_t *rn, const type_t *rtp) 3471 1.473 rillig { 3472 1.506 rillig if (mp->m_bad_on_enum && 3473 1.506 rillig (ltp->t_is_enum || (mp->m_binary && rtp->t_is_enum))) { 3474 1.506 rillig check_bad_enum_operation(op, ln, rn); 3475 1.506 rillig } else if (mp->m_valid_on_enum && 3476 1.584 rillig (ltp->t_is_enum && rtp != NULL && rtp->t_is_enum)) { 3477 1.506 rillig check_enum_type_mismatch(op, arg, ln, rn); 3478 1.506 rillig } else if (mp->m_valid_on_enum && 3479 1.584 rillig (ltp->t_is_enum || (rtp != NULL && rtp->t_is_enum))) { 3480 1.506 rillig check_enum_int_mismatch(op, arg, ln, rn); 3481 1.473 rillig } 3482 1.473 rillig } 3483 1.473 rillig 3484 1.506 rillig /* Perform most type checks. Return whether the types are ok. */ 3485 1.506 rillig bool 3486 1.683 rillig typeok(op_t op, const function_call *call, int arg, 3487 1.683 rillig const tnode_t *ln, const tnode_t *rn) 3488 1.1 cgd { 3489 1.1 cgd 3490 1.509 rillig const mod_t *mp = &modtab[op]; 3491 1.1 cgd 3492 1.536 rillig type_t *ltp = ln->tn_type; 3493 1.536 rillig tspec_t lt = ltp->t_tspec; 3494 1.1 cgd 3495 1.536 rillig type_t *rtp = mp->m_binary ? rn->tn_type : NULL; 3496 1.536 rillig tspec_t rt = mp->m_binary ? rtp->t_tspec : NO_TSPEC; 3497 1.1 cgd 3498 1.506 rillig if (Tflag && !typeok_scalar_strict_bool(op, mp, arg, ln, rn)) 3499 1.506 rillig return false; 3500 1.506 rillig if (!typeok_scalar(op, mp, ltp, lt, rtp, rt)) 3501 1.506 rillig return false; 3502 1.1 cgd 3503 1.683 rillig if (!typeok_op(op, call, arg, ln, ltp, lt, rn, rtp, rt)) 3504 1.506 rillig return false; 3505 1.1 cgd 3506 1.506 rillig typeok_enum(op, mp, arg, ln, ltp, rn, rtp); 3507 1.506 rillig return true; 3508 1.506 rillig } 3509 1.471 rillig 3510 1.506 rillig /* In traditional C, keep unsigned and promote FLOAT to DOUBLE. */ 3511 1.506 rillig static tspec_t 3512 1.506 rillig promote_trad(tspec_t t) 3513 1.506 rillig { 3514 1.1 cgd 3515 1.506 rillig if (t == UCHAR || t == USHORT) 3516 1.506 rillig return UINT; 3517 1.506 rillig if (t == CHAR || t == SCHAR || t == SHORT) 3518 1.506 rillig return INT; 3519 1.506 rillig if (t == FLOAT) 3520 1.506 rillig return DOUBLE; 3521 1.506 rillig if (t == ENUM) 3522 1.506 rillig return INT; 3523 1.506 rillig return t; 3524 1.1 cgd } 3525 1.1 cgd 3526 1.1 cgd /* 3527 1.506 rillig * C99 6.3.1.1p2 requires for types with lower rank than int that "If an int 3528 1.506 rillig * can represent all the values of the original type, the value is converted 3529 1.506 rillig * to an int; otherwise it is converted to an unsigned int", and that "All 3530 1.506 rillig * other types are unchanged by the integer promotions". 3531 1.1 cgd */ 3532 1.506 rillig static tspec_t 3533 1.506 rillig promote_c90(const tnode_t *tn, tspec_t t, bool farg) 3534 1.1 cgd { 3535 1.506 rillig if (tn->tn_type->t_bitfield) { 3536 1.532 rillig unsigned int width = tn->tn_type->t_bit_field_width; 3537 1.532 rillig unsigned int int_width = size_in_bits(INT); 3538 1.532 rillig // XXX: What about _Bool bit-fields, since C99? 3539 1.532 rillig if (width < int_width) 3540 1.506 rillig return INT; 3541 1.532 rillig if (width == int_width) 3542 1.506 rillig return is_uinteger(t) ? UINT : INT; 3543 1.506 rillig return t; 3544 1.506 rillig } 3545 1.1 cgd 3546 1.506 rillig if (t == CHAR || t == SCHAR) 3547 1.506 rillig return INT; 3548 1.506 rillig if (t == UCHAR) 3549 1.506 rillig return size_in_bits(CHAR) < size_in_bits(INT) ? INT : UINT; 3550 1.506 rillig if (t == SHORT) 3551 1.506 rillig return INT; 3552 1.506 rillig if (t == USHORT) 3553 1.506 rillig return size_in_bits(SHORT) < size_in_bits(INT) ? INT : UINT; 3554 1.506 rillig if (t == ENUM) 3555 1.506 rillig return INT; 3556 1.506 rillig if (farg && t == FLOAT) 3557 1.506 rillig return DOUBLE; 3558 1.506 rillig return t; 3559 1.506 rillig } 3560 1.1 cgd 3561 1.506 rillig /* 3562 1.506 rillig * Performs the "integer promotions" (C99 6.3.1.1p2), which convert small 3563 1.506 rillig * integer types to either int or unsigned int. 3564 1.506 rillig * 3565 1.506 rillig * If allow_c90 is unset or the operand is a function argument with no type 3566 1.506 rillig * information (no prototype or variable # of args), converts float to double. 3567 1.506 rillig */ 3568 1.506 rillig tnode_t * 3569 1.506 rillig promote(op_t op, bool farg, tnode_t *tn) 3570 1.506 rillig { 3571 1.506 rillig 3572 1.624 rillig const type_t *otp = tn->tn_type; 3573 1.624 rillig tspec_t ot = otp->t_tspec; 3574 1.506 rillig if (!is_arithmetic(ot)) 3575 1.506 rillig return tn; 3576 1.506 rillig 3577 1.506 rillig tspec_t nt = allow_c90 ? promote_c90(tn, ot, farg) : promote_trad(ot); 3578 1.506 rillig if (nt == ot) 3579 1.506 rillig return tn; 3580 1.506 rillig 3581 1.624 rillig type_t *ntp = expr_dup_type(gettyp(nt)); 3582 1.506 rillig ntp->t_tspec = nt; 3583 1.624 rillig ntp->t_is_enum = otp->t_is_enum; 3584 1.624 rillig if (ntp->t_is_enum) 3585 1.624 rillig ntp->u.enumer = otp->u.enumer; 3586 1.506 rillig return convert(op, 0, ntp, tn); 3587 1.506 rillig } 3588 1.506 rillig 3589 1.506 rillig static void 3590 1.646 rillig check_lossy_floating_to_integer_conversion( 3591 1.646 rillig op_t op, int arg, const type_t *tp, const tnode_t *tn) 3592 1.646 rillig { 3593 1.646 rillig long double x = tn->u.value.u.floating; 3594 1.646 rillig integer_constraints ic = ic_any(tp); 3595 1.646 rillig if (is_uinteger(tp->t_tspec) 3596 1.646 rillig ? x >= ic.umin && x <= ic.umax && x == (uint64_t)x 3597 1.646 rillig : x >= ic.smin && x <= ic.smax && x == (int64_t)x) 3598 1.646 rillig return; 3599 1.646 rillig if (op == FARG) 3600 1.646 rillig /* lossy conversion of %Lg to '%s', arg #%d */ 3601 1.646 rillig warning(380, x, type_name(tp), arg); 3602 1.646 rillig else 3603 1.646 rillig /* lossy conversion of %Lg to '%s' */ 3604 1.646 rillig warning(381, x, type_name(tp)); 3605 1.646 rillig } 3606 1.646 rillig 3607 1.646 rillig static void 3608 1.646 rillig convert_integer_from_floating( 3609 1.646 rillig op_t op, int arg, const type_t *tp, const tnode_t *tn) 3610 1.506 rillig { 3611 1.506 rillig 3612 1.506 rillig if (op == CVT) 3613 1.506 rillig /* cast from floating point '%s' to integer '%s' */ 3614 1.506 rillig query_message(2, type_name(tn->tn_type), type_name(tp)); 3615 1.506 rillig else 3616 1.506 rillig /* implicit conversion from floating point '%s' to ... */ 3617 1.506 rillig query_message(1, type_name(tn->tn_type), type_name(tp)); 3618 1.646 rillig if (tn->tn_op == CON) 3619 1.646 rillig check_lossy_floating_to_integer_conversion(op, arg, tp, tn); 3620 1.506 rillig } 3621 1.506 rillig 3622 1.506 rillig static bool 3623 1.506 rillig should_warn_about_prototype_conversion(tspec_t nt, 3624 1.506 rillig tspec_t ot, const tnode_t *ptn) 3625 1.506 rillig { 3626 1.506 rillig 3627 1.506 rillig if (nt == ot) 3628 1.506 rillig return false; 3629 1.1 cgd 3630 1.506 rillig if (nt == ENUM && ot == INT) 3631 1.506 rillig return false; 3632 1.1 cgd 3633 1.506 rillig if (is_floating(nt) != is_floating(ot) || 3634 1.550 rillig portable_rank_cmp(nt, ot) != 0) { 3635 1.506 rillig /* representation and/or width change */ 3636 1.506 rillig if (!is_integer(ot)) 3637 1.506 rillig return true; 3638 1.506 rillig /* 3639 1.506 rillig * XXX: Investigate whether this rule makes sense; see 3640 1.506 rillig * tests/usr.bin/xlint/lint1/platform_long.c. 3641 1.506 rillig */ 3642 1.550 rillig return portable_rank_cmp(ot, INT) > 0; 3643 1.1 cgd } 3644 1.1 cgd 3645 1.506 rillig if (!hflag) 3646 1.506 rillig return false; 3647 1.1 cgd 3648 1.506 rillig /* 3649 1.506 rillig * If the types differ only in sign and the argument has the same 3650 1.506 rillig * representation in both types, print no warning. 3651 1.506 rillig */ 3652 1.506 rillig if (ptn->tn_op == CON && is_integer(nt) && 3653 1.506 rillig signed_type(nt) == signed_type(ot) && 3654 1.612 rillig !msb(ptn->u.value.u.integer, ot)) 3655 1.506 rillig return false; 3656 1.1 cgd 3657 1.506 rillig return true; 3658 1.1 cgd } 3659 1.1 cgd 3660 1.1 cgd /* 3661 1.506 rillig * Warn if a prototype causes a type conversion that is different from what 3662 1.506 rillig * would happen to the same argument in the absence of a prototype. This 3663 1.506 rillig * check is intended for code that needs to stay compatible with pre-C90 C. 3664 1.506 rillig * 3665 1.681 rillig * Errors/warnings about invalid type combinations are already printed 3666 1.506 rillig * in check_assign_types_compatible(). 3667 1.22 perry */ 3668 1.506 rillig static void 3669 1.506 rillig check_prototype_conversion(int arg, tspec_t nt, tspec_t ot, type_t *tp, 3670 1.506 rillig tnode_t *tn) 3671 1.506 rillig { 3672 1.506 rillig 3673 1.506 rillig if (!is_arithmetic(nt) || !is_arithmetic(ot)) 3674 1.506 rillig return; 3675 1.506 rillig 3676 1.506 rillig /* 3677 1.586 rillig * If the type of the formal parameter is char/short, a warning would 3678 1.586 rillig * be useless, because functions declared the old style can't expect 3679 1.586 rillig * char/short arguments. 3680 1.506 rillig */ 3681 1.506 rillig if (nt == CHAR || nt == SCHAR || nt == UCHAR || 3682 1.506 rillig nt == SHORT || nt == USHORT) 3683 1.506 rillig return; 3684 1.506 rillig 3685 1.509 rillig tnode_t *ptn = promote(NOOP, true, tn); 3686 1.506 rillig ot = ptn->tn_type->t_tspec; 3687 1.506 rillig 3688 1.506 rillig if (should_warn_about_prototype_conversion(nt, ot, ptn)) { 3689 1.555 rillig /* argument %d is converted from '%s' to '%s' ... */ 3690 1.690 rillig warning(259, arg, expr_type_name(tn), type_name(tp)); 3691 1.506 rillig } 3692 1.506 rillig } 3693 1.506 rillig 3694 1.22 perry /* 3695 1.506 rillig * When converting a large integer type to a small integer type, in some 3696 1.506 rillig * cases the value of the actual expression is further restricted than the 3697 1.506 rillig * type bounds, such as in (expr & 0xFF) or (expr % 100) or (expr >> 24). 3698 1.1 cgd */ 3699 1.506 rillig static bool 3700 1.506 rillig can_represent(const type_t *tp, const tnode_t *tn) 3701 1.1 cgd { 3702 1.506 rillig uint64_t nmask = value_bits(width_in_bits(tp)); 3703 1.506 rillig if (!is_uinteger(tp->t_tspec)) 3704 1.506 rillig nmask >>= 1; 3705 1.506 rillig 3706 1.506 rillig integer_constraints c = ic_expr(tn); 3707 1.506 rillig if ((~c.bclr & ~nmask) == 0) 3708 1.506 rillig return true; 3709 1.506 rillig 3710 1.521 rillig integer_constraints tpc = ic_any(tp); 3711 1.521 rillig if (is_uinteger(tp->t_tspec) 3712 1.521 rillig ? tpc.umin <= c.umin && tpc.umax >= c.umax 3713 1.521 rillig : tpc.smin <= c.smin && tpc.smax >= c.smax) 3714 1.521 rillig return true; 3715 1.521 rillig 3716 1.654 rillig debug_enter(); 3717 1.654 rillig debug_step("type '%s' cannot represent:", type_name(tp)); 3718 1.654 rillig debug_node(tn); 3719 1.654 rillig debug_leave(); 3720 1.506 rillig return false; 3721 1.506 rillig } 3722 1.506 rillig 3723 1.577 rillig static bool 3724 1.577 rillig should_warn_about_integer_conversion(const type_t *ntp, tspec_t nt, 3725 1.577 rillig const tnode_t *otn, tspec_t ot) 3726 1.577 rillig { 3727 1.577 rillig 3728 1.577 rillig // XXX: The portable_rank_cmp aims at portable mode, independent of the 3729 1.577 rillig // current platform, while can_represent acts on the actual type sizes 3730 1.577 rillig // from the current platform. This mix is inconsistent, but anything 3731 1.577 rillig // else would make the exact conditions too complicated to grasp. 3732 1.577 rillig if (aflag > 0 && portable_rank_cmp(nt, ot) < 0) { 3733 1.577 rillig if (ot == LONG || ot == ULONG 3734 1.577 rillig || ot == LLONG || ot == ULLONG 3735 1.577 rillig #ifdef INT128_SIZE 3736 1.577 rillig || ot == INT128 || ot == UINT128 3737 1.577 rillig #endif 3738 1.577 rillig || aflag > 1) 3739 1.577 rillig return !can_represent(ntp, otn); 3740 1.577 rillig } 3741 1.577 rillig return false; 3742 1.577 rillig } 3743 1.577 rillig 3744 1.506 rillig static void 3745 1.506 rillig convert_integer_from_integer(op_t op, int arg, tspec_t nt, tspec_t ot, 3746 1.506 rillig type_t *tp, tnode_t *tn) 3747 1.506 rillig { 3748 1.1 cgd 3749 1.506 rillig if (tn->tn_op == CON) 3750 1.506 rillig return; 3751 1.1 cgd 3752 1.506 rillig if (op == CVT) 3753 1.506 rillig return; 3754 1.1 cgd 3755 1.506 rillig if (Pflag && pflag && aflag > 0 && 3756 1.550 rillig portable_rank_cmp(nt, ot) > 0 && 3757 1.506 rillig is_uinteger(nt) != is_uinteger(ot)) { 3758 1.604 rillig if (op == FARG) 3759 1.506 rillig /* conversion to '%s' may sign-extend ... */ 3760 1.506 rillig warning(297, type_name(tp), arg); 3761 1.604 rillig else 3762 1.506 rillig /* conversion to '%s' may sign-extend ... */ 3763 1.506 rillig warning(131, type_name(tp)); 3764 1.506 rillig } 3765 1.506 rillig 3766 1.550 rillig if (Pflag && portable_rank_cmp(nt, ot) > 0 && 3767 1.506 rillig (tn->tn_op == PLUS || tn->tn_op == MINUS || tn->tn_op == MULT || 3768 1.506 rillig tn->tn_op == SHL)) { 3769 1.506 rillig /* suggest cast from '%s' to '%s' on op '%s' to ... */ 3770 1.506 rillig warning(324, type_name(gettyp(ot)), type_name(tp), 3771 1.506 rillig op_name(tn->tn_op)); 3772 1.506 rillig } 3773 1.506 rillig 3774 1.577 rillig if (should_warn_about_integer_conversion(tp, nt, tn, ot)) { 3775 1.690 rillig if (op == FARG) 3776 1.506 rillig /* conversion from '%s' to '%s' may lose ... */ 3777 1.690 rillig warning(298, expr_type_name(tn), type_name(tp), arg); 3778 1.690 rillig else 3779 1.506 rillig /* conversion from '%s' to '%s' may lose accuracy */ 3780 1.690 rillig warning(132, expr_type_name(tn), type_name(tp)); 3781 1.506 rillig } 3782 1.506 rillig 3783 1.661 rillig if (is_uinteger(nt) != is_uinteger(ot)) 3784 1.506 rillig /* implicit conversion changes sign from '%s' to '%s' */ 3785 1.690 rillig query_message(3, expr_type_name(tn), type_name(tp)); 3786 1.506 rillig } 3787 1.506 rillig 3788 1.506 rillig static void 3789 1.506 rillig convert_integer_from_pointer(op_t op, tspec_t nt, type_t *tp, tnode_t *tn) 3790 1.506 rillig { 3791 1.506 rillig 3792 1.506 rillig if (tn->tn_op == CON) 3793 1.506 rillig return; 3794 1.506 rillig if (op != CVT) 3795 1.514 rillig return; /* We already got an error. */ 3796 1.550 rillig if (portable_rank_cmp(nt, PTR) >= 0) 3797 1.506 rillig return; 3798 1.506 rillig 3799 1.506 rillig if (pflag && size_in_bits(nt) >= size_in_bits(PTR)) { 3800 1.506 rillig /* conversion of pointer to '%s' may lose bits */ 3801 1.506 rillig warning(134, type_name(tp)); 3802 1.506 rillig } else { 3803 1.506 rillig /* conversion of pointer to '%s' loses bits */ 3804 1.506 rillig warning(133, type_name(tp)); 3805 1.506 rillig } 3806 1.506 rillig } 3807 1.506 rillig 3808 1.506 rillig static bool 3809 1.506 rillig struct_starts_with(const type_t *struct_tp, const type_t *member_tp) 3810 1.506 rillig { 3811 1.506 rillig 3812 1.611 rillig return struct_tp->u.sou->sou_first_member != NULL && 3813 1.611 rillig types_compatible(struct_tp->u.sou->sou_first_member->s_type, 3814 1.584 rillig member_tp, true, false, NULL); 3815 1.506 rillig } 3816 1.506 rillig 3817 1.506 rillig static bool 3818 1.506 rillig is_byte_array(const type_t *tp) 3819 1.506 rillig { 3820 1.506 rillig 3821 1.506 rillig return tp->t_tspec == ARRAY && 3822 1.584 rillig (tp->t_subt->t_tspec == CHAR || tp->t_subt->t_tspec == UCHAR); 3823 1.506 rillig } 3824 1.506 rillig 3825 1.506 rillig static bool 3826 1.519 rillig union_contains(const type_t *utp, const type_t *mtp) 3827 1.519 rillig { 3828 1.611 rillig for (const sym_t *mem = utp->u.sou->sou_first_member; 3829 1.584 rillig mem != NULL; mem = mem->s_next) { 3830 1.519 rillig if (types_compatible(mem->s_type, mtp, true, false, NULL)) 3831 1.519 rillig return true; 3832 1.519 rillig } 3833 1.519 rillig return false; 3834 1.519 rillig } 3835 1.519 rillig 3836 1.519 rillig static bool 3837 1.506 rillig should_warn_about_pointer_cast(const type_t *nstp, tspec_t nst, 3838 1.506 rillig const type_t *ostp, tspec_t ost) 3839 1.506 rillig { 3840 1.506 rillig 3841 1.506 rillig while (nst == ARRAY) 3842 1.506 rillig nstp = nstp->t_subt, nst = nstp->t_tspec; 3843 1.506 rillig while (ost == ARRAY) 3844 1.506 rillig ostp = ostp->t_subt, ost = ostp->t_tspec; 3845 1.506 rillig 3846 1.506 rillig if (nst == STRUCT && ost == STRUCT && 3847 1.506 rillig (struct_starts_with(nstp, ostp) || 3848 1.506 rillig struct_starts_with(ostp, nstp))) 3849 1.506 rillig return false; 3850 1.506 rillig 3851 1.506 rillig if (is_incomplete(nstp) || is_incomplete(ostp)) 3852 1.506 rillig return false; 3853 1.506 rillig 3854 1.506 rillig if (nst == CHAR || nst == UCHAR) 3855 1.506 rillig return false; /* for the sake of traditional C code */ 3856 1.506 rillig if (ost == CHAR || ost == UCHAR) 3857 1.506 rillig return false; /* for the sake of traditional C code */ 3858 1.506 rillig 3859 1.506 rillig /* Allow cast between pointers to sockaddr variants. */ 3860 1.506 rillig if (nst == STRUCT && ost == STRUCT) { 3861 1.611 rillig const sym_t *nmem = nstp->u.sou->sou_first_member; 3862 1.611 rillig const sym_t *omem = ostp->u.sou->sou_first_member; 3863 1.506 rillig while (nmem != NULL && omem != NULL && 3864 1.584 rillig types_compatible(nmem->s_type, omem->s_type, 3865 1.584 rillig true, false, NULL)) 3866 1.506 rillig nmem = nmem->s_next, omem = omem->s_next; 3867 1.506 rillig if (nmem != NULL && is_byte_array(nmem->s_type)) 3868 1.506 rillig return false; 3869 1.506 rillig if (omem != NULL && is_byte_array(omem->s_type)) 3870 1.506 rillig return false; 3871 1.506 rillig if (nmem == NULL && omem == NULL) 3872 1.506 rillig return false; 3873 1.506 rillig } 3874 1.506 rillig 3875 1.516 rillig if (nst == UNION || ost == UNION) { 3876 1.516 rillig const type_t *union_tp = nst == UNION ? nstp : ostp; 3877 1.516 rillig const type_t *other_tp = nst == UNION ? ostp : nstp; 3878 1.519 rillig if (union_contains(union_tp, other_tp)) 3879 1.519 rillig return false; 3880 1.516 rillig } 3881 1.516 rillig 3882 1.554 rillig if (is_struct_or_union(nst) && is_struct_or_union(ost)) 3883 1.611 rillig return nstp->u.sou != ostp->u.sou; 3884 1.554 rillig 3885 1.554 rillig enum rank_kind rk1 = type_properties(nst)->tt_rank_kind; 3886 1.554 rillig enum rank_kind rk2 = type_properties(ost)->tt_rank_kind; 3887 1.554 rillig if (rk1 != rk2 || rk1 == RK_NONE) 3888 1.506 rillig return true; 3889 1.506 rillig 3890 1.550 rillig return portable_rank_cmp(nst, ost) != 0; 3891 1.506 rillig } 3892 1.506 rillig 3893 1.506 rillig static void 3894 1.506 rillig convert_pointer_from_pointer(type_t *ntp, tnode_t *tn) 3895 1.506 rillig { 3896 1.509 rillig const type_t *nstp = ntp->t_subt; 3897 1.509 rillig const type_t *otp = tn->tn_type; 3898 1.509 rillig const type_t *ostp = otp->t_subt; 3899 1.509 rillig tspec_t nst = nstp->t_tspec; 3900 1.509 rillig tspec_t ost = ostp->t_tspec; 3901 1.506 rillig 3902 1.506 rillig if (nst == VOID || ost == VOID) { 3903 1.506 rillig /* TODO: C99 behaves like C90 here. */ 3904 1.589 rillig if (!allow_trad && !allow_c99 && (nst == FUNC || ost == FUNC)) { 3905 1.509 rillig const char *nts, *ots; 3906 1.506 rillig /* null pointers are already handled in convert() */ 3907 1.506 rillig *(nst == FUNC ? &nts : &ots) = "function pointer"; 3908 1.506 rillig *(nst == VOID ? &nts : &ots) = "'void *'"; 3909 1.578 rillig /* conversion of %s to %s requires a cast */ 3910 1.506 rillig warning(303, ots, nts); 3911 1.506 rillig } 3912 1.506 rillig return; 3913 1.509 rillig } 3914 1.509 rillig if (nst == FUNC && ost == FUNC) 3915 1.506 rillig return; 3916 1.509 rillig if (nst == FUNC || ost == FUNC) { 3917 1.506 rillig /* converting '%s' to '%s' is questionable */ 3918 1.506 rillig warning(229, type_name(otp), type_name(ntp)); 3919 1.506 rillig return; 3920 1.506 rillig } 3921 1.506 rillig 3922 1.640 rillig if (hflag && alignment(nstp) > alignment(ostp) && 3923 1.677 rillig !is_incomplete(ostp) && alignment(ostp) > 1 && 3924 1.519 rillig !(nst == UNION && union_contains(nstp, ostp))) { 3925 1.506 rillig /* converting '%s' to '%s' increases alignment ... */ 3926 1.506 rillig warning(135, type_name(otp), type_name(ntp), 3927 1.640 rillig alignment(ostp), alignment(nstp)); 3928 1.506 rillig } 3929 1.506 rillig 3930 1.506 rillig if (cflag && should_warn_about_pointer_cast(nstp, nst, ostp, ost)) { 3931 1.652 rillig /* pointer cast from '%s' to unrelated '%s' */ 3932 1.652 rillig warning(247, type_name(ostp), type_name(nstp)); 3933 1.506 rillig } 3934 1.506 rillig } 3935 1.506 rillig 3936 1.506 rillig /* 3937 1.506 rillig * Insert a conversion operator, which converts the type of the node 3938 1.506 rillig * to another given type. 3939 1.506 rillig * 3940 1.506 rillig * Possible values for 'op': 3941 1.506 rillig * CVT a cast-expression 3942 1.506 rillig * binary integer promotion for one of the operands, or a usual 3943 1.506 rillig * arithmetic conversion 3944 1.506 rillig * binary plain or compound assignments to bit-fields 3945 1.574 rillig * FARG 'arg' is the number of the parameter (used for warnings) 3946 1.506 rillig * NOOP several other implicit conversions 3947 1.506 rillig * ... 3948 1.506 rillig */ 3949 1.506 rillig tnode_t * 3950 1.506 rillig convert(op_t op, int arg, type_t *tp, tnode_t *tn) 3951 1.506 rillig { 3952 1.509 rillig tspec_t nt = tp->t_tspec; 3953 1.509 rillig tspec_t ot = tn->tn_type->t_tspec; 3954 1.506 rillig 3955 1.506 rillig if (allow_trad && allow_c90 && op == FARG) 3956 1.506 rillig check_prototype_conversion(arg, nt, ot, tp, tn); 3957 1.506 rillig 3958 1.506 rillig if (nt == BOOL) { 3959 1.506 rillig /* No further checks. */ 3960 1.506 rillig 3961 1.506 rillig } else if (is_integer(nt)) { 3962 1.506 rillig if (ot == BOOL) { 3963 1.506 rillig /* No further checks. */ 3964 1.536 rillig } else if (is_integer(ot)) 3965 1.506 rillig convert_integer_from_integer(op, arg, nt, ot, tp, tn); 3966 1.536 rillig else if (is_floating(ot)) 3967 1.646 rillig convert_integer_from_floating(op, arg, tp, tn); 3968 1.536 rillig else if (ot == PTR) 3969 1.506 rillig convert_integer_from_pointer(op, nt, tp, tn); 3970 1.506 rillig 3971 1.506 rillig } else if (is_floating(nt)) { 3972 1.633 rillig if (is_integer(ot) && op != CVT) { 3973 1.632 rillig /* implicit conversion from integer '%s' to ... */ 3974 1.632 rillig query_message(19, 3975 1.632 rillig type_name(tn->tn_type), type_name(tp)); 3976 1.632 rillig } 3977 1.506 rillig 3978 1.506 rillig } else if (nt == PTR) { 3979 1.506 rillig if (is_null_pointer(tn)) { 3980 1.506 rillig /* a null pointer may be assigned to any pointer. */ 3981 1.536 rillig } else if (ot == PTR && op == CVT) 3982 1.506 rillig convert_pointer_from_pointer(tp, tn); 3983 1.506 rillig } 3984 1.506 rillig 3985 1.509 rillig tnode_t *ntn = expr_alloc_tnode(); 3986 1.506 rillig ntn->tn_op = CVT; 3987 1.506 rillig ntn->tn_type = tp; 3988 1.506 rillig ntn->tn_cast = op == CVT; 3989 1.506 rillig ntn->tn_sys |= tn->tn_sys; 3990 1.612 rillig ntn->u.ops.right = NULL; 3991 1.506 rillig if (tn->tn_op != CON || nt == VOID) { 3992 1.612 rillig ntn->u.ops.left = tn; 3993 1.506 rillig } else { 3994 1.506 rillig ntn->tn_op = CON; 3995 1.612 rillig convert_constant(op, arg, ntn->tn_type, &ntn->u.value, 3996 1.612 rillig &tn->u.value); 3997 1.506 rillig } 3998 1.506 rillig 3999 1.506 rillig return ntn; 4000 1.506 rillig } 4001 1.506 rillig 4002 1.506 rillig static void 4003 1.641 rillig convert_constant_from_floating(op_t op, int arg, const type_t *ntp, 4004 1.641 rillig tspec_t nt, val_t *nv, val_t *ov) 4005 1.506 rillig { 4006 1.527 rillig long double max = 0.0, min = 0.0; 4007 1.506 rillig 4008 1.506 rillig switch (nt) { 4009 1.506 rillig case CHAR: 4010 1.506 rillig max = TARG_CHAR_MAX; min = TARG_CHAR_MIN; break; 4011 1.506 rillig case UCHAR: 4012 1.506 rillig max = TARG_UCHAR_MAX; min = 0; break; 4013 1.506 rillig case SCHAR: 4014 1.506 rillig max = TARG_SCHAR_MAX; min = TARG_SCHAR_MIN; break; 4015 1.506 rillig case SHORT: 4016 1.506 rillig max = TARG_SHRT_MAX; min = TARG_SHRT_MIN; break; 4017 1.506 rillig case USHORT: 4018 1.506 rillig max = TARG_USHRT_MAX; min = 0; break; 4019 1.506 rillig case ENUM: 4020 1.506 rillig case INT: 4021 1.506 rillig max = TARG_INT_MAX; min = TARG_INT_MIN; break; 4022 1.506 rillig case UINT: 4023 1.506 rillig max = TARG_UINT_MAX; min = 0; break; 4024 1.506 rillig case LONG: 4025 1.506 rillig max = TARG_LONG_MAX; min = TARG_LONG_MIN; break; 4026 1.506 rillig case ULONG: 4027 1.506 rillig max = TARG_ULONG_MAX; min = 0; break; 4028 1.545 rillig case LLONG: 4029 1.545 rillig max = LLONG_MAX; min = LLONG_MIN; break; 4030 1.545 rillig case ULLONG: 4031 1.545 rillig max = ULLONG_MAX; min = 0; break; 4032 1.506 rillig case FLOAT: 4033 1.506 rillig case FCOMPLEX: 4034 1.506 rillig max = FLT_MAX; min = -FLT_MAX; break; 4035 1.506 rillig case DOUBLE: 4036 1.506 rillig case DCOMPLEX: 4037 1.506 rillig max = DBL_MAX; min = -DBL_MAX; break; 4038 1.506 rillig case LDOUBLE: 4039 1.506 rillig case LCOMPLEX: 4040 1.641 rillig /* LINTED 248; see floating_error_value. */ 4041 1.506 rillig max = LDBL_MAX; min = -max; break; 4042 1.1 cgd default: 4043 1.680 rillig lint_assert(false); 4044 1.1 cgd } 4045 1.641 rillig if (ov->u.floating > max || ov->u.floating < min) { 4046 1.506 rillig lint_assert(nt != LDOUBLE); 4047 1.641 rillig const char *ot_name = type_name(gettyp(ov->v_tspec)); 4048 1.641 rillig const char *nt_name = type_name(ntp); 4049 1.646 rillig if (is_integer(nt)) 4050 1.646 rillig goto after_warning; 4051 1.641 rillig if (op == FARG) 4052 1.506 rillig /* conversion of '%s' to '%s' is out of range, ... */ 4053 1.641 rillig warning(295, ot_name, nt_name, arg); 4054 1.641 rillig else 4055 1.506 rillig /* conversion of '%s' to '%s' is out of range */ 4056 1.641 rillig warning(119, ot_name, nt_name); 4057 1.646 rillig after_warning: 4058 1.641 rillig ov->u.floating = ov->u.floating > 0 ? max : min; 4059 1.506 rillig } 4060 1.1 cgd 4061 1.536 rillig if (nt == FLOAT || nt == FCOMPLEX) 4062 1.641 rillig nv->u.floating = (float)ov->u.floating; 4063 1.536 rillig else if (nt == DOUBLE || nt == DCOMPLEX) 4064 1.641 rillig nv->u.floating = (double)ov->u.floating; 4065 1.536 rillig else if (nt == LDOUBLE || nt == LCOMPLEX) 4066 1.641 rillig nv->u.floating = ov->u.floating; 4067 1.536 rillig else 4068 1.641 rillig nv->u.integer = (int64_t)ov->u.floating; 4069 1.506 rillig } 4070 1.1 cgd 4071 1.506 rillig static bool 4072 1.506 rillig convert_constant_to_floating(tspec_t nt, val_t *nv, 4073 1.506 rillig tspec_t ot, const val_t *v) 4074 1.506 rillig { 4075 1.506 rillig if (nt == FLOAT) { 4076 1.544 rillig nv->u.floating = (ot == PTR || is_uinteger(ot)) ? 4077 1.544 rillig (float)(uint64_t)v->u.integer : (float)v->u.integer; 4078 1.506 rillig } else if (nt == DOUBLE) { 4079 1.544 rillig nv->u.floating = (ot == PTR || is_uinteger(ot)) ? 4080 1.544 rillig (double)(uint64_t)v->u.integer : (double)v->u.integer; 4081 1.506 rillig } else if (nt == LDOUBLE) { 4082 1.544 rillig nv->u.floating = (ot == PTR || is_uinteger(ot)) 4083 1.544 rillig ? (long double)(uint64_t)v->u.integer 4084 1.544 rillig : (long double)v->u.integer; 4085 1.506 rillig } else 4086 1.506 rillig return false; 4087 1.506 rillig return true; 4088 1.506 rillig } 4089 1.1 cgd 4090 1.672 rillig static void 4091 1.672 rillig warn_constant_truncated(op_t op, const val_t *v) 4092 1.672 rillig { 4093 1.672 rillig char buf[256]; 4094 1.672 rillig bool is_unsigned = is_uinteger(v->v_tspec); 4095 1.672 rillig int64_t val = v->u.integer; 4096 1.672 rillig unsigned long long abs_val = is_unsigned || val >= 0 4097 1.672 rillig ? (unsigned long long)val 4098 1.672 rillig : -(unsigned long long)val; 4099 1.672 rillig const char *sign = is_unsigned || val >= 0 ? "" : "-"; 4100 1.672 rillig snprintf(buf, sizeof(buf), "%s%#llx", sign, abs_val); 4101 1.672 rillig /* constant %s truncated by conversion, op '%s' */ 4102 1.672 rillig warning(306, buf, op_name(op)); 4103 1.672 rillig } 4104 1.672 rillig 4105 1.506 rillig static void 4106 1.506 rillig convert_constant_check_range_bitor(size_t nsz, size_t osz, const val_t *v, 4107 1.506 rillig uint64_t xmask, op_t op) 4108 1.506 rillig { 4109 1.604 rillig if (nsz < osz && (v->u.integer & xmask) != 0) 4110 1.672 rillig warn_constant_truncated(op, v); 4111 1.1 cgd } 4112 1.1 cgd 4113 1.506 rillig static void 4114 1.506 rillig convert_constant_check_range_bitand(size_t nsz, size_t osz, 4115 1.506 rillig uint64_t xmask, const val_t *nv, 4116 1.506 rillig tspec_t ot, const val_t *v, 4117 1.506 rillig const type_t *tp, op_t op) 4118 1.1 cgd { 4119 1.506 rillig if (nsz > osz && 4120 1.544 rillig (nv->u.integer & bit((unsigned int)(osz - 1))) != 0 && 4121 1.544 rillig (nv->u.integer & xmask) != xmask) { 4122 1.685 rillig /* '%s' converts '%s' with its most significant bit being set to '%s' */ 4123 1.685 rillig warning(309, 4124 1.685 rillig op_name(op), type_name(gettyp(ot)), type_name(tp)); 4125 1.506 rillig } else if (nsz < osz && 4126 1.584 rillig (v->u.integer & xmask) != xmask && 4127 1.604 rillig (v->u.integer & xmask) != 0) 4128 1.672 rillig warn_constant_truncated(op, v); 4129 1.506 rillig } 4130 1.1 cgd 4131 1.506 rillig static void 4132 1.644 rillig convert_constant_check_range_signed(op_t op, int arg, 4133 1.644 rillig const type_t *ntp, int64_t ov) 4134 1.506 rillig { 4135 1.604 rillig if (op == ASSIGN) 4136 1.644 rillig /* assignment of negative constant %lld to unsigned ... */ 4137 1.644 rillig warning(164, (long long)ov, type_name(ntp)); 4138 1.604 rillig else if (op == INIT) 4139 1.644 rillig /* initialization of unsigned type '%s' with negative ... */ 4140 1.644 rillig warning(221, type_name(ntp), (long long)ov); 4141 1.604 rillig else if (op == FARG) 4142 1.644 rillig /* conversion of negative constant %lld to unsigned ... */ 4143 1.644 rillig warning(296, (long long)ov, type_name(ntp), arg); 4144 1.604 rillig else if (modtab[op].m_comparison) { 4145 1.506 rillig /* handled by check_integer_comparison() */ 4146 1.604 rillig } else 4147 1.644 rillig /* conversion of negative constant %lld to unsigned ... */ 4148 1.644 rillig warning(222, (long long)ov, type_name(ntp)); 4149 1.506 rillig } 4150 1.1 cgd 4151 1.506 rillig /* 4152 1.509 rillig * Loss of significant bit(s). All truncated bits of unsigned types or all 4153 1.509 rillig * truncated bits plus the msb of the target for signed types are considered 4154 1.509 rillig * to be significant bits. Loss of significant bits means that at least one 4155 1.509 rillig * of the bits was set in an unsigned type or that at least one but not all 4156 1.509 rillig * of the bits was set in a signed type. Loss of significant bits means that 4157 1.509 rillig * it is not possible, also not with necessary casts, to convert back to the 4158 1.527 rillig * original type. An example for a necessary cast is: 4159 1.506 rillig * char c; int i; c = 128; 4160 1.506 rillig * i = c; ** yields -128 ** 4161 1.506 rillig * i = (unsigned char)c; ** yields 128 ** 4162 1.506 rillig */ 4163 1.506 rillig static void 4164 1.536 rillig warn_constant_check_range_truncated(op_t op, int arg, const type_t *tp, 4165 1.536 rillig tspec_t ot) 4166 1.506 rillig { 4167 1.536 rillig if (op == ASSIGN && tp->t_bitfield) 4168 1.506 rillig /* precision lost in bit-field assignment */ 4169 1.506 rillig warning(166); 4170 1.536 rillig else if (op == ASSIGN) 4171 1.506 rillig /* constant truncated by assignment */ 4172 1.506 rillig warning(165); 4173 1.536 rillig else if (op == INIT && tp->t_bitfield) 4174 1.506 rillig /* bit-field initializer does not fit */ 4175 1.506 rillig warning(180); 4176 1.536 rillig else if (op == INIT) 4177 1.506 rillig /* initializer does not fit */ 4178 1.506 rillig warning(178); 4179 1.536 rillig else if (op == CASE) 4180 1.674 rillig /* case label is converted from '%s' to '%s' */ 4181 1.674 rillig warning(196, tspec_name(ot), type_name(tp)); 4182 1.536 rillig else if (op == FARG) 4183 1.506 rillig /* conversion of '%s' to '%s' is out of range, arg #%d */ 4184 1.536 rillig warning(295, type_name(gettyp(ot)), type_name(tp), arg); 4185 1.536 rillig else 4186 1.506 rillig /* conversion of '%s' to '%s' is out of range */ 4187 1.536 rillig warning(119, type_name(gettyp(ot)), type_name(tp)); 4188 1.506 rillig } 4189 1.1 cgd 4190 1.506 rillig static void 4191 1.536 rillig warn_constant_check_range_loss(op_t op, int arg, const type_t *tp, 4192 1.506 rillig tspec_t ot) 4193 1.506 rillig { 4194 1.536 rillig if (op == ASSIGN && tp->t_bitfield) 4195 1.506 rillig /* precision lost in bit-field assignment */ 4196 1.506 rillig warning(166); 4197 1.536 rillig else if (op == INIT && tp->t_bitfield) 4198 1.506 rillig /* bit-field initializer out of range */ 4199 1.506 rillig warning(11); 4200 1.536 rillig else if (op == CASE) 4201 1.674 rillig /* case label is converted from '%s' to '%s' */ 4202 1.674 rillig warning(196, tspec_name(ot), type_name(tp)); 4203 1.536 rillig else if (op == FARG) 4204 1.506 rillig /* conversion of '%s' to '%s' is out of range, arg #%d */ 4205 1.509 rillig warning(295, type_name(gettyp(ot)), type_name(tp), arg); 4206 1.536 rillig else 4207 1.506 rillig /* conversion of '%s' to '%s' is out of range */ 4208 1.509 rillig warning(119, type_name(gettyp(ot)), type_name(tp)); 4209 1.1 cgd } 4210 1.1 cgd 4211 1.506 rillig static void 4212 1.506 rillig convert_constant_check_range(tspec_t ot, const type_t *tp, tspec_t nt, 4213 1.506 rillig op_t op, int arg, const val_t *v, val_t *nv) 4214 1.378 rillig { 4215 1.506 rillig unsigned int obitsz, nbitsz; 4216 1.506 rillig uint64_t xmask, xmsk1; 4217 1.506 rillig 4218 1.506 rillig obitsz = size_in_bits(ot); 4219 1.532 rillig nbitsz = tp->t_bitfield ? tp->t_bit_field_width : size_in_bits(nt); 4220 1.506 rillig xmask = value_bits(nbitsz) ^ value_bits(obitsz); 4221 1.506 rillig xmsk1 = value_bits(nbitsz) ^ value_bits(obitsz - 1); 4222 1.506 rillig if (op == ORASS || op == BITOR || op == BITXOR) { 4223 1.506 rillig convert_constant_check_range_bitor( 4224 1.506 rillig nbitsz, obitsz, v, xmask, op); 4225 1.506 rillig } else if (op == ANDASS || op == BITAND) { 4226 1.506 rillig convert_constant_check_range_bitand( 4227 1.506 rillig nbitsz, obitsz, xmask, nv, ot, v, tp, op); 4228 1.589 rillig } else if (nt != PTR && is_uinteger(nt) && 4229 1.684 rillig ot != PTR && !is_uinteger(ot) && v->u.integer < 0) 4230 1.684 rillig convert_constant_check_range_signed(op, arg, tp, v->u.integer); 4231 1.544 rillig else if (nv->u.integer != v->u.integer && nbitsz <= obitsz && 4232 1.584 rillig (v->u.integer & xmask) != 0 && 4233 1.584 rillig (is_uinteger(ot) || (v->u.integer & xmsk1) != xmsk1)) 4234 1.536 rillig warn_constant_check_range_truncated(op, arg, tp, ot); 4235 1.544 rillig else if (nv->u.integer != v->u.integer) 4236 1.536 rillig warn_constant_check_range_loss(op, arg, tp, ot); 4237 1.378 rillig } 4238 1.378 rillig 4239 1.605 rillig /* Converts a typed constant to a constant of another type. */ 4240 1.506 rillig void 4241 1.605 rillig convert_constant(op_t op, int arg, const type_t *ntp, val_t *nv, val_t *ov) 4242 1.506 rillig { 4243 1.506 rillig /* 4244 1.605 rillig * TODO: make 'ov' const; the name of this function does not suggest 4245 1.605 rillig * that it modifies 'ov'. 4246 1.506 rillig */ 4247 1.605 rillig tspec_t ot = ov->v_tspec; 4248 1.605 rillig tspec_t nt = nv->v_tspec = ntp->t_tspec; 4249 1.509 rillig bool range_check = false; 4250 1.1 cgd 4251 1.506 rillig if (nt == BOOL) { /* C99 6.3.1.2 */ 4252 1.506 rillig nv->v_unsigned_since_c90 = false; 4253 1.605 rillig nv->u.integer = is_nonzero_val(ov) ? 1 : 0; 4254 1.506 rillig return; 4255 1.506 rillig } 4256 1.1 cgd 4257 1.536 rillig if (ot == FLOAT || ot == DOUBLE || ot == LDOUBLE) 4258 1.641 rillig convert_constant_from_floating(op, arg, ntp, nt, nv, ov); 4259 1.605 rillig else if (!convert_constant_to_floating(nt, nv, ot, ov)) { 4260 1.506 rillig range_check = true; /* Check for lost precision. */ 4261 1.605 rillig nv->u.integer = ov->u.integer; 4262 1.506 rillig } 4263 1.1 cgd 4264 1.605 rillig if (allow_trad && allow_c90 && ov->v_unsigned_since_c90 && 4265 1.506 rillig (is_floating(nt) || ( 4266 1.506 rillig (is_integer(nt) && !is_uinteger(nt) && 4267 1.550 rillig portable_rank_cmp(nt, ot) > 0)))) { 4268 1.578 rillig /* C90 treats constant as unsigned */ 4269 1.506 rillig warning(157); 4270 1.605 rillig ov->v_unsigned_since_c90 = false; 4271 1.1 cgd } 4272 1.1 cgd 4273 1.506 rillig if (is_integer(nt)) { 4274 1.605 rillig unsigned int size = ntp->t_bitfield 4275 1.605 rillig ? ntp->t_bit_field_width : size_in_bits(nt); 4276 1.605 rillig nv->u.integer = convert_integer(nv->u.integer, nt, size); 4277 1.1 cgd } 4278 1.1 cgd 4279 1.506 rillig if (range_check && op != CVT) 4280 1.605 rillig convert_constant_check_range(ot, ntp, nt, op, arg, ov, nv); 4281 1.1 cgd } 4282 1.1 cgd 4283 1.1 cgd tnode_t * 4284 1.253 rillig build_sizeof(const type_t *tp) 4285 1.1 cgd { 4286 1.355 rillig unsigned int size_in_bytes = type_size_in_bits(tp) / CHAR_SIZE; 4287 1.318 rillig tnode_t *tn = build_integer_constant(SIZEOF_TSPEC, size_in_bytes); 4288 1.227 rillig tn->tn_system_dependent = true; 4289 1.415 rillig debug_step("build_sizeof '%s' = %u", type_name(tp), size_in_bytes); 4290 1.227 rillig return tn; 4291 1.62 christos } 4292 1.62 christos 4293 1.84 christos tnode_t * 4294 1.592 rillig build_offsetof(const type_t *tp, designation dn) 4295 1.84 christos { 4296 1.576 rillig unsigned int offset_in_bits = 0; 4297 1.392 rillig 4298 1.576 rillig if (!is_struct_or_union(tp->t_tspec)) { 4299 1.113 rillig /* unacceptable operand of '%s' */ 4300 1.84 christos error(111, "offsetof"); 4301 1.576 rillig goto proceed; 4302 1.576 rillig } 4303 1.592 rillig for (size_t i = 0; i < dn.dn_len; i++) { 4304 1.592 rillig const designator *dr = dn.dn_items + i; 4305 1.595 rillig if (dr->dr_kind == DK_SUBSCRIPT) { 4306 1.592 rillig if (tp->t_tspec != ARRAY) 4307 1.592 rillig goto proceed; /* silent error */ 4308 1.592 rillig tp = tp->t_subt; 4309 1.667 rillig offset_in_bits += (unsigned)dr->dr_subscript 4310 1.592 rillig * type_size_in_bits(tp); 4311 1.592 rillig } else { 4312 1.592 rillig if (!is_struct_or_union(tp->t_tspec)) 4313 1.592 rillig goto proceed; /* silent error */ 4314 1.592 rillig const char *name = dr->dr_member->s_name; 4315 1.611 rillig sym_t *mem = find_member(tp->u.sou, name); 4316 1.592 rillig if (mem == NULL) { 4317 1.592 rillig /* type '%s' does not have member '%s' */ 4318 1.592 rillig error(101, name, type_name(tp)); 4319 1.592 rillig goto proceed; 4320 1.592 rillig } 4321 1.592 rillig tp = mem->s_type; 4322 1.592 rillig offset_in_bits += mem->u.s_member.sm_offset_in_bits; 4323 1.592 rillig } 4324 1.576 rillig } 4325 1.592 rillig free(dn.dn_items); 4326 1.89 rillig 4327 1.576 rillig proceed:; 4328 1.576 rillig unsigned int offset_in_bytes = offset_in_bits / CHAR_SIZE; 4329 1.536 rillig tnode_t *tn = build_integer_constant(SIZEOF_TSPEC, offset_in_bytes); 4330 1.227 rillig tn->tn_system_dependent = true; 4331 1.227 rillig return tn; 4332 1.84 christos } 4333 1.84 christos 4334 1.355 rillig unsigned int 4335 1.253 rillig type_size_in_bits(const type_t *tp) 4336 1.62 christos { 4337 1.1 cgd 4338 1.509 rillig unsigned int elem = 1; 4339 1.509 rillig bool flex = false; 4340 1.412 rillig lint_assert(tp != NULL); 4341 1.1 cgd while (tp->t_tspec == ARRAY) { 4342 1.154 rillig flex = true; /* allow c99 flex arrays [] [0] */ 4343 1.611 rillig elem *= tp->u.dimension; 4344 1.1 cgd tp = tp->t_subt; 4345 1.1 cgd } 4346 1.536 rillig if (elem == 0 && !flex) { 4347 1.536 rillig /* cannot take size/alignment of incomplete type */ 4348 1.536 rillig error(143); 4349 1.536 rillig elem = 1; 4350 1.1 cgd } 4351 1.536 rillig 4352 1.536 rillig unsigned int elsz; 4353 1.1 cgd switch (tp->t_tspec) { 4354 1.542 rillig case VOID: 4355 1.542 rillig /* cannot take size/alignment of void */ 4356 1.542 rillig error(146); 4357 1.542 rillig elsz = 1; 4358 1.542 rillig break; 4359 1.1 cgd case FUNC: 4360 1.414 rillig /* cannot take size/alignment of function type '%s' */ 4361 1.414 rillig error(144, type_name(tp)); 4362 1.1 cgd elsz = 1; 4363 1.1 cgd break; 4364 1.1 cgd case STRUCT: 4365 1.1 cgd case UNION: 4366 1.194 rillig if (is_incomplete(tp)) { 4367 1.108 rillig /* cannot take size/alignment of incomplete type */ 4368 1.1 cgd error(143); 4369 1.1 cgd elsz = 1; 4370 1.604 rillig } else 4371 1.611 rillig elsz = tp->u.sou->sou_size_in_bits; 4372 1.1 cgd break; 4373 1.1 cgd case ENUM: 4374 1.194 rillig if (is_incomplete(tp)) { 4375 1.108 rillig /* cannot take size/alignment of incomplete type */ 4376 1.1 cgd warning(143); 4377 1.1 cgd } 4378 1.1 cgd /* FALLTHROUGH */ 4379 1.1 cgd default: 4380 1.604 rillig if (tp->t_bitfield) 4381 1.108 rillig /* cannot take size/alignment of bit-field */ 4382 1.1 cgd error(145); 4383 1.542 rillig elsz = size_in_bits(tp->t_tspec); 4384 1.542 rillig lint_assert(elsz > 0); 4385 1.1 cgd break; 4386 1.1 cgd } 4387 1.1 cgd 4388 1.355 rillig return elem * elsz; 4389 1.1 cgd } 4390 1.1 cgd 4391 1.536 rillig /* C11 6.5.3.4, GCC */ 4392 1.59 christos tnode_t * 4393 1.253 rillig build_alignof(const type_t *tp) 4394 1.59 christos { 4395 1.535 rillig if (tp->t_tspec == FUNC) { 4396 1.414 rillig /* cannot take size/alignment of function type '%s' */ 4397 1.414 rillig error(144, type_name(tp)); 4398 1.534 rillig return NULL; 4399 1.59 christos } 4400 1.535 rillig if (tp->t_tspec == VOID) { 4401 1.535 rillig /* cannot take size/alignment of void */ 4402 1.535 rillig error(146); 4403 1.535 rillig return NULL; 4404 1.535 rillig } 4405 1.535 rillig if (is_incomplete(tp)) { 4406 1.535 rillig /* cannot take size/alignment of incomplete type */ 4407 1.535 rillig error(143); 4408 1.535 rillig return NULL; 4409 1.535 rillig } 4410 1.535 rillig if (tp->t_bitfield) { 4411 1.535 rillig /* cannot take size/alignment of bit-field */ 4412 1.535 rillig error(145); 4413 1.535 rillig return NULL; 4414 1.535 rillig } 4415 1.640 rillig return build_integer_constant(SIZEOF_TSPEC, (int64_t)alignment(tp)); 4416 1.59 christos } 4417 1.59 christos 4418 1.499 rillig static tnode_t * 4419 1.594 rillig cast_to_union(tnode_t *otn, bool sys, type_t *ntp) 4420 1.499 rillig { 4421 1.499 rillig 4422 1.499 rillig if (!allow_gcc) { 4423 1.499 rillig /* union cast is a GCC extension */ 4424 1.499 rillig error(328); 4425 1.499 rillig return NULL; 4426 1.499 rillig } 4427 1.499 rillig 4428 1.611 rillig for (const sym_t *m = ntp->u.sou->sou_first_member; 4429 1.499 rillig m != NULL; m = m->s_next) { 4430 1.499 rillig if (types_compatible(m->s_type, otn->tn_type, 4431 1.499 rillig false, false, NULL)) { 4432 1.594 rillig tnode_t *ntn = build_op(CVT, sys, ntp, otn, NULL); 4433 1.499 rillig ntn->tn_cast = true; 4434 1.499 rillig return ntn; 4435 1.499 rillig } 4436 1.499 rillig } 4437 1.499 rillig 4438 1.499 rillig /* type '%s' is not a member of '%s' */ 4439 1.499 rillig error(329, type_name(otn->tn_type), type_name(ntp)); 4440 1.499 rillig return NULL; 4441 1.499 rillig } 4442 1.499 rillig 4443 1.639 rillig // In GCC mode, allow 'nullptr + offset' as a constant expression. 4444 1.639 rillig static tnode_t * 4445 1.639 rillig null_pointer_offset(tnode_t *tn) 4446 1.639 rillig { 4447 1.639 rillig uint64_t off = 0; 4448 1.639 rillig const tnode_t *n = tn; 4449 1.639 rillig while ((n->tn_op == PLUS || n->tn_op == MINUS) 4450 1.639 rillig && is_integer(n->u.ops.right->tn_type->t_tspec)) { 4451 1.639 rillig off += (uint64_t)n->u.ops.right->u.value.u.integer; 4452 1.639 rillig n = n->u.ops.left; 4453 1.639 rillig } 4454 1.639 rillig if (n->tn_type->t_tspec == PTR 4455 1.639 rillig && n->tn_op == ADDR 4456 1.639 rillig && n->u.ops.left->tn_op == INDIR 4457 1.639 rillig && n->u.ops.left->u.ops.left->tn_op == CON 4458 1.639 rillig && n->u.ops.left->u.ops.left->tn_type->t_tspec == PTR) { 4459 1.639 rillig off += (uint64_t)n->u.ops.left->u.ops.left->u.value.u.integer; 4460 1.639 rillig return build_integer_constant(SIZEOF_TSPEC, (int64_t)off); 4461 1.639 rillig } 4462 1.639 rillig return tn; 4463 1.639 rillig } 4464 1.639 rillig 4465 1.1 cgd tnode_t * 4466 1.594 rillig cast(tnode_t *tn, bool sys, type_t *tp) 4467 1.1 cgd { 4468 1.1 cgd 4469 1.1 cgd if (tn == NULL) 4470 1.95 rillig return NULL; 4471 1.1 cgd 4472 1.1 cgd tn = cconv(tn); 4473 1.1 cgd 4474 1.413 rillig lint_assert(tp != NULL); 4475 1.536 rillig tspec_t nt = tp->t_tspec; 4476 1.536 rillig tspec_t ot = tn->tn_type->t_tspec; 4477 1.1 cgd 4478 1.1 cgd if (nt == VOID) { 4479 1.1 cgd /* 4480 1.586 rillig * C90 6.3.4, C99 6.5.4p2 and C11 6.5.4p2 allow any type to be 4481 1.586 rillig * cast to void. The only other allowed casts are from a 4482 1.429 rillig * scalar type to a scalar type. 4483 1.1 cgd */ 4484 1.536 rillig } else if (nt == UNION) 4485 1.594 rillig return cast_to_union(tn, sys, tp); 4486 1.536 rillig else if (nt == STRUCT || nt == ARRAY || nt == FUNC) { 4487 1.328 rillig /* Casting to a struct is an undocumented GCC extension. */ 4488 1.429 rillig if (!(allow_gcc && nt == STRUCT)) 4489 1.319 rillig goto invalid_cast; 4490 1.536 rillig } else if (is_struct_or_union(ot)) 4491 1.319 rillig goto invalid_cast; 4492 1.536 rillig else if (ot == VOID) { 4493 1.1 cgd /* improper cast of void expression */ 4494 1.1 cgd error(148); 4495 1.95 rillig return NULL; 4496 1.144 rillig } else if (is_integer(nt) && is_scalar(ot)) { 4497 1.639 rillig tn = null_pointer_offset(tn); 4498 1.144 rillig } else if (is_floating(nt) && is_arithmetic(ot)) { 4499 1.1 cgd /* ok */ 4500 1.144 rillig } else if (nt == PTR && is_integer(ot)) { 4501 1.1 cgd /* ok */ 4502 1.1 cgd } else if (nt == PTR && ot == PTR) { 4503 1.7 jpo if (!tp->t_subt->t_const && tn->tn_type->t_subt->t_const) { 4504 1.7 jpo if (hflag) 4505 1.196 rillig /* cast discards 'const' from type '%s' */ 4506 1.196 rillig warning(275, type_name(tn->tn_type)); 4507 1.7 jpo } 4508 1.319 rillig } else 4509 1.319 rillig goto invalid_cast; 4510 1.1 cgd 4511 1.662 rillig if (any_query_enabled 4512 1.662 rillig && types_compatible(tp, tn->tn_type, false, false, NULL)) 4513 1.471 rillig /* no-op cast from '%s' to '%s' */ 4514 1.690 rillig query_message(6, expr_type_name(tn), type_name(tp)); 4515 1.471 rillig 4516 1.1 cgd tn = convert(CVT, 0, tp, tn); 4517 1.154 rillig tn->tn_cast = true; 4518 1.594 rillig tn->tn_sys = sys; 4519 1.1 cgd 4520 1.95 rillig return tn; 4521 1.319 rillig 4522 1.319 rillig invalid_cast: 4523 1.319 rillig /* invalid cast from '%s' to '%s' */ 4524 1.690 rillig error(147, expr_type_name(tn), type_name(tp)); 4525 1.319 rillig return NULL; 4526 1.1 cgd } 4527 1.1 cgd 4528 1.603 rillig void 4529 1.603 rillig add_function_argument(function_call *call, tnode_t *arg) 4530 1.1 cgd { 4531 1.1 cgd /* 4532 1.1 cgd * If there was a serious error in the expression for the argument, 4533 1.1 cgd * create a dummy argument so the positions of the remaining arguments 4534 1.1 cgd * will not change. 4535 1.1 cgd */ 4536 1.1 cgd if (arg == NULL) 4537 1.318 rillig arg = build_integer_constant(INT, 0); 4538 1.1 cgd 4539 1.603 rillig if (call->args_len >= call->args_cap) { 4540 1.603 rillig call->args_cap += 8; 4541 1.603 rillig tnode_t **new_args = expr_zero_alloc( 4542 1.643 rillig call->args_cap * sizeof(*call->args), "tnode*[]"); 4543 1.643 rillig if (call->args_len > 0) 4544 1.643 rillig memcpy(new_args, call->args, 4545 1.643 rillig call->args_len * sizeof(*call->args)); 4546 1.603 rillig call->args = new_args; 4547 1.603 rillig } 4548 1.603 rillig call->args[call->args_len++] = arg; 4549 1.1 cgd } 4550 1.1 cgd 4551 1.1 cgd /* 4552 1.506 rillig * Compare the type of an argument with the corresponding type of a 4553 1.506 rillig * prototype parameter. If it is a valid combination, but both types 4554 1.506 rillig * are not the same, insert a conversion to convert the argument into 4555 1.506 rillig * the type of the parameter. 4556 1.1 cgd */ 4557 1.506 rillig static tnode_t * 4558 1.683 rillig check_prototype_argument(const function_call *call, int arg, 4559 1.683 rillig type_t *tp, tnode_t *tn) 4560 1.1 cgd { 4561 1.526 rillig tnode_t *ln = xcalloc(1, sizeof(*ln)); 4562 1.506 rillig ln->tn_type = expr_unqualified_type(tp); 4563 1.506 rillig ln->tn_lvalue = true; 4564 1.683 rillig if (typeok(FARG, call, arg, ln, tn)) { 4565 1.509 rillig bool dowarn; 4566 1.506 rillig if (!types_compatible(tp, tn->tn_type, 4567 1.506 rillig true, false, (dowarn = false, &dowarn)) || dowarn) 4568 1.683 rillig tn = convert(FARG, arg, tp, tn); 4569 1.1 cgd } 4570 1.506 rillig free(ln); 4571 1.506 rillig return tn; 4572 1.1 cgd } 4573 1.1 cgd 4574 1.1 cgd /* 4575 1.1 cgd * Check types of all function arguments and insert conversions, 4576 1.1 cgd * if necessary. 4577 1.1 cgd */ 4578 1.625 rillig static void 4579 1.603 rillig check_function_arguments(const function_call *call) 4580 1.1 cgd { 4581 1.603 rillig type_t *ftp = call->func->tn_type->t_subt; 4582 1.603 rillig 4583 1.536 rillig /* get # of parameters in the prototype */ 4584 1.536 rillig int npar = 0; 4585 1.611 rillig for (const sym_t *p = ftp->u.params; p != NULL; p = p->s_next) 4586 1.1 cgd npar++; 4587 1.1 cgd 4588 1.603 rillig int narg = (int)call->args_len; 4589 1.1 cgd 4590 1.611 rillig const sym_t *param = ftp->u.params; 4591 1.1 cgd if (ftp->t_proto && npar != narg && !(ftp->t_vararg && npar < narg)) { 4592 1.459 rillig /* argument mismatch: %d %s passed, %d expected */ 4593 1.575 rillig error(150, narg, narg != 1 ? "arguments" : "argument", npar); 4594 1.574 rillig param = NULL; 4595 1.1 cgd } 4596 1.20 lukem 4597 1.625 rillig for (int i = 0; i < narg; i++) { 4598 1.625 rillig tnode_t *arg = call->args[i]; 4599 1.1 cgd 4600 1.106 rillig /* some things which are always not allowed */ 4601 1.603 rillig tspec_t at = arg->tn_type->t_tspec; 4602 1.536 rillig if (at == VOID) { 4603 1.1 cgd /* void expressions may not be arguments, arg #%d */ 4604 1.625 rillig error(151, i + 1); 4605 1.625 rillig return; 4606 1.574 rillig } 4607 1.628 rillig if (is_struct_or_union(at) && is_incomplete(arg->tn_type)) { 4608 1.1 cgd /* argument cannot have unknown size, arg #%d */ 4609 1.625 rillig error(152, i + 1); 4610 1.625 rillig return; 4611 1.574 rillig } 4612 1.574 rillig if (is_integer(at) && 4613 1.603 rillig arg->tn_type->t_is_enum && 4614 1.603 rillig is_incomplete(arg->tn_type)) { 4615 1.1 cgd /* argument cannot have unknown size, arg #%d */ 4616 1.625 rillig warning(152, i + 1); 4617 1.1 cgd } 4618 1.1 cgd 4619 1.603 rillig arg = cconv(arg); 4620 1.625 rillig call->args[i] = arg; 4621 1.1 cgd 4622 1.603 rillig arg = param != NULL 4623 1.683 rillig ? check_prototype_argument(call, i + 1, param->s_type, arg) 4624 1.603 rillig : promote(NOOP, true, arg); 4625 1.625 rillig call->args[i] = arg; 4626 1.1 cgd 4627 1.574 rillig if (param != NULL) 4628 1.574 rillig param = param->s_next; 4629 1.1 cgd } 4630 1.1 cgd } 4631 1.1 cgd 4632 1.687 rillig static bool 4633 1.687 rillig is_gcc_generic_atomic(const char *name) 4634 1.687 rillig { 4635 1.687 rillig // https://gcc.gnu.org/onlinedocs/gcc/_005f_005fatomic-Builtins.html 4636 1.687 rillig return strcmp(name, "__atomic_load_n") == 0 4637 1.687 rillig || strcmp(name, "__atomic_exchange_n") == 0 4638 1.687 rillig || strcmp(name, "__atomic_add_fetch") == 0 4639 1.687 rillig || strcmp(name, "__atomic_sub_fetch") == 0 4640 1.687 rillig || strcmp(name, "__atomic_and_fetch") == 0 4641 1.687 rillig || strcmp(name, "__atomic_xor_fetch") == 0 4642 1.687 rillig || strcmp(name, "__atomic_or_fetch") == 0 4643 1.687 rillig || strcmp(name, "__atomic_nand_fetch") == 0 4644 1.687 rillig || strcmp(name, "__atomic_fetch_add") == 0 4645 1.687 rillig || strcmp(name, "__atomic_fetch_sub") == 0 4646 1.687 rillig || strcmp(name, "__atomic_fetch_and") == 0 4647 1.687 rillig || strcmp(name, "__atomic_fetch_xor") == 0 4648 1.687 rillig || strcmp(name, "__atomic_fetch_or") == 0 4649 1.687 rillig || strcmp(name, "__atomic_fetch_nand") == 0; 4650 1.687 rillig } 4651 1.687 rillig 4652 1.687 rillig static type_t * 4653 1.687 rillig return_type(const function_call *call) 4654 1.687 rillig { 4655 1.687 rillig const tnode_t *func = call->func; 4656 1.687 rillig if (allow_gcc 4657 1.687 rillig && func->tn_op == ADDR 4658 1.687 rillig && func->u.ops.left->tn_op == NAME 4659 1.687 rillig && is_gcc_generic_atomic(func->u.ops.left->u.sym->s_name) 4660 1.687 rillig && call->args_len > 0 4661 1.687 rillig && call->args[0]->tn_type->t_tspec == PTR) 4662 1.687 rillig return call->args[0]->tn_type->t_subt; 4663 1.687 rillig return func->tn_type->t_subt->t_subt; 4664 1.687 rillig } 4665 1.687 rillig 4666 1.506 rillig tnode_t * 4667 1.603 rillig build_function_call(tnode_t *func, bool sys, function_call *call) 4668 1.1 cgd { 4669 1.506 rillig 4670 1.506 rillig if (func == NULL) 4671 1.506 rillig return NULL; 4672 1.506 rillig 4673 1.603 rillig call->func = func; 4674 1.603 rillig check_ctype_function_call(call); 4675 1.506 rillig 4676 1.506 rillig func = cconv(func); 4677 1.603 rillig call->func = func; 4678 1.1 cgd 4679 1.506 rillig if (func->tn_type->t_tspec != PTR || 4680 1.506 rillig func->tn_type->t_subt->t_tspec != FUNC) { 4681 1.506 rillig /* cannot call '%s', must be a function */ 4682 1.690 rillig error(149, expr_type_name(func)); 4683 1.506 rillig return NULL; 4684 1.1 cgd } 4685 1.506 rillig 4686 1.625 rillig check_function_arguments(call); 4687 1.506 rillig 4688 1.603 rillig tnode_t *ntn = expr_alloc_tnode(); 4689 1.634 rillig ntn->tn_op = CALL; 4690 1.687 rillig ntn->tn_type = return_type(call); 4691 1.603 rillig ntn->tn_sys = sys; 4692 1.612 rillig ntn->u.call = call; 4693 1.603 rillig return ntn; 4694 1.1 cgd } 4695 1.1 cgd 4696 1.1 cgd /* 4697 1.1 cgd * Return the value of an integral constant expression. 4698 1.1 cgd * If the expression is not constant or its type is not an integer 4699 1.1 cgd * type, an error message is printed. 4700 1.1 cgd */ 4701 1.1 cgd val_t * 4702 1.541 rillig integer_constant(tnode_t *tn, bool required) 4703 1.1 cgd { 4704 1.1 cgd 4705 1.1 cgd if (tn != NULL) 4706 1.1 cgd tn = cconv(tn); 4707 1.1 cgd if (tn != NULL) 4708 1.172 rillig tn = promote(NOOP, false, tn); 4709 1.1 cgd 4710 1.509 rillig val_t *v = xcalloc(1, sizeof(*v)); 4711 1.1 cgd 4712 1.1 cgd if (tn == NULL) { 4713 1.548 rillig lint_assert(seen_error); 4714 1.325 rillig debug_step("constant node is null; returning 1 instead"); 4715 1.1 cgd v->v_tspec = INT; 4716 1.544 rillig v->u.integer = 1; 4717 1.95 rillig return v; 4718 1.1 cgd } 4719 1.1 cgd 4720 1.1 cgd v->v_tspec = tn->tn_type->t_tspec; 4721 1.1 cgd 4722 1.1 cgd if (tn->tn_op == CON) { 4723 1.612 rillig lint_assert(tn->tn_type->t_tspec == tn->u.value.v_tspec); 4724 1.612 rillig if (is_integer(tn->u.value.v_tspec)) { 4725 1.289 rillig v->v_unsigned_since_c90 = 4726 1.612 rillig tn->u.value.v_unsigned_since_c90; 4727 1.612 rillig v->u.integer = tn->u.value.u.integer; 4728 1.95 rillig return v; 4729 1.1 cgd } 4730 1.612 rillig v->u.integer = (int64_t)tn->u.value.u.floating; 4731 1.604 rillig } else 4732 1.544 rillig v->u.integer = 1; 4733 1.1 cgd 4734 1.31 christos if (required) 4735 1.113 rillig /* integral constant expression expected */ 4736 1.31 christos error(55); 4737 1.31 christos else 4738 1.113 rillig /* variable array dimension is a C99/GCC extension */ 4739 1.45 christos c99ism(318); 4740 1.1 cgd 4741 1.144 rillig if (!is_integer(v->v_tspec)) 4742 1.1 cgd v->v_tspec = INT; 4743 1.1 cgd 4744 1.95 rillig return v; 4745 1.1 cgd } 4746 1.1 cgd 4747 1.1 cgd /* 4748 1.317 rillig * Perform some tests on expressions which can't be done in build_binary() 4749 1.317 rillig * and functions called by build_binary(). These tests must be done here 4750 1.317 rillig * because we need some information about the context in which the operations 4751 1.1 cgd * are performed. 4752 1.684 rillig * After all tests are performed, if free_expr is true, expr() frees the 4753 1.684 rillig * memory for the expression. 4754 1.1 cgd */ 4755 1.1 cgd void 4756 1.684 rillig expr(tnode_t *tn, bool used, bool cond, bool free_expr, bool is_do_while, 4757 1.658 rillig const char *stmt_kind) 4758 1.1 cgd { 4759 1.20 lukem 4760 1.305 rillig if (tn == NULL) { /* in case of errors */ 4761 1.257 rillig expr_free_all(); 4762 1.1 cgd return; 4763 1.1 cgd } 4764 1.1 cgd 4765 1.218 rillig /* expr() is also called in global initializations */ 4766 1.538 rillig if (dcs->d_kind != DLK_EXTERN && !is_do_while) 4767 1.658 rillig check_statement_reachable(stmt_kind); 4768 1.1 cgd 4769 1.684 rillig check_expr_misc(tn, used, cond, !cond, false, false, false); 4770 1.515 rillig if (tn->tn_op == ASSIGN && !tn->tn_parenthesized) { 4771 1.433 rillig if (hflag && cond) 4772 1.1 cgd /* assignment in conditional context */ 4773 1.1 cgd warning(159); 4774 1.1 cgd } 4775 1.164 rillig if (!modtab[tn->tn_op].m_has_side_effect) { 4776 1.1 cgd /* 4777 1.586 rillig * for left operands of COMMA this warning is already printed 4778 1.1 cgd */ 4779 1.684 rillig if (tn->tn_op != COMMA && !used && !cond) 4780 1.100 rillig check_null_effect(tn); 4781 1.1 cgd } 4782 1.326 rillig debug_node(tn); 4783 1.1 cgd 4784 1.684 rillig if (free_expr) 4785 1.257 rillig expr_free_all(); 4786 1.1 cgd } 4787 1.1 cgd 4788 1.613 rillig /* If the expression has the form '*(arr + idx)', check the array index. */ 4789 1.197 rillig static void 4790 1.613 rillig check_array_index(const tnode_t *indir, bool taking_address) 4791 1.197 rillig { 4792 1.613 rillig const tnode_t *plus, *arr, *idx; 4793 1.506 rillig 4794 1.613 rillig if (indir->tn_op == INDIR 4795 1.613 rillig && (plus = indir->u.ops.left, plus->tn_op == PLUS) 4796 1.613 rillig && plus->u.ops.left->tn_op == ADDR 4797 1.613 rillig && (arr = plus->u.ops.left->u.ops.left, true) 4798 1.613 rillig && (arr->tn_op == STRING || arr->tn_op == NAME) 4799 1.613 rillig && arr->tn_type->t_tspec == ARRAY 4800 1.613 rillig && (idx = plus->u.ops.right, idx->tn_op == CON) 4801 1.613 rillig && (!is_incomplete(arr->tn_type) || idx->u.value.u.integer < 0)) 4802 1.613 rillig goto proceed; 4803 1.613 rillig return; 4804 1.197 rillig 4805 1.613 rillig proceed:; 4806 1.613 rillig int elsz = length_in_bits(arr->tn_type->t_subt, NULL); 4807 1.509 rillig if (elsz == 0) 4808 1.341 rillig return; 4809 1.506 rillig elsz /= CHAR_SIZE; 4810 1.506 rillig 4811 1.506 rillig /* Change the unit of the index from bytes to element size. */ 4812 1.613 rillig int64_t con = is_uinteger(idx->tn_type->t_tspec) 4813 1.613 rillig ? (int64_t)((uint64_t)idx->u.value.u.integer / elsz) 4814 1.613 rillig : idx->u.value.u.integer / elsz; 4815 1.506 rillig 4816 1.613 rillig int dim = arr->tn_type->u.dimension + (taking_address ? 1 : 0); 4817 1.341 rillig 4818 1.613 rillig if (!is_uinteger(idx->tn_type->t_tspec) && con < 0) 4819 1.630 rillig /* array subscript %jd cannot be negative */ 4820 1.627 rillig warning(167, (intmax_t)con); 4821 1.604 rillig else if (dim > 0 && (uint64_t)con >= (uint64_t)dim) 4822 1.631 rillig /* array subscript %ju cannot be > %d */ 4823 1.630 rillig warning(168, (uintmax_t)con, dim - 1); 4824 1.1 cgd } 4825 1.1 cgd 4826 1.370 rillig static void 4827 1.370 rillig check_expr_addr(const tnode_t *ln, bool szof, bool fcall) 4828 1.370 rillig { 4829 1.370 rillig /* XXX: Taking warn_about_unreachable into account here feels wrong. */ 4830 1.370 rillig if (ln->tn_op == NAME && (reached || !warn_about_unreachable)) { 4831 1.370 rillig if (!szof) 4832 1.612 rillig mark_as_set(ln->u.sym); 4833 1.612 rillig mark_as_used(ln->u.sym, fcall, szof); 4834 1.370 rillig } 4835 1.613 rillig check_array_index(ln, true); 4836 1.370 rillig } 4837 1.370 rillig 4838 1.536 rillig /* 4839 1.536 rillig * If there is an asm statement in one of the compound statements around, 4840 1.536 rillig * there may be other side effects, so don't warn. 4841 1.536 rillig */ 4842 1.536 rillig static bool 4843 1.536 rillig is_asm_around(void) 4844 1.536 rillig { 4845 1.538 rillig for (decl_level *dl = dcs; dl != NULL; dl = dl->d_enclosing) 4846 1.538 rillig if (dl->d_asm) 4847 1.536 rillig return true; 4848 1.536 rillig return false; 4849 1.536 rillig } 4850 1.536 rillig 4851 1.370 rillig static void 4852 1.370 rillig check_expr_side_effect(const tnode_t *ln, bool szof) 4853 1.1 cgd { 4854 1.370 rillig 4855 1.370 rillig /* XXX: Taking warn_about_unreachable into account here feels wrong. */ 4856 1.370 rillig if (ln->tn_op == NAME && (reached || !warn_about_unreachable)) { 4857 1.612 rillig scl_t sc = ln->u.sym->s_scl; 4858 1.370 rillig if (sc != EXTERN && sc != STATIC && 4859 1.612 rillig !ln->u.sym->s_set && !szof && !is_asm_around()) { 4860 1.459 rillig /* '%s' may be used before set */ 4861 1.612 rillig warning(158, ln->u.sym->s_name); 4862 1.612 rillig mark_as_set(ln->u.sym); 4863 1.370 rillig } 4864 1.612 rillig mark_as_used(ln->u.sym, false, false); 4865 1.370 rillig } 4866 1.370 rillig } 4867 1.1 cgd 4868 1.370 rillig static void 4869 1.370 rillig check_expr_assign(const tnode_t *ln, bool szof) 4870 1.370 rillig { 4871 1.370 rillig /* XXX: Taking warn_about_unreachable into account here feels wrong. */ 4872 1.370 rillig if (ln->tn_op == NAME && !szof && (reached || !warn_about_unreachable)) { 4873 1.612 rillig mark_as_set(ln->u.sym); 4874 1.612 rillig if (ln->u.sym->s_scl == EXTERN) 4875 1.612 rillig outusg(ln->u.sym); 4876 1.370 rillig } 4877 1.613 rillig check_array_index(ln, false); 4878 1.370 rillig } 4879 1.1 cgd 4880 1.370 rillig static void 4881 1.370 rillig check_expr_call(const tnode_t *tn, const tnode_t *ln, 4882 1.433 rillig bool szof, bool vctx, bool cond, bool retval_discarded) 4883 1.370 rillig { 4884 1.370 rillig lint_assert(ln->tn_op == ADDR); 4885 1.612 rillig lint_assert(ln->u.ops.left->tn_op == NAME); 4886 1.612 rillig if (!szof && !is_compiler_builtin(ln->u.ops.left->u.sym->s_name)) 4887 1.433 rillig outcall(tn, vctx || cond, retval_discarded); 4888 1.635 rillig 4889 1.635 rillig const function_call *call = tn->u.call; 4890 1.635 rillig if (call->args_len == 4 || call->args_len == 5) 4891 1.635 rillig check_snprintb(call); 4892 1.370 rillig } 4893 1.1 cgd 4894 1.581 rillig static void 4895 1.603 rillig check_expr_op(op_t op, const tnode_t *ln, bool szof, bool fcall, bool eqwarn) 4896 1.370 rillig { 4897 1.1 cgd switch (op) { 4898 1.169 rillig case ADDR: 4899 1.370 rillig check_expr_addr(ln, szof, fcall); 4900 1.1 cgd break; 4901 1.1 cgd case LOAD: 4902 1.613 rillig check_array_index(ln, false); 4903 1.1 cgd /* FALLTHROUGH */ 4904 1.1 cgd case INCBEF: 4905 1.1 cgd case DECBEF: 4906 1.1 cgd case INCAFT: 4907 1.1 cgd case DECAFT: 4908 1.1 cgd case ADDASS: 4909 1.1 cgd case SUBASS: 4910 1.1 cgd case MULASS: 4911 1.1 cgd case DIVASS: 4912 1.1 cgd case MODASS: 4913 1.1 cgd case ANDASS: 4914 1.1 cgd case ORASS: 4915 1.1 cgd case XORASS: 4916 1.1 cgd case SHLASS: 4917 1.1 cgd case SHRASS: 4918 1.46 christos case REAL: 4919 1.46 christos case IMAG: 4920 1.370 rillig check_expr_side_effect(ln, szof); 4921 1.1 cgd break; 4922 1.1 cgd case ASSIGN: 4923 1.370 rillig check_expr_assign(ln, szof); 4924 1.1 cgd break; 4925 1.1 cgd case EQ: 4926 1.1 cgd if (hflag && eqwarn) 4927 1.113 rillig /* operator '==' found where '=' was expected */ 4928 1.1 cgd warning(160); 4929 1.1 cgd break; 4930 1.443 rillig default: 4931 1.14 christos break; 4932 1.1 cgd } 4933 1.370 rillig } 4934 1.370 rillig 4935 1.440 rillig /* 4936 1.440 rillig * vctx ??? 4937 1.440 rillig * cond whether the expression is a condition that 4938 1.440 rillig * will be compared with 0 4939 1.440 rillig * eqwarn whether the operator '==' might be a 4940 1.440 rillig * misspelled '=' 4941 1.440 rillig * fcall whether the expression is a function call 4942 1.440 rillig * retval_discarded whether the return value of a function call 4943 1.440 rillig * is discarded; such calls will be analyzed by 4944 1.440 rillig * lint2 in messages 4, 8 and 9 4945 1.440 rillig * szof whether the expression is part of a sizeof 4946 1.440 rillig * expression, which means that its value is 4947 1.440 rillig * discarded since only the type is relevant 4948 1.440 rillig */ 4949 1.370 rillig void 4950 1.433 rillig check_expr_misc(const tnode_t *tn, bool vctx, bool cond, 4951 1.381 rillig bool eqwarn, bool fcall, bool retval_discarded, bool szof) 4952 1.370 rillig { 4953 1.370 rillig 4954 1.370 rillig if (tn == NULL) 4955 1.370 rillig return; 4956 1.581 rillig op_t op = tn->tn_op; 4957 1.581 rillig if (op == NAME || op == CON || op == STRING) 4958 1.581 rillig return; 4959 1.634 rillig bool is_direct = op == CALL 4960 1.634 rillig && tn->u.call->func->tn_op == ADDR 4961 1.634 rillig && tn->u.call->func->u.ops.left->tn_op == NAME; 4962 1.634 rillig if (op == CALL) { 4963 1.612 rillig const function_call *call = tn->u.call; 4964 1.634 rillig if (is_direct) 4965 1.603 rillig check_expr_call(tn, call->func, 4966 1.603 rillig szof, vctx, cond, retval_discarded); 4967 1.603 rillig bool discard = op == CVT && tn->tn_type->t_tspec == VOID; 4968 1.634 rillig check_expr_misc(call->func, false, false, false, is_direct, 4969 1.603 rillig discard, szof); 4970 1.625 rillig for (size_t i = 0, n = call->args_len; i < n; i++) 4971 1.625 rillig check_expr_misc(call->args[i], 4972 1.647 rillig true, false, false, false, false, szof); 4973 1.603 rillig return; 4974 1.603 rillig } 4975 1.370 rillig 4976 1.581 rillig lint_assert(has_operands(tn)); 4977 1.612 rillig tnode_t *ln = tn->u.ops.left; 4978 1.612 rillig tnode_t *rn = tn->u.ops.right; 4979 1.603 rillig check_expr_op(op, ln, szof, fcall, eqwarn); 4980 1.581 rillig 4981 1.536 rillig const mod_t *mp = &modtab[op]; 4982 1.536 rillig bool cvctx = mp->m_value_context; 4983 1.536 rillig bool ccond = mp->m_compares_with_zero; 4984 1.536 rillig bool eq = mp->m_warn_if_operand_eq && 4985 1.584 rillig !ln->tn_parenthesized && 4986 1.584 rillig rn != NULL && !rn->tn_parenthesized; 4987 1.173 rillig 4988 1.1 cgd /* 4989 1.586 rillig * Values of operands of ':' are not used if the type of at least 4990 1.586 rillig * one of the operands (for GCC compatibility) is 'void'. 4991 1.586 rillig * 4992 1.1 cgd * XXX test/value context of QUEST should probably be used as 4993 1.586 rillig * context for both operands of COLON. 4994 1.1 cgd */ 4995 1.1 cgd if (op == COLON && tn->tn_type->t_tspec == VOID) 4996 1.433 rillig cvctx = ccond = false; 4997 1.536 rillig bool discard = op == CVT && tn->tn_type->t_tspec == VOID; 4998 1.634 rillig check_expr_misc(ln, cvctx, ccond, eq, is_direct, discard, szof); 4999 1.1 cgd 5000 1.1 cgd switch (op) { 5001 1.1 cgd case LOGAND: 5002 1.1 cgd case LOGOR: 5003 1.173 rillig check_expr_misc(rn, false, true, eq, false, false, szof); 5004 1.1 cgd break; 5005 1.1 cgd case COLON: 5006 1.433 rillig check_expr_misc(rn, cvctx, ccond, eq, false, false, szof); 5007 1.19 mycroft break; 5008 1.19 mycroft case COMMA: 5009 1.441 rillig check_expr_misc(rn, vctx, cond, false, false, false, szof); 5010 1.1 cgd break; 5011 1.1 cgd default: 5012 1.1 cgd if (mp->m_binary) 5013 1.173 rillig check_expr_misc(rn, true, false, eq, false, false, 5014 1.173 rillig szof); 5015 1.1 cgd break; 5016 1.1 cgd } 5017 1.1 cgd } 5018 1.1 cgd 5019 1.1 cgd /* 5020 1.218 rillig * Return whether the expression can be used for static initialization. 5021 1.1 cgd * 5022 1.218 rillig * Constant initialization expressions must be constant or an address 5023 1.1 cgd * of a static object with an optional offset. In the first case, 5024 1.1 cgd * the result is returned in *offsp. In the second case, the static 5025 1.1 cgd * object is returned in *symp and the offset in *offsp. 5026 1.1 cgd * 5027 1.169 rillig * The expression can consist of PLUS, MINUS, ADDR, NAME, STRING and 5028 1.1 cgd * CON. Type conversions are allowed if they do not change binary 5029 1.1 cgd * representation (including width). 5030 1.278 rillig * 5031 1.278 rillig * C99 6.6 "Constant expressions" 5032 1.278 rillig * C99 6.7.8p4 restricts initializers for static storage duration 5033 1.1 cgd */ 5034 1.174 rillig bool 5035 1.253 rillig constant_addr(const tnode_t *tn, const sym_t **symp, ptrdiff_t *offsp) 5036 1.1 cgd { 5037 1.253 rillig const sym_t *sym; 5038 1.1 cgd ptrdiff_t offs1, offs2; 5039 1.526 rillig tspec_t t, ot; 5040 1.1 cgd 5041 1.1 cgd switch (tn->tn_op) { 5042 1.1 cgd case MINUS: 5043 1.612 rillig if (tn->u.ops.right->tn_op == CVT) 5044 1.612 rillig return constant_addr(tn->u.ops.right, symp, offsp); 5045 1.684 rillig if (tn->u.ops.right->tn_op != CON) 5046 1.174 rillig return false; 5047 1.1 cgd /* FALLTHROUGH */ 5048 1.1 cgd case PLUS: 5049 1.1 cgd offs1 = offs2 = 0; 5050 1.612 rillig if (tn->u.ops.left->tn_op == CON) { 5051 1.612 rillig offs1 = (ptrdiff_t)tn->u.ops.left->u.value.u.integer; 5052 1.612 rillig if (!constant_addr(tn->u.ops.right, &sym, &offs2)) 5053 1.174 rillig return false; 5054 1.612 rillig } else if (tn->u.ops.right->tn_op == CON) { 5055 1.612 rillig offs2 = (ptrdiff_t)tn->u.ops.right->u.value.u.integer; 5056 1.1 cgd if (tn->tn_op == MINUS) 5057 1.1 cgd offs2 = -offs2; 5058 1.612 rillig if (!constant_addr(tn->u.ops.left, &sym, &offs1)) 5059 1.174 rillig return false; 5060 1.1 cgd } else { 5061 1.174 rillig return false; 5062 1.1 cgd } 5063 1.1 cgd *symp = sym; 5064 1.1 cgd *offsp = offs1 + offs2; 5065 1.215 rillig return true; 5066 1.169 rillig case ADDR: 5067 1.612 rillig if (tn->u.ops.left->tn_op == NAME) { 5068 1.612 rillig *symp = tn->u.ops.left->u.sym; 5069 1.1 cgd *offsp = 0; 5070 1.215 rillig return true; 5071 1.1 cgd } 5072 1.684 rillig *symp = NULL; 5073 1.684 rillig *offsp = 0; 5074 1.684 rillig return true; 5075 1.1 cgd case CVT: 5076 1.1 cgd t = tn->tn_type->t_tspec; 5077 1.612 rillig ot = tn->u.ops.left->tn_type->t_tspec; 5078 1.144 rillig if ((!is_integer(t) && t != PTR) || 5079 1.144 rillig (!is_integer(ot) && ot != PTR)) { 5080 1.174 rillig return false; 5081 1.90 rillig } 5082 1.380 rillig #if 0 5083 1.586 rillig /*- 5084 1.27 christos * consider: 5085 1.97 rillig * struct foo { 5086 1.97 rillig * unsigned char a; 5087 1.97 rillig * } f = { 5088 1.353 rillig * (unsigned char)(unsigned long) 5089 1.353 rillig * (&(((struct foo *)0)->a)) 5090 1.27 christos * }; 5091 1.353 rillig * since psize(unsigned long) != psize(unsigned char), 5092 1.353 rillig * this fails. 5093 1.27 christos */ 5094 1.27 christos else if (psize(t) != psize(ot)) 5095 1.95 rillig return -1; 5096 1.27 christos #endif 5097 1.612 rillig return constant_addr(tn->u.ops.left, symp, offsp); 5098 1.1 cgd default: 5099 1.174 rillig return false; 5100 1.1 cgd } 5101 1.1 cgd } 5102 1.1 cgd 5103 1.351 rillig /* Append s2 to s1, then free s2. */ 5104 1.600 rillig buffer * 5105 1.600 rillig cat_strings(buffer *s1, buffer *s2) 5106 1.1 cgd { 5107 1.1 cgd 5108 1.600 rillig if ((s1->data != NULL) != (s2->data != NULL)) { 5109 1.1 cgd /* cannot concatenate wide and regular string literals */ 5110 1.1 cgd error(292); 5111 1.351 rillig return s1; 5112 1.1 cgd } 5113 1.1 cgd 5114 1.600 rillig if (s1->data != NULL) { 5115 1.601 rillig while (s1->len + s2->len + 1 > s1->cap) 5116 1.601 rillig s1->cap *= 2; 5117 1.601 rillig s1->data = xrealloc(s1->data, s1->cap); 5118 1.600 rillig memcpy(s1->data + s1->len, s2->data, s2->len + 1); 5119 1.600 rillig free(s2->data); 5120 1.599 rillig } 5121 1.600 rillig s1->len += s2->len; 5122 1.351 rillig free(s2); 5123 1.1 cgd 5124 1.351 rillig return s1; 5125 1.1 cgd } 5126 1.1 cgd 5127 1.403 rillig 5128 1.404 rillig typedef struct stmt_expr { 5129 1.490 rillig memory_pool se_mem; 5130 1.404 rillig sym_t *se_sym; 5131 1.404 rillig struct stmt_expr *se_enclosing; 5132 1.404 rillig } stmt_expr; 5133 1.404 rillig 5134 1.404 rillig static stmt_expr *stmt_exprs; 5135 1.404 rillig 5136 1.404 rillig void 5137 1.404 rillig begin_statement_expr(void) 5138 1.404 rillig { 5139 1.567 rillig debug_enter(); 5140 1.567 rillig 5141 1.404 rillig stmt_expr *se = xmalloc(sizeof(*se)); 5142 1.404 rillig se->se_mem = expr_save_memory(); 5143 1.404 rillig se->se_sym = NULL; 5144 1.404 rillig se->se_enclosing = stmt_exprs; 5145 1.404 rillig stmt_exprs = se; 5146 1.404 rillig } 5147 1.404 rillig 5148 1.403 rillig void 5149 1.403 rillig do_statement_expr(tnode_t *tn) 5150 1.403 rillig { 5151 1.403 rillig block_level--; 5152 1.403 rillig mem_block_level--; 5153 1.418 rillig stmt_exprs->se_sym = tn != NULL 5154 1.418 rillig ? mktempsym(block_dup_type(tn->tn_type)) 5155 1.418 rillig : NULL; /* after a syntax error */ 5156 1.403 rillig mem_block_level++; 5157 1.403 rillig block_level++; 5158 1.556 rillig /* '({ ... })' is a GCC extension */ 5159 1.403 rillig gnuism(320); 5160 1.403 rillig } 5161 1.403 rillig 5162 1.403 rillig tnode_t * 5163 1.403 rillig end_statement_expr(void) 5164 1.403 rillig { 5165 1.567 rillig tnode_t *tn; 5166 1.567 rillig 5167 1.404 rillig stmt_expr *se = stmt_exprs; 5168 1.567 rillig if (se->se_sym == NULL) { 5169 1.567 rillig tn = NULL; /* after a syntax error */ 5170 1.567 rillig goto end; 5171 1.567 rillig } 5172 1.567 rillig 5173 1.567 rillig tn = build_name(se->se_sym, false); 5174 1.417 rillig (void)expr_save_memory(); /* leak */ 5175 1.404 rillig expr_restore_memory(se->se_mem); 5176 1.404 rillig stmt_exprs = se->se_enclosing; 5177 1.404 rillig free(se); 5178 1.567 rillig 5179 1.567 rillig end: 5180 1.567 rillig debug_leave(); 5181 1.403 rillig return tn; 5182 1.403 rillig } 5183 1.569 rillig 5184 1.569 rillig bool 5185 1.569 rillig in_statement_expr(void) 5186 1.569 rillig { 5187 1.569 rillig return stmt_exprs != NULL; 5188 1.569 rillig } 5189
Indexes created Sun Sep 21 18:09:52 GMT 2025