init.c revision 1.95
1 1.95 rillig /* $NetBSD: init.c,v 1.95 2021/03/18 22:08:05 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 1.1 cgd * 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 1.18 jmc #if HAVE_NBTOOL_CONFIG_H 35 1.18 jmc #include "nbtool_config.h" 36 1.18 jmc #endif 37 1.18 jmc 38 1.5 christos #include <sys/cdefs.h> 39 1.10 tv #if defined(__RCSID) && !defined(lint) 40 1.95 rillig __RCSID("$NetBSD: init.c,v 1.95 2021/03/18 22:08:05 rillig Exp $"); 41 1.1 cgd #endif 42 1.1 cgd 43 1.1 cgd #include <stdlib.h> 44 1.17 thorpej #include <string.h> 45 1.1 cgd 46 1.1 cgd #include "lint1.h" 47 1.1 cgd 48 1.53 rillig 49 1.53 rillig /* 50 1.93 rillig * Initialization 51 1.93 rillig * 52 1.93 rillig * Handles initializations of global or local objects, like in: 53 1.93 rillig * 54 1.93 rillig * int number = 12345; 55 1.93 rillig * int number_with_braces = { 12345 }; 56 1.93 rillig * 57 1.93 rillig * int array_of_unknown_size[] = { 111, 222, 333 }; 58 1.93 rillig * int array_flat[2][2] = { 11, 12, 21, 22 }; 59 1.93 rillig * int array_nested[2][2] = { { 11, 12 }, { 21, 22 } }; 60 1.93 rillig * 61 1.93 rillig * struct { int x, y; } point = { 3, 4 }; 62 1.93 rillig * struct { int x, y; } point = { .y = 3, .x = 4 }; 63 1.93 rillig * 64 1.94 rillig * The initializer that follows the '=' may be surrounded by an extra pair of 65 1.94 rillig * braces, like in the example 'number_with_braces'. For multi-dimensional 66 1.94 rillig * arrays, the inner braces may be omitted like in array_flat or spelled out 67 1.94 rillig * like in array_nested. 68 1.93 rillig * 69 1.93 rillig * For the initializer, the grammar parser calls these functions: 70 1.93 rillig * 71 1.94 rillig * init_lbrace for each '{' 72 1.94 rillig * init_using_expr for each value 73 1.94 rillig * init_rbrace for each '}' 74 1.93 rillig * 75 1.93 rillig * The state of the current initialization is stored in initstk, a stack of 76 1.94 rillig * initstack_element, one element per type aggregate level. 77 1.93 rillig * 78 1.94 rillig * Most of the time, the topmost level of initstk contains a scalar type, and 79 1.94 rillig * its remaining count toggles between 1 and 0. 80 1.93 rillig * 81 1.93 rillig * See also: 82 1.93 rillig * C99 6.7.8 "Initialization" 83 1.93 rillig * d_c99_init.c for more examples 84 1.93 rillig */ 85 1.93 rillig 86 1.93 rillig 87 1.93 rillig /* 88 1.89 rillig * Type of stack which is used for initialization of aggregate types. 89 1.54 rillig * 90 1.54 rillig * XXX: Since C99, a stack is an inappropriate data structure for modelling 91 1.54 rillig * an initialization, since the designators don't have to be listed in a 92 1.54 rillig * particular order and can designate parts of sub-objects. The member names 93 1.54 rillig * of non-leaf structs may thus appear repeatedly, as demonstrated in 94 1.54 rillig * d_init_pop_member.c. 95 1.54 rillig * 96 1.54 rillig * XXX: During initialization, there may be members of the top-level struct 97 1.54 rillig * that are partially initialized. The simple i_remaining cannot model this 98 1.54 rillig * appropriately. 99 1.54 rillig * 100 1.54 rillig * See C99 6.7.8, which spans 6 pages full of tricky details and carefully 101 1.54 rillig * selected examples. 102 1.53 rillig */ 103 1.79 rillig typedef struct initstack_element { 104 1.77 rillig 105 1.92 rillig /* 106 1.92 rillig * The type to be initialized at this level. 107 1.92 rillig */ 108 1.92 rillig type_t *i_type; 109 1.92 rillig /* 110 1.92 rillig * The type that is initialized inside a further level of 111 1.92 rillig * braces. It is completely independent from i_type->t_subt. 112 1.92 rillig * 113 1.92 rillig * For example, in 'int var = { init }', initially there is an 114 1.92 rillig * initstack_element with i_subt == int. When the '{' is processed, 115 1.92 rillig * an element with i_type == int is pushed to the stack. When the 116 1.92 rillig * corresponding '}' is processed, the inner element is popped again. 117 1.92 rillig * 118 1.92 rillig * During initialization, only the top 2 elements of the stack are 119 1.92 rillig * looked at. 120 1.92 rillig */ 121 1.92 rillig type_t *i_subt; 122 1.77 rillig 123 1.82 rillig /* 124 1.82 rillig * This level of the initializer requires a '}' to be completed. 125 1.82 rillig * 126 1.82 rillig * Multidimensional arrays do not need a closing brace to complete 127 1.82 rillig * an inner array; for example, { 1, 2, 3, 4 } is a valid initializer 128 1.82 rillig * for int arr[2][2]. 129 1.82 rillig * 130 1.82 rillig * TODO: Do structs containing structs need a closing brace? 131 1.82 rillig * TODO: Do arrays of structs need a closing brace after each struct? 132 1.82 rillig */ 133 1.77 rillig bool i_brace: 1; 134 1.82 rillig 135 1.93 rillig /* Whether i_type is an array of unknown size. */ 136 1.77 rillig bool i_array_of_unknown_size: 1; 137 1.77 rillig bool i_seen_named_member: 1; 138 1.77 rillig 139 1.77 rillig /* 140 1.78 rillig * For structs, the next member to be initialized by an initializer 141 1.78 rillig * without an optional designator. 142 1.77 rillig */ 143 1.77 rillig sym_t *i_current_object; 144 1.77 rillig 145 1.77 rillig /* 146 1.77 rillig * The number of remaining elements. 147 1.77 rillig * 148 1.93 rillig * For an array of unknown size, this is always 0 and thus irrelevant. 149 1.93 rillig * 150 1.77 rillig * XXX: for scalars? 151 1.77 rillig * XXX: for structs? 152 1.77 rillig * XXX: for unions? 153 1.77 rillig * XXX: for arrays? 154 1.77 rillig */ 155 1.77 rillig int i_remaining; 156 1.77 rillig 157 1.77 rillig /* 158 1.77 rillig * The initialization state of the enclosing data structure 159 1.77 rillig * (struct, union, array). 160 1.77 rillig */ 161 1.79 rillig struct initstack_element *i_enclosing; 162 1.79 rillig } initstack_element; 163 1.53 rillig 164 1.55 rillig /* 165 1.55 rillig * The names for a nested C99 initialization designator, in a circular list. 166 1.55 rillig * 167 1.55 rillig * Example: 168 1.55 rillig * struct stat st = { 169 1.55 rillig * .st_size = 123, 170 1.55 rillig * .st_mtim.tv_sec = 45, 171 1.55 rillig * .st_mtim.tv_nsec 172 1.55 rillig * }; 173 1.55 rillig * 174 1.55 rillig * During initialization, this list first contains ["st_size"], then 175 1.55 rillig * ["st_mtim", "tv_sec"], then ["st_mtim", "tv_nsec"]. 176 1.55 rillig */ 177 1.53 rillig typedef struct namlist { 178 1.53 rillig const char *n_name; 179 1.53 rillig struct namlist *n_prev; 180 1.53 rillig struct namlist *n_next; 181 1.53 rillig } namlist_t; 182 1.53 rillig 183 1.53 rillig 184 1.1 cgd /* 185 1.89 rillig * initerr is set as soon as a fatal error occurred in an initialization. 186 1.89 rillig * The effect is that the rest of the initialization is ignored (parsed 187 1.89 rillig * by yacc, expression trees built, but no initialization takes place). 188 1.1 cgd */ 189 1.62 rillig bool initerr; 190 1.1 cgd 191 1.1 cgd /* Pointer to the symbol which is to be initialized. */ 192 1.1 cgd sym_t *initsym; 193 1.1 cgd 194 1.89 rillig /* Points to the top element of the initialization stack. */ 195 1.79 rillig initstack_element *initstk; 196 1.1 cgd 197 1.12 christos /* Points to a c9x named member; */ 198 1.12 christos namlist_t *namedmem = NULL; 199 1.12 christos 200 1.1 cgd 201 1.82 rillig static bool init_array_using_string(tnode_t *); 202 1.12 christos 203 1.12 christos #ifndef DEBUG 204 1.90 rillig 205 1.75 rillig #define debug_printf(fmt, ...) do { } while (false) 206 1.75 rillig #define debug_indent() do { } while (false) 207 1.75 rillig #define debug_enter(a) do { } while (false) 208 1.75 rillig #define debug_step(fmt, ...) do { } while (false) 209 1.75 rillig #define debug_leave(a) do { } while (false) 210 1.90 rillig #define debug_named_member() do { } while (false) 211 1.90 rillig #define debug_initstack_element(elem) do { } while (false) 212 1.90 rillig #define debug_initstack() do { } while (false) 213 1.90 rillig 214 1.12 christos #else 215 1.90 rillig 216 1.68 rillig static int debug_ind = 0; 217 1.68 rillig 218 1.68 rillig static void __printflike(1, 2) 219 1.68 rillig debug_printf(const char *fmt, ...) 220 1.68 rillig { 221 1.68 rillig va_list va; 222 1.68 rillig 223 1.68 rillig va_start(va, fmt); 224 1.68 rillig vfprintf(stdout, fmt, va); 225 1.68 rillig va_end(va); 226 1.68 rillig } 227 1.68 rillig 228 1.68 rillig static void 229 1.68 rillig debug_indent(void) 230 1.68 rillig { 231 1.68 rillig debug_printf("%*s", 2 * debug_ind, ""); 232 1.68 rillig } 233 1.68 rillig 234 1.68 rillig static void 235 1.68 rillig debug_enter(const char *func) 236 1.68 rillig { 237 1.68 rillig printf("%*s+ %s\n", 2 * debug_ind++, "", func); 238 1.68 rillig } 239 1.68 rillig 240 1.68 rillig static void __printflike(1, 2) 241 1.68 rillig debug_step(const char *fmt, ...) 242 1.68 rillig { 243 1.68 rillig va_list va; 244 1.68 rillig 245 1.68 rillig printf("%*s", 2 * debug_ind, ""); 246 1.68 rillig va_start(va, fmt); 247 1.68 rillig vfprintf(stdout, fmt, va); 248 1.68 rillig va_end(va); 249 1.68 rillig printf("\n"); 250 1.68 rillig } 251 1.68 rillig 252 1.68 rillig static void 253 1.68 rillig debug_leave(const char *func) 254 1.68 rillig { 255 1.68 rillig printf("%*s- %s\n", 2 * --debug_ind, "", func); 256 1.68 rillig } 257 1.68 rillig 258 1.55 rillig static void 259 1.68 rillig debug_named_member(void) 260 1.55 rillig { 261 1.55 rillig namlist_t *name; 262 1.55 rillig 263 1.55 rillig if (namedmem == NULL) 264 1.55 rillig return; 265 1.55 rillig name = namedmem; 266 1.68 rillig debug_indent(); 267 1.68 rillig debug_printf("named member:"); 268 1.55 rillig do { 269 1.68 rillig debug_printf(" %s", name->n_name); 270 1.55 rillig name = name->n_next; 271 1.55 rillig } while (name != namedmem); 272 1.68 rillig debug_printf("\n"); 273 1.55 rillig } 274 1.1 cgd 275 1.78 rillig static void 276 1.79 rillig debug_initstack_element(const initstack_element *elem) 277 1.74 rillig { 278 1.78 rillig if (elem->i_type != NULL) 279 1.78 rillig debug_step(" i_type = %s", type_name(elem->i_type)); 280 1.78 rillig if (elem->i_subt != NULL) 281 1.78 rillig debug_step(" i_subt = %s", type_name(elem->i_subt)); 282 1.78 rillig 283 1.78 rillig if (elem->i_brace) 284 1.78 rillig debug_step(" i_brace"); 285 1.78 rillig if (elem->i_array_of_unknown_size) 286 1.78 rillig debug_step(" i_array_of_unknown_size"); 287 1.78 rillig if (elem->i_seen_named_member) 288 1.78 rillig debug_step(" i_seen_named_member"); 289 1.78 rillig 290 1.78 rillig const type_t *eff_type = elem->i_type != NULL 291 1.78 rillig ? elem->i_type : elem->i_subt; 292 1.78 rillig if (eff_type->t_tspec == STRUCT && elem->i_current_object != NULL) 293 1.78 rillig debug_step(" i_current_object = %s", 294 1.78 rillig elem->i_current_object->s_name); 295 1.78 rillig 296 1.78 rillig debug_step(" i_remaining = %d", elem->i_remaining); 297 1.74 rillig } 298 1.74 rillig 299 1.73 rillig static void 300 1.73 rillig debug_initstack(void) 301 1.73 rillig { 302 1.73 rillig if (initstk == NULL) { 303 1.73 rillig debug_step("initstk is empty"); 304 1.73 rillig return; 305 1.73 rillig } 306 1.73 rillig 307 1.73 rillig size_t i = 0; 308 1.79 rillig for (const initstack_element *elem = initstk; 309 1.77 rillig elem != NULL; elem = elem->i_enclosing) { 310 1.73 rillig debug_step("initstk[%zu]:", i); 311 1.78 rillig debug_initstack_element(elem); 312 1.73 rillig i++; 313 1.73 rillig } 314 1.73 rillig } 315 1.90 rillig 316 1.90 rillig #define debug_enter() debug_enter(__func__) 317 1.90 rillig #define debug_leave() debug_leave(__func__) 318 1.90 rillig 319 1.73 rillig #endif 320 1.73 rillig 321 1.90 rillig void 322 1.90 rillig push_member(sbuf_t *sb) 323 1.90 rillig { 324 1.90 rillig namlist_t *nam = xcalloc(1, sizeof (namlist_t)); 325 1.90 rillig nam->n_name = sb->sb_name; 326 1.90 rillig 327 1.90 rillig debug_step("%s: '%s' %p", __func__, nam->n_name, nam); 328 1.90 rillig 329 1.90 rillig if (namedmem == NULL) { 330 1.90 rillig /* 331 1.90 rillig * XXX: Why is this a circular list? 332 1.90 rillig * XXX: Why is this a doubly-linked list? 333 1.90 rillig * A simple stack should suffice. 334 1.90 rillig */ 335 1.90 rillig nam->n_prev = nam->n_next = nam; 336 1.90 rillig namedmem = nam; 337 1.90 rillig } else { 338 1.90 rillig namedmem->n_prev->n_next = nam; 339 1.90 rillig nam->n_prev = namedmem->n_prev; 340 1.90 rillig nam->n_next = namedmem; 341 1.90 rillig namedmem->n_prev = nam; 342 1.90 rillig } 343 1.90 rillig } 344 1.90 rillig 345 1.91 rillig /* 346 1.91 rillig * A struct member that has array type is initialized using a designator. 347 1.91 rillig * 348 1.91 rillig * C99 example: struct { int member[4]; } var = { [2] = 12345 }; 349 1.91 rillig * 350 1.91 rillig * GNU example: struct { int member[4]; } var = { [1 ... 3] = 12345 }; 351 1.91 rillig */ 352 1.91 rillig void 353 1.91 rillig designator_push_subscript(range_t range) 354 1.91 rillig { 355 1.91 rillig debug_enter(); 356 1.91 rillig debug_step("subscript range is %zu ... %zu", range.lo, range.hi); 357 1.91 rillig debug_initstack(); 358 1.91 rillig debug_leave(); 359 1.91 rillig } 360 1.91 rillig 361 1.90 rillig static void 362 1.90 rillig pop_member(void) 363 1.90 rillig { 364 1.90 rillig debug_step("%s: %s %p", __func__, namedmem->n_name, namedmem); 365 1.90 rillig if (namedmem->n_next == namedmem) { 366 1.90 rillig free(namedmem); 367 1.90 rillig namedmem = NULL; 368 1.90 rillig } else { 369 1.90 rillig namlist_t *nam = namedmem; 370 1.90 rillig namedmem = namedmem->n_next; 371 1.90 rillig nam->n_prev->n_next = nam->n_next; 372 1.90 rillig nam->n_next->n_prev = nam->n_prev; 373 1.90 rillig free(nam); 374 1.90 rillig } 375 1.90 rillig } 376 1.90 rillig 377 1.1 cgd /* 378 1.89 rillig * Initialize the initialization stack by putting an entry for the object 379 1.1 cgd * which is to be initialized on it. 380 1.1 cgd */ 381 1.1 cgd void 382 1.35 rillig initstack_init(void) 383 1.1 cgd { 384 1.79 rillig initstack_element *istk; 385 1.1 cgd 386 1.1 cgd if (initerr) 387 1.1 cgd return; 388 1.1 cgd 389 1.89 rillig /* free memory used in last initialization */ 390 1.1 cgd while ((istk = initstk) != NULL) { 391 1.77 rillig initstk = istk->i_enclosing; 392 1.1 cgd free(istk); 393 1.1 cgd } 394 1.1 cgd 395 1.70 rillig debug_enter(); 396 1.38 rillig 397 1.1 cgd /* 398 1.77 rillig * If the type which is to be initialized is an incomplete array, 399 1.1 cgd * it must be duplicated. 400 1.1 cgd */ 401 1.65 rillig if (initsym->s_type->t_tspec == ARRAY && is_incomplete(initsym->s_type)) 402 1.1 cgd initsym->s_type = duptyp(initsym->s_type); 403 1.1 cgd 404 1.79 rillig istk = initstk = xcalloc(1, sizeof (initstack_element)); 405 1.1 cgd istk->i_subt = initsym->s_type; 406 1.43 rillig istk->i_remaining = 1; 407 1.70 rillig 408 1.73 rillig debug_initstack(); 409 1.70 rillig debug_leave(); 410 1.1 cgd } 411 1.1 cgd 412 1.1 cgd static void 413 1.35 rillig initstack_pop_item(void) 414 1.1 cgd { 415 1.79 rillig initstack_element *istk; 416 1.1 cgd sym_t *m; 417 1.1 cgd 418 1.68 rillig debug_enter(); 419 1.68 rillig 420 1.41 rillig istk = initstk; 421 1.80 rillig debug_step("popping:"); 422 1.80 rillig debug_initstack_element(istk); 423 1.40 rillig 424 1.77 rillig initstk = istk->i_enclosing; 425 1.1 cgd free(istk); 426 1.1 cgd istk = initstk; 427 1.44 rillig lint_assert(istk != NULL); 428 1.26 christos 429 1.43 rillig istk->i_remaining--; 430 1.44 rillig lint_assert(istk->i_remaining >= 0); 431 1.1 cgd 432 1.94 rillig debug_step("new stack with updated remaining:"); 433 1.80 rillig debug_initstack_element(istk); 434 1.40 rillig 435 1.80 rillig if (namedmem != NULL) { 436 1.80 rillig debug_step("initializing named member '%s'", namedmem->n_name); 437 1.38 rillig 438 1.80 rillig /* XXX: undefined behavior if this is reached with an array? */ 439 1.67 rillig for (m = istk->i_type->t_str->sou_first_member; 440 1.67 rillig m != NULL; m = m->s_next) { 441 1.80 rillig 442 1.48 rillig if (m->s_bitfield && m->s_name == unnamed) 443 1.12 christos continue; 444 1.80 rillig 445 1.12 christos if (strcmp(m->s_name, namedmem->n_name) == 0) { 446 1.80 rillig debug_step("found matching member"); 447 1.12 christos istk->i_subt = m->s_type; 448 1.80 rillig /* XXX: why ++? */ 449 1.43 rillig istk->i_remaining++; 450 1.80 rillig /* XXX: why is i_seen_named_member not set? */ 451 1.34 rillig pop_member(); 452 1.73 rillig debug_initstack(); 453 1.68 rillig debug_leave(); 454 1.12 christos return; 455 1.12 christos } 456 1.12 christos } 457 1.80 rillig 458 1.50 rillig /* undefined struct/union member: %s */ 459 1.12 christos error(101, namedmem->n_name); 460 1.80 rillig 461 1.34 rillig pop_member(); 462 1.77 rillig istk->i_seen_named_member = true; 463 1.73 rillig debug_initstack(); 464 1.68 rillig debug_leave(); 465 1.12 christos return; 466 1.12 christos } 467 1.80 rillig 468 1.1 cgd /* 469 1.1 cgd * If the removed element was a structure member, we must go 470 1.1 cgd * to the next structure member. 471 1.1 cgd */ 472 1.43 rillig if (istk->i_remaining > 0 && istk->i_type->t_tspec == STRUCT && 473 1.77 rillig !istk->i_seen_named_member) { 474 1.1 cgd do { 475 1.77 rillig m = istk->i_current_object = 476 1.77 rillig istk->i_current_object->s_next; 477 1.80 rillig /* XXX: can this assertion be made to fail? */ 478 1.44 rillig lint_assert(m != NULL); 479 1.68 rillig debug_step("pop %s", m->s_name); 480 1.48 rillig } while (m->s_bitfield && m->s_name == unnamed); 481 1.80 rillig /* XXX: duplicate code for skipping unnamed bit-fields */ 482 1.1 cgd istk->i_subt = m->s_type; 483 1.1 cgd } 484 1.73 rillig debug_initstack(); 485 1.68 rillig debug_leave(); 486 1.1 cgd } 487 1.1 cgd 488 1.36 rillig /* 489 1.36 rillig * Take all entries, including the first which requires a closing brace, 490 1.36 rillig * from the stack. 491 1.36 rillig */ 492 1.36 rillig static void 493 1.36 rillig initstack_pop_brace(void) 494 1.36 rillig { 495 1.62 rillig bool brace; 496 1.36 rillig 497 1.68 rillig debug_enter(); 498 1.73 rillig debug_initstack(); 499 1.36 rillig do { 500 1.36 rillig brace = initstk->i_brace; 501 1.68 rillig debug_step("loop brace=%d", brace); 502 1.36 rillig initstack_pop_item(); 503 1.36 rillig } while (!brace); 504 1.73 rillig debug_initstack(); 505 1.68 rillig debug_leave(); 506 1.36 rillig } 507 1.36 rillig 508 1.36 rillig /* 509 1.36 rillig * Take all entries which cannot be used for further initializers from the 510 1.36 rillig * stack, but do this only if they do not require a closing brace. 511 1.36 rillig */ 512 1.1 cgd static void 513 1.36 rillig initstack_pop_nobrace(void) 514 1.1 cgd { 515 1.7 lukem 516 1.68 rillig debug_enter(); 517 1.43 rillig while (!initstk->i_brace && initstk->i_remaining == 0 && 518 1.77 rillig !initstk->i_array_of_unknown_size) 519 1.36 rillig initstack_pop_item(); 520 1.68 rillig debug_leave(); 521 1.1 cgd } 522 1.1 cgd 523 1.1 cgd static void 524 1.35 rillig initstack_push(void) 525 1.1 cgd { 526 1.79 rillig initstack_element *istk, *inxt; 527 1.1 cgd int cnt; 528 1.1 cgd sym_t *m; 529 1.1 cgd 530 1.68 rillig debug_enter(); 531 1.68 rillig 532 1.1 cgd istk = initstk; 533 1.1 cgd 534 1.1 cgd /* Extend an incomplete array type by one element */ 535 1.43 rillig if (istk->i_remaining == 0) { 536 1.1 cgd /* 537 1.1 cgd * Inside of other aggregate types must not be an incomplete 538 1.1 cgd * type. 539 1.1 cgd */ 540 1.77 rillig lint_assert(istk->i_enclosing->i_enclosing == NULL); 541 1.85 rillig lint_assert(istk->i_type->t_tspec == ARRAY); 542 1.93 rillig 543 1.85 rillig debug_step("extending array of unknown size '%s'", 544 1.85 rillig type_name(istk->i_type)); 545 1.43 rillig istk->i_remaining = 1; 546 1.1 cgd istk->i_type->t_dim++; 547 1.63 rillig setcomplete(istk->i_type, true); 548 1.93 rillig 549 1.85 rillig debug_step("extended type is '%s'", type_name(istk->i_type)); 550 1.1 cgd } 551 1.1 cgd 552 1.44 rillig lint_assert(istk->i_remaining > 0); 553 1.61 rillig lint_assert(istk->i_type == NULL || !is_scalar(istk->i_type->t_tspec)); 554 1.1 cgd 555 1.79 rillig initstk = xcalloc(1, sizeof (initstack_element)); 556 1.77 rillig initstk->i_enclosing = istk; 557 1.1 cgd initstk->i_type = istk->i_subt; 558 1.44 rillig lint_assert(initstk->i_type->t_tspec != FUNC); 559 1.1 cgd 560 1.12 christos again: 561 1.1 cgd istk = initstk; 562 1.1 cgd 563 1.88 rillig debug_step("expecting type '%s'", type_name(istk->i_type)); 564 1.1 cgd switch (istk->i_type->t_tspec) { 565 1.1 cgd case ARRAY: 566 1.62 rillig if (namedmem != NULL) { 567 1.68 rillig debug_step("ARRAY %s brace=%d", 568 1.68 rillig namedmem->n_name, istk->i_brace); 569 1.19 christos goto pop; 570 1.77 rillig } else if (istk->i_enclosing->i_seen_named_member) { 571 1.62 rillig istk->i_brace = true; 572 1.68 rillig debug_step("ARRAY brace=%d, namedmem=%d", 573 1.77 rillig istk->i_brace, 574 1.77 rillig istk->i_enclosing->i_seen_named_member); 575 1.20 christos } 576 1.20 christos 577 1.65 rillig if (is_incomplete(istk->i_type) && 578 1.77 rillig istk->i_enclosing->i_enclosing != NULL) { 579 1.89 rillig /* initialization of an incomplete type */ 580 1.1 cgd error(175); 581 1.62 rillig initerr = true; 582 1.73 rillig debug_initstack(); 583 1.68 rillig debug_leave(); 584 1.1 cgd return; 585 1.1 cgd } 586 1.1 cgd istk->i_subt = istk->i_type->t_subt; 587 1.77 rillig istk->i_array_of_unknown_size = is_incomplete(istk->i_type); 588 1.43 rillig istk->i_remaining = istk->i_type->t_dim; 589 1.93 rillig debug_named_member(); 590 1.93 rillig debug_step("type '%s' remaining %d", 591 1.93 rillig type_name(istk->i_type), istk->i_remaining); 592 1.1 cgd break; 593 1.1 cgd case UNION: 594 1.1 cgd if (tflag) 595 1.89 rillig /* initialization of union is illegal in trad. C */ 596 1.1 cgd warning(238); 597 1.1 cgd /* FALLTHROUGH */ 598 1.1 cgd case STRUCT: 599 1.65 rillig if (is_incomplete(istk->i_type)) { 600 1.89 rillig /* initialization of an incomplete type */ 601 1.1 cgd error(175); 602 1.62 rillig initerr = true; 603 1.73 rillig debug_initstack(); 604 1.68 rillig debug_leave(); 605 1.1 cgd return; 606 1.1 cgd } 607 1.1 cgd cnt = 0; 608 1.93 rillig debug_named_member(); 609 1.93 rillig debug_step("lookup for '%s'%s", 610 1.57 rillig type_name(istk->i_type), 611 1.93 rillig istk->i_seen_named_member ? ", seen named member" : ""); 612 1.67 rillig for (m = istk->i_type->t_str->sou_first_member; 613 1.67 rillig m != NULL; m = m->s_next) { 614 1.48 rillig if (m->s_bitfield && m->s_name == unnamed) 615 1.1 cgd continue; 616 1.12 christos if (namedmem != NULL) { 617 1.68 rillig debug_step("named lhs.member=%s, rhs.member=%s", 618 1.68 rillig m->s_name, namedmem->n_name); 619 1.12 christos if (strcmp(m->s_name, namedmem->n_name) == 0) { 620 1.12 christos cnt++; 621 1.12 christos break; 622 1.12 christos } else 623 1.12 christos continue; 624 1.12 christos } 625 1.1 cgd if (++cnt == 1) { 626 1.77 rillig istk->i_current_object = m; 627 1.1 cgd istk->i_subt = m->s_type; 628 1.1 cgd } 629 1.1 cgd } 630 1.12 christos if (namedmem != NULL) { 631 1.12 christos if (m == NULL) { 632 1.68 rillig debug_step("pop struct"); 633 1.19 christos goto pop; 634 1.28 rillig } 635 1.77 rillig istk->i_current_object = m; 636 1.26 christos istk->i_subt = m->s_type; 637 1.77 rillig istk->i_seen_named_member = true; 638 1.95 rillig debug_step("named member '%s'", namedmem->n_name); 639 1.34 rillig pop_member(); 640 1.12 christos cnt = istk->i_type->t_tspec == STRUCT ? 2 : 1; 641 1.12 christos } 642 1.62 rillig istk->i_brace = true; 643 1.95 rillig debug_step("unnamed element with type '%s'%s", 644 1.74 rillig type_name( 645 1.74 rillig istk->i_type != NULL ? istk->i_type : istk->i_subt), 646 1.95 rillig istk->i_brace ? ", needs closing brace" : ""); 647 1.1 cgd if (cnt == 0) { 648 1.1 cgd /* cannot init. struct/union with no named member */ 649 1.1 cgd error(179); 650 1.62 rillig initerr = true; 651 1.73 rillig debug_initstack(); 652 1.68 rillig debug_leave(); 653 1.1 cgd return; 654 1.1 cgd } 655 1.43 rillig istk->i_remaining = istk->i_type->t_tspec == STRUCT ? cnt : 1; 656 1.1 cgd break; 657 1.1 cgd default: 658 1.62 rillig if (namedmem != NULL) { 659 1.68 rillig debug_step("pop"); 660 1.19 christos pop: 661 1.77 rillig inxt = initstk->i_enclosing; 662 1.12 christos free(istk); 663 1.22 ad initstk = inxt; 664 1.12 christos goto again; 665 1.12 christos } 666 1.92 rillig /* XXX: Why is this set to 1 unconditionally? */ 667 1.43 rillig istk->i_remaining = 1; 668 1.1 cgd break; 669 1.1 cgd } 670 1.68 rillig 671 1.73 rillig debug_initstack(); 672 1.68 rillig debug_leave(); 673 1.1 cgd } 674 1.1 cgd 675 1.1 cgd static void 676 1.84 rillig check_too_many_initializers(void) 677 1.1 cgd { 678 1.1 cgd 679 1.84 rillig const initstack_element *istk = initstk; 680 1.84 rillig if (istk->i_remaining > 0) 681 1.84 rillig return; 682 1.84 rillig if (istk->i_array_of_unknown_size || istk->i_seen_named_member) 683 1.84 rillig return; 684 1.1 cgd 685 1.84 rillig tspec_t t = istk->i_type->t_tspec; 686 1.84 rillig if (t == ARRAY) { 687 1.84 rillig /* too many array initializers, expected %d */ 688 1.84 rillig error(173, istk->i_type->t_dim); 689 1.84 rillig } else if (t == STRUCT || t == UNION) { 690 1.84 rillig /* too many struct/union initializers */ 691 1.84 rillig error(172); 692 1.84 rillig } else { 693 1.84 rillig /* too many initializers */ 694 1.84 rillig error(174); 695 1.1 cgd } 696 1.84 rillig initerr = true; 697 1.1 cgd } 698 1.1 cgd 699 1.92 rillig /* 700 1.92 rillig * Process a '{' in an initializer by starting the initialization of the 701 1.92 rillig * nested data structure, with i_type being the i_subt of the outer 702 1.92 rillig * initialization level. 703 1.92 rillig */ 704 1.1 cgd static void 705 1.37 rillig initstack_next_brace(void) 706 1.1 cgd { 707 1.7 lukem 708 1.68 rillig debug_enter(); 709 1.73 rillig debug_initstack(); 710 1.68 rillig 711 1.61 rillig if (initstk->i_type != NULL && is_scalar(initstk->i_type->t_tspec)) { 712 1.49 rillig /* invalid initializer type %s */ 713 1.57 rillig error(176, type_name(initstk->i_type)); 714 1.62 rillig initerr = true; 715 1.37 rillig } 716 1.37 rillig if (!initerr) 717 1.84 rillig check_too_many_initializers(); 718 1.37 rillig if (!initerr) 719 1.37 rillig initstack_push(); 720 1.37 rillig if (!initerr) { 721 1.62 rillig initstk->i_brace = true; 722 1.92 rillig debug_named_member(); 723 1.92 rillig debug_step("expecting type '%s'", 724 1.92 rillig type_name(initstk->i_type != NULL ? initstk->i_type 725 1.74 rillig : initstk->i_subt)); 726 1.37 rillig } 727 1.68 rillig 728 1.73 rillig debug_initstack(); 729 1.68 rillig debug_leave(); 730 1.37 rillig } 731 1.37 rillig 732 1.37 rillig static void 733 1.37 rillig initstack_next_nobrace(void) 734 1.37 rillig { 735 1.68 rillig debug_enter(); 736 1.37 rillig 737 1.61 rillig if (initstk->i_type == NULL && !is_scalar(initstk->i_subt->t_tspec)) { 738 1.37 rillig /* {}-enclosed initializer required */ 739 1.37 rillig error(181); 740 1.92 rillig /* XXX: maybe set initerr here */ 741 1.37 rillig } 742 1.37 rillig 743 1.84 rillig if (!initerr) 744 1.84 rillig check_too_many_initializers(); 745 1.84 rillig 746 1.71 rillig /* 747 1.71 rillig * Make sure an entry with a scalar type is at the top of the stack. 748 1.71 rillig * 749 1.92 rillig * FIXME: Since C99, an initializer for an object with automatic 750 1.71 rillig * storage need not be a constant expression anymore. It is 751 1.71 rillig * perfectly fine to initialize a struct with a struct expression, 752 1.71 rillig * see d_struct_init_nested.c for a demonstration. 753 1.71 rillig */ 754 1.42 rillig while (!initerr) { 755 1.42 rillig if ((initstk->i_type != NULL && 756 1.61 rillig is_scalar(initstk->i_type->t_tspec))) 757 1.42 rillig break; 758 1.42 rillig initstack_push(); 759 1.1 cgd } 760 1.68 rillig 761 1.73 rillig debug_initstack(); 762 1.68 rillig debug_leave(); 763 1.1 cgd } 764 1.1 cgd 765 1.1 cgd void 766 1.34 rillig init_lbrace(void) 767 1.1 cgd { 768 1.1 cgd if (initerr) 769 1.1 cgd return; 770 1.1 cgd 771 1.68 rillig debug_enter(); 772 1.73 rillig debug_initstack(); 773 1.68 rillig 774 1.1 cgd if ((initsym->s_scl == AUTO || initsym->s_scl == REG) && 775 1.77 rillig initstk->i_enclosing == NULL) { 776 1.61 rillig if (tflag && !is_scalar(initstk->i_subt->t_tspec)) 777 1.50 rillig /* no automatic aggregate initialization in trad. C */ 778 1.1 cgd warning(188); 779 1.1 cgd } 780 1.1 cgd 781 1.1 cgd /* 782 1.1 cgd * Remove all entries which cannot be used for further initializers 783 1.1 cgd * and do not expect a closing brace. 784 1.1 cgd */ 785 1.36 rillig initstack_pop_nobrace(); 786 1.1 cgd 787 1.37 rillig initstack_next_brace(); 788 1.68 rillig 789 1.73 rillig debug_initstack(); 790 1.68 rillig debug_leave(); 791 1.1 cgd } 792 1.1 cgd 793 1.92 rillig /* 794 1.92 rillig * Process a '}' in an initializer by finishing the current level of the 795 1.92 rillig * initialization stack. 796 1.92 rillig */ 797 1.1 cgd void 798 1.34 rillig init_rbrace(void) 799 1.1 cgd { 800 1.1 cgd if (initerr) 801 1.1 cgd return; 802 1.1 cgd 803 1.68 rillig debug_enter(); 804 1.36 rillig initstack_pop_brace(); 805 1.68 rillig debug_leave(); 806 1.1 cgd } 807 1.1 cgd 808 1.86 rillig /* In traditional C, bit-fields can be initialized only by integer constants. */ 809 1.86 rillig static void 810 1.86 rillig check_bit_field_init(const tnode_t *ln, tspec_t lt, tspec_t rt) 811 1.86 rillig { 812 1.86 rillig if (tflag && 813 1.86 rillig is_integer(lt) && 814 1.86 rillig ln->tn_type->t_bitfield && 815 1.86 rillig !is_integer(rt)) { 816 1.89 rillig /* bit-field initialization is illegal in traditional C */ 817 1.86 rillig warning(186); 818 1.86 rillig } 819 1.86 rillig } 820 1.86 rillig 821 1.87 rillig static void 822 1.87 rillig check_non_constant_initializer(const tnode_t *tn, scl_t sclass) 823 1.87 rillig { 824 1.87 rillig if (tn == NULL || tn->tn_op == CON) 825 1.87 rillig return; 826 1.87 rillig 827 1.87 rillig sym_t *sym; 828 1.87 rillig ptrdiff_t offs; 829 1.87 rillig if (constant_addr(tn, &sym, &offs)) 830 1.87 rillig return; 831 1.87 rillig 832 1.87 rillig if (sclass == AUTO || sclass == REG) { 833 1.87 rillig /* non-constant initializer */ 834 1.87 rillig c99ism(177); 835 1.87 rillig } else { 836 1.87 rillig /* non-constant initializer */ 837 1.87 rillig error(177); 838 1.87 rillig } 839 1.87 rillig } 840 1.87 rillig 841 1.1 cgd void 842 1.69 rillig init_using_expr(tnode_t *tn) 843 1.1 cgd { 844 1.1 cgd tspec_t lt, rt; 845 1.1 cgd tnode_t *ln; 846 1.1 cgd struct mbl *tmem; 847 1.81 rillig scl_t sclass; 848 1.1 cgd 849 1.68 rillig debug_enter(); 850 1.92 rillig debug_initstack(); 851 1.68 rillig debug_named_member(); 852 1.95 rillig debug_step("expr:"); 853 1.95 rillig debug_node(tn, debug_ind + 1); 854 1.55 rillig 855 1.68 rillig if (initerr || tn == NULL) { 856 1.68 rillig debug_leave(); 857 1.25 christos return; 858 1.68 rillig } 859 1.1 cgd 860 1.81 rillig sclass = initsym->s_scl; 861 1.1 cgd 862 1.1 cgd /* 863 1.89 rillig * Do not test for automatic aggregate initialization. If the 864 1.9 wiz * initializer starts with a brace we have the warning already. 865 1.1 cgd * If not, an error will be printed that the initializer must 866 1.1 cgd * be enclosed by braces. 867 1.1 cgd */ 868 1.1 cgd 869 1.1 cgd /* 870 1.89 rillig * Local initialization of non-array-types with only one expression 871 1.1 cgd * without braces is done by ASSIGN 872 1.1 cgd */ 873 1.81 rillig if ((sclass == AUTO || sclass == REG) && 874 1.77 rillig initsym->s_type->t_tspec != ARRAY && initstk->i_enclosing == NULL) { 875 1.82 rillig debug_step("handing over to ASSIGN"); 876 1.60 rillig ln = new_name_node(initsym, 0); 877 1.1 cgd ln->tn_type = tduptyp(ln->tn_type); 878 1.62 rillig ln->tn_type->t_const = false; 879 1.1 cgd tn = build(ASSIGN, ln, tn); 880 1.66 rillig expr(tn, false, false, false, false); 881 1.82 rillig /* XXX: why not clean up the initstack here already? */ 882 1.68 rillig debug_leave(); 883 1.25 christos return; 884 1.1 cgd } 885 1.1 cgd 886 1.36 rillig initstack_pop_nobrace(); 887 1.1 cgd 888 1.82 rillig if (init_array_using_string(tn)) { 889 1.82 rillig debug_step("after initializing the string:"); 890 1.82 rillig /* XXX: why not clean up the initstack here already? */ 891 1.73 rillig debug_initstack(); 892 1.68 rillig debug_leave(); 893 1.25 christos return; 894 1.68 rillig } 895 1.1 cgd 896 1.37 rillig initstack_next_nobrace(); 897 1.68 rillig if (initerr || tn == NULL) { 898 1.73 rillig debug_initstack(); 899 1.68 rillig debug_leave(); 900 1.25 christos return; 901 1.68 rillig } 902 1.1 cgd 903 1.43 rillig initstk->i_remaining--; 904 1.83 rillig debug_step("%d elements remaining", initstk->i_remaining); 905 1.83 rillig 906 1.1 cgd /* Create a temporary node for the left side. */ 907 1.1 cgd ln = tgetblk(sizeof (tnode_t)); 908 1.1 cgd ln->tn_op = NAME; 909 1.1 cgd ln->tn_type = tduptyp(initstk->i_type); 910 1.62 rillig ln->tn_type->t_const = false; 911 1.62 rillig ln->tn_lvalue = true; 912 1.1 cgd ln->tn_sym = initsym; /* better than nothing */ 913 1.1 cgd 914 1.1 cgd tn = cconv(tn); 915 1.1 cgd 916 1.1 cgd lt = ln->tn_type->t_tspec; 917 1.1 cgd rt = tn->tn_type->t_tspec; 918 1.1 cgd 919 1.92 rillig lint_assert(is_scalar(lt)); /* at least before C99 */ 920 1.1 cgd 921 1.93 rillig debug_step("typeok '%s', '%s'", 922 1.93 rillig type_name(ln->tn_type), type_name(tn->tn_type)); 923 1.68 rillig if (!typeok(INIT, 0, ln, tn)) { 924 1.73 rillig debug_initstack(); 925 1.68 rillig debug_leave(); 926 1.25 christos return; 927 1.68 rillig } 928 1.1 cgd 929 1.1 cgd /* 930 1.38 rillig * Store the tree memory. This is necessary because otherwise 931 1.1 cgd * expr() would free it. 932 1.1 cgd */ 933 1.1 cgd tmem = tsave(); 934 1.66 rillig expr(tn, true, false, true, false); 935 1.1 cgd trestor(tmem); 936 1.7 lukem 937 1.86 rillig check_bit_field_init(ln, lt, rt); 938 1.1 cgd 939 1.93 rillig /* 940 1.93 rillig * XXX: Is it correct to do this conversion _after_ the typeok above? 941 1.93 rillig */ 942 1.59 rillig if (lt != rt || (initstk->i_type->t_bitfield && tn->tn_op == CON)) 943 1.1 cgd tn = convert(INIT, 0, initstk->i_type, tn); 944 1.1 cgd 945 1.87 rillig check_non_constant_initializer(tn, sclass); 946 1.68 rillig 947 1.73 rillig debug_initstack(); 948 1.68 rillig debug_leave(); 949 1.1 cgd } 950 1.1 cgd 951 1.1 cgd 952 1.82 rillig /* Initialize a character array or wchar_t array with a string literal. */ 953 1.62 rillig static bool 954 1.82 rillig init_array_using_string(tnode_t *tn) 955 1.1 cgd { 956 1.1 cgd tspec_t t; 957 1.79 rillig initstack_element *istk; 958 1.1 cgd int len; 959 1.1 cgd strg_t *strg; 960 1.1 cgd 961 1.1 cgd if (tn->tn_op != STRING) 962 1.63 rillig return false; 963 1.1 cgd 964 1.68 rillig debug_enter(); 965 1.73 rillig debug_initstack(); 966 1.68 rillig 967 1.1 cgd istk = initstk; 968 1.47 rillig strg = tn->tn_string; 969 1.1 cgd 970 1.1 cgd /* 971 1.1 cgd * Check if we have an array type which can be initialized by 972 1.1 cgd * the string. 973 1.1 cgd */ 974 1.12 christos if (istk->i_subt != NULL && istk->i_subt->t_tspec == ARRAY) { 975 1.68 rillig debug_step("subt array"); 976 1.1 cgd t = istk->i_subt->t_subt->t_tspec; 977 1.1 cgd if (!((strg->st_tspec == CHAR && 978 1.1 cgd (t == CHAR || t == UCHAR || t == SCHAR)) || 979 1.1 cgd (strg->st_tspec == WCHAR && t == WCHAR))) { 980 1.68 rillig debug_leave(); 981 1.63 rillig return false; 982 1.1 cgd } 983 1.82 rillig /* XXX: duplicate code, see below */ 984 1.1 cgd /* Put the array at top of stack */ 985 1.35 rillig initstack_push(); 986 1.1 cgd istk = initstk; 987 1.1 cgd } else if (istk->i_type != NULL && istk->i_type->t_tspec == ARRAY) { 988 1.68 rillig debug_step("type array"); 989 1.1 cgd t = istk->i_type->t_subt->t_tspec; 990 1.1 cgd if (!((strg->st_tspec == CHAR && 991 1.1 cgd (t == CHAR || t == UCHAR || t == SCHAR)) || 992 1.1 cgd (strg->st_tspec == WCHAR && t == WCHAR))) { 993 1.68 rillig debug_leave(); 994 1.63 rillig return false; 995 1.1 cgd } 996 1.82 rillig /* XXX: duplicate code, see above */ 997 1.1 cgd /* 998 1.1 cgd * If the array is already partly initialized, we are 999 1.1 cgd * wrong here. 1000 1.1 cgd */ 1001 1.43 rillig if (istk->i_remaining != istk->i_type->t_dim) 1002 1.68 rillig debug_leave(); 1003 1.63 rillig return false; 1004 1.1 cgd } else { 1005 1.68 rillig debug_leave(); 1006 1.63 rillig return false; 1007 1.1 cgd } 1008 1.1 cgd 1009 1.1 cgd /* Get length without trailing NUL character. */ 1010 1.1 cgd len = strg->st_len; 1011 1.1 cgd 1012 1.77 rillig if (istk->i_array_of_unknown_size) { 1013 1.77 rillig istk->i_array_of_unknown_size = false; 1014 1.1 cgd istk->i_type->t_dim = len + 1; 1015 1.63 rillig setcomplete(istk->i_type, true); 1016 1.1 cgd } else { 1017 1.1 cgd if (istk->i_type->t_dim < len) { 1018 1.1 cgd /* non-null byte ignored in string initializer */ 1019 1.1 cgd warning(187); 1020 1.1 cgd } 1021 1.1 cgd } 1022 1.1 cgd 1023 1.1 cgd /* In every case the array is initialized completely. */ 1024 1.43 rillig istk->i_remaining = 0; 1025 1.1 cgd 1026 1.73 rillig debug_initstack(); 1027 1.68 rillig debug_leave(); 1028 1.63 rillig return true; 1029 1.1 cgd } 1030
Indexes created Tue Sep 23 23:09:58 GMT 2025