lex.c revision 1.125
1 1.125 rillig /* $NetBSD: lex.c,v 1.125 2022/04/30 20:24:57 rillig Exp $ */ 2 1.1 rillig 3 1.1 rillig /* 4 1.1 rillig * Copyright (c) 1996 Christopher G. Demetriou. All Rights Reserved. 5 1.1 rillig * Copyright (c) 1994, 1995 Jochen Pohl 6 1.1 rillig * All Rights Reserved. 7 1.1 rillig * 8 1.1 rillig * Redistribution and use in source and binary forms, with or without 9 1.1 rillig * modification, are permitted provided that the following conditions 10 1.1 rillig * are met: 11 1.1 rillig * 1. Redistributions of source code must retain the above copyright 12 1.1 rillig * notice, this list of conditions and the following disclaimer. 13 1.1 rillig * 2. Redistributions in binary form must reproduce the above copyright 14 1.1 rillig * notice, this list of conditions and the following disclaimer in the 15 1.1 rillig * documentation and/or other materials provided with the distribution. 16 1.1 rillig * 3. All advertising materials mentioning features or use of this software 17 1.1 rillig * must display the following acknowledgement: 18 1.1 rillig * This product includes software developed by Jochen Pohl for 19 1.1 rillig * The NetBSD Project. 20 1.1 rillig * 4. The name of the author may not be used to endorse or promote products 21 1.1 rillig * derived from this software without specific prior written permission. 22 1.1 rillig * 23 1.1 rillig * THIS SOFTWARE IS PROVIDED BY THE AUTHOR ``AS IS'' AND ANY EXPRESS OR 24 1.1 rillig * IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES 25 1.1 rillig * OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. 26 1.1 rillig * IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY DIRECT, INDIRECT, 27 1.1 rillig * INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT 28 1.1 rillig * NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, 29 1.1 rillig * DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY 30 1.1 rillig * THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT 31 1.1 rillig * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF 32 1.1 rillig * THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. 33 1.1 rillig */ 34 1.1 rillig 35 1.4 christos #if HAVE_NBTOOL_CONFIG_H 36 1.4 christos #include "nbtool_config.h" 37 1.4 christos #endif 38 1.4 christos 39 1.1 rillig #include <sys/cdefs.h> 40 1.1 rillig #if defined(__RCSID) && !defined(lint) 41 1.125 rillig __RCSID("$NetBSD: lex.c,v 1.125 2022/04/30 20:24:57 rillig Exp $"); 42 1.1 rillig #endif 43 1.1 rillig 44 1.1 rillig #include <ctype.h> 45 1.1 rillig #include <errno.h> 46 1.1 rillig #include <float.h> 47 1.1 rillig #include <limits.h> 48 1.1 rillig #include <math.h> 49 1.1 rillig #include <stdlib.h> 50 1.1 rillig #include <string.h> 51 1.1 rillig 52 1.1 rillig #include "lint1.h" 53 1.1 rillig #include "cgram.h" 54 1.1 rillig 55 1.72 rillig #define CHAR_MASK ((1U << CHAR_SIZE) - 1) 56 1.1 rillig 57 1.1 rillig 58 1.1 rillig /* Current position (it's also updated when an included file is parsed) */ 59 1.23 rillig pos_t curr_pos = { "", 1, 0 }; 60 1.1 rillig 61 1.1 rillig /* 62 1.1 rillig * Current position in C source (not updated when an included file is 63 1.1 rillig * parsed). 64 1.1 rillig */ 65 1.23 rillig pos_t csrc_pos = { "", 1, 0 }; 66 1.1 rillig 67 1.94 rillig bool in_gcc_attribute; 68 1.94 rillig bool in_system_header; 69 1.1 rillig 70 1.125 rillig /* 71 1.125 rillig * Valid values for 'since' are 78, 90, 99, 11. 72 1.125 rillig * 73 1.125 rillig * As of 2022-04-30, lint treats 11 like 99, in order to provide good error 74 1.125 rillig * messages instead of a simple parse error. If the keyword '_Generic' were 75 1.125 rillig * not defined, it would be interpreted as an implicit function call, leading 76 1.125 rillig * to a parse error. 77 1.125 rillig */ 78 1.122 rillig #define kwdef(name, token, scl, tspec, tqual, since, gcc, attr, deco) \ 79 1.13 rillig { \ 80 1.13 rillig name, token, scl, tspec, tqual, \ 81 1.122 rillig (since) == 90, \ 82 1.122 rillig /* CONSTCOND */ (since) == 99 || (since) == 11, \ 83 1.122 rillig (gcc) > 0, (attr) > 0, \ 84 1.66 rillig ((deco) & 1) != 0, ((deco) & 2) != 0, ((deco) & 4) != 0, \ 85 1.13 rillig } 86 1.122 rillig #define kwdef_token(name, token, since, gcc, deco) \ 87 1.122 rillig kwdef(name, token, 0, 0, 0, since, gcc, 0, deco) 88 1.122 rillig #define kwdef_sclass(name, sclass, since, gcc, deco) \ 89 1.122 rillig kwdef(name, T_SCLASS, sclass, 0, 0, since, gcc, 0, deco) 90 1.122 rillig #define kwdef_type(name, tspec, since, gcc, deco) \ 91 1.122 rillig kwdef(name, T_TYPE, 0, tspec, 0, since, gcc, 0, deco) 92 1.122 rillig #define kwdef_tqual(name, tqual, since, gcc, deco) \ 93 1.122 rillig kwdef(name, T_QUAL, 0, 0, tqual, since, gcc, 0, deco) 94 1.35 rillig #define kwdef_keyword(name, token) \ 95 1.122 rillig kwdef(name, token, 0, 0, 0, 78, 0, 0, 1) 96 1.34 rillig #define kwdef_gcc_attr(name, token) \ 97 1.122 rillig kwdef(name, token, 0, 0, 0, 78, 1, 1, 5) 98 1.13 rillig 99 1.94 rillig /* During initialization, these keywords are written to the symbol table. */ 100 1.106 rillig static const struct keyword { 101 1.1 rillig const char *kw_name; /* keyword */ 102 1.1 rillig int kw_token; /* token returned by yylex() */ 103 1.1 rillig scl_t kw_scl; /* storage class if kw_token T_SCLASS */ 104 1.1 rillig tspec_t kw_tspec; /* type spec. if kw_token 105 1.1 rillig * T_TYPE or T_STRUCT_OR_UNION */ 106 1.13 rillig tqual_t kw_tqual; /* type qual. if kw_token T_QUAL */ 107 1.93 rillig bool kw_c90:1; /* C90 keyword */ 108 1.93 rillig bool kw_c99:1; /* C99 keyword */ 109 1.93 rillig bool kw_gcc:1; /* GCC keyword */ 110 1.122 rillig bool kw_attr:1; /* GCC attribute */ 111 1.93 rillig bool kw_plain:1; /* 'name' */ 112 1.93 rillig bool kw_leading:1; /* '__name' */ 113 1.93 rillig bool kw_both:1; /* '__name__' */ 114 1.94 rillig } keywords[] = { 115 1.35 rillig kwdef_keyword( "_Alignas", T_ALIGNAS), 116 1.35 rillig kwdef_keyword( "_Alignof", T_ALIGNOF), 117 1.122 rillig kwdef_token( "__alignof__", T_ALIGNOF, 78,0,1), 118 1.122 rillig kwdef_token( "asm", T_ASM, 78,1,7), 119 1.122 rillig kwdef_token( "attribute", T_ATTRIBUTE, 78,1,6), 120 1.122 rillig kwdef_sclass( "auto", AUTO, 78,0,1), 121 1.122 rillig kwdef_type( "_Bool", BOOL, 99,0,1), 122 1.35 rillig kwdef_keyword( "break", T_BREAK), 123 1.122 rillig kwdef_token( "__builtin_offsetof", T_BUILTIN_OFFSETOF, 78,1,1), 124 1.35 rillig kwdef_keyword( "case", T_CASE), 125 1.122 rillig kwdef_type( "char", CHAR, 78,0,1), 126 1.122 rillig kwdef_type( "_Complex", COMPLEX, 99,0,1), 127 1.122 rillig kwdef_tqual( "const", CONST, 90,0,7), 128 1.35 rillig kwdef_keyword( "continue", T_CONTINUE), 129 1.35 rillig kwdef_keyword( "default", T_DEFAULT), 130 1.35 rillig kwdef_keyword( "do", T_DO), 131 1.122 rillig kwdef_type( "double", DOUBLE, 78,0,1), 132 1.35 rillig kwdef_keyword( "else", T_ELSE), 133 1.35 rillig kwdef_keyword( "enum", T_ENUM), 134 1.122 rillig kwdef_token( "__extension__",T_EXTENSION, 78,1,1), 135 1.122 rillig kwdef_sclass( "extern", EXTERN, 78,0,1), 136 1.122 rillig kwdef_type( "float", FLOAT, 78,0,1), 137 1.35 rillig kwdef_keyword( "for", T_FOR), 138 1.122 rillig kwdef_token( "_Generic", T_GENERIC, 11,0,1), 139 1.35 rillig kwdef_keyword( "goto", T_GOTO), 140 1.35 rillig kwdef_keyword( "if", T_IF), 141 1.122 rillig kwdef_token( "__imag__", T_IMAG, 78,1,1), 142 1.122 rillig kwdef_sclass( "inline", INLINE, 99,0,7), 143 1.122 rillig kwdef_type( "int", INT, 78,0,1), 144 1.56 rillig #ifdef INT128_SIZE 145 1.122 rillig kwdef_type( "__int128_t", INT128, 99,0,1), 146 1.56 rillig #endif 147 1.122 rillig kwdef_type( "long", LONG, 78,0,1), 148 1.124 rillig kwdef_token( "_Noreturn", T_NORETURN, 11,0,1), 149 1.124 rillig kwdef_token( "__packed", T_PACKED, 78,0,1), 150 1.124 rillig kwdef_token( "__real__", T_REAL, 78,1,1), 151 1.124 rillig kwdef_sclass( "register", REG, 78,0,1), 152 1.124 rillig kwdef_tqual( "restrict", RESTRICT, 99,0,7), 153 1.124 rillig kwdef_keyword( "return", T_RETURN), 154 1.124 rillig kwdef( "section", T_AT_SECTION, 0,0,0, 78,1,1,7), 155 1.124 rillig kwdef_type( "short", SHORT, 78,0,1), 156 1.124 rillig kwdef_type( "signed", SIGNED, 90,0,3), 157 1.124 rillig kwdef_keyword( "sizeof", T_SIZEOF), 158 1.124 rillig kwdef_sclass( "static", STATIC, 78,0,1), 159 1.124 rillig kwdef_keyword( "_Static_assert", T_STATIC_ASSERT), 160 1.124 rillig kwdef("struct", T_STRUCT_OR_UNION, 0, STRUCT, 0, 78,0,0,1), 161 1.124 rillig kwdef_keyword( "switch", T_SWITCH), 162 1.124 rillig kwdef_token( "__symbolrename", T_SYMBOLRENAME, 78,0,1), 163 1.124 rillig kwdef_tqual( "__thread", THREAD, 78,1,1), 164 1.124 rillig kwdef_tqual( "_Thread_local", THREAD, 11,0,1), 165 1.124 rillig kwdef_sclass( "typedef", TYPEDEF, 78,0,1), 166 1.124 rillig kwdef_token( "typeof", T_TYPEOF, 78,1,7), 167 1.124 rillig #ifdef INT128_SIZE 168 1.124 rillig kwdef_type( "__uint128_t", UINT128, 99,0,1), 169 1.124 rillig #endif 170 1.124 rillig kwdef("union", T_STRUCT_OR_UNION, 0, UNION, 0, 78,0,0,1), 171 1.124 rillig kwdef_type( "unsigned", UNSIGN, 78,0,1), 172 1.124 rillig kwdef_type( "void", VOID, 78,0,1), 173 1.124 rillig kwdef_tqual( "volatile", VOLATILE, 90,0,7), 174 1.124 rillig kwdef_keyword( "while", T_WHILE), 175 1.124 rillig 176 1.124 rillig kwdef_gcc_attr( "alias", T_AT_ALIAS), 177 1.124 rillig kwdef_gcc_attr( "aligned", T_AT_ALIGNED), 178 1.124 rillig kwdef_gcc_attr( "alloc_size", T_AT_ALLOC_SIZE), 179 1.124 rillig kwdef_gcc_attr( "always_inline",T_AT_ALWAYS_INLINE), 180 1.124 rillig kwdef_gcc_attr( "bounded", T_AT_BOUNDED), 181 1.124 rillig kwdef_gcc_attr( "buffer", T_AT_BUFFER), 182 1.124 rillig kwdef_gcc_attr( "cold", T_AT_COLD), 183 1.124 rillig kwdef_gcc_attr( "common", T_AT_COMMON), 184 1.124 rillig kwdef_gcc_attr( "constructor", T_AT_CONSTRUCTOR), 185 1.124 rillig kwdef_gcc_attr( "deprecated", T_AT_DEPRECATED), 186 1.124 rillig kwdef_gcc_attr( "destructor", T_AT_DESTRUCTOR), 187 1.124 rillig kwdef_gcc_attr( "disable_sanitizer_instrumentation", 188 1.124 rillig T_AT_DISABLE_SANITIZER_INSTRUMENTATION), 189 1.124 rillig kwdef_gcc_attr( "fallthrough", T_AT_FALLTHROUGH), 190 1.124 rillig kwdef_gcc_attr( "format", T_AT_FORMAT), 191 1.124 rillig kwdef_gcc_attr( "format_arg", T_AT_FORMAT_ARG), 192 1.124 rillig kwdef_gcc_attr( "gnu_inline", T_AT_GNU_INLINE), 193 1.124 rillig kwdef_gcc_attr( "gnu_printf", T_AT_FORMAT_GNU_PRINTF), 194 1.124 rillig kwdef_gcc_attr( "hot", T_AT_HOT), 195 1.34 rillig kwdef_gcc_attr( "malloc", T_AT_MALLOC), 196 1.34 rillig kwdef_gcc_attr( "may_alias", T_AT_MAY_ALIAS), 197 1.34 rillig kwdef_gcc_attr( "minbytes", T_AT_MINBYTES), 198 1.34 rillig kwdef_gcc_attr( "mode", T_AT_MODE), 199 1.124 rillig kwdef_gcc_attr("no_instrument_function", T_AT_NO_INSTRUMENT_FUNCTION), 200 1.90 christos kwdef_gcc_attr( "no_sanitize", T_AT_NO_SANITIZE), 201 1.124 rillig kwdef_gcc_attr( "no_sanitize_thread", T_AT_NO_SANITIZE_THREAD), 202 1.34 rillig kwdef_gcc_attr( "noinline", T_AT_NOINLINE), 203 1.34 rillig kwdef_gcc_attr( "nonnull", T_AT_NONNULL), 204 1.34 rillig kwdef_gcc_attr( "nonstring", T_AT_NONSTRING), 205 1.34 rillig kwdef_gcc_attr( "noreturn", T_AT_NORETURN), 206 1.34 rillig kwdef_gcc_attr( "nothrow", T_AT_NOTHROW), 207 1.34 rillig kwdef_gcc_attr( "optimize", T_AT_OPTIMIZE), 208 1.97 christos kwdef_gcc_attr( "optnone", T_AT_OPTNONE), 209 1.34 rillig kwdef_gcc_attr( "packed", T_AT_PACKED), 210 1.34 rillig kwdef_gcc_attr( "pcs", T_AT_PCS), 211 1.34 rillig kwdef_gcc_attr( "printf", T_AT_FORMAT_PRINTF), 212 1.34 rillig kwdef_gcc_attr( "pure", T_AT_PURE), 213 1.70 rillig kwdef_gcc_attr( "regparm", T_AT_REGPARM), 214 1.124 rillig kwdef_gcc_attr( "returns_nonnull", T_AT_RETURNS_NONNULL), 215 1.124 rillig kwdef_gcc_attr( "returns_twice", T_AT_RETURNS_TWICE), 216 1.34 rillig kwdef_gcc_attr( "scanf", T_AT_FORMAT_SCANF), 217 1.34 rillig kwdef_gcc_attr( "sentinel", T_AT_SENTINEL), 218 1.34 rillig kwdef_gcc_attr( "strfmon", T_AT_FORMAT_STRFMON), 219 1.34 rillig kwdef_gcc_attr( "strftime", T_AT_FORMAT_STRFTIME), 220 1.34 rillig kwdef_gcc_attr( "string", T_AT_STRING), 221 1.34 rillig kwdef_gcc_attr( "syslog", T_AT_FORMAT_SYSLOG), 222 1.88 christos kwdef_gcc_attr( "target", T_AT_TARGET), 223 1.56 rillig kwdef_gcc_attr( "tls_model", T_AT_TLS_MODEL), 224 1.34 rillig kwdef_gcc_attr( "transparent_union", T_AT_TUNION), 225 1.34 rillig kwdef_gcc_attr( "unused", T_AT_UNUSED), 226 1.34 rillig kwdef_gcc_attr( "used", T_AT_USED), 227 1.34 rillig kwdef_gcc_attr( "visibility", T_AT_VISIBILITY), 228 1.34 rillig kwdef_gcc_attr( "warn_unused_result", T_AT_WARN_UNUSED_RESULT), 229 1.34 rillig kwdef_gcc_attr( "weak", T_AT_WEAK), 230 1.13 rillig #undef kwdef 231 1.13 rillig #undef kwdef_token 232 1.13 rillig #undef kwdef_sclass 233 1.13 rillig #undef kwdef_type 234 1.13 rillig #undef kwdef_tqual 235 1.36 rillig #undef kwdef_keyword 236 1.36 rillig #undef kwdef_gcc_attr 237 1.1 rillig }; 238 1.1 rillig 239 1.1 rillig /* Symbol table */ 240 1.1 rillig static sym_t *symtab[HSHSIZ1]; 241 1.1 rillig 242 1.1 rillig /* type of next expected symbol */ 243 1.1 rillig symt_t symtyp; 244 1.1 rillig 245 1.1 rillig 246 1.105 rillig static int get_escaped_char(int); 247 1.105 rillig 248 1.105 rillig 249 1.104 rillig static unsigned int 250 1.104 rillig hash(const char *s) 251 1.104 rillig { 252 1.104 rillig unsigned int v; 253 1.104 rillig const char *p; 254 1.104 rillig 255 1.104 rillig v = 0; 256 1.104 rillig for (p = s; *p != '\0'; p++) { 257 1.104 rillig v = (v << 4) + (unsigned char)*p; 258 1.104 rillig v ^= v >> 28; 259 1.104 rillig } 260 1.104 rillig return v % HSHSIZ1; 261 1.104 rillig } 262 1.104 rillig 263 1.1 rillig static void 264 1.62 rillig symtab_add(sym_t *sym) 265 1.60 rillig { 266 1.104 rillig unsigned int h; 267 1.60 rillig 268 1.62 rillig h = hash(sym->s_name); 269 1.102 rillig if ((sym->s_symtab_next = symtab[h]) != NULL) 270 1.102 rillig symtab[h]->s_symtab_ref = &sym->s_symtab_next; 271 1.102 rillig sym->s_symtab_ref = &symtab[h]; 272 1.60 rillig symtab[h] = sym; 273 1.60 rillig } 274 1.60 rillig 275 1.104 rillig static sym_t * 276 1.104 rillig symtab_search(sbuf_t *sb) 277 1.104 rillig { 278 1.104 rillig 279 1.104 rillig unsigned int h = hash(sb->sb_name); 280 1.104 rillig for (sym_t *sym = symtab[h]; sym != NULL; sym = sym->s_symtab_next) { 281 1.104 rillig if (strcmp(sym->s_name, sb->sb_name) != 0) 282 1.104 rillig continue; 283 1.104 rillig 284 1.104 rillig const struct keyword *kw = sym->s_keyword; 285 1.104 rillig if (kw != NULL && !kw->kw_attr) 286 1.104 rillig return sym; 287 1.104 rillig if (kw != NULL && in_gcc_attribute) 288 1.104 rillig return sym; 289 1.104 rillig if (kw == NULL && !in_gcc_attribute && sym->s_kind == symtyp) 290 1.104 rillig return sym; 291 1.104 rillig } 292 1.104 rillig 293 1.104 rillig return NULL; 294 1.104 rillig } 295 1.104 rillig 296 1.60 rillig static void 297 1.61 rillig symtab_remove(sym_t *sym) 298 1.61 rillig { 299 1.61 rillig 300 1.102 rillig if ((*sym->s_symtab_ref = sym->s_symtab_next) != NULL) 301 1.102 rillig sym->s_symtab_next->s_symtab_ref = sym->s_symtab_ref; 302 1.102 rillig sym->s_symtab_next = NULL; 303 1.61 rillig } 304 1.61 rillig 305 1.104 rillig static void 306 1.104 rillig symtab_remove_locals(void) 307 1.104 rillig { 308 1.104 rillig 309 1.104 rillig for (size_t i = 0; i < HSHSIZ1; i++) { 310 1.104 rillig for (sym_t *sym = symtab[i]; sym != NULL; ) { 311 1.104 rillig sym_t *next = sym->s_symtab_next; 312 1.104 rillig if (sym->s_block_level >= 1) 313 1.104 rillig symtab_remove(sym); 314 1.104 rillig sym = next; 315 1.104 rillig } 316 1.104 rillig } 317 1.104 rillig } 318 1.61 rillig 319 1.107 rillig #ifdef DEBUG 320 1.107 rillig static int 321 1.107 rillig sym_by_name(const void *va, const void *vb) 322 1.107 rillig { 323 1.107 rillig const sym_t *a = *(const sym_t *const *)va; 324 1.107 rillig const sym_t *b = *(const sym_t *const *)vb; 325 1.107 rillig 326 1.107 rillig return strcmp(a->s_name, b->s_name); 327 1.107 rillig } 328 1.107 rillig 329 1.107 rillig struct syms { 330 1.107 rillig const sym_t **items; 331 1.107 rillig size_t len; 332 1.107 rillig size_t cap; 333 1.107 rillig }; 334 1.107 rillig 335 1.107 rillig static void 336 1.107 rillig syms_add(struct syms *syms, const sym_t *sym) 337 1.107 rillig { 338 1.110 rillig while (syms->len >= syms->cap) { 339 1.107 rillig syms->cap *= 2; 340 1.107 rillig syms->items = xrealloc(syms->items, 341 1.107 rillig syms->cap * sizeof(syms->items[0])); 342 1.107 rillig } 343 1.107 rillig syms->items[syms->len++] = sym; 344 1.107 rillig } 345 1.107 rillig 346 1.107 rillig void 347 1.107 rillig debug_symtab(void) 348 1.107 rillig { 349 1.107 rillig struct syms syms = { xcalloc(64, sizeof(syms.items[0])), 0, 64 }; 350 1.107 rillig 351 1.111 rillig for (int level = -1;; level++) { 352 1.107 rillig bool more = false; 353 1.107 rillig size_t n = sizeof(symtab) / sizeof(symtab[0]); 354 1.107 rillig 355 1.107 rillig syms.len = 0; 356 1.107 rillig for (size_t i = 0; i < n; i++) { 357 1.107 rillig for (sym_t *sym = symtab[i]; sym != NULL;) { 358 1.107 rillig if (sym->s_block_level == level && 359 1.107 rillig sym->s_keyword == NULL) 360 1.107 rillig syms_add(&syms, sym); 361 1.107 rillig if (sym->s_block_level > level) 362 1.107 rillig more = true; 363 1.107 rillig sym = sym->s_symtab_next; 364 1.107 rillig } 365 1.107 rillig } 366 1.107 rillig 367 1.111 rillig if (syms.len > 0) { 368 1.111 rillig debug_printf("symbol table level %d\n", level); 369 1.111 rillig debug_indent_inc(); 370 1.111 rillig qsort(syms.items, syms.len, sizeof(syms.items[0]), 371 1.111 rillig sym_by_name); 372 1.111 rillig for (size_t i = 0; i < syms.len; i++) 373 1.114 rillig debug_sym("", syms.items[i], "\n"); 374 1.111 rillig debug_indent_dec(); 375 1.111 rillig 376 1.111 rillig lint_assert(level != -1); 377 1.111 rillig } 378 1.107 rillig 379 1.107 rillig if (!more) 380 1.107 rillig break; 381 1.107 rillig } 382 1.107 rillig 383 1.107 rillig free(syms.items); 384 1.107 rillig } 385 1.107 rillig #endif 386 1.107 rillig 387 1.61 rillig static void 388 1.94 rillig add_keyword(const struct keyword *kw, bool leading, bool trailing) 389 1.1 rillig { 390 1.1 rillig sym_t *sym; 391 1.1 rillig char buf[256]; 392 1.1 rillig const char *name; 393 1.1 rillig 394 1.66 rillig if (!leading && !trailing) { 395 1.1 rillig name = kw->kw_name; 396 1.66 rillig } else { 397 1.73 rillig (void)snprintf(buf, sizeof(buf), "%s%s%s", 398 1.66 rillig leading ? "__" : "", kw->kw_name, trailing ? "__" : ""); 399 1.66 rillig name = xstrdup(buf); 400 1.1 rillig } 401 1.1 rillig 402 1.101 rillig sym = block_zero_alloc(sizeof(*sym)); 403 1.1 rillig sym->s_name = name; 404 1.1 rillig sym->s_keyword = kw; 405 1.117 rillig sym->u.s_keyword.sk_token = kw->kw_token; 406 1.1 rillig if (kw->kw_token == T_TYPE || kw->kw_token == T_STRUCT_OR_UNION) { 407 1.117 rillig sym->u.s_keyword.sk_tspec = kw->kw_tspec; 408 1.1 rillig } else if (kw->kw_token == T_SCLASS) { 409 1.1 rillig sym->s_scl = kw->kw_scl; 410 1.1 rillig } else if (kw->kw_token == T_QUAL) { 411 1.117 rillig sym->u.s_keyword.sk_qualifier = kw->kw_tqual; 412 1.1 rillig } 413 1.60 rillig 414 1.60 rillig symtab_add(sym); 415 1.1 rillig } 416 1.1 rillig 417 1.1 rillig /* 418 1.1 rillig * All keywords are written to the symbol table. This saves us looking 419 1.67 rillig * in an extra table for each name we found. 420 1.1 rillig */ 421 1.1 rillig void 422 1.1 rillig initscan(void) 423 1.1 rillig { 424 1.123 rillig const struct keyword *kw, *end; 425 1.1 rillig 426 1.123 rillig end = keywords + sizeof(keywords) / sizeof(keywords[0]); 427 1.123 rillig for (kw = keywords; kw != end; kw++) { 428 1.125 rillig if ((kw->kw_c90 || kw->kw_c99) && !allow_c90) 429 1.1 rillig continue; 430 1.121 rillig /* FIXME: C99 and GCC are independent. */ 431 1.125 rillig if (kw->kw_c99 && !(allow_c99 || allow_gcc)) 432 1.1 rillig continue; 433 1.121 rillig if (kw->kw_gcc && !allow_gcc) 434 1.1 rillig continue; 435 1.66 rillig if (kw->kw_plain) 436 1.66 rillig add_keyword(kw, false, false); 437 1.66 rillig if (kw->kw_leading) 438 1.66 rillig add_keyword(kw, true, false); 439 1.66 rillig if (kw->kw_both) 440 1.66 rillig add_keyword(kw, true, true); 441 1.1 rillig } 442 1.1 rillig } 443 1.1 rillig 444 1.1 rillig /* 445 1.1 rillig * Read a character and ensure that it is positive (except EOF). 446 1.1 rillig * Increment line count(s) if necessary. 447 1.1 rillig */ 448 1.1 rillig static int 449 1.1 rillig inpc(void) 450 1.1 rillig { 451 1.1 rillig int c; 452 1.1 rillig 453 1.41 rillig if ((c = lex_input()) == EOF) 454 1.41 rillig return c; 455 1.41 rillig c &= CHAR_MASK; 456 1.41 rillig if (c == '\0') 457 1.41 rillig return EOF; /* lex returns 0 on EOF. */ 458 1.41 rillig if (c == '\n') 459 1.6 rillig lex_next_line(); 460 1.1 rillig return c; 461 1.1 rillig } 462 1.1 rillig 463 1.105 rillig static int 464 1.105 rillig lex_keyword(sym_t *sym) 465 1.105 rillig { 466 1.105 rillig int t; 467 1.105 rillig 468 1.117 rillig if ((t = sym->u.s_keyword.sk_token) == T_SCLASS) { 469 1.105 rillig yylval.y_scl = sym->s_scl; 470 1.105 rillig } else if (t == T_TYPE || t == T_STRUCT_OR_UNION) { 471 1.117 rillig yylval.y_tspec = sym->u.s_keyword.sk_tspec; 472 1.105 rillig } else if (t == T_QUAL) { 473 1.117 rillig yylval.y_tqual = sym->u.s_keyword.sk_qualifier; 474 1.105 rillig } 475 1.105 rillig return t; 476 1.105 rillig } 477 1.105 rillig 478 1.1 rillig /* 479 1.1 rillig * Lex has found a letter followed by zero or more letters or digits. 480 1.1 rillig * It looks for a symbol in the symbol table with the same name. This 481 1.1 rillig * symbol must either be a keyword or a symbol of the type required by 482 1.1 rillig * symtyp (label, member, tag, ...). 483 1.1 rillig * 484 1.1 rillig * If it is a keyword, the token is returned. In some cases it is described 485 1.1 rillig * more deeply by data written to yylval. 486 1.1 rillig * 487 1.94 rillig * If it is a symbol, T_NAME is returned and the name is stored in yylval. 488 1.94 rillig * If there is already a symbol of the same name and type in the symbol 489 1.94 rillig * table, yylval.y_name->sb_sym points there. 490 1.1 rillig */ 491 1.1 rillig extern int 492 1.1 rillig lex_name(const char *yytext, size_t yyleng) 493 1.1 rillig { 494 1.1 rillig char *s; 495 1.1 rillig sbuf_t *sb; 496 1.1 rillig sym_t *sym; 497 1.1 rillig int tok; 498 1.1 rillig 499 1.100 rillig sb = xmalloc(sizeof(*sb)); 500 1.1 rillig sb->sb_name = yytext; 501 1.1 rillig sb->sb_len = yyleng; 502 1.104 rillig if ((sym = symtab_search(sb)) != NULL && sym->s_keyword != NULL) { 503 1.100 rillig free(sb); 504 1.105 rillig return lex_keyword(sym); 505 1.1 rillig } 506 1.1 rillig 507 1.1 rillig sb->sb_sym = sym; 508 1.1 rillig 509 1.1 rillig if (sym != NULL) { 510 1.12 rillig lint_assert(block_level >= sym->s_block_level); 511 1.1 rillig sb->sb_name = sym->s_name; 512 1.1 rillig tok = sym->s_scl == TYPEDEF ? T_TYPENAME : T_NAME; 513 1.1 rillig } else { 514 1.101 rillig s = block_zero_alloc(yyleng + 1); 515 1.1 rillig (void)memcpy(s, yytext, yyleng + 1); 516 1.1 rillig sb->sb_name = s; 517 1.1 rillig tok = T_NAME; 518 1.1 rillig } 519 1.1 rillig 520 1.54 rillig yylval.y_name = sb; 521 1.1 rillig return tok; 522 1.1 rillig } 523 1.1 rillig 524 1.1 rillig /* 525 1.1 rillig * Convert a string representing an integer into internal representation. 526 1.24 rillig * Return T_CON, storing the numeric value in yylval, for yylex. 527 1.1 rillig */ 528 1.1 rillig int 529 1.6 rillig lex_integer_constant(const char *yytext, size_t yyleng, int base) 530 1.1 rillig { 531 1.1 rillig int l_suffix, u_suffix; 532 1.72 rillig size_t len; 533 1.1 rillig const char *cp; 534 1.1 rillig char c, *eptr; 535 1.1 rillig tspec_t typ; 536 1.1 rillig bool ansiu; 537 1.11 rillig bool warned = false; 538 1.1 rillig uint64_t uq = 0; 539 1.77 rillig 540 1.77 rillig /* C11 6.4.4.1p5 */ 541 1.77 rillig static const tspec_t suffix_type[2][3] = { 542 1.1 rillig { INT, LONG, QUAD, }, 543 1.1 rillig { UINT, ULONG, UQUAD, } 544 1.1 rillig }; 545 1.1 rillig 546 1.1 rillig cp = yytext; 547 1.1 rillig len = yyleng; 548 1.1 rillig 549 1.1 rillig /* skip 0[xX] or 0[bB] */ 550 1.1 rillig if (base == 16 || base == 2) { 551 1.1 rillig cp += 2; 552 1.1 rillig len -= 2; 553 1.1 rillig } 554 1.1 rillig 555 1.1 rillig /* read suffixes */ 556 1.1 rillig l_suffix = u_suffix = 0; 557 1.1 rillig for (;;) { 558 1.1 rillig if ((c = cp[len - 1]) == 'l' || c == 'L') { 559 1.1 rillig l_suffix++; 560 1.1 rillig } else if (c == 'u' || c == 'U') { 561 1.1 rillig u_suffix++; 562 1.1 rillig } else { 563 1.1 rillig break; 564 1.1 rillig } 565 1.1 rillig len--; 566 1.1 rillig } 567 1.1 rillig if (l_suffix > 2 || u_suffix > 1) { 568 1.1 rillig /* malformed integer constant */ 569 1.1 rillig warning(251); 570 1.1 rillig if (l_suffix > 2) 571 1.1 rillig l_suffix = 2; 572 1.1 rillig if (u_suffix > 1) 573 1.1 rillig u_suffix = 1; 574 1.1 rillig } 575 1.1 rillig if (tflag && u_suffix != 0) { 576 1.1 rillig /* suffix U is illegal in traditional C */ 577 1.1 rillig warning(97); 578 1.1 rillig } 579 1.77 rillig typ = suffix_type[u_suffix][l_suffix]; 580 1.1 rillig 581 1.1 rillig errno = 0; 582 1.1 rillig 583 1.81 rillig uq = (uint64_t)strtoull(cp, &eptr, base); 584 1.1 rillig lint_assert(eptr == cp + len); 585 1.11 rillig if (errno != 0) { 586 1.1 rillig /* integer constant out of range */ 587 1.1 rillig warning(252); 588 1.11 rillig warned = true; 589 1.11 rillig } 590 1.1 rillig 591 1.1 rillig /* 592 1.1 rillig * If the value is too big for the current type, we must choose 593 1.1 rillig * another type. 594 1.1 rillig */ 595 1.1 rillig ansiu = false; 596 1.1 rillig switch (typ) { 597 1.1 rillig case INT: 598 1.1 rillig if (uq <= TARG_INT_MAX) { 599 1.1 rillig /* ok */ 600 1.1 rillig } else if (uq <= TARG_UINT_MAX && base != 10) { 601 1.1 rillig typ = UINT; 602 1.1 rillig } else if (uq <= TARG_LONG_MAX) { 603 1.1 rillig typ = LONG; 604 1.1 rillig } else { 605 1.1 rillig typ = ULONG; 606 1.11 rillig if (uq > TARG_ULONG_MAX && !warned) { 607 1.1 rillig /* integer constant out of range */ 608 1.1 rillig warning(252); 609 1.1 rillig } 610 1.1 rillig } 611 1.1 rillig if (typ == UINT || typ == ULONG) { 612 1.1 rillig if (tflag) { 613 1.1 rillig typ = LONG; 614 1.1 rillig } else if (!sflag) { 615 1.1 rillig /* 616 1.1 rillig * Remember that the constant is unsigned 617 1.1 rillig * only in ANSI C 618 1.1 rillig */ 619 1.1 rillig ansiu = true; 620 1.1 rillig } 621 1.1 rillig } 622 1.1 rillig break; 623 1.1 rillig case UINT: 624 1.1 rillig if (uq > TARG_UINT_MAX) { 625 1.1 rillig typ = ULONG; 626 1.11 rillig if (uq > TARG_ULONG_MAX && !warned) { 627 1.1 rillig /* integer constant out of range */ 628 1.1 rillig warning(252); 629 1.1 rillig } 630 1.1 rillig } 631 1.1 rillig break; 632 1.1 rillig case LONG: 633 1.1 rillig if (uq > TARG_LONG_MAX && !tflag) { 634 1.1 rillig typ = ULONG; 635 1.1 rillig if (!sflag) 636 1.1 rillig ansiu = true; 637 1.11 rillig if (uq > TARG_ULONG_MAX && !warned) { 638 1.1 rillig /* integer constant out of range */ 639 1.1 rillig warning(252); 640 1.1 rillig } 641 1.1 rillig } 642 1.1 rillig break; 643 1.1 rillig case ULONG: 644 1.11 rillig if (uq > TARG_ULONG_MAX && !warned) { 645 1.1 rillig /* integer constant out of range */ 646 1.1 rillig warning(252); 647 1.1 rillig } 648 1.1 rillig break; 649 1.1 rillig case QUAD: 650 1.1 rillig if (uq > TARG_QUAD_MAX && !tflag) { 651 1.1 rillig typ = UQUAD; 652 1.1 rillig if (!sflag) 653 1.1 rillig ansiu = true; 654 1.1 rillig } 655 1.1 rillig break; 656 1.1 rillig case UQUAD: 657 1.11 rillig if (uq > TARG_UQUAD_MAX && !warned) { 658 1.1 rillig /* integer constant out of range */ 659 1.1 rillig warning(252); 660 1.1 rillig } 661 1.1 rillig break; 662 1.64 rillig default: 663 1.1 rillig break; 664 1.1 rillig } 665 1.1 rillig 666 1.72 rillig uq = (uint64_t)convert_integer((int64_t)uq, typ, 0); 667 1.1 rillig 668 1.22 rillig yylval.y_val = xcalloc(1, sizeof(*yylval.y_val)); 669 1.17 rillig yylval.y_val->v_tspec = typ; 670 1.46 rillig yylval.y_val->v_unsigned_since_c90 = ansiu; 671 1.1 rillig yylval.y_val->v_quad = (int64_t)uq; 672 1.1 rillig 673 1.1 rillig return T_CON; 674 1.1 rillig } 675 1.1 rillig 676 1.1 rillig /* 677 1.49 rillig * Extend or truncate q to match t. If t is signed, sign-extend. 678 1.50 rillig * 679 1.50 rillig * len is the number of significant bits. If len is -1, len is set 680 1.50 rillig * to the width of type t. 681 1.1 rillig */ 682 1.1 rillig int64_t 683 1.72 rillig convert_integer(int64_t q, tspec_t t, unsigned int len) 684 1.1 rillig { 685 1.37 rillig uint64_t vbits; 686 1.1 rillig 687 1.72 rillig if (len == 0) 688 1.10 rillig len = size_in_bits(t); 689 1.1 rillig 690 1.37 rillig vbits = value_bits(len); 691 1.68 rillig return t == PTR || is_uinteger(t) || ((q & bit(len - 1)) == 0) 692 1.65 rillig ? (int64_t)(q & vbits) 693 1.65 rillig : (int64_t)(q | ~vbits); 694 1.1 rillig } 695 1.1 rillig 696 1.1 rillig /* 697 1.87 rillig * Convert a string representing a floating point value into its numerical 698 1.87 rillig * representation. Type and value are returned in yylval. 699 1.87 rillig * 700 1.1 rillig * XXX Currently it is not possible to convert constants of type 701 1.1 rillig * long double which are greater than DBL_MAX. 702 1.1 rillig */ 703 1.1 rillig int 704 1.6 rillig lex_floating_constant(const char *yytext, size_t yyleng) 705 1.1 rillig { 706 1.1 rillig const char *cp; 707 1.81 rillig size_t len; 708 1.1 rillig tspec_t typ; 709 1.1 rillig char c, *eptr; 710 1.1 rillig double d; 711 1.1 rillig float f = 0; 712 1.1 rillig 713 1.1 rillig cp = yytext; 714 1.1 rillig len = yyleng; 715 1.1 rillig 716 1.81 rillig if (cp[len - 1] == 'i') 717 1.81 rillig len--; /* imaginary, do nothing for now */ 718 1.81 rillig 719 1.1 rillig if ((c = cp[len - 1]) == 'f' || c == 'F') { 720 1.1 rillig typ = FLOAT; 721 1.1 rillig len--; 722 1.1 rillig } else if (c == 'l' || c == 'L') { 723 1.1 rillig typ = LDOUBLE; 724 1.1 rillig len--; 725 1.1 rillig } else { 726 1.1 rillig if (c == 'd' || c == 'D') 727 1.1 rillig len--; 728 1.1 rillig typ = DOUBLE; 729 1.1 rillig } 730 1.1 rillig 731 1.1 rillig if (tflag && typ != DOUBLE) { 732 1.1 rillig /* suffixes F and L are illegal in traditional C */ 733 1.1 rillig warning(98); 734 1.1 rillig } 735 1.1 rillig 736 1.1 rillig errno = 0; 737 1.1 rillig d = strtod(cp, &eptr); 738 1.1 rillig if (eptr != cp + len) { 739 1.1 rillig switch (*eptr) { 740 1.1 rillig /* 741 1.1 rillig * XXX: non-native non-current strtod() may not handle hex 742 1.1 rillig * floats, ignore the rest if we find traces of hex float 743 1.1 rillig * syntax... 744 1.1 rillig */ 745 1.1 rillig case 'p': 746 1.1 rillig case 'P': 747 1.1 rillig case 'x': 748 1.1 rillig case 'X': 749 1.1 rillig d = 0; 750 1.1 rillig errno = 0; 751 1.1 rillig break; 752 1.1 rillig default: 753 1.87 rillig INTERNAL_ERROR("lex_floating_constant(%s->%s)", 754 1.87 rillig cp, eptr); 755 1.1 rillig } 756 1.1 rillig } 757 1.1 rillig if (errno != 0) 758 1.1 rillig /* floating-point constant out of range */ 759 1.1 rillig warning(248); 760 1.1 rillig 761 1.1 rillig if (typ == FLOAT) { 762 1.1 rillig f = (float)d; 763 1.84 jmcneill if (isfinite(f) == 0) { 764 1.1 rillig /* floating-point constant out of range */ 765 1.1 rillig warning(248); 766 1.1 rillig f = f > 0 ? FLT_MAX : -FLT_MAX; 767 1.1 rillig } 768 1.1 rillig } 769 1.1 rillig 770 1.22 rillig yylval.y_val = xcalloc(1, sizeof(*yylval.y_val)); 771 1.17 rillig yylval.y_val->v_tspec = typ; 772 1.1 rillig if (typ == FLOAT) { 773 1.1 rillig yylval.y_val->v_ldbl = f; 774 1.1 rillig } else { 775 1.1 rillig yylval.y_val->v_ldbl = d; 776 1.1 rillig } 777 1.1 rillig 778 1.1 rillig return T_CON; 779 1.1 rillig } 780 1.1 rillig 781 1.1 rillig int 782 1.1 rillig lex_operator(int t, op_t o) 783 1.1 rillig { 784 1.1 rillig 785 1.1 rillig yylval.y_op = o; 786 1.1 rillig return t; 787 1.1 rillig } 788 1.1 rillig 789 1.113 rillig /* Called if lex found a leading "'". */ 790 1.1 rillig int 791 1.6 rillig lex_character_constant(void) 792 1.1 rillig { 793 1.1 rillig size_t n; 794 1.1 rillig int val, c; 795 1.1 rillig 796 1.1 rillig n = 0; 797 1.1 rillig val = 0; 798 1.6 rillig while ((c = get_escaped_char('\'')) >= 0) { 799 1.1 rillig val = (val << CHAR_SIZE) + c; 800 1.1 rillig n++; 801 1.1 rillig } 802 1.1 rillig if (c == -2) { 803 1.1 rillig /* unterminated character constant */ 804 1.1 rillig error(253); 805 1.43 rillig } else if (n > sizeof(int) || (n > 1 && (pflag || hflag))) { 806 1.17 rillig /* XXX: should rather be sizeof(TARG_INT) */ 807 1.43 rillig 808 1.43 rillig /* too many characters in character constant */ 809 1.43 rillig error(71); 810 1.43 rillig } else if (n > 1) { 811 1.43 rillig /* multi-character character constant */ 812 1.43 rillig warning(294); 813 1.43 rillig } else if (n == 0) { 814 1.43 rillig /* empty character constant */ 815 1.43 rillig error(73); 816 1.1 rillig } 817 1.74 rillig if (n == 1) 818 1.74 rillig val = (int)convert_integer(val, CHAR, CHAR_SIZE); 819 1.1 rillig 820 1.22 rillig yylval.y_val = xcalloc(1, sizeof(*yylval.y_val)); 821 1.1 rillig yylval.y_val->v_tspec = INT; 822 1.1 rillig yylval.y_val->v_quad = val; 823 1.1 rillig 824 1.1 rillig return T_CON; 825 1.1 rillig } 826 1.1 rillig 827 1.1 rillig /* 828 1.1 rillig * Called if lex found a leading L\' 829 1.1 rillig */ 830 1.1 rillig int 831 1.6 rillig lex_wide_character_constant(void) 832 1.1 rillig { 833 1.1 rillig static char buf[MB_LEN_MAX + 1]; 834 1.44 rillig size_t n, nmax; 835 1.1 rillig int c; 836 1.1 rillig wchar_t wc; 837 1.1 rillig 838 1.44 rillig nmax = MB_CUR_MAX; 839 1.7 rillig 840 1.44 rillig n = 0; 841 1.6 rillig while ((c = get_escaped_char('\'')) >= 0) { 842 1.44 rillig if (n < nmax) 843 1.44 rillig buf[n] = (char)c; 844 1.44 rillig n++; 845 1.1 rillig } 846 1.1 rillig 847 1.1 rillig wc = 0; 848 1.1 rillig 849 1.1 rillig if (c == -2) { 850 1.1 rillig /* unterminated character constant */ 851 1.1 rillig error(253); 852 1.44 rillig } else if (n == 0) { 853 1.1 rillig /* empty character constant */ 854 1.1 rillig error(73); 855 1.44 rillig } else if (n > nmax) { 856 1.44 rillig n = nmax; 857 1.43 rillig /* too many characters in character constant */ 858 1.43 rillig error(71); 859 1.1 rillig } else { 860 1.44 rillig buf[n] = '\0'; 861 1.43 rillig (void)mbtowc(NULL, NULL, 0); 862 1.44 rillig if (mbtowc(&wc, buf, nmax) < 0) 863 1.43 rillig /* invalid multibyte character */ 864 1.43 rillig error(291); 865 1.1 rillig } 866 1.1 rillig 867 1.22 rillig yylval.y_val = xcalloc(1, sizeof(*yylval.y_val)); 868 1.1 rillig yylval.y_val->v_tspec = WCHAR; 869 1.1 rillig yylval.y_val->v_quad = wc; 870 1.1 rillig 871 1.1 rillig return T_CON; 872 1.1 rillig } 873 1.1 rillig 874 1.1 rillig /* 875 1.1 rillig * Read a character which is part of a character constant or of a string 876 1.1 rillig * and handle escapes. 877 1.1 rillig * 878 1.2 rillig * The argument is the character which delimits the character constant or 879 1.1 rillig * string. 880 1.1 rillig * 881 1.1 rillig * Returns -1 if the end of the character constant or string is reached, 882 1.1 rillig * -2 if the EOF is reached, and the character otherwise. 883 1.1 rillig */ 884 1.1 rillig static int 885 1.6 rillig get_escaped_char(int delim) 886 1.1 rillig { 887 1.1 rillig static int pbc = -1; 888 1.1 rillig int n, c, v; 889 1.1 rillig 890 1.1 rillig if (pbc == -1) { 891 1.1 rillig c = inpc(); 892 1.1 rillig } else { 893 1.1 rillig c = pbc; 894 1.1 rillig pbc = -1; 895 1.1 rillig } 896 1.2 rillig if (c == delim) 897 1.1 rillig return -1; 898 1.1 rillig switch (c) { 899 1.1 rillig case '\n': 900 1.1 rillig if (tflag) { 901 1.1 rillig /* newline in string or char constant */ 902 1.1 rillig error(254); 903 1.1 rillig return -2; 904 1.1 rillig } 905 1.1 rillig return c; 906 1.40 rillig case 0: 907 1.40 rillig /* syntax error '%s' */ 908 1.40 rillig error(249, "EOF or null byte in literal"); 909 1.40 rillig return -2; 910 1.1 rillig case EOF: 911 1.1 rillig return -2; 912 1.1 rillig case '\\': 913 1.1 rillig switch (c = inpc()) { 914 1.1 rillig case '"': 915 1.2 rillig if (tflag && delim == '\'') 916 1.1 rillig /* \" inside character constants undef... */ 917 1.1 rillig warning(262); 918 1.1 rillig return '"'; 919 1.1 rillig case '\'': 920 1.1 rillig return '\''; 921 1.1 rillig case '?': 922 1.1 rillig if (tflag) 923 1.1 rillig /* \? undefined in traditional C */ 924 1.1 rillig warning(263); 925 1.1 rillig return '?'; 926 1.1 rillig case '\\': 927 1.1 rillig return '\\'; 928 1.1 rillig case 'a': 929 1.1 rillig if (tflag) 930 1.1 rillig /* \a undefined in traditional C */ 931 1.1 rillig warning(81); 932 1.1 rillig return '\a'; 933 1.1 rillig case 'b': 934 1.1 rillig return '\b'; 935 1.1 rillig case 'f': 936 1.1 rillig return '\f'; 937 1.1 rillig case 'n': 938 1.1 rillig return '\n'; 939 1.1 rillig case 'r': 940 1.1 rillig return '\r'; 941 1.1 rillig case 't': 942 1.1 rillig return '\t'; 943 1.1 rillig case 'v': 944 1.1 rillig if (tflag) 945 1.1 rillig /* \v undefined in traditional C */ 946 1.1 rillig warning(264); 947 1.1 rillig return '\v'; 948 1.1 rillig case '8': case '9': 949 1.1 rillig /* bad octal digit %c */ 950 1.1 rillig warning(77, c); 951 1.1 rillig /* FALLTHROUGH */ 952 1.1 rillig case '0': case '1': case '2': case '3': 953 1.1 rillig case '4': case '5': case '6': case '7': 954 1.1 rillig n = 3; 955 1.1 rillig v = 0; 956 1.1 rillig do { 957 1.1 rillig v = (v << 3) + (c - '0'); 958 1.1 rillig c = inpc(); 959 1.47 rillig } while (--n > 0 && '0' <= c && c <= '7'); 960 1.1 rillig pbc = c; 961 1.1 rillig if (v > TARG_UCHAR_MAX) { 962 1.1 rillig /* character escape does not fit in character */ 963 1.1 rillig warning(76); 964 1.1 rillig v &= CHAR_MASK; 965 1.1 rillig } 966 1.1 rillig return v; 967 1.1 rillig case 'x': 968 1.1 rillig if (tflag) 969 1.1 rillig /* \x undefined in traditional C */ 970 1.1 rillig warning(82); 971 1.1 rillig v = 0; 972 1.1 rillig n = 0; 973 1.95 rillig while (c = inpc(), isxdigit(c)) { 974 1.1 rillig c = isdigit(c) ? 975 1.1 rillig c - '0' : toupper(c) - 'A' + 10; 976 1.1 rillig v = (v << 4) + c; 977 1.1 rillig if (n >= 0) { 978 1.1 rillig if ((v & ~CHAR_MASK) != 0) { 979 1.1 rillig /* overflow in hex escape */ 980 1.1 rillig warning(75); 981 1.1 rillig n = -1; 982 1.1 rillig } else { 983 1.1 rillig n++; 984 1.1 rillig } 985 1.1 rillig } 986 1.1 rillig } 987 1.1 rillig pbc = c; 988 1.1 rillig if (n == 0) { 989 1.1 rillig /* no hex digits follow \x */ 990 1.1 rillig error(74); 991 1.1 rillig } if (n == -1) { 992 1.1 rillig v &= CHAR_MASK; 993 1.1 rillig } 994 1.1 rillig return v; 995 1.1 rillig case '\n': 996 1.6 rillig return get_escaped_char(delim); 997 1.1 rillig case EOF: 998 1.1 rillig return -2; 999 1.1 rillig default: 1000 1.1 rillig if (isprint(c)) { 1001 1.1 rillig /* dubious escape \%c */ 1002 1.1 rillig warning(79, c); 1003 1.1 rillig } else { 1004 1.1 rillig /* dubious escape \%o */ 1005 1.1 rillig warning(80, c); 1006 1.1 rillig } 1007 1.1 rillig } 1008 1.1 rillig } 1009 1.1 rillig return c; 1010 1.1 rillig } 1011 1.1 rillig 1012 1.1 rillig /* See https://gcc.gnu.org/onlinedocs/cpp/Preprocessor-Output.html */ 1013 1.1 rillig static void 1014 1.25 rillig parse_line_directive_flags(const char *p, 1015 1.25 rillig bool *is_begin, bool *is_end, bool *is_system) 1016 1.1 rillig { 1017 1.1 rillig 1018 1.25 rillig *is_begin = false; 1019 1.25 rillig *is_end = false; 1020 1.25 rillig *is_system = false; 1021 1.1 rillig 1022 1.8 rillig while (*p != '\0') { 1023 1.85 rillig const char *word_start, *word_end; 1024 1.85 rillig 1025 1.1 rillig while (ch_isspace(*p)) 1026 1.1 rillig p++; 1027 1.8 rillig 1028 1.85 rillig word_start = p; 1029 1.8 rillig while (*p != '\0' && !ch_isspace(*p)) 1030 1.8 rillig p++; 1031 1.85 rillig word_end = p; 1032 1.8 rillig 1033 1.25 rillig if (word_end - word_start == 1 && word_start[0] == '1') 1034 1.25 rillig *is_begin = true; 1035 1.25 rillig if (word_end - word_start == 1 && word_start[0] == '2') 1036 1.25 rillig *is_end = true; 1037 1.8 rillig if (word_end - word_start == 1 && word_start[0] == '3') 1038 1.25 rillig *is_system = true; 1039 1.94 rillig /* Flag '4' is only interesting for C++. */ 1040 1.1 rillig } 1041 1.1 rillig } 1042 1.1 rillig 1043 1.1 rillig /* 1044 1.1 rillig * Called for preprocessor directives. Currently implemented are: 1045 1.94 rillig * # pragma [argument...] 1046 1.1 rillig * # lineno 1047 1.1 rillig * # lineno "filename" 1048 1.2 rillig * # lineno "filename" GCC-flag... 1049 1.1 rillig */ 1050 1.1 rillig void 1051 1.1 rillig lex_directive(const char *yytext) 1052 1.1 rillig { 1053 1.1 rillig const char *cp, *fn; 1054 1.1 rillig char c, *eptr; 1055 1.1 rillig size_t fnl; 1056 1.1 rillig long ln; 1057 1.25 rillig bool is_begin, is_end, is_system; 1058 1.25 rillig 1059 1.1 rillig static bool first = true; 1060 1.1 rillig 1061 1.1 rillig /* Go to first non-whitespace after # */ 1062 1.1 rillig for (cp = yytext + 1; (c = *cp) == ' ' || c == '\t'; cp++) 1063 1.1 rillig continue; 1064 1.1 rillig 1065 1.1 rillig if (!ch_isdigit(c)) { 1066 1.1 rillig if (strncmp(cp, "pragma", 6) == 0 && ch_isspace(cp[6])) 1067 1.1 rillig return; 1068 1.1 rillig error: 1069 1.1 rillig /* undefined or invalid # directive */ 1070 1.1 rillig warning(255); 1071 1.1 rillig return; 1072 1.1 rillig } 1073 1.1 rillig ln = strtol(--cp, &eptr, 10); 1074 1.94 rillig if (eptr == cp) 1075 1.1 rillig goto error; 1076 1.1 rillig if ((c = *(cp = eptr)) != ' ' && c != '\t' && c != '\0') 1077 1.1 rillig goto error; 1078 1.1 rillig while ((c = *cp++) == ' ' || c == '\t') 1079 1.1 rillig continue; 1080 1.1 rillig if (c != '\0') { 1081 1.1 rillig if (c != '"') 1082 1.1 rillig goto error; 1083 1.1 rillig fn = cp; 1084 1.1 rillig while ((c = *cp) != '"' && c != '\0') 1085 1.1 rillig cp++; 1086 1.1 rillig if (c != '"') 1087 1.1 rillig goto error; 1088 1.1 rillig if ((fnl = cp++ - fn) > PATH_MAX) 1089 1.1 rillig goto error; 1090 1.1 rillig /* empty string means stdin */ 1091 1.1 rillig if (fnl == 0) { 1092 1.1 rillig fn = "{standard input}"; 1093 1.1 rillig fnl = 16; /* strlen (fn) */ 1094 1.1 rillig } 1095 1.19 rillig curr_pos.p_file = record_filename(fn, fnl); 1096 1.1 rillig /* 1097 1.1 rillig * If this is the first directive, the name is the name 1098 1.1 rillig * of the C source file as specified at the command line. 1099 1.1 rillig * It is written to the output file. 1100 1.1 rillig */ 1101 1.1 rillig if (first) { 1102 1.1 rillig csrc_pos.p_file = curr_pos.p_file; 1103 1.19 rillig outsrc(transform_filename(curr_pos.p_file, 1104 1.1 rillig strlen(curr_pos.p_file))); 1105 1.1 rillig first = false; 1106 1.1 rillig } 1107 1.25 rillig 1108 1.25 rillig parse_line_directive_flags(cp, &is_begin, &is_end, &is_system); 1109 1.26 rillig update_location(curr_pos.p_file, (int)ln, is_begin, is_end); 1110 1.26 rillig in_system_header = is_system; 1111 1.1 rillig } 1112 1.1 rillig curr_pos.p_line = (int)ln - 1; 1113 1.1 rillig curr_pos.p_uniq = 0; 1114 1.1 rillig if (curr_pos.p_file == csrc_pos.p_file) { 1115 1.1 rillig csrc_pos.p_line = (int)ln - 1; 1116 1.1 rillig csrc_pos.p_uniq = 0; 1117 1.1 rillig } 1118 1.1 rillig } 1119 1.1 rillig 1120 1.1 rillig /* 1121 1.2 rillig * Handle lint comments such as ARGSUSED. 1122 1.2 rillig * 1123 1.1 rillig * If one of these comments is recognized, the argument, if any, is 1124 1.1 rillig * parsed and a function which handles this comment is called. 1125 1.1 rillig */ 1126 1.1 rillig void 1127 1.1 rillig lex_comment(void) 1128 1.1 rillig { 1129 1.1 rillig int c, lc; 1130 1.1 rillig static const struct { 1131 1.1 rillig const char *keywd; 1132 1.3 rillig bool arg; 1133 1.1 rillig void (*func)(int); 1134 1.1 rillig } keywtab[] = { 1135 1.3 rillig { "ARGSUSED", true, argsused }, 1136 1.3 rillig { "BITFIELDTYPE", false, bitfieldtype }, 1137 1.3 rillig { "CONSTCOND", false, constcond }, 1138 1.3 rillig { "CONSTANTCOND", false, constcond }, 1139 1.3 rillig { "CONSTANTCONDITION", false, constcond }, 1140 1.3 rillig { "FALLTHRU", false, fallthru }, 1141 1.3 rillig { "FALLTHROUGH", false, fallthru }, 1142 1.79 rillig { "FALL THROUGH", false, fallthru }, 1143 1.80 rillig { "fallthrough", false, fallthru }, 1144 1.3 rillig { "LINTLIBRARY", false, lintlib }, 1145 1.3 rillig { "LINTED", true, linted }, 1146 1.3 rillig { "LONGLONG", false, longlong }, 1147 1.3 rillig { "NOSTRICT", true, linted }, 1148 1.15 rillig { "NOTREACHED", false, not_reached }, 1149 1.3 rillig { "PRINTFLIKE", true, printflike }, 1150 1.3 rillig { "PROTOLIB", true, protolib }, 1151 1.3 rillig { "SCANFLIKE", true, scanflike }, 1152 1.3 rillig { "VARARGS", true, varargs }, 1153 1.1 rillig }; 1154 1.1 rillig char keywd[32]; 1155 1.1 rillig char arg[32]; 1156 1.1 rillig size_t l, i; 1157 1.1 rillig int a; 1158 1.1 rillig bool eoc; 1159 1.1 rillig 1160 1.1 rillig eoc = false; 1161 1.1 rillig 1162 1.1 rillig /* Skip whitespace after the start of the comment */ 1163 1.95 rillig while (c = inpc(), isspace(c)) 1164 1.1 rillig continue; 1165 1.1 rillig 1166 1.1 rillig /* Read the potential keyword to keywd */ 1167 1.1 rillig l = 0; 1168 1.79 rillig while (c != EOF && l < sizeof(keywd) - 1 && 1169 1.80 rillig (isalpha(c) || isspace(c))) { 1170 1.80 rillig if (islower(c) && l > 0 && ch_isupper(keywd[0])) 1171 1.80 rillig break; 1172 1.1 rillig keywd[l++] = (char)c; 1173 1.1 rillig c = inpc(); 1174 1.1 rillig } 1175 1.79 rillig while (l > 0 && ch_isspace(keywd[l - 1])) 1176 1.79 rillig l--; 1177 1.1 rillig keywd[l] = '\0'; 1178 1.1 rillig 1179 1.1 rillig /* look for the keyword */ 1180 1.22 rillig for (i = 0; i < sizeof(keywtab) / sizeof(keywtab[0]); i++) { 1181 1.1 rillig if (strcmp(keywtab[i].keywd, keywd) == 0) 1182 1.1 rillig break; 1183 1.1 rillig } 1184 1.22 rillig if (i == sizeof(keywtab) / sizeof(keywtab[0])) 1185 1.1 rillig goto skip_rest; 1186 1.1 rillig 1187 1.1 rillig /* skip whitespace after the keyword */ 1188 1.94 rillig while (isspace(c)) 1189 1.1 rillig c = inpc(); 1190 1.1 rillig 1191 1.1 rillig /* read the argument, if the keyword accepts one and there is one */ 1192 1.1 rillig l = 0; 1193 1.1 rillig if (keywtab[i].arg) { 1194 1.94 rillig while (isdigit(c) && l < sizeof(arg) - 1) { 1195 1.1 rillig arg[l++] = (char)c; 1196 1.1 rillig c = inpc(); 1197 1.1 rillig } 1198 1.1 rillig } 1199 1.1 rillig arg[l] = '\0'; 1200 1.1 rillig a = l != 0 ? atoi(arg) : -1; 1201 1.1 rillig 1202 1.1 rillig /* skip whitespace after the argument */ 1203 1.94 rillig while (isspace(c)) 1204 1.1 rillig c = inpc(); 1205 1.1 rillig 1206 1.1 rillig if (c != '*' || (c = inpc()) != '/') { 1207 1.1 rillig if (keywtab[i].func != linted) 1208 1.1 rillig /* extra characters in lint comment */ 1209 1.1 rillig warning(257); 1210 1.1 rillig } else { 1211 1.1 rillig /* 1212 1.1 rillig * remember that we have already found the end of the 1213 1.1 rillig * comment 1214 1.1 rillig */ 1215 1.1 rillig eoc = true; 1216 1.1 rillig } 1217 1.1 rillig 1218 1.1 rillig if (keywtab[i].func != NULL) 1219 1.1 rillig (*keywtab[i].func)(a); 1220 1.1 rillig 1221 1.1 rillig skip_rest: 1222 1.1 rillig while (!eoc) { 1223 1.1 rillig lc = c; 1224 1.1 rillig if ((c = inpc()) == EOF) { 1225 1.1 rillig /* unterminated comment */ 1226 1.1 rillig error(256); 1227 1.1 rillig break; 1228 1.1 rillig } 1229 1.1 rillig if (lc == '*' && c == '/') 1230 1.1 rillig eoc = true; 1231 1.1 rillig } 1232 1.1 rillig } 1233 1.1 rillig 1234 1.1 rillig /* 1235 1.1 rillig * Handle // style comments 1236 1.1 rillig */ 1237 1.1 rillig void 1238 1.6 rillig lex_slash_slash_comment(void) 1239 1.1 rillig { 1240 1.1 rillig int c; 1241 1.1 rillig 1242 1.121 rillig if (!allow_c99 && !allow_gcc) 1243 1.91 rillig /* %s does not support // comments */ 1244 1.121 rillig gnuism(312, allow_c90 ? "C90" : "traditional C"); 1245 1.1 rillig 1246 1.1 rillig while ((c = inpc()) != EOF && c != '\n') 1247 1.1 rillig continue; 1248 1.1 rillig } 1249 1.1 rillig 1250 1.1 rillig /* 1251 1.1 rillig * Clear flags for lint comments LINTED, LONGLONG and CONSTCOND. 1252 1.94 rillig * clear_warn_flags is called after function definitions and global and 1253 1.1 rillig * local declarations and definitions. It is also called between 1254 1.1 rillig * the controlling expression and the body of control statements 1255 1.1 rillig * (if, switch, for, while). 1256 1.1 rillig */ 1257 1.1 rillig void 1258 1.1 rillig clear_warn_flags(void) 1259 1.1 rillig { 1260 1.1 rillig 1261 1.1 rillig lwarn = LWARN_ALL; 1262 1.1 rillig quadflg = false; 1263 1.1 rillig constcond_flag = false; 1264 1.1 rillig } 1265 1.1 rillig 1266 1.1 rillig /* 1267 1.1 rillig * Strings are stored in a dynamically allocated buffer and passed 1268 1.94 rillig * in yylval.y_string to the parser. The parser or the routines called 1269 1.1 rillig * by the parser are responsible for freeing this buffer. 1270 1.1 rillig */ 1271 1.1 rillig int 1272 1.1 rillig lex_string(void) 1273 1.1 rillig { 1274 1.71 rillig unsigned char *s; 1275 1.1 rillig int c; 1276 1.1 rillig size_t len, max; 1277 1.1 rillig strg_t *strg; 1278 1.1 rillig 1279 1.1 rillig s = xmalloc(max = 64); 1280 1.1 rillig 1281 1.1 rillig len = 0; 1282 1.39 rillig while ((c = get_escaped_char('"')) >= 0) { 1283 1.1 rillig /* +1 to reserve space for a trailing NUL character */ 1284 1.1 rillig if (len + 1 == max) 1285 1.1 rillig s = xrealloc(s, max *= 2); 1286 1.1 rillig s[len++] = (char)c; 1287 1.1 rillig } 1288 1.1 rillig s[len] = '\0'; 1289 1.1 rillig if (c == -2) 1290 1.1 rillig /* unterminated string constant */ 1291 1.1 rillig error(258); 1292 1.1 rillig 1293 1.22 rillig strg = xcalloc(1, sizeof(*strg)); 1294 1.103 rillig strg->st_char = true; 1295 1.1 rillig strg->st_len = len; 1296 1.103 rillig strg->st_mem = s; 1297 1.1 rillig 1298 1.1 rillig yylval.y_string = strg; 1299 1.1 rillig return T_STRING; 1300 1.1 rillig } 1301 1.1 rillig 1302 1.1 rillig int 1303 1.6 rillig lex_wide_string(void) 1304 1.1 rillig { 1305 1.1 rillig char *s; 1306 1.1 rillig int c, n; 1307 1.1 rillig size_t i, wi; 1308 1.1 rillig size_t len, max, wlen; 1309 1.1 rillig wchar_t *ws; 1310 1.1 rillig strg_t *strg; 1311 1.1 rillig 1312 1.1 rillig s = xmalloc(max = 64); 1313 1.1 rillig len = 0; 1314 1.6 rillig while ((c = get_escaped_char('"')) >= 0) { 1315 1.1 rillig /* +1 to save space for a trailing NUL character */ 1316 1.1 rillig if (len + 1 >= max) 1317 1.1 rillig s = xrealloc(s, max *= 2); 1318 1.1 rillig s[len++] = (char)c; 1319 1.1 rillig } 1320 1.1 rillig s[len] = '\0'; 1321 1.1 rillig if (c == -2) 1322 1.1 rillig /* unterminated string constant */ 1323 1.1 rillig error(258); 1324 1.1 rillig 1325 1.1 rillig /* get length of wide-character string */ 1326 1.1 rillig (void)mblen(NULL, 0); 1327 1.1 rillig for (i = 0, wlen = 0; i < len; i += n, wlen++) { 1328 1.1 rillig if ((n = mblen(&s[i], MB_CUR_MAX)) == -1) { 1329 1.1 rillig /* invalid multibyte character */ 1330 1.1 rillig error(291); 1331 1.1 rillig break; 1332 1.1 rillig } 1333 1.1 rillig if (n == 0) 1334 1.1 rillig n = 1; 1335 1.1 rillig } 1336 1.1 rillig 1337 1.22 rillig ws = xmalloc((wlen + 1) * sizeof(*ws)); 1338 1.1 rillig 1339 1.1 rillig /* convert from multibyte to wide char */ 1340 1.1 rillig (void)mbtowc(NULL, NULL, 0); 1341 1.1 rillig for (i = 0, wi = 0; i < len; i += n, wi++) { 1342 1.1 rillig if ((n = mbtowc(&ws[wi], &s[i], MB_CUR_MAX)) == -1) 1343 1.1 rillig break; 1344 1.1 rillig if (n == 0) 1345 1.1 rillig n = 1; 1346 1.1 rillig } 1347 1.1 rillig ws[wi] = 0; 1348 1.1 rillig free(s); 1349 1.1 rillig 1350 1.22 rillig strg = xcalloc(1, sizeof(*strg)); 1351 1.103 rillig strg->st_char = false; 1352 1.1 rillig strg->st_len = wlen; 1353 1.103 rillig strg->st_mem = ws; 1354 1.1 rillig 1355 1.1 rillig yylval.y_string = strg; 1356 1.1 rillig return T_STRING; 1357 1.1 rillig } 1358 1.1 rillig 1359 1.105 rillig void 1360 1.105 rillig lex_next_line(void) 1361 1.105 rillig { 1362 1.105 rillig curr_pos.p_line++; 1363 1.105 rillig curr_pos.p_uniq = 0; 1364 1.105 rillig debug_step("parsing %s:%d", curr_pos.p_file, curr_pos.p_line); 1365 1.105 rillig if (curr_pos.p_file == csrc_pos.p_file) { 1366 1.105 rillig csrc_pos.p_line++; 1367 1.105 rillig csrc_pos.p_uniq = 0; 1368 1.105 rillig } 1369 1.105 rillig } 1370 1.105 rillig 1371 1.105 rillig void 1372 1.105 rillig lex_unknown_character(int c) 1373 1.105 rillig { 1374 1.105 rillig 1375 1.105 rillig /* unknown character \%o */ 1376 1.105 rillig error(250, c); 1377 1.105 rillig } 1378 1.105 rillig 1379 1.1 rillig /* 1380 1.113 rillig * The scanner does not create new symbol table entries for symbols it cannot 1381 1.113 rillig * find in the symbol table. This is to avoid putting undeclared symbols into 1382 1.113 rillig * the symbol table if a syntax error occurs. 1383 1.1 rillig * 1384 1.113 rillig * getsym is called as soon as it is probably ok to put the symbol in the 1385 1.53 rillig * symbol table. It is still possible that symbols are put in the symbol 1386 1.53 rillig * table that are not completely declared due to syntax errors. To avoid too 1387 1.113 rillig * many problems in this case, symbols get type 'int' in getsym. 1388 1.1 rillig * 1389 1.113 rillig * XXX calls to getsym should be delayed until declare_1_* is called. 1390 1.1 rillig */ 1391 1.1 rillig sym_t * 1392 1.1 rillig getsym(sbuf_t *sb) 1393 1.1 rillig { 1394 1.1 rillig dinfo_t *di; 1395 1.1 rillig char *s; 1396 1.1 rillig sym_t *sym; 1397 1.1 rillig 1398 1.1 rillig sym = sb->sb_sym; 1399 1.1 rillig 1400 1.1 rillig /* 1401 1.1 rillig * During member declaration it is possible that name() looked 1402 1.1 rillig * for symbols of type FVFT, although it should have looked for 1403 1.1 rillig * symbols of type FTAG. Same can happen for labels. Both cases 1404 1.1 rillig * are compensated here. 1405 1.1 rillig */ 1406 1.1 rillig if (symtyp == FMEMBER || symtyp == FLABEL) { 1407 1.1 rillig if (sym == NULL || sym->s_kind == FVFT) 1408 1.104 rillig sym = symtab_search(sb); 1409 1.1 rillig } 1410 1.1 rillig 1411 1.1 rillig if (sym != NULL) { 1412 1.98 rillig lint_assert(sym->s_kind == symtyp); 1413 1.1 rillig symtyp = FVFT; 1414 1.100 rillig free(sb); 1415 1.1 rillig return sym; 1416 1.1 rillig } 1417 1.1 rillig 1418 1.1 rillig /* create a new symbol table entry */ 1419 1.1 rillig 1420 1.1 rillig /* labels must always be allocated at level 1 (outermost block) */ 1421 1.1 rillig if (symtyp == FLABEL) { 1422 1.101 rillig sym = level_zero_alloc(1, sizeof(*sym)); 1423 1.101 rillig s = level_zero_alloc(1, sb->sb_len + 1); 1424 1.1 rillig (void)memcpy(s, sb->sb_name, sb->sb_len + 1); 1425 1.1 rillig sym->s_name = s; 1426 1.12 rillig sym->s_block_level = 1; 1427 1.1 rillig di = dcs; 1428 1.115 rillig while (di->d_enclosing != NULL && 1429 1.115 rillig di->d_enclosing->d_enclosing != NULL) 1430 1.115 rillig di = di->d_enclosing; 1431 1.118 rillig lint_assert(di->d_kind == DK_AUTO); 1432 1.1 rillig } else { 1433 1.101 rillig sym = block_zero_alloc(sizeof(*sym)); 1434 1.1 rillig sym->s_name = sb->sb_name; 1435 1.12 rillig sym->s_block_level = block_level; 1436 1.1 rillig di = dcs; 1437 1.1 rillig } 1438 1.1 rillig 1439 1.1 rillig UNIQUE_CURR_POS(sym->s_def_pos); 1440 1.1 rillig if ((sym->s_kind = symtyp) != FLABEL) 1441 1.1 rillig sym->s_type = gettyp(INT); 1442 1.1 rillig 1443 1.1 rillig symtyp = FVFT; 1444 1.1 rillig 1445 1.62 rillig symtab_add(sym); 1446 1.1 rillig 1447 1.1 rillig *di->d_ldlsym = sym; 1448 1.102 rillig di->d_ldlsym = &sym->s_level_next; 1449 1.1 rillig 1450 1.100 rillig free(sb); 1451 1.1 rillig return sym; 1452 1.1 rillig } 1453 1.1 rillig 1454 1.1 rillig /* 1455 1.53 rillig * Construct a temporary symbol. The symbol name starts with a digit, making 1456 1.53 rillig * the name illegal. 1457 1.1 rillig */ 1458 1.1 rillig sym_t * 1459 1.112 rillig mktempsym(type_t *tp) 1460 1.1 rillig { 1461 1.112 rillig static unsigned n = 0; 1462 1.119 rillig char *s = level_zero_alloc((size_t)block_level, 64); 1463 1.101 rillig sym_t *sym = block_zero_alloc(sizeof(*sym)); 1464 1.28 rillig scl_t scl; 1465 1.1 rillig 1466 1.112 rillig (void)snprintf(s, 64, "%.8u_tmp", n++); 1467 1.1 rillig 1468 1.28 rillig scl = dcs->d_scl; 1469 1.28 rillig if (scl == NOSCL) 1470 1.28 rillig scl = block_level > 0 ? AUTO : EXTERN; 1471 1.28 rillig 1472 1.1 rillig sym->s_name = s; 1473 1.112 rillig sym->s_type = tp; 1474 1.12 rillig sym->s_block_level = block_level; 1475 1.28 rillig sym->s_scl = scl; 1476 1.1 rillig sym->s_kind = FVFT; 1477 1.1 rillig sym->s_used = true; 1478 1.1 rillig sym->s_set = true; 1479 1.1 rillig 1480 1.60 rillig symtab_add(sym); 1481 1.1 rillig 1482 1.1 rillig *dcs->d_ldlsym = sym; 1483 1.102 rillig dcs->d_ldlsym = &sym->s_level_next; 1484 1.1 rillig 1485 1.1 rillig return sym; 1486 1.1 rillig } 1487 1.1 rillig 1488 1.61 rillig /* Remove a symbol forever from the symbol table. */ 1489 1.1 rillig void 1490 1.1 rillig rmsym(sym_t *sym) 1491 1.1 rillig { 1492 1.1 rillig 1493 1.98 rillig debug_step("rmsym '%s' %s '%s'", 1494 1.98 rillig sym->s_name, symt_name(sym->s_kind), type_name(sym->s_type)); 1495 1.61 rillig symtab_remove(sym); 1496 1.61 rillig 1497 1.61 rillig /* avoid that the symbol will later be put back to the symbol table */ 1498 1.12 rillig sym->s_block_level = -1; 1499 1.1 rillig } 1500 1.1 rillig 1501 1.1 rillig /* 1502 1.113 rillig * Remove all symbols from the symbol table that have the same level as the 1503 1.113 rillig * given symbol. 1504 1.1 rillig */ 1505 1.1 rillig void 1506 1.1 rillig rmsyms(sym_t *syms) 1507 1.1 rillig { 1508 1.1 rillig sym_t *sym; 1509 1.1 rillig 1510 1.113 rillig /* Note the use of s_level_next instead of s_symtab_next. */ 1511 1.102 rillig for (sym = syms; sym != NULL; sym = sym->s_level_next) { 1512 1.12 rillig if (sym->s_block_level != -1) { 1513 1.98 rillig debug_step("rmsyms '%s' %s '%s'", 1514 1.98 rillig sym->s_name, symt_name(sym->s_kind), 1515 1.59 rillig type_name(sym->s_type)); 1516 1.61 rillig symtab_remove(sym); 1517 1.102 rillig sym->s_symtab_ref = NULL; 1518 1.1 rillig } 1519 1.1 rillig } 1520 1.1 rillig } 1521 1.1 rillig 1522 1.1 rillig /* 1523 1.2 rillig * Put a symbol into the symbol table. 1524 1.1 rillig */ 1525 1.1 rillig void 1526 1.113 rillig inssym(int level, sym_t *sym) 1527 1.1 rillig { 1528 1.1 rillig 1529 1.98 rillig debug_step("inssym '%s' %s '%s'", 1530 1.98 rillig sym->s_name, symt_name(sym->s_kind), type_name(sym->s_type)); 1531 1.60 rillig symtab_add(sym); 1532 1.113 rillig sym->s_block_level = level; 1533 1.113 rillig 1534 1.113 rillig /* 1535 1.113 rillig * Placing the inner symbols to the beginning of the list ensures 1536 1.113 rillig * that these symbols are preferred over symbols from the outer 1537 1.113 rillig * blocks that happen to have the same name. 1538 1.113 rillig */ 1539 1.113 rillig lint_assert(sym->s_symtab_next != NULL 1540 1.113 rillig ? sym->s_block_level >= sym->s_symtab_next->s_block_level 1541 1.113 rillig : true); 1542 1.1 rillig } 1543 1.1 rillig 1544 1.1 rillig /* 1545 1.2 rillig * Called at level 0 after syntax errors. 1546 1.2 rillig * 1547 1.1 rillig * Removes all symbols which are not declared at level 0 from the 1548 1.1 rillig * symbol table. Also frees all memory which is not associated with 1549 1.1 rillig * level 0. 1550 1.1 rillig */ 1551 1.1 rillig void 1552 1.109 rillig clean_up_after_error(void) 1553 1.1 rillig { 1554 1.1 rillig 1555 1.104 rillig symtab_remove_locals(); 1556 1.1 rillig 1557 1.104 rillig for (size_t i = mem_block_level; i > 0; i--) 1558 1.101 rillig level_free_all(i); 1559 1.1 rillig } 1560 1.1 rillig 1561 1.113 rillig /* Create a new symbol with the same name as an existing symbol. */ 1562 1.1 rillig sym_t * 1563 1.21 rillig pushdown(const sym_t *sym) 1564 1.1 rillig { 1565 1.1 rillig sym_t *nsym; 1566 1.1 rillig 1567 1.98 rillig debug_step("pushdown '%s' %s '%s'", 1568 1.98 rillig sym->s_name, symt_name(sym->s_kind), type_name(sym->s_type)); 1569 1.101 rillig nsym = block_zero_alloc(sizeof(*nsym)); 1570 1.12 rillig lint_assert(sym->s_block_level <= block_level); 1571 1.1 rillig nsym->s_name = sym->s_name; 1572 1.1 rillig UNIQUE_CURR_POS(nsym->s_def_pos); 1573 1.1 rillig nsym->s_kind = sym->s_kind; 1574 1.12 rillig nsym->s_block_level = block_level; 1575 1.1 rillig 1576 1.60 rillig symtab_add(nsym); 1577 1.1 rillig 1578 1.1 rillig *dcs->d_ldlsym = nsym; 1579 1.102 rillig dcs->d_ldlsym = &nsym->s_level_next; 1580 1.1 rillig 1581 1.1 rillig return nsym; 1582 1.1 rillig } 1583 1.1 rillig 1584 1.1 rillig /* 1585 1.1 rillig * Free any dynamically allocated memory referenced by 1586 1.1 rillig * the value stack or yylval. 1587 1.1 rillig * The type of information in yylval is described by tok. 1588 1.1 rillig */ 1589 1.1 rillig void 1590 1.1 rillig freeyyv(void *sp, int tok) 1591 1.1 rillig { 1592 1.1 rillig if (tok == T_NAME || tok == T_TYPENAME) { 1593 1.1 rillig sbuf_t *sb = *(sbuf_t **)sp; 1594 1.100 rillig free(sb); 1595 1.1 rillig } else if (tok == T_CON) { 1596 1.1 rillig val_t *val = *(val_t **)sp; 1597 1.1 rillig free(val); 1598 1.1 rillig } else if (tok == T_STRING) { 1599 1.1 rillig strg_t *strg = *(strg_t **)sp; 1600 1.103 rillig free(strg->st_mem); 1601 1.1 rillig free(strg); 1602 1.1 rillig } 1603 1.1 rillig } 1604
Indexes created Fri Sep 26 20:09:58 GMT 2025