lexi.c revision 1.59
1 1.59 rillig /* $NetBSD: lexi.c,v 1.59 2021/09/26 19:37:11 rillig Exp $ */ 2 1.3 tls 3 1.16 kamil /*- 4 1.16 kamil * SPDX-License-Identifier: BSD-4-Clause 5 1.16 kamil * 6 1.16 kamil * Copyright (c) 1985 Sun Microsystems, Inc. 7 1.5 mrg * Copyright (c) 1980, 1993 8 1.5 mrg * The Regents of the University of California. All rights reserved. 9 1.1 cgd * All rights reserved. 10 1.1 cgd * 11 1.1 cgd * Redistribution and use in source and binary forms, with or without 12 1.1 cgd * modification, are permitted provided that the following conditions 13 1.1 cgd * are met: 14 1.1 cgd * 1. Redistributions of source code must retain the above copyright 15 1.1 cgd * notice, this list of conditions and the following disclaimer. 16 1.1 cgd * 2. Redistributions in binary form must reproduce the above copyright 17 1.1 cgd * notice, this list of conditions and the following disclaimer in the 18 1.1 cgd * documentation and/or other materials provided with the distribution. 19 1.1 cgd * 3. All advertising materials mentioning features or use of this software 20 1.1 cgd * must display the following acknowledgement: 21 1.1 cgd * This product includes software developed by the University of 22 1.1 cgd * California, Berkeley and its contributors. 23 1.1 cgd * 4. Neither the name of the University nor the names of its contributors 24 1.1 cgd * may be used to endorse or promote products derived from this software 25 1.1 cgd * without specific prior written permission. 26 1.1 cgd * 27 1.1 cgd * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 28 1.1 cgd * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 29 1.1 cgd * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 30 1.1 cgd * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 31 1.1 cgd * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 32 1.1 cgd * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 33 1.1 cgd * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 34 1.1 cgd * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 35 1.1 cgd * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 36 1.1 cgd * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 37 1.1 cgd * SUCH DAMAGE. 38 1.1 cgd */ 39 1.1 cgd 40 1.16 kamil #if 0 41 1.16 kamil static char sccsid[] = "@(#)lexi.c 8.1 (Berkeley) 6/6/93"; 42 1.16 kamil #endif 43 1.16 kamil 44 1.6 lukem #include <sys/cdefs.h> 45 1.16 kamil #if defined(__NetBSD__) 46 1.59 rillig __RCSID("$NetBSD: lexi.c,v 1.59 2021/09/26 19:37:11 rillig Exp $"); 47 1.16 kamil #elif defined(__FreeBSD__) 48 1.16 kamil __FBSDID("$FreeBSD: head/usr.bin/indent/lexi.c 337862 2018-08-15 18:19:45Z pstef $"); 49 1.16 kamil #endif 50 1.1 cgd 51 1.20 rillig #include <assert.h> 52 1.16 kamil #include <err.h> 53 1.1 cgd #include <stdio.h> 54 1.1 cgd #include <ctype.h> 55 1.56 rillig #include <stdint.h> 56 1.1 cgd #include <stdlib.h> 57 1.1 cgd #include <string.h> 58 1.16 kamil #include <sys/param.h> 59 1.16 kamil 60 1.16 kamil #include "indent.h" 61 1.1 cgd 62 1.1 cgd struct templ { 63 1.16 kamil const char *rwd; 64 1.21 rillig enum rwcode rwcode; 65 1.1 cgd }; 66 1.1 cgd 67 1.16 kamil /* 68 1.16 kamil * This table has to be sorted alphabetically, because it'll be used in binary 69 1.27 rillig * search. 70 1.16 kamil */ 71 1.27 rillig const struct templ specials[] = 72 1.1 cgd { 73 1.21 rillig {"_Bool", rw_type}, 74 1.21 rillig {"_Complex", rw_type}, 75 1.21 rillig {"_Imaginary", rw_type}, 76 1.21 rillig {"auto", rw_storage_class}, 77 1.21 rillig {"bool", rw_type}, 78 1.22 rillig {"break", rw_jump}, 79 1.21 rillig {"case", rw_case_or_default}, 80 1.21 rillig {"char", rw_type}, 81 1.21 rillig {"complex", rw_type}, 82 1.21 rillig {"const", rw_type}, 83 1.22 rillig {"continue", rw_jump}, 84 1.21 rillig {"default", rw_case_or_default}, 85 1.21 rillig {"do", rw_do_or_else}, 86 1.21 rillig {"double", rw_type}, 87 1.21 rillig {"else", rw_do_or_else}, 88 1.21 rillig {"enum", rw_struct_or_union_or_enum}, 89 1.21 rillig {"extern", rw_storage_class}, 90 1.21 rillig {"float", rw_type}, 91 1.21 rillig {"for", rw_for_or_if_or_while}, 92 1.21 rillig {"global", rw_type}, 93 1.22 rillig {"goto", rw_jump}, 94 1.21 rillig {"if", rw_for_or_if_or_while}, 95 1.21 rillig {"imaginary", rw_type}, 96 1.22 rillig {"inline", rw_inline_or_restrict}, 97 1.21 rillig {"int", rw_type}, 98 1.21 rillig {"long", rw_type}, 99 1.21 rillig {"offsetof", rw_offsetof}, 100 1.21 rillig {"register", rw_storage_class}, 101 1.22 rillig {"restrict", rw_inline_or_restrict}, 102 1.22 rillig {"return", rw_jump}, 103 1.21 rillig {"short", rw_type}, 104 1.21 rillig {"signed", rw_type}, 105 1.21 rillig {"sizeof", rw_sizeof}, 106 1.21 rillig {"static", rw_storage_class}, 107 1.21 rillig {"struct", rw_struct_or_union_or_enum}, 108 1.21 rillig {"switch", rw_switch}, 109 1.21 rillig {"typedef", rw_typedef}, 110 1.21 rillig {"union", rw_struct_or_union_or_enum}, 111 1.21 rillig {"unsigned", rw_type}, 112 1.21 rillig {"void", rw_type}, 113 1.21 rillig {"volatile", rw_type}, 114 1.21 rillig {"while", rw_for_or_if_or_while} 115 1.1 cgd }; 116 1.1 cgd 117 1.16 kamil const char **typenames; 118 1.59 rillig int typename_count; 119 1.59 rillig int typename_top = -1; 120 1.16 kamil 121 1.16 kamil /* 122 1.16 kamil * The transition table below was rewritten by hand from lx's output, given 123 1.16 kamil * the following definitions. lx is Katherine Flavel's lexer generator. 124 1.16 kamil * 125 1.16 kamil * O = /[0-7]/; D = /[0-9]/; NZ = /[1-9]/; 126 1.16 kamil * H = /[a-f0-9]/i; B = /[0-1]/; HP = /0x/i; 127 1.16 kamil * BP = /0b/i; E = /e[+\-]?/i D+; P = /p[+\-]?/i D+; 128 1.16 kamil * FS = /[fl]/i; IS = /u/i /(l|L|ll|LL)/? | /(l|L|ll|LL)/ /u/i?; 129 1.16 kamil * 130 1.16 kamil * D+ E FS? -> $float; 131 1.16 kamil * D* "." D+ E? FS? -> $float; 132 1.16 kamil * D+ "." E? FS? -> $float; HP H+ IS? -> $int; 133 1.16 kamil * HP H+ P FS? -> $float; NZ D* IS? -> $int; 134 1.16 kamil * HP H* "." H+ P FS? -> $float; "0" O* IS? -> $int; 135 1.16 kamil * HP H+ "." P FS -> $float; BP B+ IS? -> $int; 136 1.16 kamil */ 137 1.56 rillig static const char num_lex_state[][26] = { 138 1.16 kamil /* examples: 139 1.16 kamil 00 140 1.16 kamil s 0xx 141 1.16 kamil t 00xaa 142 1.16 kamil a 11 101100xxa.. 143 1.16 kamil r 11ee0001101lbuuxx.a.pp 144 1.16 kamil t.01.e+008bLuxll0Ll.aa.p+0 145 1.16 kamil states: ABCDEFGHIJKLMNOPQRSTUVWXYZ */ 146 1.56 rillig [0] = "uuiifuufiuuiiuiiiiiuiuuuuu", 147 1.56 rillig [1] = "CEIDEHHHIJQ U Q VUVVZZZ", 148 1.56 rillig [2] = "DEIDEHHHIJQ U Q VUVVZZZ", 149 1.56 rillig [3] = "DEIDEHHHIJ U VUVVZZZ", 150 1.56 rillig [4] = "DEJDEHHHJJ U VUVVZZZ", 151 1.56 rillig [5] = " U VUVV ", 152 1.56 rillig [6] = " K U VUVV ", 153 1.56 rillig [7] = " FFF FF U VUVV ", 154 1.56 rillig [8] = " f f U VUVV f", 155 1.56 rillig [9] = " LLf fL PR Li L f", 156 1.56 rillig [10] = " OOf fO S P O i O f", 157 1.56 rillig [11] = " FFX ", 158 1.56 rillig [12] = " MM M i iiM M ", 159 1.56 rillig [13] = " N ", 160 1.56 rillig [14] = " G Y ", 161 1.56 rillig [15] = "B EE EE T W ", 162 1.16 kamil /* ABCDEFGHIJKLMNOPQRSTUVWXYZ */ 163 1.1 cgd }; 164 1.1 cgd 165 1.56 rillig static const uint8_t num_lex_row[] = { 166 1.56 rillig ['0'] = 1, 167 1.56 rillig ['1'] = 2, 168 1.56 rillig ['2'] = 3, ['3'] = 3, ['4'] = 3, ['5'] = 3, ['6'] = 3, ['7'] = 3, 169 1.56 rillig ['8'] = 4, ['9'] = 4, 170 1.56 rillig ['A'] = 5, ['a'] = 5, ['C'] = 5, ['c'] = 5, ['D'] = 5, ['d'] = 5, 171 1.56 rillig ['B'] = 6, ['b'] = 6, 172 1.56 rillig ['E'] = 7, ['e'] = 7, 173 1.56 rillig ['F'] = 8, ['f'] = 8, 174 1.56 rillig ['L'] = 9, 175 1.56 rillig ['l'] = 10, 176 1.56 rillig ['P'] = 11, ['p'] = 11, 177 1.56 rillig ['U'] = 12, ['u'] = 12, 178 1.56 rillig ['X'] = 13, ['x'] = 13, 179 1.56 rillig ['+'] = 14, ['-'] = 14, 180 1.56 rillig ['.'] = 15, 181 1.56 rillig }; 182 1.36 rillig 183 1.32 rillig static char 184 1.32 rillig inbuf_peek(void) 185 1.32 rillig { 186 1.32 rillig return *buf_ptr; 187 1.32 rillig } 188 1.32 rillig 189 1.32 rillig static void 190 1.32 rillig inbuf_skip(void) 191 1.32 rillig { 192 1.32 rillig buf_ptr++; 193 1.32 rillig if (buf_ptr >= buf_end) 194 1.32 rillig fill_buffer(); 195 1.32 rillig } 196 1.32 rillig 197 1.32 rillig static char 198 1.32 rillig inbuf_next(void) 199 1.32 rillig { 200 1.32 rillig char ch = inbuf_peek(); 201 1.32 rillig inbuf_skip(); 202 1.32 rillig return ch; 203 1.32 rillig } 204 1.32 rillig 205 1.25 rillig static void 206 1.25 rillig check_size_token(size_t desired_size) 207 1.25 rillig { 208 1.58 rillig if (token.e + desired_size >= token.l) 209 1.58 rillig buf_expand(&token, desired_size); 210 1.25 rillig } 211 1.25 rillig 212 1.16 kamil static int 213 1.27 rillig compare_templ_array(const void *key, const void *elem) 214 1.16 kamil { 215 1.27 rillig return strcmp(key, ((const struct templ *)elem)->rwd); 216 1.27 rillig } 217 1.27 rillig 218 1.27 rillig static int 219 1.27 rillig compare_string_array(const void *key, const void *elem) 220 1.27 rillig { 221 1.27 rillig return strcmp(key, *((const char *const *)elem)); 222 1.16 kamil } 223 1.1 cgd 224 1.20 rillig #ifdef debug 225 1.20 rillig const char * 226 1.47 rillig token_type_name(token_type ttype) 227 1.20 rillig { 228 1.20 rillig static const char *const name[] = { 229 1.20 rillig "end_of_file", "newline", "lparen", "rparen", "unary_op", 230 1.31 rillig "binary_op", "postfix_op", "question", "case_label", "colon", 231 1.20 rillig "semicolon", "lbrace", "rbrace", "ident", "comma", 232 1.31 rillig "comment", "switch_expr", "preprocessing", "form_feed", "decl", 233 1.29 rillig "keyword_for_if_while", "keyword_do_else", 234 1.30 rillig "if_expr", "while_expr", "for_exprs", 235 1.30 rillig "stmt", "stmt_list", "keyword_else", "keyword_do", "do_stmt", 236 1.31 rillig "if_expr_stmt", "if_expr_stmt_else", "period", "string_prefix", 237 1.31 rillig "storage_class", "funcname", "type_def", "keyword_struct_union_enum" 238 1.20 rillig }; 239 1.20 rillig 240 1.47 rillig assert(0 <= ttype && ttype < sizeof name / sizeof name[0]); 241 1.20 rillig 242 1.47 rillig return name[ttype]; 243 1.20 rillig } 244 1.20 rillig 245 1.20 rillig static void 246 1.20 rillig print_buf(const char *name, const char *s, const char *e) 247 1.20 rillig { 248 1.39 rillig if (s < e) { 249 1.39 rillig debug_printf(" %s ", name); 250 1.39 rillig debug_vis_range("\"", s, e, "\""); 251 1.20 rillig } 252 1.20 rillig } 253 1.20 rillig 254 1.20 rillig static token_type 255 1.47 rillig lexi_end(token_type ttype) 256 1.20 rillig { 257 1.39 rillig debug_printf("in line %d, lexi returns '%s'", 258 1.47 rillig line_no, token_type_name(ttype)); 259 1.50 rillig print_buf("token", token.s, token.e); 260 1.46 rillig print_buf("label", lab.s, lab.e); 261 1.48 rillig print_buf("code", code.s, code.e); 262 1.45 rillig print_buf("comment", com.s, com.e); 263 1.39 rillig debug_printf("\n"); 264 1.20 rillig 265 1.47 rillig return ttype; 266 1.20 rillig } 267 1.20 rillig #else 268 1.20 rillig # define lexi_end(tk) (tk) 269 1.20 rillig #endif 270 1.20 rillig 271 1.43 rillig static void 272 1.43 rillig lex_number(void) 273 1.43 rillig { 274 1.56 rillig for (uint8_t s = 'A'; s != 'f' && s != 'i' && s != 'u'; ) { 275 1.56 rillig uint8_t ch = (uint8_t)*buf_ptr; 276 1.56 rillig if (ch >= nitems(num_lex_row) || num_lex_row[ch] == 0) 277 1.56 rillig break; 278 1.56 rillig uint8_t row = num_lex_row[ch]; 279 1.56 rillig if (num_lex_state[row][s - 'A'] == ' ') { 280 1.56 rillig /* 281 1.56 rillig * num_lex_state[0][s - 'A'] now indicates the type: 282 1.56 rillig * f = floating, ch = integer, u = unknown 283 1.56 rillig */ 284 1.43 rillig break; 285 1.43 rillig } 286 1.56 rillig s = num_lex_state[row][s - 'A']; 287 1.43 rillig check_size_token(1); 288 1.50 rillig *token.e++ = inbuf_next(); 289 1.43 rillig } 290 1.43 rillig } 291 1.43 rillig 292 1.43 rillig static void 293 1.43 rillig lex_word(void) 294 1.43 rillig { 295 1.43 rillig while (isalnum((unsigned char)*buf_ptr) || 296 1.43 rillig *buf_ptr == '\\' || 297 1.43 rillig *buf_ptr == '_' || *buf_ptr == '$') { 298 1.43 rillig /* fill_buffer() terminates buffer with newline */ 299 1.43 rillig if (*buf_ptr == '\\') { 300 1.43 rillig if (buf_ptr[1] == '\n') { 301 1.43 rillig buf_ptr += 2; 302 1.43 rillig if (buf_ptr >= buf_end) 303 1.43 rillig fill_buffer(); 304 1.43 rillig } else 305 1.43 rillig break; 306 1.43 rillig } 307 1.43 rillig check_size_token(1); 308 1.50 rillig *token.e++ = inbuf_next(); 309 1.43 rillig } 310 1.43 rillig } 311 1.43 rillig 312 1.43 rillig static void 313 1.43 rillig lex_char_or_string(void) 314 1.43 rillig { 315 1.52 rillig for (char delim = *token.s;;) { 316 1.52 rillig if (*buf_ptr == '\n') { 317 1.52 rillig diag(1, "Unterminated literal"); 318 1.52 rillig return; 319 1.52 rillig } 320 1.52 rillig check_size_token(2); 321 1.52 rillig *token.e++ = inbuf_next(); 322 1.52 rillig if (token.e[-1] == delim) 323 1.52 rillig return; 324 1.52 rillig if (token.e[-1] == '\\') { 325 1.52 rillig if (*buf_ptr == '\n') 326 1.52 rillig ++line_no; 327 1.52 rillig *token.e++ = inbuf_next(); 328 1.52 rillig } 329 1.52 rillig } 330 1.43 rillig } 331 1.43 rillig 332 1.57 rillig /* 333 1.57 rillig * This hack attempts to guess whether the current token is in fact a 334 1.57 rillig * declaration keyword -- one that has been defined by typedef. 335 1.57 rillig */ 336 1.57 rillig static bool 337 1.57 rillig probably_typedef(const struct parser_state *state) 338 1.57 rillig { 339 1.57 rillig return state->p_l_follow == 0 && !state->block_init && !state->in_stmt && 340 1.59 rillig ((*buf_ptr == '*' && buf_ptr[1] != '=') || 341 1.59 rillig isalpha((unsigned char)*buf_ptr)) && 342 1.59 rillig (state->last_token == semicolon || state->last_token == lbrace || 343 1.59 rillig state->last_token == rbrace); 344 1.57 rillig } 345 1.57 rillig 346 1.47 rillig /* Reads the next token, placing it in the global variable "token". */ 347 1.19 rillig token_type 348 1.16 kamil lexi(struct parser_state *state) 349 1.1 cgd { 350 1.59 rillig bool unary_delim; /* whether the current token forces a 351 1.59 rillig * following operator to be unary */ 352 1.59 rillig token_type ttype; 353 1.16 kamil 354 1.50 rillig token.e = token.s; /* point to start of place to save token */ 355 1.16 kamil unary_delim = false; 356 1.16 kamil state->col_1 = state->last_nl; /* tell world that this token started 357 1.16 kamil * in column 1 iff the last thing 358 1.16 kamil * scanned was a newline */ 359 1.16 kamil state->last_nl = false; 360 1.16 kamil 361 1.16 kamil while (*buf_ptr == ' ' || *buf_ptr == '\t') { /* get rid of blanks */ 362 1.16 kamil state->col_1 = false; /* leading blanks imply token is not in column 363 1.16 kamil * 1 */ 364 1.32 rillig inbuf_skip(); 365 1.16 kamil } 366 1.6 lukem 367 1.16 kamil /* Scan an alphanumeric token */ 368 1.16 kamil if (isalnum((unsigned char)*buf_ptr) || 369 1.16 kamil *buf_ptr == '_' || *buf_ptr == '$' || 370 1.16 kamil (buf_ptr[0] == '.' && isdigit((unsigned char)buf_ptr[1]))) { 371 1.16 kamil /* 372 1.43 rillig * we have a letter or number 373 1.16 kamil */ 374 1.16 kamil struct templ *p; 375 1.16 kamil 376 1.16 kamil if (isdigit((unsigned char)*buf_ptr) || 377 1.16 kamil (buf_ptr[0] == '.' && isdigit((unsigned char)buf_ptr[1]))) { 378 1.43 rillig lex_number(); 379 1.38 rillig } else { 380 1.43 rillig lex_word(); 381 1.38 rillig } 382 1.50 rillig *token.e = '\0'; 383 1.16 kamil 384 1.50 rillig if (token.s[0] == 'L' && token.s[1] == '\0' && 385 1.59 rillig (*buf_ptr == '"' || *buf_ptr == '\'')) 386 1.31 rillig return lexi_end(string_prefix); 387 1.1 cgd 388 1.32 rillig while (*buf_ptr == ' ' || *buf_ptr == '\t') /* get rid of blanks */ 389 1.32 rillig inbuf_next(); 390 1.21 rillig state->keyword = rw_0; 391 1.31 rillig if (state->last_token == keyword_struct_union_enum && 392 1.54 rillig state->p_l_follow == 0) { 393 1.59 rillig /* 394 1.59 rillig * if last token was 'struct' and we're not in parentheses, then 395 1.59 rillig * this token should be treated as a declaration 396 1.59 rillig */ 397 1.16 kamil state->last_u_d = true; 398 1.20 rillig return lexi_end(decl); 399 1.16 kamil } 400 1.16 kamil /* 401 1.16 kamil * Operator after identifier is binary unless last token was 'struct' 402 1.16 kamil */ 403 1.31 rillig state->last_u_d = (state->last_token == keyword_struct_union_enum); 404 1.16 kamil 405 1.50 rillig p = bsearch(token.s, specials, sizeof specials / sizeof specials[0], 406 1.27 rillig sizeof specials[0], compare_templ_array); 407 1.16 kamil if (p == NULL) { /* not a special keyword... */ 408 1.16 kamil char *u; 409 1.16 kamil 410 1.16 kamil /* ... so maybe a type_t or a typedef */ 411 1.50 rillig if ((opt.auto_typedefs && ((u = strrchr(token.s, '_')) != NULL) && 412 1.59 rillig strcmp(u, "_t") == 0) || (typename_top >= 0 && 413 1.59 rillig bsearch(token.s, typenames, (size_t)typename_top + 1, 414 1.59 rillig sizeof typenames[0], compare_string_array) != NULL)) { 415 1.21 rillig state->keyword = rw_type; 416 1.16 kamil state->last_u_d = true; 417 1.59 rillig goto found_typename; 418 1.16 kamil } 419 1.59 rillig } else { /* we have a keyword */ 420 1.16 kamil state->keyword = p->rwcode; 421 1.16 kamil state->last_u_d = true; 422 1.16 kamil switch (p->rwcode) { 423 1.21 rillig case rw_switch: 424 1.30 rillig return lexi_end(switch_expr); 425 1.21 rillig case rw_case_or_default: 426 1.30 rillig return lexi_end(case_label); 427 1.21 rillig case rw_struct_or_union_or_enum: 428 1.21 rillig case rw_type: 429 1.16 kamil found_typename: 430 1.54 rillig if (state->p_l_follow != 0) { 431 1.16 kamil /* inside parens: cast, param list, offsetof or sizeof */ 432 1.16 kamil state->cast_mask |= (1 << state->p_l_follow) & ~state->not_cast_mask; 433 1.16 kamil } 434 1.16 kamil if (state->last_token == period || state->last_token == unary_op) { 435 1.21 rillig state->keyword = rw_0; 436 1.16 kamil break; 437 1.16 kamil } 438 1.21 rillig if (p != NULL && p->rwcode == rw_struct_or_union_or_enum) 439 1.31 rillig return lexi_end(keyword_struct_union_enum); 440 1.54 rillig if (state->p_l_follow != 0) 441 1.16 kamil break; 442 1.20 rillig return lexi_end(decl); 443 1.16 kamil 444 1.21 rillig case rw_for_or_if_or_while: 445 1.29 rillig return lexi_end(keyword_for_if_while); 446 1.16 kamil 447 1.21 rillig case rw_do_or_else: 448 1.29 rillig return lexi_end(keyword_do_else); 449 1.16 kamil 450 1.21 rillig case rw_storage_class: 451 1.31 rillig return lexi_end(storage_class); 452 1.16 kamil 453 1.21 rillig case rw_typedef: 454 1.20 rillig return lexi_end(type_def); 455 1.16 kamil 456 1.16 kamil default: /* all others are treated like any other 457 1.16 kamil * identifier */ 458 1.20 rillig return lexi_end(ident); 459 1.16 kamil } /* end of switch */ 460 1.16 kamil } /* end of if (found_it) */ 461 1.16 kamil if (*buf_ptr == '(' && state->tos <= 1 && state->ind_level == 0 && 462 1.54 rillig !state->in_parameter_declaration && !state->block_init) { 463 1.16 kamil char *tp = buf_ptr; 464 1.16 kamil while (tp < buf_end) 465 1.16 kamil if (*tp++ == ')' && (*tp == ';' || *tp == ',')) 466 1.16 kamil goto not_proc; 467 1.50 rillig strncpy(state->procname, token.s, sizeof state->procname - 1); 468 1.16 kamil if (state->in_decl) 469 1.54 rillig state->in_parameter_declaration = true; 470 1.20 rillig return lexi_end(funcname); 471 1.16 kamil not_proc:; 472 1.57 rillig } else if (probably_typedef(state)) { 473 1.21 rillig state->keyword = rw_type; 474 1.16 kamil state->last_u_d = true; 475 1.20 rillig return lexi_end(decl); 476 1.16 kamil } 477 1.16 kamil if (state->last_token == decl) /* if this is a declared variable, 478 1.6 lukem * then following sign is unary */ 479 1.16 kamil state->last_u_d = true; /* will make "int a -1" work */ 480 1.59 rillig return lexi_end(ident); /* the ident is not in the list */ 481 1.16 kamil } /* end of procesing for alpanum character */ 482 1.16 kamil 483 1.16 kamil /* Scan a non-alphanumeric token */ 484 1.16 kamil 485 1.28 rillig check_size_token(3); /* things like "<<=" */ 486 1.50 rillig *token.e++ = inbuf_next(); /* if it is only a one-character token, it is 487 1.6 lukem * moved here */ 488 1.50 rillig *token.e = '\0'; 489 1.16 kamil 490 1.50 rillig switch (*token.s) { 491 1.16 kamil case '\n': 492 1.16 kamil unary_delim = state->last_u_d; 493 1.16 kamil state->last_nl = true; /* remember that we just had a newline */ 494 1.47 rillig /* if data has been exhausted, the newline is a dummy. */ 495 1.47 rillig ttype = had_eof ? end_of_file : newline; 496 1.16 kamil break; 497 1.16 kamil 498 1.43 rillig case '\'': 499 1.43 rillig case '"': 500 1.44 rillig lex_char_or_string(); 501 1.47 rillig ttype = ident; 502 1.16 kamil break; 503 1.6 lukem 504 1.40 rillig case '(': 505 1.40 rillig case '[': 506 1.16 kamil unary_delim = true; 507 1.47 rillig ttype = lparen; 508 1.16 kamil break; 509 1.16 kamil 510 1.40 rillig case ')': 511 1.40 rillig case ']': 512 1.47 rillig ttype = rparen; 513 1.16 kamil break; 514 1.16 kamil 515 1.16 kamil case '#': 516 1.16 kamil unary_delim = state->last_u_d; 517 1.47 rillig ttype = preprocessing; 518 1.16 kamil break; 519 1.16 kamil 520 1.16 kamil case '?': 521 1.16 kamil unary_delim = true; 522 1.47 rillig ttype = question; 523 1.16 kamil break; 524 1.16 kamil 525 1.40 rillig case ':': 526 1.47 rillig ttype = colon; 527 1.16 kamil unary_delim = true; 528 1.16 kamil break; 529 1.16 kamil 530 1.40 rillig case ';': 531 1.16 kamil unary_delim = true; 532 1.47 rillig ttype = semicolon; 533 1.16 kamil break; 534 1.16 kamil 535 1.40 rillig case '{': 536 1.16 kamil unary_delim = true; 537 1.47 rillig ttype = lbrace; 538 1.16 kamil break; 539 1.16 kamil 540 1.40 rillig case '}': 541 1.16 kamil unary_delim = true; 542 1.47 rillig ttype = rbrace; 543 1.16 kamil break; 544 1.16 kamil 545 1.16 kamil case 014: /* a form feed */ 546 1.16 kamil unary_delim = state->last_u_d; 547 1.16 kamil state->last_nl = true; /* remember this so we can set 'state->col_1' 548 1.16 kamil * right */ 549 1.47 rillig ttype = form_feed; 550 1.16 kamil break; 551 1.16 kamil 552 1.40 rillig case ',': 553 1.16 kamil unary_delim = true; 554 1.47 rillig ttype = comma; 555 1.16 kamil break; 556 1.16 kamil 557 1.16 kamil case '.': 558 1.16 kamil unary_delim = false; 559 1.47 rillig ttype = period; 560 1.16 kamil break; 561 1.1 cgd 562 1.16 kamil case '-': 563 1.16 kamil case '+': /* check for -, +, --, ++ */ 564 1.47 rillig ttype = state->last_u_d ? unary_op : binary_op; 565 1.16 kamil unary_delim = true; 566 1.16 kamil 567 1.50 rillig if (*buf_ptr == token.s[0]) { 568 1.16 kamil /* check for doubled character */ 569 1.50 rillig *token.e++ = *buf_ptr++; 570 1.16 kamil /* buffer overflow will be checked at end of loop */ 571 1.16 kamil if (state->last_token == ident || state->last_token == rparen) { 572 1.47 rillig ttype = state->last_u_d ? unary_op : postfix_op; 573 1.16 kamil /* check for following ++ or -- */ 574 1.1 cgd unary_delim = false; 575 1.16 kamil } 576 1.38 rillig } else if (*buf_ptr == '=') 577 1.16 kamil /* check for operator += */ 578 1.50 rillig *token.e++ = *buf_ptr++; 579 1.16 kamil else if (*buf_ptr == '>') { 580 1.16 kamil /* check for operator -> */ 581 1.50 rillig *token.e++ = *buf_ptr++; 582 1.16 kamil unary_delim = false; 583 1.47 rillig ttype = unary_op; 584 1.16 kamil state->want_blank = false; 585 1.16 kamil } 586 1.16 kamil break; /* buffer overflow will be checked at end of 587 1.16 kamil * switch */ 588 1.16 kamil 589 1.16 kamil case '=': 590 1.16 kamil if (state->in_or_st) 591 1.54 rillig state->block_init = true; 592 1.28 rillig if (*buf_ptr == '=') { /* == */ 593 1.50 rillig *token.e++ = '='; /* Flip =+ to += */ 594 1.16 kamil buf_ptr++; 595 1.50 rillig *token.e = 0; 596 1.16 kamil } 597 1.47 rillig ttype = binary_op; 598 1.16 kamil unary_delim = true; 599 1.16 kamil break; 600 1.16 kamil /* can drop thru!!! */ 601 1.16 kamil 602 1.16 kamil case '>': 603 1.16 kamil case '<': 604 1.16 kamil case '!': /* ops like <, <<, <=, !=, etc */ 605 1.32 rillig if (*buf_ptr == '>' || *buf_ptr == '<' || *buf_ptr == '=') 606 1.50 rillig *token.e++ = inbuf_next(); 607 1.16 kamil if (*buf_ptr == '=') 608 1.50 rillig *token.e++ = *buf_ptr++; 609 1.47 rillig ttype = state->last_u_d ? unary_op : binary_op; 610 1.16 kamil unary_delim = true; 611 1.16 kamil break; 612 1.16 kamil 613 1.16 kamil case '*': 614 1.16 kamil unary_delim = true; 615 1.16 kamil if (!state->last_u_d) { 616 1.16 kamil if (*buf_ptr == '=') 617 1.50 rillig *token.e++ = *buf_ptr++; 618 1.47 rillig ttype = binary_op; 619 1.16 kamil break; 620 1.16 kamil } 621 1.16 kamil while (*buf_ptr == '*' || isspace((unsigned char)*buf_ptr)) { 622 1.16 kamil if (*buf_ptr == '*') { 623 1.25 rillig check_size_token(1); 624 1.50 rillig *token.e++ = *buf_ptr; 625 1.16 kamil } 626 1.32 rillig inbuf_skip(); 627 1.16 kamil } 628 1.16 kamil if (ps.in_decl) { 629 1.16 kamil char *tp = buf_ptr; 630 1.6 lukem 631 1.16 kamil while (isalpha((unsigned char)*tp) || 632 1.16 kamil isspace((unsigned char)*tp)) { 633 1.16 kamil if (++tp >= buf_end) 634 1.16 kamil fill_buffer(); 635 1.16 kamil } 636 1.16 kamil if (*tp == '(') 637 1.16 kamil ps.procname[0] = ' '; 638 1.16 kamil } 639 1.47 rillig ttype = unary_op; 640 1.16 kamil break; 641 1.1 cgd 642 1.16 kamil default: 643 1.50 rillig if (token.s[0] == '/' && (*buf_ptr == '*' || *buf_ptr == '/')) { 644 1.16 kamil /* it is start of comment */ 645 1.50 rillig *token.e++ = inbuf_next(); 646 1.1 cgd 647 1.47 rillig ttype = comment; 648 1.16 kamil unary_delim = state->last_u_d; 649 1.16 kamil break; 650 1.1 cgd } 651 1.50 rillig while (token.e[-1] == *buf_ptr || *buf_ptr == '=') { 652 1.16 kamil /* 653 1.16 kamil * handle ||, &&, etc, and also things as in int *****i 654 1.16 kamil */ 655 1.25 rillig check_size_token(1); 656 1.50 rillig *token.e++ = inbuf_next(); 657 1.16 kamil } 658 1.47 rillig ttype = state->last_u_d ? unary_op : binary_op; 659 1.16 kamil unary_delim = true; 660 1.47 rillig } 661 1.16 kamil 662 1.16 kamil if (buf_ptr >= buf_end) /* check for input buffer empty */ 663 1.16 kamil fill_buffer(); 664 1.16 kamil state->last_u_d = unary_delim; 665 1.25 rillig check_size_token(1); 666 1.50 rillig *token.e = '\0'; 667 1.47 rillig return lexi_end(ttype); 668 1.1 cgd } 669 1.16 kamil 670 1.16 kamil void 671 1.16 kamil alloc_typenames(void) 672 1.16 kamil { 673 1.16 kamil 674 1.51 rillig typenames = xmalloc(sizeof(typenames[0]) * (typename_count = 16)); 675 1.16 kamil } 676 1.16 kamil 677 1.6 lukem void 678 1.16 kamil add_typename(const char *key) 679 1.1 cgd { 680 1.16 kamil int comparison; 681 1.16 kamil 682 1.16 kamil if (typename_top + 1 >= typename_count) { 683 1.51 rillig typenames = xrealloc((void *)typenames, 684 1.16 kamil sizeof(typenames[0]) * (typename_count *= 2)); 685 1.16 kamil } 686 1.16 kamil if (typename_top == -1) 687 1.51 rillig typenames[++typename_top] = xstrdup(key); 688 1.16 kamil else if ((comparison = strcmp(key, typenames[typename_top])) >= 0) { 689 1.16 kamil /* take advantage of sorted input */ 690 1.16 kamil if (comparison == 0) /* remove duplicates */ 691 1.16 kamil return; 692 1.51 rillig typenames[++typename_top] = xstrdup(key); 693 1.38 rillig } else { 694 1.16 kamil int p; 695 1.16 kamil 696 1.16 kamil for (p = 0; (comparison = strcmp(key, typenames[p])) > 0; p++) 697 1.16 kamil /* find place for the new key */; 698 1.16 kamil if (comparison == 0) /* remove duplicates */ 699 1.16 kamil return; 700 1.16 kamil memmove(&typenames[p + 1], &typenames[p], 701 1.16 kamil sizeof(typenames[0]) * (++typename_top - p)); 702 1.51 rillig typenames[p] = xstrdup(key); 703 1.16 kamil } 704 1.1 cgd } 705
Indexes created Mon Sep 29 21:09:56 GMT 2025