scm-symtab.c revision 1.9
1 1.1 christos /* Scheme interface to symbol tables. 2 1.1 christos 3 1.9 christos Copyright (C) 2008-2024 Free Software Foundation, Inc. 4 1.1 christos 5 1.1 christos This file is part of GDB. 6 1.1 christos 7 1.1 christos This program is free software; you can redistribute it and/or modify 8 1.1 christos it under the terms of the GNU General Public License as published by 9 1.1 christos the Free Software Foundation; either version 3 of the License, or 10 1.1 christos (at your option) any later version. 11 1.1 christos 12 1.1 christos This program is distributed in the hope that it will be useful, 13 1.1 christos but WITHOUT ANY WARRANTY; without even the implied warranty of 14 1.1 christos MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the 15 1.1 christos GNU General Public License for more details. 16 1.1 christos 17 1.1 christos You should have received a copy of the GNU General Public License 18 1.1 christos along with this program. If not, see <http://www.gnu.org/licenses/>. */ 19 1.1 christos 20 1.1 christos /* See README file in this directory for implementation notes, coding 21 1.1 christos conventions, et.al. */ 22 1.1 christos 23 1.1 christos #include "symtab.h" 24 1.1 christos #include "source.h" 25 1.1 christos #include "objfiles.h" 26 1.1 christos #include "block.h" 27 1.1 christos #include "guile-internal.h" 28 1.1 christos 29 1.1 christos /* A <gdb:symtab> smob. */ 30 1.1 christos 31 1.8 christos struct symtab_smob 32 1.1 christos { 33 1.1 christos /* This always appears first. 34 1.1 christos eqable_gdb_smob is used so that symtabs are eq?-able. 35 1.1 christos Also, a symtab object is associated with an objfile. eqable_gdb_smob 36 1.1 christos lets us track the lifetime of all symtabs associated with an objfile. 37 1.1 christos When an objfile is deleted we need to invalidate the symtab object. */ 38 1.1 christos eqable_gdb_smob base; 39 1.1 christos 40 1.1 christos /* The GDB symbol table structure. 41 1.1 christos If this is NULL the symtab is invalid. This can happen when the 42 1.1 christos underlying objfile is freed. */ 43 1.1 christos struct symtab *symtab; 44 1.8 christos }; 45 1.1 christos 46 1.1 christos /* A <gdb:sal> smob. 47 1.1 christos A smob describing a gdb symtab-and-line object. 48 1.1 christos A sal is associated with an objfile. All access must be gated by checking 49 1.1 christos the validity of symtab_scm. 50 1.1 christos TODO: Sals are not eq?-able at the moment, or even comparable. */ 51 1.1 christos 52 1.8 christos struct sal_smob 53 1.1 christos { 54 1.1 christos /* This always appears first. */ 55 1.1 christos gdb_smob base; 56 1.1 christos 57 1.1 christos /* The <gdb:symtab> object of the symtab. 58 1.1 christos We store this instead of a pointer to the symtab_smob because it's not 59 1.1 christos clear GC will know the symtab_smob is referenced by us otherwise, and we 60 1.1 christos need quick access to symtab_smob->symtab to know if this sal is valid. */ 61 1.1 christos SCM symtab_scm; 62 1.1 christos 63 1.1 christos /* The GDB symbol table and line structure. 64 1.1 christos This object is ephemeral in GDB, so keep our own copy. 65 1.1 christos The symtab pointer in this struct is not usable: If the symtab is deleted 66 1.1 christos this pointer will not be updated. Use symtab_scm instead to determine 67 1.1 christos if this sal is valid. */ 68 1.1 christos struct symtab_and_line sal; 69 1.8 christos }; 70 1.1 christos 71 1.1 christos static const char symtab_smob_name[] = "gdb:symtab"; 72 1.1 christos /* "symtab-and-line" is pretty long, and "sal" is short and unique. */ 73 1.1 christos static const char sal_smob_name[] = "gdb:sal"; 74 1.1 christos 75 1.1 christos /* The tags Guile knows the symbol table smobs by. */ 76 1.1 christos static scm_t_bits symtab_smob_tag; 77 1.1 christos static scm_t_bits sal_smob_tag; 78 1.1 christos 79 1.8 christos /* This is called when an objfile is about to be freed. 80 1.8 christos Invalidate the symbol table as further actions on the symbol table 81 1.8 christos would result in bad data. All access to st_smob->symtab should be 82 1.8 christos gated by stscm_get_valid_symtab_smob_arg_unsafe which will raise an 83 1.8 christos exception on invalid symbol tables. */ 84 1.8 christos struct stscm_deleter 85 1.8 christos { 86 1.8 christos /* Helper function for stscm_del_objfile_symtabs to mark the symtab 87 1.8 christos as invalid. */ 88 1.8 christos 89 1.8 christos static int 90 1.8 christos stscm_mark_symtab_invalid (void **slot, void *info) 91 1.8 christos { 92 1.8 christos symtab_smob *st_smob = (symtab_smob *) *slot; 93 1.8 christos 94 1.8 christos st_smob->symtab = NULL; 95 1.8 christos return 1; 96 1.8 christos } 97 1.8 christos 98 1.8 christos void operator() (htab_t htab) 99 1.8 christos { 100 1.8 christos gdb_assert (htab != nullptr); 101 1.8 christos htab_traverse_noresize (htab, stscm_mark_symtab_invalid, NULL); 102 1.8 christos htab_delete (htab); 103 1.8 christos } 104 1.8 christos }; 105 1.8 christos 106 1.8 christos static const registry<objfile>::key<htab, stscm_deleter> 107 1.8 christos stscm_objfile_data_key; 108 1.1 christos 109 1.1 christos /* Administrivia for symtab smobs. */ 111 1.1 christos 112 1.1 christos /* Helper function to hash a symbol_smob. */ 113 1.1 christos 114 1.1 christos static hashval_t 115 1.1 christos stscm_hash_symtab_smob (const void *p) 116 1.4 christos { 117 1.1 christos const symtab_smob *st_smob = (const symtab_smob *) p; 118 1.1 christos 119 1.1 christos return htab_hash_pointer (st_smob->symtab); 120 1.1 christos } 121 1.1 christos 122 1.1 christos /* Helper function to compute equality of symtab_smobs. */ 123 1.1 christos 124 1.1 christos static int 125 1.1 christos stscm_eq_symtab_smob (const void *ap, const void *bp) 126 1.4 christos { 127 1.4 christos const symtab_smob *a = (const symtab_smob *) ap; 128 1.1 christos const symtab_smob *b = (const symtab_smob *) bp; 129 1.1 christos 130 1.1 christos return (a->symtab == b->symtab 131 1.1 christos && a->symtab != NULL); 132 1.1 christos } 133 1.1 christos 134 1.1 christos /* Return the struct symtab pointer -> SCM mapping table. 135 1.1 christos It is created if necessary. */ 136 1.1 christos 137 1.1 christos static htab_t 138 1.1 christos stscm_objfile_symtab_map (struct symtab *symtab) 139 1.8 christos { 140 1.8 christos struct objfile *objfile = symtab->compunit ()->objfile (); 141 1.1 christos htab_t htab = stscm_objfile_data_key.get (objfile); 142 1.1 christos 143 1.1 christos if (htab == NULL) 144 1.1 christos { 145 1.1 christos htab = gdbscm_create_eqable_gsmob_ptr_map (stscm_hash_symtab_smob, 146 1.8 christos stscm_eq_symtab_smob); 147 1.1 christos stscm_objfile_data_key.set (objfile, htab); 148 1.1 christos } 149 1.1 christos 150 1.1 christos return htab; 151 1.1 christos } 152 1.1 christos 153 1.1 christos /* The smob "free" function for <gdb:symtab>. */ 154 1.1 christos 155 1.1 christos static size_t 156 1.1 christos stscm_free_symtab_smob (SCM self) 157 1.1 christos { 158 1.1 christos symtab_smob *st_smob = (symtab_smob *) SCM_SMOB_DATA (self); 159 1.1 christos 160 1.1 christos if (st_smob->symtab != NULL) 161 1.1 christos { 162 1.1 christos htab_t htab = stscm_objfile_symtab_map (st_smob->symtab); 163 1.1 christos 164 1.1 christos gdbscm_clear_eqable_gsmob_ptr_slot (htab, &st_smob->base); 165 1.1 christos } 166 1.1 christos 167 1.1 christos /* Not necessary, done to catch bugs. */ 168 1.1 christos st_smob->symtab = NULL; 169 1.1 christos 170 1.1 christos return 0; 171 1.1 christos } 172 1.1 christos 173 1.1 christos /* The smob "print" function for <gdb:symtab>. */ 174 1.1 christos 175 1.1 christos static int 176 1.1 christos stscm_print_symtab_smob (SCM self, SCM port, scm_print_state *pstate) 177 1.1 christos { 178 1.1 christos symtab_smob *st_smob = (symtab_smob *) SCM_SMOB_DATA (self); 179 1.1 christos 180 1.1 christos gdbscm_printf (port, "#<%s ", symtab_smob_name); 181 1.1 christos gdbscm_printf (port, "%s", 182 1.1 christos st_smob->symtab != NULL 183 1.1 christos ? symtab_to_filename_for_display (st_smob->symtab) 184 1.1 christos : "<invalid>"); 185 1.1 christos scm_puts (">", port); 186 1.1 christos 187 1.1 christos scm_remember_upto_here_1 (self); 188 1.1 christos 189 1.1 christos /* Non-zero means success. */ 190 1.1 christos return 1; 191 1.1 christos } 192 1.1 christos 193 1.1 christos /* Low level routine to create a <gdb:symtab> object. */ 194 1.1 christos 195 1.1 christos static SCM 196 1.1 christos stscm_make_symtab_smob (void) 197 1.1 christos { 198 1.1 christos symtab_smob *st_smob = (symtab_smob *) 199 1.1 christos scm_gc_malloc (sizeof (symtab_smob), symtab_smob_name); 200 1.1 christos SCM st_scm; 201 1.1 christos 202 1.1 christos st_smob->symtab = NULL; 203 1.1 christos st_scm = scm_new_smob (symtab_smob_tag, (scm_t_bits) st_smob); 204 1.1 christos gdbscm_init_eqable_gsmob (&st_smob->base, st_scm); 205 1.1 christos 206 1.1 christos return st_scm; 207 1.1 christos } 208 1.1 christos 209 1.1 christos /* Return non-zero if SCM is a symbol table smob. */ 210 1.1 christos 211 1.1 christos static int 212 1.1 christos stscm_is_symtab (SCM scm) 213 1.1 christos { 214 1.1 christos return SCM_SMOB_PREDICATE (symtab_smob_tag, scm); 215 1.1 christos } 216 1.1 christos 217 1.1 christos /* (symtab? object) -> boolean */ 218 1.1 christos 219 1.1 christos static SCM 220 1.1 christos gdbscm_symtab_p (SCM scm) 221 1.1 christos { 222 1.1 christos return scm_from_bool (stscm_is_symtab (scm)); 223 1.1 christos } 224 1.1 christos 225 1.1 christos /* Create a new <gdb:symtab> object that encapsulates SYMTAB. */ 226 1.1 christos 227 1.1 christos SCM 228 1.1 christos stscm_scm_from_symtab (struct symtab *symtab) 229 1.1 christos { 230 1.1 christos htab_t htab; 231 1.1 christos eqable_gdb_smob **slot; 232 1.1 christos symtab_smob *st_smob, st_smob_for_lookup; 233 1.1 christos SCM st_scm; 234 1.1 christos 235 1.1 christos /* If we've already created a gsmob for this symtab, return it. 236 1.1 christos This makes symtabs eq?-able. */ 237 1.1 christos htab = stscm_objfile_symtab_map (symtab); 238 1.1 christos st_smob_for_lookup.symtab = symtab; 239 1.1 christos slot = gdbscm_find_eqable_gsmob_ptr_slot (htab, &st_smob_for_lookup.base); 240 1.1 christos if (*slot != NULL) 241 1.1 christos return (*slot)->containing_scm; 242 1.1 christos 243 1.1 christos st_scm = stscm_make_symtab_smob (); 244 1.1 christos st_smob = (symtab_smob *) SCM_SMOB_DATA (st_scm); 245 1.1 christos st_smob->symtab = symtab; 246 1.1 christos gdbscm_fill_eqable_gsmob_ptr_slot (slot, &st_smob->base); 247 1.1 christos 248 1.1 christos return st_scm; 249 1.1 christos } 250 1.1 christos 251 1.1 christos /* Returns the <gdb:symtab> object in SELF. 252 1.1 christos Throws an exception if SELF is not a <gdb:symtab> object. */ 253 1.1 christos 254 1.1 christos static SCM 255 1.1 christos stscm_get_symtab_arg_unsafe (SCM self, int arg_pos, const char *func_name) 256 1.1 christos { 257 1.1 christos SCM_ASSERT_TYPE (stscm_is_symtab (self), self, arg_pos, func_name, 258 1.1 christos symtab_smob_name); 259 1.1 christos 260 1.1 christos return self; 261 1.1 christos } 262 1.1 christos 263 1.1 christos /* Returns a pointer to the symtab smob of SELF. 264 1.1 christos Throws an exception if SELF is not a <gdb:symtab> object. */ 265 1.1 christos 266 1.1 christos static symtab_smob * 267 1.1 christos stscm_get_symtab_smob_arg_unsafe (SCM self, int arg_pos, const char *func_name) 268 1.1 christos { 269 1.1 christos SCM st_scm = stscm_get_symtab_arg_unsafe (self, arg_pos, func_name); 270 1.1 christos symtab_smob *st_smob = (symtab_smob *) SCM_SMOB_DATA (st_scm); 271 1.1 christos 272 1.1 christos return st_smob; 273 1.1 christos } 274 1.1 christos 275 1.1 christos /* Return non-zero if symtab ST_SMOB is valid. */ 276 1.1 christos 277 1.1 christos static int 278 1.1 christos stscm_is_valid (symtab_smob *st_smob) 279 1.1 christos { 280 1.1 christos return st_smob->symtab != NULL; 281 1.1 christos } 282 1.1 christos 283 1.1 christos /* Throw a Scheme error if SELF is not a valid symtab smob. 284 1.1 christos Otherwise return a pointer to the symtab_smob object. */ 285 1.1 christos 286 1.1 christos static symtab_smob * 287 1.1 christos stscm_get_valid_symtab_smob_arg_unsafe (SCM self, int arg_pos, 288 1.1 christos const char *func_name) 289 1.1 christos { 290 1.1 christos symtab_smob *st_smob 291 1.1 christos = stscm_get_symtab_smob_arg_unsafe (self, arg_pos, func_name); 292 1.1 christos 293 1.1 christos if (!stscm_is_valid (st_smob)) 294 1.1 christos { 295 1.1 christos gdbscm_invalid_object_error (func_name, arg_pos, self, 296 1.1 christos _("<gdb:symtab>")); 297 1.1 christos } 298 1.1 christos 299 1.1 christos return st_smob; 300 1.1 christos } 301 1.1 christos 302 1.1 christos 303 1.1 christos /* Symbol table methods. */ 305 1.1 christos 306 1.1 christos /* (symtab-valid? <gdb:symtab>) -> boolean 307 1.1 christos Returns #t if SELF still exists in GDB. */ 308 1.1 christos 309 1.1 christos static SCM 310 1.1 christos gdbscm_symtab_valid_p (SCM self) 311 1.1 christos { 312 1.1 christos symtab_smob *st_smob 313 1.1 christos = stscm_get_symtab_smob_arg_unsafe (self, SCM_ARG1, FUNC_NAME); 314 1.1 christos 315 1.1 christos return scm_from_bool (stscm_is_valid (st_smob)); 316 1.1 christos } 317 1.1 christos 318 1.1 christos /* (symtab-filename <gdb:symtab>) -> string */ 319 1.1 christos 320 1.1 christos static SCM 321 1.1 christos gdbscm_symtab_filename (SCM self) 322 1.1 christos { 323 1.1 christos symtab_smob *st_smob 324 1.1 christos = stscm_get_valid_symtab_smob_arg_unsafe (self, SCM_ARG1, FUNC_NAME); 325 1.1 christos struct symtab *symtab = st_smob->symtab; 326 1.1 christos 327 1.1 christos return gdbscm_scm_from_c_string (symtab_to_filename_for_display (symtab)); 328 1.1 christos } 329 1.1 christos 330 1.1 christos /* (symtab-fullname <gdb:symtab>) -> string */ 331 1.1 christos 332 1.1 christos static SCM 333 1.1 christos gdbscm_symtab_fullname (SCM self) 334 1.1 christos { 335 1.1 christos symtab_smob *st_smob 336 1.1 christos = stscm_get_valid_symtab_smob_arg_unsafe (self, SCM_ARG1, FUNC_NAME); 337 1.1 christos struct symtab *symtab = st_smob->symtab; 338 1.1 christos 339 1.1 christos return gdbscm_scm_from_c_string (symtab_to_fullname (symtab)); 340 1.1 christos } 341 1.1 christos 342 1.1 christos /* (symtab-objfile <gdb:symtab>) -> <gdb:objfile> */ 343 1.1 christos 344 1.1 christos static SCM 345 1.1 christos gdbscm_symtab_objfile (SCM self) 346 1.1 christos { 347 1.1 christos symtab_smob *st_smob 348 1.1 christos = stscm_get_valid_symtab_smob_arg_unsafe (self, SCM_ARG1, FUNC_NAME); 349 1.8 christos const struct symtab *symtab = st_smob->symtab; 350 1.1 christos 351 1.1 christos return ofscm_scm_from_objfile (symtab->compunit ()->objfile ()); 352 1.1 christos } 353 1.1 christos 354 1.1 christos /* (symtab-global-block <gdb:symtab>) -> <gdb:block> 355 1.1 christos Return the GLOBAL_BLOCK of the underlying symtab. */ 356 1.1 christos 357 1.1 christos static SCM 358 1.1 christos gdbscm_symtab_global_block (SCM self) 359 1.1 christos { 360 1.1 christos symtab_smob *st_smob 361 1.1 christos = stscm_get_valid_symtab_smob_arg_unsafe (self, SCM_ARG1, FUNC_NAME); 362 1.1 christos const struct symtab *symtab = st_smob->symtab; 363 1.8 christos const struct blockvector *blockvector; 364 1.8 christos 365 1.1 christos blockvector = symtab->compunit ()->blockvector (); 366 1.8 christos const struct block *block = blockvector->global_block (); 367 1.1 christos 368 1.1 christos return bkscm_scm_from_block (block, symtab->compunit ()->objfile ()); 369 1.1 christos } 370 1.1 christos 371 1.1 christos /* (symtab-static-block <gdb:symtab>) -> <gdb:block> 372 1.1 christos Return the STATIC_BLOCK of the underlying symtab. */ 373 1.1 christos 374 1.1 christos static SCM 375 1.1 christos gdbscm_symtab_static_block (SCM self) 376 1.1 christos { 377 1.1 christos symtab_smob *st_smob 378 1.1 christos = stscm_get_valid_symtab_smob_arg_unsafe (self, SCM_ARG1, FUNC_NAME); 379 1.1 christos const struct symtab *symtab = st_smob->symtab; 380 1.8 christos const struct blockvector *blockvector; 381 1.8 christos 382 1.1 christos blockvector = symtab->compunit ()->blockvector (); 383 1.8 christos const struct block *block = blockvector->static_block (); 384 1.1 christos 385 1.1 christos return bkscm_scm_from_block (block, symtab->compunit ()->objfile ()); 386 1.1 christos } 387 1.1 christos 388 1.1 christos /* Administrivia for sal (symtab-and-line) smobs. */ 390 1.1 christos 391 1.1 christos /* The smob "print" function for <gdb:sal>. */ 392 1.1 christos 393 1.1 christos static int 394 1.1 christos stscm_print_sal_smob (SCM self, SCM port, scm_print_state *pstate) 395 1.1 christos { 396 1.1 christos sal_smob *s_smob = (sal_smob *) SCM_SMOB_DATA (self); 397 1.1 christos 398 1.1 christos gdbscm_printf (port, "#<%s ", symtab_smob_name); 399 1.1 christos scm_write (s_smob->symtab_scm, port); 400 1.1 christos if (s_smob->sal.line != 0) 401 1.1 christos gdbscm_printf (port, " line %d", s_smob->sal.line); 402 1.1 christos scm_puts (">", port); 403 1.1 christos 404 1.1 christos scm_remember_upto_here_1 (self); 405 1.1 christos 406 1.1 christos /* Non-zero means success. */ 407 1.1 christos return 1; 408 1.1 christos } 409 1.1 christos 410 1.1 christos /* Low level routine to create a <gdb:sal> object. */ 411 1.1 christos 412 1.1 christos static SCM 413 1.1 christos stscm_make_sal_smob (void) 414 1.1 christos { 415 1.1 christos sal_smob *s_smob 416 1.1 christos = (sal_smob *) scm_gc_malloc (sizeof (sal_smob), sal_smob_name); 417 1.6 christos SCM s_scm; 418 1.1 christos 419 1.1 christos s_smob->symtab_scm = SCM_BOOL_F; 420 1.1 christos new (&s_smob->sal) symtab_and_line (); 421 1.1 christos s_scm = scm_new_smob (sal_smob_tag, (scm_t_bits) s_smob); 422 1.1 christos gdbscm_init_gsmob (&s_smob->base); 423 1.1 christos 424 1.1 christos return s_scm; 425 1.1 christos } 426 1.1 christos 427 1.1 christos /* Return non-zero if SCM is a <gdb:sal> object. */ 428 1.1 christos 429 1.1 christos static int 430 1.1 christos stscm_is_sal (SCM scm) 431 1.1 christos { 432 1.1 christos return SCM_SMOB_PREDICATE (sal_smob_tag, scm); 433 1.1 christos } 434 1.1 christos 435 1.1 christos /* (sal? object) -> boolean */ 436 1.1 christos 437 1.1 christos static SCM 438 1.1 christos gdbscm_sal_p (SCM scm) 439 1.1 christos { 440 1.1 christos return scm_from_bool (stscm_is_sal (scm)); 441 1.1 christos } 442 1.1 christos 443 1.1 christos /* Create a new <gdb:sal> object that encapsulates SAL. */ 444 1.1 christos 445 1.1 christos SCM 446 1.1 christos stscm_scm_from_sal (struct symtab_and_line sal) 447 1.1 christos { 448 1.1 christos SCM st_scm, s_scm; 449 1.1 christos sal_smob *s_smob; 450 1.1 christos 451 1.1 christos st_scm = SCM_BOOL_F; 452 1.1 christos if (sal.symtab != NULL) 453 1.1 christos st_scm = stscm_scm_from_symtab (sal.symtab); 454 1.1 christos 455 1.1 christos s_scm = stscm_make_sal_smob (); 456 1.1 christos s_smob = (sal_smob *) SCM_SMOB_DATA (s_scm); 457 1.1 christos s_smob->symtab_scm = st_scm; 458 1.1 christos s_smob->sal = sal; 459 1.1 christos 460 1.1 christos return s_scm; 461 1.1 christos } 462 1.1 christos 463 1.1 christos /* Returns the <gdb:sal> object in SELF. 464 1.1 christos Throws an exception if SELF is not a <gdb:sal> object. */ 465 1.1 christos 466 1.1 christos static SCM 467 1.1 christos stscm_get_sal_arg (SCM self, int arg_pos, const char *func_name) 468 1.1 christos { 469 1.1 christos SCM_ASSERT_TYPE (stscm_is_sal (self), self, arg_pos, func_name, 470 1.1 christos sal_smob_name); 471 1.1 christos 472 1.1 christos return self; 473 1.1 christos } 474 1.1 christos 475 1.1 christos /* Returns a pointer to the sal smob of SELF. 476 1.1 christos Throws an exception if SELF is not a <gdb:sal> object. */ 477 1.1 christos 478 1.1 christos static sal_smob * 479 1.1 christos stscm_get_sal_smob_arg (SCM self, int arg_pos, const char *func_name) 480 1.1 christos { 481 1.1 christos SCM s_scm = stscm_get_sal_arg (self, arg_pos, func_name); 482 1.1 christos sal_smob *s_smob = (sal_smob *) SCM_SMOB_DATA (s_scm); 483 1.1 christos 484 1.1 christos return s_smob; 485 1.1 christos } 486 1.1 christos 487 1.1 christos /* Return non-zero if the symtab in S_SMOB is valid. */ 488 1.1 christos 489 1.1 christos static int 490 1.1 christos stscm_sal_is_valid (sal_smob *s_smob) 491 1.1 christos { 492 1.1 christos symtab_smob *st_smob; 493 1.1 christos 494 1.1 christos /* If there's no symtab that's ok, the sal is still valid. */ 495 1.1 christos if (gdbscm_is_false (s_smob->symtab_scm)) 496 1.1 christos return 1; 497 1.1 christos 498 1.1 christos st_smob = (symtab_smob *) SCM_SMOB_DATA (s_smob->symtab_scm); 499 1.1 christos 500 1.1 christos return st_smob->symtab != NULL; 501 1.1 christos } 502 1.1 christos 503 1.1 christos /* Throw a Scheme error if SELF is not a valid sal smob. 504 1.1 christos Otherwise return a pointer to the sal_smob object. */ 505 1.1 christos 506 1.1 christos static sal_smob * 507 1.1 christos stscm_get_valid_sal_smob_arg (SCM self, int arg_pos, const char *func_name) 508 1.1 christos { 509 1.1 christos sal_smob *s_smob = stscm_get_sal_smob_arg (self, arg_pos, func_name); 510 1.1 christos 511 1.1 christos if (!stscm_sal_is_valid (s_smob)) 512 1.1 christos { 513 1.1 christos gdbscm_invalid_object_error (func_name, arg_pos, self, 514 1.1 christos _("<gdb:sal>")); 515 1.1 christos } 516 1.1 christos 517 1.1 christos return s_smob; 518 1.1 christos } 519 1.1 christos 520 1.1 christos /* sal methods */ 522 1.1 christos 523 1.1 christos /* (sal-valid? <gdb:sal>) -> boolean 524 1.1 christos Returns #t if the symtab for SELF still exists in GDB. */ 525 1.1 christos 526 1.1 christos static SCM 527 1.1 christos gdbscm_sal_valid_p (SCM self) 528 1.1 christos { 529 1.1 christos sal_smob *s_smob = stscm_get_sal_smob_arg (self, SCM_ARG1, FUNC_NAME); 530 1.1 christos 531 1.1 christos return scm_from_bool (stscm_sal_is_valid (s_smob)); 532 1.1 christos } 533 1.1 christos 534 1.1 christos /* (sal-pc <gdb:sal>) -> address */ 535 1.1 christos 536 1.1 christos static SCM 537 1.1 christos gdbscm_sal_pc (SCM self) 538 1.1 christos { 539 1.1 christos sal_smob *s_smob = stscm_get_valid_sal_smob_arg (self, SCM_ARG1, FUNC_NAME); 540 1.1 christos const struct symtab_and_line *sal = &s_smob->sal; 541 1.1 christos 542 1.1 christos return gdbscm_scm_from_ulongest (sal->pc); 543 1.1 christos } 544 1.1 christos 545 1.1 christos /* (sal-last <gdb:sal>) -> address 546 1.1 christos Returns #f if no ending address is recorded. */ 547 1.1 christos 548 1.1 christos static SCM 549 1.1 christos gdbscm_sal_last (SCM self) 550 1.1 christos { 551 1.1 christos sal_smob *s_smob = stscm_get_valid_sal_smob_arg (self, SCM_ARG1, FUNC_NAME); 552 1.1 christos const struct symtab_and_line *sal = &s_smob->sal; 553 1.1 christos 554 1.1 christos if (sal->end > 0) 555 1.1 christos return gdbscm_scm_from_ulongest (sal->end - 1); 556 1.1 christos return SCM_BOOL_F; 557 1.1 christos } 558 1.1 christos 559 1.1 christos /* (sal-line <gdb:sal>) -> integer 560 1.1 christos Returns #f if no line number is recorded. */ 561 1.1 christos 562 1.1 christos static SCM 563 1.1 christos gdbscm_sal_line (SCM self) 564 1.1 christos { 565 1.1 christos sal_smob *s_smob = stscm_get_valid_sal_smob_arg (self, SCM_ARG1, FUNC_NAME); 566 1.1 christos const struct symtab_and_line *sal = &s_smob->sal; 567 1.1 christos 568 1.1 christos if (sal->line > 0) 569 1.1 christos return scm_from_int (sal->line); 570 1.1 christos return SCM_BOOL_F; 571 1.1 christos } 572 1.1 christos 573 1.1 christos /* (sal-symtab <gdb:sal>) -> <gdb:symtab> 574 1.1 christos Returns #f if no symtab is recorded. */ 575 1.1 christos 576 1.1 christos static SCM 577 1.1 christos gdbscm_sal_symtab (SCM self) 578 1.1 christos { 579 1.1 christos sal_smob *s_smob = stscm_get_valid_sal_smob_arg (self, SCM_ARG1, FUNC_NAME); 580 1.1 christos 581 1.1 christos return s_smob->symtab_scm; 582 1.1 christos } 583 1.1 christos 584 1.1 christos /* (find-pc-line address) -> <gdb:sal> */ 585 1.1 christos 586 1.6 christos static SCM 587 1.1 christos gdbscm_find_pc_line (SCM pc_scm) 588 1.1 christos { 589 1.1 christos ULONGEST pc_ull; 590 1.7 christos symtab_and_line sal; 591 1.7 christos 592 1.1 christos gdbscm_parse_function_args (FUNC_NAME, SCM_ARG1, NULL, "U", pc_scm, &pc_ull); 593 1.1 christos 594 1.1 christos gdbscm_gdb_exception exc {}; 595 1.1 christos try 596 1.1 christos { 597 1.7 christos CORE_ADDR pc = (CORE_ADDR) pc_ull; 598 1.3 christos 599 1.7 christos sal = find_pc_line (pc, 0); 600 1.3 christos } 601 1.1 christos catch (const gdb_exception &except) 602 1.7 christos { 603 1.1 christos exc = unpack (except); 604 1.1 christos } 605 1.1 christos 606 1.1 christos GDBSCM_HANDLE_GDB_EXCEPTION (exc); 607 1.1 christos return stscm_scm_from_sal (sal); 608 1.1 christos } 609 1.1 christos 610 1.4 christos /* Initialize the Scheme symbol support. */ 612 1.1 christos 613 1.1 christos static const scheme_function symtab_functions[] = 614 1.4 christos { 615 1.1 christos { "symtab?", 1, 0, 0, as_a_scm_t_subr (gdbscm_symtab_p), 616 1.1 christos "\ 617 1.1 christos Return #t if the object is a <gdb:symtab> object." }, 618 1.1 christos 619 1.4 christos { "symtab-valid?", 1, 0, 0, as_a_scm_t_subr (gdbscm_symtab_valid_p), 620 1.1 christos "\ 621 1.1 christos Return #t if the symtab still exists in GDB.\n\ 622 1.1 christos Symtabs are deleted when the corresponding objfile is freed." }, 623 1.4 christos 624 1.1 christos { "symtab-filename", 1, 0, 0, as_a_scm_t_subr (gdbscm_symtab_filename), 625 1.1 christos "\ 626 1.1 christos Return the symtab's source file name." }, 627 1.4 christos 628 1.1 christos { "symtab-fullname", 1, 0, 0, as_a_scm_t_subr (gdbscm_symtab_fullname), 629 1.1 christos "\ 630 1.1 christos Return the symtab's full source file name." }, 631 1.4 christos 632 1.4 christos { "symtab-objfile", 1, 0, 0, as_a_scm_t_subr (gdbscm_symtab_objfile), 633 1.1 christos "\ 634 1.1 christos Return the symtab's objfile." }, 635 1.1 christos 636 1.4 christos { "symtab-global-block", 1, 0, 0, 637 1.4 christos as_a_scm_t_subr (gdbscm_symtab_global_block), 638 1.1 christos "\ 639 1.1 christos Return the symtab's global block." }, 640 1.1 christos 641 1.4 christos { "symtab-static-block", 1, 0, 0, 642 1.1 christos as_a_scm_t_subr (gdbscm_symtab_static_block), 643 1.1 christos "\ 644 1.1 christos Return the symtab's static block." }, 645 1.4 christos 646 1.1 christos { "sal?", 1, 0, 0, as_a_scm_t_subr (gdbscm_sal_p), 647 1.1 christos "\ 648 1.1 christos Return #t if the object is a <gdb:sal> (symtab-and-line) object." }, 649 1.1 christos 650 1.4 christos { "sal-valid?", 1, 0, 0, as_a_scm_t_subr (gdbscm_sal_valid_p), 651 1.1 christos "\ 652 1.1 christos Return #t if the symtab for the sal still exists in GDB.\n\ 653 1.1 christos Symtabs are deleted when the corresponding objfile is freed." }, 654 1.4 christos 655 1.1 christos { "sal-symtab", 1, 0, 0, as_a_scm_t_subr (gdbscm_sal_symtab), 656 1.1 christos "\ 657 1.1 christos Return the sal's symtab." }, 658 1.4 christos 659 1.1 christos { "sal-line", 1, 0, 0, as_a_scm_t_subr (gdbscm_sal_line), 660 1.1 christos "\ 661 1.1 christos Return the sal's line number, or #f if there is none." }, 662 1.4 christos 663 1.1 christos { "sal-pc", 1, 0, 0, as_a_scm_t_subr (gdbscm_sal_pc), 664 1.1 christos "\ 665 1.1 christos Return the sal's address." }, 666 1.4 christos 667 1.1 christos { "sal-last", 1, 0, 0, as_a_scm_t_subr (gdbscm_sal_last), 668 1.1 christos "\ 669 1.1 christos Return the last address specified by the sal, or #f if there is none." }, 670 1.1 christos 671 1.1 christos { "find-pc-line", 1, 0, 0, as_a_scm_t_subr (gdbscm_find_pc_line), 672 1.1 christos "\ 673 1.1 christos Return the sal corresponding to the address, or #f if there isn't one.\n\ 674 1.1 christos \n\ 675 1.1 christos Arguments: address" }, 676 1.1 christos 677 1.1 christos END_FUNCTIONS 678 1.1 christos }; 679 1.1 christos 680 1.1 christos void 681 1.1 christos gdbscm_initialize_symtabs (void) 682 1.1 christos { 683 1.1 christos symtab_smob_tag 684 1.1 christos = gdbscm_make_smob_type (symtab_smob_name, sizeof (symtab_smob)); 685 1.1 christos scm_set_smob_free (symtab_smob_tag, stscm_free_symtab_smob); 686 1.1 christos scm_set_smob_print (symtab_smob_tag, stscm_print_symtab_smob); 687 1.1 christos 688 sal_smob_tag = gdbscm_make_smob_type (sal_smob_name, sizeof (sal_smob)); 689 scm_set_smob_print (sal_smob_tag, stscm_print_sal_smob); 690 691 gdbscm_define_functions (symtab_functions, 1); 692 } 693
Indexes created Mon Mar 16 00:23:04 UTC 2026