lst.c revision 1.12
1 1.12 rillig /* $NetBSD: lst.c,v 1.12 2020/08/21 05:19:48 rillig Exp $ */ 2 1.1 rillig 3 1.1 rillig /* 4 1.1 rillig * Copyright (c) 1988, 1989, 1990, 1993 5 1.1 rillig * The Regents of the University of California. All rights reserved. 6 1.1 rillig * 7 1.1 rillig * This code is derived from software contributed to Berkeley by 8 1.1 rillig * Adam de Boor. 9 1.1 rillig * 10 1.1 rillig * Redistribution and use in source and binary forms, with or without 11 1.1 rillig * modification, are permitted provided that the following conditions 12 1.1 rillig * are met: 13 1.1 rillig * 1. Redistributions of source code must retain the above copyright 14 1.1 rillig * notice, this list of conditions and the following disclaimer. 15 1.1 rillig * 2. Redistributions in binary form must reproduce the above copyright 16 1.1 rillig * notice, this list of conditions and the following disclaimer in the 17 1.1 rillig * documentation and/or other materials provided with the distribution. 18 1.1 rillig * 3. Neither the name of the University nor the names of its contributors 19 1.1 rillig * may be used to endorse or promote products derived from this software 20 1.1 rillig * without specific prior written permission. 21 1.1 rillig * 22 1.1 rillig * THIS SOFTWARE IS PROVIDED BY THE REGENTS AND CONTRIBUTORS ``AS IS'' AND 23 1.1 rillig * ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE 24 1.1 rillig * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE 25 1.1 rillig * ARE DISCLAIMED. IN NO EVENT SHALL THE REGENTS OR CONTRIBUTORS BE LIABLE 26 1.1 rillig * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL 27 1.1 rillig * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS 28 1.1 rillig * OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) 29 1.1 rillig * HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT 30 1.1 rillig * LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY 31 1.1 rillig * OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF 32 1.1 rillig * SUCH DAMAGE. 33 1.1 rillig */ 34 1.1 rillig 35 1.8 rillig #include <assert.h> 36 1.8 rillig 37 1.1 rillig #include "lst.h" 38 1.1 rillig #include "make_malloc.h" 39 1.1 rillig 40 1.1 rillig #ifndef MAKE_NATIVE 41 1.12 rillig static char rcsid[] = "$NetBSD: lst.c,v 1.12 2020/08/21 05:19:48 rillig Exp $"; 42 1.1 rillig #else 43 1.1 rillig #include <sys/cdefs.h> 44 1.1 rillig #ifndef lint 45 1.12 rillig __RCSID("$NetBSD: lst.c,v 1.12 2020/08/21 05:19:48 rillig Exp $"); 46 1.1 rillig #endif /* not lint */ 47 1.1 rillig #endif 48 1.1 rillig 49 1.1 rillig typedef struct ListNode { 50 1.4 rillig struct ListNode *prevPtr; /* previous element in list */ 51 1.4 rillig struct ListNode *nextPtr; /* next in list */ 52 1.7 rillig uint8_t useCount; /* Count of functions using the node. 53 1.4 rillig * node may not be deleted until count 54 1.4 rillig * goes to 0 */ 55 1.7 rillig Boolean deleted; /* List node should be removed when done */ 56 1.4 rillig void *datum; /* datum associated with this element */ 57 1.1 rillig } *ListNode; 58 1.1 rillig 59 1.1 rillig typedef enum { 60 1.1 rillig Head, Middle, Tail, Unknown 61 1.1 rillig } Where; 62 1.1 rillig 63 1.4 rillig typedef struct List { 64 1.4 rillig ListNode firstPtr; /* first node in list */ 65 1.4 rillig ListNode lastPtr; /* last node in list */ 66 1.1 rillig /* 67 1.1 rillig * fields for sequential access 68 1.1 rillig */ 69 1.4 rillig Where atEnd; /* Where in the list the last access was */ 70 1.4 rillig Boolean isOpen; /* true if list has been Lst_Open'ed */ 71 1.4 rillig ListNode curPtr; /* current node, if open. NULL if 72 1.4 rillig * *just* opened */ 73 1.4 rillig ListNode prevPtr; /* Previous node, if open. Used by 74 1.4 rillig * Lst_Remove */ 75 1.1 rillig } *List; 76 1.1 rillig 77 1.1 rillig /* 78 1.2 rillig * LstValid -- 79 1.2 rillig * Return TRUE if the list is valid 80 1.1 rillig */ 81 1.2 rillig static Boolean 82 1.2 rillig LstValid(Lst l) 83 1.2 rillig { 84 1.2 rillig return l != NULL; 85 1.2 rillig } 86 1.1 rillig 87 1.1 rillig /* 88 1.2 rillig * LstNodeValid -- 89 1.2 rillig * Return TRUE if the list node is valid 90 1.1 rillig */ 91 1.2 rillig static Boolean 92 1.2 rillig LstNodeValid(LstNode ln) 93 1.2 rillig { 94 1.2 rillig return ln != NULL; 95 1.2 rillig } 96 1.1 rillig 97 1.12 rillig static LstNode 98 1.12 rillig LstNodeNew(void *datum) 99 1.12 rillig { 100 1.12 rillig ListNode ln = bmake_malloc(sizeof *ln); 101 1.12 rillig /* prevPtr will be initialized by the calling code. */ 102 1.12 rillig /* nextPtr will be initialized by the calling code. */ 103 1.12 rillig ln->useCount = 0; 104 1.12 rillig ln->deleted = FALSE; 105 1.12 rillig ln->datum = datum; 106 1.12 rillig return ln; 107 1.12 rillig } 108 1.12 rillig 109 1.1 rillig /* 110 1.1 rillig * LstIsEmpty (l) -- 111 1.1 rillig * TRUE if the list l is empty. 112 1.1 rillig */ 113 1.2 rillig static Boolean 114 1.2 rillig LstIsEmpty(Lst l) 115 1.2 rillig { 116 1.2 rillig return l->firstPtr == NULL; 117 1.2 rillig } 118 1.1 rillig 119 1.5 rillig /* Create and initialize a new, empty list. */ 120 1.1 rillig Lst 121 1.5 rillig Lst_Init(void) 122 1.1 rillig { 123 1.4 rillig List nList; 124 1.1 rillig 125 1.11 rillig nList = bmake_malloc(sizeof *nList); 126 1.1 rillig 127 1.1 rillig nList->firstPtr = NULL; 128 1.1 rillig nList->lastPtr = NULL; 129 1.1 rillig nList->isOpen = FALSE; 130 1.1 rillig nList->atEnd = Unknown; 131 1.1 rillig 132 1.1 rillig return nList; 133 1.1 rillig } 134 1.1 rillig 135 1.1 rillig /*- 136 1.1 rillig *----------------------------------------------------------------------- 137 1.1 rillig * Lst_Duplicate -- 138 1.1 rillig * Duplicate an entire list. If a function to copy a void *is 139 1.1 rillig * given, the individual client elements will be duplicated as well. 140 1.1 rillig * 141 1.1 rillig * Input: 142 1.1 rillig * l the list to duplicate 143 1.1 rillig * copyProc A function to duplicate each void * 144 1.1 rillig * 145 1.1 rillig * Results: 146 1.1 rillig * The new Lst structure or NULL if failure. 147 1.1 rillig * 148 1.1 rillig * Side Effects: 149 1.1 rillig * A new list is created. 150 1.1 rillig *----------------------------------------------------------------------- 151 1.1 rillig */ 152 1.1 rillig Lst 153 1.1 rillig Lst_Duplicate(Lst l, DuplicateProc *copyProc) 154 1.1 rillig { 155 1.4 rillig Lst nl; 156 1.4 rillig ListNode ln; 157 1.4 rillig List list = l; 158 1.1 rillig 159 1.4 rillig if (!LstValid(l)) { 160 1.1 rillig return NULL; 161 1.1 rillig } 162 1.1 rillig 163 1.5 rillig nl = Lst_Init(); 164 1.1 rillig if (nl == NULL) { 165 1.1 rillig return NULL; 166 1.1 rillig } 167 1.1 rillig 168 1.1 rillig ln = list->firstPtr; 169 1.1 rillig while (ln != NULL) { 170 1.1 rillig if (copyProc != NULL) { 171 1.1 rillig if (Lst_AtEnd(nl, copyProc(ln->datum)) == FAILURE) { 172 1.1 rillig return NULL; 173 1.1 rillig } 174 1.1 rillig } else if (Lst_AtEnd(nl, ln->datum) == FAILURE) { 175 1.1 rillig return NULL; 176 1.1 rillig } 177 1.1 rillig 178 1.5 rillig ln = ln->nextPtr; 179 1.1 rillig } 180 1.1 rillig 181 1.1 rillig return nl; 182 1.1 rillig } 183 1.1 rillig 184 1.1 rillig /*- 185 1.1 rillig *----------------------------------------------------------------------- 186 1.1 rillig * Lst_Destroy -- 187 1.1 rillig * Destroy a list and free all its resources. If the freeProc is 188 1.1 rillig * given, it is called with the datum from each node in turn before 189 1.1 rillig * the node is freed. 190 1.1 rillig * 191 1.1 rillig * Results: 192 1.1 rillig * None. 193 1.1 rillig * 194 1.1 rillig * Side Effects: 195 1.1 rillig * The given list is freed in its entirety. 196 1.1 rillig * 197 1.1 rillig *----------------------------------------------------------------------- 198 1.1 rillig */ 199 1.1 rillig void 200 1.1 rillig Lst_Destroy(Lst list, FreeProc *freeProc) 201 1.1 rillig { 202 1.4 rillig ListNode ln; 203 1.4 rillig ListNode tln = NULL; 204 1.1 rillig 205 1.1 rillig if (list == NULL) 206 1.1 rillig return; 207 1.1 rillig 208 1.1 rillig /* To ease scanning */ 209 1.1 rillig if (list->lastPtr != NULL) 210 1.1 rillig list->lastPtr->nextPtr = NULL; 211 1.1 rillig else { 212 1.1 rillig free(list); 213 1.1 rillig return; 214 1.1 rillig } 215 1.1 rillig 216 1.1 rillig if (freeProc) { 217 1.1 rillig for (ln = list->firstPtr; ln != NULL; ln = tln) { 218 1.4 rillig tln = ln->nextPtr; 219 1.4 rillig freeProc(ln->datum); 220 1.4 rillig free(ln); 221 1.1 rillig } 222 1.1 rillig } else { 223 1.1 rillig for (ln = list->firstPtr; ln != NULL; ln = tln) { 224 1.4 rillig tln = ln->nextPtr; 225 1.4 rillig free(ln); 226 1.1 rillig } 227 1.1 rillig } 228 1.1 rillig 229 1.1 rillig free(list); 230 1.1 rillig } 231 1.1 rillig 232 1.1 rillig /* 233 1.1 rillig * Functions to modify a list 234 1.1 rillig */ 235 1.1 rillig 236 1.1 rillig /*- 237 1.1 rillig *----------------------------------------------------------------------- 238 1.1 rillig * Lst_InsertBefore -- 239 1.1 rillig * Insert a new node with the given piece of data before the given 240 1.1 rillig * node in the given list. 241 1.1 rillig * 242 1.1 rillig * Input: 243 1.1 rillig * l list to manipulate 244 1.1 rillig * ln node before which to insert d 245 1.1 rillig * d datum to be inserted 246 1.1 rillig * 247 1.1 rillig * Results: 248 1.1 rillig * SUCCESS or FAILURE. 249 1.1 rillig * 250 1.1 rillig * Side Effects: 251 1.1 rillig * the firstPtr field will be changed if ln is the first node in the 252 1.1 rillig * list. 253 1.1 rillig * 254 1.1 rillig *----------------------------------------------------------------------- 255 1.1 rillig */ 256 1.1 rillig ReturnStatus 257 1.1 rillig Lst_InsertBefore(Lst l, LstNode ln, void *d) 258 1.1 rillig { 259 1.4 rillig ListNode nLNode; /* new lnode for d */ 260 1.4 rillig ListNode lNode = ln; 261 1.4 rillig List list = l; 262 1.1 rillig 263 1.1 rillig 264 1.1 rillig /* 265 1.1 rillig * check validity of arguments 266 1.1 rillig */ 267 1.4 rillig if (LstValid(l) && (LstIsEmpty(l) && ln == NULL)) 268 1.1 rillig goto ok; 269 1.1 rillig 270 1.4 rillig if (!LstValid(l) || LstIsEmpty(l) || !LstNodeValid(ln)) { 271 1.1 rillig return FAILURE; 272 1.1 rillig } 273 1.1 rillig 274 1.1 rillig ok: 275 1.12 rillig nLNode = LstNodeNew(d); 276 1.1 rillig 277 1.1 rillig if (ln == NULL) { 278 1.5 rillig nLNode->prevPtr = nLNode->nextPtr = NULL; 279 1.1 rillig list->firstPtr = list->lastPtr = nLNode; 280 1.1 rillig } else { 281 1.1 rillig nLNode->prevPtr = lNode->prevPtr; 282 1.1 rillig nLNode->nextPtr = lNode; 283 1.1 rillig 284 1.1 rillig if (nLNode->prevPtr != NULL) { 285 1.1 rillig nLNode->prevPtr->nextPtr = nLNode; 286 1.1 rillig } 287 1.1 rillig lNode->prevPtr = nLNode; 288 1.1 rillig 289 1.1 rillig if (lNode == list->firstPtr) { 290 1.1 rillig list->firstPtr = nLNode; 291 1.1 rillig } 292 1.1 rillig } 293 1.1 rillig 294 1.1 rillig return SUCCESS; 295 1.1 rillig } 296 1.1 rillig 297 1.1 rillig /*- 298 1.1 rillig *----------------------------------------------------------------------- 299 1.1 rillig * Lst_InsertAfter -- 300 1.1 rillig * Create a new node and add it to the given list after the given node. 301 1.1 rillig * 302 1.1 rillig * Input: 303 1.1 rillig * l affected list 304 1.1 rillig * ln node after which to append the datum 305 1.1 rillig * d said datum 306 1.1 rillig * 307 1.1 rillig * Results: 308 1.1 rillig * SUCCESS if all went well. 309 1.1 rillig * 310 1.1 rillig * Side Effects: 311 1.1 rillig * A new ListNode is created and linked in to the List. The lastPtr 312 1.1 rillig * field of the List will be altered if ln is the last node in the 313 1.1 rillig * list. lastPtr and firstPtr will alter if the list was empty and 314 1.1 rillig * ln was NULL. 315 1.1 rillig * 316 1.1 rillig *----------------------------------------------------------------------- 317 1.1 rillig */ 318 1.1 rillig ReturnStatus 319 1.1 rillig Lst_InsertAfter(Lst l, LstNode ln, void *d) 320 1.1 rillig { 321 1.4 rillig List list; 322 1.4 rillig ListNode lNode; 323 1.4 rillig ListNode nLNode; 324 1.1 rillig 325 1.4 rillig if (LstValid(l) && (ln == NULL && LstIsEmpty(l))) { 326 1.1 rillig goto ok; 327 1.1 rillig } 328 1.1 rillig 329 1.4 rillig if (!LstValid(l) || LstIsEmpty(l) || !LstNodeValid(ln)) { 330 1.1 rillig return FAILURE; 331 1.1 rillig } 332 1.1 rillig ok: 333 1.1 rillig 334 1.1 rillig list = l; 335 1.1 rillig lNode = ln; 336 1.1 rillig 337 1.12 rillig nLNode = LstNodeNew(d); 338 1.1 rillig 339 1.1 rillig if (lNode == NULL) { 340 1.5 rillig nLNode->nextPtr = nLNode->prevPtr = NULL; 341 1.1 rillig list->firstPtr = list->lastPtr = nLNode; 342 1.1 rillig } else { 343 1.1 rillig nLNode->prevPtr = lNode; 344 1.1 rillig nLNode->nextPtr = lNode->nextPtr; 345 1.1 rillig 346 1.1 rillig lNode->nextPtr = nLNode; 347 1.1 rillig if (nLNode->nextPtr != NULL) { 348 1.1 rillig nLNode->nextPtr->prevPtr = nLNode; 349 1.1 rillig } 350 1.1 rillig 351 1.1 rillig if (lNode == list->lastPtr) { 352 1.1 rillig list->lastPtr = nLNode; 353 1.1 rillig } 354 1.1 rillig } 355 1.1 rillig 356 1.1 rillig return SUCCESS; 357 1.1 rillig } 358 1.1 rillig 359 1.1 rillig /*- 360 1.1 rillig *----------------------------------------------------------------------- 361 1.1 rillig * Lst_AtFront -- 362 1.1 rillig * Place a piece of data at the front of a list 363 1.1 rillig * 364 1.1 rillig * Results: 365 1.1 rillig * SUCCESS or FAILURE 366 1.1 rillig * 367 1.1 rillig * Side Effects: 368 1.1 rillig * A new ListNode is created and stuck at the front of the list. 369 1.1 rillig * hence, firstPtr (and possible lastPtr) in the list are altered. 370 1.1 rillig * 371 1.1 rillig *----------------------------------------------------------------------- 372 1.1 rillig */ 373 1.1 rillig ReturnStatus 374 1.1 rillig Lst_AtFront(Lst l, void *d) 375 1.1 rillig { 376 1.4 rillig LstNode front; 377 1.1 rillig 378 1.1 rillig front = Lst_First(l); 379 1.1 rillig return Lst_InsertBefore(l, front, d); 380 1.1 rillig } 381 1.1 rillig 382 1.1 rillig /*- 383 1.1 rillig *----------------------------------------------------------------------- 384 1.1 rillig * Lst_AtEnd -- 385 1.1 rillig * Add a node to the end of the given list 386 1.1 rillig * 387 1.1 rillig * Input: 388 1.1 rillig * l List to which to add the datum 389 1.1 rillig * d Datum to add 390 1.1 rillig * 391 1.1 rillig * Results: 392 1.1 rillig * SUCCESS if life is good. 393 1.1 rillig * 394 1.1 rillig * Side Effects: 395 1.1 rillig * A new ListNode is created and added to the list. 396 1.1 rillig * 397 1.1 rillig *----------------------------------------------------------------------- 398 1.1 rillig */ 399 1.1 rillig ReturnStatus 400 1.1 rillig Lst_AtEnd(Lst l, void *d) 401 1.1 rillig { 402 1.4 rillig LstNode end; 403 1.1 rillig 404 1.1 rillig end = Lst_Last(l); 405 1.1 rillig return Lst_InsertAfter(l, end, d); 406 1.1 rillig } 407 1.1 rillig 408 1.8 rillig /* Remove the given node from the given list. 409 1.8 rillig * The datum stored in the node must be freed by the caller, if necessary. */ 410 1.8 rillig void 411 1.8 rillig Lst_RemoveS(Lst l, LstNode ln) 412 1.1 rillig { 413 1.4 rillig List list = l; 414 1.4 rillig ListNode lNode = ln; 415 1.1 rillig 416 1.8 rillig assert(LstValid(l)); 417 1.8 rillig assert(LstNodeValid(ln)); 418 1.1 rillig 419 1.1 rillig /* 420 1.1 rillig * unlink it from the list 421 1.1 rillig */ 422 1.1 rillig if (lNode->nextPtr != NULL) { 423 1.1 rillig lNode->nextPtr->prevPtr = lNode->prevPtr; 424 1.1 rillig } 425 1.1 rillig if (lNode->prevPtr != NULL) { 426 1.1 rillig lNode->prevPtr->nextPtr = lNode->nextPtr; 427 1.1 rillig } 428 1.1 rillig 429 1.1 rillig /* 430 1.1 rillig * if either the firstPtr or lastPtr of the list point to this node, 431 1.1 rillig * adjust them accordingly 432 1.1 rillig */ 433 1.1 rillig if (list->firstPtr == lNode) { 434 1.1 rillig list->firstPtr = lNode->nextPtr; 435 1.1 rillig } 436 1.1 rillig if (list->lastPtr == lNode) { 437 1.1 rillig list->lastPtr = lNode->prevPtr; 438 1.1 rillig } 439 1.1 rillig 440 1.1 rillig /* 441 1.1 rillig * Sequential access stuff. If the node we're removing is the current 442 1.1 rillig * node in the list, reset the current node to the previous one. If the 443 1.1 rillig * previous one was non-existent (prevPtr == NULL), we set the 444 1.1 rillig * end to be Unknown, since it is. 445 1.1 rillig */ 446 1.1 rillig if (list->isOpen && (list->curPtr == lNode)) { 447 1.1 rillig list->curPtr = list->prevPtr; 448 1.1 rillig if (list->curPtr == NULL) { 449 1.1 rillig list->atEnd = Unknown; 450 1.1 rillig } 451 1.1 rillig } 452 1.1 rillig 453 1.1 rillig /* 454 1.1 rillig * note that the datum is unmolested. The caller must free it as 455 1.1 rillig * necessary and as expected. 456 1.1 rillig */ 457 1.1 rillig if (lNode->useCount == 0) { 458 1.1 rillig free(ln); 459 1.1 rillig } else { 460 1.7 rillig lNode->deleted = TRUE; 461 1.1 rillig } 462 1.1 rillig } 463 1.1 rillig 464 1.8 rillig /* Replace the datum in the given node with the new datum. */ 465 1.8 rillig void 466 1.8 rillig Lst_ReplaceS(LstNode ln, void *d) 467 1.1 rillig { 468 1.8 rillig ln->datum = d; 469 1.1 rillig } 470 1.1 rillig 471 1.1 rillig 472 1.1 rillig /* 473 1.1 rillig * Node-specific functions 474 1.1 rillig */ 475 1.1 rillig 476 1.1 rillig /*- 477 1.1 rillig *----------------------------------------------------------------------- 478 1.1 rillig * Lst_First -- 479 1.1 rillig * Return the first node on the given list. 480 1.1 rillig * 481 1.1 rillig * Results: 482 1.1 rillig * The first node or NULL if the list is empty. 483 1.1 rillig * 484 1.1 rillig * Side Effects: 485 1.1 rillig * None. 486 1.1 rillig * 487 1.1 rillig *----------------------------------------------------------------------- 488 1.1 rillig */ 489 1.1 rillig LstNode 490 1.1 rillig Lst_First(Lst l) 491 1.1 rillig { 492 1.4 rillig if (!LstValid(l) || LstIsEmpty(l)) { 493 1.1 rillig return NULL; 494 1.1 rillig } else { 495 1.1 rillig return l->firstPtr; 496 1.1 rillig } 497 1.1 rillig } 498 1.1 rillig 499 1.1 rillig /*- 500 1.1 rillig *----------------------------------------------------------------------- 501 1.1 rillig * Lst_Last -- 502 1.1 rillig * Return the last node on the list l. 503 1.1 rillig * 504 1.1 rillig * Results: 505 1.1 rillig * The requested node or NULL if the list is empty. 506 1.1 rillig * 507 1.1 rillig * Side Effects: 508 1.1 rillig * None. 509 1.1 rillig * 510 1.1 rillig *----------------------------------------------------------------------- 511 1.1 rillig */ 512 1.1 rillig LstNode 513 1.1 rillig Lst_Last(Lst l) 514 1.1 rillig { 515 1.4 rillig if (!LstValid(l) || LstIsEmpty(l)) { 516 1.1 rillig return NULL; 517 1.1 rillig } else { 518 1.1 rillig return l->lastPtr; 519 1.1 rillig } 520 1.1 rillig } 521 1.1 rillig 522 1.6 rillig /* Return the successor to the given node on its list, or NULL. */ 523 1.1 rillig LstNode 524 1.1 rillig Lst_Succ(LstNode ln) 525 1.1 rillig { 526 1.1 rillig if (ln == NULL) { 527 1.1 rillig return NULL; 528 1.1 rillig } else { 529 1.1 rillig return ln->nextPtr; 530 1.1 rillig } 531 1.1 rillig } 532 1.1 rillig 533 1.6 rillig /* Return the predecessor to the given node on its list, or NULL. */ 534 1.1 rillig LstNode 535 1.1 rillig Lst_Prev(LstNode ln) 536 1.1 rillig { 537 1.1 rillig if (ln == NULL) { 538 1.1 rillig return NULL; 539 1.1 rillig } else { 540 1.1 rillig return ln->prevPtr; 541 1.1 rillig } 542 1.1 rillig } 543 1.1 rillig 544 1.1 rillig /*- 545 1.1 rillig *----------------------------------------------------------------------- 546 1.1 rillig * Lst_Datum -- 547 1.1 rillig * Return the datum stored in the given node. 548 1.1 rillig * 549 1.1 rillig * Results: 550 1.1 rillig * The datum or NULL if the node is invalid. 551 1.1 rillig * 552 1.1 rillig * Side Effects: 553 1.1 rillig * None. 554 1.1 rillig * 555 1.1 rillig *----------------------------------------------------------------------- 556 1.1 rillig */ 557 1.1 rillig void * 558 1.1 rillig Lst_Datum(LstNode ln) 559 1.1 rillig { 560 1.1 rillig if (ln != NULL) { 561 1.1 rillig return ln->datum; 562 1.1 rillig } else { 563 1.1 rillig return NULL; 564 1.1 rillig } 565 1.1 rillig } 566 1.1 rillig 567 1.1 rillig 568 1.1 rillig /* 569 1.1 rillig * Functions for entire lists 570 1.1 rillig */ 571 1.1 rillig 572 1.1 rillig /*- 573 1.1 rillig *----------------------------------------------------------------------- 574 1.1 rillig * Lst_IsEmpty -- 575 1.1 rillig * Return TRUE if the given list is empty. 576 1.1 rillig * 577 1.1 rillig * Results: 578 1.1 rillig * TRUE if the list is empty, FALSE otherwise. 579 1.1 rillig * 580 1.1 rillig * Side Effects: 581 1.1 rillig * None. 582 1.1 rillig * 583 1.1 rillig * A list is considered empty if its firstPtr == NULL (or if 584 1.1 rillig * the list itself is NULL). 585 1.1 rillig *----------------------------------------------------------------------- 586 1.1 rillig */ 587 1.1 rillig Boolean 588 1.1 rillig Lst_IsEmpty(Lst l) 589 1.1 rillig { 590 1.1 rillig return !LstValid(l) || LstIsEmpty(l); 591 1.1 rillig } 592 1.1 rillig 593 1.1 rillig /*- 594 1.1 rillig *----------------------------------------------------------------------- 595 1.1 rillig * Lst_Find -- 596 1.1 rillig * Find a node on the given list using the given comparison function 597 1.1 rillig * and the given datum. 598 1.1 rillig * 599 1.1 rillig * Results: 600 1.1 rillig * The found node or NULL if none matches. 601 1.1 rillig * 602 1.1 rillig * Side Effects: 603 1.1 rillig * None. 604 1.1 rillig * 605 1.1 rillig *----------------------------------------------------------------------- 606 1.1 rillig */ 607 1.1 rillig LstNode 608 1.1 rillig Lst_Find(Lst l, const void *d, int (*cProc)(const void *, const void *)) 609 1.1 rillig { 610 1.1 rillig return Lst_FindFrom(l, Lst_First(l), d, cProc); 611 1.1 rillig } 612 1.1 rillig 613 1.1 rillig /*- 614 1.1 rillig *----------------------------------------------------------------------- 615 1.1 rillig * Lst_FindFrom -- 616 1.1 rillig * Search for a node starting and ending with the given one on the 617 1.1 rillig * given list using the passed datum and comparison function to 618 1.1 rillig * determine when it has been found. 619 1.1 rillig * 620 1.1 rillig * Results: 621 1.1 rillig * The found node or NULL 622 1.1 rillig * 623 1.1 rillig * Side Effects: 624 1.1 rillig * None. 625 1.1 rillig * 626 1.1 rillig *----------------------------------------------------------------------- 627 1.1 rillig */ 628 1.1 rillig LstNode 629 1.1 rillig Lst_FindFrom(Lst l, LstNode ln, const void *d, 630 1.1 rillig int (*cProc)(const void *, const void *)) 631 1.1 rillig { 632 1.4 rillig ListNode tln; 633 1.1 rillig 634 1.4 rillig if (!LstValid(l) || LstIsEmpty(l) || !LstNodeValid(ln)) { 635 1.1 rillig return NULL; 636 1.1 rillig } 637 1.1 rillig 638 1.1 rillig tln = ln; 639 1.1 rillig 640 1.1 rillig do { 641 1.1 rillig if ((*cProc)(tln->datum, d) == 0) 642 1.1 rillig return tln; 643 1.1 rillig tln = tln->nextPtr; 644 1.1 rillig } while (tln != ln && tln != NULL); 645 1.1 rillig 646 1.1 rillig return NULL; 647 1.1 rillig } 648 1.1 rillig 649 1.1 rillig /*- 650 1.1 rillig * See if a given datum is on a given list. 651 1.1 rillig */ 652 1.1 rillig LstNode 653 1.1 rillig Lst_Member(Lst l, void *d) 654 1.1 rillig { 655 1.4 rillig List list = l; 656 1.4 rillig ListNode lNode; 657 1.1 rillig 658 1.1 rillig if (list == NULL) { 659 1.1 rillig return NULL; 660 1.1 rillig } 661 1.1 rillig lNode = list->firstPtr; 662 1.1 rillig if (lNode == NULL) { 663 1.1 rillig return NULL; 664 1.1 rillig } 665 1.1 rillig 666 1.1 rillig do { 667 1.1 rillig if (lNode->datum == d) { 668 1.1 rillig return lNode; 669 1.1 rillig } 670 1.1 rillig lNode = lNode->nextPtr; 671 1.1 rillig } while (lNode != NULL && lNode != list->firstPtr); 672 1.1 rillig 673 1.1 rillig return NULL; 674 1.1 rillig } 675 1.1 rillig 676 1.1 rillig /*- 677 1.1 rillig *----------------------------------------------------------------------- 678 1.1 rillig * Lst_ForEach -- 679 1.1 rillig * Apply the given function to each element of the given list. The 680 1.1 rillig * function should return 0 if Lst_ForEach should continue and non- 681 1.1 rillig * zero if it should abort. 682 1.1 rillig * 683 1.1 rillig * Results: 684 1.1 rillig * None. 685 1.1 rillig * 686 1.1 rillig * Side Effects: 687 1.1 rillig * Only those created by the passed-in function. 688 1.1 rillig * 689 1.1 rillig *----------------------------------------------------------------------- 690 1.1 rillig */ 691 1.1 rillig /*VARARGS2*/ 692 1.1 rillig int 693 1.1 rillig Lst_ForEach(Lst l, int (*proc)(void *, void *), void *d) 694 1.1 rillig { 695 1.1 rillig return Lst_ForEachFrom(l, Lst_First(l), proc, d); 696 1.1 rillig } 697 1.1 rillig 698 1.1 rillig /*- 699 1.1 rillig *----------------------------------------------------------------------- 700 1.1 rillig * Lst_ForEachFrom -- 701 1.1 rillig * Apply the given function to each element of the given list, 702 1.1 rillig * starting from a given point. 703 1.1 rillig * 704 1.1 rillig * The function should return 0 if traversal should continue, and 705 1.1 rillig * non-zero if it should abort. 706 1.1 rillig * 707 1.1 rillig * Results: 708 1.1 rillig * None. 709 1.1 rillig * 710 1.1 rillig * Side Effects: 711 1.1 rillig * Only those created by the passed-in function. 712 1.1 rillig * 713 1.1 rillig *----------------------------------------------------------------------- 714 1.1 rillig */ 715 1.1 rillig /*VARARGS2*/ 716 1.1 rillig int 717 1.1 rillig Lst_ForEachFrom(Lst l, LstNode ln, int (*proc)(void *, void *), 718 1.1 rillig void *d) 719 1.1 rillig { 720 1.4 rillig ListNode tln = ln; 721 1.4 rillig List list = l; 722 1.4 rillig ListNode next; 723 1.4 rillig Boolean done; 724 1.4 rillig int result; 725 1.1 rillig 726 1.4 rillig if (!LstValid(list) || LstIsEmpty(list)) { 727 1.1 rillig return 0; 728 1.1 rillig } 729 1.1 rillig 730 1.1 rillig do { 731 1.1 rillig /* 732 1.1 rillig * Take care of having the current element deleted out from under 733 1.1 rillig * us. 734 1.1 rillig */ 735 1.1 rillig 736 1.1 rillig next = tln->nextPtr; 737 1.1 rillig 738 1.1 rillig /* 739 1.1 rillig * We're done with the traversal if 740 1.1 rillig * - the next node to examine is the first in the queue or 741 1.1 rillig * doesn't exist and 742 1.1 rillig * - nothing's been added after the current node (check this 743 1.1 rillig * after proc() has been called). 744 1.1 rillig */ 745 1.1 rillig done = (next == NULL || next == list->firstPtr); 746 1.1 rillig 747 1.4 rillig (void)tln->useCount++; 748 1.4 rillig result = (*proc)(tln->datum, d); 749 1.4 rillig (void)tln->useCount--; 750 1.1 rillig 751 1.1 rillig /* 752 1.1 rillig * Now check whether a node has been added. 753 1.1 rillig * Note: this doesn't work if this node was deleted before 754 1.1 rillig * the new node was added. 755 1.1 rillig */ 756 1.1 rillig if (next != tln->nextPtr) { 757 1.4 rillig next = tln->nextPtr; 758 1.4 rillig done = 0; 759 1.1 rillig } 760 1.1 rillig 761 1.7 rillig if (tln->deleted) { 762 1.1 rillig free((char *)tln); 763 1.1 rillig } 764 1.1 rillig tln = next; 765 1.1 rillig } while (!result && !LstIsEmpty(list) && !done); 766 1.1 rillig 767 1.1 rillig return result; 768 1.1 rillig } 769 1.1 rillig 770 1.1 rillig /*- 771 1.1 rillig *----------------------------------------------------------------------- 772 1.1 rillig * Lst_Concat -- 773 1.1 rillig * Concatenate two lists. New elements are created to hold the data 774 1.1 rillig * elements, if specified, but the elements themselves are not copied. 775 1.1 rillig * If the elements should be duplicated to avoid confusion with another 776 1.1 rillig * list, the Lst_Duplicate function should be called first. 777 1.1 rillig * If LST_CONCLINK is specified, the second list is destroyed since 778 1.1 rillig * its pointers have been corrupted and the list is no longer useable. 779 1.1 rillig * 780 1.1 rillig * Input: 781 1.1 rillig * l1 The list to which l2 is to be appended 782 1.1 rillig * l2 The list to append to l1 783 1.1 rillig * flags LST_CONCNEW if LstNode's should be duplicated 784 1.1 rillig * LST_CONCLINK if should just be relinked 785 1.1 rillig * 786 1.1 rillig * Results: 787 1.1 rillig * SUCCESS if all went well. FAILURE otherwise. 788 1.1 rillig * 789 1.1 rillig * Side Effects: 790 1.1 rillig * New elements are created and appended the first list. 791 1.1 rillig *----------------------------------------------------------------------- 792 1.1 rillig */ 793 1.1 rillig ReturnStatus 794 1.1 rillig Lst_Concat(Lst l1, Lst l2, int flags) 795 1.1 rillig { 796 1.4 rillig ListNode ln; /* original LstNode */ 797 1.4 rillig ListNode nln; /* new LstNode */ 798 1.4 rillig ListNode last; /* the last element in the list. Keeps 799 1.1 rillig * bookkeeping until the end */ 800 1.4 rillig List list1 = l1; 801 1.4 rillig List list2 = l2; 802 1.1 rillig 803 1.4 rillig if (!LstValid(l1) || !LstValid(l2)) { 804 1.1 rillig return FAILURE; 805 1.1 rillig } 806 1.1 rillig 807 1.1 rillig if (flags == LST_CONCLINK) { 808 1.1 rillig if (list2->firstPtr != NULL) { 809 1.1 rillig /* 810 1.1 rillig * So long as the second list isn't empty, we just link the 811 1.1 rillig * first element of the second list to the last element of the 812 1.1 rillig * first list. If the first list isn't empty, we then link the 813 1.1 rillig * last element of the list to the first element of the second list 814 1.1 rillig * The last element of the second list, if it exists, then becomes 815 1.1 rillig * the last element of the first list. 816 1.1 rillig */ 817 1.1 rillig list2->firstPtr->prevPtr = list1->lastPtr; 818 1.1 rillig if (list1->lastPtr != NULL) { 819 1.3 rillig list1->lastPtr->nextPtr = list2->firstPtr; 820 1.1 rillig } else { 821 1.1 rillig list1->firstPtr = list2->firstPtr; 822 1.1 rillig } 823 1.1 rillig list1->lastPtr = list2->lastPtr; 824 1.1 rillig } 825 1.1 rillig free(l2); 826 1.1 rillig } else if (list2->firstPtr != NULL) { 827 1.1 rillig /* 828 1.1 rillig * We set the nextPtr of the last element of list 2 to be nil to make 829 1.1 rillig * the loop less difficult. The loop simply goes through the entire 830 1.1 rillig * second list creating new LstNodes and filling in the nextPtr, and 831 1.1 rillig * prevPtr to fit into l1 and its datum field from the 832 1.1 rillig * datum field of the corresponding element in l2. The 'last' node 833 1.1 rillig * follows the last of the new nodes along until the entire l2 has 834 1.1 rillig * been appended. Only then does the bookkeeping catch up with the 835 1.1 rillig * changes. During the first iteration of the loop, if 'last' is nil, 836 1.1 rillig * the first list must have been empty so the newly-created node is 837 1.1 rillig * made the first node of the list. 838 1.1 rillig */ 839 1.1 rillig list2->lastPtr->nextPtr = NULL; 840 1.1 rillig for (last = list1->lastPtr, ln = list2->firstPtr; 841 1.1 rillig ln != NULL; 842 1.1 rillig ln = ln->nextPtr) 843 1.1 rillig { 844 1.12 rillig nln = LstNodeNew(ln->datum); 845 1.1 rillig if (last != NULL) { 846 1.1 rillig last->nextPtr = nln; 847 1.1 rillig } else { 848 1.1 rillig list1->firstPtr = nln; 849 1.1 rillig } 850 1.1 rillig nln->prevPtr = last; 851 1.1 rillig last = nln; 852 1.1 rillig } 853 1.1 rillig 854 1.1 rillig /* 855 1.1 rillig * Finish bookkeeping. The last new element becomes the last element 856 1.1 rillig * of list one. 857 1.1 rillig */ 858 1.1 rillig list1->lastPtr = last; 859 1.5 rillig last->nextPtr = NULL; 860 1.1 rillig } 861 1.1 rillig 862 1.1 rillig return SUCCESS; 863 1.1 rillig } 864 1.1 rillig 865 1.1 rillig 866 1.1 rillig /* 867 1.1 rillig * these functions are for dealing with a list as a table, of sorts. 868 1.1 rillig * An idea of the "current element" is kept and used by all the functions 869 1.1 rillig * between Lst_Open() and Lst_Close(). 870 1.1 rillig * 871 1.1 rillig * The sequential functions access the list in a slightly different way. 872 1.1 rillig * CurPtr points to their idea of the current node in the list and they 873 1.1 rillig * access the list based on it. 874 1.1 rillig */ 875 1.1 rillig 876 1.1 rillig /*- 877 1.1 rillig *----------------------------------------------------------------------- 878 1.1 rillig * Lst_Open -- 879 1.1 rillig * Open a list for sequential access. A list can still be searched, 880 1.1 rillig * etc., without confusing these functions. 881 1.1 rillig * 882 1.1 rillig * Results: 883 1.1 rillig * SUCCESS or FAILURE. 884 1.1 rillig * 885 1.1 rillig * Side Effects: 886 1.1 rillig * isOpen is set TRUE and curPtr is set to NULL so the 887 1.1 rillig * other sequential functions know it was just opened and can choose 888 1.1 rillig * the first element accessed based on this. 889 1.1 rillig * 890 1.1 rillig *----------------------------------------------------------------------- 891 1.1 rillig */ 892 1.1 rillig ReturnStatus 893 1.1 rillig Lst_Open(Lst l) 894 1.1 rillig { 895 1.4 rillig if (LstValid(l) == FALSE) { 896 1.4 rillig return FAILURE; 897 1.4 rillig } 898 1.4 rillig l->isOpen = TRUE; 899 1.4 rillig l->atEnd = LstIsEmpty(l) ? Head : Unknown; 900 1.4 rillig l->curPtr = NULL; 901 1.1 rillig 902 1.4 rillig return SUCCESS; 903 1.1 rillig } 904 1.1 rillig 905 1.10 rillig /* Open a list for sequential access. A list can still be searched, etc., 906 1.10 rillig * without confusing these functions. */ 907 1.10 rillig void 908 1.10 rillig Lst_OpenS(Lst l) 909 1.10 rillig { 910 1.10 rillig assert(LstValid(l)); 911 1.10 rillig assert(!l->isOpen); 912 1.10 rillig 913 1.10 rillig l->isOpen = TRUE; 914 1.10 rillig l->atEnd = LstIsEmpty(l) ? Head : Unknown; 915 1.10 rillig l->curPtr = NULL; 916 1.10 rillig } 917 1.10 rillig 918 1.10 rillig /* Return the next node for the given list, or NULL if the end has been 919 1.10 rillig * reached. */ 920 1.1 rillig LstNode 921 1.9 rillig Lst_NextS(Lst l) 922 1.1 rillig { 923 1.4 rillig ListNode tln; 924 1.4 rillig List list = l; 925 1.1 rillig 926 1.9 rillig assert(LstValid(l)); 927 1.9 rillig assert(list->isOpen); 928 1.1 rillig 929 1.1 rillig list->prevPtr = list->curPtr; 930 1.1 rillig 931 1.1 rillig if (list->curPtr == NULL) { 932 1.1 rillig if (list->atEnd == Unknown) { 933 1.1 rillig /* 934 1.1 rillig * If we're just starting out, atEnd will be Unknown. 935 1.1 rillig * Then we want to start this thing off in the right 936 1.1 rillig * direction -- at the start with atEnd being Middle. 937 1.1 rillig */ 938 1.1 rillig list->curPtr = tln = list->firstPtr; 939 1.1 rillig list->atEnd = Middle; 940 1.1 rillig } else { 941 1.1 rillig tln = NULL; 942 1.1 rillig list->atEnd = Tail; 943 1.1 rillig } 944 1.1 rillig } else { 945 1.1 rillig tln = list->curPtr->nextPtr; 946 1.1 rillig list->curPtr = tln; 947 1.1 rillig 948 1.1 rillig if (tln == list->firstPtr || tln == NULL) { 949 1.1 rillig /* 950 1.1 rillig * If back at the front, then we've hit the end... 951 1.1 rillig */ 952 1.1 rillig list->atEnd = Tail; 953 1.1 rillig } else { 954 1.1 rillig /* 955 1.1 rillig * Reset to Middle if gone past first. 956 1.1 rillig */ 957 1.1 rillig list->atEnd = Middle; 958 1.1 rillig } 959 1.1 rillig } 960 1.1 rillig 961 1.1 rillig return tln; 962 1.1 rillig } 963 1.1 rillig 964 1.10 rillig /* Close a list which was opened for sequential access. */ 965 1.1 rillig void 966 1.10 rillig Lst_CloseS(Lst l) 967 1.1 rillig { 968 1.4 rillig List list = l; 969 1.1 rillig 970 1.10 rillig assert(LstValid(l)); 971 1.10 rillig assert(list->isOpen); 972 1.10 rillig list->isOpen = FALSE; 973 1.10 rillig list->atEnd = Unknown; 974 1.1 rillig } 975 1.1 rillig 976 1.1 rillig 977 1.1 rillig /* 978 1.1 rillig * for using the list as a queue 979 1.1 rillig */ 980 1.1 rillig 981 1.1 rillig /*- 982 1.1 rillig *----------------------------------------------------------------------- 983 1.1 rillig * Lst_EnQueue -- 984 1.1 rillig * Add the datum to the tail of the given list. 985 1.1 rillig * 986 1.1 rillig * Results: 987 1.1 rillig * SUCCESS or FAILURE as returned by Lst_InsertAfter. 988 1.1 rillig * 989 1.1 rillig * Side Effects: 990 1.1 rillig * the lastPtr field is altered all the time and the firstPtr field 991 1.1 rillig * will be altered if the list used to be empty. 992 1.1 rillig * 993 1.1 rillig *----------------------------------------------------------------------- 994 1.1 rillig */ 995 1.1 rillig ReturnStatus 996 1.1 rillig Lst_EnQueue(Lst l, void *d) 997 1.1 rillig { 998 1.4 rillig if (LstValid(l) == FALSE) { 999 1.1 rillig return FAILURE; 1000 1.1 rillig } 1001 1.1 rillig 1002 1.1 rillig return Lst_InsertAfter(l, Lst_Last(l), d); 1003 1.1 rillig } 1004 1.1 rillig 1005 1.1 rillig /*- 1006 1.1 rillig *----------------------------------------------------------------------- 1007 1.1 rillig * Lst_DeQueue -- 1008 1.1 rillig * Remove and return the datum at the head of the given list. 1009 1.1 rillig * 1010 1.1 rillig * Results: 1011 1.1 rillig * The datum in the node at the head or NULL if the list 1012 1.1 rillig * is empty. 1013 1.1 rillig * 1014 1.1 rillig * Side Effects: 1015 1.1 rillig * The head node is removed from the list. 1016 1.1 rillig * 1017 1.1 rillig *----------------------------------------------------------------------- 1018 1.1 rillig */ 1019 1.1 rillig void * 1020 1.1 rillig Lst_DeQueue(Lst l) 1021 1.1 rillig { 1022 1.1 rillig void *rd; 1023 1.4 rillig ListNode tln; 1024 1.1 rillig 1025 1.1 rillig tln = Lst_First(l); 1026 1.1 rillig if (tln == NULL) { 1027 1.1 rillig return NULL; 1028 1.1 rillig } 1029 1.1 rillig 1030 1.1 rillig rd = tln->datum; 1031 1.8 rillig Lst_RemoveS(l, tln); 1032 1.8 rillig return rd; 1033 1.1 rillig } 1034
Indexes created Tue Sep 23 14:10:03 GMT 2025