Mercurial > hg > early-roguelike
view arogue5/list.c @ 296:000b1c5b8d63
UltraRogue: fix inventory collision after save and restore.
Inventory letters are based on "identifiers" stored in objects' o_ident
field. Identifiers are allocated by get_ident(), which keeps a list of
objects that have them, to avoid giving the same identifier to multiple
objects.
The list is not stored in the savefile, so after restore, get_ident()
was not aware of existing identifiers. This resulted in picked-up
objects having the same inventory letters as objects restored from the
file.
The restore code now adds all objects with identifiers to the list.
| author | John "Elwin" Edwards |
|---|---|
| date | Mon, 15 Jan 2018 20:20:35 -0500 |
| parents | 56e748983fa8 |
| children | 0250220d8cdd |
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/* * Functions for dealing with linked lists of goodies * * Advanced Rogue * Copyright (C) 1984, 1985 Michael Morgan, Ken Dalka and AT&T * All rights reserved. * * Based on "Rogue: Exploring the Dungeons of Doom" * Copyright (C) 1980, 1981 Michael Toy, Ken Arnold and Glenn Wichman * All rights reserved. * * See the file LICENSE.TXT for full copyright and licensing information. */ #include <stdlib.h> #include "curses.h" #include "rogue.h" /* * detach: * Takes an item out of whatever linked list it might be in */ void _detach(struct linked_list **list, struct linked_list *item) { if (*list == item) *list = next(item); if (prev(item) != NULL) item->l_prev->l_next = next(item); if (next(item) != NULL) item->l_next->l_prev = prev(item); item->l_next = NULL; item->l_prev = NULL; } /* * _attach: * add an item to the head of a list */ void _attach(struct linked_list **list, struct linked_list *item) { if (*list != NULL) { item->l_next = *list; (*list)->l_prev = item; item->l_prev = NULL; } else { item->l_next = NULL; item->l_prev = NULL; } *list = item; } /* * o_free_list: * Throw the whole object list away */ void _o_free_list(struct linked_list **ptr) { register struct linked_list *item; while (*ptr != NULL) { item = *ptr; *ptr = next(item); o_discard(item); } } /* * o_discard: * free up an item and its object(and maybe contents) */ void o_discard(struct linked_list *item) { register struct object *obj; obj = OBJPTR(item); if (obj->contents != NULL) o_free_list(obj->contents); total -= 2; FREE(item->l_data); FREE(item); } /* * t_free_list: * Throw the whole thing list away */ void _t_free_list(struct linked_list **ptr) { register struct linked_list *item; while (*ptr != NULL) { item = *ptr; *ptr = next(item); t_discard(item); } } /* * t_discard: * free up an item and its thing */ void t_discard(struct linked_list *item) { total -= 2; FREE(item->l_data); FREE(item); } /* * destroy_item: * get rid of an item structure -- don't worry about contents */ void destroy_item(struct linked_list *item) { total--; FREE(item); } /* * new_item * get a new item with a specified size */ struct linked_list * new_item(int size) { register struct linked_list *item; if ((item = (struct linked_list *) new(sizeof *item)) == NULL) msg("Ran out of memory for header after %d items", total); if ((item->l_data = new(size)) == NULL) msg("Ran out of memory for data after %d items", total); item->l_next = item->l_prev = NULL; return item; } /* * creat_item: * Create just an item structure -- don't make any contents */ struct linked_list * creat_item(void) { register struct linked_list *item; if ((item = (struct linked_list *) new(sizeof *item)) == NULL) msg("Ran out of memory for header after %d items", total); item->l_next = item->l_prev = NULL; return item; } char * new(int size) { register char *space = ALLOC(size); static char errbuf[LINELEN]; if (space == NULL) { sprintf(errbuf,"Rogue ran out of memory (used = %d, wanted = %d).", md_memused(), size); fatal(errbuf); } total++; return space; }