/* $Xorg: list.c,v 1.4 2000/08/17 19:55:12 cpqbld Exp $ */ /** ------------------------------------------------------------------------ This file contains routines for manipulating generic lists. Lists are implemented with a "harness". In other words, each node in the list consists of two pointers, one to the data item and one to the next node in the list. The head of the list is the same struct as each node, but the "item" ptr is used to point to the current member of the list (used by the first_in_list and next_in_list functions). Copyright 1994 Hewlett-Packard Co. Copyright 1996, 1998 The Open Group All Rights Reserved. The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software. THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE OPEN GROUP BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE. Except as contained in this notice, the name of The Open Group shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization from The Open Group. ----------------------------------------------------------------------- **/ /* $XFree86: xc/programs/xwd/list.c,v 3.5 2001/07/25 15:05:31 dawes Exp $ */ #include #include #include "list.h" /** ------------------------------------------------------------------------ Sets the pointers of the specified list to NULL. --------------------------------------------------------------------- **/ #if NeedFunctionPrototypes void zero_list(list_ptr lp) #else void zero_list(lp) list_ptr lp; #endif { lp->next = NULL; lp->ptr.item = NULL; } /** ------------------------------------------------------------------------ Adds item to the list pointed to by lp. Finds the end of the list, then mallocs a new list node onto the end of the list. The item pointer in the new node is set to "item" passed in, and the next pointer in the new node is set to NULL. Returns 1 if successful, 0 if the malloc failed. -------------------------------------------------------------------- **/ #if NeedFunctionPrototypes int add_to_list(list_ptr lp, void *item) #else int add_to_list(lp, item) list_ptr lp; void *item; #endif { while (lp->next) { lp = lp->next; } if ((lp->next = (list_ptr) malloc( sizeof( list_item))) == NULL) { return 0; } lp->next->ptr.item = item; lp->next->next = NULL; return 1; } /** ------------------------------------------------------------------------ Creates a new list and sets its pointers to NULL. Returns a pointer to the new list. -------------------------------------------------------------------- **/ list_ptr new_list () { list_ptr lp; if ((lp = (list_ptr) malloc( sizeof( list_item)))) { lp->next = NULL; lp->ptr.item = NULL; } return lp; } /** ------------------------------------------------------------------------ Creates a new list head, pointing to the same list as the one passed in. If start_at_curr is TRUE, the new list's first item is the "current" item (as set by calls to first/next_in_list()). If start_at_curr is FALSE, the first item in the new list is the same as the first item in the old list. In either case, the curr pointer in the new list is the same as in the old list. Returns a pointer to the new list head. -------------------------------------------------------------------- **/ #if NeedFunctionPrototypes list_ptr dup_list_head(list_ptr lp, int start_at_curr) #else list_ptr dup_list_head(lp, start_at_curr) list_ptr lp; int start_at_curr; #endif { list_ptr new_list; if ((new_list = (list_ptr) malloc( sizeof( list_item))) == NULL) { return (list_ptr)NULL; } new_list->next = start_at_curr ? lp->ptr.curr : lp->next; new_list->ptr.curr = lp->ptr.curr; return new_list; } /** ------------------------------------------------------------------------ Returns the number of items in the list. -------------------------------------------------------------------- **/ #if NeedFunctionPrototypes unsigned int list_length(list_ptr lp) #else unsigned int list_length(lp) list_ptr lp; #endif { unsigned int count = 0; while (lp->next) { count++; lp = lp->next; } return count; } /** ------------------------------------------------------------------------ Scans thru list, looking for a node whose ptr.item is equal to the "item" passed in. "Equal" here means the same address - no attempt is made to match equivalent values stored in different locations. If a match is found, that node is deleted from the list. Storage for the node is freed, but not for the item itself. Returns a pointer to the item, so the caller can free it if it so desires. If a match is not found, returns NULL. -------------------------------------------------------------------- **/ #if NeedFunctionPrototypes void *delete_from_list(list_ptr lp, void *item) #else void *delete_from_list(lp, item) list_ptr lp; void *item; #endif { list_ptr new_next; while (lp->next) { if (lp->next->ptr.item == item) { new_next = lp->next->next; free (lp->next); lp->next = new_next; return item; } lp = lp->next; } return NULL; } /** ------------------------------------------------------------------------ Deletes each node in the list *except the head*. This allows the deletion of lists where the head is not malloced or created with new_list(). If free_items is true, each item pointed to from the node is freed, in addition to the node itself. -------------------------------------------------------------------- **/ #if NeedFunctionPrototypes void delete_list(list_ptr lp, int free_items) #else void delete_list(lp, free_items) list_ptr lp; int free_items; #endif { list_ptr del_node; void *item; while (lp->next) { del_node = lp->next; item = del_node->ptr.item; lp->next = del_node->next; free (del_node); if (free_items) { free( item); } } } #if NeedFunctionPrototypes void delete_list_destroying(list_ptr lp, void destructor(void *item)) #else void delete_list_destroying(lp, destructor) list_ptr lp; void (*destructor)(); #endif { list_ptr del_node; void *item; while (lp->next) { del_node = lp->next; item = del_node->ptr.item; lp->next = del_node->next; free( del_node); if (destructor) { destructor( item); } } } /** ------------------------------------------------------------------------ Returns a ptr to the first *item* (not list node) in the list. Sets the list head node's curr ptr to the first node in the list. Returns NULL if the list is empty. -------------------------------------------------------------------- **/ #if NeedFunctionPrototypes void * first_in_list(list_ptr lp) #else void * first_in_list(lp) list_ptr lp; #endif { if (! lp) { return NULL; } lp->ptr.curr = lp->next; return lp->ptr.curr ? lp->ptr.curr->ptr.item : NULL; } /** ------------------------------------------------------------------------ Returns a ptr to the next *item* (not list node) in the list. Sets the list head node's curr ptr to the next node in the list. first_in_list must have been called prior. Returns NULL if no next item. -------------------------------------------------------------------- **/ #if NeedFunctionPrototypes void * next_in_list(list_ptr lp) #else void * next_in_list(lp) list_ptr lp; #endif { if (! lp) { return NULL; } if (lp->ptr.curr) { lp->ptr.curr = lp->ptr.curr->next; } return lp->ptr.curr ? lp->ptr.curr->ptr.item : NULL; } #if NeedFunctionPrototypes int list_is_empty(list_ptr lp) #else int list_is_empty(lp) list_ptr lp; #endif { return (lp == NULL || lp->next == NULL); }