/* -*-C-*- ******************************************************************************** * * File: list.h (Formerly list.h) * Description: List processing procedures declarations. * Author: Mark Seaman, SW Productivity * Created: Fri Oct 16 14:37:00 1987 * Modified: Wed Dec 5 15:43:17 1990 (Mark Seaman) marks@hpgrlt * Language: C * Package: N/A * Status: Reusable Software Component * * (c) Copyright 1987, Hewlett-Packard Company. ** Licensed under the Apache License, Version 2.0 (the "License"); ** you may not use this file except in compliance with the License. ** You may obtain a copy of the License at ** http://www.apache.org/licenses/LICENSE-2.0 ** Unless required by applicable law or agreed to in writing, software ** distributed under the License is distributed on an "AS IS" BASIS, ** WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. ** See the License for the specific language governing permissions and ** limitations under the License. * ******************************************************************************** * * This file contains the interface for a set of general purpose list * manipulation routines. For the implementation of these routines see * the file "list.c". * ******************************************************************************** * * INDEX * ======= * * BASICS: * ------- * first_node - Macro to return the first list node (not the cell). * list_rest - Macro the return the second list cell * pop - Destroy one list cell * push - Create one list cell and set the node and next fields * * ITERATION: * ----------------- * iterate - Macro to create a for loop to visit each cell. * iterate_list - Macro to visit each cell using a local variable. * for_each - Applies a function to each node. * * LIST CELL COUNTS: * ----------------- * count - Returns the number of list cells in the list. * second_node - Returns the second node. * third - Returns the third node. * fourth - Returns the fourth node. * fifth - Returns the fifth node. * last - Returns the last list cell. * pair - Creates a list of two elements. * * COPYING: * ----------------- * copy_first - Pushes the first element from list 1 onto list 2. * copy - Create a copy of a list. * concat - Creates a new list that is a copy of both input lists. * delete_n - Creates a new list without the chosen elements. * reverse - Creates a backwards copy of the input list. * sort - Use quick sort to construct a new list. * transform - Creates a new list by transforming each of the nodes. * * TRANFORMS: (Note: These functions all modify the input list.) * ---------- * join - Concatenates list 1 and list 2. * delete_d - Removes the requested elements from the list. * transform_d - Modifies the list by applying a function to each node. * insert - Add a new element into this spot in a list. (not NIL_LIST) * push_last - Add a new element onto the end of a list. * reverse_d - Reverse a list and destroy the old one. * * ASSOCIATED LISTS: * ----------------- * adelete - Remove a particular entry from an associated list. * assoc - Find an entry in an associated list that matches a key. * match - Return the data element of an a-list entry. * * DISPLAY: * ----------------- * print_cell - Print a hex dump of a list cell. * show - Displays a string and a list (using lprint). * * SETS: * ----- * adjoin - Add a new element to list if it does not exist already. * intersection - Create a new list that is the set intersection. * set_union - Create a new list that is the set intersection. * set_difference - Create a new list that is the set difference. * s_adjoin - Add an element to a sort list if it is not there. * s_intersection - Set intersection on a sorted list. Modifies old list. * s_union - Set intersection on a sorted list. Modifies old list. * search - Return the pointer to the list cell whose node matches. * * COMPARISONS: * ----------------- * is_same - Compares each node to the key. * is_not_same - Compares each node to the key. * is_key - Compares first of each node to the key. * is_not_key - Compares first of each node to the key. * * CELL OPERATIONS: * ----------------- * new_cell - Obtain a new list cell from the free list. Allocate. * free_cell - Return a list cell to the free list. * destroy - Return all list cells in a list. * destroy_nodes - Apply a function to each list cell and destroy the list. * set_node - Assign the node field in a list cell. * set_rest - Assign the next field in a list cell. * ***********************************************************************/ #ifndef LIST_H #define LIST_H #include "cutil.h" #include "tesscallback.h" /*---------------------------------------------------------------------- T y p e s ----------------------------------------------------------------------*/ #define NIL_LIST (LIST) 0 struct list_rec { struct list_rec *node; struct list_rec *next; }; typedef list_rec *LIST; /*---------------------------------------------------------------------- M a c r o s ----------------------------------------------------------------------*/ /* Predefinitions */ #define list_rest(l) ((l) ? (l)->next : NIL_LIST) #define first_node(l) ((l) ? (l)->node : NIL_LIST) /********************************************************************** * c o p y f i r s t * * Do the appropriate kind a push operation to copy the first node from * one list to another. * **********************************************************************/ #define copy_first(l1,l2) \ (l2=push(l2, first_node(l1))) /********************************************************************** * i t e r a t e * * Visit each node in the list. Replace the old list with the list * minus the head. Continue until the list is NIL_LIST. **********************************************************************/ #define iterate(l) \ for (; (l) != NIL_LIST; (l) = list_rest (l)) /********************************************************************** * i t e r a t e l i s t * * Visit each node in the list (l). Use a local variable (x) to iterate * through all of the list cells. This macro is identical to iterate * except that it does not lose the original list. **********************************************************************/ #define iterate_list(x,l) \ for ((x)=(l); (x)!=0; (x)=list_rest(x)) /********************************************************************** * j o i n o n * * Add another list onto the tail of this one. The list given as an input * parameter is modified. **********************************************************************/ #define JOIN_ON(list1,list2) \ ((list1) = join ((list1), (list2))) /********************************************************************** * p o p o f f * * Add a cell onto the front of a list. The list given as an input * parameter is modified. **********************************************************************/ #define pop_off(list) \ ((list) = pop (list)) /********************************************************************** * p u s h o n * * Add a cell onto the front of a list. The list given as an input * parameter is modified. **********************************************************************/ #define push_on(list,thing) \ ((list) = push (list, (LIST) (thing))) /********************************************************************** * s e c o n d * * Return the contents of the second list element. * * #define second_node(l) first_node (list_rest (l)) **********************************************************************/ #define second_node(l) \ first_node (list_rest (l)) /********************************************************************** * s e t r e s t * * Change the "next" field of a list element to point to a desired place. * * #define set_rest(l,node) l->next = node; **********************************************************************/ #define set_rest(l,cell)\ ((l)->next = (cell)) /********************************************************************** * t h i r d * * Return the contents of the third list element. * * #define third(l) first_node (list_rest (list_rest (l))) **********************************************************************/ #define third(l) \ first_node (list_rest (list_rest (l))) /*---------------------------------------------------------------------- Public Funtion Prototypes ----------------------------------------------------------------------*/ int count(LIST var_list); LIST delete_d(LIST list, void *key, int_compare is_equal); LIST delete_d(LIST list, void *key, TessResultCallback2* is_equal); LIST destroy(LIST list); void destroy_nodes(LIST list, void_dest destructor); void insert(LIST list, void *node); int is_same_node(void *item1, void *item2); int is_same(void *item1, void *item2); LIST join(LIST list1, LIST list2); LIST last(LIST var_list); void *nth_cell(LIST var_list, int item_num); LIST pop(LIST list); LIST push(LIST list, void *element); LIST push_last(LIST list, void *item); LIST reverse(LIST list); LIST reverse_d(LIST list); LIST s_adjoin(LIST var_list, void *variable, int_compare compare); LIST search(LIST list, void *key, int_compare is_equal); LIST search(LIST list, void *key, TessResultCallback2*); /* #if defined(__STDC__) || defined(__cplusplus) # define _ARGS(s) s #else # define _ARGS(s) () #endif typedef void (*destructor) _ARGS((LIST l)); typedef LIST (*list_proc) _ARGS((LIST a)); int count _ARGS((LIST var_list)); LIST delete_d _ARGS((LIST list, LIST key, int_compare is_equal)); LIST destroy _ARGS((LIST list)); LIST destroy_nodes _ARGS((LIST list, void_dest destructor)); void insert _ARGS((LIST list, LIST node)); int is_same_node _ARGS((LIST s1, LIST s2)); int is_same _ARGS((LIST s1, LIST s2)); LIST join _ARGS((LIST list1, LIST list2)); LIST last _ARGS((LIST var_list)); LIST nth_cell _ARGS((LIST var_list, int item_num)); LIST pop _ARGS((LIST list)); LIST push _ARGS((LIST list, LIST element)); LIST push_last _ARGS((LIST list, LIST item)); LIST reverse _ARGS((LIST list)); LIST reverse_d _ARGS((LIST list)); LIST s_adjoin _ARGS((LIST var_list, LIST variable, int_compare compare)); LIST search _ARGS((LIST list, LIST key, int_compare is_equal)); #undef _ARGS */ #endif