/* listtest.c -- test program for generic list package * * Last edited: Tue Jul 28 15:37:21 1992 by bcs (Bradley C. Spatz) on wasp * * Copyright (C) 1992, Bradley C. Spatz, bcs@ufl.edu * * This program is free software; you can redistribute it and/or modify * it under the terms of the GNU General Public License as published by * the Free Software Foundation; either version 2 of the License, or * (at your option) any later version. * * This program is distributed in the hope that it will be useful, * but WITHOUT ANY WARRANTY; without even the implied warranty of * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the * GNU General Public License for more details. * * You should have received a copy of the GNU General Public License * along with this program; if not, write to the Free Software * Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. */ static char brag[] = "$$Version: listtest " "PACKAGE_VERSION" " Copyright (C) 1992 Bradley C. Spatz"; #include #include #include "../list.h" main() { LIST *list; char cmd[2]; int val, *pval; /* Print some instructions. */ printf("This program demonstrates the various list manipulation\n"); printf("routines supplied by this package. Although this program\n"); printf("manipulates a list of integers, data of any type and size\n"); printf("(and not just integers) are supported by the routines. See\n"); printf("the man page for more information.\n\n"); /* Allocate a new list. */ list = list_init(); printf("Curr = (nil).\n"); print_list(list); /* Get some commands. */ printf("\n(i)nsert, (r)emove; (m)ove, (f)ront/r(e)ear, (t)raverse, (s)ize, (q)uit: "); while (scanf("%1s", cmd) != EOF) { switch (cmd[0]) { case 'i': do_insert(list); break; case 'r': do_remove(list); break; case 'm': do_move(list); break; case 'f': pval = (int *) list_front(list); if (pval == NULL) printf("Front = (nil)\n"); else printf("Front = %d\n", *pval); break; case 'e': pval = (int *) list_rear(list); if (pval == NULL) printf("Rear = (nil)\n"); else printf("Rear = %d\n", *pval); break; case 't': do_traverse(list); break; case 's': printf("List has %d elements.\n", list_size(list)); break; case 'q': list_free(list, LIST_DEALLOC); exit(0); break; default: printf("'%s' not a recognized command!\n", cmd); break; } pval = (int *) list_curr(list); if (pval == NULL) printf("Curr = (nil)\n"); else printf("Curr = %d\n", *pval); print_list(list); printf("\n(i)nsert, (r)emove; (m)ove, (f)ront/r(e)ear, (t)raverse, (s)ize, (q)uit: "); } exit(0); } do_insert(list) LIST *list; { char cmd[2]; int val, *bogus; printf("insert (b)efore or (a)after: "); scanf("%1s", cmd); switch (cmd[0]) { case 'b': printf("Value (int) to insert before: "); if (scanf("%d", &val)) /* We ignore the return code here, but in practice, * we may fail (with a return code of NULL). */ list_insert_before(list, &val, sizeof(val)); break; case 'a': printf("Value (int) to insert after: "); if (scanf("%d", &val)) /* We ignore the return code here, but in practice, * we may fail (with a return code of NULL). */ list_insert_after(list, &val, sizeof(val)); break; default: printf("%c not recognized. Returning to main menu.\n", cmd[0]); } } do_remove(list) LIST *list; { char cmd[2]; int *pval; printf("remove (f)ront, (c)urr, or (r)ear: "); scanf("%1s", cmd); switch (cmd[0]) { case 'f': pval = (int *) list_remove_front(list); break; case 'c': pval = (int *) list_remove_curr(list); break; case 'r': pval = (int *) list_remove_rear(list); break; default: printf("%c not recognized. Returning to main menu.\n", cmd[0]); } if (pval == NULL) printf("List is empty!\n"); else printf("%d removed.\n", *pval); } do_move(list) LIST *list; { char cmd[2]; printf("move to (p)revious, (n)ext, (f)ront, or (r)ear: "); scanf("%1s", cmd); switch (cmd[0]) { case 'p': if (list_mvprev(list) == NULL) printf("No previous element!\n"); break; case 'n': if (list_mvnext(list) == NULL) printf("No next element!\n"); break; case 'f': /* We ignore the return code here. */ list_mvfront(list); break; case 'r': /* We ignore the return code here. */ list_mvrear(list); break; default: printf("%c not recognized. Returning to main menu.\n", cmd[0]); } } /* Routine to print the integer stored at each node. In this example, * we ignore the first parameter, which might be useful if we were * searching the list or something. We must return 0 or 1, so we always * return 1. */ int print_element(input, curr) char *input; char *curr; { printf(" %d", *(int *) curr); return(TRUE); } do_traverse(list) LIST *list; { char cmd[2]; int opts=0, rc; printf("traverse from (f)ront, (r)ear, or (c)urrent element: "); scanf("%1s", cmd); switch (cmd[0]) { case 'f': opts = (opts | LIST_FRNT); break; case 'r': opts = (opts | LIST_REAR); break; case 'c': opts = (opts | LIST_CURR); break; default: printf("%c not recognized. Returning to main menu.\n", cmd[0]); } if (cmd[0] == 'c') { printf("traverse (f)orwards or (b)ackwards: "); scanf("%1s", cmd); switch (cmd[0]) { case 'f': opts = (opts | LIST_FORW); break; case 'b': opts = (opts | LIST_BACK); break; default: printf("%c not recognized. Returning to main menu.\n", cmd[0]); } } printf("(a)lter or (p)reserve the current element pointer: "); scanf("%1s", cmd); switch (cmd[0]) { case 'a': opts = (opts | LIST_ALTR); break; case 'p': opts = (opts | LIST_SAVE); break; default: printf("%c not recognized. Returning to main menu.\n", cmd[0]); } printf("Traversal: "); rc = list_traverse(list, (char *) 0, print_element, opts); switch (rc) { case LIST_EMPTY: printf("(empty).\n"); break; case LIST_OK: printf(".\n"); break; case LIST_EXTENT: printf(". (extent reached)\n"); break; default: printf("%c not recognized. Returning to main menu.\n", cmd[0]); } } /* Routine to print a list of integers, using the traversal function. * In this example, we send NULL for the second parameter, which might be * used to specify an element to search for. */ print_list(list) LIST *list; { printf("List:"); if (list_empty(list)) printf(" (empty).\n"); else { list_traverse(list, (char *) 0, print_element, (LIST_FRNT | LIST_FORW | LIST_SAVE)); printf(".\n"); } }