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bsearch(3C)

hsearch(3C)

lsearch(3C)



tsearch(3C)          COMPATIBILITY FUNCTIONS          tsearch(3C)



NAME
     tsearch, tfind, tdelete, twalk - manage binary search trees

SYNOPSIS
     #include <search.h>

     void *tsearch (const void *key, void **rootp, int (*compar)
         (const void *, const void *));

     void *tfind (const void *key, void * const *rootp, int (*compar)
         (const void *, const void *));

     void *tdelete (const void *key, void **rootp, int (*compar)
         (const void *, const void *));

     void twalk (void *root, void(*action) (void *, VISIT, int));

DESCRIPTION
     tsearch, tfind, tdelete, and twalk are routines for  manipu-
     lating binary search trees.  They are generalized from Knuth
     (6.2.2) Algorithms T and D.  All comparisons are done with a
     user-supplied  routine.   This  routine  is  called with two
     arguments, the pointers to the elements being compared.   It
     returns  an  integer less than, equal to, or greater than 0,
     according to whether the first argument is to be  considered
     less  than,  equal  to  or greater than the second argument.
     The comparison function need  not  compare  every  byte,  so
     arbitrary  data may be contained in the elements in addition
     to the values being compared.

     tsearch is used to build and access  the  tree.   key  is  a
     pointer  to a datum to be accessed or stored.  If there is a
     datum in the tree equal to *key (the  value  pointed  to  by
     key), a pointer to this found datum is returned.  Otherwise,
     *key is inserted,  and  a  pointer  to  it  returned.   Only
     pointers  are  copied, so the calling routine must store the
     data.  rootp points to a variable that points to the root of
     the tree.  A NULL value for the variable pointed to by rootp
     denotes an empty tree; in this case, the  variable  will  be
     set  to  point to the datum which will be at the root of the
     new tree.

     Like tsearch, tfind will search for a  datum  in  the  tree,
     returning  a  pointer to it if found.  However, if it is not
     found, tfind will return a NULL pointer.  The arguments  for
     tfind are the same as for tsearch.

     tdelete deletes a node from a binary search tree.  The argu-
     ments  are the same as for tsearch.  The variable pointed to
     by rootp will be changed if the deleted node was the root of
     the  tree.   tdelete  returns a pointer to the parent of the
     deleted node, or a NULL pointer if the node is not found.



          Last change: C Programming Language Utilities         1





tsearch(3C)          COMPATIBILITY FUNCTIONS          tsearch(3C)



     twalk traverses a binary search tree.  root is the  root  of
     the  tree  to be traversed.  (Any node in a tree may be used
     as the root for a walk below that node.)  action is the name
     of  a  routine to be invoked at each node.  This routine is,
     in turn, called with three arguments.  The first argument is
     the  address of the node being visited.  The second argument
     is a value from an enumeration  data  type  typedef  enum  {
     preorder, postorder, endorder, leaf } VISIT; (defined in the
     search.h header file), depending  on  whether  this  is  the
     first,  second  or third time that the node has been visited
     (during a depth-first, left-to-right traversal of the tree),
     or  whether  the  node is a leaf.  The third argument is the
     level of the node in the tree, with  the  root  being  level
     zero.

     The pointers to the key and the root of the tree  should  be
     of  type  pointer-to-element,  and  cast to type pointer-to-
     character.  Similarly, although declared  as  type  pointer-
     to-character,  the  value  returned should be cast into type
     pointer-to-element.

EXAMPLE
     The following code reads in strings  and  stores  structures
     containing  a  pointer  to  each  string  and a count of its
     length.  It then walks the tree,  printing  out  the  stored
     strings and their lengths in alphabetical order.
     #include <string.h>
     #include <stdio.h>
     #include <search.h>

     struct node {
          char *string;
          int length;
     };
     char string_space[10000];
     struct node nodes[500];
     void *root = NULL;

     int node_compare(const void *node1, const void *node2) {
          return strcmp(((const struct node *) node1)->string,
                     ((const struct node *) node2)->string);
     }

     void print_node(void **node, VISIT order, int level) {
          if (order == preorder || order == leaf) {
               printf("length=%d, string=%20s\n",
               (*(struct node **)node)->length,
               (*(struct node **)node)->string);
          }
     }

     main() {



          Last change: C Programming Language Utilities         2





tsearch(3C)          COMPATIBILITY FUNCTIONS          tsearch(3C)



          char *strptr = string_space;
          struct node *nodeptr = nodes;
          int i = 0;

          while (gets(strptr) != NULL && i++ < 500) {
               nodeptr->string = strptr;
               nodeptr->length = strlen(strptr);
               (void) tsearch((void *)nodeptr,
                         &root, node_compare);
               strptr += nodeptr->length + 1;
               nodeptr++;
          }
          twalk(root, print_node);
     }

SEE ALSO
     bsearch(3C), hsearch(3C), lsearch(3C).

DIAGNOSTICS
     A NULL pointer is returned by tsearch if there is not enough
     space available to create a new node.
     A NULL pointer is returned by tfind and tdelete if rootp  is
     NULL on entry.
     If the datum is found,  both  tsearch  and  tfind  return  a
     pointer  to  it.   If  not,  tfind returns NULL, and tsearch
     returns a pointer to the inserted item.

NOTES
     The root argument to twalk is one level of indirection  less
     than the rootp arguments to tsearch and tdelete.
     There are two nomenclatures used to refer to  the  order  in
     which  tree  nodes are visited.  tsearch uses preorder, pos-
     torder and endorder to refer respectively to visiting a node
     before  any of its children, after its left child and before
     its right, and  after  both  its  children.   The  alternate
     nomenclature  uses  preorder, inorder and postorder to refer
     to the same visits, which could  result  in  some  confusion
     over the meaning of postorder.

     If the calling function alters  the  pointer  to  the  root,
     results are unpredictable.














          Last change: C Programming Language Utilities         3



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