LSEARCH(3C) Standard C Library Functions LSEARCH(3C)

NAME


lsearch, lfind - linear search and update

SYNOPSIS


#include <search.h>

void *lsearch(const void *key, void *base, size_t *nelp,
size_t width, int (*compar)(const void *, const void *));


void *lfind(const void *key, const void *base, size_t *nelp,
size_t width, int (*compar)(const void *, const void *));


DESCRIPTION


The lsearch() function is a linear search routine generalized from Knuth
(6.1) Algorithm S. (see The Art of Computer Programming, Volume 3,
Section 6.1, by Donald E. Knuth.). It returns a pointer to a table
indicating where a datum can be found. If the datum does not occur, it is
added at the end of the table. The key argument points to the datum to be
sought in the table. The base argument points to the first element in the
table. The nelp argument points to an integer containing the current
number of elements in the table. The integer is incremented if the datum
is added to the table. The width argument is the size of an element in
bytes. The compar argument is a pointer to the comparison function that
the user must supply (strcmp(3C) for example). It is called with two
arguments that point to the elements being compared. The function must
return zero if the elements are equal and non-zero otherwise.


The lfind() function is the same as lsearch() except that if the datum is
not found, it is not added to the table. Instead, a null pointer is
returned.


It is important to note the following:

o The pointers to the key and the element at the base of the
table can be pointers to any type.

o The comparison function need not compare every byte, so
arbitrary data can be contained in the elements in addition to
the values being compared.

o The value returned should be cast into type pointer-to-
element.

RETURN VALUES


If the searched-for datum is found, both lsearch() and lfind() return a
pointer to it. Otherwise, lfind() returns NULL and lsearch() returns a
pointer to the newly added element.

USAGE


Undefined results can occur if there is not enough room in the table to
add a new item.


The lsearch() and lfind() functions safely allows concurrent access by
multiple threads to disjoint data, such as overlapping subtrees or
tables.

EXAMPLES


Example 1: A sample code using the lsearch() function.




This program will read in less than TABSIZE strings of length less than
ELSIZE and store them in a table, eliminating duplicates, and then will
print each entry.


#include <search.h>
#include <string.h>
#include <stdlib.h>
#include <stdio.h>

#define TABSIZE 50
#define ELSIZE 120

main()
{
char line[ELSIZE]; /* buffer to hold input string */
char tab[TABSIZE][ELSIZE]; /* table of strings */
size_t nel = 0; /* number of entries in tab */
int i;

while (fgets(line, ELSIZE, stdin) != NULL &&
nel < TABSIZE)
(void) lsearch(line, tab, &nel, ELSIZE, mycmp);
for( i = 0; i < nel; i++ )
(void)fputs(tab[i], stdout);
return 0;
}


ATTRIBUTES


See attributes(7) for descriptions of the following attributes:


+--------------------+-----------------+
| ATTRIBUTE TYPE | ATTRIBUTE VALUE |
+--------------------+-----------------+
|Interface Stability | Standard |
+--------------------+-----------------+
|MT-Level | MT-Safe |
+--------------------+-----------------+

SEE ALSO


bsearch(3C), hsearch(3C), string(3C), tsearch(3C), attributes(7),
standards(7)


The Art of Computer Programming, Volume 3, Sorting and Searching by
Donald E. Knuth, published by Addison-Wesley Publishing Company, 1973.

illumos December 6, 2004 LSEARCH(3C)