NetBSD/lib/libc/db/hash
jtc 43fa6fe319 If port provides __weak_alias(), provide an Standard C and POSIX pure
identifier namespace by renaming non standard functions and variables
such that they have a leading underscore.  The library will use those
names internally.  Weak aliases are used to provide the original names
to the API.

This is only the first part of this change.  It is most of the functions
which are implemented in C for all NetBSD ports.  Subsequent changes are
to add the same support to the remaining C files, to assembly files, and
to the automagically generated assembly source used for system calls.
When all of the above is done, ports with weak alias support should add
a definition for __weak_alias to <sys/cdefs.h>.
1997-07-21 14:06:24 +00:00
..
extern.h merge DB 1.85 changes 1996-05-03 21:38:43 +00:00
hash_bigkey.c Fix RCSID's 1997-07-13 18:51:48 +00:00
hash_buf.c Fix RCSID's 1997-07-13 18:51:48 +00:00
hash_func.c Fix RCSID's 1997-07-13 18:51:48 +00:00
hash_log2.c Fix RCSID's 1997-07-13 18:51:48 +00:00
hash_page.c Fix RCSID's 1997-07-13 18:51:48 +00:00
hash.c Fix RCSID's 1997-07-13 18:51:48 +00:00
hash.h Rename the errno field in struct htab to err, as the former name 1996-11-07 06:48:01 +00:00
hsearch.c Fix RCSID's 1997-07-13 18:51:48 +00:00
Makefile.inc merge DB 1.85 changes 1996-05-03 21:38:43 +00:00
ndbm.c If port provides __weak_alias(), provide an Standard C and POSIX pure 1997-07-21 14:06:24 +00:00
page.h merge DB 1.85 changes 1996-05-03 21:38:43 +00:00
README merge DB 1.85 changes 1996-05-03 21:38:43 +00:00
search.h merge DB 1.85 changes 1996-05-03 21:38:43 +00:00

#	$NetBSD: README,v 1.4 1996/05/03 21:43:44 cgd Exp $
#	@(#)README	8.1 (Berkeley) 6/4/93

This package implements a superset of the hsearch and dbm/ndbm libraries.

Test Programs:
	All test programs which need key/data pairs expect them entered
	with key and data on separate lines

	tcreat3.c	
		Takes 
			bucketsize (bsize), 
			fill factor (ffactor), and
			initial number of elements (nelem).  
		Creates a hash table named hashtest containing the 
		keys/data pairs entered from standard in.
	thash4.c
		Takes
			bucketsize (bsize), 
			fill factor (ffactor), 
			initial number of elements (nelem)
			bytes of cache (ncached), and
			file from which to read data  (fname)
		Creates a table from the key/data pairs on standard in and
		then does a read of each key/data in fname
	tdel.c
		Takes
			bucketsize (bsize), and
			fill factor (ffactor).
			file from which to read data (fname)
		Reads each key/data pair from fname and deletes the
		key from the hash table hashtest
	tseq.c
		Reads the key/data pairs in the file hashtest and writes them
		to standard out.
	tread2.c
		Takes
			butes of cache (ncached).
		Reads key/data pairs from standard in and looks them up
		in the file hashtest.
	tverify.c
		Reads key/data pairs from standard in, looks them up
		in the file hashtest, and verifies that the data is
		correct.

NOTES:

The file search.h is provided for using the hsearch compatible interface
on BSD systems.  On System V derived systems, search.h should appear in 
/usr/include.

The man page ../man/db.3 explains the interface to the hashing system.
The file hash.ps is a postscript copy of a paper explaining
the history, implementation, and performance of the hash package.

"bugs" or idiosyncracies

If you have a lot of overflows, it is possible to run out of overflow
pages.  Currently, this will cause a message to be printed on stderr.
Eventually, this will be indicated by a return error code.

If you are using the ndbm interface and exit without flushing or closing the
file, you may lose updates since the package buffers all writes.  Also,
the db interface only creates a single database file.  To avoid overwriting
the user's original file, the suffix ".db" is appended to the file name
passed to dbm_open.  Additionally, if your code "knows" about the historic
.dir and .pag files, it will break.  

There is a fundamental difference between this package and the old hsearch.
Hsearch requires the user to maintain the keys and data in the application's
allocated memory while hash takes care of all storage management.  The down
side is that the byte strings passed in the ENTRY structure must be null
terminated (both the keys and the data).