NAME
Tie::Hash::DBD - tie a plain hash to a database table
SYNOPSIS
use DBI;
use Tie::Hash::DBD;
my $dbh = DBI->connect ("dbi:Pg:", ...);
tie my %hash, "Tie::Hash::DBD", "dbi:SQLite:dbname=db.tie";
tie my %hash, "Tie::Hash::DBD", $dbh;
tie my %hash, "Tie::Hash::DBD", $dbh, {
tbl => "t_tie_analysis",
key => "h_key",
fld => "h_value",
str => "Storable",
trh => 0,
};
$hash{key} = $value; # INSERT
$hash{key} = 3; # UPDATE
delete $hash{key}; # DELETE
$value = $hash{key}; # SELECT
%hash = (); # CLEAR
DESCRIPTION
This module has been created to act as a drop-in replacement for modules that tie straight perl hashes to disk, like DB_File
. When the running system does not have enough memory to hold large hashes, and disk-tieing won't work because there is not enough space, it works quite well to tie the hash to a database, which preferable runs on a different server.
This module ties a hash to a database table using only a key
and a value
field. If no tables specification is passed, this will create a temporary table with h_key
for the key field and a h_value
for the value field.
I think it would make sense to merge the functionality that this module provides into Tie::DBI
.
tie
The tie call accepts two arguments:
Database
The first argument is the connection specifier. This is either and open database handle or a DBI_DSN
string.
If this argument is a valid handle, this module does not open a database all by itself, but uses the connection provided in the handle.
If the first argument is a scalar, it is used as DSN for DBI->connect ().
Supported DBD drivers include DBD::Pg, DBD::SQLite, DBD::CSV, DBD::mysql, DBD::Oracle, DBD::Unify, and DBD::Firebird. Note that due to limitations they won't all perform equally well. Firebird is not tested anymore.
DBD::Pg and DBD::SQLite have an unexpected great performance when server is the local system. DBD::SQLite is even almost as fast as DB_File.
The current implementation appears to be extremely slow for CSV, as expected, mysql, and Unify. For Unify and mysql that is because these do not allow indexing on the key field so they cannot be set to be primary key.
When using DBD::CSV with Text::CSV_XS version 1.02 or newer, it might be wise to disable utf8 encoding (only supported as of DBD::CSV-0.48):
"dbi:CSV:f_ext=.csv/r;csv_null=1;csv_decode_utf8=0"
Options
The second argument is optional and should - if passed - be a hashref to options. The following options are recognized:
- tbl
-
Defines the name of the table to be used. If none is passed, a new table is created with a unique name like
t_tie_dbdh_42253_1
. When possible, the table is created as temporary. After the session, this table will be dropped.If a table name is provided, it will be checked for existence. If found, it will be used with the specified
key
andfld
. Otherwise it will be created withkey
andfld
, but it will not be dropped at the end of the session.If a table name is provided,
AutoCommit
will be "On" for persistence, unless you provide a truetrh
attribute. - key
-
Defines the name of the key field in the database table. The default is
h_key
. - ktp
-
Defines the type of the key field in the database table. The default is depending on the underlying database. Probably unwise to change.
- fld
-
Defines the name of the value field in the database table. The default is
h_value
. - vtp
-
Defines the type of the fld field in the database table. The default is depending on the underlying database and most likely some kind of BLOB.
- str
-
Defines the required persistence module. Currently only supports the use of
Storable
. The default is undefined. Passing unsupported streamer module names will be silently ignored.Note that
Storable
does not support persistence of perl typesCODE
,REGEXP
,IO
,FORMAT
, andGLOB
.If you want to preserve Encoding on the hash values, you should use this feature.
Also note that this module does not yet support dynamic deep structures. See "Nesting and deep structues".
- trh
-
Use transaction Handles. By default none of the operations is guarded by transaction handling for speed reasons. Set
trh
to a true value cause all actions to be surrounded bybegin_work
andcommit
. Note that this may have a big impact on speed.
Encoding
Tie::Hash::DBD
stores keys and values as binary data. This means that all Encoding and magic is lost when the data is stored, and thus is also not available when the data is restored, hence all internal information about the data is also lost, which includes the UTF8
flag.
If you want to preserve the UTF8
flag you will need to store internal flags and use the streamer option:
tie my %hash, "Tie::Hash::DBD", { str => "Storable" };
If you do not want the performance impact of Storable just to be able to store and retrieve UTF-8 values, there are two ways to do so:
# Use utf-8 from database
tie my %hash, "Tie::Hash::DBD", "dbi:Pg:", { vtp => "text" };
$hash{foo} = "The teddybear costs \x{20ac} 45.95";
# use Encode
tie my %hash, "Tie::Hash::DBD", "dbi:Pg:";
$hash{foo} = encode "UTF-8", "The teddybear costs \x{20ac} 45.95";
Note that using Encode will allow other binary data too where using the database encoding does not:
$hash{foo} = pack "L>A*", time, encode "UTF-8", "Price: \x{20ac} 45.95";
Nesting and deep structures
Tie::Hash::DBD
stores keys and values as binary data. This means that all structure is lost when the data is stored and not available when the data is restored. To maintain deep structures, use the streamer option:
tie my %hash, "Tie::Hash::DBD", { str => "Storable" };
Note that changes inside deep structures do not work. See "TODO".
METHODS
drop ()
If a table was used with persistence, the table will not be dropped when the untie
is called. Dropping can be forced using the drop
method at any moment while the hash is tied:
(tied %hash)->drop;
PREREQUISITES
The only real prerequisite is DBI but of course that uses the DBD driver of your choice. Some drivers are (very) actively maintained. Be sure to to use recent Modules. DBD::SQLite for example seems to require version 1.29 or up.
RESTRICTIONS and LIMITATIONS
As Oracle does not allow BLOB, CLOB or LONG to be indexed or selected on, the keys will be converted to ASCII for Oracle. The maximum length for a converted key in Oracle is 4000 characters. The fact that the key has to be converted to ASCII representation, also excludes
undef
as a valid key value.DBD::Oracle
limits the size of BLOB-reads to 4kb by default, which is too small for reasonable data structures. Tie::Hash::DBD locally raises this value to 4Mb, which is still an arbitrary limit.Storable
does not support persistence of perl typesIO
,REGEXP
,CODE
,FORMAT
, andGLOB
. Future extensions might implement some alternative streaming modules, likeData::Dump::Streamer
or use mixin approaches that enable you to fit in your own.Note that neither DBD::CSV nor DBD::Unify support
AutoCommit
.For now, Firebird does not support
TEXT
(orCLOB
) in DBD::Firebird at a level required by Tie::Hash::DBD. Neither does it support arbitrary length index onVARCHAR
fields so it can neither be a primary key nor can it be the subject of a (unique) index hence large sets will be slow.Firebird support is stalled.
TODO
- Update on deep changes
-
Currently, nested structures do not get updated when it is an change in a deeper part.
tie my %hash, "Tie::Hash::DBD", $dbh, { str => "Storable" }; $hash{deep} = { int => 1, str => "foo", }; $hash{deep}{int}++; # No effect :(
- Documentation
-
Better document what the implications are of storing data content in a database and restoring that. It will not be fool proof.
- Mixins
-
Maybe: implement a feature that would enable plugins or mixins to do the streaming or preservation of other data attributes.
AUTHOR
H.Merijn Brand <h.m.brand@xs4all.nl>
COPYRIGHT AND LICENSE
Copyright (C) 2010-2015 H.Merijn Brand
This library is free software; you can redistribute it and/or modify it under the same terms as Perl itself.
SEE ALSO
DBI, Tie::DBI, Tie::Hash, Tie::Array::DBD, Redis::Hash, DBM::Deep