Provided by: libkiokudb-perl_0.56-1_all bug

NAME

       KiokuDB - Object Graph storage engine

VERSION

       version 0.56

SYNOPSIS

           use KiokuDB;

           # use a DSN
           my $d = KiokuDB->connect( $dsn, %args );

           # or manually instantiate a backend
           my $d = KiokuDB->new(
               backend => KiokuDB::Backend::Files->new(
                   dir        => "/tmp/foo",
                   serializer => "yaml",
               ),
           );

           # create a scope object
           my $s = $d->new_scope;

           # takes a snapshot of $some_object
           my $uuid = $d->store($some_object);

           # or with a custom ID:
           $d->store( $id => $some_object ); # $id can be any string

           # retrieve by ID
           my $some_object = $d->lookup($uuid);

           # some backends (like DBI) support simple searches
           $d->search({ name => "foo" });

           # others use GIN queries (DBI supports both)
           $d->search($gin_query);

DESCRIPTION

       KiokuDB is a Moose based frontend to various data stores, somewhere in between Tangram and
       Pixie.

       Its purpose is to provide persistence for "regular" objects with as little effort as
       possible, without sacrificing control over how persistence is actually done, especially
       for harder to serialize objects.

       KiokuDB is also non-invasive: it does not use ties, "AUTOLOAD", proxy objects, "sv_magic"
       or any other type of trickery.

       Many features important for proper Perl space semantics are supported, including shared
       data, circular structures, weak references, tied structures, etc.

       KiokuDB is meant to solve two related persistence problems:

       Transparent persistence
           Store arbitrary objects without changing their class definitions or worrying about
           schema details, and without needing to conform to the limitations of a relational
           model.

       Interoperability
           Persisting arbitrary objects in a way that is compatible with existing data/code (for
           example interoperating with another app using CouchDB with JSPON semantics).

TUTORIAL

       If you're new to KiokuDB check out KiokuDB::Tutorial.

FUNDAMENTAL CONCEPTS

       In order to use any persistence framework it is important to understand what it does and
       how it does it.

       Systems like Tangram or DBIx::Class generally require explicit meta data and use a schema,
       which makes them fairly predictable.

       When using transparent systems like KiokuDB or Pixie it is more important to understand
       what's going on behind the scenes in order to avoid surprises and limitations.

       An architectural overview is available on the website:
       <http://www.iinteractive.com/kiokudb/arch.html>

       The process is explained here and in the various component documentation in more detail.

   Collapsing
       When an object is stored using KiokuDB it's collapsed into an KiokuDB::Entry.

       An entry is a simplified representation of the object, allowing the data to be saved in
       formats as simple as JSON.

       References to other objects are converted to symbolic references in the entry, so objects
       can be saved independently of each other.

       The entries are given to the KiokuDB::Backend for actual storage.

       Collapsing is explained in detail in KiokuDB::Collapser. The way an entry is created
       varies with the object's class.

   Linking
       When objects are loaded, entries are retrieved from the backend using their UIDs.

       When a UID is already loaded (in the live object set of a KiokuDB instance, see
       KiokuDB::LiveObjects) the live object is used. This way references to shared objects are
       shared in memory regardless of the order the objects were stored or loaded.

       This process is explained in detail in KiokuDB::Linker.

ROOT SET MEMBERSHIP

       Any object that is passed to "store" or "insert" directly is implicitly considered a
       member of the root set.

       This flag implies that the object is an identified resource and should not be garbage
       collected with any of the proposed garbage collection schemes.

       The root flag may be modified explicitly:

           $kiokudb->set_root(@objects); # or unset_root

           $kiokudb->update(@objects);

       Lastly, root set membership may also be specified explicitly by the typemap.

       A root set member must be explicitly removed using "delete" or by removing it from the
       root set. Only non-members of the root set will be purged with any garbage collection
       scheme.

TRANSACTIONS

       On supporting backends the "txn_do" method will execute a block and commit the transaction
       at its end.

       Nesting of "txn_do" blocks is always supported, though rolling back a nested transaction
       may produce different results on different backends.

       If the backend does not support transactions "txn_do" simply executes the code block
       normally.

CONCURRENCY

       Most transactional backends are also concurrent.

       KiokuDB::Backend::BDB and KiokuDB::Backend::CouchDB default to serializable transaction
       isolation and do not suffer from deadlocks, but serialization errors may occur, aborting
       the transaction (in which case the transaction should be tried again).

       KiokuDB::Backend::Files provides good concurrency support but will only detect deadlocks
       on platforms which return "EDEADLK" from "flock".  Directory::Transactional may provide
       alternative mechanisms in the future.

       Concurrency support in KiokuDB::Backend::DBI depends on the database. SQLite defaults to
       serializable transaction isolation out of the box, wheras MySQL and PostgreSQL default to
       read committed.

       Depending on your application read committed isolation may be sufficient, but due to the
       graph structure nature of the data repeatable reads or serializable level isolation is
       highly recommended. Read committed isolation generally works well when each row in the
       database is more or less independent of others, and various constraints ensure integrity.
       Unfortunately this is not the case with the graph layout.

       To enable stronger isolation guarantees see "Transactions" in KiokuDB::Backend::DBI for
       per-database pointers.

ATTRIBUTES

       KiokuDB uses a number of delegates which do the actual work.

       Of these only "backend" is required, the rest have default definitions.

       Additional attributes that are not commonly used are listed in "INTERNAL ATTRIBUTES".

       backend
           This attribute is required.

           This must be an object that does KiokuDB::Backend.

           The backend handles storage and retrieval of entries.

       typemap
           This is an instance KiokuDB::TypeMap.

           The typemap contains entries which control how KiokuDB::Collapser and KiokuDB::Linker
           handle different types of objects.

       allow_classes
           An array references of extra classes to allow.

           Objects blessed into these classes will be collapsed using
           KiokuDB::TypeMap::Entry::Naive.

       allow_bases
           An array references of extra base classes to allow.

           Objects derived from these classes will be collapsed using
           KiokuDB::TypeMap::Entry::Naive.

       allow_class_builders
           If true adds KiokuDB::TypeMap::ClassBuilders to the merged typemap.

           It's possible to provide a hash reference of options to give to "new" in
           KiokuDB::TypeMap::ClassBuilders.

       check_class_versions
           Controls whether or not the class versions of objects are checked on load.

           Defaults to true.

       class_version_table
           A table of classes and versions that is passed to the default typemap entry for
           Moose/Class::MOP objects.

           When a class version has changed between the time that an object was stored and the
           time it's being retrieved, the data must be converted.

           See KiokuDB::TypeMap::Entry::MOP for more details.

METHODS

       connect $dsn, %args
           DWIM wrapper for "new".

           $dsn represents some sort of backend (much like DBI dsns map to DBDs).

           An example DSN is:

               my $dir = KiokuDB->connect("bdb:dir=path/to/data/");

           The backend moniker name is extracted by splitting on the colon. The rest of the
           string is passed to "new_from_dsn", which is documented in more detail in
           KiokuDB::Backend.

           Typically DSN arguments are separated by ";", with "=" separating keys and values.
           Arguments with no value are assumed to denote boolean truth (e.g.
           "jspon:dir=foo;pretty" means "dir => "foo", pretty => 1"). However, a backend may
           override the default parsing, so this is not guaranteed.

           Extra arguments are passed both to the backend constructor, and the "KiokuDB"
           constructor.

           Note that if you need a typemap you still need to pass it in:

               KiokuDB->connect( $dsn, typemap => $typemap );

           The DSN can also be a valid JSON string taking one of the following forms:

               dsn => '["dbi:SQLite:foo",{"schema":"MyApp::DB"}]'

               dsn => '{"dsn":"dbi:SQLite:foo","schema":"MyApp::DB"}'

           This allows more complicated arguments to be specified accurately, or arbitrary
           options to be specified when the backend has nonstandard DSN parsing (for instance
           KiokuDB::Backend::DBI simply passes the string to DBI, so this is necessary in order
           to specify options on the command line).

       configure $config_file, %args
           TODO

       new %args
           Creates a new directory object.

           See "ATTRIBUTES"

       new_scope
           Creates a new object scope. Handled by "live_objects".

           The object scope artificially bumps up the reference count of objects to ensure that
           they live at least as long as the scope does.

           This ensures that weak references aren't deleted prematurely, and the object graph
           doesn't get corrupted without needing to create circular structures and cleaning up
           leaks manually.

       lookup @ids
           Fetches the objects for the specified IDs from the live object set or from storage.

       store @objects
       store %objects
       store_nonroot @objects
       store_nonroot %objects
           Recursively collapses @objects and inserts or updates the entries.

           This performs a full update of every reachable object from @objects, snapshotting
           everything.

           Strings found in the object list are assumed to be IDs for the following objects.

           The "nonroot" variant will not mark the objects as members of the root set (therefore
           they will be subject to garbage collection).

       update @objects
           Performs a shallow update of @objects (referents are not updated).

           It is an error to update an object not in the database.

       deep_update @objects
           Update @objects and all of the objects they reference. All references objects must
           already be in the database.

       insert @objects
       insert %objects
       insert_nonroot @objects
       insert_nonroot %objects
           Inserts objects to the database.

           It is an error to insert objects that are already in the database, all elements of
           @objects must be new, but their referents don't have to be.

           @objects will be collapsed recursively, but the collapsing stops at known objects,
           which will not be updated.

           The "nonroot" variant will not mark the objects as members of the root set (therefore
           they will be subject to garbage collection).

       delete @objects_or_ids
           Deletes the specified objects from the store.

           Note that this can cause lookup errors if the object you are deleting is referred to
           by another object, because that link will be broken.

       set_root @objects
       unset_root @objects
           Modify the "root" flag on the associated entries.

           "update" must be called for the change to take effect.

       txn_do $code, %args
       txn_do %args
       scoped_txn $code
           Executes $code within the scope of a transaction.

           This requires that the backend supports transactions (KiokuDB::Backend::Role::TXN).

           If the backend does not support transactions, the code block will simply be invoked.

           Transactions may be nested.

           If the "scope" argument is true an implicit call to "new_scope" will be made, keeping
           the scope for the duration of the transaction.

           The return value is propagated from the code block, with handling of list/scalar/void
           context.

           "scoped_txn" is like "txn_do" but sets "scope" to true.

       txn_begin
       txn_commit
       txn_rollback
           These methods simply call the corresponding methods on the backend.

           Like "txn_do" these methods are no-ops if the backend does not support transactions.

       search \%proto
       search @args
           Searching requires a backend that supports querying.

           The "\%proto" form is currently unspecified but in the future should provide a simple
           but consistent way of looking up objects by attributes.

           The second form is backend specific querying, for instance Search::GIN::Query objects
           passed to KiokuDB::Backend::BDB::GIN or the generic GIN backend wrapper KiokuDB::GIN.

           Returns a Data::Stream::Bulk of the results.

       root_set
           Returns a Data::Stream::Bulk of all the root objects in the database.

       all_objects
           Returns a Data::Stream::Bulk of all the objects in the database.

       grep $filter
           Returns a Data::Stream::Bulk of the objects in "root_set" filtered by $filter.

       scan $callback
           Iterates the root set calling $callback for each object.

       object_to_id
       objects_to_ids
       id_to_object
       ids_to_objects
           Delegates to KiokuDB::LiveObjects

       directory
           Returns $self.

           This is used when setting up KiokuDB::Role::API delegation chains. Calling "directory"
           on any level of delegator will always return the real KiokuDB instance no matter how
           deep.

GLOBALS

       $SERIAL_IDS
           If set at compile time, the default UUID generation role will use serial IDs, instead
           of UUIDs.

           This is useful for testing, since the same IDs will be issued each run, but is utterly
           broken in the face of concurrency.

INTERNAL ATTRIBUTES

       These attributes are documented for completeness and should typically not be needed.

       collapser
           KiokuDB::Collapser

           The collapser prepares objects for storage, by creating KiokuDB::Entry objects to pass
           to the backend.

       linker
           KiokuDB::Linker

           The linker links entries into functioning instances, loading necessary dependencies
           from the backend.

       live_objects
           KiokuDB::LiveObjects

           The live object set keeps track of objects and entries for the linker and the
           resolver.

           It also creates scope objects that help ensure objects don't garbage collect too early
           ("new_scope" in KiokuDB::LiveObjects, KiokuDB::LiveObjects::Scope), and transaction
           scope objects used by "txn_do" (KiokuDB::LiveObjects::TXNScope).

       typemap_resolver
           An instance of KiokuDB::TypeMap::Resolver. Handles actual lookup and compilation of
           typemap entries, using the user typemap.

SEE ALSO

   Prior Art on the CPAN
       Pixie
       DBM::Deep
       OOPS
       Tangram
       DBIx::Class
           Polymorphic retrieval is possible with DBIx::Class::DynamicSubclass

       Fey::ORM
       MooseX::Storage

VERSION CONTROL

       KiokuDB is maintained using Git. Information about the repository is available on
       <http://www.iinteractive.com/kiokudb/>

AUTHOR

       Yuval Kogman <nothingmuch@woobling.org>

COPYRIGHT AND LICENSE

       This software is copyright (c) 2013 by Yuval Kogman, Infinity Interactive.

       This is free software; you can redistribute it and/or modify it under the same terms as
       the Perl 5 programming language system itself.