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A pythonic interface to the LevelDB database.

Project description

A pythonic interface to the LevelDB database.

About

LevelPy is a project that does not directly access a LevelDB instance, but intends to be a thin wrapper around other implementations, providing a simple and pythonic interface to the lower level database.

LevelPy alone does *NOT* provide access to a database, nor does it declare one as a dependency. It is up to YOU to choose and install such a package.

In addition to the pythonic interface, LevelPy database objects adhere to the LevelDB API, which uses uppercase methods such as ‘Get’. Any objects which provide this interface interacts directly to the underlying database object, so these expect python bytes objects for keys and values.

Usage

Constructor

To create a ‘connection’ to a leveldb database, use the LevelPy.LevelDB class, providing a path and, optionally, the full classname (package + class) of the backend to use. The default class is leveldb.LevelDB, using the py-leveldb interface.

You can also give a class as the second parameter, which is interpreted to be the type of the connection to create. This is called with the path and expanded keyword arguments. Similarly, any callable can be used as the second parameter, and the constructor will forward the path and any keyword arguments to it (the database instance MUST be returned by the function).

Alternatively, you can create a separate leveldb connection and pass this to the levelpy.LevelDB constructor. If the first parameter is not a string, it is assumed to be an (already connected) backend, and the ‘backend class’ parameter is ignored.

examples:

from levelpy import LevelDB

db = LevelDB('/path/to/db')  # use the default leveldb.LevelDB backend
--------------------
db = LevelDB('/path/to/db', 'plyvel.DB', error_if_exists=True)  # use the Plyvel backend w/ keyword
--------------------
db = LevelDB('/path/to/db', 'my.custom.leveldb.DATABASE')  # use your own backend
--------------------
cls = leveldb.LevelDB
db = LevelDB('/path/to/db', cls)  # use a specific class to create an instance
--------------------
db = LevelDB(cnx)  # use an already created leveldb connection (backend string is ignored)

levelpy.LevelDB will import the package and store an instance of this class, forwarding any keyword arguments to the constructor.

Of course, there is no absolute standard interface so there is no guarantee that all implementations will work. Currently this class assumes that all the standard functionality of the original implementation of leveldb is exposed as capitalized method names: db.Get(...) db.Put(...) etc. LevelPy’s LevelDB class aliases these methods to expose a 1-1 interface of the wrapper and backend (if they exist). If the backend you wish to use has a different convention, simply set the aliased methods after creating the connection: db.Get = db._db.retrieve_value (access the backend database is provided by the _db attribute).

Access

As LevelDB is really just a big key-value store, LevelPy implements a dict-interface to the database (using the [] operators).

item = db['itemkey'] # store value with key 'itemkey' as item
db['something'] = 'else' # store value 'else' with key 'something'

a_to_b = db['a':'b']  # get all items between 'a' and 'b' (inclusive)

has_5 = '5' in db  # tests if '5' is a key in the database

As mentioned in Constructor, such access is also provided by the Get & Put members.

Iteration

Keeping the database dictlike, LevelPy exposes the methods items(), keys(), values(), which provides generators to iterate over the expected items.

keystr = ' '.join(key for key in db.keys())

for k, v in db.items():
    print(k, '->', v)

Classes

Levelpy introduces some specialized classes to solve common problems while working with the database.

LevelDB

LevelDB is the main class responsible for loading and querying the database. A “real” leveldb library/class must be used to actually handle the file io. To make your own, simply write a class that implements the LevelDB API.

Views

Views are read-only structures that are built with a prefix which is automatically added to any request. Views may contain other views, creating smaller slices of the full database.

Views provide the levelpy reading-interface: get and iteration.

Sublevels

Sublevels are like views but provide full read-write support to the database. The user may create sublevels within a sublevel for more specific requests. Views may be created from sublevels, but a sublevel cannot be created from a view, as they are read only.

Sublevels provide the levelpy read and write interfaces: get, put, delete, iteration, batch writes.

Serializer

LevelDB requires keys and values in the database to be python byte objects, so all other types (such as strings) must be encoded to bytes upon request or storage. LevelPy provides a serialization module with functions that implement various encoding/decoding schemes. Most LevelPy database objects have a value_encoding parameter in the constructor; if this is a string, it searches the Serializer.transform_dict dictionary for the encode/decode pair with the string. Alternatively, you can supply a tuple of 2 callables which encode incoming objects to bytes, and decode bytes into objects. This, mixed with sublevels, provide an excelent method to store countless different types in a single database, with automatic type retrieval.

By default the Serializer provides string encoding (“utf8”), trivial binary encoding (“bin”), arbitrary json object encoding for dicts (“json”), and the more efficient msgpack serialization library (“msgpack”, must be installed seperately)

Custom serialization keys may be added to the transform_dict, for easy access to custom serializations. It is recommended to call Serializer.update() after modifying the transform_dict, which updates the Serializer’s encode and decode dictionaries.

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