Table Of Contents
- Storage
- Usage
- Examples
- Synchronous / Asynchronous API
- Synchronous container type
AbstractStore
AbstractStore.async_clear()
AbstractStore.async_count()
AbstractStore.async_delete()
AbstractStore.async_exists()
AbstractStore.async_find()
AbstractStore.async_get()
AbstractStore.async_keys()
AbstractStore.async_put()
AbstractStore.clear()
AbstractStore.count()
AbstractStore.delete()
AbstractStore.exists()
AbstractStore.find()
AbstractStore.get()
AbstractStore.keys()
AbstractStore.put()
Storage¶
New in version 1.7.0.
Warning
This module is still experimental, and the API is subject to change in a future version.
Usage¶
The idea behind the Storage module is to be able to load/store any number of key-value pairs via an indexed key. The default model is abstract so you cannot use it directly. We provide some implementations such as:
kivy.storage.dictstore.DictStore
: use a python dict as a storekivy.storage.jsonstore.JsonStore
: use a JSON file as a storekivy.storage.redisstore.RedisStore
: use a Redis database with redis-py
Examples¶
For example, let’s use a JsonStore:
from kivy.storage.jsonstore import JsonStore
store = JsonStore('hello.json')
# put some values
store.put('tito', name='Mathieu', org='kivy')
store.put('tshirtman', name='Gabriel', age=27)
# using the same index key erases all previously added key-value pairs
store.put('tito', name='Mathieu', age=30)
# get a value using a index key and key
print('tito is', store.get('tito')['age'])
# or guess the key/entry for a part of the key
for item in store.find(name='Gabriel'):
print('tshirtmans index key is', item[0])
print('his key value pairs are', str(item[1]))
Because the data is persistent, you can check later to see if the key exists:
from kivy.storage.jsonstore import JsonStore
store = JsonStore('hello.json')
if store.exists('tito'):
print('tite exists:', store.get('tito'))
store.delete('tito')
Synchronous / Asynchronous API¶
All the standard methods (get()
,
put()
, exists()
,
delete()
, find()
) have an
asynchronous version.
For example, the get method has a callback parameter. If set, the callback will be used to return the result to the user when available: the request will be asynchronous. If the callback is None, then the request will be synchronous and the result will be returned directly.
Without callback (Synchronous API):
entry = mystore.get('tito')
print('tito =', entry)
With callback (Asynchronous API):
def my_callback(store, key, result):
print('the key', key, 'has a value of', result)
mystore.get('plop', callback=my_callback)
The callback signature (for almost all methods) is:
def callback(store, key, result):
"""
store: the `Store` instance currently used.
key: the key sought for.
result: the result of the lookup for the key.
"""
Synchronous container type¶
The storage API emulates the container type for the synchronous API:
store = JsonStore('hello.json')
# original: store.get('tito')
store['tito']
# original: store.put('tito', name='Mathieu')
store['tito'] = {'name': 'Mathieu'}
# original: store.delete('tito')
del store['tito']
# original: store.count()
len(store)
# original: store.exists('tito')
'tito' in store
# original: for key in store.keys()
for key in store:
pass
- class kivy.storage.AbstractStore(**kwargs)[source]¶
Bases:
kivy.event.EventDispatcher
Abstract class used to implement a Store
- async_delete(callback, key)[source]¶
Asynchronous version of
delete()
.- Callback arguments:
- store:
AbstractStore
instance Store instance
- key: string
Name of the key to search for
- result: bool
Indicate True if the storage has been updated, or False if nothing has been done (no changes). None if any error.
- store:
- async_exists(callback, key)[source]¶
Asynchronous version of
exists()
.- Callback arguments:
- store:
AbstractStore
instance Store instance
- key: string
Name of the key to search for
- result: boo
Result of the query, None if any error
- store:
- async_find(callback, **filters)[source]¶
Asynchronous version of
find()
.The callback will be called for each entry in the result.
- Callback arguments:
- store:
AbstractStore
instance Store instance
- key: string
Name of the key to search for, or None if we reach the end of the results
- result: bool
Indicate True if the storage has been updated, or False if nothing has been done (no changes). None if any error.
- store:
- async_get(callback, key)[source]¶
Asynchronous version of
get()
.- Callback arguments:
- store:
AbstractStore
instance Store instance
- key: string
Name of the key to search for
- result: dict
Result of the query, None if any error
- store:
- async_put(callback, key, **values)[source]¶
Asynchronous version of
put()
.- Callback arguments:
- store:
AbstractStore
instance Store instance
- key: string
Name of the key to search for
- result: bool
Indicate True if the storage has been updated, or False if nothing has been done (no changes). None if any error.
- store:
- delete(key)[source]¶
Delete a key from the storage. If the key is not found, a KeyError exception will be thrown.
- find(**filters)[source]¶
Return all the entries matching the filters. The entries are returned through a generator as a list of (key, entry) pairs where entry is a dict of key-value pairs
for key, entry in store.find(name='Mathieu'): print('key:', key, ', entry:', entry)
Because it’s a generator, you cannot directly use it as a list. You can do:
# get all the (key, entry) availables entries = list(store.find(name='Mathieu')) # get only the entry from (key, entry) entries = list((x[1] for x in store.find(name='Mathieu')))