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MongoDB connection pool and container implementation for Zope3

Project description

This package provides a mongodb object mapper framework including zope
transaction support based on some core zope component libraries. This package
can get used with or without zope.persistent and as a full replacement for the
ZODB. The package is not heavy based on zope itself and can get used in any
python project which requires a bridge from mongodb to python object.


======
README
======

IMPORTANT:
If you run the tests with the --all option a real mongodb stub server will
start at port 45017!

This package provides non persistent MongoDB object implementations. They can
simply get mixed with persistent.Persistent and contained.Contained if you like
to use them in a mixed MongoDB/ZODB application setup. We currently use this
framework as ORM (object relation mapper) where we map MongoDB objects
to python/zope schema based objects including validation etc.

In our last project, we started with a mixed ZODB/MongoDB application where we
mixed persistent.persistent into IMongoContainer objects. But later we where
so exited about the performance and stability that we removed the ZODB
persistence layer at all. Now we use a ZODB less setup in our application
where we start with a non persistent item as our application root. All required
tools where we use for such a ZODB less application setup are located in the
m01.publisher and p01.recipe.setup package.

NOTE: Some of this test use a fake mongodb located in m01/mongo/testing and some
other tests will use our mongdb stub from the m01.stub package. You can run
the tests with the --all option if you like to run the full tests which will
start and stop the mongodb stub server.

NOTE:
All mongo item interfaces will not provide ILocation or IContained but the
bass mongo item implementations will implement Location which provides the
ILocation interface directly. This makes it simpler for permission
declaration in ZCML.


Testing
-------

>>> import zope.component
>>> from m01.mongo import interfaces
>>> from m01.mongo import getMongoDBConnection
>>> from m01.mongo.pool import MongoConnectionPool


MongoConnectionPool
--------------------

We need to setup a mongo connection pool. We can do this with a global utility
configuration. Note we use a different port with our stub server setup:

>>> mongoConnectionPool = MongoConnectionPool('localhost', 45020)
>>> zope.component.provideUtility(mongoConnectionPool,
... interfaces.IMongoConnectionPool, name='m01.mongo.testing')

The connection pool stores the connection in threading local.


MongoClient
-----------

Now we are able to get a connection pool:

>>> pool = zope.component.getUtility(interfaces.IMongoConnectionPool,
... name='m01.mongo.testing')

Such a pool knows the connection which is observed by thread local:

>>> conn1 = pool.connection
>>> conn1
MongoClient('localhost', 45020)

We can also use the getMongoDBConnection which knows how to get a connection:

>>> conn = getMongoDBConnection('m01.mongo.testing')
>>> conn
MongoClient('localhost', 45020)

As you can see the connection is able to access the database:

>>> db = conn.m01MongoTesting
>>> db
Database(MongoClient('localhost', 45020), u'm01MongoTesting')

A data base can retrun a collection:

>>> collection = db['m01MongoTest']
>>> collection
Collection(Database(MongoClient('localhost', 45020), u'm01MongoTesting'), u'm01MongoTest')

As you can see we can write to the collection:

>>> collection.update({'_id': '123'}, {'$inc': {'counter': 1}}, upsert=True)
{u'updatedExisting': False, u'connectionId': 2, u'ok': 1.0, u'err': None, u'n': 1}

And we can read from the collection:

>>> collection.find_one({'_id': '123'})
{u'_id': u'123', u'counter': 1}

Remove the result from our test collection:

>>> collection.remove({'_id': '123'})
{u'connectionId': 2, u'ok': 1.0, u'err': None, u'n': 1}


issues
------

The following concept brings mongodb to crash in one of our projects. Just try
to reproduce it here. but it seems to work as it should:

>>> import datetime
>>> import bson.son
>>> import bson.objectid
>>> import m01.mongo
>>> from m01.mongo import UTC
>>> def createAnswer():
... _id = bson.objectid.ObjectId()
... return {'_id': _id,
... '_type': u'DiscussionAnswer',
... 'comment': u"I don't know",
... 'created': datetime.datetime(2012, 5, 25, 2, 8, 13, 253000, tzinfo=UTC),
... 'fullName': u'Alannis Brauer',
... 'nickName': 'alannis.brauer',
... 'pid': u'4fbee89d7a933127cc0017b2',
... 'text': u'Let me google that for you http://lmgtfy.com/?q=what+is+xeebo'}

>>> def createQuestion(idx):
... _id = m01.mongo.getObjectId(idx)
... a1 = createAnswer()
... a2 = createAnswer()
... return {'__name__': unicode(_id),
... '_id': _id,
... '_type': u'DiscussionQuestion',
... '_version': 1,
... 'answers': [
... bson.son.SON(a1),
... bson.son.SON(a2)
... ],
... 'changed': True,
... 'country': u'CHE',
... 'created': datetime.datetime(2012, 5, 25, 2, 8, 13, 252000, tzinfo=UTC),
... 'description': u'I like to ask the following question: What is xeebo',
... 'fullName': u'Emily EMILY',
... 'language': u'en',
... 'modified': datetime.datetime(2012, 5, 25, 2, 10, 7, 863000, tzinfo=UTC),
... 'nickName': 'emily.emily',
... 'pid': u'4fbee8a07a933127cc002bd4',
... 'removed': False,
... 'title': u'What is xeebo',
... 'topicNames': ['admin', 'xeebo'],
... }

>>> idx = 0
>>> data = []
>>> for i in range(300):
... qData = createQuestion(idx)
... data.append(bson.son.SON(qData))
... idx += 1

>>> manipulate = False
>>> safe = False
>>> check_keys = True
>>> res = collection.insert(data, manipulate, safe, check_keys)

>>> key = unicode(data[0]['__name__'])
>>> key
u'000000000000000000000000'

>>> res = collection.find_one({'__name__': key})
>>> m01.mongo.testing.reNormalizer.pprint(res)
{u'__name__': u'000000000000000000000000',
u'_id': ObjectId('...'),
u'_type': u'DiscussionQuestion',
u'_version': 1,
u'answers': [{u'_id': ObjectId('...'),
u'_type': u'DiscussionAnswer',
u'comment': u"I don't know",
u'created': datetime(..., tzinfo=<bson.tz_util.FixedOffset ...>),
u'fullName': u'Alannis Brauer',
u'nickName': u'alannis.brauer',
u'pid': u'4fbee89d7a933127cc0017b2',
u'text': u'Let me google that for you http://lmgtfy.com/?q=what+is+xeebo'},
{u'_id': ObjectId('...'),
u'_type': u'DiscussionAnswer',
u'comment': u"I don't know",
u'created': datetime(..., tzinfo=<bson.tz_util.FixedOffset ...>),
u'fullName': u'Alannis Brauer',
u'nickName': u'alannis.brauer',
u'pid': u'4fbee89d7a933127cc0017b2',
u'text': u'Let me google that for you http://lmgtfy.com/?q=what+is+xeebo'}],
u'changed': True,
u'country': u'CHE',
u'created': datetime(..., tzinfo=<bson.tz_util.FixedOffset ...>),
u'description': u'I like to ask the following question: What is xeebo',
u'fullName': u'Emily EMILY',
u'language': u'en',
u'modified': datetime(..., tzinfo=<bson.tz_util.FixedOffset ...>),
u'nickName': u'emily.emily',
u'pid': u'4fbee8a07a933127cc002bd4',
u'removed': False,
u'title': u'What is xeebo',
u'topicNames': [u'admin', u'xeebo']}

>>> collection.remove({'__name__': key})
{u'connectionId': 2, u'ok': 1.0, u'err': None, u'n': 1}


tear down
---------

Now tear down our MongoDB database with our current MongoDB connection:

>>> import time
>>> time.sleep(1)
>>> conn.drop_database('m01MongoTesting')


==============
MongoContainer
==============

The MongoContainer can store non persistent IMongoContainerItem objects in a
MongoDB. A MongoContainerItem must be able to dump it's data to valid mongo
values. This test will show how our MongoContainer works.


Condition
---------

Befor we start testing, check if our thread local cache is empty or if we have
left over some junk from previous tests:

>>> from m01.mongo.testing import pprint
>>> from m01.mongo import LOCAL
>>> pprint(LOCAL.__dict__)
{}


Setup
-----

First import some components:

>>> import datetime
>>> import transaction

>>> import m01.mongo
>>> import m01.mongo.base
>>> import m01.mongo.container
>>> from m01.mongo import interfaces
>>> from m01.mongo import testing

We also need a application root object. Let's define a static MongoContainer
as our application database root item.

>>> class MongoRoot(m01.mongo.container.MongoContainer):
... """Mongo application root"""
...
... _id = m01.mongo.getObjectId(0)
...
... def __init__(self):
... pass
...
... @property
... def collection(self):
... return testing.getRootItems()
...
... @property
... def cacheKey(self):
... return 'root'
...
... def load(self, data):
... """Load data into the right mongo item."""
... return testing.Companies(data)
...
... def __repr__(self):
... return '<%s %s>' % (self.__class__.__name__, self._id)


As you can see our MongoRoot class defines a static mongo ObjectID as _id. This
means the same _id get use every time. This _id acts as our __parent__
reference.

The following method allows us to generate new MongoRoot item instances. This
allows us to show that we generate different root items like we would do on a
server restart.

>>> def getRoot():
... return MongoRoot()

Here is our database root item:

>>> root = getRoot()
>>> root
<MongoRoot 000000000000000000000000>

>>> root._id
ObjectId('000000000000000000000000')


MongoContainer
--------------

Now let's use our enhanced testing data and setup a content structure:

>>> data = {'name': u'Europe'}
>>> europe = testing.Companies(data)
>>> root[u'europe'] = europe

>>> data = {'name': u'Asia'}
>>> asia = testing.Companies(data)
>>> root[u'asia'] = asia

>>> transaction.commit()

Let's check our companies in Mongo:

>>> rootCollection = testing.getRootItems()
>>> obj = rootCollection.find_one({'name': 'Europe'})
>>> pprint(obj)
{u'__name__': u'europe',
u'_id': ObjectId('...'),
u'_pid': ObjectId('000000000000000000000000'),
u'_type': u'Companies',
u'_version': 1,
u'created': datetime.datetime(...),
u'modified': datetime.datetime(...),
u'name': u'Europe'}

Now let's add a Company, Employer and some documents:

>>> data = {'name': u'Projekt01 GmbH'}
>>> m01 = testing.Company(data)
>>> europe[u'm01'] = m01

>>> data = {'name': u'Roger Ineichen'}
>>> roger = testing.Employer(data)
>>> m01[u'roger'] = roger

>>> data = {'name': u'Manual'}
>>> manual = testing.Document(data)
>>> roger[u'manual'] = manual

>>> transaction.commit()

As you can see we added a data structure using our container, item objects:

>>> root['europe']
<Companies u'europe'>

>>> root['europe']['m01']
<Company u'm01'>

>>> root['europe']['m01']['roger']
<Employer u'roger'>

>>> root['europe']['m01']['roger']['manual']
<Document u'manual'>

As you can see this structure is related to their __parent__ references. This
means if we add another structure into the same mongodb, each item knows it's
container.

>>> data = {'name': u'Credit Suisse'}
>>> cs = testing.Company(data)
>>> asia[u'cs'] = cs

>>> data = {'name': u'Max Muster'}
>>> max = testing.Employer(data)
>>> cs[u'max'] = max

>>> data = {'name': u'Paper'}
>>> paper = testing.Document(data)
>>> max[u'paper'] = paper

>>> transaction.commit()

>>> pprint(LOCAL.__dict__)
{}

>>> root['asia']
<Companies u'asia'>

>>> root['asia']['cs']
<Company u'cs'>

>>> root['asia']['cs']['max']
<Employer u'max'>

>>> root['asia']['cs']['max']['paper']
<Document u'paper'>

>>> transaction.commit()

We can't access another item from the same type from another parent container:

>>> pprint(LOCAL.__dict__)
{}

>>> eu = root['europe']

>>> transaction.commit()

>>> pprint(LOCAL.__dict__)
{}

>>> eu['cs']
Traceback (most recent call last):
...
KeyError: 'cs'

>>> transaction.commit()

As you can see the KeyError left items back in our thread local cache. We can
use our thread local cache cleanup event handler which is by default registered
as an EndRequestEvent subscriber for cleanup our thread local cache:

>>> pprint(LOCAL.__dict__)
{u'europe': {'loaded': {}, 'removed': {}}}

Let's use our subscriber:

>>> from m01.mongo import clearThreadLocalCache
>>> clearThreadLocalCache()

As you can see our cache items get removed:

>>> from m01.mongo import LOCAL
>>> pprint(LOCAL.__dict__)
{}


============
MongoStorage
============

The MongoStorage can store non persistent IMongoStorageItem objects in a
MongoDB. A MongoStorageItem must be able to dump it's data to valid mongo
values. This test will show how our MongoStorage works and also shows the
limitations.

Note, this test uses a fake MongoDB server setup. But this fake server is far
away from beeing complete. We will add more feature to this fake server if we
need them in other projects. See testing.py for more information.


Condition
---------

Befor we start testing, check if our thread local cache is empty or if we have
let over some junk from previous tests:

>>> from m01.mongo import LOCAL
>>> from m01.mongo.testing import pprint
>>> pprint(LOCAL.__dict__)
{}


Setup
-----

First import some components:

>>> import datetime
>>> import transaction
>>> from zope.container.interfaces import IReadContainer
>>> from m01.mongo import interfaces
>>> from m01.mongo import pool
>>> from m01.mongo import testing

And set up a database root:

>>> root = {}


MongoStorageItem
----------------

The mongo item provides by default a ObjectId stored as _id. If there is none
given during create an object, we will set one:

>>> data = {}
>>> obj = testing.SampleStorageItem(data)
>>> obj._id
ObjectId('...')

The ObjectId is also use as our __name__ value. See the MongoContainer and
MongoContainerItem implementation if you need to choose your own names:

>>> obj.__name__
u'...'

>>> obj.__name__ == unicode(obj._id)
True

A mongo item also provides created and modified date attributes. If we
initialize an object without a given created date, a new utc datetime instance
get used:

>>> obj.created
datetime.datetime(2...)

>>> obj.modified is None
True

A mongo storage item knows if a state get changed. This means we can find out
if we should write the item back to the MongoDB. The MongoItem stores the state
in a _m_changed value like persistent objects do in _p_changed. As you can see
the initial state is ```None``:

>>> obj._m_changed is None
True

The MongoItem also has a version number which we increment each time we change
the item. By default this version is set as _version attribute and set by
default to 0 (zero):

>>> obj._version
0

If we change a value in a MongoItem, the state get changed:

>>> obj.title = u'New Title'
>>> obj._m_changed
True

but the version get not imcremented. We only imcrement the version if we save
the item in MongoDB:

>>> obj._version
0

We also change the _m_change marker if we remove a value:

>>> obj = testing.SampleStorageItem(data)
>>> obj._m_changed is None
True

>>> obj.title
u''

>>> obj.title = u'New Title'
>>> obj._m_changed
True

>>> obj.title
u'New Title'

Now let's set the _m_chande property set to False before we delete the attr:

>>> obj._m_changed = False
>>> obj._m_changed
False

>>> del obj.title

As you can see we can delete an attribute but it only falls back to the default
schema field value. This seems fine.

>>> obj.title
u''

>>> obj._m_changed
True


MongoStorage
------------

Now we can add a MongoStorage to the zope datbase:

>>> storage = testing.SampleStorage()
>>> root['storage'] = storage
>>> transaction.commit()

Now we can add a sample MongoStorageItem to our storage. Note we can only use the
add method which will return the new generated __name__. Using own names is not
supported by this implementation. As you can see the name is an MongoDB
24 hex character string objectId representation.

>>> data = {'title': u'Title',
... 'description': u'Description'}
>>> item = testing.SampleStorageItem(data)
>>> storage = root['storage']

Our storage provides the IMongoStorage and IReadContainer interfaces:

>>> interfaces.IMongoStorage.providedBy(storage)
True

>>> IReadContainer.providedBy(storage)
True


add
---

We can add a mongo item to our storage by using the add method.

>>> __name__ = storage.add(item)
>>> __name__
u'...'
>>> len(__name__)
24

>>> transaction.commit()

After adding our item, the item provides a created date:

>>> item.created
datetime.datetime(...)


__len__
-------

>>> storage = root['storage']
>>> len(storage)
1


__getitem__
-----------

>>> item = storage[__name__]
>>> item
<SampleStorageItem ...>

As you can see our MongoStorageItem provides the following data. We can dump
the item. Note, you probaly have to implement a custom dump method which will
dump the right data for you MongoStorageItem.

>>> pprint(item.dump())
{'__name__': u'...',
'_id': ObjectId('...'),
'_type': u'SampleStorageItem',
'_version': 1,
'comments': [],
'created': datetime.datetime(...),
'description': u'Description',
'modified': datetime.datetime(...),
'numbers': [],
'title': u'Title'}

The object provides also a name which is the name we've got during adding the
object:

>>> item.__name__ == __name__
True


keys
----

The container can also return key:

>>> tuple(storage.keys())
(u'...',)


values
------

The container can also return values:

>>> tuple(storage.values())
(<SampleStorageItem ...>,)

items
-----

The container can also return items:

>>> tuple(storage.items())
((u'...', <SampleStorageItem ...>),)


__delitem__
------------

As next we will remove the item:

>>> del storage[__name__]
>>> storage.get(__name__) is None
True

>>> transaction.commit()


Object modification
-------------------

If we get a mongo item from a storage and modify the item, the version get
increased by one and a current modified datetime get set.

Let's add a new item:

>>> data = {'title': u'A Title',
... 'description': u'A Description'}
>>> item = testing.SampleStorageItem(data)
>>> __name__ = storage.add(item)
>>> transaction.commit()

Now get the item::

>>> item = storage[__name__]
>>> item.title
u'A Title'

and change the titel:

>>> item.title = u'New Title'
>>> item.title
u'New Title'

As you can see the item get marked as changed:

>>> item._m_changed
True

Now get the mongo item version. This should be set to 1 (one) since we only
added the object and didn't change since we added them:

>>> item._version
1

If we now commit the transaction, the version get increased by one:

>>> transaction.commit()
>>> item._version
2

If you now load the mongo item from the MongoDB aain, you can see that the
title get changed:

>>> item = storage[__name__]
>>> item.title
u'New Title'

And that the version get updated to 2:

>>> item._version
2

>>> transaction.commit()

Check our thread local cache before we leave this test:

>>> pprint(LOCAL.__dict__)
{}


=====================
Shared MongoContainer
=====================

The MongoContainer can store non persistent IMongoContainerItem objects in a
MongoDB. A MongoContainerItem must be able to dump it's data to valid mongo
values. This test will show how our MongoContainer works.


Condition
---------

Befor we start testing, check if our thread local cache is empty or if we have
let over some junk from previous tests:

>>> from m01.mongo.testing import pprint
>>> from m01.mongo import LOCAL
>>> pprint(LOCAL.__dict__)
{}


Setup
-----

First import some components:

>>> import datetime
>>> import transaction
>>> from zope.container.interfaces import IContainer

>>> import m01.mongo
>>> import m01.mongo.base
>>> import m01.mongo.container
>>> from m01.mongo import interfaces
>>> from m01.mongo import testing

We also need a application root object. Let's define a static MongoContainer
as our application database root item.

>>> class MongoRoot(m01.mongo.container.MongoContainer):
... """Mongo application root"""
...
... _id = m01.mongo.getObjectId(0)
...
... def __init__(self):
... pass
...
... @property
... def collection(self):
... return testing.getRootItems()
...
... @property
... def cacheKey(self):
... return 'root'
...
... def load(self, data):
... """Load data into the right mongo item."""
... return testing.Companies(data)
...
... def __repr__(self):
... return '<%s %s>' % (self.__class__.__name__, self._id)


As you can see our MongoRoot class defines a static mongo ObjectID as _id. This
means the same _id get use every time. This _id acts as our __parent__
reference.

The following method allows us to generate new MongoRoot item instances. This
allows us to show that we generate different root items like we would do on a
server restart.

>>> def getRoot():
... return MongoRoot()

Here is our database root item:

>>> root = getRoot()
>>> root
<MongoRoot 000000000000000000000000>

>>> root._id
ObjectId('000000000000000000000000')


Containers
----------

Now let's use our enhanced testing data and setup a content structure:

>>> data = {'name': u'Europe'}
>>> europe = testing.Companies(data)
>>> root[u'europe'] = europe

>>> data = {'name': u'Asia'}
>>> asia = testing.Companies(data)
>>> root[u'asia'] = asia

>>> transaction.commit()

Let's check our companies in Mongo:

>>> rootCollection = testing.getRootItems()
>>> obj = rootCollection.find_one({'name': 'Europe'})
>>> pprint(obj)
{u'__name__': u'europe',
u'_id': ObjectId('...'),
u'_pid': ObjectId('000000000000000000000000'),
u'_type': u'Companies',
u'_version': 1,
u'created': datetime.datetime(...),
u'modified': datetime.datetime(...),
u'name': u'Europe'}

Now let's add a Company, Employer and some documents:

>>> data = {'name': u'Projekt01 GmbH'}
>>> pro = testing.Company(data)
>>> europe[u'pro'] = pro

>>> data = {'name': u'Roger Ineichen'}
>>> roger = testing.Employer(data)
>>> pro[u'roger'] = roger

>>> data = {'name': u'Manual'}
>>> manual = testing.Document(data)
>>> roger[u'manual'] = manual

>>> transaction.commit()

As you can see we added a data structure using our container, item objects:

>>> root['europe']
<Companies u'europe'>

>>> root['europe']['pro']
<Company u'pro'>

>>> root['europe']['pro']['roger']
<Employer u'roger'>

>>> root['europe']['pro']['roger']['manual']
<Document u'manual'>

As you can see this structure is related to their __parent__ references. This
means if we add another structure into the same mongodb, each item knows it's
container.

>>> data = {'name': u'Credit Suisse'}
>>> cs = testing.Company(data)
>>> asia[u'cs'] = cs

>>> data = {'name': u'Max Muster'}
>>> max = testing.Employer(data)
>>> cs[u'max'] = max

>>> data = {'name': u'Paper'}
>>> paper = testing.Document(data)
>>> max[u'paper'] = paper

>>> transaction.commit()

>>> root['asia']
<Companies u'asia'>

>>> root['asia']['cs']
<Company u'cs'>

>>> root['asia']['cs']['max']
<Employer u'max'>

>>> root['asia']['cs']['max']['paper']
<Document u'paper'>

We can't access another item from the same type from another parent container:

>>> root['europe']['cs']
Traceback (most recent call last):
...
KeyError: 'cs'

>>> transaction.commit()

As you can see the KeyError left items back in our thread local cache. We can
use our thread local cache cleanup event handler which is by default registered
as an EndRequestEvent subscriber for cleanup our thread local cache:

>>> pprint(LOCAL.__dict__)
{u'europe': {'loaded': {}, 'removed': {}}}

Let's use our subscriber:

>>> from m01.mongo import clearThreadLocalCache
>>> clearThreadLocalCache()

As you can see our cache items get removed:

>>> from m01.mongo import LOCAL
>>> pprint(LOCAL.__dict__)
{}


Shared Container
----------------

Now let's implement a shared container which contains all IEmployer items:

>>> class SharedEployers(m01.mongo.container.MongoContainer):
... """Shared Employer container"""
...
... # mark a container as shared by set the _mpid to None
... _mpid = None
...
... @property
... def collection(self):
... return testing.getEmployers()
...
... def load(self, data):
... return testing.Employer(data)

Now let's try if the shared container can access all Employer items:

>>> shared = SharedEployers()
>>> pprint(tuple(shared.items()))
((u'roger', <Employer u'roger'>), (u'max', <Employer u'max'>))

>>> for obj in shared.values():
... pprint(obj.dump())
{'__name__': u'roger',
'_id': ObjectId('...'),
'_pid': ObjectId('...'),
'_type': u'Employer',
'_version': 1,
'created': datetime.datetime(...),
'modified': datetime.datetime(...),
'name': u'Roger Ineichen'}
{'__name__': u'max',
'_id': ObjectId('...'),
'_pid': ObjectId('...'),
'_type': u'Employer',
'_version': 1,
'created': datetime.datetime(...),
'modified': datetime.datetime(...),
'name': u'Max Muster'}

Now commit our transaction which will cleanup our caches. Database cleanup is
done in our test teardown:

>>> transaction.commit()

Check our thread local cache before we leave this test:

>>> pprint(LOCAL.__dict__)
{}


===========
MongoObject
===========

A MongoObject can get stored independent from anything else in a MongoDB. Such
MongoObject can get used together with a field property called
MongoOjectProperty. The field property is responsible for set and get such
MongoObject to and from MongoDB. A persistent item which provides such a
MongoObject within a MongoObjectProperty only has to provide an oid attribute
with a unique value. You can use the m01.oid package for such a unique oid
or implement an own pattern.

The MongoObject uses the __parent__._moid and the attribute (field) name as
it's unique MongoDB key.

Note, this test uses a fake MongoDB server setup. But this fake server is far
away from beeing complete. We will add more feature to this fake server if we
need them in other projects. See testing.py for more information.


Condition
---------

Befor we start testing, check if our thread local cache is empty or if we have
let over some junk from previous tests:

>>> from m01.mongo.testing import pprint
>>> from m01.mongo import LOCAL
>>> pprint(LOCAL.__dict__)
{}


Setup
-----

First import some components:

>>> import datetime
>>> import transaction
>>> from m01.mongo import interfaces
>>> from m01.mongo import pool
>>> from m01.mongo import testing

First, we need to setup a persistent object:

>>> content = testing.Content(42)
>>> content._moid
42

And add them to the ZODB:

>>> root = {}
>>> root['content'] = content
>>> transaction.commit()

>>> content = root['content']
>>> content
<Content 42>


MongoObject
-----------

Now let's add a MongoObject instance to our sample content object:

>>> data = {'title': u'Mongo Object Title',
... 'description': u'A Description',
... 'item': {'text':u'Item'},
... 'date': datetime.date(2010, 2, 28).toordinal(),
... 'numbers': [1,2,3],
... 'comments': [{'text':u'Comment 1'}, {'text':u'Comment 2'}]}
>>> obj = testing.SampleMongoObject(data)
>>> obj._id
ObjectId('...')

obj.title
u'Mongo Object Title'

>>> obj.description
u'A Description'

>>> obj.item
<SampleSubItem u'...'>

>>> obj.item.text
u'Item'

>>> obj.numbers
[1, 2, 3]

>>> obj.comments
[<SampleSubItem u'...'>, <SampleSubItem u'...'>]

>>> tuple(obj.comments)[0].text
u'Comment 1'

>>> tuple(obj.comments)[1].text
u'Comment 2'

Our MongoObject doesn't provide a _aprent__ or __name__ right now:

>>> obj.__parent__ is None
True

>>> obj.__name__ is None
True

But after adding the mongo object to our content which uses a
MongoObjectProperty, the mongo object get located and becomes the attribute
name as _field value. If the object didn't provide a __name__, the same value
will also get applied for __name__:

>>> content.obj = obj
>>> obj.__parent__
<Content 42>

>>> obj.__name__
u'obj'

>>> obj.__name__
u'obj'

After adding our mongo object, there should be a reference in our thread local
cache:

>>> pprint(LOCAL.__dict__)
{u'42:obj': <SampleMongoObject u'obj'>,
'MongoTransactionDataManager': <m01.mongo.tm.MongoTransactionDataManager object at ...>}

A MongoObject provides a _oid attribute which is used as the MongoDB key. This
value uses the __parent__._moid and the mongo objects attribute name:

>>> obj._oid == '%s:%s' % (content._moid, obj.__name__)
True

>>> obj._oid
u'42:obj'

Now check if we can get the mongo object again and if we still get the same
values:

>>> obj = content.obj
>>> obj.title
u'Mongo Object Title'

>>> obj.description
u'A Description'

>>> obj.item
<SampleSubItem u'...'>

>>> obj.item.text
u'Item'

>>> obj.numbers
[1, 2, 3]

>>> obj.comments
[<SampleSubItem u'...'>, <SampleSubItem u'...'>]

>>> tuple(obj.comments)[0].text
u'Comment 1'

>>> tuple(obj.comments)[1].text
u'Comment 2'

Now let's commit the transaction which will store the obj in our fake mongo DB:

>>> transaction.commit()

After we commited to the MongoDB, the mongo object and our transaction data
manger reference should be gone in the thread local cache:

>>> pprint(LOCAL.__dict__)
{}

Now check our mongo object values again. If your content item is stored in a
ZODB, you would get the content item from a ZODB connection root:

>>> content = root['content']
>>> content
<Content 42>

>>> obj = content.obj
>>> obj
<SampleMongoObject u'obj'>

>>> obj.title
u'Mongo Object Title'

>>> obj.description
u'A Description'

>>> obj.item
<SampleSubItem u'...'>

>>> obj.item.text
u'Item'

>>> obj.numbers
[1, 2, 3]

>>> obj.comments
[<SampleSubItem u'...'>, <SampleSubItem u'...'>]

>>> tuple(obj.comments)[0].text
u'Comment 1'

>>> tuple(obj.comments)[1].text
u'Comment 2'

>>> pprint(obj.dump())
{'__name__': u'obj',
'_field': u'obj',
'_id': ObjectId('...'),
'_oid': u'42:obj',
'_type': u'SampleMongoObject',
'_version': 1,
'comments': [{'_id': ObjectId('...'),
'_type': u'SampleSubItem',
'created': datetime.datetime(...),
'text': u'Comment 1'},
{'_id': ObjectId('...'),
'_type': u'SampleSubItem',
'created': datetime.datetime(...),
'text': u'Comment 2'}],
'created': datetime.datetime(...),
'date': 733831,
'description': u'A Description',
'item': {'_id': ObjectId('...'),
'_type': u'SampleSubItem',
'created': datetime.datetime(...),
'text': u'Item'},
'modified': datetime.datetime(...),
'numbers': [1, 2, 3],
'removed': False,
'title': u'Mongo Object Title'}

>>> transaction.commit()

>>> pprint(LOCAL.__dict__)
{}

Now let's replace the existing item with a new one and add another item to
the item lists. Also make sure we can use append instead of re-apply the full
list like zope widgets do:

>>> content = root['content']
>>> obj = content.obj

>>> obj.item = testing.SampleSubItem({'text': u'New Item'})

>>> newItem = testing.SampleSubItem({'text': u'New List Item'})
>>> obj.comments.append(newItem)

>>> obj.numbers.append(4)

>>> transaction.commit()

check again:

>>> content = root['content']
>>> obj = content.obj

>>> obj.title
u'Mongo Object Title'

>>> obj.description
u'A Description'

>>> obj.item
<SampleSubItem u'...'>

>>> obj.item.text
u'New Item'

>>> obj.numbers
[1, 2, 3, 4]

>>> obj.comments
[<SampleSubItem u'...'>, <SampleSubItem u'...'>]

>>> tuple(obj.comments)[0].text
u'Comment 1'

>>> tuple(obj.comments)[1].text
u'Comment 2'

And now re-apply a full list of values to the list field:

>>> comOne = testing.SampleSubItem({'text': u'First List Item'})
>>> comTwo = testing.SampleSubItem({'text': u'Second List Item'})
>>> comments = [comOne, comTwo]
>>> obj.comments = comments
>>> obj.numbers = [1,2,3,4,5]
>>> transaction.commit()

check again:

>>> content = root['content']
>>> obj = content.obj

>>> len(obj.comments)
2

>>> obj.comments
[<SampleSubItem u'...'>, <SampleSubItem u'...'>]

>>> len(obj.numbers)
5

>>> obj.numbers
[1, 2, 3, 4, 5]

Also check if we can remove list items:

>>> obj.numbers.remove(1)
>>> obj.numbers.remove(2)

>>> obj.comments.remove(comTwo)

>>> transaction.commit()

check again:

>>> content = root['content']
>>> obj = content.obj

>>> len(obj.comments)
1

>>> obj.comments
[<SampleSubItem u'...'>]

>>> len(obj.numbers)
3

>>> obj.numbers
[3, 4, 5]

>>> transaction.commit()

We can also remove items from the item list by it's __name__:

>>> content = root['content']
>>> obj = content.obj

>>> del obj.comments[comOne.__name__]

>>> transaction.commit()

check again:

>>> content = root['content']
>>> obj = content.obj

>>> len(obj.comments)
0

>>> obj.comments
[]

>>> transaction.commit()

Or we can add items to the item list by name:

>>> content = root['content']
>>> obj = content.obj

>>> obj.comments[comOne.__name__] = comOne

>>> transaction.commit()

check again:

>>> content = root['content']
>>> obj = content.obj

>>> len(obj.comments)
1

>>> obj.comments
[<SampleSubItem u'...'>]

>>> transaction.commit()


Coverage
--------

Our items list also provides the following methods:

>>> obj.comments.__contains__(comOne.__name__)
True

>>> comOne.__name__ in obj.comments
True

>>> obj.comments.get(comOne.__name__)
<SampleSubItem u'...'>

>>> obj.comments.keys() == [comOne.__name__]
True

>>> obj.comments.values()
<generator object ...>

>>> tuple(obj.comments.values())
(<SampleSubItem u'...'>,)

>>> obj.comments.items()
<generator object ...>

>>> tuple(obj.comments.items())
((u'...', <SampleSubItem u'...'>),)

>>> obj.comments == obj.comments
True

Let's test some internals for increase coverage:

>>> obj.comments._m_changed
Traceback (most recent call last):
...
AttributeError: _m_changed is a write only property

>>> obj.comments._m_changed = False
Traceback (most recent call last):
...
ValueError: Can only dispatch True to __parent__

>>> obj.comments.locate(42)

Our simple value typ list also provides the following methods:

>>> obj.numbers.__contains__(3)
True

>>> 3 in obj.numbers
True

>>> obj.numbers == obj.numbers
True

>>> obj.numbers.pop()
5

>>> del obj.numbers[0]

>>> obj.numbers[0] = 42

>>> obj.numbers._m_changed
Traceback (most recent call last):
...
AttributeError: _m_changed is a write only property

>>> obj.numbers._m_changed = False
Traceback (most recent call last):
...
ValueError: Can only dispatch True to __parent__

Check our thread local cache before we leave this test:

>>> pprint(LOCAL.__dict__)
{}


========
Batching
========

The MongoMappingBase base class used by MongoStorage and MongoContainer can
return batched data or items and batch information.

Note; this test runs in level 2 because it uses a working MongoDB. This is
needed because we like to test the real sort and limit functions in a MongoDB.


Condition
---------

Befor we start testing, check if our thread local cache is empty or if we have
left over some junk from previous tests:

>>> from m01.mongo.testing import pprint
>>> from m01.mongo import LOCAL
>>> pprint(LOCAL.__dict__)
{}

Setup
-----

First import some components:

>>> import datetime
>>> import transaction
>>> from m01.mongo import testing


setup
-----

Now we can add a MongoStorage to the database. Let's just use a simple
dict as database root:

>>> root = {}
>>> storage = testing.SampleStorage()
>>> root['storage'] = storage
>>> transaction.commit()

Now let's add 1000 MongoItems:

>>> storage = root['storage']
>>> for i in range(1000):
... data = {u'title': u'Title %i' % i,
... u'description': u'Description %i' % i,
... u'number': i}
... item = testing.SampleStorageItem(data)
... __name__ = storage.add(item)

>>> transaction.commit()

After we commited to the MongoDB, the mongo object and our transaction data
manger reference should be gone in the thread local cache:

>>> from m01.mongo import LOCAL
>>> pprint(LOCAL.__dict__)
{}

As you can see, our collection contains 1000 items:

>>> storage = root['storage']
>>> len(storage)
1000


batching
--------

Note, this method does not return items, it only returns the MongoDB data. This
is what you should use. If this doesn't fit because you need a list of the real
MongoItem this would be complicated beause we could have removed marked items
in our LOCAL cache which the MongoDB doesn't know about.

Let's get the batch information:

>>> storage.getBatchData()
(<...Cursor object at ...>, 1, 40, 1000)

As you an see, we've got a curser with mongo data, the start index, the total
amount of items and the page counter. Note, the first page starts at 1 (one)
and not zero. Let's show another ample with different values:

>>> storage.getBatchData(page=5, size=10)
(<...Cursor object at ...>, 5, 100, 1000)

As you can see we can iterate our cursor:

>>> cursor, page, total, pages = storage.getBatchData(page=1, size=3)

>>> pprint(tuple(cursor))
({u'__name__': u'...',
u'_id': ObjectId('...'),
u'_type': u'SampleStorageItem',
u'_version': 1,
u'comments': [],
u'created': datetime.datetime(...),
u'description': u'Description ...',
u'modified': datetime.datetime(...),
u'number': ...,
u'numbers': [],
u'title': u'Title ...'},
{u'__name__': u'...',
u'_id': ObjectId('...'),
u'_type': u'SampleStorageItem',
u'_version': 1,
u'comments': [],
u'created': datetime.datetime(...),
u'description': u'Description ...',
u'modified': datetime.datetime(...),
u'number': ...,
u'numbers': [],
u'title': u'Title ...'},
{u'__name__': u'...',
u'_id': ObjectId('...'),
u'_type': u'SampleStorageItem',
u'_version': 1,
u'comments': [],
u'created': datetime.datetime(...),
u'description': u'Description ...',
u'modified': datetime.datetime(...),
u'number': ...,
u'numbers': [],
u'title': u'Title ...'})

As you can see, the cursor counts the total amount of items:

>>> cursor.count()
1000

But we can force to count the result based on limit and skip arguments by use
True as argument:

>>> cursor.count(True)
3

As you can see batching or any other object lookup will left items back in our
thread local cache. We can use our thread local cache cleanup event handler
which is normal registered as an EndRequestEvent subscriber:

>>> from m01.mongo import LOCAL
>>> pprint(LOCAL.__dict__)
{u'm01_mongo_testing.test...': {'added': {}, 'removed': {}}}

Let's use our subscriber:

>>> from m01.mongo import clearThreadLocalCache
>>> clearThreadLocalCache()

As you can see our cache items get removed:

>>> from m01.mongo import LOCAL
>>> pprint(LOCAL.__dict__)
{}


order
-----

An important part in batching is ordering. As you can see, we can limit the
batch size and get a slice of data from a sequence. It is very important that
the data get ordered at the MongoDB before we slice the data into a batch.
Let's test if this works based on our ordable number value and a sort order
where lowest value comes first. Start with page=0:

>>> cursor, page, pages, total = storage.getBatchData(page=1, size=3,
... sortName='number', sortOrder=1)

>>> cursor
<pymongo.cursor.Cursor object at ...>

>>> page
1

>>> pages
334

>>> total
1000

We ordering is done right, the first item should have a number value 0 (zero):

>>> pprint(tuple(cursor))
({u'__name__': u'...',
u'_id': ObjectId('...'),
u'_type': u'SampleStorageItem',
u'_version': 1,
u'comments': [],
u'created': datetime.datetime(...),
u'description': u'Description 0',
u'modified': datetime.datetime(...),
u'number': 0,
u'numbers': [],
u'title': u'Title 0'},
{u'__name__': u'...',
u'_id': ObjectId('...'),
u'_type': u'SampleStorageItem',
u'_version': 1,
u'comments': [],
u'created': datetime.datetime(...),
u'description': u'Description 1',
u'modified': datetime.datetime(...),
u'number': 1,
u'numbers': [],
u'title': u'Title 1'},
{u'__name__': u'...',
u'_id': ObjectId('...'),
u'_type': u'SampleStorageItem',
u'_version': 1,
u'comments': [],
u'created': datetime.datetime(...),
u'description': u'Description 2',
u'modified': datetime.datetime(...),
u'number': 2,
u'numbers': [],
u'title': u'Title 2'})

The second page (page=1) should start with number == 3:

>>> cursor, page, pages, total = storage.getBatchData(page=2, size=3,
... sortName='number', sortOrder=1)
>>> pprint(tuple(cursor))
({u'__name__': u'...',
u'_id': ObjectId('...'),
u'_type': u'SampleStorageItem',
u'_version': 1,
u'comments': [],
u'created': datetime.datetime(...),
u'description': u'Description 3',
u'modified': datetime.datetime(...),
u'number': 3,
u'numbers': [],
u'title': u'Title 3'},
{u'__name__': u'...',
u'_id': ObjectId('...'),
u'_type': u'SampleStorageItem',
u'_version': 1,
u'comments': [],
u'created': datetime.datetime(...),
u'description': u'Description 4',
u'modified': datetime.datetime(...),
u'number': 4,
u'numbers': [],
u'title': u'Title 4'},
{u'__name__': u'...',
u'_id': ObjectId('...'),
u'_type': u'SampleStorageItem',
u'_version': 1,
u'comments': [],
u'created': datetime.datetime(...),
u'description': u'Description 5',
u'modified': datetime.datetime(...),
u'number': 5,
u'numbers': [],
u'title': u'Title 5'})

As you can see your page size is 334. Let's show this batch slice. The
item in this batch should have a number == 999. but note:

>>> pages
334

>>> cursor, page, total, pages = storage.getBatchData(page=334, size=3,
... sortName='number', sortOrder=1)
>>> pprint(tuple(cursor))
({u'__name__': u'...',
u'_id': ObjectId('...'),
u'_type': u'SampleStorageItem',
u'_version': 1,
u'comments': [],
u'created': datetime.datetime(...),
u'description': u'Description 999',
u'modified': datetime.datetime(...),
u'number': 999,
u'numbers': [],
u'title': u'Title 999'},)


teardown
--------

Call transaction commit which will cleanup our LOCAL caches:

>>> transaction.commit()

Again, clear thread local cache:

>>> clearThreadLocalCache()

Check our thread local cache before we leave this test:

>>> pprint(LOCAL.__dict__)
{}


=======
Testing
=======

Let's test some testing methods.

>>> import re
>>> import datetime
>>> import bson.tz_util
>>> import m01.mongo
>>> import m01.mongo.testing
>>> from m01.mongo.testing import pprint

RENormalizer
------------

The RENormalizer is able to normalize text and produce comparable output. You
can setup the RENormalizer with a list of input, output expressions. This is
usefull if you dump mongodb data which contains dates or other not so simple
reproducable data. Such a dump result can get normalized before the unit test
will compare the output. Also see zope.testing.renormalizing for the same
pattern which is useable as a doctest checker.

>>> normalizer = m01.mongo.testing.RENormalizer([
... (re.compile('[0-9]*[.][0-9]* seconds'), '... seconds'),
... (re.compile('at 0x[0-9a-f]+'), 'at ...'),
... ])

>>> text = """
... <object object at 0xb7f14438>
... completed in 1.234 seconds.
... ...
... <object object at 0xb7f14450>
... completed in 1.234 seconds.
... """

>>> print normalizer(text)
<BLANKLINE>
<object object at ...>
completed in ... seconds.
...
<object object at ...>
completed in ... seconds.
<BLANKLINE>

Now let's test some mongodb relevant stuff:

>>> from bson.dbref import DBRef
>>> from bson.min_key import MinKey
>>> from bson.max_key import MaxKey
>>> from bson.objectid import ObjectId
>>> from bson.timestamp import Timestamp

>>> oid = m01.mongo.getObjectId(42)
>>> oid
ObjectId('0000002a0000000000000000')

>>> data = {'oid': oid,
... 'dbref': DBRef("foo", 5, "db"),
... 'date': datetime.datetime(2011, 5, 7, 1, 12),
... 'utc': datetime.datetime(2011, 5, 7, 1, 12, tzinfo=bson.tz_util.utc),
... 'min': MinKey(),
... 'max': MaxKey(),
... 'timestamp': Timestamp(4, 13),
... 're': re.compile("a*b", re.IGNORECASE),
... 'string': 'string',
... 'unicode': u'unicode',
... 'int': 42}

Now let's pretty print the data:

>>> pprint(data)
{'date': datetime.datetime(2011, 5, 7, 1, 12),
'dbref': DBRef('foo', 5, 'db'),
'int': 42,
'max': MaxKey(),
'min': MinKey(),
'oid': ObjectId('0000002a0000000000000000'),
're': <_sre.SRE_Pattern object at ...>,
'string': 'string',
'timestamp': Timestamp(4, 13),
'unicode': u'unicode',
'utc': datetime.datetime(2011, 5, 7, 1, 12, tzinfo=<bson.tz_util.FixedOffset object at ...>)}


reNormalizer
~~~~~~~~~~~~

As you can see our predefined reNormalizer will convert the values using our
given patterns:

>>> import m01.mongo.testing
>>> data = m01.mongo.testing.reNormalizer(data)
>>> print data
{'date': datetime.datetime(...),
'dbref': DBRef('foo', 5, 'db'),
'int': 42,
'max': MaxKey(),
'min': MinKey(),
'oid': ObjectId('...'),
're': <_sre.SRE_Pattern object at ...>,
'string': 'string',
'timestamp': Timestamp('...'),
'unicode': u'unicode',
'utc': datetime(..., tzinfo=<bson.tz_util.FixedOffset ...>)}


pprint
~~~~~~

>>> m01.mongo.testing.reNormalizer.pprint(data)
{'date': datetime.datetime(...),
'dbref': DBRef('foo', 5, 'db'),
'int': 42,
'max': MaxKey(),
'min': MinKey(),
'oid': ObjectId('...'),
're': <_sre.SRE_Pattern object at ...>,
'string': 'string',
'timestamp': Timestamp('...'),
'unicode': u'unicode',
'utc': datetime(..., tzinfo=<bson.tz_util.FixedOffset ...>)}


===========================
Speedup your implementation
===========================

Since not every strategy is the best for every applications and we can't
implement all concepts in this package, but we will list here some imporvements.


values and items
----------------

The MongoContainers and MongoStorage implementation will load all data within
the values and items methods. Even if we already cached them in our thread
local cache. Here is an optimized method which could get used if you need to
load a larg set of data.

The original implementation of MongoMappingBase.values looks like::

def values(self):
# join transaction handling
self.ensureTransaction()
for data in self.doFind(self.collection):
__name__ = data['__name__']
if __name__ in self._cache_removed:
# skip removed items
continue
obj = self._cache_loaded.get(__name__)
if obj is None:
try:
# load, locate and cache if not cached
obj = self.doLoad(data)
except (KeyError, TypeError):
continue
yield obj
# also return items not stored in MongoDB yet
for k, v in self._cache_added.items():
yield v

If you like to prevent loading all data, you could probably only load
keys and lookup data for items which didn't get cached yet. This would
reduce network traffic and could look like::

def values(self):
# join transaction handling
self.ensureTransaction()
# only get __name__ and _id
for data in self.doFind(self.collection, {}, ['__name__', '_id']):
__name__ = data['__name__']
if __name__ in self._cache_removed:
# skip removed items
continue
obj = self._cache_loaded.get(__name__)
if obj is None:
try:
# now we can load data from mongo
d = self.doFindOne(self.collection, data)
# load, locate and cache if not cached
obj = self.doLoad(d)
except (KeyError, TypeError):
continue
yield obj
# also return items not stored in MongoDB yet
for k, v in self._cache_added.items():
yield v

Note: the same concept can get used for the items method.

Note: I don't recommend to call keys, values or items for large collections
at any time. Take a look at the batching concept we implemented. The
getBatchData method is probably what you need to use with a large set of data.


AdvancedConverter
-----------------

The class below shows an advanced implementation which is able to convert a
nested data structure.

Normaly a converter can convert attribute values. If the attribute
value is a list of items which contains another list of items, then you need to
use another converter which is able to convert this nested structure. But
normaly this is the responsibility of the first level item to convert it's
values. This is the reason why we didn't implement this concept by default.

Remember, a default converter definition looks like::

def itemConverter(value):
_type = value.get('_type')
if _type == 'Car':
return Car
if _type == 'House':
return House
else:
return value

And the class defines something like::

converters = {'myItems': itemConverter}

Our advanced converter sample can convert a nested data structure and looks
like::

def toCar(value):
return Car(value)

converters = {'myItems': {'House': toHouse, 'Car': toCar}}

Or you can define a converter method which knows how to convert all kind
of item types like::

class AdvancedConverter(object):

converters = {} # attr-name/converter or {_type:converter}
def convert(self, key, value):
"""This convert method knows how to handle nested converters."""
converter = self.converters.get(key)
if converter is not None:
if isinstance(converter, dict):
if isinstance(value, (list, tuple)):
res = []
for o in value:
if isinstance(o, dict):
_type = o.get('_type')
if _type is not None:
converter = converter.get(_type)
value = converter(o)
res.append(value)
value = res
elif isinstance(value, dict):
_type = o.get('_type')
if _type is not None:
converter = converter.get(_type)
value = converter(value)
else:
value = converter(value)
else:
if isinstance(value, (list, tuple)):
# convert list values
value = [converter(d) for d in value]
else:
# convert simple values
value = converter(value)
return value

I'm sure if you understand what we implemented, you will find a lot of space
to improve and write your own special methods which can do the right thing for
your use cases.


=======
CHANGES
=======

0.11.1 (2014-04-10)
------------------

- feature: changed mongo client max_pool_size value from 10MB to 100MB which
reflects changes in pymongo >= 2.6.


0.11.0 (2013-1-23)
-------------------

- implement GeoPoint used for 2dsphere geo location indexes. Also provide a
MongoGeoPointProperty which is able to create such GeoPoint items.


0.10.2 (2013-01-04)
-------------------

- support _m_insert_write_concern, _m_update_write_concern,
_m_remove_write_concern in MongoObject


0.10.1 (2012-12-19)
-------------------

- feature: implemented MongoDatetime schema field supporting timezone info
attribute (tzinfo=UTC).


0.10.0 (2012-12-16)
-------------------

- switch from Connection to MongoClient recommended since pymongo 2.4. Replaced
safe with write concern options. By default pymongo will now use safe writes.

- use MongoClient as factory in MongoConnectionPool. We didn't rename the class
MongoConnectionPool, we will keep them as is. We also don't rename the
IMongoConnectionPool interface.

- replaced _m_safe_insert, _m_safe_update, _m_safe_remove with
_m_insert_write_concern, _m_update_write_concern, _m_remove_write_concern.
This new mapping base class options are an empty dict and can get replaced
with the new write concern settings. The default empty dict will force to
use the write concern defined in the connection.


0.9.0 (2012-12-10)
------------------

- use m01.mongofake for fake mongodb, collection and friends


0.8.0 (2012-11-18)
------------------

- bugfix: add missing security declaration for dump data

- switch to bson import

- reflect changes in test output based on pymongo 2.3

- remove p01.i18n package dependency

- improve, prevent mark items as changed for same values

- improve sort, support key or list as sortName and allow to skip sortOrder if
sortName is given

- added MANIFEST.in file


0.7.0 (2012-05-22)
------------------

- bugfix: FakeCollection.remove: use find to find documents

- preserve order by using SON for query filter and dump methods

- implemented m01.mongo.dictify which can recoursive replace all bson.son.SON
with plain dict instances.


0.6.2 (2012-03-12)
------------------

- bugfix: left out a method


0.6.1 (2012-03-12)
------------------

- bugfix: return self in FakeMongoConnection __call__method. This let's an
instance act similar then the original pymongo Connection class __init__
method.

- feature: Add `sort` parameter for FakeMongoConnection.find()

0.6.0 (2012-01-17)
------------------

- bugfix: During a query, if a spec key is missing from the doc, the doc is
always ignored.

- bugfix: correctly generate an object id in UTC. It was relying on GMT+1
(i.e. Roger's timezone).

- bugfix: allow to use None as MongoDateProperty value

- bugfix: set __parent__ in MongoSubItem __init__ method if given

- implemented _m_initialized as a marker for find out when we need to trace
changed attributes

- implemented clear method in MongoListData and MongoItemsData which allows to
remove sequence items at once wihout to pop each item from the sequence

- improve MongoObject implementation, implemented _field which stores the
parent field name which the MongoObject is stored at. Also adjsut the
MongoObjectProperty and support backward compatibility by apply the previous
stored __name__ as _field if not given. This new _field and __name__
separation allos us to use explicit names e.g. the _id or custom names which
we can use for traversing to a MongoObject via traverser or other container
like implementations.

- Implemented __getattr__ in FakeCollection. This allows to get a sub
collection like in pymongo which is a part of the gridfs concept.


0.5.5 (2011-10-14)
------------------

- Implement filtering with dot notation


0.5.4 (2011-09-27)
------------------

- Fix: a real mongo DB accepts tuple as the `fields` parameter of `find`.


0.5.3 (2011-09-20)
------------------

- Fix minimum filtering expressions (Albertas)


0.5.2 (2011-09-19)
------------------

- Added minimum filtering expressions (Albertas)

- moved created and modified to an own interface called ICreatedModified

- implemented simple and generic initial geo location support


0.5.1 (2011-09-09)
------------------

- fix performance test
- Added database_names and collection_names


0.5.0 (2011-08-19)
------------------

- initial release

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