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JSON API client for Python

Introduction

Package repository: https://github.com/qvantel/jsonapi-client

This Python (3.6+) library provides easy-to-use, pythonic, ORM-like access to JSON API ( http://jsonapi.org )

  • Optional asyncio implementation
  • Optional model schema definition and validation (=> easy reads even without schema)
  • Resource caching within session

Installation

From Pypi:

pip install jsonapi-client

Or from sources:

./setup.py install

Usage

Client session

from jsonapi_client import Session, Filter, ResourceTuple

s = Session('http://localhost:8080/')
# To start session in async mode
s = Session('http://localhost:8080/', enable_async=True)

# You can also pass extra arguments that are passed directly to requests or aiohttp methods,
# such as authentication object
s = Session('http://localhost:8080/',
            request_kwargs=dict(auth=HTTPBasicAuth('user', 'password'))


# You can also use Session as a context manager. Changes are committed in the end
# and session is closed.
with Session(...) as s:
    your code

# Or with enable_async=True
async with Session(..., enable_async=True):
    your code

# If you are not using context manager, you need to close session manually
s.close()

# Again, don't forget to await in the AsyncIO mode
await s.close()

# Fetching documents
documents = s.get('resource_type')
# Or if you want only 1, then
documents = s.get('resource_type', 'id_of_document')

# AsyncIO the same but remember to await:
documents = await s.get('resource_type')

Filtering and including

# You need first to specify your filter instance.
# - filtering with two criteria (and)
filter = Filter(attribute='something', attribute2='something_else')
# - filtering some-dict.some-attr == 'something'
filter = Filter(some_dict__some_attr='something'))

# Same thing goes for including.
# - including two fields
include = Inclusion('related_field', 'other_related_field')

# Custom syntax for request parameters.
# If you have different URL schema for filtering or other GET parameters,
# you can implement your own Modifier class (derive it from Modifier and
# reimplement appended_query).
modifier = Modifier('filter[post]=1&filter[author]=2')

# All above classes subclass Modifier and can be added to concatenate
# parameters
modifier_sum = filter + include + modifier

# Now fetch your document
filtered = s.get('resource_type', modifier_sum) # AsyncIO with await

# To access resources included in document:
r1 = document.resources[0]  # first ResourceObject of document.
r2 = document.resource      # if there is only 1 resource we can use this

Pagination

# Pagination links can be accessed via Document object.
next_doc = document.links.next.fetch()
# AsyncIO
next_doc = await document.links.next.fetch()

# Iteration through results (uses pagination):
for r in s.iterate('resource_type'):
    print(r)

# AsyncIO:
async for r in s.iterate('resource_type'):
    print(r)

Resource attribute and relationship access

# - attribute access
attr1 = r1.some_attr
nested_attr = r1.some_dict.some_attr
#   Attributes can always also be accessed via __getitem__:
nested_attr = r1['some-dict']['some-attr']

# If there is namespace collision, you can also access attributes via .fields proxy
# (both attributes and relationships)
attr2 = r1.fields.some_attr

# - relationship access.
#   * Sync, this gives directly ResourceObject
rel = r1.some_relation
attr3 = r1.some_relation.some_attr  # Relationship attribute can be accessed directly

#   * AsyncIO, this gives Relationship object instead because we anyway need to
#     call asynchronous fetch function.
rel = r1.some_relation
#     To access ResourceObject you need to first fetch content
await r1.some_relation.fetch()
#     and then you can access associated resourceobject
res = r1.some_relation.resource
attr3 = res.some_attr  # Attribute access through ResourceObject

# If you need to access relatinoship object itself (with sync API), you can do it via
# .relationships proxy. For example, if you are interested in links or metadata
# provided within relationship, or intend to manipulate relationship.
rel_obj = r1.relationships.relation_name

Resource updating

# Updating / patching existing resources
r1.some_attr = 'something else'
# Patching element in nested json
r1.some_dict.some_dict.some_attr = 'something else'

# change relationships, to-many. Accepts also iterable of ResourceObjects/
# ResourceIdentifiers/ResourceTuples
r1.comments = ['1', '2']
# or if resource type is not known or can have multiple types of resources
r1.comments_or_people = [ResourceTuple('1', 'comments'), ResourceTuple('2', 'people')]
# or if you want to add some resources you can
r1.comments_or_people += [ResourceTuple('1', 'people')]
r1.commit()

# change to-one relationships
r1.author = '3'  # accepts also ResourceObjects/ResourceIdentifiers/ResourceTuple
# or resource type is not known (via schema etc.)
r1.author = ResourceTuple('3', 'people')

# Committing changes (PATCH request)
r1.commit(meta={'some_meta': 'data'})  # Resource committing supports optional meta data
# AsyncIO
await r1.commit(meta={'some_meta': 'data'})

Creating new resources

# Creating new resources. Schema must be given. Accepts dictionary of schema models
# (key is model name and value is schema as json-schema.org).

models_as_jsonschema = {
    'articles': {'properties': {
        'title': {'type': 'string'},
        'author': {'relation': 'to-one', 'resource': ['people']},
        'comments': {'relation': 'to-many', 'resource': ['comments']},
    }},
    'people': {'properties': {
        'first-name': {'type': 'string'},
        'last-name': {'type': 'string'},
        'twitter': {'type': ['null', 'string']},
    }},
    'comments': {'properties': {
        'body': {'type': 'string'},
     'author': {'relation': 'to-one', 'resource': ['people']}
 }}
}
# If you type schema by hand, it could be more convenient to type it as yml in a file
# instead

s = Session('http://localhost:8080/', schema=models_as_jsonschema)
a = s.create('articles') # Creates empty ResourceObject of 'articles' type
a.title = 'Test title'

# Validates and performs POST request, and finally updates resource based on server response
a.commit(meta={'some_meta': 'data'})
# Or with AsyncIO, remember to await
await a.commit(meta={'some_meta': 'data'})

# Commit metadata could be also saved in advance:
a.commit_metadata = {'some_meta': 'data'}
# You can also commit all changed resources in session by
s.commit()
# or with AsyncIO
await s.commit()

# Another example of resource creation, setting attributes and relationships & committing:
# If you have underscores in your field names, you can pass them in fields keyword argument as
# a dictionary:
cust1 = s.create_and_commit('articles',
                            attribute='1',
                            dict_object__attribute='2',
                            to_one_relationship='3',
                            to_many_relationship=['1', '2'],
                            fields={'some_field_with_underscore': '1'}
                            )

# Async:
cust1 = await s.create_and_commit('articles',
                                  attribute='1',
                                  dict_object__attribute='2',
                                  to_one_relationship='3',
                                  to_many_relationship=['1', '2'],
                                  fields={'some_field_with_underscore': '1'}
                                  )

Deleting resources

# Delete resource
cust1.delete() # Mark to be deleted
cust1.commit() # Actually delete

Credits

License

Copyright (c) 2017, Qvantel

All rights reserved.

Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met:

  • Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer.
  • Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution.
  • Neither the name of the Qvantel nor the names of its contributors may be used to endorse or promote products derived from this software without specific prior written permission.

THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL QVANTEL BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.