GraphQL-core 3
GraphQL-core 3 is a Python 3.6+ port of GraphQL.js, the JavaScript reference implementation for GraphQL, a query language for APIs created by Facebook.
An extensive test suite with over 2300 unit tests and 100% coverage comprises a replication of the complete test suite of GraphQL.js, making sure this port is reliable and compatible with GraphQL.js.
The current stable version 3.2.3 of GraphQL-core is up-to-date with GraphQL.js version 16.6.0 and supports Python version 3.6 and newer.
You can also try out the latest alpha version 3.3.0a3 of GraphQL-core which is up-to-date with GraphQL.js version 17.0.0a2. Please note that this new minor version of GraphQL-core does not support Python 3.6 anymore.
Note that for various reasons, GraphQL-core does not use SemVer like GraphQL.js.
Changes in the major version of GraphQL.js are reflected in the minor version of
GraphQL-core instead. This means there can be breaking changes in the API
when the minor version changes, and only patch releases are fully backward compatible.
Therefore, we recommend something like =~ 3.2.0
as version specifier
when including GraphQL-core as a dependency.
Documentation
A more detailed documentation for GraphQL-core 3 can be found at graphql-core-3.readthedocs.io.
The documentation for GraphQL.js can be found at graphql.org/graphql-js/.
The documentation for GraphQL itself can be found at graphql.org.
There will be also blog articles with more usage examples.
Getting started
A general overview of GraphQL is available in the README for the Specification for GraphQL. That overview describes a simple set of GraphQL examples that exist as tests in this repository. A good way to get started with this repository is to walk through that README and the corresponding tests in parallel.
Installation
GraphQL-core 3 can be installed from PyPI using the built-in pip command:
python -m pip install graphql-core
You can also use poetry for installation in a virtual environment:
poetry install
Usage
GraphQL-core provides two important capabilities: building a type schema and serving queries against that type schema.
First, build a GraphQL type schema which maps to your codebase:
from graphql import (
GraphQLSchema, GraphQLObjectType, GraphQLField, GraphQLString)
schema = GraphQLSchema(
query=GraphQLObjectType(
name='RootQueryType',
fields={
'hello': GraphQLField(
GraphQLString,
resolve=lambda obj, info: 'world')
}))
This defines a simple schema, with one type and one field, that resolves to a fixed
value. The resolve
function can return a value, a co-routine object or a list of
these. It takes two positional arguments; the first one provides the root or the
resolved parent field, the second one provides a GraphQLResolveInfo
object which
contains information about the execution state of the query, including a context
attribute holding per-request state such as authentication information or database
session. Any GraphQL arguments are passed to the resolve
functions as individual
keyword arguments.
Note that the signature of the resolver functions is a bit different in GraphQL.js,
where the context is passed separately and arguments are passed as a single object.
Also note that GraphQL fields must be passed as a GraphQLField
object explicitly.
Similarly, GraphQL arguments must be passed as GraphQLArgument
objects.
A more complex example is included in the top-level tests directory.
Then, serve the result of a query against that type schema.
from graphql import graphql_sync
source = '{ hello }'
print(graphql_sync(schema, source))
This runs a query fetching the one field defined, and then prints the result:
ExecutionResult(data={'hello': 'world'}, errors=None)
The graphql_sync
function will first ensure the query is syntactically and
semantically valid before executing it, reporting errors otherwise.
from graphql import graphql_sync
source = '{ BoyHowdy }'
print(graphql_sync(schema, source))
Because we queried a non-existing field, we will get the following result:
ExecutionResult(data=None, errors=[GraphQLError(
"Cannot query field 'BoyHowdy' on type 'RootQueryType'.",
locations=[SourceLocation(line=1, column=3)])])
The graphql_sync
function assumes that all resolvers return values synchronously.
By using coroutines as resolvers, you can also create results in an asynchronous
fashion with the graphql
function.
import asyncio
from graphql import (
graphql, GraphQLSchema, GraphQLObjectType, GraphQLField, GraphQLString)
async def resolve_hello(obj, info):
await asyncio.sleep(3)
return 'world'
schema = GraphQLSchema(
query=GraphQLObjectType(
name='RootQueryType',
fields={
'hello': GraphQLField(
GraphQLString,
resolve=resolve_hello)
}))
async def main():
query = '{ hello }'
print('Fetching the result...')
result = await graphql(schema, query)
print(result)
asyncio.run(main())
Goals and restrictions
GraphQL-core tries to reproduce the code of the reference implementation GraphQL.js in Python as closely as possible and to stay up-to-date with the latest development of GraphQL.js.
GraphQL-core 3 (formerly known as GraphQL-core-next) has been created as a modern alternative to GraphQL-core 2, a prior work by Syrus Akbary, based on an older version of GraphQL.js and also targeting older Python versions. Some parts of GraphQL-core 3 have been inspired by GraphQL-core 2 or directly taken over with only slight modifications, but most of the code has been re-implemented from scratch, replicating the latest code in GraphQL.js very closely and adding type hints for Python.
Design goals for the GraphQL-core 3 library were:
- to be a simple, cruft-free, state-of-the-art GraphQL implementation for current Python versions
- to be very close to the GraphQL.js reference implementation, while still providing a Pythonic API and code style
- to make extensive use of Python type hints, similar to how GraphQL.js used Flow (and is now using TypeScript)
- to use black to achieve a consistent code style while saving time and mental energy for more important matters
- to replicate the complete Mocha-based test suite of GraphQL.js using pytest with pytest-describe
Some restrictions (mostly in line with the design goals):
- requires Python 3.6 or newer
- does not support some already deprecated methods and options of GraphQL.js
- supports asynchronous operations only via async.io (does not support the additional executors in GraphQL-core)
Integration with other libraries and roadmap
-
Graphene is a more high-level framework for building GraphQL APIs in Python, and there is already a whole ecosystem of libraries, server integrations and tools built on top of Graphene. Most of this Graphene ecosystem has also been created by Syrus Akbary, who meanwhile has handed over the maintenance and future development to members of the GraphQL-Python community.
The current version 2 of Graphene is using Graphql-core 2 as core library for much of the heavy lifting. Note that Graphene 2 is not compatible with GraphQL-core 3. The new version 3 of Graphene will use GraphQL-core 3 instead of GraphQL-core 2.
-
Ariadne is a Python library for implementing GraphQL servers using schema-first approach created by Mirumee Software.
Ariadne is already using GraphQL-core 3 as its GraphQL implementation.
-
Strawberry, created by Patrick Arminio, is a new GraphQL library for Python 3, inspired by dataclasses, that is also using GraphQL-core 3 as underpinning.
Changelog
Changes are tracked as GitHub releases.
Credits and history
The GraphQL-core 3 library
- has been created and is maintained by Christoph Zwerschke
- uses ideas and code from GraphQL-core 2, a prior work by Syrus Akbary
- is a Python port of GraphQL.js which has been developed by Lee Byron and others at Facebook, Inc. and is now maintained by the GraphQL foundation
Please watch the recording of Lee Byron's short keynote on the history of GraphQL at the open source leadership summit 2019 to better understand how and why GraphQL was created at Facebook and then became open sourced and ported to many different programming languages.
License
GraphQL-core 3 is MIT-licensed, just like GraphQL.js.