graphql/Data/GraphQL/Schema.hs

{-# LANGUAGE LambdaCase #-}
-- | This module provides a representation of a @GraphQL@ Schema in addition to
--   functions for defining and manipulating Schemas.
module Data.GraphQL.Schema
  ( Schema
  , Resolver
  , Subs
  , object
  , objectA
  , scalar
  , scalarA
  , array
  , arrayA
  , enum
  , enumA
  , resolve
  -- * AST Reexports
  , Field
  , Argument(..)
  , Value(..)
  ) where

import Control.Applicative (Alternative(empty))
import Data.Foldable (fold)
import Data.List.NonEmpty (NonEmpty)
import Data.Maybe (fromMaybe)
import Data.Monoid (Alt(Alt,getAlt))

import qualified Data.Aeson as Aeson
import Data.HashMap.Strict (HashMap)
import qualified Data.HashMap.Strict as HashMap
import Data.Text (Text)

import Data.GraphQL.AST.Core

-- | A GraphQL schema.
--   @f@ is usually expected to be an instance of 'Alternative'.
type Schema f = NonEmpty (Resolver f)

-- | Resolves a 'Field' into an @Aeson.@'Aeson.Object' with error information
--   (or 'empty'). @f@ is usually expected to be an instance of 'Alternative'.
type Resolver f = Field -> f Aeson.Object

type Resolvers f = [Resolver f]

type Fields = [Field]

type Arguments = [Argument]

-- | Variable substitution function.
type Subs = Name -> Maybe Value

-- | Create a new 'Resolver' with the given 'Name' from the given 'Resolver's.
object :: Alternative f => Name -> Resolvers f -> Resolver f
object name resolvers = objectA name $ \case
  [] -> resolvers
  _  -> empty

-- | Like 'object' but also taking 'Argument's.
objectA
  :: Alternative f
  => Name -> (Arguments -> Resolvers f) -> Resolver f
objectA name f fld@(Field _ _ args flds) = withField name (resolve (f args) flds) fld

-- | A scalar represents a primitive value, like a string or an integer.
scalar :: (Alternative f, Aeson.ToJSON a) => Name -> a -> Resolver f
scalar name s = scalarA name $ \case
    [] -> pure s
    _  -> empty

-- | Like 'scalar' but also taking 'Argument's.
scalarA
  :: (Alternative f, Aeson.ToJSON a)
  => Name -> (Arguments -> f a) -> Resolver f
scalarA name f fld@(Field _ _ args []) = withField name (f args) fld
scalarA _ _ _ = empty

array :: Alternative f => Name -> [Resolvers f] -> Resolver f
array name resolvers = arrayA name $ \case
    [] -> resolvers
    _  -> empty

-- | Like 'array' but also taking 'Argument's.
arrayA
  :: Alternative f
  => Text -> (Arguments -> [Resolvers f]) -> Resolver f
arrayA name f fld@(Field _ _ args sels) =
     withField name (traverse (`resolve` sels) $ f args) fld

-- | Represents one of a finite set of possible values.
--   Used in place of a 'scalar' when the possible responses are easily enumerable.
enum :: Alternative f => Text -> f [Text] -> Resolver f
enum name enums = enumA name $ \case
     [] -> enums
     _  -> empty

-- | Like 'enum' but also taking 'Argument's.
enumA :: Alternative f => Text -> ([Argument] -> f [Text]) -> Resolver f
enumA name f fld@(Field _ _ args []) = withField name (f args) fld
enumA _ _ _ = empty

-- | Helper function to facilitate 'Argument' handling.
withField
  :: (Alternative f, Aeson.ToJSON a)
  => Name -> f a -> Field -> f (HashMap Text Aeson.Value)
withField name f (Field alias name' _ _) =
  if name == name'
    then fmap (HashMap.singleton aliasOrName . Aeson.toJSON) f
    else empty
  where
    aliasOrName = fromMaybe name alias

-- | Takes a list of 'Resolver's and a list of 'Field's and applies each
--   'Resolver' to each 'Field'. Resolves into a value containing the
--   resolved 'Field', or a null value and error information.
resolve :: Alternative f => Resolvers f -> Fields -> f Aeson.Value
resolve resolvers =
    fmap (Aeson.toJSON . fold)
  . traverse (\fld -> getAlt (foldMap (Alt . ($ fld)) resolvers))
Simplify Schema definition API Now there is one `Resolver` type and the `Output` and `Scalar` types have been removed. This should be closer to the final Schema definition API. 2016-02-19 19:21:32 +01:00			`{-# LANGUAGE LambdaCase #-}`
Merge branch 'all-improvements' This adds general API documentation, a tutorial and error handling. 2016-03-15 14:02:34 +01:00			`-- \| This module provides a representation of a @GraphQL@ Schema in addition to`
			`-- functions for defining and manipulating Schemas.`
Overhaul Schema DSL Aside of making the definition of Schemas easier, it takes care of issues like nested aliases which previously wasn't possible. The naming of the DSL functions is still provisional. 2016-02-17 18:13:10 +01:00			`module Data.GraphQL.Schema`
Split AST in 2 One AST is meant to be a target parser and tries to adhere as much as possible to the spec. The other is a simplified version of that AST meant for execution. Also newtypes have been replaced by type synonyms and NonEmpty lists are being used where it makes sense. 2017-01-28 18:15:14 +01:00			`( Schema`
Simplify Schema definition API Now there is one `Resolver` type and the `Output` and `Scalar` types have been removed. This should be closer to the final Schema definition API. 2016-02-19 19:21:32 +01:00			`, Resolver`
Overhaul Schema DSL Aside of making the definition of Schemas easier, it takes care of issues like nested aliases which previously wasn't possible. The naming of the DSL functions is still provisional. 2016-02-17 18:13:10 +01:00			`, Subs`
Simplify Schema definition API Now there is one `Resolver` type and the `Output` and `Scalar` types have been removed. This should be closer to the final Schema definition API. 2016-02-19 19:21:32 +01:00			`, object`
			`, objectA`
			`, scalar`
			`, scalarA`
			`, array`
			`, arrayA`
			`, enum`
			`, enumA`
Define Schema using Core AST Also, temporarily remove error reporting to simplify execution. This should be restored once the new execution model is nailed. 2017-01-29 16:53:15 +01:00			`, resolve`
Simplify Schema definition API Now there is one `Resolver` type and the `Output` and `Scalar` types have been removed. This should be closer to the final Schema definition API. 2016-02-19 19:21:32 +01:00			`-- * AST Reexports`
Overhaul Schema DSL Aside of making the definition of Schemas easier, it takes care of issues like nested aliases which previously wasn't possible. The naming of the DSL functions is still provisional. 2016-02-17 18:13:10 +01:00			`, Field`
Simplify Schema definition API Now there is one `Resolver` type and the `Output` and `Scalar` types have been removed. This should be closer to the final Schema definition API. 2016-02-19 19:21:32 +01:00			`, Argument(..)`
			`, Value(..)`
Overhaul Schema DSL Aside of making the definition of Schemas easier, it takes care of issues like nested aliases which previously wasn't possible. The naming of the DSL functions is still provisional. 2016-02-17 18:13:10 +01:00			`) where`
Initial stub for a `GraphQL` and `execute` 2015-10-17 13:19:00 +02:00
Introduce Tranform module In the Transform module the Full AST will converted to Core AST. This commit also includes a partial implementation of Fragment replacement. 2017-01-29 22:44:03 +01:00			`import Control.Applicative (Alternative(empty))`
Overhaul Schema DSL Aside of making the definition of Schemas easier, it takes care of issues like nested aliases which previously wasn't possible. The naming of the DSL functions is still provisional. 2016-02-17 18:13:10 +01:00			`import Data.Foldable (fold)`
Split AST in 2 One AST is meant to be a target parser and tries to adhere as much as possible to the spec. The other is a simplified version of that AST meant for execution. Also newtypes have been replaced by type synonyms and NonEmpty lists are being used where it makes sense. 2017-01-28 18:15:14 +01:00			`import Data.List.NonEmpty (NonEmpty)`
			`import Data.Maybe (fromMaybe)`
			`import Data.Monoid (Alt(Alt,getAlt))`
Initial stub for a `GraphQL` and `execute` 2015-10-17 13:19:00 +02:00
Simplify Schema definition API Now there is one `Resolver` type and the `Output` and `Scalar` types have been removed. This should be closer to the final Schema definition API. 2016-02-19 19:21:32 +01:00			`import qualified Data.Aeson as Aeson`
Handle Field arguments in Schema definition The `Schema` has been overhauled to make `Output` monomorphic. Traversing the `GraphQL` document is handled implicitly while defining the `Schema`. The 4th end-to-end test from `graphql-js` has been ported. 2016-02-11 14:24:31 +01:00			`import Data.HashMap.Strict (HashMap)`
Overhaul Schema DSL Aside of making the definition of Schemas easier, it takes care of issues like nested aliases which previously wasn't possible. The naming of the DSL functions is still provisional. 2016-02-17 18:13:10 +01:00			`import qualified Data.HashMap.Strict as HashMap`
Simplify Schema definition API Now there is one `Resolver` type and the `Output` and `Scalar` types have been removed. This should be closer to the final Schema definition API. 2016-02-19 19:21:32 +01:00			`import Data.Text (Text)`
Overhaul Schema DSL Aside of making the definition of Schemas easier, it takes care of issues like nested aliases which previously wasn't possible. The naming of the DSL functions is still provisional. 2016-02-17 18:13:10 +01:00
Split AST in 2 One AST is meant to be a target parser and tries to adhere as much as possible to the spec. The other is a simplified version of that AST meant for execution. Also newtypes have been replaced by type synonyms and NonEmpty lists are being used where it makes sense. 2017-01-28 18:15:14 +01:00			`import Data.GraphQL.AST.Core`
Initial stub for a `GraphQL` and `execute` 2015-10-17 13:19:00 +02:00
Merge branch 'all-improvements' This adds general API documentation, a tutorial and error handling. 2016-03-15 14:02:34 +01:00			`-- \| A GraphQL schema.`
			`-- @f@ is usually expected to be an instance of 'Alternative'.`
Split AST in 2 One AST is meant to be a target parser and tries to adhere as much as possible to the spec. The other is a simplified version of that AST meant for execution. Also newtypes have been replaced by type synonyms and NonEmpty lists are being used where it makes sense. 2017-01-28 18:15:14 +01:00			`type Schema f = NonEmpty (Resolver f)`
Garden 2016-01-26 13:38:02 +01:00
Merge branch 'all-improvements' This adds general API documentation, a tutorial and error handling. 2016-03-15 14:02:34 +01:00			`-- \| Resolves a 'Field' into an @Aeson.@'Aeson.Object' with error information`
			`-- (or 'empty'). @f@ is usually expected to be an instance of 'Alternative'.`
Define Schema using Core AST Also, temporarily remove error reporting to simplify execution. This should be restored once the new execution model is nailed. 2017-01-29 16:53:15 +01:00			`type Resolver f = Field -> f Aeson.Object`

			`type Resolvers f = [Resolver f]`

			`type Fields = [Field]`

			`type Arguments = [Argument]`
Initial stub for a `GraphQL` and `execute` 2015-10-17 13:19:00 +02:00
Merge branch 'all-improvements' This adds general API documentation, a tutorial and error handling. 2016-03-15 14:02:34 +01:00			`-- \| Variable substitution function.`
Support variables in AST transformation 2017-02-12 19:19:13 +01:00			`type Subs = Name -> Maybe Value`
Rough implementation of `execute` The first end-to-end test taken from `graphql-js` passes but this still needs to be extended to support more general cases. - `Data.GraphQL.Schema` has been heavily modified to support the execution model. More drastic changes are expected in this module. - When defining a `Schema` ordinary functions taking fields as input are being used instead of maps. This makes the implementation of `execute` easier, and, arguably, makes `Schema` definitions more Haskellish. - Drop explicit `unordered-containers` dependency. `Aeson.Value`s and field functions should be good enough for now. 2016-01-26 12:43:18 +01:00
Define Schema using Core AST Also, temporarily remove error reporting to simplify execution. This should be restored once the new execution model is nailed. 2017-01-29 16:53:15 +01:00			`-- \| Create a new 'Resolver' with the given 'Name' from the given 'Resolver's.`
			`object :: Alternative f => Name -> Resolvers f -> Resolver f`
			`object name resolvers = objectA name $ \case`
			`[] -> resolvers`
			`_ -> empty`
Simplify Schema definition API Now there is one `Resolver` type and the `Output` and `Scalar` types have been removed. This should be closer to the final Schema definition API. 2016-02-19 19:21:32 +01:00
Merge branch 'all-improvements' This adds general API documentation, a tutorial and error handling. 2016-03-15 14:02:34 +01:00			`-- \| Like 'object' but also taking 'Argument's.`
Simplify Schema definition API Now there is one `Resolver` type and the `Output` and `Scalar` types have been removed. This should be closer to the final Schema definition API. 2016-02-19 19:21:32 +01:00			`objectA`
			`:: Alternative f`
Define Schema using Core AST Also, temporarily remove error reporting to simplify execution. This should be restored once the new execution model is nailed. 2017-01-29 16:53:15 +01:00			`=> Name -> (Arguments -> Resolvers f) -> Resolver f`
			`objectA name f fld@(Field _ _ args flds) = withField name (resolve (f args) flds) fld`
Simplify Schema definition API Now there is one `Resolver` type and the `Output` and `Scalar` types have been removed. This should be closer to the final Schema definition API. 2016-02-19 19:21:32 +01:00
Added documentation of functions and modules and included tutorial.lhs. 2016-03-09 01:15:46 +01:00			`-- \| A scalar represents a primitive value, like a string or an integer.`
Define Schema using Core AST Also, temporarily remove error reporting to simplify execution. This should be restored once the new execution model is nailed. 2017-01-29 16:53:15 +01:00			`scalar :: (Alternative f, Aeson.ToJSON a) => Name -> a -> Resolver f`
Simplify Schema definition API Now there is one `Resolver` type and the `Output` and `Scalar` types have been removed. This should be closer to the final Schema definition API. 2016-02-19 19:21:32 +01:00			`scalar name s = scalarA name $ \case`
			`[] -> pure s`
			`_ -> empty`

Merge branch 'all-improvements' This adds general API documentation, a tutorial and error handling. 2016-03-15 14:02:34 +01:00			`-- \| Like 'scalar' but also taking 'Argument's.`
Simplify Schema definition API Now there is one `Resolver` type and the `Output` and `Scalar` types have been removed. This should be closer to the final Schema definition API. 2016-02-19 19:21:32 +01:00			`scalarA`
			`:: (Alternative f, Aeson.ToJSON a)`
Define Schema using Core AST Also, temporarily remove error reporting to simplify execution. This should be restored once the new execution model is nailed. 2017-01-29 16:53:15 +01:00			`=> Name -> (Arguments -> f a) -> Resolver f`
			`scalarA name f fld@(Field _ _ args []) = withField name (f args) fld`
Simplify Schema definition API Now there is one `Resolver` type and the `Output` and `Scalar` types have been removed. This should be closer to the final Schema definition API. 2016-02-19 19:21:32 +01:00			`scalarA _ _ _ = empty`

Define Schema using Core AST Also, temporarily remove error reporting to simplify execution. This should be restored once the new execution model is nailed. 2017-01-29 16:53:15 +01:00			`array :: Alternative f => Name -> [Resolvers f] -> Resolver f`
			`array name resolvers = arrayA name $ \case`
			`[] -> resolvers`
Simplify Schema definition API Now there is one `Resolver` type and the `Output` and `Scalar` types have been removed. This should be closer to the final Schema definition API. 2016-02-19 19:21:32 +01:00			`_ -> empty`

Merge branch 'all-improvements' This adds general API documentation, a tutorial and error handling. 2016-03-15 14:02:34 +01:00			`-- \| Like 'array' but also taking 'Argument's.`
Simplify Schema definition API Now there is one `Resolver` type and the `Output` and `Scalar` types have been removed. This should be closer to the final Schema definition API. 2016-02-19 19:21:32 +01:00			`arrayA`
			`:: Alternative f`
Define Schema using Core AST Also, temporarily remove error reporting to simplify execution. This should be restored once the new execution model is nailed. 2017-01-29 16:53:15 +01:00			`=> Text -> (Arguments -> [Resolvers f]) -> Resolver f`
Split AST in 2 One AST is meant to be a target parser and tries to adhere as much as possible to the spec. The other is a simplified version of that AST meant for execution. Also newtypes have been replaced by type synonyms and NonEmpty lists are being used where it makes sense. 2017-01-28 18:15:14 +01:00			`arrayA name f fld@(Field _ _ args sels) =`
Define Schema using Core AST Also, temporarily remove error reporting to simplify execution. This should be restored once the new execution model is nailed. 2017-01-29 16:53:15 +01:00			withField name (traverse (`resolve` sels) $ f args) fld
Simplify Schema definition API Now there is one `Resolver` type and the `Output` and `Scalar` types have been removed. This should be closer to the final Schema definition API. 2016-02-19 19:21:32 +01:00
Merge branch 'all-improvements' This adds general API documentation, a tutorial and error handling. 2016-03-15 14:02:34 +01:00			`-- \| Represents one of a finite set of possible values.`
			`-- Used in place of a 'scalar' when the possible responses are easily enumerable.`
Simplify Schema definition API Now there is one `Resolver` type and the `Output` and `Scalar` types have been removed. This should be closer to the final Schema definition API. 2016-02-19 19:21:32 +01:00			`enum :: Alternative f => Text -> f [Text] -> Resolver f`
			`enum name enums = enumA name $ \case`
			`[] -> enums`
			`_ -> empty`

Merge branch 'all-improvements' This adds general API documentation, a tutorial and error handling. 2016-03-15 14:02:34 +01:00			`-- \| Like 'enum' but also taking 'Argument's.`
Simplify Schema definition API Now there is one `Resolver` type and the `Output` and `Scalar` types have been removed. This should be closer to the final Schema definition API. 2016-02-19 19:21:32 +01:00			`enumA :: Alternative f => Text -> ([Argument] -> f [Text]) -> Resolver f`
Define Schema using Core AST Also, temporarily remove error reporting to simplify execution. This should be restored once the new execution model is nailed. 2017-01-29 16:53:15 +01:00			`enumA name f fld@(Field _ _ args []) = withField name (f args) fld`
Simplify Schema definition API Now there is one `Resolver` type and the `Output` and `Scalar` types have been removed. This should be closer to the final Schema definition API. 2016-02-19 19:21:32 +01:00			`enumA _ _ _ = empty`

Merge branch 'all-improvements' This adds general API documentation, a tutorial and error handling. 2016-03-15 14:02:34 +01:00			`-- \| Helper function to facilitate 'Argument' handling.`
Simplify Schema definition API Now there is one `Resolver` type and the `Output` and `Scalar` types have been removed. This should be closer to the final Schema definition API. 2016-02-19 19:21:32 +01:00			`withField`
			`:: (Alternative f, Aeson.ToJSON a)`
Define Schema using Core AST Also, temporarily remove error reporting to simplify execution. This should be restored once the new execution model is nailed. 2017-01-29 16:53:15 +01:00			`=> Name -> f a -> Field -> f (HashMap Text Aeson.Value)`
Split AST in 2 One AST is meant to be a target parser and tries to adhere as much as possible to the spec. The other is a simplified version of that AST meant for execution. Also newtypes have been replaced by type synonyms and NonEmpty lists are being used where it makes sense. 2017-01-28 18:15:14 +01:00			`withField name f (Field alias name' _ _) =`
Define Schema using Core AST Also, temporarily remove error reporting to simplify execution. This should be restored once the new execution model is nailed. 2017-01-29 16:53:15 +01:00			`if name == name'`
			`then fmap (HashMap.singleton aliasOrName . Aeson.toJSON) f`
			`else empty`
			`where`
			`aliasOrName = fromMaybe name alias`

Merge branch 'all-improvements' This adds general API documentation, a tutorial and error handling. 2016-03-15 14:02:34 +01:00			`-- \| Takes a list of 'Resolver's and a list of 'Field's and applies each`
			`-- 'Resolver' to each 'Field'. Resolves into a value containing the`
			`-- resolved 'Field', or a null value and error information.`
Define Schema using Core AST Also, temporarily remove error reporting to simplify execution. This should be restored once the new execution model is nailed. 2017-01-29 16:53:15 +01:00			`resolve :: Alternative f => Resolvers f -> Fields -> f Aeson.Value`
			`resolve resolvers =`
			`fmap (Aeson.toJSON . fold)`
			`. traverse (\fld -> getAlt (foldMap (Alt . ($ fld)) resolvers))`