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39 Commits
v0.5.0.0 ... v0.6.1.0

Author SHA1 Message Date
Eugen Wissner
bdf711d69f Release 0.6.1.0 2019-12-23 06:35:32 +01:00
Eugen Wissner
b215e1a4a7 Pretify multi-line string arguments as block strings 
Fixes #10.
 2019-12-21 09:25:05 +01:00
Eugen Wissner
1e55f17e7e Encode Unicode. Fix #34 2019-12-20 07:58:09 +01:00
Eugen Wissner
9a5d54c035 Escape non-source characters in the encoder 2019-12-19 06:59:27 +01:00
Eugen Wissner
0cbe69736b Move Execute.Directive to Type.Directive 
Just to roughly follow the structure of the reference implementation.
 2019-12-18 09:03:18 +01:00
Eugen Wissner
4c0d226030 Move Transform to Language.GraphQL.Execute 
Language.GraphQL.AST.Transform is an internal module. Even though it
works with the AST, it is a part of the execution process, it translates
the original parser tree into a simpler one, so the executor has less
work to do. Language.GraphQL.AST should contain only the parser and be
independent from other packages, so it can be used on its own.
 2019-12-07 09:46:00 +01:00
Eugen Wissner
3c1a5c800f Support directives (skip and include) 
Fixes #24.
 2019-12-06 22:52:24 +01:00
Eugen Wissner
fc9ad9c4a1 Consider __typename when evaluating fragments 
Fixes #30.
 2019-12-02 07:43:19 +01:00
Sam Nolan
def52ddc20 Fix strings not consuming spaces 
Fixes #28
 2019-11-28 19:09:26 +11:00
Eugen Wissner
3497784984 Release 0.6.0.0 2019-11-27 08:26:51 +01:00
Eugen Wissner
587aab005e Add a reader instance to the resolvers 
The Reader contains a Name/Value hashmap, which will contain resolver
arguments.
 2019-11-23 09:49:12 +01:00
Eugen Wissner
625d7100ca Try type parsers in a different order 2019-11-22 08:00:50 +01:00
Sam Nolan
73e21661b4 Fix failed parsing on multiple required arguments 
Fixes #25.
 2019-11-21 08:51:42 +01:00
Eugen Wissner
7b92e5bcfd Rewrite selections into a Sequence. Fix #21 2019-11-16 11:41:40 +01:00
Eugen Wissner
115aa02672 Fail on cyclic fragments, fix #22 2019-11-14 20:40:09 +01:00
Eugen Wissner
31c516927d Support nested fragments in any order 
Fix #19.
 2019-11-12 10:47:10 +01:00
Eugen Wissner
1dd6b7b013 Support nested fragments 
... without forward lookup.
 2019-11-09 23:24:31 +01:00
Eugen Wissner
b77da3d492 AST.Transform: Pass down a reader 
The reader contains variable substitution functions and fragments.
 2019-11-07 06:34:36 +01:00
Eugen Wissner
73fc334bf8 Move related modules to Language.GraphQL.AST 
Fixes #18.

- `Language.GraphQL.Encoder` moved to `Language.GraphQL.AST.Encoder`.
- `Language.GraphQL.Parser` moved to `Language.GraphQL.AST.Parser`.
- `Language.GraphQL.Lexer` moved to `Language.GraphQL.AST.Lexer`.
- All `Language.GraphQL.AST.Value` data constructor prefixes were removed. The
  module should be imported qualified.
- All `Language.GraphQL.AST.Core.Value` data constructor prefixes were removed.
  The module should be imported qualified.
- `Language.GraphQL.AST.Transform` is now isn't exposed publically anymore.
 2019-11-03 11:00:18 +01:00
Eugen Wissner
417ff5da7d Propagate Maybe in the transform tree 
Since the transform tree can already find some errors, it may fail here
and there. Almost all functions return a Maybe to signalize an error.
Will be replaced with an Either of course.
 2019-11-02 06:24:21 +01:00
Eugen Wissner
0e3b6184be Save fragments in a hash map 
Fixes #20.
 2019-10-31 07:32:51 +01:00
Eugen Wissner
51d39b69e8 Remove deprecated functions and aliases 2019-10-25 09:07:45 +02:00
Eugen Wissner
75bc3b8509 Release 0.5.1.0 2019-10-22 07:07:54 +02:00
Eugen Wissner
c7d5b02911 Handle top-level fragments 
Fixes #17.
 2019-10-19 10:00:25 +02:00
Eugen Wissner
37254c8c95 Inline fragments without type 
Fixes #11.
 2019-10-11 23:28:55 +02:00
Eugen Wissner
856efc5d25 Support inline fragments on types 2019-10-08 09:03:07 +02:00
Eugen Wissner
b2a9ec7d82 Deprecate plural type aliases 
Fixes #16. Deprecates:

- Language.GraphQL.AST.Arguments
- Language.GraphQL.AST.Directives
- Language.GraphQL.AST.VariableDefinitions
 2019-10-01 07:24:25 +02:00
Eugen Wissner
0d142fb01c Set STACK_ROOT to cache dependencies in the CI 
Set STACK_ROOT to cache dependencies between the builds.
 2019-09-30 07:09:58 +02:00
Eugen Wissner
f767f6cd40 Ignore graphql.cabal 
This file is generated and for releases another version is generated
anyway.
 2019-09-29 07:39:18 +02:00
Eugen Wissner
eb98c36258 Introduce hspec-megaparsec 
Fixes #13.
 2019-09-27 10:50:38 +02:00
Eugen Wissner
70f7e1bd8e Document undocumented modules 
Fixes #15.
 2019-09-25 05:35:36 +02:00
Eugen Wissner
2b5c719ab0 Fix haddoc warnings 
Fix #14.
 2019-09-20 08:47:14 +02:00
Eugen Wissner
c075a41582 Add pending inline fragment tests 2019-09-13 20:33:39 +02:00
Eugen Wissner
721cbaee17 Release 0.5.0.1 2019-09-10 10:20:40 +02:00
Eugen Wissner
1704022e74 Fix #12 2019-09-06 07:48:01 +02:00
Eugen Wissner
63d4de485d Deprecate enum, enumA, wrappedEnum, wrappedEnumA 
These functions are from Language.GraphQL.Schema.
There are actually only two generic types in GraphQL: Scalars and objects.
Enum is a scalar value. According to the specification enums may be
serailized to strings. And in the current implementation they used
untyped strings anyway, so there is no point to have differently named
functions with the same implementation as their scalar counterparts.
 2019-09-01 03:16:27 +02:00
Eugen Wissner
22313d05df Deprecate Language.GraphQL.Execute.Schema 
It is not a schema (at least not a complete one), but a resolver list,
and the resolvers should be provided by the user separately, because the
schema can originate from a GraphQL document. Schema name should be free
to provide a data type for the real schema later.
 2019-08-30 07:26:04 +02:00
Eugen Wissner
c1943c1979 Document all public symbols. 
Mostly basic documentation. Fixes #4.
 2019-08-29 07:40:50 +02:00
Eugen Wissner
5175586def Provide more documentation on functions and types 2019-08-26 10:14:46 +02:00
34 changed files with 1457 additions and 920 deletions
Expand all files Collapse all files

1
.gitignore vendored
View File

@ -8,3 +8,4 @@
.cabal-sandbox/
cabal.sandbox.config
cabal.project.local
/graphql.cabal

96
CHANGELOG.md
View File

@ -1,6 +1,98 @@
# Change Log
All notable changes to this project will be documented in this file.
## [0.6.1.0] - 2019-12-23
### Fixed
- Parsing multiple string arguments, such as
`login(username: "username", password: "password")` would fail on the comma
due to strings not having a space consumer.
- Fragment spread is evaluated based on the `__typename` resolver. If the
resolver is missing, it is assumed that the type condition is satisfied (all
fragments are included).
- Escaping characters during encoding.
### Added
- Directive support (@skip and @include).
- Pretifying multi-line string arguments as block strings.
## [0.6.0.0] - 2019-11-27
### Changed
- `Language.GraphQL.Encoder` moved to `Language.GraphQL.AST.Encoder`.
- `Language.GraphQL.Parser` moved to `Language.GraphQL.AST.Parser`.
- `Language.GraphQL.Lexer` moved to `Language.GraphQL.AST.Lexer`.
- All `Language.GraphQL.AST.Value` data constructor prefixes were removed. The
module should be imported qualified.
- All `Language.GraphQL.AST.Core.Value` data constructor prefixes were removed.
The module should be imported qualified.
- `Language.GraphQL.AST.Core.Object` is now just a HashMap.
- `Language.GraphQL.AST.Transform` is isn't exposed publically anymore.
- `Language.GraphQL.Schema.resolve` accepts a selection `Seq` (`Data.Sequence`)
instead of a list. Selections are stored as sequences internally as well.
- Add a reader instance to the resolver's monad stack. The Reader contains
a Name/Value hashmap, which will contain resolver arguments.
### Added
- Nested fragment support.
### Fixed
- Consume ignored tokens after `$` and `!`. I mistakenly assumed that
`$variable` is a single token, same as `Type!` is a single token. This is not
the case, for example `Variable` is defined as `$ Name`, so these are two
tokens, therefore whitespaces and commas after `$` and `!` should be
consumed.
### Improved
- `Language.GraphQL.AST.Parser.type_`: Try type parsers in a variable
definition in a different order to avoid using `but`.
### Removed
- `Language.GraphQL.AST.Arguments`. Use `[Language.GraphQL.AST.Argument]`
instead.
- `Language.GraphQL.AST.Directives`. Use `[Language.GraphQL.AST.Directives]`
instead.
- `Language.GraphQL.AST.VariableDefinitions`. Use
`[Language.GraphQL.AST.VariableDefinition]` instead.
- `Language.GraphQL.AST.FragmentName`. Use `Language.GraphQL.AST.Name` instead.
- `Language.GraphQL.Execute.Schema` - It was a resolver list, not a schema.
- `Language.GraphQL.Schema`: `enum`, `enumA`, `wrappedEnum` and `wrappedEnumA`.
Use `scalar`, `scalarA`, `wrappedScalar` and `wrappedScalarA` instead.
## [0.5.1.0] - 2019-10-22
### Deprecated
- `Language.GraphQL.AST.Arguments`. Use `[Language.GraphQL.AST.Argument]`
instead.
- `Language.GraphQL.AST.Directives`. Use `[Language.GraphQL.AST.Directives]`
instead.
- `Language.GraphQL.AST.VariableDefinitions`. Use
`[Language.GraphQL.AST.VariableDefinition]` instead.
### Added
- Module documentation.
- Inline fragment support.
### Fixed
- Top-level fragments.
- Fragment for execution is chosen based on the type.
## [0.5.0.1] - 2019-09-10
### Added
- Minimal documentation for all public symbols.
### Deprecated
- `Language.GraphQL.AST.FragmentName`. Replaced with Language.GraphQL.AST.Name.
- `Language.GraphQL.Execute.Schema` - It is not a schema (at least not a
complete one), but a resolver list, and the resolvers should be provided by
the user separately, because the schema can originate from a GraphQL
document. `Schema` name should be free to provide a data type for the real
schema later.
- `Language.GraphQL.Schema`: `enum`, `enumA`, `wrappedEnum` and `wrappedEnumA`.
There are actually only two generic types in GraphQL: Scalars and objects.
Enum is a scalar value.
### Fixed
- Parsing block string values.
## [0.5.0.0] - 2019-08-14
### Added
- `executeWithName` executes an operation with the given name.
@ -70,6 +162,10 @@ All notable changes to this project will be documented in this file.
### Added
- Data types for the GraphQL language.
[0.6.1.0]: https://github.com/caraus-ecms/graphql/compare/v0.6.0.0...v0.6.1.0
[0.6.0.0]: https://github.com/caraus-ecms/graphql/compare/v0.5.1.0...v0.6.0.0
[0.5.1.0]: https://github.com/caraus-ecms/graphql/compare/v0.5.0.1...v0.5.1.0
[0.5.0.1]: https://github.com/caraus-ecms/graphql/compare/v0.5.0.0...v0.5.0.1
[0.5.0.0]: https://github.com/caraus-ecms/graphql/compare/v0.4.0.0...v0.5.0.0
[0.4.0.0]: https://github.com/caraus-ecms/graphql/compare/v0.3...v0.4.0.0
[0.3]: https://github.com/caraus-ecms/graphql/compare/v0.2.1...v0.3

4
README.md
View File

@ -8,8 +8,8 @@ GraphQL implementation in Haskell.
This implementation is relatively low-level by design, it doesn't provide any
mappings between the GraphQL types and Haskell's type system and avoids
compile-time magic. It focuses on flexibility instead instead, so other
solutions can be built on top of it.
compile-time magic. It focuses on flexibility instead, so other solutions can
be built on top of it.
## State of the work

7
docs/tutorial/tutorial.lhs
View File

@ -24,7 +24,6 @@ Since this file is a literate haskell file, we start by importing some dependenc
> import Data.Time (getCurrentTime)
>
> import Language.GraphQL
> import Language.GraphQL.Schema (Schema)
> import qualified Language.GraphQL.Schema as Schema
> import Language.GraphQL.Trans (ActionT(..))
>
@ -37,7 +36,7 @@ example from [graphql.js](https://github.com/graphql/graphql-js).
First we build a GraphQL schema.
> schema1 :: Schema IO
> schema1 :: NonEmpty (Schema.Resolver IO)
> schema1 = hello :| []
>
> hello :: Schema.Resolver IO
@ -67,7 +66,7 @@ returning
For this example, we're going to be using time.
> schema2 :: Schema IO
> schema2 :: NonEmpty (Schema.Resolver IO)
> schema2 = time :| []
>
> time :: Schema.Resolver IO
@ -127,7 +126,7 @@ This will fail
Now that we have two resolvers, we can define a schema which uses them both.
> schema3 :: Schema IO
> schema3 :: NonEmpty (Schema.Resolver IO)
> schema3 = hello :| [time]
>
> query3 :: Text

91
graphql.cabal
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@ -1,91 +0,0 @@
cabal-version: 1.12
-- This file has been generated from package.yaml by hpack version 0.31.2.
--
-- see: https://github.com/sol/hpack
--
-- hash: 6598c2424405b7a92a4672ad7d1a4e8ad768ea47bf3ed0c3c5ae51bac8730301
name: graphql
version: 0.5.0.0
synopsis: Haskell GraphQL implementation
description: This package provides a rudimentary parser for the <https://graphql.github.io/graphql-spec/June2018/ GraphQL> language.
category: Language
homepage: https://github.com/caraus-ecms/graphql#readme
bug-reports: https://github.com/caraus-ecms/graphql/issues
author: Danny Navarro <j@dannynavarro.net>,
Matthías Páll Gissurarson <mpg@mpg.is>,
Sólrún Halla Einarsdóttir <she@mpg.is>
maintainer: belka@caraus.de
copyright: (c) 2019 Eugen Wissner,
(c) 2015-2017 J. Daniel Navarro
license: BSD3
license-file: LICENSE
build-type: Simple
extra-source-files:
CHANGELOG.md
README.md
LICENSE
docs/tutorial/tutorial.lhs
data-files:
tests/data/kitchen-sink.graphql
tests/data/kitchen-sink.min.graphql
source-repository head
type: git
location: https://github.com/caraus-ecms/graphql
library
exposed-modules:
Language.GraphQL
Language.GraphQL.AST
Language.GraphQL.AST.Core
Language.GraphQL.AST.Transform
Language.GraphQL.Encoder
Language.GraphQL.Error
Language.GraphQL.Execute
Language.GraphQL.Lexer
Language.GraphQL.Parser
Language.GraphQL.Schema
Language.GraphQL.Trans
Language.GraphQL.Type
other-modules:
Paths_graphql
hs-source-dirs:
src
build-depends:
aeson
, base >=4.7 && <5
, megaparsec
, text
, transformers
, unordered-containers
default-language: Haskell2010
test-suite tasty
type: exitcode-stdio-1.0
main-is: Spec.hs
other-modules:
Language.GraphQL.EncoderSpec
Language.GraphQL.ErrorSpec
Language.GraphQL.LexerSpec
Language.GraphQL.ParserSpec
Test.KitchenSinkSpec
Test.StarWars.Data
Test.StarWars.QuerySpec
Test.StarWars.Schema
Paths_graphql
hs-source-dirs:
tests
ghc-options: -threaded -rtsopts -with-rtsopts=-N
build-depends:
aeson
, base >=4.7 && <5
, graphql
, hspec
, hspec-expectations
, megaparsec
, raw-strings-qq
, text
, transformers
default-language: Haskell2010

10
package.yaml
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@ -1,5 +1,5 @@
name: graphql
version: 0.5.0.0
version: 0.6.1.0
synopsis: Haskell GraphQL implementation
description:
This package provides a rudimentary parser for the
@ -28,14 +28,17 @@ data-files:
dependencies:
- aeson
- base >= 4.7 && < 5
- containers
- megaparsec
- text
- transformers
- unordered-containers
library:
source-dirs: src
dependencies:
- unordered-containers
other-modules:
- Language.GraphQL.Execute.Transform
- Language.GraphQL.Type.Directive
tests:
tasty:
@ -49,4 +52,5 @@ tests:
- graphql
- hspec
- hspec-expectations
- hspec-megaparsec
- raw-strings-qq

4
semaphoreci.sh
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@ -1,6 +1,7 @@
#!/bin/bash
STACK=$SEMAPHORE_CACHE_DIR/stack
export STACK_ROOT=$SEMAPHORE_CACHE_DIR/.stack
setup() {
if [ ! -e "$STACK" ]
@ -19,7 +20,8 @@ test() {
}
test_docs() {
$STACK --no-terminal ghc -- -Wall -fno-code docs/tutorial/tutorial.lhs
$STACK --no-terminal ghc -- -Wall -Werror -fno-code docs/tutorial/tutorial.lhs
$STACK --no-terminal haddock --no-haddock-deps
}
setup_lint() {

45
src/Language/GraphQL.hs
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@ -5,32 +5,31 @@ module Language.GraphQL
) where
import Control.Monad.IO.Class (MonadIO)
import qualified Data.Text as T
import qualified Data.Aeson as Aeson
import Data.List.NonEmpty (NonEmpty)
import qualified Data.Text as T
import Language.GraphQL.Error
import Language.GraphQL.Execute
import Language.GraphQL.AST.Parser
import qualified Language.GraphQL.Schema as Schema
import Text.Megaparsec (parse)
import Language.GraphQL.Execute
import Language.GraphQL.Parser
import Language.GraphQL.Schema
import Language.GraphQL.Error
-- | Takes a 'Schema' and text representing a @GraphQL@ request document.
-- If the text parses correctly as a @GraphQL@ query the query is
-- executed according to the given 'Schema'.
--
-- Returns the response as an @Aeson.@'Aeson.Value'.
graphql :: MonadIO m => Schema m -> T.Text -> m Aeson.Value
-- | If the text parses correctly as a @GraphQL@ query the query is
-- executed using the given 'Schema.Resolver's.
graphql :: MonadIO m
=> NonEmpty (Schema.Resolver m) -- ^ Resolvers.
-> T.Text -- ^ Text representing a @GraphQL@ request document.
-> m Aeson.Value -- ^ Response.
graphql = flip graphqlSubs $ const Nothing
-- | Takes a 'Schema', a variable substitution function and text
-- representing a @GraphQL@ request document. If the text parses
-- correctly as a @GraphQL@ query the substitution is applied to the
-- query and the query is then executed according to the given 'Schema'.
--
-- Returns the response as an @Aeson.@'Aeson.Value'.
graphqlSubs :: MonadIO m => Schema m -> Subs -> T.Text -> m Aeson.Value
graphqlSubs schema f =
either parseError (execute schema f)
-- | If the text parses correctly as a @GraphQL@ query the substitution is
-- applied to the query and the query is then executed using to the given
-- 'Schema.Resolver's.
graphqlSubs :: MonadIO m
=> NonEmpty (Schema.Resolver m) -- ^ Resolvers.
-> Schema.Subs -- ^ Variable substitution function.
-> T.Text -- ^ Text representing a @GraphQL@ request document.
-> m Aeson.Value -- ^ Response.
graphqlSubs schema f
= either parseError (execute schema f)
. parse document ""

175
src/Language/GraphQL/AST.hs
View File

@ -5,14 +5,11 @@
module Language.GraphQL.AST
( Alias
, Argument(..)
, Arguments
, Definition(..)
, Directive(..)
, Directives
, Document
, Field(..)
, FragmentDefinition(..)
, FragmentName
, FragmentSpread(..)
, InlineFragment(..)
, Name
@ -27,108 +24,162 @@ module Language.GraphQL.AST
, TypeCondition
, Value(..)
, VariableDefinition(..)
, VariableDefinitions
) where
import Data.Int (Int32)
import Data.List.NonEmpty (NonEmpty)
import Data.Text (Text)
import Language.GraphQL.AST.Core ( Alias
, Name
)
-- * Document
-- | GraphQL document.
type Document = NonEmpty Definition
-- | Name
type Name = Text
-- | Directive.
data Directive = Directive Name [Argument] deriving (Eq, Show)
-- * Operations
data Definition = DefinitionOperation OperationDefinition
| DefinitionFragment FragmentDefinition
deriving (Eq,Show)
-- | Top-level definition of a document, either an operation or a fragment.
data Definition
= DefinitionOperation OperationDefinition
| DefinitionFragment FragmentDefinition
deriving (Eq, Show)
data OperationDefinition = OperationSelectionSet SelectionSet
| OperationDefinition OperationType
(Maybe Name)
VariableDefinitions
Directives
SelectionSet
deriving (Eq,Show)
-- | Operation definition.
data OperationDefinition
= OperationSelectionSet SelectionSet
| OperationDefinition OperationType
(Maybe Name)
[VariableDefinition]
[Directive]
SelectionSet
deriving (Eq, Show)
data OperationType = Query | Mutation deriving (Eq,Show)
-- | GraphQL has 3 operation types: queries, mutations and subscribtions.
--
-- Currently only queries and mutations are supported.
data OperationType = Query | Mutation deriving (Eq, Show)
-- * SelectionSet
-- * Selections
-- | "Top-level" selection, selection on an operation or fragment.
type SelectionSet = NonEmpty Selection
-- | Field selection.
type SelectionSetOpt = [Selection]
data Selection = SelectionField Field
| SelectionFragmentSpread FragmentSpread
| SelectionInlineFragment InlineFragment
deriving (Eq,Show)
-- | Single selection element.
data Selection
= SelectionField Field
| SelectionFragmentSpread FragmentSpread
| SelectionInlineFragment InlineFragment
deriving (Eq, Show)
-- * Field
data Field = Field (Maybe Alias) Name Arguments Directives SelectionSetOpt
deriving (Eq,Show)
-- | Single GraphQL field.
--
-- The only required property of a field is its name. Optionally it can also
-- have an alias, arguments or a list of subfields.
--
-- Given the following query:
--
-- @
-- {
-- zuck: user(id: 4) {
-- id
-- name
-- }
-- }
-- @
--
-- * "user", "id" and "name" are field names.
-- * "user" has two subfields, "id" and "name".
-- * "zuck" is an alias for "user". "id" and "name" have no aliases.
-- * "id: 4" is an argument for "user". "id" and "name" don't have any
-- arguments.
data Field
= Field (Maybe Alias) Name [Argument] [Directive] SelectionSetOpt
deriving (Eq, Show)
-- * Arguments
type Arguments = [Argument]
-- | Alternative field name.
--
-- @
-- {
-- smallPic: profilePic(size: 64)
-- bigPic: profilePic(size: 1024)
-- }
-- @
--
-- Here "smallPic" and "bigPic" are aliases for the same field, "profilePic",
-- used to distinquish between profile pictures with different arguments
-- (sizes).
type Alias = Name
-- | Single argument.
--
-- @
-- {
-- user(id: 4) {
-- name
-- }
-- }
-- @
--
-- Here "id" is an argument for the field "user" and its value is 4.
data Argument = Argument Name Value deriving (Eq,Show)
-- * Fragments
data FragmentSpread = FragmentSpread Name Directives deriving (Eq,Show)
-- | Fragment spread.
data FragmentSpread = FragmentSpread Name [Directive] deriving (Eq, Show)
data InlineFragment = InlineFragment (Maybe TypeCondition) Directives SelectionSet
deriving (Eq,Show)
-- | Inline fragment.
data InlineFragment = InlineFragment (Maybe TypeCondition) [Directive] SelectionSet
deriving (Eq, Show)
data FragmentDefinition =
FragmentDefinition FragmentName TypeCondition Directives SelectionSet
deriving (Eq,Show)
-- | Fragment definition.
data FragmentDefinition
= FragmentDefinition Name TypeCondition [Directive] SelectionSet
deriving (Eq, Show)
type FragmentName = Name
-- * Inputs
type TypeCondition = Name
-- * Input values
data Value = ValueVariable Name
| ValueInt Int32
| ValueFloat Double
| ValueString Text
| ValueBoolean Bool
| ValueNull
| ValueEnum Name
| ValueList [Value]
| ValueObject [ObjectField]
-- | Input value.
data Value = Variable Name
| Int Int32
| Float Double
| String Text
| Boolean Bool
| Null
| Enum Name
| List [Value]
| Object [ObjectField]
deriving (Eq, Show)
-- | Key-value pair.
--
-- A list of 'ObjectField's represents a GraphQL object type.
data ObjectField = ObjectField Name Value deriving (Eq, Show)
-- * Variables
type VariableDefinitions = [VariableDefinition]
-- | Variable definition.
data VariableDefinition = VariableDefinition Name Type (Maybe Value)
deriving (Eq,Show)
deriving (Eq, Show)
-- * Input types
-- | Type condition.
type TypeCondition = Name
-- | Type representation.
data Type = TypeNamed Name
| TypeList Type
| TypeNonNull NonNullType
deriving (Eq,Show)
deriving (Eq, Show)
-- | Helper type to represent Non-Null types and lists of such types.
data NonNullType = NonNullTypeNamed Name
| NonNullTypeList Type
deriving (Eq,Show)
-- * Directives
type Directives = [Directive]
data Directive = Directive Name [Argument] deriving (Eq,Show)
deriving (Eq, Show)

78
src/Language/GraphQL/AST/Core.hs
View File

@ -2,47 +2,75 @@
module Language.GraphQL.AST.Core
( Alias
, Argument(..)
, Arguments(..)
, Directive(..)
, Document
, Field(..)
, Fragment(..)
, Name
, ObjectField(..)
, Operation(..)
, Selection(..)
, TypeCondition
, Value(..)
) where
import Data.Int (Int32)
import Data.HashMap.Strict (HashMap)
import Data.List.NonEmpty (NonEmpty)
import Data.String
import Data.Sequence (Seq)
import Data.String (IsString(..))
import Data.Text (Text)
import Language.GraphQL.AST (Alias, Name, TypeCondition)
-- | Name
type Name = Text
-- | GraphQL document is a non-empty list of operations.
type Document = NonEmpty Operation
data Operation = Query (Maybe Text) (NonEmpty Field)
| Mutation (Maybe Text) (NonEmpty Field)
deriving (Eq,Show)
-- | GraphQL has 3 operation types: queries, mutations and subscribtions.
--
-- Currently only queries and mutations are supported.
data Operation
= Query (Maybe Text) (Seq Selection)
| Mutation (Maybe Text) (Seq Selection)
deriving (Eq, Show)
data Field = Field (Maybe Alias) Name [Argument] [Field] deriving (Eq,Show)
-- | Single GraphQL field.
data Field
= Field (Maybe Alias) Name [Argument] (Seq Selection)
deriving (Eq, Show)
type Alias = Name
-- | Single argument.
data Argument = Argument Name Value deriving (Eq, Show)
data Argument = Argument Name Value deriving (Eq,Show)
-- | Argument list.
newtype Arguments = Arguments (HashMap Name Value)
deriving (Eq, Show)
data Value = ValueInt Int32
-- GraphQL Float is double precision
| ValueFloat Double
| ValueString Text
| ValueBoolean Bool
| ValueNull
| ValueEnum Name
| ValueList [Value]
| ValueObject [ObjectField]
deriving (Eq,Show)
-- | Directive.
data Directive = Directive Name Arguments
deriving (Eq, Show)
-- | Represents fragments and inline fragments.
data Fragment
= Fragment TypeCondition (Seq Selection)
deriving (Eq, Show)
-- | Single selection element.
data Selection
= SelectionFragment Fragment
| SelectionField Field
deriving (Eq, Show)
-- | Represents accordingly typed GraphQL values.
data Value
= Int Int32
| Float Double -- ^ GraphQL Float is double precision
| String Text
| Boolean Bool
| Null
| Enum Name
| List [Value]
| Object (HashMap Name Value)
deriving (Eq, Show)
instance IsString Value where
fromString = ValueString . fromString
data ObjectField = ObjectField Name Value deriving (Eq,Show)
fromString = String . fromString

308
src/Language/GraphQL/AST/Encoder.hs Normal file
View File

@ -0,0 +1,308 @@
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ExplicitForAll #-}
-- | This module defines a minifier and a printer for the @GraphQL@ language.
module Language.GraphQL.AST.Encoder
( Formatter
, definition
, directive
, document
, minified
, pretty
, type'
, value
) where
import Data.Char (ord)
import Data.Foldable (fold)
import Data.Monoid ((<>))
import qualified Data.List.NonEmpty as NonEmpty
import Data.Text (Text)
import qualified Data.Text as Text
import qualified Data.Text.Lazy as Lazy (Text)
import qualified Data.Text.Lazy as Lazy.Text
import Data.Text.Lazy.Builder (Builder)
import qualified Data.Text.Lazy.Builder as Builder
import Data.Text.Lazy.Builder.Int (decimal, hexadecimal)
import Data.Text.Lazy.Builder.RealFloat (realFloat)
import qualified Language.GraphQL.AST as Full
-- | Instructs the encoder whether the GraphQL document should be minified or
-- pretty printed.
--
-- Use 'pretty' or 'minified' to construct the formatter.
data Formatter
= Minified
| Pretty Word
-- | Constructs a formatter for pretty printing.
pretty :: Formatter
pretty = Pretty 0
-- | Constructs a formatter for minifying.
minified :: Formatter
minified = Minified
-- | Converts a 'Full.Document' into a string.
document :: Formatter -> Full.Document -> Lazy.Text
document formatter defs
| Pretty _ <- formatter = Lazy.Text.intercalate "\n" encodeDocument
| Minified <-formatter = Lazy.Text.snoc (mconcat encodeDocument) '\n'
where
encodeDocument = NonEmpty.toList $ definition formatter <$> defs
-- | Converts a 'Full.Definition' into a string.
definition :: Formatter -> Full.Definition -> Lazy.Text
definition formatter x
| Pretty _ <- formatter = Lazy.Text.snoc (encodeDefinition x) '\n'
| Minified <- formatter = encodeDefinition x
where
encodeDefinition (Full.DefinitionOperation operation)
= operationDefinition formatter operation
encodeDefinition (Full.DefinitionFragment fragment)
= fragmentDefinition formatter fragment
operationDefinition :: Formatter -> Full.OperationDefinition -> Lazy.Text
operationDefinition formatter (Full.OperationSelectionSet sels)
= selectionSet formatter sels
operationDefinition formatter (Full.OperationDefinition Full.Query name vars dirs sels)
= "query " <> node formatter name vars dirs sels
operationDefinition formatter (Full.OperationDefinition Full.Mutation name vars dirs sels)
= "mutation " <> node formatter name vars dirs sels
node :: Formatter ->
Maybe Full.Name ->
[Full.VariableDefinition] ->
[Full.Directive] ->
Full.SelectionSet ->
Lazy.Text
node formatter name vars dirs sels
= Lazy.Text.fromStrict (fold name)
<> optempty (variableDefinitions formatter) vars
<> optempty (directives formatter) dirs
<> eitherFormat formatter " " mempty
<> selectionSet formatter sels
variableDefinitions :: Formatter -> [Full.VariableDefinition] -> Lazy.Text
variableDefinitions formatter
= parensCommas formatter $ variableDefinition formatter
variableDefinition :: Formatter -> Full.VariableDefinition -> Lazy.Text
variableDefinition formatter (Full.VariableDefinition var ty dv)
= variable var
<> eitherFormat formatter ": " ":"
<> type' ty
<> maybe mempty (defaultValue formatter) dv
defaultValue :: Formatter -> Full.Value -> Lazy.Text
defaultValue formatter val
= eitherFormat formatter " = " "="
<> value formatter val
variable :: Full.Name -> Lazy.Text
variable var = "$" <> Lazy.Text.fromStrict var
selectionSet :: Formatter -> Full.SelectionSet -> Lazy.Text
selectionSet formatter
= bracesList formatter (selection formatter)
. NonEmpty.toList
selectionSetOpt :: Formatter -> Full.SelectionSetOpt -> Lazy.Text
selectionSetOpt formatter = bracesList formatter $ selection formatter
indent :: (Integral a) => a -> Lazy.Text
indent indentation = Lazy.Text.replicate (fromIntegral indentation) " "
selection :: Formatter -> Full.Selection -> Lazy.Text
selection formatter = Lazy.Text.append indent' . encodeSelection
where
encodeSelection (Full.SelectionField field') = field incrementIndent field'
encodeSelection (Full.SelectionInlineFragment fragment) =
inlineFragment incrementIndent fragment
encodeSelection (Full.SelectionFragmentSpread spread) =
fragmentSpread incrementIndent spread
incrementIndent
| Pretty indentation <- formatter = Pretty $ indentation + 1
| otherwise = Minified
indent'
| Pretty indentation <- formatter = indent $ indentation + 1
| otherwise = ""
colon :: Formatter -> Lazy.Text
colon formatter = eitherFormat formatter ": " ":"
field :: Formatter -> Full.Field -> Lazy.Text
field formatter (Full.Field alias name args dirs set)
= optempty prependAlias (fold alias)
<> Lazy.Text.fromStrict name
<> optempty (arguments formatter) args
<> optempty (directives formatter) dirs
<> optempty selectionSetOpt' set
where
prependAlias aliasName = Lazy.Text.fromStrict aliasName <> colon formatter
selectionSetOpt' = (eitherFormat formatter " " "" <>)
. selectionSetOpt formatter
arguments :: Formatter -> [Full.Argument] -> Lazy.Text
arguments formatter = parensCommas formatter $ argument formatter
argument :: Formatter -> Full.Argument -> Lazy.Text
argument formatter (Full.Argument name value')
= Lazy.Text.fromStrict name
<> colon formatter
<> value formatter value'
-- * Fragments
fragmentSpread :: Formatter -> Full.FragmentSpread -> Lazy.Text
fragmentSpread formatter (Full.FragmentSpread name ds)
= "..." <> Lazy.Text.fromStrict name <> optempty (directives formatter) ds
inlineFragment :: Formatter -> Full.InlineFragment -> Lazy.Text
inlineFragment formatter (Full.InlineFragment tc dirs sels)
= "... on "
<> Lazy.Text.fromStrict (fold tc)
<> directives formatter dirs
<> eitherFormat formatter " " mempty
<> selectionSet formatter sels
fragmentDefinition :: Formatter -> Full.FragmentDefinition -> Lazy.Text
fragmentDefinition formatter (Full.FragmentDefinition name tc dirs sels)
= "fragment " <> Lazy.Text.fromStrict name
<> " on " <> Lazy.Text.fromStrict tc
<> optempty (directives formatter) dirs
<> eitherFormat formatter " " mempty
<> selectionSet formatter sels
-- * Miscellaneous
-- | Converts a 'Full.Directive' into a string.
directive :: Formatter -> Full.Directive -> Lazy.Text
directive formatter (Full.Directive name args)
= "@" <> Lazy.Text.fromStrict name <> optempty (arguments formatter) args
directives :: Formatter -> [Full.Directive] -> Lazy.Text
directives Minified = spaces (directive Minified)
directives formatter = Lazy.Text.cons ' ' . spaces (directive formatter)
-- | Converts a 'Full.Value' into a string.
value :: Formatter -> Full.Value -> Lazy.Text
value _ (Full.Variable x) = variable x
value _ (Full.Int x) = Builder.toLazyText $ decimal x
value _ (Full.Float x) = Builder.toLazyText $ realFloat x
value _ (Full.Boolean x) = booleanValue x
value _ Full.Null = mempty
value formatter (Full.String string) = stringValue formatter string
value _ (Full.Enum x) = Lazy.Text.fromStrict x
value formatter (Full.List x) = listValue formatter x
value formatter (Full.Object x) = objectValue formatter x
booleanValue :: Bool -> Lazy.Text
booleanValue True = "true"
booleanValue False = "false"
stringValue :: Formatter -> Text -> Lazy.Text
stringValue Minified string = Builder.toLazyText
$ quote <> Text.foldr (mappend . escape') quote string
where
quote = Builder.singleton '\"'
escape' '\n' = Builder.fromString "\\n"
escape' char = escape char
stringValue (Pretty indentation) string = byStringType $ Text.lines string
where
byStringType [] = "\"\""
byStringType [line] = Builder.toLazyText
$ quote <> Text.foldr (mappend . escape) quote line
byStringType lines' = "\"\"\"\n"
<> Lazy.Text.unlines (transformLine <$> lines')
<> indent indentation
<> "\"\"\""
transformLine = (indent (indentation + 1) <>)
. Lazy.Text.fromStrict
. Text.replace "\"\"\"" "\\\"\"\""
quote = Builder.singleton '\"'
escape :: Char -> Builder
escape char'
| char' == '\\' = Builder.fromString "\\\\"
| char' == '\"' = Builder.fromString "\\\""
| char' == '\b' = Builder.fromString "\\b"
| char' == '\f' = Builder.fromString "\\f"
| char' == '\r' = Builder.fromString "\\r"
| char' < '\x0010' = unicode "\\u000" char'
| char' < '\x0020' = unicode "\\u00" char'
| otherwise = Builder.singleton char'
where
unicode prefix = mappend (Builder.fromString prefix) . (hexadecimal . ord)
listValue :: Formatter -> [Full.Value] -> Lazy.Text
listValue formatter = bracketsCommas formatter $ value formatter
objectValue :: Formatter -> [Full.ObjectField] -> Lazy.Text
objectValue formatter = intercalate $ objectField formatter
where
intercalate f
= braces
. Lazy.Text.intercalate (eitherFormat formatter ", " ",")
. fmap f
objectField :: Formatter -> Full.ObjectField -> Lazy.Text
objectField formatter (Full.ObjectField name value') =
Lazy.Text.fromStrict name <> colon formatter <> value formatter value'
-- | Converts a 'Full.Type' a type into a string.
type' :: Full.Type -> Lazy.Text
type' (Full.TypeNamed x) = Lazy.Text.fromStrict x
type' (Full.TypeList x) = listType x
type' (Full.TypeNonNull x) = nonNullType x
listType :: Full.Type -> Lazy.Text
listType x = brackets (type' x)
nonNullType :: Full.NonNullType -> Lazy.Text
nonNullType (Full.NonNullTypeNamed x) = Lazy.Text.fromStrict x <> "!"
nonNullType (Full.NonNullTypeList x) = listType x <> "!"
-- * Internal
between :: Char -> Char -> Lazy.Text -> Lazy.Text
between open close = Lazy.Text.cons open . (`Lazy.Text.snoc` close)
parens :: Lazy.Text -> Lazy.Text
parens = between '(' ')'
brackets :: Lazy.Text -> Lazy.Text
brackets = between '[' ']'
braces :: Lazy.Text -> Lazy.Text
braces = between '{' '}'
spaces :: forall a. (a -> Lazy.Text) -> [a] -> Lazy.Text
spaces f = Lazy.Text.intercalate "\SP" . fmap f
parensCommas :: forall a. Formatter -> (a -> Lazy.Text) -> [a] -> Lazy.Text
parensCommas formatter f
= parens
. Lazy.Text.intercalate (eitherFormat formatter ", " ",")
. fmap f
bracketsCommas :: Formatter -> (a -> Lazy.Text) -> [a] -> Lazy.Text
bracketsCommas formatter f
= brackets
. Lazy.Text.intercalate (eitherFormat formatter ", " ",")
. fmap f
bracesList :: forall a. Formatter -> (a -> Lazy.Text) -> [a] -> Lazy.Text
bracesList (Pretty intendation) f xs
= Lazy.Text.snoc (Lazy.Text.intercalate "\n" content) '\n'
<> (Lazy.Text.snoc $ Lazy.Text.replicate (fromIntegral intendation) " ") '}'
where
content = "{" : fmap f xs
bracesList Minified f xs = braces $ Lazy.Text.intercalate "," $ fmap f xs
optempty :: (Eq a, Monoid a, Monoid b) => (a -> b) -> a -> b
optempty f xs = if xs == mempty then mempty else f xs
eitherFormat :: forall a. Formatter -> a -> a -> a
eitherFormat (Pretty _) x _ = x
eitherFormat Minified _ x = x

16
src/Language/GraphQL/Lexer.hs → src/Language/GraphQL/AST/Lexer.hs
View File

@ -3,7 +3,7 @@
-- | This module defines a bunch of small parsers used to parse individual
-- lexemes.
module Language.GraphQL.Lexer
module Language.GraphQL.AST.Lexer
( Parser
, amp
, at
@ -71,6 +71,8 @@ type Parser = Parsec Void T.Text
ignoredCharacters :: Parser ()
ignoredCharacters = space1 <|> skipSome (char ',')
-- | Parser that skips comments and meaningless characters, whitespaces and
-- commas.
spaceConsumer :: Parser ()
spaceConsumer = Lexer.space ignoredCharacters comment empty
@ -87,12 +89,12 @@ symbol :: T.Text -> Parser T.Text
symbol = Lexer.symbol spaceConsumer
-- | Parser for "!".
bang :: Parser Char
bang = char '!'
bang :: Parser T.Text
bang = symbol "!"
-- | Parser for "$".
dollar :: Parser Char
dollar = char '$'
dollar :: Parser T.Text
dollar = symbol "$"
-- | Parser for "@".
at :: Parser Char
@ -132,7 +134,7 @@ braces = between (symbol "{") (symbol "}")
-- | Parser for strings.
string :: Parser T.Text
string = between "\"" "\"" stringValue
string = between "\"" "\"" stringValue <* spaceConsumer
where
stringValue = T.pack <$> many stringCharacter
stringCharacter = satisfy isStringCharacter1
@ -141,7 +143,7 @@ string = between "\"" "\"" stringValue
-- | Parser for block strings.
blockString :: Parser T.Text
blockString = between "\"\"\"" "\"\"\"" stringValue
blockString = between "\"\"\"" "\"\"\"" stringValue <* spaceConsumer
where
stringValue = do
byLine <- sepBy (many blockStringCharacter) lineTerminator

41
src/Language/GraphQL/Parser.hs → src/Language/GraphQL/AST/Parser.hs
View File

@ -1,6 +1,8 @@
{-# LANGUAGE LambdaCase #-}
{-# LANGUAGE OverloadedStrings #-}
module Language.GraphQL.Parser
-- | @GraphQL@ document parser.
module Language.GraphQL.AST.Parser
( document
) where
@ -9,13 +11,14 @@ import Control.Applicative ( Alternative(..)
)
import Data.List.NonEmpty (NonEmpty(..))
import Language.GraphQL.AST
import Language.GraphQL.Lexer
import Language.GraphQL.AST.Lexer
import Text.Megaparsec ( lookAhead
, option
, try
, (<?>)
)
-- | Parser for the GraphQL documents.
document :: Parser Document
document = unicodeBOM >> spaceConsumer >> lexeme (manyNE definition)
@ -66,7 +69,7 @@ alias = try $ name <* colon
-- * Arguments
arguments :: Parser Arguments
arguments :: Parser [Argument]
arguments = parens $ some argument
argument :: Parser Argument
@ -93,7 +96,7 @@ fragmentDefinition = FragmentDefinition
<*> opt directives
<*> selectionSet
fragmentName :: Parser FragmentName
fragmentName :: Parser Name
fragmentName = but (symbol "on") *> name
typeCondition :: Parser TypeCondition
@ -102,16 +105,16 @@ typeCondition = symbol "on" *> name
-- * Input Values
value :: Parser Value
value = ValueVariable <$> variable
<|> ValueFloat <$> try float
<|> ValueInt <$> integer
<|> ValueBoolean <$> booleanValue
<|> ValueNull <$ symbol "null"
<|> ValueString <$> string
<|> ValueString <$> blockString
<|> ValueEnum <$> try enumValue
<|> ValueList <$> listValue
<|> ValueObject <$> objectValue
value = Variable <$> variable
<|> Float <$> try float
<|> Int <$> integer
<|> Boolean <$> booleanValue
<|> Null <$ symbol "null"
<|> String <$> blockString
<|> String <$> string
<|> Enum <$> try enumValue
<|> List <$> listValue
<|> Object <$> objectValue
<?> "value error!"
where
booleanValue :: Parser Bool
@ -132,7 +135,7 @@ objectField = ObjectField <$> name <* symbol ":" <*> value
-- * Variables
variableDefinitions :: Parser VariableDefinitions
variableDefinitions :: Parser [VariableDefinition]
variableDefinitions = parens $ some variableDefinition
variableDefinition :: Parser VariableDefinition
@ -149,9 +152,9 @@ defaultValue = equals *> value
-- * Input Types
type_ :: Parser Type
type_ = try (TypeNamed <$> name <* but "!")
<|> TypeList <$> brackets type_
<|> TypeNonNull <$> nonNullType
type_ = try (TypeNonNull <$> nonNullType)
<|> TypeList <$> brackets type_
<|> TypeNamed <$> name
<?> "type_ error!"
nonNullType :: Parser NonNullType
@ -161,7 +164,7 @@ nonNullType = NonNullTypeNamed <$> name <* bang
-- * Directives
directives :: Parser Directives
directives :: Parser [Directive]
directives = some directive
directive :: Parser Directive

119
src/Language/GraphQL/AST/Transform.hs
View File

@ -1,119 +0,0 @@
{-# LANGUAGE OverloadedStrings #-}
module Language.GraphQL.AST.Transform
( document
) where
import Control.Applicative (empty)
import Control.Monad ((<=<))
import Data.Bifunctor (first)
import Data.Either (partitionEithers)
import Data.Foldable (fold, foldMap)
import qualified Data.List.NonEmpty as NonEmpty
import Data.Monoid (Alt(Alt,getAlt), (<>))
import qualified Language.GraphQL.AST as Full
import qualified Language.GraphQL.AST.Core as Core
import qualified Language.GraphQL.Schema as Schema
-- | Replaces a fragment name by a list of 'Field'. If the name doesn't match an
-- empty list is returned.
type Fragmenter = Core.Name -> [Core.Field]
-- TODO: Replace Maybe by MonadThrow with CustomError
document :: Schema.Subs -> Full.Document -> Maybe Core.Document
document subs doc = operations subs fr ops
where
(fr, ops) = first foldFrags
. partitionEithers
. NonEmpty.toList
$ defrag subs
<$> doc
foldFrags :: [Fragmenter] -> Fragmenter
foldFrags fs n = getAlt $ foldMap (Alt . ($ n)) fs
-- * Operation
-- TODO: Replace Maybe by MonadThrow CustomError
operations
:: Schema.Subs
-> Fragmenter
-> [Full.OperationDefinition]
-> Maybe Core.Document
operations subs fr = NonEmpty.nonEmpty <=< traverse (operation subs fr)
operation
:: Schema.Subs
-> Fragmenter
-> Full.OperationDefinition
-> Maybe Core.Operation
operation subs fr (Full.OperationSelectionSet sels) =
operation subs fr $ Full.OperationDefinition Full.Query empty empty empty sels
-- TODO: Validate Variable definitions with substituter
operation subs fr (Full.OperationDefinition operationType name _vars _dirs sels)
= case operationType of
Full.Query -> Core.Query name <$> node
Full.Mutation -> Core.Mutation name <$> node
where
node = traverse (hush . selection subs fr) sels
selection
:: Schema.Subs
-> Fragmenter
-> Full.Selection
-> Either [Core.Field] Core.Field
selection subs fr (Full.SelectionField fld) =
Right $ field subs fr fld
selection _ fr (Full.SelectionFragmentSpread (Full.FragmentSpread n _dirs)) =
Left $ fr n
selection _ _ (Full.SelectionInlineFragment _) =
error "Inline fragments not supported yet"
-- * Fragment replacement
-- | Extract Fragments into a single Fragmenter function and a Operation
-- Definition.
defrag
:: Schema.Subs
-> Full.Definition
-> Either Fragmenter Full.OperationDefinition
defrag _ (Full.DefinitionOperation op) =
Right op
defrag subs (Full.DefinitionFragment fragDef) =
Left $ fragmentDefinition subs fragDef
fragmentDefinition :: Schema.Subs -> Full.FragmentDefinition -> Fragmenter
fragmentDefinition subs (Full.FragmentDefinition name _tc _dirs sels) name' =
-- TODO: Support fragments within fragments. Fold instead of map.
if name == name'
then either id pure =<< NonEmpty.toList (selection subs mempty <$> sels)
else empty
field :: Schema.Subs -> Fragmenter -> Full.Field -> Core.Field
field subs fr (Full.Field a n args _dirs sels) =
Core.Field a n (fold $ argument subs `traverse` args) (foldr go empty sels)
where
go :: Full.Selection -> [Core.Field] -> [Core.Field]
go (Full.SelectionFragmentSpread (Full.FragmentSpread name _dirs)) = (fr name <>)
go sel = (either id pure (selection subs fr sel) <>)
argument :: Schema.Subs -> Full.Argument -> Maybe Core.Argument
argument subs (Full.Argument n v) = Core.Argument n <$> value subs v
value :: Schema.Subs -> Full.Value -> Maybe Core.Value
value subs (Full.ValueVariable n) = subs n
value _ (Full.ValueInt i) = pure $ Core.ValueInt i
value _ (Full.ValueFloat f) = pure $ Core.ValueFloat f
value _ (Full.ValueString x) = pure $ Core.ValueString x
value _ (Full.ValueBoolean b) = pure $ Core.ValueBoolean b
value _ Full.ValueNull = pure Core.ValueNull
value _ (Full.ValueEnum e) = pure $ Core.ValueEnum e
value subs (Full.ValueList l) =
Core.ValueList <$> traverse (value subs) l
value subs (Full.ValueObject o) =
Core.ValueObject <$> traverse (objectField subs) o
objectField :: Schema.Subs -> Full.ObjectField -> Maybe Core.ObjectField
objectField subs (Full.ObjectField n v) = Core.ObjectField n <$> value subs v
hush :: Either a b -> Maybe b
hush = either (const Nothing) Just

277
src/Language/GraphQL/Encoder.hs
View File

@ -1,277 +0,0 @@
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE ExplicitForAll #-}
-- | This module defines a minifier and a printer for the @GraphQL@ language.
module Language.GraphQL.Encoder
( Formatter
, definition
, directive
, document
, minified
, pretty
, type'
, value
) where
import Data.Foldable (fold)
import Data.Monoid ((<>))
import qualified Data.List.NonEmpty as NonEmpty (toList)
import Data.Text.Lazy (Text)
import qualified Data.Text.Lazy as Text.Lazy
import Data.Text.Lazy.Builder (toLazyText)
import Data.Text.Lazy.Builder.Int (decimal)
import Data.Text.Lazy.Builder.RealFloat (realFloat)
import Language.GraphQL.AST
-- | Instructs the encoder whether a GraphQL should be minified or pretty
-- printed.
--
-- Use 'pretty' and 'minified' to construct the formatter.
data Formatter
= Minified
| Pretty Word
-- Constructs a formatter for pretty printing.
pretty :: Formatter
pretty = Pretty 0
-- Constructs a formatter for minifying.
minified :: Formatter
minified = Minified
-- | Converts a 'Document' into a string.
document :: Formatter -> Document -> Text
document formatter defs
| Pretty _ <- formatter = Text.Lazy.intercalate "\n" encodeDocument
| Minified <-formatter = Text.Lazy.snoc (mconcat encodeDocument) '\n'
where
encodeDocument = NonEmpty.toList $ definition formatter <$> defs
-- | Converts a 'Definition' into a string.
definition :: Formatter -> Definition -> Text
definition formatter x
| Pretty _ <- formatter = Text.Lazy.snoc (encodeDefinition x) '\n'
| Minified <- formatter = encodeDefinition x
where
encodeDefinition (DefinitionOperation operation)
= operationDefinition formatter operation
encodeDefinition (DefinitionFragment fragment)
= fragmentDefinition formatter fragment
operationDefinition :: Formatter -> OperationDefinition -> Text
operationDefinition formatter (OperationSelectionSet sels)
= selectionSet formatter sels
operationDefinition formatter (OperationDefinition Query name vars dirs sels)
= "query " <> node formatter name vars dirs sels
operationDefinition formatter (OperationDefinition Mutation name vars dirs sels)
= "mutation " <> node formatter name vars dirs sels
node :: Formatter
-> Maybe Name
-> VariableDefinitions
-> Directives
-> SelectionSet
-> Text
node formatter name vars dirs sels
= Text.Lazy.fromStrict (fold name)
<> optempty (variableDefinitions formatter) vars
<> optempty (directives formatter) dirs
<> eitherFormat formatter " " mempty
<> selectionSet formatter sels
variableDefinitions :: Formatter -> [VariableDefinition] -> Text
variableDefinitions formatter
= parensCommas formatter $ variableDefinition formatter
variableDefinition :: Formatter -> VariableDefinition -> Text
variableDefinition formatter (VariableDefinition var ty dv)
= variable var
<> eitherFormat formatter ": " ":"
<> type' ty
<> maybe mempty (defaultValue formatter) dv
defaultValue :: Formatter -> Value -> Text
defaultValue formatter val
= eitherFormat formatter " = " "="
<> value formatter val
variable :: Name -> Text
variable var = "$" <> Text.Lazy.fromStrict var
selectionSet :: Formatter -> SelectionSet -> Text
selectionSet formatter
= bracesList formatter (selection formatter)
. NonEmpty.toList
selectionSetOpt :: Formatter -> SelectionSetOpt -> Text
selectionSetOpt formatter = bracesList formatter $ selection formatter
selection :: Formatter -> Selection -> Text
selection formatter = Text.Lazy.append indent . f
where
f (SelectionField x) = field incrementIndent x
f (SelectionInlineFragment x) = inlineFragment incrementIndent x
f (SelectionFragmentSpread x) = fragmentSpread incrementIndent x
incrementIndent
| Pretty n <- formatter = Pretty $ n + 1
| otherwise = Minified
indent
| Pretty n <- formatter = Text.Lazy.replicate (fromIntegral $ n + 1) " "
| otherwise = mempty
field :: Formatter -> Field -> Text
field formatter (Field alias name args dirs selso)
= optempty (`Text.Lazy.append` colon) (Text.Lazy.fromStrict $ fold alias)
<> Text.Lazy.fromStrict name
<> optempty (arguments formatter) args
<> optempty (directives formatter) dirs
<> selectionSetOpt'
where
colon = eitherFormat formatter ": " ":"
selectionSetOpt'
| null selso = mempty
| otherwise = eitherFormat formatter " " mempty <> selectionSetOpt formatter selso
arguments :: Formatter -> [Argument] -> Text
arguments formatter = parensCommas formatter $ argument formatter
argument :: Formatter -> Argument -> Text
argument formatter (Argument name v)
= Text.Lazy.fromStrict name
<> eitherFormat formatter ": " ":"
<> value formatter v
-- * Fragments
fragmentSpread :: Formatter -> FragmentSpread -> Text
fragmentSpread formatter (FragmentSpread name ds)
= "..." <> Text.Lazy.fromStrict name <> optempty (directives formatter) ds
inlineFragment :: Formatter -> InlineFragment -> Text
inlineFragment formatter (InlineFragment tc dirs sels)
= "... on "
<> Text.Lazy.fromStrict (fold tc)
<> directives formatter dirs
<> eitherFormat formatter " " mempty
<> selectionSet formatter sels
fragmentDefinition :: Formatter -> FragmentDefinition -> Text
fragmentDefinition formatter (FragmentDefinition name tc dirs sels)
= "fragment " <> Text.Lazy.fromStrict name
<> " on " <> Text.Lazy.fromStrict tc
<> optempty (directives formatter) dirs
<> eitherFormat formatter " " mempty
<> selectionSet formatter sels
-- * Miscellaneous
-- | Converts a 'Directive' into a string.
directive :: Formatter -> Directive -> Text
directive formatter (Directive name args)
= "@" <> Text.Lazy.fromStrict name <> optempty (arguments formatter) args
directives :: Formatter -> Directives -> Text
directives formatter@(Pretty _) = Text.Lazy.cons ' ' . spaces (directive formatter)
directives Minified = spaces (directive Minified)
-- | Converts a 'Value' into a string.
value :: Formatter -> Value -> Text
value _ (ValueVariable x) = variable x
value _ (ValueInt x) = toLazyText $ decimal x
value _ (ValueFloat x) = toLazyText $ realFloat x
value _ (ValueBoolean x) = booleanValue x
value _ ValueNull = mempty
value _ (ValueString x) = stringValue $ Text.Lazy.fromStrict x
value _ (ValueEnum x) = Text.Lazy.fromStrict x
value formatter (ValueList x) = listValue formatter x
value formatter (ValueObject x) = objectValue formatter x
booleanValue :: Bool -> Text
booleanValue True = "true"
booleanValue False = "false"
stringValue :: Text -> Text
stringValue
= quotes
. Text.Lazy.replace "\"" "\\\""
. Text.Lazy.replace "\\" "\\\\"
listValue :: Formatter -> [Value] -> Text
listValue formatter = bracketsCommas formatter $ value formatter
objectValue :: Formatter -> [ObjectField] -> Text
objectValue formatter = intercalate $ objectField formatter
where
intercalate f
= braces
. Text.Lazy.intercalate (eitherFormat formatter ", " ",")
. fmap f
objectField :: Formatter -> ObjectField -> Text
objectField formatter (ObjectField name v)
= Text.Lazy.fromStrict name <> colon <> value formatter v
where
colon
| Pretty _ <- formatter = ": "
| Minified <- formatter = ":"
-- | Converts a 'Type' a type into a string.
type' :: Type -> Text
type' (TypeNamed x) = Text.Lazy.fromStrict x
type' (TypeList x) = listType x
type' (TypeNonNull x) = nonNullType x
listType :: Type -> Text
listType x = brackets (type' x)
nonNullType :: NonNullType -> Text
nonNullType (NonNullTypeNamed x) = Text.Lazy.fromStrict x <> "!"
nonNullType (NonNullTypeList x) = listType x <> "!"
-- * Internal
between :: Char -> Char -> Text -> Text
between open close = Text.Lazy.cons open . (`Text.Lazy.snoc` close)
parens :: Text -> Text
parens = between '(' ')'
brackets :: Text -> Text
brackets = between '[' ']'
braces :: Text -> Text
braces = between '{' '}'
quotes :: Text -> Text
quotes = between '"' '"'
spaces :: forall a. (a -> Text) -> [a] -> Text
spaces f = Text.Lazy.intercalate "\SP" . fmap f
parensCommas :: forall a. Formatter -> (a -> Text) -> [a] -> Text
parensCommas formatter f
= parens
. Text.Lazy.intercalate (eitherFormat formatter ", " ",")
. fmap f
bracketsCommas :: Formatter -> (a -> Text) -> [a] -> Text
bracketsCommas formatter f
= brackets
. Text.Lazy.intercalate (eitherFormat formatter ", " ",")
. fmap f
bracesList :: forall a. Formatter -> (a -> Text) -> [a] -> Text
bracesList (Pretty intendation) f xs
= Text.Lazy.snoc (Text.Lazy.intercalate "\n" content) '\n'
<> (Text.Lazy.snoc $ Text.Lazy.replicate (fromIntegral intendation) " ") '}'
where
content = "{" : fmap f xs
bracesList Minified f xs = braces $ Text.Lazy.intercalate "," $ fmap f xs
optempty :: (Eq a, Monoid a, Monoid b) => (a -> b) -> a -> b
optempty f xs = if xs == mempty then mempty else f xs
eitherFormat :: forall a. Formatter -> a -> a -> a
eitherFormat (Pretty _) x _ = x
eitherFormat Minified _ x = x

2
src/Language/GraphQL/Error.hs
View File

@ -1,5 +1,7 @@
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE RecordWildCards #-}
-- | Error handling.
module Language.GraphQL.Error
( parseError
, CollectErrsT

57
src/Language/GraphQL/Execute.hs
View File

@ -1,7 +1,6 @@
{-# LANGUAGE OverloadedStrings #-}
-- | This module provides the function to execute a @GraphQL@ request --
-- according to a 'Schema'.
-- | This module provides functions to execute a @GraphQL@ request.
module Language.GraphQL.Execute
( execute
, executeWithName
@ -9,51 +8,54 @@ module Language.GraphQL.Execute
import Control.Monad.IO.Class (MonadIO)
import qualified Data.Aeson as Aeson
import Data.Foldable (toList)
import Data.List.NonEmpty (NonEmpty(..))
import qualified Data.List.NonEmpty as NE
import Data.List.NonEmpty (NonEmpty((:|)))
import Data.Text (Text)
import qualified Data.Text as Text
import qualified Language.GraphQL.AST as AST
import qualified Language.GraphQL.AST.Core as AST.Core
import qualified Language.GraphQL.AST.Transform as Transform
import qualified Language.GraphQL.Execute.Transform as Transform
import Language.GraphQL.Error
import Language.GraphQL.Schema (Schema)
import qualified Language.GraphQL.Schema as Schema
-- | Takes a 'Schema', a variable substitution function ('Schema.Subs'), and a
-- @GraphQL@ 'document'. The substitution is applied to the document using
-- 'rootFields', and the 'Schema''s resolvers are applied to the resulting fields.
-- | The substitution is applied to the document, and the resolvers are applied
-- to the resulting fields.
--
-- Returns the result of the query against the 'Schema' wrapped in a /data/ field, or
-- errors wrapped in an /errors/ field.
-- Returns the result of the query against the schema wrapped in a /data/
-- field, or errors wrapped in an /errors/ field.
execute :: MonadIO m
=> Schema m
-> Schema.Subs
-> AST.Document
=> NonEmpty (Schema.Resolver m) -- ^ Resolvers.
-> Schema.Subs -- ^ Variable substitution function.
-> AST.Document -- @GraphQL@ document.
-> m Aeson.Value
execute schema subs doc =
maybe transformError (document schema Nothing) $ Transform.document subs doc
where
transformError = return $ singleError "Schema transformation error."
-- | Takes a 'Schema', operation name, a variable substitution function ('Schema.Subs'),
-- and a @GraphQL@ 'document'. The substitution is applied to the document using
-- 'rootFields', and the 'Schema''s resolvers are applied to the resulting fields.
-- | The substitution is applied to the document, and the resolvers are applied
-- to the resulting fields. The operation name can be used if the document
-- defines multiple root operations.
--
-- Returns the result of the query against the 'Schema' wrapped in a /data/ field, or
-- errors wrapped in an /errors/ field.
-- Returns the result of the query against the schema wrapped in a /data/
-- field, or errors wrapped in an /errors/ field.
executeWithName :: MonadIO m
=> Schema m
-> Text
-> Schema.Subs
-> AST.Document
=> NonEmpty (Schema.Resolver m) -- ^ Resolvers
-> Text -- ^ Operation name.
-> Schema.Subs -- ^ Variable substitution function.
-> AST.Document -- ^ @GraphQL@ Document.
-> m Aeson.Value
executeWithName schema name subs doc =
maybe transformError (document schema $ Just name) $ Transform.document subs doc
where
transformError = return $ singleError "Schema transformation error."
document :: MonadIO m => Schema m -> Maybe Text -> AST.Core.Document -> m Aeson.Value
document :: MonadIO m
=> NonEmpty (Schema.Resolver m)
-> Maybe Text
-> AST.Core.Document
-> m Aeson.Value
document schema Nothing (op :| []) = operation schema op
document schema (Just name) operations = case NE.dropWhile matchingName operations of
[] -> return $ singleError
@ -65,8 +67,11 @@ document schema (Just name) operations = case NE.dropWhile matchingName operatio
matchingName _ = False
document _ _ _ = return $ singleError "Missing operation name."
operation :: MonadIO m => Schema m -> AST.Core.Operation -> m Aeson.Value
operation :: MonadIO m
=> NonEmpty (Schema.Resolver m)
-> AST.Core.Operation
-> m Aeson.Value
operation schema (AST.Core.Query _ flds)
= runCollectErrs (Schema.resolve (NE.toList schema) (NE.toList flds))
= runCollectErrs (Schema.resolve (toList schema) flds)
operation schema (AST.Core.Mutation _ flds)
= runCollectErrs (Schema.resolve (NE.toList schema) (NE.toList flds))
= runCollectErrs (Schema.resolve (toList schema) flds)

184
src/Language/GraphQL/Execute/Transform.hs Normal file
View File

@ -0,0 +1,184 @@
{-# LANGUAGE ExplicitForAll #-}
{-# LANGUAGE TupleSections #-}
-- | After the document is parsed, before getting executed the AST is
-- transformed into a similar, simpler AST. This module is responsible for
-- this transformation.
module Language.GraphQL.Execute.Transform
( document
) where
import Control.Arrow (first)
import Control.Monad (foldM, unless)
import Control.Monad.Trans.Class (lift)
import Control.Monad.Trans.Reader (ReaderT, ask, runReaderT)
import Control.Monad.Trans.State (StateT, evalStateT, gets, modify)
import Data.HashMap.Strict (HashMap)
import qualified Data.HashMap.Strict as HashMap
import qualified Data.List.NonEmpty as NonEmpty
import Data.Sequence (Seq, (<|), (><))
import qualified Language.GraphQL.AST as Full
import qualified Language.GraphQL.AST.Core as Core
import qualified Language.GraphQL.Schema as Schema
import qualified Language.GraphQL.Type.Directive as Directive
-- | Associates a fragment name with a list of 'Core.Field's.
data Replacement = Replacement
{ fragments :: HashMap Core.Name Core.Fragment
, fragmentDefinitions :: HashMap Full.Name Full.FragmentDefinition
}
type TransformT a = StateT Replacement (ReaderT Schema.Subs Maybe) a
liftJust :: forall a. a -> TransformT a
liftJust = lift . lift . Just
-- | Rewrites the original syntax tree into an intermediate representation used
-- for query execution.
document :: Schema.Subs -> Full.Document -> Maybe Core.Document
document subs document' =
flip runReaderT subs
$ evalStateT (collectFragments >> operations operationDefinitions)
$ Replacement HashMap.empty fragmentTable
where
(fragmentTable, operationDefinitions) = foldr defragment mempty document'
defragment (Full.DefinitionOperation definition) acc =
(definition :) <$> acc
defragment (Full.DefinitionFragment definition) acc =
let (Full.FragmentDefinition name _ _ _) = definition
in first (HashMap.insert name definition) acc
-- * Operation
operations :: [Full.OperationDefinition] -> TransformT Core.Document
operations operations' = do
coreOperations <- traverse operation operations'
lift . lift $ NonEmpty.nonEmpty coreOperations
operation :: Full.OperationDefinition -> TransformT Core.Operation
operation (Full.OperationSelectionSet sels) =
operation $ Full.OperationDefinition Full.Query mempty mempty mempty sels
-- TODO: Validate Variable definitions with substituter
operation (Full.OperationDefinition Full.Query name _vars _dirs sels) =
Core.Query name <$> appendSelection sels
operation (Full.OperationDefinition Full.Mutation name _vars _dirs sels) =
Core.Mutation name <$> appendSelection sels
-- * Selection
selection ::
Full.Selection ->
TransformT (Either (Seq Core.Selection) Core.Selection)
selection (Full.SelectionField field') =
maybe (Left mempty) (Right . Core.SelectionField) <$> field field'
selection (Full.SelectionFragmentSpread fragment) =
maybe (Left mempty) (Right . Core.SelectionFragment)
<$> fragmentSpread fragment
selection (Full.SelectionInlineFragment fragment) =
inlineFragment fragment
appendSelection ::
Traversable t =>
t Full.Selection ->
TransformT (Seq Core.Selection)
appendSelection = foldM go mempty
where
go acc sel = append acc <$> selection sel
append acc (Left list) = list >< acc
append acc (Right one) = one <| acc
directives :: [Full.Directive] -> TransformT [Core.Directive]
directives = traverse directive
where
directive (Full.Directive directiveName directiveArguments) =
Core.Directive directiveName <$> arguments directiveArguments
-- * Fragment replacement
-- | Extract fragment definitions into a single 'HashMap'.
collectFragments :: TransformT ()
collectFragments = do
fragDefs <- gets fragmentDefinitions
let nextValue = head $ HashMap.elems fragDefs
unless (HashMap.null fragDefs) $ do
_ <- fragmentDefinition nextValue
collectFragments
inlineFragment ::
Full.InlineFragment ->
TransformT (Either (Seq Core.Selection) Core.Selection)
inlineFragment (Full.InlineFragment type' directives' selectionSet) = do
fragmentDirectives <- Directive.selection <$> directives directives'
case fragmentDirectives of
Nothing -> pure $ Left mempty
_ -> do
fragmentSelectionSet <- appendSelection selectionSet
pure $ maybe Left selectionFragment type' fragmentSelectionSet
where
selectionFragment typeName = Right
. Core.SelectionFragment
. Core.Fragment typeName
fragmentSpread :: Full.FragmentSpread -> TransformT (Maybe Core.Fragment)
fragmentSpread (Full.FragmentSpread name directives') = do
spreadDirectives <- Directive.selection <$> directives directives'
fragments' <- gets fragments
fragment <- maybe lookupDefinition liftJust (HashMap.lookup name fragments')
pure $ fragment <$ spreadDirectives
where
lookupDefinition = do
fragmentDefinitions' <- gets fragmentDefinitions
found <- lift . lift $ HashMap.lookup name fragmentDefinitions'
fragmentDefinition found
fragmentDefinition ::
Full.FragmentDefinition ->
TransformT Core.Fragment
fragmentDefinition (Full.FragmentDefinition name type' _ selections) = do
modify deleteFragmentDefinition
fragmentSelection <- appendSelection selections
let newValue = Core.Fragment type' fragmentSelection
modify $ insertFragment newValue
liftJust newValue
where
deleteFragmentDefinition (Replacement fragments' fragmentDefinitions') =
Replacement fragments' $ HashMap.delete name fragmentDefinitions'
insertFragment newValue (Replacement fragments' fragmentDefinitions') =
let newFragments = HashMap.insert name newValue fragments'
in Replacement newFragments fragmentDefinitions'
field :: Full.Field -> TransformT (Maybe Core.Field)
field (Full.Field alias name arguments' directives' selections) = do
fieldArguments <- traverse argument arguments'
fieldSelections <- appendSelection selections
fieldDirectives <- Directive.selection <$> directives directives'
let field' = Core.Field alias name fieldArguments fieldSelections
pure $ field' <$ fieldDirectives
arguments :: [Full.Argument] -> TransformT Core.Arguments
arguments = fmap Core.Arguments . foldM go HashMap.empty
where
go arguments' argument' = do
(Core.Argument name value') <- argument argument'
return $ HashMap.insert name value' arguments'
argument :: Full.Argument -> TransformT Core.Argument
argument (Full.Argument n v) = Core.Argument n <$> value v
value :: Full.Value -> TransformT Core.Value
value (Full.Variable n) = do
substitute' <- lift ask
lift . lift $ substitute' n
value (Full.Int i) = pure $ Core.Int i
value (Full.Float f) = pure $ Core.Float f
value (Full.String x) = pure $ Core.String x
value (Full.Boolean b) = pure $ Core.Boolean b
value Full.Null = pure Core.Null
value (Full.Enum e) = pure $ Core.Enum e
value (Full.List l) =
Core.List <$> traverse value l
value (Full.Object o) =
Core.Object . HashMap.fromList <$> traverse objectField o
objectField :: Full.ObjectField -> TransformT (Core.Name, Core.Value)
objectField (Full.ObjectField name value') = (name,) <$> value value'

95
src/Language/GraphQL/Schema.hs
View File

@ -1,20 +1,15 @@
{-# LANGUAGE OverloadedStrings #-}
-- | This module provides a representation of a @GraphQL@ Schema in addition to
-- functions for defining and manipulating Schemas.
-- functions for defining and manipulating schemas.
module Language.GraphQL.Schema
( Resolver
, Schema
, Subs
, object
, objectA
, scalar
, scalarA
, enum
, enumA
, resolve
, wrappedEnum
, wrappedEnumA
, wrappedObject
, wrappedObjectA
, wrappedScalar
@ -28,35 +23,27 @@ module Language.GraphQL.Schema
import Control.Monad.IO.Class (MonadIO(..))
import Control.Monad.Trans.Class (lift)
import Control.Monad.Trans.Except (runExceptT)
import Data.Foldable ( find
, fold
)
import Data.List.NonEmpty (NonEmpty)
import Control.Monad.Trans.Reader (runReaderT)
import Data.Foldable (find, fold)
import Data.Maybe (fromMaybe)
import qualified Data.Aeson as Aeson
import Data.HashMap.Strict (HashMap)
import qualified Data.HashMap.Strict as HashMap
import Data.Sequence (Seq)
import Data.Text (Text)
import qualified Data.Text as T
import Language.GraphQL.AST.Core
import Language.GraphQL.Error
import Language.GraphQL.Trans
import Language.GraphQL.Type
import Language.GraphQL.AST.Core
import qualified Language.GraphQL.Type as Type
-- | A GraphQL schema.
-- @m@ is usually expected to be an instance of 'MonadIO'.
type Schema m = NonEmpty (Resolver m)
-- | Resolves a 'Field' into an @Aeson.@'Aeson.Object' with error information
-- (or 'empty'). @m@ is usually expected to be an instance of 'MonadIO.
-- | Resolves a 'Field' into an @Aeson.@'Data.Aeson.Types.Object' with error
-- information (if an error has occurred). @m@ is usually expected to be an
-- instance of 'MonadIO'.
data Resolver m = Resolver
Text -- ^ Name
(Field -> CollectErrsT m Aeson.Object) -- ^ Resolver
type Fields = [Field]
type Arguments = [Argument]
-- | Variable substitution function.
type Subs = Name -> Maybe Value
@ -66,14 +53,14 @@ object name = objectA name . const
-- | Like 'object' but also taking 'Argument's.
objectA :: MonadIO m
=> Name -> (Arguments -> ActionT m [Resolver m]) -> Resolver m
=> Name -> ([Argument] -> ActionT m [Resolver m]) -> Resolver m
objectA name f = Resolver name $ resolveFieldValue f resolveRight
where
resolveRight fld@(Field _ _ _ flds) resolver = withField (resolve resolver flds) fld
-- | Like 'object' but also taking 'Argument's and can be null or a list of objects.
wrappedObjectA :: MonadIO m
=> Name -> (Arguments -> ActionT m (Wrapping [Resolver m])) -> Resolver m
=> Name -> ([Argument] -> ActionT m (Type.Wrapping [Resolver m])) -> Resolver m
wrappedObjectA name f = Resolver name $ resolveFieldValue f resolveRight
where
resolveRight fld@(Field _ _ _ sels) resolver
@ -81,7 +68,7 @@ wrappedObjectA name f = Resolver name $ resolveFieldValue f resolveRight
-- | Like 'object' but can be null or a list of objects.
wrappedObject :: MonadIO m
=> Name -> ActionT m (Wrapping [Resolver m]) -> Resolver m
=> Name -> ActionT m (Type.Wrapping [Resolver m]) -> Resolver m
wrappedObject name = wrappedObjectA name . const
-- | A scalar represents a primitive value, like a string or an integer.
@ -90,60 +77,36 @@ scalar name = scalarA name . const
-- | Like 'scalar' but also taking 'Argument's.
scalarA :: (MonadIO m, Aeson.ToJSON a)
=> Name -> (Arguments -> ActionT m a) -> Resolver m
=> Name -> ([Argument] -> ActionT m a) -> Resolver m
scalarA name f = Resolver name $ resolveFieldValue f resolveRight
where
resolveRight fld result = withField (return result) fld
-- | Lika 'scalar' but also taking 'Argument's and can be null or a list of scalars.
-- | Like 'scalar' but also taking 'Argument's and can be null or a list of scalars.
wrappedScalarA :: (MonadIO m, Aeson.ToJSON a)
=> Name -> (Arguments -> ActionT m (Wrapping a)) -> Resolver m
=> Name -> ([Argument] -> ActionT m (Type.Wrapping a)) -> Resolver m
wrappedScalarA name f = Resolver name $ resolveFieldValue f resolveRight
where
resolveRight fld (Named result) = withField (return result) fld
resolveRight fld Null
resolveRight fld (Type.Named result) = withField (return result) fld
resolveRight fld Type.Null
= return $ HashMap.singleton (aliasOrName fld) Aeson.Null
resolveRight fld (List result) = withField (return result) fld
resolveRight fld (Type.List result) = withField (return result) fld
-- | Like 'scalar' but can be null or a list of scalars.
wrappedScalar :: (MonadIO m, Aeson.ToJSON a)
=> Name -> ActionT m (Wrapping a) -> Resolver m
=> Name -> ActionT m (Type.Wrapping a) -> Resolver m
wrappedScalar name = wrappedScalarA name . const
-- | Represents one of a finite set of possible values.
-- Used in place of a 'scalar' when the possible responses are easily enumerable.
enum :: MonadIO m => Name -> ActionT m [Text] -> Resolver m
enum name = enumA name . const
-- | Like 'enum' but also taking 'Argument's.
enumA :: MonadIO m => Name -> (Arguments -> ActionT m [Text]) -> Resolver m
enumA name f = Resolver name $ resolveFieldValue f resolveRight
where
resolveRight fld resolver = withField (return resolver) fld
-- | Like 'enum' but also taking 'Argument's and can be null or a list of enums.
wrappedEnumA :: MonadIO m
=> Name -> (Arguments -> ActionT m (Wrapping [Text])) -> Resolver m
wrappedEnumA name f = Resolver name $ resolveFieldValue f resolveRight
where
resolveRight fld (Named resolver) = withField (return resolver) fld
resolveRight fld Null
= return $ HashMap.singleton (aliasOrName fld) Aeson.Null
resolveRight fld (List resolver) = withField (return resolver) fld
-- | Like 'enum' but can be null or a list of enums.
wrappedEnum :: MonadIO m => Name -> ActionT m (Wrapping [Text]) -> Resolver m
wrappedEnum name = wrappedEnumA name . const
resolveFieldValue :: MonadIO m
=> ([Argument] -> ActionT m a)
-> (Field -> a -> CollectErrsT m (HashMap Text Aeson.Value))
-> Field
-> CollectErrsT m (HashMap Text Aeson.Value)
resolveFieldValue f resolveRight fld@(Field _ _ args _) = do
result <- lift $ runExceptT . runActionT $ f args
result <- lift $ reader . runExceptT . runActionT $ f args
either resolveLeft (resolveRight fld) result
where
reader = flip runReaderT $ Context mempty
resolveLeft err = do
_ <- addErrMsg err
return $ HashMap.singleton (aliasOrName fld) Aeson.Null
@ -158,11 +121,21 @@ withField v fld
-- 'Resolver' to each 'Field'. Resolves into a value containing the
-- resolved 'Field', or a null value and error information.
resolve :: MonadIO m
=> [Resolver m] -> Fields -> CollectErrsT m Aeson.Value
=> [Resolver m] -> Seq Selection -> CollectErrsT m Aeson.Value
resolve resolvers = fmap (Aeson.toJSON . fold) . traverse tryResolvers
where
tryResolvers fld = maybe (errmsg fld) (tryResolver fld) $ find (compareResolvers fld) resolvers
compareResolvers (Field _ name _ _) (Resolver name' _) = name == name'
resolveTypeName (Resolver "__typename" f) = do
value <- f $ Field Nothing "__typename" mempty mempty
return $ HashMap.lookupDefault "" "__typename" value
resolveTypeName _ = return ""
tryResolvers (SelectionField fld@(Field _ name _ _))
= maybe (errmsg fld) (tryResolver fld) $ find (compareResolvers name) resolvers
tryResolvers (SelectionFragment (Fragment typeCondition selections')) = do
that <- traverse resolveTypeName (find (compareResolvers "__typename") resolvers)
if maybe True (Aeson.String typeCondition ==) that
then fmap fold . traverse tryResolvers $ selections'
else return mempty
compareResolvers name (Resolver name' _) = name == name'
tryResolver fld (Resolver _ resolver) = resolver fld
errmsg fld@(Field _ name _ _) = do
addErrMsg $ T.unwords ["field", name, "not resolved."]

16
src/Language/GraphQL/Trans.hs
View File

@ -1,5 +1,7 @@
-- | Monad transformer stack used by the @GraphQL@ resolvers.
module Language.GraphQL.Trans
( ActionT(..)
, Context(Context)
) where
import Control.Applicative (Alternative(..))
@ -7,9 +9,19 @@ import Control.Monad (MonadPlus(..))
import Control.Monad.IO.Class (MonadIO(..))
import Control.Monad.Trans.Class (MonadTrans(..))
import Control.Monad.Trans.Except (ExceptT)
import Control.Monad.Trans.Reader (ReaderT)
import Data.HashMap.Strict (HashMap)
import Data.Text (Text)
import Language.GraphQL.AST.Core (Name, Value)
newtype ActionT m a = ActionT { runActionT :: ExceptT Text m a }
-- | Resolution context holds resolver arguments.
newtype Context = Context (HashMap Name Value)
-- | Monad transformer stack used by the resolvers to provide error handling
-- and resolution context (resolver arguments).
newtype ActionT m a = ActionT
{ runActionT :: ExceptT Text (ReaderT Context m) a
}
instance Functor m => Functor (ActionT m) where
fmap f = ActionT . fmap f . runActionT
@ -23,7 +35,7 @@ instance Monad m => Monad (ActionT m) where
(ActionT action) >>= f = ActionT $ action >>= runActionT . f
instance MonadTrans ActionT where
lift = ActionT . lift
lift = ActionT . lift . lift
instance MonadIO m => MonadIO (ActionT m) where
liftIO = lift . liftIO

6
src/Language/GraphQL/Type.hs
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@ -1,11 +1,9 @@
-- | Definitions for @GraphQL@ type system.
-- | Definitions for @GraphQL@ input types.
module Language.GraphQL.Type
( Wrapping(..)
) where
import Data.Aeson as Aeson ( ToJSON
, toJSON
)
import Data.Aeson as Aeson (ToJSON, toJSON)
import qualified Data.Aeson as Aeson
-- | GraphQL distinguishes between "wrapping" and "named" types. Each wrapping

50
src/Language/GraphQL/Type/Directive.hs Normal file
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@ -0,0 +1,50 @@
{-# LANGUAGE OverloadedStrings #-}
module Language.GraphQL.Type.Directive
( selection
) where
import qualified Data.HashMap.Strict as HashMap
import Language.GraphQL.AST.Core
-- | Directive processing status.
data Status
= Skip -- ^ Skip the selection and stop directive processing
| Include Directive -- ^ The directive was processed, try other handlers
| Continue Directive -- ^ Directive handler mismatch, try other handlers
-- | Takes a list of directives, handles supported directives and excludes them
-- from the result. If the selection should be skipped, returns 'Nothing'.
selection :: [Directive] -> Maybe [Directive]
selection = foldr go (Just [])
where
go directive' directives' =
case (skip . include) (Continue directive') of
(Include _) -> directives'
Skip -> Nothing
(Continue x) -> (x :) <$> directives'
handle :: (Directive -> Status) -> Status -> Status
handle _ Skip = Skip
handle handler (Continue directive) = handler directive
handle handler (Include directive) = handler directive
-- * Directive implementations
skip :: Status -> Status
skip = handle skip'
where
skip' directive'@(Directive "skip" (Arguments arguments)) =
case HashMap.lookup "if" arguments of
(Just (Boolean True)) -> Skip
_ -> Include directive'
skip' directive' = Continue directive'
include :: Status -> Status
include = handle include'
where
include' directive'@(Directive "include" (Arguments arguments)) =
case HashMap.lookup "if" arguments of
(Just (Boolean True)) -> Include directive'
_ -> Skip
include' directive' = Continue directive'

9
stack.yaml
View File

@ -1,6 +1,9 @@
resolver: lts-14.0
resolver: lts-14.18
packages:
- '.'
- .
extra-deps: []
flags: {}
extra-package-dbs: []
pvp-bounds: both

46
tests/Language/GraphQL/AST/EncoderSpec.hs Normal file
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@ -0,0 +1,46 @@
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE QuasiQuotes #-}
module Language.GraphQL.AST.EncoderSpec
( spec
) where
import Language.GraphQL.AST
import Language.GraphQL.AST.Encoder
import Test.Hspec (Spec, context, describe, it, shouldBe)
import Text.RawString.QQ (r)
spec :: Spec
spec = do
describe "value" $ do
context "minified" $ do
it "escapes \\" $
value minified (String "\\") `shouldBe` "\"\\\\\""
it "escapes quotes" $
value minified (String "\"") `shouldBe` "\"\\\"\""
it "escapes backspace" $
value minified (String "a\bc") `shouldBe` "\"a\\bc\""
it "escapes Unicode" $
value minified (String "\0") `shouldBe` "\"\\u0000\""
context "pretty" $ do
it "uses strings for short string values" $
value pretty (String "Short text") `shouldBe` "\"Short text\""
it "uses block strings for text with new lines" $
value pretty (String "Line 1\nLine 2")
`shouldBe` "\"\"\"\n Line 1\n Line 2\n\"\"\""
it "escapes \\ in short strings" $
value pretty (String "\\") `shouldBe` "\"\\\\\""
describe "definition" $
it "indents block strings in arguments" $
let arguments = [Argument "message" (String "line1\nline2")]
field = Field Nothing "field" arguments [] []
set = OperationSelectionSet $ pure $ SelectionField field
operation = DefinitionOperation set
in definition pretty operation `shouldBe` [r|{
field(message: """
line1
line2
""")
}
|]

92
tests/Language/GraphQL/AST/LexerSpec.hs Normal file
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@ -0,0 +1,92 @@
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE QuasiQuotes #-}
module Language.GraphQL.AST.LexerSpec
( spec
) where
import Data.Text (Text)
import Data.Void (Void)
import Language.GraphQL.AST.Lexer
import Test.Hspec (Spec, context, describe, it)
import Test.Hspec.Megaparsec (shouldParse, shouldSucceedOn)
import Text.Megaparsec (ParseErrorBundle, parse)
import Text.RawString.QQ (r)
spec :: Spec
spec = describe "Lexer" $ do
context "Reference tests" $ do
it "accepts BOM header" $
parse unicodeBOM "" `shouldSucceedOn` "\xfeff"
it "lexes strings" $ do
parse string "" [r|"simple"|] `shouldParse` "simple"
parse string "" [r|" white space "|] `shouldParse` " white space "
parse string "" [r|"quote \""|] `shouldParse` [r|quote "|]
parse string "" [r|"escaped \n"|] `shouldParse` "escaped \n"
parse string "" [r|"slashes \\ \/"|] `shouldParse` [r|slashes \ /|]
parse string "" [r|"unicode \u1234\u5678\u90AB\uCDEF"|]
`shouldParse` "unicode "
it "lexes block string" $ do
parse blockString "" [r|"""simple"""|] `shouldParse` "simple"
parse blockString "" [r|""" white space """|]
`shouldParse` " white space "
parse blockString "" [r|"""contains " quote"""|]
`shouldParse` [r|contains " quote|]
parse blockString "" [r|"""contains \""" triplequote"""|]
`shouldParse` [r|contains """ triplequote|]
parse blockString "" "\"\"\"multi\nline\"\"\"" `shouldParse` "multi\nline"
parse blockString "" "\"\"\"multi\rline\r\nnormalized\"\"\""
`shouldParse` "multi\nline\nnormalized"
parse blockString "" "\"\"\"multi\rline\r\nnormalized\"\"\""
`shouldParse` "multi\nline\nnormalized"
parse blockString "" [r|"""unescaped \n\r\b\t\f\u1234"""|]
`shouldParse` [r|unescaped \n\r\b\t\f\u1234|]
parse blockString "" [r|"""slashes \\ \/"""|]
`shouldParse` [r|slashes \\ \/|]
parse blockString "" [r|"""
spans
multiple
lines
"""|] `shouldParse` "spans\n multiple\n lines"
it "lexes numbers" $ do
parse integer "" "4" `shouldParse` (4 :: Int)
parse float "" "4.123" `shouldParse` 4.123
parse integer "" "-4" `shouldParse` (-4 :: Int)
parse integer "" "9" `shouldParse` (9 :: Int)
parse integer "" "0" `shouldParse` (0 :: Int)
parse float "" "-4.123" `shouldParse` (-4.123)
parse float "" "0.123" `shouldParse` 0.123
parse float "" "123e4" `shouldParse` 123e4
parse float "" "123E4" `shouldParse` 123E4
parse float "" "123e-4" `shouldParse` 123e-4
parse float "" "123e+4" `shouldParse` 123e+4
parse float "" "-1.123e4" `shouldParse` (-1.123e4)
parse float "" "-1.123E4" `shouldParse` (-1.123E4)
parse float "" "-1.123e-4" `shouldParse` (-1.123e-4)
parse float "" "-1.123e+4" `shouldParse` (-1.123e+4)
parse float "" "-1.123e4567" `shouldParse` (-1.123e4567)
it "lexes punctuation" $ do
parse bang "" "!" `shouldParse` "!"
parse dollar "" "$" `shouldParse` "$"
runBetween parens `shouldSucceedOn` "()"
parse spread "" "..." `shouldParse` "..."
parse colon "" ":" `shouldParse` ":"
parse equals "" "=" `shouldParse` "="
parse at "" "@" `shouldParse` '@'
runBetween brackets `shouldSucceedOn` "[]"
runBetween braces `shouldSucceedOn` "{}"
parse pipe "" "|" `shouldParse` "|"
context "Implementation tests" $ do
it "lexes empty block strings" $
parse blockString "" [r|""""""|] `shouldParse` ""
it "lexes ampersand" $
parse amp "" "&" `shouldParse` "&"
runBetween :: (Parser () -> Parser ()) -> Text -> Either (ParseErrorBundle Text Void) ()
runBetween parser = parse (parser $ pure ()) ""

44
tests/Language/GraphQL/AST/ParserSpec.hs Normal file
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@ -0,0 +1,44 @@
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE QuasiQuotes #-}
module Language.GraphQL.AST.ParserSpec
( spec
) where
import Language.GraphQL.AST.Parser
import Test.Hspec (Spec, describe, it)
import Test.Hspec.Megaparsec (shouldSucceedOn)
import Text.Megaparsec (parse)
import Text.RawString.QQ (r)
spec :: Spec
spec = describe "Parser" $ do
it "accepts BOM header" $
parse document "" `shouldSucceedOn` "\xfeff{foo}"
it "accepts block strings as argument" $
parse document "" `shouldSucceedOn` [r|{
hello(text: """Argument""")
}|]
it "accepts strings as argument" $
parse document "" `shouldSucceedOn` [r|{
hello(text: "Argument")
}|]
it "accepts two required arguments" $
parse document "" `shouldSucceedOn` [r|
mutation auth($username: String!, $password: String!){
test
}|]
it "accepts two string arguments" $
parse document "" `shouldSucceedOn` [r|
mutation auth{
test(username: "username", password: "password")
}|]
it "accepts two block string arguments" $
parse document "" `shouldSucceedOn` [r|
mutation auth{
test(username: """username""", password: """password""")
}|]

21
tests/Language/GraphQL/EncoderSpec.hs
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@ -1,21 +0,0 @@
{-# LANGUAGE OverloadedStrings #-}
module Language.GraphQL.EncoderSpec
( spec
) where
import Language.GraphQL.AST ( Value(..))
import Language.GraphQL.Encoder ( value
, minified
)
import Test.Hspec ( Spec
, describe
, it
, shouldBe
)
spec :: Spec
spec = describe "value" $ do
it "escapes \\" $
value minified (ValueString "\\") `shouldBe` "\"\\\\\""
it "escapes quotes" $
value minified (ValueString "\"") `shouldBe` "\"\\\"\""

104
tests/Language/GraphQL/LexerSpec.hs
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@ -1,104 +0,0 @@
{-# LANGUAGE ExplicitForAll #-}
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE QuasiQuotes #-}
module Language.GraphQL.LexerSpec
( spec
) where
import Data.Either (isRight)
import Data.Text (Text)
import Data.Void (Void)
import Language.GraphQL.Lexer
import Test.Hspec ( Spec
, context
, describe
, it
, shouldBe
, shouldSatisfy
)
import Text.Megaparsec ( ParseErrorBundle
, parse
)
import Text.RawString.QQ (r)
spec :: Spec
spec = describe "Lexer" $ do
context "Reference tests" $ do
it "accepts BOM header" $
runParser unicodeBOM "\xfeff" `shouldSatisfy` isRight
it "lexes strings" $ do
runParser string [r|"simple"|] `shouldBe` Right "simple"
runParser string [r|" white space "|] `shouldBe` Right " white space "
runParser string [r|"quote \""|] `shouldBe` Right [r|quote "|]
runParser string [r|"escaped \n"|] `shouldBe` Right "escaped \n"
runParser string [r|"slashes \\ \/"|] `shouldBe` Right [r|slashes \ /|]
runParser string [r|"unicode \u1234\u5678\u90AB\uCDEF"|]
`shouldBe` Right "unicode "
it "lexes block string" $ do
runParser blockString [r|"""simple"""|] `shouldBe` Right "simple"
runParser blockString [r|""" white space """|]
`shouldBe` Right " white space "
runParser blockString [r|"""contains " quote"""|]
`shouldBe` Right [r|contains " quote|]
runParser blockString [r|"""contains \""" triplequote"""|]
`shouldBe` Right [r|contains """ triplequote|]
runParser blockString "\"\"\"multi\nline\"\"\"" `shouldBe` Right "multi\nline"
runParser blockString "\"\"\"multi\rline\r\nnormalized\"\"\""
`shouldBe` Right "multi\nline\nnormalized"
runParser blockString "\"\"\"multi\rline\r\nnormalized\"\"\""
`shouldBe` Right "multi\nline\nnormalized"
runParser blockString [r|"""unescaped \n\r\b\t\f\u1234"""|]
`shouldBe` Right [r|unescaped \n\r\b\t\f\u1234|]
runParser blockString [r|"""slashes \\ \/"""|]
`shouldBe` Right [r|slashes \\ \/|]
runParser blockString [r|"""
spans
multiple
lines
"""|] `shouldBe` Right "spans\n multiple\n lines"
it "lexes numbers" $ do
runParser integer "4" `shouldBe` Right (4 :: Int)
runParser float "4.123" `shouldBe` Right 4.123
runParser integer "-4" `shouldBe` Right (-4 :: Int)
runParser integer "9" `shouldBe` Right (9 :: Int)
runParser integer "0" `shouldBe` Right (0 :: Int)
runParser float "-4.123" `shouldBe` Right (-4.123)
runParser float "0.123" `shouldBe` Right 0.123
runParser float "123e4" `shouldBe` Right 123e4
runParser float "123E4" `shouldBe` Right 123E4
runParser float "123e-4" `shouldBe` Right 123e-4
runParser float "123e+4" `shouldBe` Right 123e+4
runParser float "-1.123e4" `shouldBe` Right (-1.123e4)
runParser float "-1.123E4" `shouldBe` Right (-1.123E4)
runParser float "-1.123e-4" `shouldBe` Right (-1.123e-4)
runParser float "-1.123e+4" `shouldBe` Right (-1.123e+4)
runParser float "-1.123e4567" `shouldBe` Right (-1.123e4567)
it "lexes punctuation" $ do
runParser bang "!" `shouldBe` Right '!'
runParser dollar "$" `shouldBe` Right '$'
runBetween parens "()" `shouldSatisfy` isRight
runParser spread "..." `shouldBe` Right "..."
runParser colon ":" `shouldBe` Right ":"
runParser equals "=" `shouldBe` Right "="
runParser at "@" `shouldBe` Right '@'
runBetween brackets "[]" `shouldSatisfy` isRight
runBetween braces "{}" `shouldSatisfy` isRight
runParser pipe "|" `shouldBe` Right "|"
context "Implementation tests" $ do
it "lexes empty block strings" $
runParser blockString [r|""""""|] `shouldBe` Right ""
it "lexes ampersand" $
runParser amp "&" `shouldBe` Right "&"
runParser :: forall a. Parser a -> Text -> Either (ParseErrorBundle Text Void) a
runParser = flip parse ""
runBetween :: (Parser () -> Parser ()) -> Text -> Either (ParseErrorBundle Text Void) ()
runBetween parser = parse (parser $ pure ()) ""

18
tests/Language/GraphQL/ParserSpec.hs
View File

@ -1,18 +0,0 @@
{-# LANGUAGE OverloadedStrings #-}
module Language.GraphQL.ParserSpec
( spec
) where
import Data.Either (isRight)
import Language.GraphQL.Parser (document)
import Test.Hspec ( Spec
, describe
, it
, shouldSatisfy
)
import Text.Megaparsec (parse)
spec :: Spec
spec = describe "Parser" $
it "accepts BOM header" $
parse document "" "\xfeff{foo}" `shouldSatisfy` isRight

84
tests/Test/DirectiveSpec.hs Normal file
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@ -0,0 +1,84 @@
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE QuasiQuotes #-}
module Test.DirectiveSpec
( spec
) where
import Data.Aeson (Value, object, (.=))
import Data.List.NonEmpty (NonEmpty(..))
import Language.GraphQL
import qualified Language.GraphQL.Schema as Schema
import Test.Hspec (Spec, describe, it, shouldBe)
import Text.RawString.QQ (r)
experimentalResolver :: Schema.Resolver IO
experimentalResolver = Schema.scalar "experimentalField" $ pure (5 :: Int)
emptyObject :: Value
emptyObject = object
[ "data" .= object []
]
spec :: Spec
spec =
describe "Directive executor" $ do
it "should be able to @skip fields" $ do
let query = [r|
{
experimentalField @skip(if: true)
}
|]
actual <- graphql (experimentalResolver :| []) query
actual `shouldBe` emptyObject
it "should not skip fields if @skip is false" $ do
let query = [r|
{
experimentalField @skip(if: false)
}
|]
expected = object
[ "data" .= object
[ "experimentalField" .= (5 :: Int)
]
]
actual <- graphql (experimentalResolver :| []) query
actual `shouldBe` expected
it "should skip fields if @include is false" $ do
let query = [r|
{
experimentalField @include(if: false)
}
|]
actual <- graphql (experimentalResolver :| []) query
actual `shouldBe` emptyObject
it "should be able to @skip a fragment spread" $ do
let query = [r|
{
...experimentalFragment @skip(if: true)
}
fragment experimentalFragment on ExperimentalType {
experimentalField
}
|]
actual <- graphql (experimentalResolver :| []) query
actual `shouldBe` emptyObject
it "should be able to @skip an inline fragment" $ do
let query = [r|
{
... on ExperimentalType @skip(if: true) {
experimentalField
}
}
|]
actual <- graphql (experimentalResolver :| []) query
actual `shouldBe` emptyObject

191
tests/Test/FragmentSpec.hs Normal file
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@ -0,0 +1,191 @@
{-# LANGUAGE OverloadedStrings #-}
{-# LANGUAGE QuasiQuotes #-}
module Test.FragmentSpec
( spec
) where
import Data.Aeson (Value(..), object, (.=))
import qualified Data.HashMap.Strict as HashMap
import Data.List.NonEmpty (NonEmpty(..))
import Data.Text (Text)
import Language.GraphQL
import qualified Language.GraphQL.Schema as Schema
import Test.Hspec ( Spec
, describe
, it
, shouldBe
, shouldSatisfy
, shouldNotSatisfy
)
import Text.RawString.QQ (r)
size :: Schema.Resolver IO
size = Schema.scalar "size" $ return ("L" :: Text)
circumference :: Schema.Resolver IO
circumference = Schema.scalar "circumference" $ return (60 :: Int)
garment :: Text -> Schema.Resolver IO
garment typeName = Schema.object "garment" $ return
[ if typeName == "Hat" then circumference else size
, Schema.scalar "__typename" $ return typeName
]
inlineQuery :: Text
inlineQuery = [r|{
garment {
... on Hat {
circumference
}
... on Shirt {
size
}
}
}|]
hasErrors :: Value -> Bool
hasErrors (Object object') = HashMap.member "errors" object'
hasErrors _ = True
spec :: Spec
spec = do
describe "Inline fragment executor" $ do
it "chooses the first selection if the type matches" $ do
actual <- graphql (garment "Hat" :| []) inlineQuery
let expected = object
[ "data" .= object
[ "garment" .= object
[ "circumference" .= (60 :: Int)
]
]
]
in actual `shouldBe` expected
it "chooses the last selection if the type matches" $ do
actual <- graphql (garment "Shirt" :| []) inlineQuery
let expected = object
[ "data" .= object
[ "garment" .= object
[ "size" .= ("L" :: Text)
]
]
]
in actual `shouldBe` expected
it "embeds inline fragments without type" $ do
let query = [r|{
garment {
circumference
... {
size
}
}
}|]
resolvers = Schema.object "garment" $ return [circumference, size]
actual <- graphql (resolvers :| []) query
let expected = object
[ "data" .= object
[ "garment" .= object
[ "circumference" .= (60 :: Int)
, "size" .= ("L" :: Text)
]
]
]
in actual `shouldBe` expected
it "evaluates fragments on Query" $ do
let query = [r|{
... {
size
}
}|]
actual <- graphql (size :| []) query
actual `shouldNotSatisfy` hasErrors
describe "Fragment spread executor" $ do
it "evaluates fragment spreads" $ do
let query = [r|
{
...circumferenceFragment
}
fragment circumferenceFragment on Hat {
circumference
}
|]
actual <- graphql (circumference :| []) query
let expected = object
[ "data" .= object
[ "circumference" .= (60 :: Int)
]
]
in actual `shouldBe` expected
it "evaluates nested fragments" $ do
let query = [r|
{
garment {
...circumferenceFragment
}
}
fragment circumferenceFragment on Hat {
...hatFragment
}
fragment hatFragment on Hat {
circumference
}
|]
actual <- graphql (garment "Hat" :| []) query
let expected = object
[ "data" .= object
[ "garment" .= object
[ "circumference" .= (60 :: Int)
]
]
]
in actual `shouldBe` expected
it "rejects recursive fragments" $ do
let query = [r|
{
...circumferenceFragment
}
fragment circumferenceFragment on Hat {
...circumferenceFragment
}
|]
actual <- graphql (circumference :| []) query
actual `shouldSatisfy` hasErrors
it "considers type condition" $ do
let query = [r|
{
garment {
...circumferenceFragment
...sizeFragment
}
}
fragment circumferenceFragment on Hat {
circumference
}
fragment sizeFragment on Shirt {
size
}
|]
expected = object
[ "data" .= object
[ "garment" .= object
[ "circumference" .= (60 :: Int)
]
]
]
actual <- graphql (garment "Hat" :| []) query
actual `shouldBe` expected

37
tests/Test/KitchenSinkSpec.hs
View File

@ -6,19 +6,13 @@ module Test.KitchenSinkSpec
import qualified Data.Text.IO as Text.IO
import qualified Data.Text.Lazy.IO as Text.Lazy.IO
import qualified Language.GraphQL.Encoder as Encoder
import qualified Language.GraphQL.Parser as Parser
import qualified Data.Text.Lazy as Lazy (Text)
import qualified Language.GraphQL.AST.Encoder as Encoder
import qualified Language.GraphQL.AST.Parser as Parser
import Paths_graphql (getDataFileName)
import Test.Hspec ( Spec
, describe
, it
)
import Test.Hspec.Expectations ( expectationFailure
, shouldBe
)
import Text.Megaparsec ( errorBundlePretty
, parse
)
import Test.Hspec (Spec, describe, it)
import Test.Hspec.Megaparsec (parseSatisfies)
import Text.Megaparsec (parse)
import Text.RawString.QQ (r)
spec :: Spec
@ -26,17 +20,12 @@ spec = describe "Kitchen Sink" $ do
it "minifies the query" $ do
dataFileName <- getDataFileName "tests/data/kitchen-sink.graphql"
minFileName <- getDataFileName "tests/data/kitchen-sink.min.graphql"
actual <- Text.IO.readFile dataFileName
expected <- Text.Lazy.IO.readFile minFileName
either
(expectationFailure . errorBundlePretty)
(flip shouldBe expected . Encoder.document Encoder.minified)
$ parse Parser.document dataFileName actual
shouldNormalize Encoder.minified dataFileName expected
it "pretty prints the query" $ do
dataFileName <- getDataFileName "tests/data/kitchen-sink.graphql"
actual <- Text.IO.readFile dataFileName
let expected = [r|query queryName($foo: ComplexType, $site: Site = MOBILE) {
whoever123is: node(id: [123, 456]) {
id
@ -70,7 +59,11 @@ fragment frag on Friend {
}
|]
either
(expectationFailure . errorBundlePretty)
(flip shouldBe expected . Encoder.document Encoder.pretty)
$ parse Parser.document dataFileName actual
shouldNormalize Encoder.pretty dataFileName expected
shouldNormalize :: Encoder.Formatter -> FilePath -> Lazy.Text -> IO ()
shouldNormalize formatter dataFileName expected = do
actual <- Text.IO.readFile dataFileName
parse Parser.document dataFileName actual `parseSatisfies` condition
where
condition = (expected ==) . Encoder.document formatter

9
tests/Test/StarWars/Data.hs
View File

@ -26,6 +26,7 @@ import Control.Monad.Trans.Except (throwE)
import Data.Maybe (catMaybes)
import Data.Text (Text)
import Language.GraphQL.Trans
import qualified Language.GraphQL.Type as Type
-- * Data
-- See https://github.com/graphql/graphql-js/blob/master/src/__tests__/starWarsData.js
@ -190,8 +191,8 @@ getDroid' _ = empty
getFriends :: Character -> [Character]
getFriends char = catMaybes $ liftA2 (<|>) getDroid getHuman <$> friends char
getEpisode :: Alternative f => Int -> f Text
getEpisode 4 = pure "NEWHOPE"
getEpisode 5 = pure "EMPIRE"
getEpisode 6 = pure "JEDI"
getEpisode :: Int -> Maybe (Type.Wrapping Text)
getEpisode 4 = pure $ Type.Named "NEWHOPE"
getEpisode 5 = pure $ Type.Named "EMPIRE"
getEpisode 6 = pure $ Type.Named "JEDI"
getEpisode _ = empty

40
tests/Test/StarWars/Schema.hs
View File

@ -11,52 +11,48 @@ module Test.StarWars.Schema
import Control.Monad.Trans.Except (throwE)
import Control.Monad.Trans.Class (lift)
import Control.Monad.IO.Class (MonadIO(..))
import Data.List.NonEmpty (NonEmpty((:|)))
import Language.GraphQL.Schema ( Schema
, Resolver
, Argument(..)
, Value(..)
)
import Data.List.NonEmpty (NonEmpty(..))
import Data.Maybe (catMaybes)
import qualified Language.GraphQL.Schema as Schema
import Language.GraphQL.Trans
import Language.GraphQL.Type
import qualified Language.GraphQL.Type as Type
import Test.StarWars.Data
-- * Schema
-- See https://github.com/graphql/graphql-js/blob/master/src/__tests__/starWarsSchema.js
schema :: MonadIO m => Schema m
schema :: MonadIO m => NonEmpty (Schema.Resolver m)
schema = hero :| [human, droid]
hero :: MonadIO m => Resolver m
hero :: MonadIO m => Schema.Resolver m
hero = Schema.objectA "hero" $ \case
[] -> character artoo
[Argument "episode" (ValueEnum "NEWHOPE")] -> character $ getHero 4
[Argument "episode" (ValueEnum "EMPIRE" )] -> character $ getHero 5
[Argument "episode" (ValueEnum "JEDI" )] -> character $ getHero 6
[Schema.Argument "episode" (Schema.Enum "NEWHOPE")] -> character $ getHero 4
[Schema.Argument "episode" (Schema.Enum "EMPIRE" )] -> character $ getHero 5
[Schema.Argument "episode" (Schema.Enum "JEDI" )] -> character $ getHero 6
_ -> ActionT $ throwE "Invalid arguments."
human :: MonadIO m => Resolver m
human :: MonadIO m => Schema.Resolver m
human = Schema.wrappedObjectA "human" $ \case
[Argument "id" (ValueString i)] -> do
[Schema.Argument "id" (Schema.String i)] -> do
humanCharacter <- lift $ return $ getHuman i >>= Just
case humanCharacter of
Nothing -> return Null
Just e -> Named <$> character e
Nothing -> return Type.Null
Just e -> Type.Named <$> character e
_ -> ActionT $ throwE "Invalid arguments."
droid :: MonadIO m => Resolver m
droid :: MonadIO m => Schema.Resolver m
droid = Schema.objectA "droid" $ \case
[Argument "id" (ValueString i)] -> character =<< liftIO (getDroid i)
[Schema.Argument "id" (Schema.String i)] -> character =<< liftIO (getDroid i)
_ -> ActionT $ throwE "Invalid arguments."
character :: MonadIO m => Character -> ActionT m [Resolver m]
character :: MonadIO m => Character -> ActionT m [Schema.Resolver m]
character char = return
[ Schema.scalar "id" $ return $ id_ char
, Schema.scalar "name" $ return $ name char
, Schema.wrappedObject "friends"
$ traverse character $ List $ Named <$> getFriends char
, Schema.enum "appearsIn" $ return $ foldMap getEpisode $ appearsIn char
$ traverse character $ Type.List $ Type.Named <$> getFriends char
, Schema.wrappedScalar "appearsIn" $ return . Type.List
$ catMaybes (getEpisode <$> appearsIn char)
, Schema.scalar "secretBackstory" $ secretBackstory char
, Schema.scalar "homePlanet" $ return $ either mempty homePlanet char
, Schema.scalar "__typename" $ return $ typeName char