graphql/tests/Language/GraphQL/AST/EncoderSpec.hs

255 lines
12 KiB
Haskell

{-# LANGUAGE OverloadedStrings #-}
module Language.GraphQL.AST.EncoderSpec
( spec
) where
import Data.List.NonEmpty (NonEmpty(..))
import qualified Language.GraphQL.AST.Document as Full
import Language.GraphQL.AST.Encoder
import Test.Hspec (Spec, context, describe, it, shouldBe, shouldStartWith, shouldEndWith, shouldNotContain)
import Test.QuickCheck (choose, oneof, forAll)
import qualified Data.Text.Lazy as Text.Lazy
import qualified Language.GraphQL.AST.DirectiveLocation as DirectiveLocation
spec :: Spec
spec = do
describe "value" $ do
context "minified" $ do
it "encodes null" $
value minified Full.Null `shouldBe` "null"
it "escapes \\" $
value minified (Full.String "\\") `shouldBe` "\"\\\\\""
it "escapes double quotes" $
value minified (Full.String "\"") `shouldBe` "\"\\\"\""
it "escapes \\f" $
value minified (Full.String "\f") `shouldBe` "\"\\f\""
it "escapes \\n" $
value minified (Full.String "\n") `shouldBe` "\"\\n\""
it "escapes \\r" $
value minified (Full.String "\r") `shouldBe` "\"\\r\""
it "escapes \\t" $
value minified (Full.String "\t") `shouldBe` "\"\\t\""
it "escapes backspace" $
value minified (Full.String "a\bc") `shouldBe` "\"a\\bc\""
context "escapes Unicode for chars less than 0010" $ do
it "Null" $ value minified (Full.String "\x0000") `shouldBe` "\"\\u0000\""
it "bell" $ value minified (Full.String "\x0007") `shouldBe` "\"\\u0007\""
context "escapes Unicode for char less than 0020" $ do
it "DLE" $ value minified (Full.String "\x0010") `shouldBe` "\"\\u0010\""
it "EM" $ value minified (Full.String "\x0019") `shouldBe` "\"\\u0019\""
context "encodes without escape" $ do
it "space" $ value minified (Full.String "\x0020") `shouldBe` "\" \""
it "~" $ value minified (Full.String "\x007E") `shouldBe` "\"~\""
context "pretty" $ do
it "encodes null" $
value pretty Full.Null `shouldBe` "null"
it "uses strings for short string values" $
value pretty (Full.String "Short text") `shouldBe` "\"Short text\""
it "uses block strings for text with new lines, with newline symbol" $
let expected = "\"\"\"\n\
\ Line 1\n\
\ Line 2\n\
\\"\"\""
actual = value pretty $ Full.String "Line 1\nLine 2"
in actual `shouldBe` expected
it "uses block strings for text with new lines, with CR symbol" $
let expected = "\"\"\"\n\
\ Line 1\n\
\ Line 2\n\
\\"\"\""
actual = value pretty $ Full.String "Line 1\rLine 2"
in actual `shouldBe` expected
it "uses block strings for text with new lines, with CR symbol followed by newline" $
let expected = "\"\"\"\n\
\ Line 1\n\
\ Line 2\n\
\\"\"\""
actual = value pretty $ Full.String "Line 1\r\nLine 2"
in actual `shouldBe` expected
it "encodes as one line string if has escaped symbols" $ do
let genNotAllowedSymbol = oneof
[ choose ('\x0000', '\x0008')
, choose ('\x000B', '\x000C')
, choose ('\x000E', '\x001F')
, pure '\x007F'
]
forAll genNotAllowedSymbol $ \x -> do
let rawValue = "Short \n" <> Text.Lazy.cons x "text"
encoded = Text.Lazy.unpack
$ value pretty
$ Full.String
$ Text.Lazy.toStrict rawValue
shouldStartWith encoded "\""
shouldEndWith encoded "\""
shouldNotContain encoded "\"\"\""
it "Hello world" $
let actual = value pretty
$ Full.String "Hello,\n World!\n\nYours,\n GraphQL."
expected = "\"\"\"\n\
\ Hello,\n\
\ World!\n\
\\n\
\ Yours,\n\
\ GraphQL.\n\
\\"\"\""
in actual `shouldBe` expected
it "has only newlines" $
let actual = value pretty $ Full.String "\n"
expected = "\"\"\"\n\n\n\"\"\""
in actual `shouldBe` expected
it "has newlines and one symbol at the begining" $
let actual = value pretty $ Full.String "a\n\n"
expected = "\"\"\"\n\
\ a\n\
\\n\
\\n\
\\"\"\""
in actual `shouldBe` expected
it "has newlines and one symbol at the end" $
let actual = value pretty $ Full.String "\n\na"
expected = "\"\"\"\n\
\\n\
\\n\
\ a\n\
\\"\"\""
in actual `shouldBe` expected
it "has newlines and one symbol in the middle" $
let actual = value pretty $ Full.String "\na\n"
expected = "\"\"\"\n\
\\n\
\ a\n\
\\n\
\\"\"\""
in actual `shouldBe` expected
it "skip trailing whitespaces" $
let actual = value pretty $ Full.String " Short\ntext "
expected = "\"\"\"\n\
\ Short\n\
\ text\n\
\\"\"\""
in actual `shouldBe` expected
describe "definition" $
it "indents block strings in arguments" $
let location = Full.Location 0 0
argumentValue = Full.Node (Full.String "line1\nline2") location
arguments = [Full.Argument "message" argumentValue location]
field = Full.Field Nothing "field" arguments [] [] location
fieldSelection = pure $ Full.FieldSelection field
operation = Full.DefinitionOperation
$ Full.SelectionSet fieldSelection location
expected = "{\n\
\ field(message: \"\"\"\n\
\ line1\n\
\ line2\n\
\ \"\"\")\n\
\}\n"
actual = definition pretty operation
in actual `shouldBe` expected
describe "operationType" $
it "produces lowercase mutation operation type" $
let actual = operationType pretty Full.Mutation
in actual `shouldBe` "mutation"
describe "typeSystemDefinition" $ do
it "produces a schema with an indented operation type definition" $
let queryType = Full.OperationTypeDefinition Full.Query "QueryRootType"
mutationType = Full.OperationTypeDefinition Full.Mutation "MutationType"
operations = queryType :| pure mutationType
definition' = Full.SchemaDefinition [] operations
expected = "schema {\n\
\ query: QueryRootType\n\
\ mutation: MutationType\n\
\}\n"
actual = typeSystemDefinition pretty definition'
in actual `shouldBe` expected
it "encodes a scalar type definition" $
let uuidType = Full.ScalarTypeDefinition mempty "UUID" mempty
definition' = Full.TypeDefinition uuidType
expected = "scalar UUID"
actual = typeSystemDefinition pretty definition'
in actual `shouldBe` expected
it "encodes an interface definition" $
let someType = Full.TypeNamed "String"
argument = Full.InputValueDefinition mempty "arg" someType Nothing mempty
arguments = Full.ArgumentsDefinition [argument]
definition' = Full.TypeDefinition
$ Full.InterfaceTypeDefinition mempty "UUID" mempty
$ pure
$ Full.FieldDefinition mempty "value" arguments someType mempty
expected = "interface UUID {\n\
\ value(arg: String): String\n\
\}"
actual = typeSystemDefinition pretty definition'
in actual `shouldBe` expected
it "encodes an union definition" $
let definition' = Full.TypeDefinition
$ Full.UnionTypeDefinition mempty "SearchResult" mempty
$ Full.UnionMemberTypes ["Photo", "Person"]
expected = "union SearchResult =\n\
\ | Photo\n\
\ | Person"
actual = typeSystemDefinition pretty definition'
in actual `shouldBe` expected
it "encodes an enum definition" $
let values =
[ Full.EnumValueDefinition mempty "NORTH" mempty
, Full.EnumValueDefinition mempty "EAST" mempty
, Full.EnumValueDefinition mempty "SOUTH" mempty
, Full.EnumValueDefinition mempty "WEST" mempty
]
definition' = Full.TypeDefinition
$ Full.EnumTypeDefinition mempty "Direction" mempty values
expected = "enum Direction {\n\
\ NORTH\n\
\ EAST\n\
\ SOUTH\n\
\ WEST\n\
\}"
actual = typeSystemDefinition pretty definition'
in actual `shouldBe` expected
it "encodes an input type" $
let intType = Full.TypeNonNull $ Full.NonNullTypeNamed "Int"
stringType = Full.TypeNamed "String"
fields =
[ Full.InputValueDefinition mempty "a" stringType Nothing mempty
, Full.InputValueDefinition mempty "b" intType Nothing mempty
]
definition' = Full.TypeDefinition
$ Full.InputObjectTypeDefinition mempty "ExampleInputObject" mempty fields
expected = "input ExampleInputObject {\n\
\ a: String\n\
\ b: Int!\n\
\}"
actual = typeSystemDefinition pretty definition'
in actual `shouldBe` expected
context "directive definition" $ do
it "encodes a directive definition" $ do
let definition' = Full.DirectiveDefinition mempty "example" mempty False
$ pure
$ DirectiveLocation.ExecutableDirectiveLocation DirectiveLocation.Field
expected = "@example() on\n\
\ | FIELD"
actual = typeSystemDefinition pretty definition'
in actual `shouldBe` expected
it "encodes a repeatable directive definition" $ do
let definition' = Full.DirectiveDefinition mempty "example" mempty True
$ pure
$ DirectiveLocation.ExecutableDirectiveLocation DirectiveLocation.Field
expected = "@example() repeatable on\n\
\ | FIELD"
actual = typeSystemDefinition pretty definition'
in actual `shouldBe` expected