Add final features to JSON coder module
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module Internal.Tools.Decode exposing
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( Decoder, string, bool, int, float
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, nullable, list, slowDict, fastDict, keyValuePairs
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, field, at, index, opField, opFieldWithDefault
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, maybe, oneOf
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, map, map2, map3, map4, map5, map6, map7, map8, map9, map10, map11
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, lazy, value, null, succeed, fail, andThen
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, pString, pBool, pInt, pList
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)
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{-|
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# Advanced security Json.Decode
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This module extends the standard JSON encode / decode library for security
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measures. Most Elm libraries do not access an API this often without insight
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for the user, and hence this module aims to offer the user more insight into
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what is going on.
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Additionally, the decoder will warn for suspicious values, and provide helpful
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errors when the JSON fails to decode.
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## Primitives
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@docs Decoder, string, bool, int, float
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## Data structures
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@docs nullable, list, slowDict, fastDict, keyValuePairs
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## Object primitives
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@docs field, at, index, opField, opFieldWithDefault
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## Inconsistent structure
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@docs maybe, oneOf
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## Mapping
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@docs map, map2, map3, map4, map5, map6, map7, map8, map9, map10, map11
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## Fancy decoding
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@docs lazy, value, null, succeed, fail, andThen
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## Phantom decoding
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Phantom decoders allow you to create phantom types of standard Elm types.
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@docs pString, pBool, pInt, pList
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-}
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import Dict as SDict
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import FastDict as FDict
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import Internal.Config.Leaks as L
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import Internal.Config.Log as Log
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import Internal.Config.Phantom as Phantom
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import Internal.Config.Text as Text
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import Internal.Tools.DecodeExtra as D
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import Json.Decode as D
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import Set
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{-| A value that knows how to decode JSON values.
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-}
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type alias Decoder a =
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D.Decoder { content : a, messages : List ( String, String ) }
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{-| Create decoders that depend on previous results.
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-}
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andThen : (a -> Decoder b) -> Decoder a -> Decoder b
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andThen func =
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D.andThen
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(\a ->
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D.map
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(\b -> { b | messages = a.messages ++ b.messages })
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(func a.content)
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)
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{-| Decode a nested JSON object, requiring certain fields.
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-}
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at : List String -> Decoder a -> Decoder a
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at =
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D.at
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{-| Decode a JSON boolean into an Elm bool.
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-}
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bool : Decoder Bool
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bool =
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D.map empty D.bool
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{-| Initialize a standard object for the decoder.
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-}
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empty : a -> { content : a, messages : List ( String, String ) }
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empty x =
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{ content = x, messages = [] }
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{-| Ignore the JSON and make the decoder fail.
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-}
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fail : String -> Decoder a
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fail =
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D.fail
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{-| Decode a JSON object into a fast Elm dict from miniBill/elm-fast-dict.
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-}
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fastDict : Decoder a -> Decoder (FDict.Dict String a)
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fastDict x =
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keyValuePairs x
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|> andThen
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(\pairs ->
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let
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dict =
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FDict.fromList pairs
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oldLength =
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List.length pairs
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newLength =
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FDict.size dict
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in
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if oldLength == newLength then
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succeed dict
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else
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D.succeed
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{ content = dict
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, messages =
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[ ( Log.warn, Text.decodedDictSize oldLength newLength ) ]
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}
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)
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{-| Decode a JSON object, requiring a particular field.
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-}
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field : String -> Decoder a -> Decoder a
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field =
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D.field
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{-| Decode a JSON number into an Elm flaot.
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-}
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float : Decoder Float
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float =
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D.map empty D.float
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{-| Decode a JSON array, requiring a particular index.
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-}
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index : Int -> Decoder a -> Decoder a
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index =
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D.index
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{-| Decode a JSON number into an Elm int.
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-}
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int : Decoder Int
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int =
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D.map empty D.int
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{-| Decode a JSON object into a list of pairs.
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-}
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keyValuePairs : Decoder a -> Decoder (List ( String, a ))
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keyValuePairs x =
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D.map
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(\result ->
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{ content = List.map (Tuple.mapSecond .content) result
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, messages =
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result
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|> List.map Tuple.second
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|> List.map .messages
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|> List.concat
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}
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)
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(D.keyValuePairs x)
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{-| Sometimes you have JSON with recursive structure, like nested comments.
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You can use `lazy` to make sure your decoder unrolls lazily.
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-}
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lazy : (() -> Decoder a) -> Decoder a
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lazy =
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D.lazy
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{-| Decode a JSON array into an Elm list.
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-}
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list : Decoder a -> Decoder (List a)
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list x =
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D.map
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(\result ->
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{ content = List.map .content result
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, messages =
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result
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|> List.map .messages
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|> List.concat
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}
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)
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(D.list x)
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{-| Transform a decoder.
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-}
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map : (a -> value) -> Decoder a -> Decoder value
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map func da =
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D.map
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(\a ->
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{ content = func a.content
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, messages = a.messages
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}
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)
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da
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{-| Try two decoders and combine the result.
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-}
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map2 : (a -> b -> value) -> Decoder a -> Decoder b -> Decoder value
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map2 func da db =
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D.map2
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(\a b ->
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{ content = func a.content b.content
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, messages =
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List.concat
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[ a.messages
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, b.messages
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]
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}
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)
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da
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db
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{-| Try three decoders and combine the result.
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-}
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map3 : (a -> b -> c -> value) -> Decoder a -> Decoder b -> Decoder c -> Decoder value
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map3 func da db dc =
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D.map3
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(\a b c ->
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{ content = func a.content b.content c.content
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, messages =
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List.concat
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[ a.messages
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, b.messages
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, c.messages
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]
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}
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)
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da
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db
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dc
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{-| Try four decoders and combine the result.
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-}
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map4 : (a -> b -> c -> d -> value) -> Decoder a -> Decoder b -> Decoder c -> Decoder d -> Decoder value
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map4 func da db dc dd =
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D.map4
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(\a b c d ->
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{ content = func a.content b.content c.content d.content
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, messages =
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List.concat
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[ a.messages
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, b.messages
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, c.messages
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, d.messages
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]
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}
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)
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da
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db
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dc
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dd
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{-| Try five decoders and combine the result.
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-}
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map5 : (a -> b -> c -> d -> e -> value) -> Decoder a -> Decoder b -> Decoder c -> Decoder d -> Decoder e -> Decoder value
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map5 func da db dc dd de =
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D.map5
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(\a b c d e ->
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{ content = func a.content b.content c.content d.content e.content
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, messages =
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List.concat
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[ a.messages
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, b.messages
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, c.messages
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, d.messages
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, e.messages
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]
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}
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)
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da
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db
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dc
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dd
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de
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{-| Try six decoders and combine the result.
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-}
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map6 : (a -> b -> c -> d -> e -> f -> value) -> Decoder a -> Decoder b -> Decoder c -> Decoder d -> Decoder e -> Decoder f -> Decoder value
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map6 func da db dc dd de df =
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D.map6
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(\a b c d e f ->
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{ content = func a.content b.content c.content d.content e.content f.content
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, messages =
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List.concat
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[ a.messages
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, b.messages
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, c.messages
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, d.messages
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, e.messages
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, f.messages
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]
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}
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)
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da
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db
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dc
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dd
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de
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df
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{-| Try seven decoders and combine the result.
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-}
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map7 : (a -> b -> c -> d -> e -> f -> g -> value) -> Decoder a -> Decoder b -> Decoder c -> Decoder d -> Decoder e -> Decoder f -> Decoder g -> Decoder value
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map7 func da db dc dd de df dg =
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D.map7
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(\a b c d e f g ->
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{ content = func a.content b.content c.content d.content e.content f.content g.content
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, messages =
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List.concat
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[ a.messages
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, b.messages
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, c.messages
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, d.messages
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, e.messages
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, f.messages
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, g.messages
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]
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}
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)
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da
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db
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dc
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dd
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de
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df
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dg
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{-| Try eight decoders and combine the result.
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-}
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map8 : (a -> b -> c -> d -> e -> f -> g -> h -> value) -> Decoder a -> Decoder b -> Decoder c -> Decoder d -> Decoder e -> Decoder f -> Decoder g -> Decoder h -> Decoder value
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map8 func da db dc dd de df dg dh =
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D.map8
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(\a b c d e f g h ->
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{ content = func a.content b.content c.content d.content e.content f.content g.content h.content
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, messages =
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List.concat
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[ a.messages
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, b.messages
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, c.messages
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, d.messages
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, e.messages
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, f.messages
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, g.messages
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, h.messages
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]
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}
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)
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da
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db
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dc
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dd
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de
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df
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dg
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dh
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{-| Try 9 decoders and combine the result.
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-}
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map9 :
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(a -> b -> c -> d -> e -> f -> g -> h -> i -> value)
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-> Decoder a
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-> Decoder b
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-> Decoder c
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-> Decoder d
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-> Decoder e
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-> Decoder f
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-> Decoder g
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-> Decoder h
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-> Decoder i
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-> Decoder value
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map9 func da db dc dd de df dg dh di =
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D.map8
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(\a b c d e f g ( h, i ) ->
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{ content = func a.content b.content c.content d.content e.content f.content g.content h.content i.content
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, messages =
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List.concat
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[ a.messages
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, b.messages
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, c.messages
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, d.messages
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, e.messages
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, f.messages
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, g.messages
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, h.messages
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, i.messages
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]
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}
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)
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da
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db
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dc
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dd
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de
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df
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dg
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(D.map2 Tuple.pair dh di)
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{-| Try 10 decoders and combine the result.
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-}
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map10 :
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(a -> b -> c -> d -> e -> f -> g -> h -> i -> j -> value)
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-> Decoder a
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-> Decoder b
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-> Decoder c
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-> Decoder d
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-> Decoder e
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-> Decoder f
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-> Decoder g
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-> Decoder h
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-> Decoder i
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-> Decoder j
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-> Decoder value
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map10 func da db dc dd de df dg dh di dj =
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D.map8
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(\a b c d e f ( g, h ) ( i, j ) ->
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{ content = func a.content b.content c.content d.content e.content f.content g.content h.content i.content j.content
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, messages =
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List.concat
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[ a.messages
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, b.messages
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, c.messages
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, d.messages
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, e.messages
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, f.messages
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, g.messages
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, h.messages
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, i.messages
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, j.messages
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]
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}
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)
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da
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db
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dc
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dd
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de
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df
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(D.map2 Tuple.pair dg dh)
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(D.map2 Tuple.pair di dj)
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{-| Try 11 decoders and combine the result.
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-}
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map11 :
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(a -> b -> c -> d -> e -> f -> g -> h -> i -> j -> k -> value)
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-> Decoder a
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-> Decoder b
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-> Decoder c
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-> Decoder d
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-> Decoder e
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-> Decoder f
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-> Decoder g
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-> Decoder h
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-> Decoder i
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-> Decoder j
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-> Decoder k
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-> Decoder value
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map11 func da db dc dd de df dg dh di dj dk =
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D.map8
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(\a b c d e ( f, g ) ( h, i ) ( j, k ) ->
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{ content = func a.content b.content c.content d.content e.content f.content g.content h.content i.content j.content k.content
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, messages =
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List.concat
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[ a.messages
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, b.messages
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, c.messages
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, d.messages
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, e.messages
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, f.messages
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, g.messages
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, h.messages
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, i.messages
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, j.messages
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, k.messages
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]
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}
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)
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da
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db
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dc
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dd
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de
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(D.map2 Tuple.pair df dg)
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(D.map2 Tuple.pair dh di)
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(D.map2 Tuple.pair dj dk)
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{-| Helpful for dealing with optional fields
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-}
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maybe : Decoder a -> Decoder (Maybe a)
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maybe x =
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D.map
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(\result ->
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case result of
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Just { content, messages } ->
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{ content = Just content, messages = messages }
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Nothing ->
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empty Nothing
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)
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(D.maybe x)
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{-| Decode a `null` value into some Elm value.
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-}
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null : a -> Decoder a
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null =
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D.null >> D.map empty
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{-| Decode a nullable JSON value into an Elm value.
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-}
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nullable : Decoder a -> Decoder (Maybe a)
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nullable x =
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D.map
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(\result ->
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case result of
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Just { content, messages } ->
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{ content = Just content, messages = messages }
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Nothing ->
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empty Nothing
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)
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(D.nullable x)
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{-| Try a bunch of different decoders. This can be useful if the JSON may come
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in a couple different formats.
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-}
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oneOf : List (Decoder a) -> Decoder a
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oneOf =
|
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D.oneOf
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|
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|
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{-| Decode a JSON object, requiring a particular field:
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|
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- If the field does not exist, the decoder decodes `Nothing`
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- If the field DOES exist, the decoder must always return a `Just content` or fail
|
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|
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-}
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opField : String -> Decoder a -> Decoder (Maybe a)
|
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opField key x =
|
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D.map
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||||
(\result ->
|
||||
case result of
|
||||
Just { content, messages } ->
|
||||
{ content = Just content, messages = messages }
|
||||
|
||||
Nothing ->
|
||||
empty Nothing
|
||||
)
|
||||
(D.opField key x)
|
||||
|
||||
|
||||
{-| Decode a JSON object, requiring a particular field or raising a default:
|
||||
|
||||
- If the field does not exist, the decoder returns the default
|
||||
- If the field DOES exist, the decoder must always return value or fail
|
||||
|
||||
-}
|
||||
opFieldWithDefault : String -> a -> Decoder a -> Decoder a
|
||||
opFieldWithDefault key default x =
|
||||
opField key x |> map (Maybe.withDefault default)
|
||||
|
||||
|
||||
{-| Transform a JSON boolean into a phantom Elm bool.
|
||||
-}
|
||||
pBool : Decoder Bool -> Decoder (Phantom.PBool ph)
|
||||
pBool =
|
||||
map Phantom.PBool
|
||||
|
||||
|
||||
{-| Transform a JSON number into a phantom Elm int.
|
||||
-}
|
||||
pInt : Decoder Int -> Decoder (Phantom.PInt ph)
|
||||
pInt =
|
||||
map Phantom.PInt
|
||||
|
||||
|
||||
{-| Transform a JSON list into a phantom Elm list.
|
||||
-}
|
||||
pList : Decoder (List a) -> Decoder (Phantom.PList ph a)
|
||||
pList =
|
||||
map Phantom.PList
|
||||
|
||||
|
||||
{-| Transform a JSON string into a phantom Elm string.
|
||||
-}
|
||||
pString : Decoder String -> Decoder (Phantom.PString ph)
|
||||
pString =
|
||||
map Phantom.PString
|
||||
|
||||
|
||||
{-| Decode a JSON object into an Elm dict.
|
||||
-}
|
||||
slowDict : Decoder a -> Decoder (SDict.Dict String a)
|
||||
slowDict x =
|
||||
D.map
|
||||
(\result ->
|
||||
{ content =
|
||||
result
|
||||
|> List.map (Tuple.mapSecond .content)
|
||||
|> SDict.fromList
|
||||
, messages =
|
||||
result
|
||||
|> List.map Tuple.second
|
||||
|> List.map .messages
|
||||
|> List.concat
|
||||
}
|
||||
)
|
||||
(D.keyValuePairs x)
|
||||
|
||||
|
||||
{-| Decode a JSON string into an Elm string.
|
||||
|
||||
This decoder also checks for suspicious inputs, such as the
|
||||
[Leaking values](Internal-Config-Leaks), to look for suspicious inputs.
|
||||
|
||||
-}
|
||||
string : Decoder String
|
||||
string =
|
||||
D.map
|
||||
(\content ->
|
||||
{ content = content
|
||||
, messages =
|
||||
if Set.member content L.allLeaks then
|
||||
[ ( Log.securityWarn, Text.leakingValueFound content )
|
||||
]
|
||||
|
||||
else
|
||||
[]
|
||||
}
|
||||
)
|
||||
D.string
|
||||
|
||||
|
||||
{-| Ignore the JSON and produce a certain Elm value.
|
||||
-}
|
||||
succeed : a -> Decoder a
|
||||
succeed =
|
||||
D.succeed >> D.map empty
|
||||
|
||||
|
||||
{-| Do not do anything with a JSON value, just bring it into Elm as a `Value`.
|
||||
-}
|
||||
value : Decoder D.Value
|
||||
value =
|
||||
D.map empty D.value
|
|
@ -1,10 +1,12 @@
|
|||
module Internal.Tools.Json exposing
|
||||
( Coder, string, bool, int, float
|
||||
, encode, decode
|
||||
( Coder, string, bool, int, float, value
|
||||
, Encoder, encode, Decoder, decode, Value
|
||||
, succeed, fail, andThen, lazy
|
||||
, Docs(..), RequiredField(..), toDocs
|
||||
, list, slowDict, fastDict, maybe
|
||||
, Field, field
|
||||
, object2, object3, object4, object5, object6, object7, object8, object9, object10, object11
|
||||
, map
|
||||
)
|
||||
|
||||
{-|
|
||||
|
@ -28,12 +30,17 @@ data types. Because this module uses dynamic builder types, this also means it
|
|||
is relatively easy to write documentation for any data type that uses this
|
||||
module to build its encoders and decoders.
|
||||
|
||||
@docs Coder, string, bool, int, float
|
||||
@docs Coder, string, bool, int, float, value
|
||||
|
||||
|
||||
## JSON Coding
|
||||
|
||||
@docs encode, decode
|
||||
@docs Encoder, encode, Decoder, decode, Value
|
||||
|
||||
|
||||
## Optional coding
|
||||
|
||||
@docs succeed, fail, andThen, lazy
|
||||
|
||||
|
||||
## Documentation
|
||||
|
@ -109,6 +116,22 @@ type Coder a
|
|||
}
|
||||
|
||||
|
||||
type DecodeResult a
|
||||
= Success ( a, List Log )
|
||||
| Fail ( String, List Log )
|
||||
|
||||
|
||||
{-| Decoder type that describes the format of a JSON value that can be decoded
|
||||
as a given type.
|
||||
-}
|
||||
type alias Decoder a =
|
||||
D.Decoder ( a, List Log )
|
||||
|
||||
|
||||
type alias Descriptive a =
|
||||
{ a | name : String, description : List String }
|
||||
|
||||
|
||||
{-| Structure of JSON documentation. It is up to an external module to turn the
|
||||
documentation structure into a readable format.
|
||||
-}
|
||||
|
@ -117,20 +140,30 @@ type Docs
|
|||
| DocsDict Docs
|
||||
| DocsFloat
|
||||
| DocsInt
|
||||
| DocsLazy (() -> Docs)
|
||||
| DocsList Docs
|
||||
| DocsMap (Descriptive { content : Docs })
|
||||
| DocsObject
|
||||
{ name : String
|
||||
, description : List String
|
||||
, keys :
|
||||
List
|
||||
{ field : String
|
||||
, description : List String
|
||||
, required : RequiredField
|
||||
, content : Docs
|
||||
}
|
||||
}
|
||||
(Descriptive
|
||||
{ keys :
|
||||
List
|
||||
{ field : String
|
||||
, description : List String
|
||||
, required : RequiredField
|
||||
, content : Docs
|
||||
}
|
||||
}
|
||||
)
|
||||
| DocsOptional Docs
|
||||
| DocsRiskyMap (Descriptive { content : Docs, failure : List String })
|
||||
| DocsString
|
||||
| DocsValue
|
||||
|
||||
|
||||
{-| Encoder type that takes an input and converts it to a JSON value.
|
||||
-}
|
||||
type alias Encoder a =
|
||||
a -> E.Value
|
||||
|
||||
|
||||
{-| Value that tells whether an object field is required to be included. If it
|
||||
|
@ -143,6 +176,42 @@ type RequiredField
|
|||
| OptionalFieldWithDefault String
|
||||
|
||||
|
||||
type alias Value =
|
||||
E.Value
|
||||
|
||||
|
||||
{-| Continue decoding a result. This function tests if it meets the criteria,
|
||||
and then it manages the results.
|
||||
-}
|
||||
andThen : Descriptive { back : b -> a, forth : a -> DecodeResult b, failure : List String } -> Coder a -> Coder b
|
||||
andThen { name, description, failure, back, forth } (Coder old) =
|
||||
Coder
|
||||
{ encoder = back >> old.encoder
|
||||
, decoder =
|
||||
old.decoder
|
||||
|> D.andThen
|
||||
(\result ->
|
||||
case result of
|
||||
( out, logs ) ->
|
||||
case forth out of
|
||||
Success x ->
|
||||
x
|
||||
|> Tuple.mapSecond (List.append logs)
|
||||
|> D.succeed
|
||||
|
||||
Fail ( f, _ ) ->
|
||||
D.fail f
|
||||
)
|
||||
, docs =
|
||||
DocsRiskyMap
|
||||
{ name = name
|
||||
, description = description
|
||||
, content = old.docs
|
||||
, failure = failure
|
||||
}
|
||||
}
|
||||
|
||||
|
||||
{-| Define a boolean value.
|
||||
-}
|
||||
bool : Coder Bool
|
||||
|
@ -190,14 +259,21 @@ encode (Coder data) =
|
|||
data.encoder
|
||||
|
||||
|
||||
{-| Fail a decoder.
|
||||
-}
|
||||
fail : String -> List Log -> DecodeResult a
|
||||
fail reason logs =
|
||||
Fail ( reason, logs )
|
||||
|
||||
|
||||
{-| Define a fast dict. The dict can only have strings as keys.
|
||||
-}
|
||||
fastDict : Coder value -> Coder (FastDict.Dict String value)
|
||||
fastDict (Coder value) =
|
||||
fastDict (Coder old) =
|
||||
Coder
|
||||
{ encoder = FastDict.toCoreDict >> E.dict identity value.encoder
|
||||
{ encoder = FastDict.toCoreDict >> E.dict identity old.encoder
|
||||
, decoder =
|
||||
value.decoder
|
||||
old.decoder
|
||||
|> D.keyValuePairs
|
||||
|> D.map
|
||||
(\items ->
|
||||
|
@ -209,7 +285,7 @@ fastDict (Coder value) =
|
|||
|> List.concatMap Tuple.second
|
||||
)
|
||||
)
|
||||
, docs = DocsDict value.docs
|
||||
, docs = DocsDict old.docs
|
||||
}
|
||||
|
||||
|
||||
|
@ -287,8 +363,8 @@ field =
|
|||
decoder
|
||||
|> D.opField fieldName
|
||||
|> D.map
|
||||
(\value ->
|
||||
case value of
|
||||
(\out ->
|
||||
case out of
|
||||
Just ( v, l ) ->
|
||||
( Just v, l )
|
||||
|
||||
|
@ -341,6 +417,25 @@ int =
|
|||
}
|
||||
|
||||
|
||||
lazy : (() -> Coder value) -> Coder value
|
||||
lazy f =
|
||||
Coder
|
||||
{ encoder =
|
||||
\v ->
|
||||
case f () of
|
||||
Coder old ->
|
||||
old.encoder v
|
||||
, decoder =
|
||||
D.lazy
|
||||
(\() ->
|
||||
case f () of
|
||||
Coder old ->
|
||||
old.decoder
|
||||
)
|
||||
, docs = DocsLazy (f >> toDocs)
|
||||
}
|
||||
|
||||
|
||||
{-| Define a list.
|
||||
-}
|
||||
list : Coder a -> Coder (List a)
|
||||
|
@ -360,6 +455,23 @@ list (Coder old) =
|
|||
}
|
||||
|
||||
|
||||
{-| Map a value.
|
||||
|
||||
Given that the value needs to be both encoded and decoded, the map function
|
||||
should be invertible.
|
||||
|
||||
-}
|
||||
map : Descriptive { back : b -> a, forth : a -> b } -> Coder a -> Coder b
|
||||
map { name, description, back, forth } (Coder old) =
|
||||
Coder
|
||||
{ encoder = back >> old.encoder
|
||||
, decoder = D.map (Tuple.mapFirst forth) old.decoder
|
||||
, docs =
|
||||
DocsMap
|
||||
{ name = name, description = description, content = old.docs }
|
||||
}
|
||||
|
||||
|
||||
{-| Define a maybe value.
|
||||
|
||||
NOTE: most of the time, you wish to avoid this function! Make sure to look at
|
||||
|
@ -374,8 +486,8 @@ maybe (Coder old) =
|
|||
old.decoder
|
||||
|> D.nullable
|
||||
|> D.map
|
||||
(\value ->
|
||||
case value of
|
||||
(\out ->
|
||||
case out of
|
||||
Just ( v, logs ) ->
|
||||
( Just v, logs )
|
||||
|
||||
|
@ -430,7 +542,7 @@ objectEncoder items object =
|
|||
|
||||
-}
|
||||
object2 :
|
||||
{ name : String, description : List String, init : a -> b -> object }
|
||||
Descriptive { init : a -> b -> object }
|
||||
-> Field a object
|
||||
-> Field b object
|
||||
-> Coder object
|
||||
|
@ -465,7 +577,7 @@ object2 { name, description, init } fa fb =
|
|||
{-| Define an object with 3 keys
|
||||
-}
|
||||
object3 :
|
||||
{ name : String, description : List String, init : a -> b -> c -> object }
|
||||
Descriptive { init : a -> b -> c -> object }
|
||||
-> Field a object
|
||||
-> Field b object
|
||||
-> Field c object
|
||||
|
@ -504,7 +616,7 @@ object3 { name, description, init } fa fb fc =
|
|||
{-| Define an object with 4 keys
|
||||
-}
|
||||
object4 :
|
||||
{ name : String, description : List String, init : a -> b -> c -> d -> object }
|
||||
Descriptive { init : a -> b -> c -> d -> object }
|
||||
-> Field a object
|
||||
-> Field b object
|
||||
-> Field c object
|
||||
|
@ -547,7 +659,7 @@ object4 { name, description, init } fa fb fc fd =
|
|||
{-| Define an object with 5 keys
|
||||
-}
|
||||
object5 :
|
||||
{ name : String, description : List String, init : a -> b -> c -> d -> e -> object }
|
||||
Descriptive { init : a -> b -> c -> d -> e -> object }
|
||||
-> Field a object
|
||||
-> Field b object
|
||||
-> Field c object
|
||||
|
@ -594,7 +706,7 @@ object5 { name, description, init } fa fb fc fd fe =
|
|||
{-| Define an object with 6 keys
|
||||
-}
|
||||
object6 :
|
||||
{ name : String, description : List String, init : a -> b -> c -> d -> e -> f -> object }
|
||||
Descriptive { init : a -> b -> c -> d -> e -> f -> object }
|
||||
-> Field a object
|
||||
-> Field b object
|
||||
-> Field c object
|
||||
|
@ -645,7 +757,7 @@ object6 { name, description, init } fa fb fc fd fe ff =
|
|||
{-| Define an object with 7 keys
|
||||
-}
|
||||
object7 :
|
||||
{ name : String, description : List String, init : a -> b -> c -> d -> e -> f -> g -> object }
|
||||
Descriptive { init : a -> b -> c -> d -> e -> f -> g -> object }
|
||||
-> Field a object
|
||||
-> Field b object
|
||||
-> Field c object
|
||||
|
@ -700,7 +812,7 @@ object7 { name, description, init } fa fb fc fd fe ff fg =
|
|||
{-| Define an object with 8 keys
|
||||
-}
|
||||
object8 :
|
||||
{ name : String, description : List String, init : a -> b -> c -> d -> e -> f -> g -> h -> object }
|
||||
Descriptive { init : a -> b -> c -> d -> e -> f -> g -> h -> object }
|
||||
-> Field a object
|
||||
-> Field b object
|
||||
-> Field c object
|
||||
|
@ -759,7 +871,7 @@ object8 { name, description, init } fa fb fc fd fe ff fg fh =
|
|||
{-| Define an object with 9 keys
|
||||
-}
|
||||
object9 :
|
||||
{ name : String, description : List String, init : a -> b -> c -> d -> e -> f -> g -> h -> i -> object }
|
||||
Descriptive { init : a -> b -> c -> d -> e -> f -> g -> h -> i -> object }
|
||||
-> Field a object
|
||||
-> Field b object
|
||||
-> Field c object
|
||||
|
@ -822,7 +934,7 @@ object9 { name, description, init } fa fb fc fd fe ff fg fh fi =
|
|||
{-| Define an object with 10 keys
|
||||
-}
|
||||
object10 :
|
||||
{ name : String, description : List String, init : a -> b -> c -> d -> e -> f -> g -> h -> i -> j -> object }
|
||||
Descriptive { init : a -> b -> c -> d -> e -> f -> g -> h -> i -> j -> object }
|
||||
-> Field a object
|
||||
-> Field b object
|
||||
-> Field c object
|
||||
|
@ -889,7 +1001,7 @@ object10 { name, description, init } fa fb fc fd fe ff fg fh fi fj =
|
|||
{-| Define an object with 11 keys
|
||||
-}
|
||||
object11 :
|
||||
{ name : String, description : List String, init : a -> b -> c -> d -> e -> f -> g -> h -> i -> j -> k -> object }
|
||||
Descriptive { init : a -> b -> c -> d -> e -> f -> g -> h -> i -> j -> k -> object }
|
||||
-> Field a object
|
||||
-> Field b object
|
||||
-> Field c object
|
||||
|
@ -991,6 +1103,13 @@ string =
|
|||
}
|
||||
|
||||
|
||||
{-| Succeed a decoder.
|
||||
-}
|
||||
succeed : a -> List Log -> DecodeResult a
|
||||
succeed x logs =
|
||||
Success ( x, logs )
|
||||
|
||||
|
||||
{-| Turn a Field type into a usable JSON decoder
|
||||
-}
|
||||
toDecoderField : Field a object -> D.Decoder ( a, List Log )
|
||||
|
@ -1016,3 +1135,12 @@ toDocsField x =
|
|||
toEncodeField : Field a object -> ( String, object -> Maybe E.Value )
|
||||
toEncodeField (Field data) =
|
||||
( data.fieldName, data.toField >> data.encoder )
|
||||
|
||||
|
||||
value : Coder Value
|
||||
value =
|
||||
Coder
|
||||
{ encoder = identity
|
||||
, decoder = D.map (\v -> ( v, [] )) D.value
|
||||
, docs = DocsValue
|
||||
}
|
||||
|
|
Loading…
Reference in New Issue