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https://github.com/jfmengels/elm-review.git
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748 lines
24 KiB
Elm
748 lines
24 KiB
Elm
module NoMissingTypeExpose exposing (rule)
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{-|
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@docs rule
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-}
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import Dict exposing (Dict)
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import Elm.Module
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import Elm.Project exposing (Project)
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import Elm.Syntax.Declaration as Declaration exposing (Declaration)
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import Elm.Syntax.Exposing as Exposing exposing (Exposing)
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import Elm.Syntax.Import exposing (Import)
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import Elm.Syntax.Module as Module exposing (Module)
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import Elm.Syntax.ModuleName exposing (ModuleName)
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import Elm.Syntax.Node as Node exposing (Node(..))
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import Elm.Syntax.Range as Range
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import Elm.Syntax.Signature exposing (Signature)
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import Elm.Syntax.Type as Type
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import Elm.Syntax.TypeAnnotation as TypeAnnotation exposing (TypeAnnotation)
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import Review.Fix as Fix exposing (Fix)
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import Review.ModuleNameLookupTable as ModuleNameLookupTable exposing (ModuleNameLookupTable)
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import Review.Project.Dependency as Dependency exposing (Dependency)
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import Review.Rule as Rule exposing (Rule)
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import Set exposing (Set)
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{-| Reports types that should be exposed but are not.
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🔧 Running with `--fix` will automatically fix all the reported errors.
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If a type is not exposed then it can be impossible to annotate functions or values that use them outside of the module. Affected types may be used in exposed function signatures, type aliases or other custom types.
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import NoMissingTypeExpose
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config : List Rule
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config =
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[ NoMissingTypeExpose.rule
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]
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## Fail
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module Happiness exposing (happy, toString)
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-- Type `Happiness` is private because it's not been exposed
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type Happiness
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= Happy
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-- Private type `Happiness` used by exposed function `toString`
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toString : Happiness -> String
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toString happiness =
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"Happy"
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-- Private type `Happiness` used by exposed value `happy`
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happy : Happiness
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happy =
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Happy
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## Success
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module Happiness exposing (Happiness, happy, toString)
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type Happiness
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= Happy
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toString : Happiness -> String
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toString happiness =
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"Happy"
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happy : Happiness
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happy =
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Happy
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## Try it out
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You can try this rule out by running the following command:
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```bash
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elm-review --template jfmengels/elm-review-common/example --rules NoMissingTypeExpose
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```
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-}
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rule : Rule
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rule =
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Rule.newProjectRuleSchema "NoMissingTypeExpose" initialProjectContext
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|> Rule.withElmJsonProjectVisitor elmJsonVisitor
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|> Rule.withDirectDependenciesProjectVisitor dependencyDictVisitor
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|> Rule.withModuleVisitor moduleVisitor
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|> Rule.withContextFromImportedModules
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|> Rule.withModuleContextUsingContextCreator
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{ fromProjectToModule = fromProjectToModuleContext
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, fromModuleToProject = fromModuleToProjectContext
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, foldProjectContexts = foldProjectContexts
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}
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|> Rule.providesFixesForProjectRule
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|> Rule.fromProjectRuleSchema
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elmJsonVisitor : Maybe { a | project : Project } -> ProjectContext -> ( List nothing, ProjectContext )
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elmJsonVisitor maybeProject context =
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case maybeProject of
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Just { project } ->
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( []
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, { context
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| exposedModules = exposedModulesForElmJson project
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}
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)
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Nothing ->
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( [], context )
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exposedModulesForElmJson : Project -> ExposedModules
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exposedModulesForElmJson project =
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case project of
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Elm.Project.Package { exposed } ->
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Package (elmProjectExposedList exposed)
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Elm.Project.Application _ ->
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Application
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elmProjectExposedList : Elm.Project.Exposed -> Set String
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elmProjectExposedList exposed =
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case exposed of
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Elm.Project.ExposedList list ->
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List.foldl (Elm.Module.toString >> Set.insert) Set.empty list
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Elm.Project.ExposedDict dict ->
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List.foldl
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(\( _, list ) acc ->
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List.foldl (Elm.Module.toString >> Set.insert) acc list
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)
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Set.empty
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dict
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dependencyDictVisitor : Dict String Dependency -> ProjectContext -> ( List nothing, ProjectContext )
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dependencyDictVisitor dependencies context =
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( []
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, { context
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| exposedModules =
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Dict.values dependencies
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|> List.foldl exposedModulesForDependency context.exposedModules
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}
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)
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exposedModulesForDependency : Dependency -> ExposedModules -> ExposedModules
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exposedModulesForDependency dependency exposedModules =
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Dependency.modules dependency
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|> List.foldl (.name >> addExposedModule) exposedModules
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moduleVisitor :
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Rule.ModuleRuleSchema state ModuleContext
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-> Rule.ModuleRuleSchema { state | hasAtLeastOneVisitor : () } ModuleContext
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moduleVisitor schema =
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schema
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|> Rule.withModuleDefinitionVisitor moduleDefinitionVisitor
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|> Rule.withImportVisitor importVisitor
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|> Rule.withDeclarationListVisitor declarationListVisitor
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|> Rule.withFinalModuleEvaluation finalEvaluation
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moduleDefinitionVisitor : Node Module -> ModuleContext -> ( List nothing, ModuleContext )
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moduleDefinitionVisitor (Node _ mod) context =
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case context.moduleType of
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InternalModule data ->
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( []
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, { lookupTable = context.lookupTable
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, modulesFromTheProject = context.modulesFromTheProject
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, moduleType = InternalModule { data | exposes = Module.exposingList mod }
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}
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)
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ExposedModule data ->
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( []
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, { lookupTable = context.lookupTable
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, modulesFromTheProject = context.modulesFromTheProject
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, moduleType =
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ExposedModule
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{ data
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| exposes = Module.exposingList mod
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, exposingListStart = exposingListStartLocation (Module.exposingList mod)
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}
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}
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)
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exposingListStartLocation : Exposing -> Maybe Range.Location
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exposingListStartLocation exposes =
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case exposes of
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Exposing.Explicit ((Node range _) :: _) ->
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Just range.start
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_ ->
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Nothing
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importVisitor : Node Import -> ModuleContext -> ( List nothing, ModuleContext )
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importVisitor (Node _ { moduleName, moduleAlias }) context =
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case context.moduleType of
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InternalModule _ ->
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( [], context )
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ExposedModule data ->
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( []
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, { lookupTable = context.lookupTable
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, modulesFromTheProject = context.modulesFromTheProject
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, moduleType =
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ExposedModule
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{ data | exposedModules = exposedModulesForImportAlias (Node.value moduleName) moduleAlias data.exposedModules }
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}
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)
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exposedModulesForImportAlias : ModuleName -> Maybe (Node ModuleName) -> ExposedModules -> ExposedModules
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exposedModulesForImportAlias moduleName maybeModuleAlias exposedModules =
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case maybeModuleAlias of
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Just (Node _ moduleAlias) ->
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addExposedModuleAlias moduleName
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(String.join "." moduleAlias)
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exposedModules
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Nothing ->
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exposedModules
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declarationListVisitor : List (Node Declaration) -> ModuleContext -> ( List nothing, ModuleContext )
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declarationListVisitor nodes context =
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( []
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, case context.moduleType of
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InternalModule data ->
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{ lookupTable = context.lookupTable
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, modulesFromTheProject = context.modulesFromTheProject
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, moduleType =
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InternalModule
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{ data
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| exposedTypes =
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exposedTypesForDeclarationList data.exposes nodes data.exposedTypes
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}
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}
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ExposedModule data ->
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{ lookupTable = context.lookupTable
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, modulesFromTheProject = context.modulesFromTheProject
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, moduleType =
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ExposedModule
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{ data
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| declaredTypes = declaredTypesForDeclarationList nodes data.declaredTypes
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, exposedSignatureTypes = exposedSignatureTypesForDeclarationList context.lookupTable data.exposes nodes data.exposedSignatureTypes
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}
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}
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)
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exposedTypesForDeclarationList : Exposing -> List (Node Declaration) -> Set String -> Set String
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exposedTypesForDeclarationList exposes list exposedTypes =
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List.foldl (exposedTypesForDeclaration exposes) exposedTypes list
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exposedTypesForDeclaration : Exposing -> Node Declaration -> Set String -> Set String
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exposedTypesForDeclaration exposes (Node _ declaration) exposedTypes =
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case declaration of
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Declaration.CustomTypeDeclaration { name } ->
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rememberExposedType exposes name exposedTypes
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Declaration.AliasDeclaration { name } ->
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rememberExposedType exposes name exposedTypes
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_ ->
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exposedTypes
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rememberExposedType : Exposing -> Node String -> Set String -> Set String
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rememberExposedType exposes (Node _ name) exposedTypes =
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if isTypeExposed exposes name then
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Set.insert name exposedTypes
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else
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exposedTypes
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declaredTypesForDeclarationList : List (Node Declaration) -> Set String -> Set String
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declaredTypesForDeclarationList list declaredTypes =
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List.foldl declaredTypesForDeclaration declaredTypes list
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declaredTypesForDeclaration : Node Declaration -> Set String -> Set String
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declaredTypesForDeclaration (Node _ declaration) declaredTypes =
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case declaration of
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Declaration.CustomTypeDeclaration { name } ->
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rememberDeclaredType name declaredTypes
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Declaration.AliasDeclaration { name } ->
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rememberDeclaredType name declaredTypes
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_ ->
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declaredTypes
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rememberDeclaredType : Node String -> Set String -> Set String
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rememberDeclaredType (Node _ name) declaredTypes =
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Set.insert name declaredTypes
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exposedSignatureTypesForDeclarationList :
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ModuleNameLookupTable
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-> Exposing
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-> List (Node Declaration)
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-> List (Node ( ModuleName, String ))
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-> List (Node ( ModuleName, String ))
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exposedSignatureTypesForDeclarationList lookupTable exposes list exposedSignatureTypes =
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List.foldl (exposedSignatureTypesForDeclaration lookupTable exposes) exposedSignatureTypes list
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exposedSignatureTypesForDeclaration :
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ModuleNameLookupTable
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-> Exposing
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-> Node Declaration
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-> List (Node ( ModuleName, String ))
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-> List (Node ( ModuleName, String ))
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exposedSignatureTypesForDeclaration lookupTable exposes (Node _ declaration) exposedSignatureTypes =
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case declaration of
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Declaration.CustomTypeDeclaration { name, constructors } ->
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exposedSignatureTypesForConstructorList lookupTable exposes name constructors exposedSignatureTypes
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Declaration.AliasDeclaration { name, typeAnnotation } ->
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exposedSignatureTypesForAlias lookupTable exposes name typeAnnotation exposedSignatureTypes
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Declaration.FunctionDeclaration { signature } ->
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exposedSignatureTypesForSignature lookupTable exposes signature exposedSignatureTypes
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_ ->
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exposedSignatureTypes
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exposedSignatureTypesForConstructorList :
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ModuleNameLookupTable
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-> Exposing
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-> Node String
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-> List (Node Type.ValueConstructor)
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-> List (Node ( ModuleName, String ))
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-> List (Node ( ModuleName, String ))
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exposedSignatureTypesForConstructorList lookupTable exposes (Node _ name) list exposedSignatureTypes =
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if isTypeExposedOpen exposes name then
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List.foldl (exposedSignatureTypesForConstructor lookupTable) exposedSignatureTypes list
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else
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exposedSignatureTypes
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exposedSignatureTypesForConstructor :
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ModuleNameLookupTable
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-> Node Type.ValueConstructor
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-> List (Node ( ModuleName, String ))
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-> List (Node ( ModuleName, String ))
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exposedSignatureTypesForConstructor lookupTable (Node _ { arguments }) exposedSignatureTypes =
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exposedSignatureTypesForTypeAnnotationList lookupTable arguments exposedSignatureTypes
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exposedSignatureTypesForAlias :
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ModuleNameLookupTable
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-> Exposing
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-> Node String
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-> Node TypeAnnotation
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-> List (Node ( ModuleName, String ))
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-> List (Node ( ModuleName, String ))
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exposedSignatureTypesForAlias lookupTable exposes (Node _ name) typeAnnotation exposedSignatureTypes =
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if isTypeExposed exposes name then
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case typeAnnotation of
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Node _ (TypeAnnotation.Typed _ list) ->
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exposedSignatureTypesForTypeAnnotationList lookupTable list exposedSignatureTypes
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_ ->
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exposedSignatureTypesForTypeAnnotation lookupTable typeAnnotation exposedSignatureTypes
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else
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exposedSignatureTypes
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exposedSignatureTypesForSignature :
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ModuleNameLookupTable
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-> Exposing
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-> Maybe (Node Signature)
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-> List (Node ( ModuleName, String ))
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-> List (Node ( ModuleName, String ))
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exposedSignatureTypesForSignature lookupTable exposes maybeSignature exposedSignatureTypes =
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case maybeSignature of
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Just (Node _ { name, typeAnnotation }) ->
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if Exposing.exposesFunction (Node.value name) exposes then
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exposedSignatureTypesForTypeAnnotation lookupTable typeAnnotation exposedSignatureTypes
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else
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exposedSignatureTypes
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Nothing ->
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exposedSignatureTypes
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exposedSignatureTypesForRecordFieldList :
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ModuleNameLookupTable
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-> List (Node TypeAnnotation.RecordField)
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-> List (Node ( ModuleName, String ))
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-> List (Node ( ModuleName, String ))
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exposedSignatureTypesForRecordFieldList lookupTable fields exposedSignatureTypes =
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List.foldl (exposedSignatureTypesForRecordField lookupTable) exposedSignatureTypes fields
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exposedSignatureTypesForRecordField :
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ModuleNameLookupTable
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-> Node TypeAnnotation.RecordField
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-> List (Node ( ModuleName, String ))
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-> List (Node ( ModuleName, String ))
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exposedSignatureTypesForRecordField lookupTable (Node _ ( _, typeAnnotation )) exposedSignatureTypes =
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exposedSignatureTypesForTypeAnnotation lookupTable typeAnnotation exposedSignatureTypes
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exposedSignatureTypesForTypeAnnotationList :
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ModuleNameLookupTable
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-> List (Node TypeAnnotation)
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-> List (Node ( ModuleName, String ))
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-> List (Node ( ModuleName, String ))
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exposedSignatureTypesForTypeAnnotationList lookupTable list exposedSignatureTypes =
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List.foldl (exposedSignatureTypesForTypeAnnotation lookupTable) exposedSignatureTypes list
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exposedSignatureTypesForTypeAnnotation :
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ModuleNameLookupTable
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-> Node TypeAnnotation
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-> List (Node ( ModuleName, String ))
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-> List (Node ( ModuleName, String ))
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exposedSignatureTypesForTypeAnnotation lookupTable (Node _ typeAnnotation) exposedSignatureTypes =
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case typeAnnotation of
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TypeAnnotation.Typed name list ->
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case ModuleNameLookupTable.moduleNameFor lookupTable name of
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Just moduleName ->
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(Node.map (\( _, typeName ) -> ( moduleName, typeName )) name :: exposedSignatureTypes)
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|> exposedSignatureTypesForTypeAnnotationList lookupTable list
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Nothing ->
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(name :: exposedSignatureTypes)
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|> exposedSignatureTypesForTypeAnnotationList lookupTable list
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TypeAnnotation.FunctionTypeAnnotation left right ->
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exposedSignatureTypes
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|> exposedSignatureTypesForTypeAnnotation lookupTable left
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|> exposedSignatureTypesForTypeAnnotation lookupTable right
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TypeAnnotation.Tupled list ->
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exposedSignatureTypes
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|> exposedSignatureTypesForTypeAnnotationList lookupTable list
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TypeAnnotation.Record fields ->
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exposedSignatureTypes
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|> exposedSignatureTypesForRecordFieldList lookupTable fields
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TypeAnnotation.GenericRecord _ (Node _ fields) ->
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exposedSignatureTypes
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|> exposedSignatureTypesForRecordFieldList lookupTable fields
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TypeAnnotation.Unit ->
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exposedSignatureTypes
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TypeAnnotation.GenericType _ ->
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exposedSignatureTypes
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finalEvaluation : ModuleContext -> List (Rule.Error {})
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finalEvaluation context =
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case context.moduleType of
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InternalModule _ ->
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[]
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ExposedModule data ->
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data.exposedSignatureTypes
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|> List.filter (isTypePrivate context.modulesFromTheProject data)
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|> List.map (makeError data.exposingListStart)
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isTypePrivate : Set ModuleName -> ExposedModuleData -> Node ( ModuleName, String ) -> Bool
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isTypePrivate modulesFromTheProject data (Node _ typeCall) =
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case typeCall of
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( [], name ) ->
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Set.member name data.declaredTypes
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&& not (isTypeExposed data.exposes name)
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|
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( moduleName, _ ) ->
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Set.member moduleName modulesFromTheProject
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&& not (isModuleExposed data.exposedModules moduleName)
|
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|
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isTypeExposed : Exposing -> String -> Bool
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isTypeExposed exposes name =
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case exposes of
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Exposing.All _ ->
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True
|
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|
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Exposing.Explicit list ->
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List.any (isExposingATypeNamed name) list
|
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|
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|
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isTypeExposedOpen : Exposing -> String -> Bool
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isTypeExposedOpen exposes name =
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case exposes of
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Exposing.All _ ->
|
||
True
|
||
|
||
Exposing.Explicit list ->
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List.any (isExposingAnOpenTypeNamed name) list
|
||
|
||
|
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isExposingATypeNamed : String -> Node Exposing.TopLevelExpose -> Bool
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isExposingATypeNamed needle (Node _ topLevelExpose) =
|
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case topLevelExpose of
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Exposing.InfixExpose _ ->
|
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False
|
||
|
||
Exposing.FunctionExpose _ ->
|
||
False
|
||
|
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Exposing.TypeOrAliasExpose name ->
|
||
name == needle
|
||
|
||
Exposing.TypeExpose { name } ->
|
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name == needle
|
||
|
||
|
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isExposingAnOpenTypeNamed : String -> Node Exposing.TopLevelExpose -> Bool
|
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isExposingAnOpenTypeNamed needle (Node _ expose) =
|
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case expose of
|
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Exposing.TypeExpose { name, open } ->
|
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name == needle && open /= Nothing
|
||
|
||
_ ->
|
||
False
|
||
|
||
|
||
addExposedModule : String -> ExposedModules -> ExposedModules
|
||
addExposedModule moduleName exposedModules =
|
||
case exposedModules of
|
||
Application ->
|
||
exposedModules
|
||
|
||
Package list ->
|
||
Package (Set.insert moduleName list)
|
||
|
||
|
||
addExposedModuleAlias : ModuleName -> String -> ExposedModules -> ExposedModules
|
||
addExposedModuleAlias moduleName moduleAlias exposedModules =
|
||
case exposedModules of
|
||
Application ->
|
||
exposedModules
|
||
|
||
Package list ->
|
||
if Set.member (String.join "." moduleName) list then
|
||
Package (Set.insert moduleAlias list)
|
||
|
||
else
|
||
exposedModules
|
||
|
||
|
||
isModuleExposed : ExposedModules -> ModuleName -> Bool
|
||
isModuleExposed exposedModules moduleName =
|
||
case exposedModules of
|
||
Application ->
|
||
True
|
||
|
||
Package list ->
|
||
Set.member (String.join "." moduleName) list
|
||
|
||
|
||
makeError : Maybe Range.Location -> Node ( ModuleName, String ) -> Rule.Error {}
|
||
makeError exposingListStart (Node range typeName) =
|
||
let
|
||
formattedName : String
|
||
formattedName =
|
||
formatTypeName typeName
|
||
in
|
||
Rule.errorWithFix
|
||
{ message = "Private type `" ++ formattedName ++ "` should be exposed"
|
||
, details =
|
||
[ "Users of this module will not be able to annotate a value of this type if they wanted to. You should expose this type or an alias of this type."
|
||
]
|
||
}
|
||
range
|
||
(exposeTypeFix exposingListStart typeName)
|
||
|
||
|
||
exposeTypeFix : Maybe Range.Location -> ( ModuleName, String ) -> List Fix
|
||
exposeTypeFix exposingListStart ( moduleName, name ) =
|
||
case ( exposingListStart, moduleName ) of
|
||
( Just start, [] ) ->
|
||
[ Fix.insertAt start (name ++ ", ") ]
|
||
|
||
_ ->
|
||
[]
|
||
|
||
|
||
formatTypeName : ( ModuleName, String ) -> String
|
||
formatTypeName ( moduleName, name ) =
|
||
String.join "." (moduleName ++ [ name ])
|
||
|
||
|
||
fromProjectToModuleContext : Rule.ContextCreator ProjectContext ModuleContext
|
||
fromProjectToModuleContext =
|
||
Rule.initContextCreator
|
||
(\lookupTable moduleName { exposedModules, moduleTypes } ->
|
||
let
|
||
moduleType : ModuleType
|
||
moduleType =
|
||
if isModuleExposed exposedModules moduleName then
|
||
initialExposedModuleType exposedModules moduleTypes
|
||
|
||
else
|
||
initialInternalModuleType
|
||
in
|
||
{ lookupTable = lookupTable
|
||
, modulesFromTheProject = Dict.keys moduleTypes |> Set.fromList
|
||
, moduleType = moduleType
|
||
}
|
||
)
|
||
|> Rule.withModuleNameLookupTable
|
||
|> Rule.withModuleName
|
||
|
||
|
||
fromModuleToProjectContext : Rule.ContextCreator ModuleContext ProjectContext
|
||
fromModuleToProjectContext =
|
||
Rule.initContextCreator
|
||
(\moduleName context ->
|
||
case context.moduleType of
|
||
InternalModule { exposedTypes } ->
|
||
{ initialProjectContext | moduleTypes = Dict.singleton moduleName exposedTypes }
|
||
|
||
ExposedModule _ ->
|
||
initialProjectContext
|
||
)
|
||
|> Rule.withModuleName
|
||
|
||
|
||
foldProjectContexts : ProjectContext -> ProjectContext -> ProjectContext
|
||
foldProjectContexts new old =
|
||
{ exposedModules = foldExposedModules new.exposedModules old.exposedModules
|
||
, moduleTypes = foldModuleTypes new.moduleTypes old.moduleTypes
|
||
}
|
||
|
||
|
||
foldExposedModules : ExposedModules -> ExposedModules -> ExposedModules
|
||
foldExposedModules newExposedModules oldExposedModules =
|
||
case ( oldExposedModules, newExposedModules ) of
|
||
( Application, Application ) ->
|
||
Application
|
||
|
||
( Application, Package _ ) ->
|
||
newExposedModules
|
||
|
||
( Package _, Application ) ->
|
||
oldExposedModules
|
||
|
||
( Package oldList, Package newList ) ->
|
||
Package (Set.union newList oldList)
|
||
|
||
|
||
foldModuleTypes : Dict ModuleName (Set String) -> Dict ModuleName (Set String) -> Dict ModuleName (Set String)
|
||
foldModuleTypes newModuleTypes oldModuleTypes =
|
||
Dict.foldl foldModuleTypesHelp newModuleTypes oldModuleTypes
|
||
|
||
|
||
foldModuleTypesHelp : ModuleName -> Set String -> Dict ModuleName (Set String) -> Dict ModuleName (Set String)
|
||
foldModuleTypesHelp moduleName newTypes moduleTypes =
|
||
case Dict.get moduleName moduleTypes of
|
||
Just oldTypes ->
|
||
Dict.insert moduleName (Set.union oldTypes newTypes) moduleTypes
|
||
|
||
Nothing ->
|
||
Dict.insert moduleName newTypes moduleTypes
|
||
|
||
|
||
initialProjectContext : ProjectContext
|
||
initialProjectContext =
|
||
{ exposedModules = Application
|
||
, moduleTypes = Dict.empty
|
||
}
|
||
|
||
|
||
initialInternalModuleType : ModuleType
|
||
initialInternalModuleType =
|
||
InternalModule
|
||
{ exposedTypes = Set.empty
|
||
, exposes = Exposing.Explicit []
|
||
}
|
||
|
||
|
||
initialExposedModuleType : ExposedModules -> Dict ModuleName (Set String) -> ModuleType
|
||
initialExposedModuleType exposedModules moduleTypes =
|
||
ExposedModule
|
||
{ declaredTypes = Set.empty
|
||
, exposedModules = exposedModules
|
||
, exposedSignatureTypes = []
|
||
, exposes = Exposing.Explicit []
|
||
, exposingListStart = Nothing
|
||
, moduleTypes = moduleTypes
|
||
}
|
||
|
||
|
||
type alias ProjectContext =
|
||
{ exposedModules : ExposedModules
|
||
, moduleTypes : Dict ModuleName (Set String)
|
||
}
|
||
|
||
|
||
type alias ModuleContext =
|
||
{ lookupTable : ModuleNameLookupTable
|
||
, modulesFromTheProject : Set ModuleName
|
||
, moduleType : ModuleType
|
||
}
|
||
|
||
|
||
type ModuleType
|
||
= InternalModule InternalModuleData
|
||
| ExposedModule ExposedModuleData
|
||
|
||
|
||
type alias InternalModuleData =
|
||
{ exposedTypes : Set String
|
||
, exposes : Exposing
|
||
}
|
||
|
||
|
||
type alias ExposedModuleData =
|
||
{ declaredTypes : Set String
|
||
, exposedModules : ExposedModules
|
||
, exposedSignatureTypes : List (Node ( ModuleName, String ))
|
||
, exposes : Exposing
|
||
, exposingListStart : Maybe Range.Location
|
||
, moduleTypes : Dict ModuleName (Set String)
|
||
}
|
||
|
||
|
||
type ExposedModules
|
||
= Application
|
||
| Package (Set String)
|