mirror of
https://github.com/jfmengels/elm-review.git
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1180 lines
37 KiB
Elm
1180 lines
37 KiB
Elm
module NoUnused.Variables exposing (rule)
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{-| Report variables or types that are declared or imported but never used inside of a module.
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# Rule
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@docs rule
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-}
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import Dict exposing (Dict)
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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.Expression as Expression exposing (Expression, Function, FunctionImplementation)
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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.Node as Node exposing (Node(..))
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import Elm.Syntax.Pattern as Pattern exposing (Pattern)
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import Elm.Syntax.Range exposing (Range)
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import Elm.Syntax.TypeAnnotation as TypeAnnotation exposing (TypeAnnotation)
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import NoUnused.NonemptyList as NonemptyList exposing (Nonempty)
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import Review.Fix as Fix exposing (Fix)
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import Review.Rule as Rule exposing (Error, Rule)
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import Set exposing (Set)
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{-| Report variables or types that are declared or imported but never used.
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config =
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[ NoUnused.Variables.rule
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]
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## Fail
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module A exposing (a)
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a n =
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n + 1
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b =
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a 2
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## Success
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module A exposing (a)
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a n =
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n + 1
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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/review-unused/example --rules NoUnused.Variables
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```
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-}
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rule : Rule
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rule =
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Rule.newModuleRuleSchema "NoUnused.Variables" initialContext
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|> Rule.withModuleDefinitionVisitor moduleDefinitionVisitor
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|> Rule.withImportVisitor importVisitor
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|> Rule.withDeclarationEnterVisitor declarationVisitor
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|> Rule.withExpressionEnterVisitor expressionEnterVisitor
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|> Rule.withExpressionExitVisitor expressionExitVisitor
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|> Rule.withFinalModuleEvaluation finalEvaluation
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|> Rule.fromModuleRuleSchema
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type alias Context =
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{ scopes : Nonempty Scope
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, inTheDeclarationOf : Maybe String
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, exposesEverything : Bool
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, constructorNameToTypeName : Dict String String
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, declaredModules : Dict String VariableInfo
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, usedModules : Set String
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}
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type alias Scope =
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{ declared : Dict String VariableInfo
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, used : Set String
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}
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type alias VariableInfo =
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{ variableType : VariableType
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, under : Range
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, rangeToRemove : Range
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}
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type VariableType
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= TopLevelVariable
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| LetVariable
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| ImportedModule
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| ImportedItem ImportType
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| ModuleAlias { originalNameOfTheImport : String, exposesSomething : Bool }
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| Type
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| Port
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type LetBlockContext
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= HasMultipleDeclarations
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| HasNoOtherDeclarations Range
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type ImportType
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= ImportedVariable
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| ImportedType
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| ImportedOperator
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initialContext : Context
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initialContext =
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{ scopes = NonemptyList.fromElement emptyScope
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, inTheDeclarationOf = Nothing
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, exposesEverything = False
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, constructorNameToTypeName = Dict.empty
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, declaredModules = Dict.empty
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, usedModules = Set.empty
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}
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emptyScope : Scope
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emptyScope =
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{ declared = Dict.empty
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, used = Set.empty
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}
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error : Dict String VariableInfo -> VariableInfo -> String -> Error {}
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error declaredModules variableInfo name =
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Rule.errorWithFix
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{ message = variableTypeToString variableInfo.variableType ++ " `" ++ name ++ "` is not used" ++ variableTypeWarning variableInfo.variableType
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, details = [ "You should either use this value somewhere, or remove it at the location I pointed at." ]
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}
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variableInfo.under
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(fix declaredModules variableInfo)
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variableTypeToString : VariableType -> String
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variableTypeToString variableType =
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case variableType of
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TopLevelVariable ->
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"Top-level variable"
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LetVariable ->
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"`let in` variable"
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ImportedModule ->
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"Imported module"
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ImportedItem ImportedVariable ->
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"Imported variable"
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ImportedItem ImportedType ->
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"Imported type"
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ImportedItem ImportedOperator ->
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"Imported operator"
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ModuleAlias _ ->
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"Module alias"
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Type ->
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"Type"
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Port ->
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"Port"
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variableTypeWarning : VariableType -> String
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variableTypeWarning value =
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case value of
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TopLevelVariable ->
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""
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LetVariable ->
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""
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ImportedModule ->
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""
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ImportedItem _ ->
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""
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ModuleAlias _ ->
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""
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Type ->
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""
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Port ->
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" (Warning: Removing this port may break your application if it is used in the JS code)"
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fix : Dict String VariableInfo -> VariableInfo -> List Fix
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fix declaredModules { variableType, rangeToRemove } =
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let
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shouldOfferFix : Bool
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shouldOfferFix =
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case variableType of
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TopLevelVariable ->
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True
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LetVariable ->
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True
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ImportedModule ->
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True
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ImportedItem _ ->
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True
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ModuleAlias { originalNameOfTheImport, exposesSomething } ->
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not exposesSomething
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|| not (Dict.member originalNameOfTheImport declaredModules)
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Type ->
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True
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Port ->
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False
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in
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if shouldOfferFix then
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[ Fix.removeRange rangeToRemove ]
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else
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[]
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moduleDefinitionVisitor : Node Module -> Context -> ( List nothing, Context )
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moduleDefinitionVisitor (Node _ moduleNode) context =
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case Module.exposingList moduleNode of
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Exposing.All _ ->
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( [], { context | exposesEverything = True } )
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Exposing.Explicit list ->
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let
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names : List String
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names =
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List.filterMap
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(\(Node _ node) ->
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case node of
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Exposing.FunctionExpose name ->
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Just name
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Exposing.TypeOrAliasExpose name ->
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Just name
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Exposing.TypeExpose { name } ->
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Just name
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Exposing.InfixExpose name ->
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-- Just name
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Nothing
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)
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list
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in
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( [], markAllAsUsed names context )
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importVisitor : Node Import -> Context -> ( List (Error {}), Context )
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importVisitor ((Node _ import_) as node) context =
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let
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errors : List (Error {})
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errors =
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case import_.moduleAlias of
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Just moduleAlias ->
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if Node.value moduleAlias == Node.value import_.moduleName then
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[ Rule.errorWithFix
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{ message = "Module `" ++ String.join "." (Node.value moduleAlias) ++ "` is aliased as itself"
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, details = [ "The alias is the same as the module name, and brings no useful value" ]
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}
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(Node.range moduleAlias)
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[ Fix.removeRange <| moduleAliasRange node (Node.range moduleAlias) ]
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]
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else
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[]
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Nothing ->
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[]
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in
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case import_.exposingList of
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Nothing ->
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( errors, registerModuleNameOrAlias node context )
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Just declaredImports ->
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( errors
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, List.foldl
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(\( name, variableInfo ) context_ -> register variableInfo name context_)
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(registerModuleAlias node context)
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(collectFromExposing declaredImports)
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)
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registerModuleNameOrAlias : Node Import -> Context -> Context
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registerModuleNameOrAlias ((Node range { moduleAlias, moduleName }) as node) context =
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case moduleAlias of
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Just _ ->
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registerModuleAlias node context
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Nothing ->
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register
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{ variableType = ImportedModule
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, under = Node.range moduleName
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, rangeToRemove = untilStartOfNextLine range
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}
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(getModuleName <| Node.value moduleName)
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context
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registerModuleAlias : Node Import -> Context -> Context
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registerModuleAlias ((Node range { exposingList, moduleAlias, moduleName }) as node) context =
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case moduleAlias of
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Just moduleAlias_ ->
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register
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{ variableType =
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ModuleAlias
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{ originalNameOfTheImport = getModuleName <| Node.value moduleName
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, exposesSomething = exposingList /= Nothing
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}
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, under = Node.range moduleAlias_
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, rangeToRemove =
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case exposingList of
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Nothing ->
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untilStartOfNextLine range
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Just _ ->
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moduleAliasRange node (Node.range moduleAlias_)
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}
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(getModuleName <| Node.value moduleAlias_)
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context
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Nothing ->
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context
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moduleAliasRange : Node Import -> Range -> Range
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moduleAliasRange (Node _ { moduleName }) range =
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{ range | start = (Node.range moduleName).end }
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expressionEnterVisitor : Node Expression -> Context -> ( List (Error {}), Context )
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expressionEnterVisitor (Node range value) context =
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case value of
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Expression.FunctionOrValue [] name ->
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( [], markAsUsed name context )
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Expression.FunctionOrValue moduleName name ->
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( [], markModuleAsUsed (getModuleName moduleName) context )
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Expression.OperatorApplication name _ _ _ ->
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( [], markAsUsed name context )
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Expression.PrefixOperator name ->
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( [], markAsUsed name context )
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Expression.LetExpression { declarations, expression } ->
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let
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letBlockContext : LetBlockContext
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letBlockContext =
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if List.length declarations == 1 then
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HasNoOtherDeclarations <| rangeUpUntil range (Node.range expression |> .start)
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else
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HasMultipleDeclarations
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newContext : Context
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newContext =
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List.foldl
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(\declaration context_ ->
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case Node.value declaration of
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Expression.LetFunction function ->
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let
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namesUsedInArgumentPatterns : { types : List String, modules : List String }
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namesUsedInArgumentPatterns =
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function.declaration
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|> Node.value
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|> .arguments
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|> List.map getUsedVariablesFromPattern
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|> foldUsedTypesAndModules
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in
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context_
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|> registerFunction letBlockContext function
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|> markUsedTypesAndModules namesUsedInArgumentPatterns
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Expression.LetDestructuring _ _ ->
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context_
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)
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{ context | scopes = NonemptyList.cons emptyScope context.scopes }
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declarations
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in
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( [], newContext )
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Expression.LambdaExpression { args } ->
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let
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namesUsedInArgumentPatterns : { types : List String, modules : List String }
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namesUsedInArgumentPatterns =
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args
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|> List.map getUsedVariablesFromPattern
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|> foldUsedTypesAndModules
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in
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( [], markUsedTypesAndModules namesUsedInArgumentPatterns context )
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_ ->
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( [], context )
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expressionExitVisitor : Node Expression -> Context -> ( List (Error {}), Context )
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expressionExitVisitor node context =
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case Node.value node of
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Expression.RecordUpdateExpression expr _ ->
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( [], markAsUsed (Node.value expr) context )
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Expression.CaseExpression { cases } ->
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let
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usedVariables : { types : List String, modules : List String }
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usedVariables =
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cases
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|> List.map
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(\( patternNode, _ ) ->
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getUsedVariablesFromPattern patternNode
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)
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|> foldUsedTypesAndModules
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in
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( []
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, markUsedTypesAndModules usedVariables context
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)
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Expression.LetExpression _ ->
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let
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( errors, remainingUsed ) =
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makeReport (NonemptyList.head context.scopes)
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contextWithPoppedScope : Context
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contextWithPoppedScope =
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{ context | scopes = NonemptyList.pop context.scopes }
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in
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( errors
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, markAllAsUsed remainingUsed contextWithPoppedScope
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)
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_ ->
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( [], context )
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getUsedVariablesFromPattern : Node Pattern -> { types : List String, modules : List String }
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getUsedVariablesFromPattern patternNode =
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{ types = getUsedTypesFromPattern patternNode
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, modules = getUsedModulesFromPattern patternNode
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}
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getUsedTypesFromPattern : Node Pattern -> List String
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getUsedTypesFromPattern patternNode =
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case Node.value patternNode of
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Pattern.AllPattern ->
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[]
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Pattern.UnitPattern ->
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[]
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Pattern.CharPattern _ ->
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[]
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Pattern.StringPattern _ ->
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[]
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Pattern.IntPattern _ ->
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[]
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Pattern.HexPattern _ ->
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[]
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Pattern.FloatPattern _ ->
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[]
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Pattern.TuplePattern patterns ->
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List.concatMap getUsedTypesFromPattern patterns
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Pattern.RecordPattern _ ->
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[]
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Pattern.UnConsPattern pattern1 pattern2 ->
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List.concatMap getUsedTypesFromPattern [ pattern1, pattern2 ]
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Pattern.ListPattern patterns ->
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List.concatMap getUsedTypesFromPattern patterns
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Pattern.VarPattern _ ->
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[]
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Pattern.NamedPattern qualifiedNameRef patterns ->
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case qualifiedNameRef.moduleName of
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[] ->
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qualifiedNameRef.name :: List.concatMap getUsedTypesFromPattern patterns
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_ ->
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List.concatMap getUsedTypesFromPattern patterns
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Pattern.AsPattern pattern _ ->
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getUsedTypesFromPattern pattern
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Pattern.ParenthesizedPattern pattern ->
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getUsedTypesFromPattern pattern
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getUsedModulesFromPattern : Node Pattern -> List String
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getUsedModulesFromPattern patternNode =
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case Node.value patternNode of
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Pattern.AllPattern ->
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[]
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Pattern.UnitPattern ->
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[]
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Pattern.CharPattern _ ->
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[]
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Pattern.StringPattern _ ->
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[]
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Pattern.IntPattern _ ->
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[]
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Pattern.HexPattern _ ->
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[]
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Pattern.FloatPattern _ ->
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[]
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Pattern.TuplePattern patterns ->
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List.concatMap getUsedModulesFromPattern patterns
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Pattern.RecordPattern _ ->
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[]
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Pattern.UnConsPattern pattern1 pattern2 ->
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List.concatMap getUsedModulesFromPattern [ pattern1, pattern2 ]
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Pattern.ListPattern patterns ->
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List.concatMap getUsedModulesFromPattern patterns
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Pattern.VarPattern _ ->
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[]
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Pattern.NamedPattern qualifiedNameRef patterns ->
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case qualifiedNameRef.moduleName of
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[] ->
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List.concatMap getUsedModulesFromPattern patterns
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moduleName ->
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getModuleName moduleName :: List.concatMap getUsedModulesFromPattern patterns
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Pattern.AsPattern pattern _ ->
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getUsedModulesFromPattern pattern
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Pattern.ParenthesizedPattern pattern ->
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getUsedModulesFromPattern pattern
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declarationVisitor : Node Declaration -> Context -> ( List nothing, Context )
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declarationVisitor node context =
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case Node.value node of
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Declaration.FunctionDeclaration function ->
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let
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functionImplementation : FunctionImplementation
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functionImplementation =
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Node.value function.declaration
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namesUsedInSignature : { types : List String, modules : List String }
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namesUsedInSignature =
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function.signature
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|> Maybe.map (Node.value >> .typeAnnotation >> collectNamesFromTypeAnnotation)
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|> Maybe.withDefault { types = [], modules = [] }
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namesUsedInArgumentPatterns : { types : List String, modules : List String }
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namesUsedInArgumentPatterns =
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function.declaration
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|> Node.value
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|> .arguments
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|> List.map getUsedVariablesFromPattern
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|> foldUsedTypesAndModules
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newContext : Context
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newContext =
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{ context | inTheDeclarationOf = Just <| Node.value functionImplementation.name }
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|> register
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{ variableType = TopLevelVariable
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, under = Node.range functionImplementation.name
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, rangeToRemove = rangeToRemoveForNodeWithDocumentation node function.documentation
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}
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(Node.value functionImplementation.name)
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|> markUsedTypesAndModules namesUsedInSignature
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|> markUsedTypesAndModules namesUsedInArgumentPatterns
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in
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( [], newContext )
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|
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Declaration.CustomTypeDeclaration { name, documentation, constructors } ->
|
|
let
|
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variablesFromConstructorArguments : { types : List String, modules : List String }
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variablesFromConstructorArguments =
|
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constructors
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|> List.concatMap (Node.value >> .arguments)
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|> List.map collectNamesFromTypeAnnotation
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|> foldUsedTypesAndModules
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typeName : String
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typeName =
|
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Node.value name
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constructorsForType : Dict String String
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constructorsForType =
|
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constructors
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|> List.map (Node.value >> .name >> Node.value)
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|> List.map (\constructorName -> ( constructorName, typeName ))
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|> Dict.fromList
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in
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( []
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, { context | constructorNameToTypeName = Dict.union constructorsForType context.constructorNameToTypeName }
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|
|> register
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{ variableType = Type
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, under = Node.range name
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, rangeToRemove = rangeToRemoveForNodeWithDocumentation node documentation
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}
|
|
(Node.value name)
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|> markUsedTypesAndModules variablesFromConstructorArguments
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)
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|
|
Declaration.AliasDeclaration { name, typeAnnotation, documentation } ->
|
|
let
|
|
namesUsedInTypeAnnotation : { types : List String, modules : List String }
|
|
namesUsedInTypeAnnotation =
|
|
collectNamesFromTypeAnnotation typeAnnotation
|
|
in
|
|
( []
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|
, context
|
|
|> register
|
|
{ variableType = Type
|
|
, under = Node.range name
|
|
, rangeToRemove = rangeToRemoveForNodeWithDocumentation node documentation
|
|
}
|
|
(Node.value name)
|
|
|> markUsedTypesAndModules namesUsedInTypeAnnotation
|
|
)
|
|
|
|
Declaration.PortDeclaration { name, typeAnnotation } ->
|
|
let
|
|
namesUsedInTypeAnnotation : { types : List String, modules : List String }
|
|
namesUsedInTypeAnnotation =
|
|
collectNamesFromTypeAnnotation typeAnnotation
|
|
in
|
|
( []
|
|
, context
|
|
|> markUsedTypesAndModules namesUsedInTypeAnnotation
|
|
|> register
|
|
{ variableType = Port
|
|
, under = Node.range name
|
|
, rangeToRemove = Node.range node
|
|
}
|
|
(Node.value name)
|
|
)
|
|
|
|
Declaration.InfixDeclaration _ ->
|
|
( [], context )
|
|
|
|
Declaration.Destructuring _ _ ->
|
|
( [], context )
|
|
|
|
|
|
foldUsedTypesAndModules : List { types : List String, modules : List String } -> { types : List String, modules : List String }
|
|
foldUsedTypesAndModules =
|
|
List.foldl (\a b -> { types = a.types ++ b.types, modules = a.modules ++ b.modules }) { types = [], modules = [] }
|
|
|
|
|
|
markUsedTypesAndModules : { types : List String, modules : List String } -> Context -> Context
|
|
markUsedTypesAndModules { types, modules } context =
|
|
context
|
|
|> markAllAsUsed types
|
|
|> markAllModulesAsUsed modules
|
|
|
|
|
|
rangeToRemoveForNodeWithDocumentation : Node Declaration -> Maybe (Node a) -> Range
|
|
rangeToRemoveForNodeWithDocumentation (Node nodeRange _) documentation =
|
|
case documentation of
|
|
Nothing ->
|
|
untilStartOfNextLine nodeRange
|
|
|
|
Just (Node documentationRange _) ->
|
|
untilStartOfNextLine
|
|
{ start = documentationRange.start
|
|
, end = nodeRange.end
|
|
}
|
|
|
|
|
|
finalEvaluation : Context -> List (Error {})
|
|
finalEvaluation context =
|
|
if context.exposesEverything then
|
|
[]
|
|
|
|
else
|
|
let
|
|
rootScope : Scope
|
|
rootScope =
|
|
NonemptyList.head context.scopes
|
|
|
|
namesOfCustomTypesUsedByCallingAConstructor : Set String
|
|
namesOfCustomTypesUsedByCallingAConstructor =
|
|
context.constructorNameToTypeName
|
|
|> Dict.filter (\usedName _ -> Set.member usedName rootScope.used)
|
|
|> Dict.values
|
|
|> Set.fromList
|
|
|
|
newRootScope : Scope
|
|
newRootScope =
|
|
{ rootScope | used = Set.union namesOfCustomTypesUsedByCallingAConstructor rootScope.used }
|
|
|
|
moduleErrors : List (Error {})
|
|
moduleErrors =
|
|
context.declaredModules
|
|
|> Dict.filter (\key _ -> not <| Set.member key context.usedModules)
|
|
|> Dict.toList
|
|
|> List.map (\( key, variableInfo ) -> error context.declaredModules variableInfo key)
|
|
in
|
|
List.concat
|
|
[ newRootScope
|
|
|> makeReport
|
|
|> Tuple.first
|
|
, moduleErrors
|
|
]
|
|
|
|
|
|
registerFunction : LetBlockContext -> Function -> Context -> Context
|
|
registerFunction letBlockContext function context =
|
|
let
|
|
declaration : FunctionImplementation
|
|
declaration =
|
|
Node.value function.declaration
|
|
|
|
namesUsedInSignature : { types : List String, modules : List String }
|
|
namesUsedInSignature =
|
|
case Maybe.map Node.value function.signature of
|
|
Just signature ->
|
|
collectNamesFromTypeAnnotation signature.typeAnnotation
|
|
|
|
Nothing ->
|
|
{ types = [], modules = [] }
|
|
|
|
functionRange : Range
|
|
functionRange =
|
|
case function.signature of
|
|
Just signature ->
|
|
mergeRanges
|
|
(Node.range function.declaration)
|
|
(Node.range signature)
|
|
|
|
Nothing ->
|
|
Node.range function.declaration
|
|
in
|
|
context
|
|
|> register
|
|
{ variableType = LetVariable
|
|
, under = Node.range declaration.name
|
|
, rangeToRemove =
|
|
case letBlockContext of
|
|
HasMultipleDeclarations ->
|
|
functionRange
|
|
|
|
HasNoOtherDeclarations letDeclarationsRange ->
|
|
-- If there are no other declarations in the let in block,
|
|
-- we also need to remove the `let in` keywords.
|
|
letDeclarationsRange
|
|
}
|
|
(Node.value declaration.name)
|
|
|> markUsedTypesAndModules namesUsedInSignature
|
|
|
|
|
|
collectFromExposing : Node Exposing -> List ( String, VariableInfo )
|
|
collectFromExposing exposingNode =
|
|
case Node.value exposingNode of
|
|
Exposing.All _ ->
|
|
[]
|
|
|
|
Exposing.Explicit list ->
|
|
let
|
|
listWithPreviousRange : List (Maybe Range)
|
|
listWithPreviousRange =
|
|
Nothing
|
|
:: (list
|
|
|> List.map (Node.range >> Just)
|
|
|> List.take (List.length list - 1)
|
|
)
|
|
|
|
listWithNextRange : List Range
|
|
listWithNextRange =
|
|
(list
|
|
|> List.map Node.range
|
|
|> List.drop 1
|
|
)
|
|
++ [ { start = { row = 0, column = 0 }, end = { row = 0, column = 0 } } ]
|
|
in
|
|
list
|
|
|> List.map3 (\prev next current -> ( prev, current, next )) listWithPreviousRange listWithNextRange
|
|
|> List.indexedMap
|
|
(\index ( maybePreviousRange, Node range value, nextRange ) ->
|
|
let
|
|
rangeToRemove : Range
|
|
rangeToRemove =
|
|
if List.length list == 1 then
|
|
Node.range exposingNode
|
|
|
|
else if index == 0 then
|
|
{ range | end = nextRange.start }
|
|
|
|
else
|
|
case maybePreviousRange of
|
|
Nothing ->
|
|
range
|
|
|
|
Just previousRange ->
|
|
{ range | start = previousRange.end }
|
|
in
|
|
case value of
|
|
Exposing.FunctionExpose name ->
|
|
Just
|
|
( name
|
|
, { variableType = ImportedItem ImportedVariable
|
|
, under = untilEndOfVariable name range
|
|
, rangeToRemove = rangeToRemove
|
|
}
|
|
)
|
|
|
|
Exposing.InfixExpose name ->
|
|
Just
|
|
( name
|
|
, { variableType = ImportedItem ImportedOperator
|
|
, under = untilEndOfVariable name range
|
|
, rangeToRemove = rangeToRemove
|
|
}
|
|
)
|
|
|
|
Exposing.TypeOrAliasExpose name ->
|
|
-- TODO Detect whether it is a custom type or type alias
|
|
Just
|
|
( name
|
|
, { variableType = ImportedItem ImportedType
|
|
, under = untilEndOfVariable name range
|
|
, rangeToRemove = rangeToRemove
|
|
}
|
|
)
|
|
|
|
Exposing.TypeExpose { name, open } ->
|
|
case open of
|
|
Just _ ->
|
|
-- TODO Change this behavior once we know the contents of the open range, using dependencies or the interfaces of the other modules
|
|
Nothing
|
|
|
|
Nothing ->
|
|
Just
|
|
( name
|
|
, { variableType = ImportedItem ImportedType
|
|
, under = range
|
|
, rangeToRemove = rangeToRemove
|
|
}
|
|
)
|
|
)
|
|
|> List.filterMap identity
|
|
|
|
|
|
untilEndOfVariable : String -> Range -> Range
|
|
untilEndOfVariable name range =
|
|
if range.start.row == range.end.row then
|
|
range
|
|
|
|
else
|
|
{ range | end = { row = range.start.row, column = range.start.column + String.length name } }
|
|
|
|
|
|
collectNamesFromTypeAnnotation : Node TypeAnnotation -> { types : List String, modules : List String }
|
|
collectNamesFromTypeAnnotation node =
|
|
{ types = collectTypesFromTypeAnnotation node
|
|
, modules = collectModuleNamesFromTypeAnnotation node
|
|
}
|
|
|
|
|
|
collectTypesFromTypeAnnotation : Node TypeAnnotation -> List String
|
|
collectTypesFromTypeAnnotation node =
|
|
case Node.value node of
|
|
TypeAnnotation.FunctionTypeAnnotation a b ->
|
|
collectTypesFromTypeAnnotation a ++ collectTypesFromTypeAnnotation b
|
|
|
|
TypeAnnotation.Typed nameNode params ->
|
|
let
|
|
name : List String
|
|
name =
|
|
case Node.value nameNode of
|
|
( [], str ) ->
|
|
[ str ]
|
|
|
|
_ ->
|
|
[]
|
|
in
|
|
name ++ List.concatMap collectTypesFromTypeAnnotation params
|
|
|
|
TypeAnnotation.Record list ->
|
|
list
|
|
|> List.map (Node.value >> Tuple.second)
|
|
|> List.concatMap collectTypesFromTypeAnnotation
|
|
|
|
TypeAnnotation.GenericRecord name list ->
|
|
list
|
|
|> Node.value
|
|
|> List.map (Node.value >> Tuple.second)
|
|
|> List.concatMap collectTypesFromTypeAnnotation
|
|
|
|
TypeAnnotation.Tupled list ->
|
|
List.concatMap collectTypesFromTypeAnnotation list
|
|
|
|
TypeAnnotation.GenericType _ ->
|
|
[]
|
|
|
|
TypeAnnotation.Unit ->
|
|
[]
|
|
|
|
|
|
collectModuleNamesFromTypeAnnotation : Node TypeAnnotation -> List String
|
|
collectModuleNamesFromTypeAnnotation node =
|
|
case Node.value node of
|
|
TypeAnnotation.FunctionTypeAnnotation a b ->
|
|
collectModuleNamesFromTypeAnnotation a ++ collectModuleNamesFromTypeAnnotation b
|
|
|
|
TypeAnnotation.Typed nameNode params ->
|
|
let
|
|
name : List String
|
|
name =
|
|
case Node.value nameNode of
|
|
( [], _ ) ->
|
|
[]
|
|
|
|
( moduleName, _ ) ->
|
|
[ getModuleName moduleName ]
|
|
in
|
|
name ++ List.concatMap collectModuleNamesFromTypeAnnotation params
|
|
|
|
TypeAnnotation.Record list ->
|
|
list
|
|
|> List.map (Node.value >> Tuple.second)
|
|
|> List.concatMap collectModuleNamesFromTypeAnnotation
|
|
|
|
TypeAnnotation.GenericRecord name list ->
|
|
list
|
|
|> Node.value
|
|
|> List.map (Node.value >> Tuple.second)
|
|
|> List.concatMap collectModuleNamesFromTypeAnnotation
|
|
|
|
TypeAnnotation.Tupled list ->
|
|
List.concatMap collectModuleNamesFromTypeAnnotation list
|
|
|
|
TypeAnnotation.GenericType _ ->
|
|
[]
|
|
|
|
TypeAnnotation.Unit ->
|
|
[]
|
|
|
|
|
|
register : VariableInfo -> String -> Context -> Context
|
|
register variableInfo name context =
|
|
case variableInfo.variableType of
|
|
TopLevelVariable ->
|
|
-- The main function is "exposed" by default
|
|
if name == "main" then
|
|
context
|
|
|
|
else
|
|
registerVariable variableInfo name context
|
|
|
|
LetVariable ->
|
|
registerVariable variableInfo name context
|
|
|
|
ImportedModule ->
|
|
registerModule variableInfo name context
|
|
|
|
ImportedItem _ ->
|
|
registerVariable variableInfo name context
|
|
|
|
ModuleAlias _ ->
|
|
registerModule variableInfo name context
|
|
|
|
Type ->
|
|
registerVariable variableInfo name context
|
|
|
|
Port ->
|
|
registerVariable variableInfo name context
|
|
|
|
|
|
registerModule : VariableInfo -> String -> Context -> Context
|
|
registerModule variableInfo name context =
|
|
{ context | declaredModules = Dict.insert name variableInfo context.declaredModules }
|
|
|
|
|
|
registerVariable : VariableInfo -> String -> Context -> Context
|
|
registerVariable variableInfo name context =
|
|
let
|
|
scopes : Nonempty Scope
|
|
scopes =
|
|
NonemptyList.mapHead
|
|
(\scope ->
|
|
{ scope | declared = Dict.insert name variableInfo scope.declared }
|
|
)
|
|
context.scopes
|
|
in
|
|
{ context | scopes = scopes }
|
|
|
|
|
|
markAllAsUsed : List String -> Context -> Context
|
|
markAllAsUsed names context =
|
|
List.foldl markAsUsed context names
|
|
|
|
|
|
markAsUsed : String -> Context -> Context
|
|
markAsUsed name context =
|
|
if context.inTheDeclarationOf == Just name then
|
|
context
|
|
|
|
else
|
|
let
|
|
scopes : Nonempty Scope
|
|
scopes =
|
|
NonemptyList.mapHead
|
|
(\scope ->
|
|
{ scope | used = Set.insert name scope.used }
|
|
)
|
|
context.scopes
|
|
in
|
|
{ context | scopes = scopes }
|
|
|
|
|
|
markAllModulesAsUsed : List String -> Context -> Context
|
|
markAllModulesAsUsed names context =
|
|
{ context | usedModules = Set.union (Set.fromList names) context.usedModules }
|
|
|
|
|
|
markModuleAsUsed : String -> Context -> Context
|
|
markModuleAsUsed name context =
|
|
{ context | usedModules = Set.insert name context.usedModules }
|
|
|
|
|
|
getModuleName : List String -> String
|
|
getModuleName name =
|
|
String.join "." name
|
|
|
|
|
|
makeReport : Scope -> ( List (Error {}), List String )
|
|
makeReport { declared, used } =
|
|
let
|
|
nonUsedVars : List String
|
|
nonUsedVars =
|
|
Set.diff used (Set.fromList <| Dict.keys declared)
|
|
|> Set.toList
|
|
|
|
errors : List (Error {})
|
|
errors =
|
|
Dict.filter (\key _ -> not <| Set.member key used) declared
|
|
|> Dict.toList
|
|
|> List.map (\( key, variableInfo ) -> error Dict.empty variableInfo key)
|
|
in
|
|
( errors, nonUsedVars )
|
|
|
|
|
|
|
|
-- RANGE MANIPULATION
|
|
|
|
|
|
{-| Include everything until the line after the end.
|
|
-}
|
|
untilStartOfNextLine : Range -> Range
|
|
untilStartOfNextLine range =
|
|
if range.end.column == 1 then
|
|
range
|
|
|
|
else
|
|
{ range | end = { row = range.end.row + 1, column = 1 } }
|
|
|
|
|
|
{-| Create a new range that starts at the start of the range that starts first,
|
|
and ends at the end of the range that starts last. If the two ranges are distinct
|
|
and there is code in between, that code will be included in the resulting range.
|
|
|
|
range : Range
|
|
range =
|
|
Fix.mergeRanges
|
|
(Node.range node1)
|
|
(Node.range node2)
|
|
|
|
-}
|
|
mergeRanges : Range -> Range -> Range
|
|
mergeRanges a b =
|
|
let
|
|
start : { row : Int, column : Int }
|
|
start =
|
|
case comparePosition a.start b.start of
|
|
LT ->
|
|
a.start
|
|
|
|
EQ ->
|
|
a.start
|
|
|
|
GT ->
|
|
b.start
|
|
|
|
end : { row : Int, column : Int }
|
|
end =
|
|
case comparePosition a.end b.end of
|
|
LT ->
|
|
b.end
|
|
|
|
EQ ->
|
|
b.end
|
|
|
|
GT ->
|
|
a.end
|
|
in
|
|
{ start = start, end = end }
|
|
|
|
|
|
{-| Make a range stop at a position. If the position is not inside the range,
|
|
then the range won't change.
|
|
|
|
range : Range
|
|
range =
|
|
rangeUpUntil
|
|
(Node.range node)
|
|
(node |> Node.value |> .typeAnnotation |> Node.range |> .start)
|
|
|
|
-}
|
|
rangeUpUntil : Range -> { row : Int, column : Int } -> Range
|
|
rangeUpUntil range position =
|
|
let
|
|
positionAsInt_ : Int
|
|
positionAsInt_ =
|
|
positionAsInt position
|
|
in
|
|
if positionAsInt range.start <= positionAsInt_ && positionAsInt range.end >= positionAsInt_ then
|
|
{ range | end = position }
|
|
|
|
else
|
|
range
|
|
|
|
|
|
positionAsInt : { row : Int, column : Int } -> Int
|
|
positionAsInt { row, column } =
|
|
-- This is a quick and simple heuristic to be able to sort ranges.
|
|
-- It is entirely based on the assumption that no line is longer than
|
|
-- 1.000.000 characters long. Then, as long as ranges don't overlap,
|
|
-- this should work fine.
|
|
row * 1000000 + column
|
|
|
|
|
|
comparePosition : { row : Int, column : Int } -> { row : Int, column : Int } -> Order
|
|
comparePosition a b =
|
|
let
|
|
order : Order
|
|
order =
|
|
compare a.row b.row
|
|
in
|
|
case order of
|
|
EQ ->
|
|
compare a.column b.column
|
|
|
|
_ ->
|
|
order
|