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elm-review/tests/NoUnused/Patterns.elm
Jeroen Engels a198634521 Annotate rules as providing fixes
2022-10-29 17:58:25 +02:00

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module NoUnused.Patterns exposing (rule)
{-| Report useless patterns and pattern values that are not used.
@docs rule
-}
import Elm.Syntax.Declaration as Declaration exposing (Declaration)
import Elm.Syntax.Expression as Expression exposing (Expression)
import Elm.Syntax.ModuleName exposing (ModuleName)
import Elm.Syntax.Node as Node exposing (Node(..))
import Elm.Syntax.Pattern as Pattern exposing (Pattern)
import Elm.Syntax.Range as Range exposing (Range)
import Elm.Writer as Writer
import NoUnused.Patterns.NameVisitor as NameVisitor
import Review.Fix as Fix exposing (Fix)
import Review.Rule as Rule exposing (Rule)
import Set exposing (Set)
{-| Report useless patterns and pattern values that are not used.
🔧 Running with `--fix` will automatically remove all the reported errors.
config =
[ NoUnused.Patterns.rule
]
This rule looks within let..in blocks and case branches to find any patterns that are unused. It will report any useless patterns as well as any pattern values that are not used.
## Fail
Value `something` is not used:
case maybe of
Just something ->
True
Nothing ->
False
## Success
case maybe of
Just _ ->
True
Nothing ->
False
## Try it out
You can try this rule out by running the following command:
```bash
elm-review --template jfmengels/elm-review-unused/example --rules NoUnused.Patterns
```
-}
rule : Rule
rule =
Rule.newModuleRuleSchema "NoUnused.Patterns" initialContext
|> Rule.withDeclarationEnterVisitor declarationEnterVisitor
|> Rule.withExpressionEnterVisitor expressionEnterVisitor
|> Rule.withExpressionExitVisitor expressionExitVisitor
|> Rule.withCaseBranchEnterVisitor caseBranchEnterVisitor
|> Rule.withCaseBranchExitVisitor caseBranchExitVisitor
|> NameVisitor.withValueVisitor valueVisitor
|> Rule.providesFixesForModuleRule
|> Rule.fromModuleRuleSchema
type alias Context =
List Scope
type alias Scope =
{ declared : List FoundPattern
, used : Set String
}
type FoundPattern
= SingleValue
{ name : String
, range : Range
, message : String
, details : List String
, fix : List Fix
}
| RecordPattern
{ fields : List (Node String)
, recordRange : Range
}
| SimplifiablePattern (Rule.Error {})
initialContext : Context
initialContext =
[]
-- EXPRESSION ENTER VISITOR
declarationEnterVisitor : Node Declaration -> Context -> ( List (Rule.Error {}), Context )
declarationEnterVisitor node context =
case Node.value node of
Declaration.FunctionDeclaration { declaration } ->
( findAsPatternsErrors (Node.value declaration).arguments []
, context
)
_ ->
( [], context )
expressionEnterVisitor : Node Expression -> Context -> ( List (Rule.Error {}), Context )
expressionEnterVisitor node context =
case Node.value node of
Expression.LetExpression { declarations } ->
let
findPatternsInLetDeclaration : Node Expression.LetDeclaration -> List FoundPattern
findPatternsInLetDeclaration letDeclaration =
case Node.value letDeclaration of
Expression.LetFunction _ ->
[]
Expression.LetDestructuring pattern _ ->
findPatterns Destructuring pattern
asPatternsErrors : Node Expression.LetDeclaration -> List (Rule.Error {})
asPatternsErrors letDeclaration =
case Node.value letDeclaration of
Expression.LetFunction { declaration } ->
findAsPatternsErrors (Node.value declaration).arguments []
Expression.LetDestructuring _ _ ->
[]
in
( List.concatMap asPatternsErrors declarations
, { declared = List.concatMap findPatternsInLetDeclaration declarations
, used = Set.empty
}
:: context
)
Expression.LambdaExpression { args } ->
( findAsPatternsErrors args [], context )
_ ->
( [], context )
expressionExitVisitor : Node Expression -> Context -> ( List (Rule.Error {}), Context )
expressionExitVisitor node context =
case Node.value node of
Expression.LetExpression _ ->
report context
_ ->
( [], context )
caseBranchEnterVisitor : a -> ( Node Pattern, Node Expression ) -> Context -> ( List nothing, Context )
caseBranchEnterVisitor _ ( pattern, _ ) context =
( []
, { declared = findPatterns Matching pattern
, used = Set.empty
}
:: context
)
caseBranchExitVisitor : a -> b -> Context -> ( List (Rule.Error {}), Context )
caseBranchExitVisitor _ _ context =
report context
report : Context -> ( List (Rule.Error {}), Context )
report context =
case context of
headScope :: restOfScopes ->
let
{ singles, records, simplifiablePatterns } =
findDeclaredPatterns headScope
allDeclared : List String
allDeclared =
List.concat
[ List.map .name singles
, List.concatMap (.fields >> List.map Node.value) records
]
nonUsedVars : Set String
nonUsedVars =
allDeclared
|> Set.fromList
|> Set.diff headScope.used
errors : List (Rule.Error {})
errors =
List.concat
[ singleErrors
, List.concatMap (recordErrors context) records
, simplifiablePatterns
]
singleErrors : List (Rule.Error {})
singleErrors =
List.filter (\{ name } -> not <| Set.member name headScope.used) singles
|> List.map
(\pattern ->
Rule.errorWithFix
{ message = pattern.message
, details = pattern.details
}
pattern.range
pattern.fix
)
in
( errors
, List.foldl
useValue
restOfScopes
(Set.toList nonUsedVars)
)
_ ->
( [], context )
recordErrors : Context -> { fields : List (Node String), recordRange : Range } -> List (Rule.Error {})
recordErrors context { fields, recordRange } =
if List.isEmpty fields then
[ Rule.errorWithFix
{ message = "Record pattern is not needed"
, details = [ "This pattern is redundant and should be replaced with '_'." ]
}
recordRange
[ Fix.replaceRangeBy recordRange "_" ]
]
else
let
( unused, used ) =
List.partition (isNodeInContext context) fields
in
case unused of
[] ->
[]
firstNode :: restNodes ->
let
first : String
first =
Node.value firstNode
rest : List String
rest =
List.map Node.value restNodes
( errorRange, fix ) =
case used of
[] ->
( recordRange, Fix.replaceRangeBy recordRange "_" )
_ ->
( Range.combine (List.map Node.range unused)
, Node Range.emptyRange (Pattern.RecordPattern used)
|> writePattern
|> Fix.replaceRangeBy recordRange
)
in
[ Rule.errorWithFix
{ message = listToMessage first rest
, details = listToDetails first rest
}
errorRange
[ fix ]
]
findDeclaredPatterns :
Scope
->
{ singles : List { name : String, range : Range, message : String, details : List String, fix : List Fix }
, records : List { fields : List (Node String), recordRange : Range }
, simplifiablePatterns : List (Rule.Error {})
}
findDeclaredPatterns scope =
List.foldl
(\foundPattern acc ->
case foundPattern of
SingleValue v ->
{ singles = v :: acc.singles, records = acc.records, simplifiablePatterns = acc.simplifiablePatterns }
RecordPattern v ->
{ singles = acc.singles, records = v :: acc.records, simplifiablePatterns = acc.simplifiablePatterns }
SimplifiablePattern simplifiablePatternError ->
{ singles = acc.singles, records = acc.records, simplifiablePatterns = simplifiablePatternError :: acc.simplifiablePatterns }
)
{ singles = [], records = [], simplifiablePatterns = [] }
scope.declared
valueVisitor : Node ( ModuleName, String ) -> Context -> ( List (Rule.Error {}), Context )
valueVisitor (Node _ ( moduleName, value )) context =
case moduleName of
[] ->
( [], useValue value context )
_ ->
( [], context )
--- ON ENTER
findPatterns : PatternUse -> Node Pattern -> List FoundPattern
findPatterns use pattern =
findPatternsHelp use [ pattern ] []
findPatternsHelp : PatternUse -> List (Node Pattern) -> List FoundPattern -> List FoundPattern
findPatternsHelp use patterns acc =
case patterns of
[] ->
acc
(Node range pattern) :: rest ->
case pattern of
Pattern.VarPattern name ->
let
foundPattern : FoundPattern
foundPattern =
SingleValue
{ name = name
, message = "Value `" ++ name ++ "` is not used"
, details = singularReplaceDetails
, range = range
, fix = [ Fix.replaceRangeBy range "_" ]
}
in
findPatternsHelp use rest (foundPattern :: acc)
Pattern.TuplePattern [ Node _ Pattern.AllPattern, Node _ Pattern.AllPattern ] ->
let
foundPattern : FoundPattern
foundPattern =
SimplifiablePattern
(Rule.errorWithFix
{ message = "Tuple pattern is not needed"
, details = redundantDetails
}
range
[ Fix.replaceRangeBy range "_" ]
)
in
findPatternsHelp use rest (foundPattern :: acc)
Pattern.TuplePattern [ Node _ Pattern.AllPattern, Node _ Pattern.AllPattern, Node _ Pattern.AllPattern ] ->
let
foundPattern : FoundPattern
foundPattern =
SimplifiablePattern
(Rule.errorWithFix
{ message = "Tuple pattern is not needed"
, details = redundantDetails
}
range
[ Fix.replaceRangeBy range "_" ]
)
in
findPatternsHelp use rest (foundPattern :: acc)
Pattern.TuplePattern subPatterns ->
findPatternsHelp use (subPatterns ++ rest) acc
Pattern.RecordPattern fields ->
let
foundPattern : FoundPattern
foundPattern =
RecordPattern
{ fields = fields
, recordRange = range
}
in
findPatternsHelp use rest (foundPattern :: acc)
Pattern.UnConsPattern first second ->
findPatternsHelp use (first :: second :: rest) acc
Pattern.ListPattern subPatterns ->
findPatternsHelp use (subPatterns ++ rest) acc
Pattern.NamedPattern _ subPatterns ->
if use == Destructuring && List.all isAllPattern subPatterns then
let
foundPattern : FoundPattern
foundPattern =
SimplifiablePattern
(Rule.errorWithFix
{ message = "Named pattern is not needed"
, details = redundantDetails
}
range
[ Fix.replaceRangeBy range "_" ]
)
in
findPatternsHelp use rest (foundPattern :: acc)
else
findPatternsHelp use (subPatterns ++ rest) acc
Pattern.AsPattern inner name ->
findPatternsHelp use (inner :: rest) (findPatternForAsPattern range inner name :: acc)
Pattern.ParenthesizedPattern inner ->
findPatternsHelp use (inner :: rest) acc
_ ->
findPatternsHelp use rest acc
--- ON EXIT
singularRemoveDetails : List String
singularRemoveDetails =
[ "You should either use this value somewhere or remove it." ]
singularReplaceDetails : List String
singularReplaceDetails =
[ "You should either use this value somewhere or replace it with '_'." ]
pluralDetails : List String
pluralDetails =
[ "You should either use these values somewhere or remove them." ]
redundantDetails : List String
redundantDetails =
[ "This pattern is redundant and should be replaced with '_'." ]
removeDetails : List String
removeDetails =
[ "This pattern is redundant and should be removed." ]
andThen :
(value -> Context -> ( List (Rule.Error {}), Context ))
-> value
-> ( List (Rule.Error {}), Context )
-> ( List (Rule.Error {}), Context )
andThen function value ( errors, context ) =
let
( newErrors, newContext ) =
function value context
in
( newErrors ++ errors, newContext )
type PatternUse
= Destructuring
| Matching
errorsForPatternList : PatternUse -> List (Node Pattern) -> Context -> ( List (Rule.Error {}), Context )
errorsForPatternList use list context =
List.foldl (andThen (errorsForPattern use)) ( [], context ) list
errorsForPattern : PatternUse -> Node Pattern -> Context -> ( List (Rule.Error {}), Context )
errorsForPattern use (Node range pattern) context =
case pattern of
Pattern.AllPattern ->
( [], context )
Pattern.VarPattern value ->
errorsForValue value range context
Pattern.RecordPattern values ->
errorsForRecordValueList range values context
Pattern.TuplePattern [ Node _ Pattern.AllPattern, Node _ Pattern.AllPattern ] ->
errorsForUselessTuple range context
Pattern.TuplePattern [ Node _ Pattern.AllPattern, Node _ Pattern.AllPattern, Node _ Pattern.AllPattern ] ->
errorsForUselessTuple range context
Pattern.TuplePattern patterns ->
errorsForPatternList use patterns context
Pattern.UnConsPattern first second ->
errorsForPatternList use [ first, second ] context
Pattern.ListPattern patterns ->
errorsForPatternList use patterns context
Pattern.NamedPattern _ patterns ->
if use == Destructuring && List.all isAllPattern patterns then
errorsForUselessNamePattern range context
else
errorsForPatternList use patterns context
Pattern.AsPattern inner name ->
context
|> errorsForAsPattern range inner name
|> andThen (errorsForPattern use) inner
Pattern.ParenthesizedPattern inner ->
errorsForPattern use inner context
_ ->
( [], context )
errorsForUselessNamePattern : Range -> Context -> ( List (Rule.Error {}), Context )
errorsForUselessNamePattern range context =
( [ Rule.errorWithFix
{ message = "Named pattern is not needed"
, details = redundantDetails
}
range
[ Fix.replaceRangeBy range "_" ]
]
, context
)
errorsForUselessTuple : Range -> Context -> ( List (Rule.Error {}), Context )
errorsForUselessTuple range context =
( [ Rule.errorWithFix
{ message = "Tuple pattern is not needed"
, details = redundantDetails
}
range
[ Fix.replaceRangeBy range "_" ]
]
, context
)
errorsForRecordValueList : Range -> List (Node String) -> Context -> ( List (Rule.Error {}), Context )
errorsForRecordValueList recordRange list context =
let
( unused, used ) =
List.partition (isNodeInContext context) list
in
case unused of
[] ->
( [], context )
firstNode :: restNodes ->
let
first : String
first =
Node.value firstNode
rest : List String
rest =
List.map Node.value restNodes
( errorRange, fix ) =
case used of
[] ->
( recordRange, Fix.replaceRangeBy recordRange "_" )
_ ->
( Range.combine (List.map Node.range unused)
, Node Range.emptyRange (Pattern.RecordPattern used)
|> writePattern
|> Fix.replaceRangeBy recordRange
)
in
( [ Rule.errorWithFix
{ message = listToMessage first rest
, details = listToDetails first rest
}
errorRange
[ fix ]
]
, List.foldl forgetNode context unused
)
listToMessage : String -> List String -> String
listToMessage first rest =
case List.reverse rest of
[] ->
"Value `" ++ first ++ "` is not used"
last :: middle ->
"Values `" ++ String.join "`, `" (first :: middle) ++ "` and `" ++ last ++ "` are not used"
listToDetails : String -> List String -> List String
listToDetails _ rest =
case rest of
[] ->
singularRemoveDetails
_ ->
pluralDetails
errorsForAsPattern : Range -> Node Pattern -> Node String -> Context -> ( List (Rule.Error {}), Context )
errorsForAsPattern patternRange inner (Node range name) context =
if isUnused name context then
let
fix : List Fix
fix =
[ inner
|> writePattern
|> Fix.replaceRangeBy patternRange
]
in
( [ Rule.errorWithFix
{ message = "Pattern alias `" ++ name ++ "` is not used"
, details = singularRemoveDetails
}
range
fix
]
, useValue name context
)
else if isAllPattern inner then
( [ Rule.errorWithFix
{ message = "Pattern `_` is not needed"
, details = removeDetails
}
(Node.range inner)
[ Fix.replaceRangeBy patternRange name ]
]
, useValue name context
)
else
( [], context )
findAsPatternsErrors : List (Node Pattern) -> List (Rule.Error {}) -> List (Rule.Error {})
findAsPatternsErrors patterns acc =
case patterns of
[] ->
acc
pattern :: rest ->
case Node.value pattern of
Pattern.AsPattern inner name ->
let
newAcc : List (Rule.Error {})
newAcc =
case findPatternForAsPattern (Node.range pattern) inner name of
SimplifiablePattern error ->
error :: acc
SingleValue _ ->
acc
RecordPattern _ ->
acc
in
findAsPatternsErrors (inner :: rest) newAcc
Pattern.TuplePattern subPatterns ->
findAsPatternsErrors (subPatterns ++ rest) acc
Pattern.UnConsPattern first second ->
findAsPatternsErrors (first :: second :: rest) acc
Pattern.ListPattern subPatterns ->
findAsPatternsErrors (subPatterns ++ rest) acc
Pattern.NamedPattern _ subPatterns ->
findAsPatternsErrors (subPatterns ++ rest) acc
Pattern.ParenthesizedPattern inner ->
findAsPatternsErrors (inner :: rest) acc
_ ->
findAsPatternsErrors rest acc
findPatternForAsPattern : Range -> Node Pattern -> Node String -> FoundPattern
findPatternForAsPattern patternRange pattern ((Node range name) as nameNode) =
case Node.value pattern of
Pattern.ParenthesizedPattern subPattern ->
findPatternForAsPattern patternRange subPattern nameNode
Pattern.AllPattern ->
SimplifiablePattern
(Rule.errorWithFix
{ message = "Pattern `_` is not needed"
, details = removeDetails
}
(Node.range pattern)
[ Fix.replaceRangeBy patternRange name ]
)
Pattern.VarPattern innerName ->
SimplifiablePattern
(Rule.error
{ message = "Unnecessary duplicate alias `" ++ name ++ "`"
, details = [ "This alias is redundant because the value is already named `" ++ innerName ++ "`. I suggest you remove one of them." ]
}
range
)
Pattern.AsPattern _ (Node innerRange innerName) ->
SimplifiablePattern
(Rule.error
{ message = "Unnecessary duplicate alias `" ++ innerName ++ "`"
, details = [ "This name is redundant because the value is already aliased as `" ++ name ++ "`. I suggest you remove one of them." ]
}
innerRange
)
_ ->
let
fix : List Fix
fix =
[ pattern
|> writePattern
|> Fix.replaceRangeBy patternRange
]
in
SingleValue
{ name = name
, message = "Pattern alias `" ++ name ++ "` is not used"
, details = singularRemoveDetails
, range = range
, fix = fix
}
isAllPattern : Node Pattern -> Bool
isAllPattern (Node _ pattern) =
case pattern of
Pattern.AllPattern ->
True
_ ->
False
forgetNode : Node String -> Context -> Context
forgetNode (Node _ value) context =
useValue value context
errorsForValue : String -> Range -> Context -> ( List (Rule.Error {}), Context )
errorsForValue name range context =
if isUnused name context then
( [ Rule.errorWithFix
{ message = "Value `" ++ name ++ "` is not used."
, details = singularReplaceDetails
}
range
[ Fix.replaceRangeBy range "_" ]
]
, useValue name context
)
else
( [], context )
useValue : String -> Context -> Context
useValue name context =
case context of
[] ->
context
headScope :: restOfScopes ->
{ headScope | used = Set.insert name headScope.used } :: restOfScopes
isNodeInContext : Context -> Node String -> Bool
isNodeInContext context (Node _ value) =
isUnused value context
isUnused : String -> Context -> Bool
isUnused name context =
case context of
[] ->
False
headScope :: _ ->
not <| Set.member name headScope.used
{-| Write a pattern.
-}
writePattern : Node Pattern -> String
writePattern pattern =
case Node.value pattern of
Pattern.AllPattern ->
"_"
Pattern.UnitPattern ->
"()"
Pattern.CharPattern c ->
"'" ++ String.fromChar c ++ "'"
Pattern.StringPattern s ->
"\"" ++ String.replace "\"" "\\\"" s ++ "\""
Pattern.HexPattern _ ->
pattern
|> Writer.writePattern
|> Writer.write
Pattern.IntPattern i ->
String.fromInt i
Pattern.FloatPattern f ->
String.fromFloat f
Pattern.TuplePattern inner ->
"( " ++ String.join ", " (List.map writePattern inner) ++ " )"
Pattern.RecordPattern inner ->
"{ " ++ String.join ", " (List.map Node.value inner) ++ " }"
Pattern.UnConsPattern left right ->
writePattern left ++ " :: " ++ writePattern right
Pattern.ListPattern inner ->
"[ " ++ String.join ", " (List.map writePattern inner) ++ " ]"
Pattern.VarPattern var ->
var
Pattern.NamedPattern qnr others ->
String.join " "
(String.join "." (qnr.moduleName ++ [ qnr.name ])
:: List.map writePattern others
)
Pattern.AsPattern innerPattern asName ->
writePattern innerPattern ++ " as " ++ Node.value asName
Pattern.ParenthesizedPattern innerPattern ->
"(" ++ writePattern innerPattern ++ ")"
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