mirror of
https://github.com/jfmengels/elm-review.git
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674 lines
23 KiB
Elm
674 lines
23 KiB
Elm
module NoUnoptimizedRecursion exposing
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( rule
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, Configuration, optOutWithComment, optInWithComment
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)
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{-|
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@docs rule
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Tail-call optimization makes Elm code more performant and helps prevent stack overflows.
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Since this optimization is done silently and under specific circumstances, it is unfortunately relatively easy
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to not notice when the optimization is not being applied. You can find the [reasons why a function would not be optimized below](#fail).
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I wrote a whole [article about tail-call optimization](https://jfmengels.net/tail-call-optimization/). Some of the information
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are repeated in this rule's documentation, but it's more complete.
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## Configuration
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@docs Configuration, optOutWithComment, optInWithComment
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## When (not) to enable this rule
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This rule is useful for both application maintainers and package authors to detect locations where
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performance could be improved and where stack overflows can happen.
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You should not enable this rule if you currently do not want to invest your time into thinking about performance.
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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-performance/example --rules NoUnoptimizedRecursion
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```
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The rule uses `optOutWithComment "IGNORE TCO"` as its configuration.
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## Success
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This function won't be reported because it is tail-call optimized.
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fun n =
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if condition n then
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fun (n - 1)
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else
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n
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This function won't be reported because it has been tagged as ignored.
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-- With opt-out configuration
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config =
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[ NoUnoptimizedRecursion.rule (NoUnoptimizedRecursion.optOutWithComment "IGNORE TCO")
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]
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fun n =
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-- elm-review: IGNORE TCO
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fun n * n
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This function won't be reported because it has not been tagged.
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-- With opt-in configuration
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config =
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[ NoUnoptimizedRecursion.rule (NoUnoptimizedRecursion.optInWithComment "ENSURE TCO")
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]
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fun n =
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fun n * n
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## Fail
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To understand when a function would not get tail-call optimized, it is important to understand when it would be optimized.
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The Elm compiler is able to apply tail-call optimization **only** when a recursive call **(1)** is a simple function application and **(2)** is the last operation that the function does in a branch.
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**(1)** means that while `recurse n = recurse (n - 1)` would be optimized, `recurse n = recurse <| n - 1` would not. Even though you may consider `<|` and `|>` as syntactic sugar for function calls, the compiler doesn't (at least with regard to TCO).
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As for **(2)**, the locations where a recursive call may happen are:
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- branches of an if expression
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- branches of a case expression
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- in the body of a let expression
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- inside simple parentheses
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and only if each of the above appeared at the root of the function or in one of the above locations themselves.
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The compiler optimizes every recursive call that adheres to the rules above, and simply doesn't optimize the other
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branches which would call the function naively and add to the stack frame.
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It is therefore possible to have **partially tail-call optimized functions**.
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Following is a list of likely situations that will be reported.
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### An operation is applied on the result of a function call
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The result of this recursive call gets multiplied by `n`, making the recursive call not the last thing to happen in this branch.
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factorial : Int -> Int
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factorial n =
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if n <= 1 then
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1
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else
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factorial (n - 1) * n
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Hint: When you need to apply an operation on the result of a recursive call, what you can do is to add an argument holding the result value and apply the operations on it instead.
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factorialHelp : Int -> Int -> Int
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factorialHelp n result =
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if n <= 1 then
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result
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else
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factorialHelp (result * n)
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and split the function into the one that will do recursive calls (above) and an "API-facing" function which will set the initial result value (below).
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factorial : Int -> Int
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factorial n =
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factorialHelp n 1
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### Calls using the |> or <| operators
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Even though you may consider these operators as syntactic sugar for function calls, the compiler doesn't and
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the following won't be optimized. The compiler doesn't special-case these functions and considers them as operators just
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like `(*)` in the example above.
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fun n =
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if condition n then
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fun <| n - 1
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else
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n
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fun n =
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if condition n then
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(n - 1)
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|> fun
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else
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n
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The fix here consists of converting the recursive calls to ones that don't use a pipe operator.
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### Calls appearing in || or && conditions
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The following won't be optimized.
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isPrefixOf : List a -> List a -> Bool
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isPrefixOf prefix list =
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case ( prefix, list ) of
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( [], _ ) ->
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True
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( _ :: _, [] ) ->
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False
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( p :: ps, x :: xs ) ->
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p == x && isPrefixOf ps xs
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The fix here is consists of using if expressions instead.
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isPrefixOf : List a -> List a -> Bool
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isPrefixOf prefix list =
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case ( prefix, list ) of
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( [], _ ) ->
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True
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( _ :: _, [] ) ->
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False
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( p :: ps, x :: xs ) ->
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if p == x then
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isPrefixOf ps xs
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else
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False
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### Calls from let declarations
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Calls from let functions won't be optimized.
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fun n =
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let
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funHelp y =
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fun (y - 1)
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in
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funHelp n
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Note that recursive let functions can be optimized if they call themselves, but calling the parent function
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will cause the parent to not be optimized.
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-}
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import Elm.Syntax.Declaration as Declaration exposing (Declaration)
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import Elm.Syntax.Expression as Expression exposing (Expression)
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import Elm.Syntax.Node as Node exposing (Node(..))
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import Elm.Syntax.Range exposing (Range)
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import Review.Rule as Rule exposing (Rule)
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import Set exposing (Set)
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{-| Reports recursive functions that are not [tail-call optimized](https://functional-programming-in-elm.netlify.app/recursion/tail-call-elimination.html).
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-}
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rule : Configuration -> Rule
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rule configuration =
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Rule.newModuleRuleSchema "NoUnoptimizedRecursion" initialContext
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|> Rule.withCommentsVisitor (commentsVisitor configuration)
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|> Rule.withDeclarationEnterVisitor (declarationVisitor configuration)
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|> Rule.withExpressionEnterVisitor (expressionEnterVisitor configuration)
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|> Rule.withExpressionExitVisitor expressionExitVisitor
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|> Rule.fromModuleRuleSchema
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-- CONFIGURATION
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{-| Configuration for `NoUnoptimizedRecursion`.
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Use [`optOutWithComment`](#optOutWithComment) or [`optInWithComment`](#optInWithComment) to configure this rule.
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You can use comments to tag functions as to be checked or ignored, depending on the configuration option you chose.
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This comment has to appear on the line after the `=` that follows the declaration of your function. Note that this
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comment only needs to contain the tag that you're choosing and that it is case-sensitive.
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The same will apply for functions defined in a let expression, since they can be tail-call optimized as well.
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-}
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type Configuration
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= OptOut String
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| OptIn String
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{-| Reports recursive functions by default, opt out functions tagged with a comment.
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config =
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[ NoUnoptimizedRecursion.rule (NoUnoptimizedRecursion.optOutWithComment "IGNORE TCO")
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]
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With the configuration above, the following function would not be reported.
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fun n =
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-- elm-review: IGNORE TCO
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if condition n then
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fun n * n
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else
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n
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The reasons for allowing to opt-out is because sometimes recursive functions are simply not translatable to
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tail-call optimized ones, for instance the ones that need to recurse over multiple elements (`fun left + fun right`).
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I recommend to **not** default to ignoring a reported issue, and instead to discuss with your colleagues how to best
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solve the error when you encounter it or when you see them ignore an error.
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I recommend to use this configuration option as your permanent configuration once you have fixed or opted-out of every function.
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-}
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optOutWithComment : String -> Configuration
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optOutWithComment comment =
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OptOut comment
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{-| Reports only the functions tagged with a comment.
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config =
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[ NoUnoptimizedRecursion.rule (NoUnoptimizedRecursion.optInWithComment "ENSURE TCO")
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]
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With the configuration above, the following function would be reported.
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fun n =
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-- ENSURE TCO
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if condition n then
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fun n * n
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else
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n
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-}
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optInWithComment : String -> Configuration
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optInWithComment comment =
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OptIn comment
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hasNoArguments : Expression.FunctionImplementation -> Bool
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hasNoArguments declaration =
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List.isEmpty declaration.arguments
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shouldReportFunction : Configuration -> Context -> Node Expression.FunctionImplementation -> Bool
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shouldReportFunction configuration context (Node range declaration) =
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if hasNoArguments declaration then
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False
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else
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let
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foundComment : Bool
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foundComment =
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Set.member (range.start.row + 1) context.comments
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in
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case configuration of
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OptOut _ ->
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not foundComment
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OptIn _ ->
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foundComment
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-- CONTEXT
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type alias Context =
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{ currentFunctionName : String
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, tcoLocations : List Range
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, newScopesForLet : List ( Range, String )
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, parentScopes : List ( Range, Scope )
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, parentNames : Set String
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, comments : Set Int
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, deOptimizationRange : Maybe Range
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, deOptimizationReason : List String
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}
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type alias Scope =
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{ currentFunctionName : String
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, tcoLocations : List Range
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, newScopes : List ( Range, String )
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}
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initialContext : Context
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initialContext =
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{ currentFunctionName = ""
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, tcoLocations = []
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, newScopesForLet = []
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, parentScopes = []
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, parentNames = Set.empty
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, comments = Set.empty
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, deOptimizationRange = Nothing
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, deOptimizationReason = []
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}
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-- VISITORS
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commentsVisitor : Configuration -> List (Node String) -> Context -> ( List nothing, Context )
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commentsVisitor configuration comments context =
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let
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commentTag : String
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commentTag =
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case configuration of
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OptOut commentTag_ ->
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commentTag_
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OptIn commentTag_ ->
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commentTag_
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in
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( []
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, { context
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| comments =
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List.foldl
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(\(Node range value) acc ->
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if String.contains commentTag value then
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Set.insert range.start.row acc
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else
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acc
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)
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Set.empty
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comments
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}
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)
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declarationVisitor : Configuration -> Node Declaration -> Context -> ( List nothing, Context )
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declarationVisitor configuration node context =
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case Node.value node of
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Declaration.FunctionDeclaration function ->
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( []
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, { currentFunctionName =
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if shouldReportFunction configuration context function.declaration then
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function.declaration
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|> Node.value
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|> .name
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|> Node.value
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else
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""
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, tcoLocations =
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[ function.declaration
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|> Node.value
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|> .expression
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|> Node.range
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]
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, newScopesForLet = []
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, parentScopes = []
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, parentNames = Set.empty
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, comments = context.comments
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, deOptimizationRange = Nothing
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, deOptimizationReason = []
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}
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)
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_ ->
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( [], context )
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expressionEnterVisitor : Configuration -> Node Expression -> Context -> ( List (Rule.Error {}), Context )
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expressionEnterVisitor configuration node context =
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let
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newContext : Context
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newContext =
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case context.newScopesForLet of
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[] ->
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context
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( range, name ) :: restOfNewScopes ->
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if range == Node.range node then
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{ currentFunctionName = name
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, tcoLocations = [ range ]
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, newScopesForLet = restOfNewScopes
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, parentScopes =
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( range
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, { currentFunctionName = context.currentFunctionName, tcoLocations = context.tcoLocations, newScopes = restOfNewScopes }
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)
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:: context.parentScopes
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, parentNames = Set.insert context.currentFunctionName context.parentNames
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, comments = context.comments
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, deOptimizationRange = context.deOptimizationRange
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, deOptimizationReason = context.deOptimizationReason
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}
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else
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context
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in
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if isInTcoLocation newContext (Node.range node) then
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( reportReferencesToParentFunctions node newContext, addAllowedLocation configuration node newContext )
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else
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( reportRecursiveCallInNonAllowedLocation node newContext, newContext )
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reportRecursiveCallInNonAllowedLocation : Node Expression -> Context -> List (Rule.Error {})
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reportRecursiveCallInNonAllowedLocation node context =
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case Node.value node of
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Expression.FunctionOrValue [] name ->
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if name == context.currentFunctionName then
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[ error (Node.range node) context.deOptimizationReason ]
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else
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[]
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_ ->
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[]
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reportReferencesToParentFunctions : Node Expression -> Context -> List (Rule.Error {})
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reportReferencesToParentFunctions node context =
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case Node.value node of
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Expression.Application ((Node funcRange (Expression.FunctionOrValue [] name)) :: _) ->
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if Set.member name context.parentNames then
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[ error funcRange [ "Among other possible reasons, the recursive call should not appear inside a let declaration." ] ]
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else
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[]
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_ ->
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[]
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error : Range -> List String -> Rule.Error {}
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error range additionalDetails =
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Rule.error
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{ message = "This function call cannot be tail-call optimized"
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, details =
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additionalDetails
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++ [ "You can read more about why over at https://package.elm-lang.org/packages/jfmengels/elm-review-performance/latest/NoUnoptimizedRecursion#fail" ]
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}
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range
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addAllowedLocation : Configuration -> Node Expression -> Context -> Context
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addAllowedLocation configuration node context =
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case Node.value node of
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Expression.Application (function :: _) ->
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{ context
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| tcoLocations = Node.range function :: context.tcoLocations
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, deOptimizationRange = Just (Node.range node)
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, deOptimizationReason = [ "Among other possible reasons, you are applying operations on the result of recursive call. The recursive call should be the last thing to happen in this branch." ]
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}
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Expression.IfBlock condition thenBranch elseBranch ->
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{ context
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| tcoLocations = Node.range thenBranch :: Node.range elseBranch :: context.tcoLocations
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, deOptimizationRange = Just (Node.range condition)
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, deOptimizationReason = [ "Among other possible reasons, the recursive call should not appear inside an if condition." ]
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}
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Expression.LetExpression { declarations, expression } ->
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addAllowedLocationForLetExpression configuration context declarations expression
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Expression.ParenthesizedExpression expr ->
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{- The following translates to TCO code
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fun x =
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(fun x)
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-}
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{ context | tcoLocations = Node.range expr :: context.tcoLocations }
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Expression.CaseExpression { cases } ->
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let
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tcoLocations : List Range
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tcoLocations =
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List.foldl (\( _, Node range _ ) acc -> range :: acc) context.tcoLocations cases
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in
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{ context
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| tcoLocations = tcoLocations
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, deOptimizationRange = Just (Node.range node)
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, deOptimizationReason = [ "Among other possible reasons, the recursive call should not appear in the pattern to evaluate for a case expression." ]
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}
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Expression.OperatorApplication operator _ _ _ ->
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{ context
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| deOptimizationRange = Just (Node.range node)
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, deOptimizationReason =
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List.filterMap identity
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[ Just "Among other possible reasons, you are applying operations on the result of recursive call. The recursive call should be the last thing to happen in this branch."
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, if operator == "<|" || operator == "|>" then
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Just ("Removing the usage of `" ++ operator ++ "` may fix the issue here.")
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else
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Nothing
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]
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}
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Expression.Negation _ ->
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{ context
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| deOptimizationRange = Just (Node.range node)
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, deOptimizationReason = [ "Among other possible reasons, you are applying operations on the result of recursive call. The recursive call should be the last thing to happen in this branch." ]
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}
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Expression.TupledExpression _ ->
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{ context
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| deOptimizationRange = Just (Node.range node)
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, deOptimizationReason = [ "Among other possible reasons, you are storing the result of recursive call inside a tuple. The recursive call should be the last thing to happen in this branch." ]
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}
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Expression.ListExpr _ ->
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{ context
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| deOptimizationRange = Just (Node.range node)
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, deOptimizationReason = [ "Among other possible reasons, you are storing the result of recursive call inside a list. The recursive call should be the last thing to happen in this branch." ]
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}
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Expression.RecordExpr _ ->
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{ context
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| deOptimizationRange = Just (Node.range node)
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, deOptimizationReason = [ "Among other possible reasons, you are storing the result of recursive call inside a record. The recursive call should be the last thing to happen in this branch." ]
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}
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Expression.RecordUpdateExpression _ _ ->
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{ context
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| deOptimizationRange = Just (Node.range node)
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, deOptimizationReason = [ "Among other possible reasons, you are storing the result of recursive call inside a record. The recursive call should be the last thing to happen in this branch." ]
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}
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Expression.RecordAccess _ _ ->
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{ context
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| deOptimizationRange = Just (Node.range node)
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, deOptimizationReason = [ "Among other possible reasons, you are accessing a field on the result of recursive call. The recursive call should be the last thing to happen in this branch." ]
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}
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Expression.LambdaExpression _ ->
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{ context
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| deOptimizationRange = Just (Node.range node)
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, deOptimizationReason = [ "Among other possible reasons, the recursive call should not appear inside an anonymous function." ]
|
|
}
|
|
|
|
_ ->
|
|
context
|
|
|
|
|
|
expressionExitVisitor : Node Expression -> Context -> ( List nothing, Context )
|
|
expressionExitVisitor node context =
|
|
case context.parentScopes of
|
|
[] ->
|
|
( [], removeDeOptimizationRangeIfNeeded node context )
|
|
|
|
( headRange, headScope ) :: restOfParentScopes ->
|
|
if headRange == Node.range node then
|
|
( []
|
|
, removeDeOptimizationRangeIfNeeded node
|
|
{ currentFunctionName = headScope.currentFunctionName
|
|
, tcoLocations = headScope.tcoLocations
|
|
, newScopesForLet = headScope.newScopes
|
|
, parentScopes = restOfParentScopes
|
|
, parentNames = Set.remove headScope.currentFunctionName context.parentNames
|
|
, comments = context.comments
|
|
, deOptimizationRange = context.deOptimizationRange
|
|
, deOptimizationReason = context.deOptimizationReason
|
|
}
|
|
)
|
|
|
|
else
|
|
( [], removeDeOptimizationRangeIfNeeded node context )
|
|
|
|
|
|
addAllowedLocationForLetExpression : Configuration -> Context -> List (Node Expression.LetDeclaration) -> Node a -> Context
|
|
addAllowedLocationForLetExpression configuration context declarations expression =
|
|
let
|
|
newScopes : List ( Range, String )
|
|
newScopes =
|
|
List.filterMap
|
|
(\decl ->
|
|
case Node.value decl of
|
|
Expression.LetFunction function ->
|
|
let
|
|
functionDeclaration : Expression.FunctionImplementation
|
|
functionDeclaration =
|
|
Node.value function.declaration
|
|
in
|
|
Just
|
|
( Node.range functionDeclaration.expression
|
|
, if shouldReportFunction configuration context function.declaration then
|
|
Node.value functionDeclaration.name
|
|
|
|
else
|
|
""
|
|
)
|
|
|
|
Expression.LetDestructuring _ _ ->
|
|
Nothing
|
|
)
|
|
declarations
|
|
in
|
|
{ context
|
|
| newScopesForLet = newScopes
|
|
|
|
{- The following translates to TCO code
|
|
|
|
let
|
|
fun x =
|
|
fun x
|
|
in
|
|
fun 1
|
|
-}
|
|
, tcoLocations = Node.range expression :: context.tcoLocations
|
|
}
|
|
|
|
|
|
removeDeOptimizationRangeIfNeeded : Node Expression -> Context -> Context
|
|
removeDeOptimizationRangeIfNeeded node context =
|
|
if Just (Node.range node) == context.deOptimizationRange then
|
|
{ context | deOptimizationRange = Nothing }
|
|
|
|
else
|
|
context
|
|
|
|
|
|
isInTcoLocation : Context -> Range -> Bool
|
|
isInTcoLocation context range =
|
|
List.member range context.tcoLocations
|