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Lean.Elab.Deriving.Util

Make fresh, hygienic names for every parameter and index of an inductive declaration.

For example, inductive Foo {α : Type} : Nat → Type will give something like #[`α✝, `a✝].

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    Return the inductive declaration's type applied to the arguments in argNames.

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      def Lean.Elab.Deriving.mkImplicitBinders (argNames : Array Lean.Name) :
      Lean.Elab.TermElabM (Array (Lean.TSyntax `Lean.Parser.Term.implicitBinder))

      Return implicit binder syntaxes for the given argNames. The output matches implicitBinder*.

      For example, #[`foo,`bar] gives `({foo} {bar}).

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        Return instance binder syntaxes binding className α for every generic parameter α of the inductive indVal for which such a binding is type-correct. argNames is expected to provide names for the parameters (see mkInductArgNames). The output matches instBinder*.

        For example, given inductive Foo {α : Type} (n : Nat) : (β : Type) → Type, where β is an index, invoking mkInstImplicitBinders `BarClass foo #[`α, `n, `β] gives `([BarClass α]).

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                def Lean.Elab.Deriving.mkLet (letDecls : Array (Lean.TSyntax `Lean.Parser.Term.letDecl)) (body : Lean.Term) :
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                    def Lean.Elab.Deriving.mkDiscr (varName : Lean.Name) :
                    Lean.Elab.TermElabM (Lean.TSyntax `Lean.Parser.Term.matchDiscr)
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