HepLean Documentation

Lean.Meta.Eqns

These options affect the generation of equational theorems in a significant way. For these, their value at definition time, not realization time, should matter.

This is implemented by

  • eagerly realizing the equations when they are set to a non-default value
  • when realizing them lazily, reset the options to their default
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    Environment extension for storing which declarations are recursive. This information is populated by the PreDefinition module, but the simplifier uses when unfolding declarations.

    Marks the given declaration as recursive.

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      Returns true if declName was defined using well-founded recursion, or structural recursion.

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        Returns true if s is of the form eq_<idx>

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          Throw an error if names for equation theorems for declName are not available.

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            Registers a new function for retrieving equation theorems. We generate equations theorems on demand, and they are generated by more than one module. For example, the structural and well-founded recursion modules generate them. Most recent getters are tried first.

            A getter returns an Option (Array Name). The result is none if the getter failed. Otherwise, it is a sequence of theorem names where each one of them corresponds to an alternative. Example: the definition

            def f (xs : List Nat) : List Nat :=
              match xs with
              | [] => []
              | x::xs => (x+1)::f xs
            

            should have two equational theorems associated with it

            f [] = []
            

            and

            (x : Nat) → (xs : List Nat) → f (x :: xs) = (x+1) :: f xs
            
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              Returns some declName if thmName is an equational theorem for declName.

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                Returns equation theorems for the given declaration.

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                  If any equation theorem affecting option is not the default value, create the equations now.

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                    Registers a new function for retrieving a "unfold" equation theorem.

                    We generate this kind of equation theorem on demand, and it is generated by more than one module. For example, the structural and well-founded recursion modules generate it. Most recent getters are tried first.

                    A getter returns an Option Name. The result is none if the getter failed. Otherwise, it is a theorem name. Example: the definition

                    def f (xs : List Nat) : List Nat :=
                      match xs with
                      | [] => []
                      | x::xs => (x+1)::f xs
                    

                    should have the theorem

                    (xs : Nat) →
                      f xs =
                        match xs with
                        | [] => []
                        | x::xs => (x+1)::f xs
                    
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                      Returns an "unfold" theorem (f.eq_def) for the given declaration. By default, we do not create unfold theorems for nonrecursive definitions. You can use nonRec := true to override this behavior.

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