HepLean Documentation

Mathlib.Tactic.Subsingleton

subsingleton tactic #

The subsingleton tactic closes Eq or HEq goals using an argument that the types involved are subsingletons. To first approximation, it does apply Subsingleton.elim but it also will try proof_irrel_heq, and it is careful not to accidentally specialize Sort _ to `Prop.

Returns the expression Subsingleton ty.

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    Synthesizes a Subsingleton ty instance with the additional local instances made available.

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      Closes the goal g whose target is an Eq or HEq by appealing to the fact that the types are subsingletons. Fails if it cannot find a way to do this.

      Has support for showing BEq instances are equal if they have LawfulBEq instances.

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        The subsingleton tactic tries to prove a goal of the form x = y or HEq x y using the fact that the types involved are subsingletons (a type with exactly zero or one terms). To a first approximation, it does apply Subsingleton.elim. As a nicety, subsingleton first runs the intros tactic.

        • If the goal is an equality, it either closes the goal or fails.
        • subsingleton [inst1, inst2, ...] can be used to add additional Subsingleton instances to the local context. This can be more flexible than have := inst1; have := inst2; ...; subsingleton since the tactic does not require that all placeholders be solved for.

        Techniques the subsingleton tactic can apply:

        Properties #

        The tactic is careful not to accidentally specialize Sort _ to Prop, avoiding the following surprising behavior of apply Subsingleton.elim:

        example (α : Sort _) (x y : α) : x = y := by apply Subsingleton.elim
        

        The reason this example goes through is that it applies the ∀ (p : Prop), Subsingleton p instance, specializing the universe level metavariable in Sort _ to 0.

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          Elaborates the terms like how Lean.Elab.Tactic.addSimpTheorem does, abstracting their metavariables.

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            Main loop for addSubsingletonInsts.

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