package coq-core

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type 'a universe_map = 'a Univ.Level.Map.t
type universe_subst = Univ.Universe.t universe_map
type universe_subst_fn = Univ.Level.t -> Univ.Universe.t option
type universe_level_subst_fn = Univ.Level.t -> Univ.Level.t

The resulting function must never be called on a level which would produce an algebraic.

val subst_univs_constraints : universe_subst_fn -> Univ.Constraints.t -> Univ.Constraints.t
type universe_opt_subst = Univ.Universe.t option universe_map
val normalize_univ_variable_opt_subst : universe_opt_subst -> Univ.Level.t -> Univ.Universe.t option
val normalize_universe_opt_subst : universe_opt_subst -> Univ.Universe.t -> Univ.Universe.t
val normalize_opt_subst : universe_opt_subst -> universe_opt_subst

Full universes substitutions into terms

val nf_evars_and_universes_opt_subst : (Constr.existential -> Constr.constr option) -> (Univ.Level.t -> Univ.Level.t) -> (Sorts.t -> Sorts.t) -> (Sorts.relevance -> Sorts.relevance) -> Constr.constr -> Constr.constr
val subst_univs_universe : (Univ.Level.t -> Univ.Universe.t option) -> Univ.Universe.t -> Univ.Universe.t
val pr_universe_subst : (Univ.Level.t -> Pp.t) -> universe_subst -> Pp.t
val enforce_eq_sort : Sorts.t -> Sorts.t -> Univ.Constraints.t -> Univ.Constraints.t
val enforce_leq_sort : Sorts.t -> Sorts.t -> Univ.Constraints.t -> Univ.Constraints.t
val enforce_leq_alg_sort : Sorts.t -> Sorts.t -> UGraph.t -> Univ.Constraints.t * UGraph.t

Picks an arbitrary set of constraints sufficient to ensure u <= v.

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