package coq-core

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Declaration of uninterpretation functions (i.e. printing rules) for notations

val notation_entry_eq : Constrexpr.notation_entry -> Constrexpr.notation_entry -> bool

Equality on notation_entry.

val notation_eq : Constrexpr.notation -> Constrexpr.notation -> bool

Equality on notation.

Equality on interpretation.

val notation_entry_level_eq : Constrexpr.notation_entry_level -> Constrexpr.notation_entry_level -> bool

Equality on notation_entry_level.

val level_eq : level -> level -> bool

Equality on level.

val entry_relative_level_eq : Constrexpr.entry_relative_level -> Constrexpr.entry_relative_level -> bool

Equality on entry_relative_level.

type 'a interp_rule_gen =
  1. | NotationRule of Constrexpr.specific_notation
  2. | AbbrevRule of 'a

Binds a notation in a given scope to an interpretation

type interp_rule = Names.KerName.t interp_rule_gen
val remove_uninterpretation : interp_rule -> Notation_term.interpretation -> unit
val declare_uninterpretation : ?also_in_cases_pattern:bool -> interp_rule -> Notation_term.interpretation -> unit
type notation_applicative_status =
  1. | AppBoundedNotation of int
  2. | AppUnboundedNotation
  3. | NotAppNotation
type key

Return printing key

val glob_prim_constr_key : 'a Glob_term.glob_constr_g -> Names.GlobRef.t option
val glob_constr_keys : Glob_term.glob_constr -> key list
val cases_pattern_key : Glob_term.cases_pattern -> key
val uninterp_notations : 'a Glob_term.glob_constr_g -> notation_rule list

Return the possible notations for a given term

val uninterp_cases_pattern_notations : 'a Glob_term.cases_pattern_g -> notation_rule list
val uninterp_ind_pattern_notations : Names.inductive -> notation_rule list
val with_notation_uninterpretation_protection : ('a -> 'b) -> 'a -> 'b

State protection

type notation_use =
  1. | OnlyPrinting
  2. | OnlyParsing
  3. | ParsingAndPrinting

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