Module `Genintern`

module Store : Store.S

type intern_variable_status = { intern_ids : Names.Id.Set.t; notation_variable_status : (bool Stdlib.ref * Notation_term.subscopes option Stdlib.ref * Notation_term.notation_var_internalization_type) Names.Id.Map.t; }
type glob_sign = { ltacvars : Names.Id.Set.t; genv : Environ.env; extra : Store.t; intern_sign : intern_variable_status; }

val empty_glob_sign : Environ.env -> glob_sign

type glob_constr_and_expr = Glob_term.glob_constr * Constrexpr.constr_expr option: In globalize tactics, we need to keep the initial constr_expr to recompute in the environment by the effective calls to Intro, Inversion, etc The constr_expr field is None in TacDef though

type glob_constr_pattern_and_expr = Names.Id.Set.t * glob_constr_and_expr * Pattern.constr_pattern

Internalization functions

type ('raw, 'glb) intern_fun = glob_sign -> 'raw -> glob_sign * 'glb: The type of functions used for internalizing generic arguments.

val intern : ('raw, 'glb, 'top) Genarg.genarg_type -> ('raw, 'glb) intern_fun
val generic_intern : (Genarg.raw_generic_argument, Genarg.glob_generic_argument) intern_fun

Substitution functions

type 'glb subst_fun = Mod_subst.substitution -> 'glb -> 'glb: The type of functions used for substituting generic arguments.

val substitute : ('raw, 'glb, 'top) Genarg.genarg_type -> 'glb subst_fun
val generic_substitute : Genarg.glob_generic_argument subst_fun

Notation functions

type 'glb ntn_subst_fun = glob_constr_and_expr Names.Id.Map.t -> 'glb -> 'glb

val substitute_notation : ('raw, 'glb, 'top) Genarg.genarg_type -> 'glb ntn_subst_fun
val generic_substitute_notation : Genarg.glob_generic_argument ntn_subst_fun

val register_intern0 : ('raw, 'glb, 'top) Genarg.genarg_type -> ('raw, 'glb) intern_fun -> unit
val register_subst0 : ('raw, 'glb, 'top) Genarg.genarg_type -> 'glb subst_fun -> unit
val register_ntn_subst0 : ('raw, 'glb, 'top) Genarg.genarg_type -> 'glb ntn_subst_fun -> unit