diff options
Diffstat (limited to 'kernel/term.mli')
| -rw-r--r-- | kernel/term.mli | 393 |
1 files changed, 240 insertions, 153 deletions
diff --git a/kernel/term.mli b/kernel/term.mli index 60a3c771..ee84dcb2 100644 --- a/kernel/term.mli +++ b/kernel/term.mli @@ -1,12 +1,15 @@ (************************************************************************) -(* v * The Coq Proof Assistant / The Coq Development Team *) -(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2016 *) +(* * The Coq Proof Assistant / The Coq Development Team *) +(* v * INRIA, CNRS and contributors - Copyright 1999-2018 *) +(* <O___,, * (see CREDITS file for the list of authors) *) (* \VV/ **************************************************************) -(* // * This file is distributed under the terms of the *) -(* * GNU Lesser General Public License Version 2.1 *) +(* // * This file is distributed under the terms of the *) +(* * GNU Lesser General Public License Version 2.1 *) +(* * (see LICENSE file for the text of the license) *) (************************************************************************) open Names +open Constr (** {5 Redeclaration of types from module Constr and Sorts} @@ -15,166 +18,133 @@ open Names *) -type contents = Sorts.contents = Pos | Null - -type sorts = Sorts.t = - | Prop of contents (** Prop and Set *) - | Type of Univ.universe (** Type *) - -type sorts_family = Sorts.family = InProp | InSet | InType - -type 'a puniverses = 'a Univ.puniverses - -(** Simply type aliases *) -type pconstant = constant puniverses -type pinductive = inductive puniverses -type pconstructor = constructor puniverses - -type constr = Constr.constr -(** Alias types, for compatibility. *) - -type types = Constr.types -(** Same as [constr], for documentation purposes. *) - -type existential_key = Constr.existential_key - -type existential = Constr.existential - -type metavariable = Constr.metavariable - -type case_style = Constr.case_style = - LetStyle | IfStyle | LetPatternStyle | MatchStyle | RegularStyle - -type case_printing = Constr.case_printing = - { ind_tags : bool list; cstr_tags : bool list array; style : case_style } - -type case_info = Constr.case_info = - { ci_ind : inductive; - ci_npar : int; - ci_cstr_ndecls : int array; - ci_cstr_nargs : int array; - ci_pp_info : case_printing - } - -type cast_kind = Constr.cast_kind = - VMcast | NATIVEcast | DEFAULTcast | REVERTcast - -type rec_declaration = Constr.rec_declaration -type fixpoint = Constr.fixpoint -type cofixpoint = Constr.cofixpoint -type 'constr pexistential = 'constr Constr.pexistential -type ('constr, 'types) prec_declaration = - ('constr, 'types) Constr.prec_declaration -type ('constr, 'types) pfixpoint = ('constr, 'types) Constr.pfixpoint -type ('constr, 'types) pcofixpoint = ('constr, 'types) Constr.pcofixpoint - -type ('constr, 'types) kind_of_term = ('constr, 'types) Constr.kind_of_term = - | Rel of int - | Var of Id.t - | Meta of metavariable - | Evar of 'constr pexistential - | Sort of sorts - | Cast of 'constr * cast_kind * 'types - | Prod of Name.t * 'types * 'types - | Lambda of Name.t * 'types * 'constr - | LetIn of Name.t * 'constr * 'types * 'constr - | App of 'constr * 'constr array - | Const of constant puniverses - | Ind of inductive puniverses - | Construct of constructor puniverses - | Case of case_info * 'constr * 'constr * 'constr array - | Fix of ('constr, 'types) pfixpoint - | CoFix of ('constr, 'types) pcofixpoint - | Proj of projection * 'constr - -type values = Constr.values +exception DestKO +[@@ocaml.deprecated "Alias for [Constr.DestKO]"] (** {5 Simple term case analysis. } *) - val isRel : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isRel]"] val isRelN : int -> constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isRelN]"] val isVar : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isVar]"] val isVarId : Id.t -> constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isVarId]"] val isInd : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isInd]"] val isEvar : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isEvar]"] val isMeta : constr -> bool -val isMetaOf : metavariable -> constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isMeta]"] val isEvar_or_Meta : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isEvar_or_Meta]"] val isSort : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isSort]"] val isCast : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isCast]"] val isApp : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isApp]"] val isLambda : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isLambda]"] val isLetIn : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isletIn]"] val isProd : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isProp]"] val isConst : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isConst]"] val isConstruct : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isConstruct]"] val isFix : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isFix]"] val isCoFix : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isCoFix]"] val isCase : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isCase]"] val isProj : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isProj]"] val is_Prop : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.is_Prop]"] val is_Set : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.is_Set]"] val isprop : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.isprop]"] val is_Type : constr -> bool +[@@ocaml.deprecated "Alias for [Constr.is_Type]"] val iskind : constr -> bool -val is_small : sorts -> bool +[@@ocaml.deprecated "Alias for [Constr.is_kind]"] +val is_small : Sorts.t -> bool +[@@ocaml.deprecated "Alias for [Constr.is_small]"] (** {5 Term destructors } *) (** Destructor operations are partial functions and @raise DestKO if the term has not the expected form. *) -exception DestKO - -(** Destructs a DeBrujin index *) +(** Destructs a de Bruijn index *) val destRel : constr -> int +[@@ocaml.deprecated "Alias for [Constr.destRel]"] (** Destructs an existential variable *) val destMeta : constr -> metavariable +[@@ocaml.deprecated "Alias for [Constr.destMeta]"] (** Destructs a variable *) val destVar : constr -> Id.t +[@@ocaml.deprecated "Alias for [Constr.destVar]"] (** Destructs a sort. [is_Prop] recognizes the sort {% \textsf{%}Prop{% }%}, whether [isprop] recognizes both {% \textsf{%}Prop{% }%} and {% \textsf{%}Set{% }%}. *) -val destSort : constr -> sorts +val destSort : constr -> Sorts.t +[@@ocaml.deprecated "Alias for [Constr.destSort]"] (** Destructs a casted term *) val destCast : constr -> constr * cast_kind * constr +[@@ocaml.deprecated "Alias for [Constr.destCast]"] (** Destructs the product {% $ %}(x:t_1)t_2{% $ %} *) val destProd : types -> Name.t * types * types +[@@ocaml.deprecated "Alias for [Constr.destProd]"] (** Destructs the abstraction {% $ %}[x:t_1]t_2{% $ %} *) val destLambda : constr -> Name.t * types * constr +[@@ocaml.deprecated "Alias for [Constr.destLambda]"] (** Destructs the let {% $ %}[x:=b:t_1]t_2{% $ %} *) val destLetIn : constr -> Name.t * constr * types * constr +[@@ocaml.deprecated "Alias for [Constr.destLetIn]"] (** Destructs an application *) val destApp : constr -> constr * constr array +[@@ocaml.deprecated "Alias for [Constr.destApp]"] (** Obsolete synonym of destApp *) val destApplication : constr -> constr * constr array +[@@ocaml.deprecated "Alias for [Constr.destApplication]"] (** Decompose any term as an applicative term; the list of args can be empty *) val decompose_app : constr -> constr * constr list +[@@ocaml.deprecated "Alias for [Constr.decompose_app]"] (** Same as [decompose_app], but returns an array. *) val decompose_appvect : constr -> constr * constr array +[@@ocaml.deprecated "Alias for [Constr.decompose_appvect]"] (** Destructs a constant *) -val destConst : constr -> constant puniverses +val destConst : constr -> Constant.t Univ.puniverses +[@@ocaml.deprecated "Alias for [Constr.destConst]"] (** Destructs an existential variable *) val destEvar : constr -> existential +[@@ocaml.deprecated "Alias for [Constr.destEvar]"] (** Destructs a (co)inductive type *) -val destInd : constr -> inductive puniverses +val destInd : constr -> inductive Univ.puniverses +[@@ocaml.deprecated "Alias for [Constr.destInd]"] (** Destructs a constructor *) -val destConstruct : constr -> constructor puniverses +val destConstruct : constr -> constructor Univ.puniverses +[@@ocaml.deprecated "Alias for [Constr.destConstruct]"] (** Destructs a [match c as x in I args return P with ... | Ci(...yij...) => ti | ... end] (or [let (..y1i..) := c as x in I args @@ -182,9 +152,11 @@ return P in t1], or [if c then t1 else t2]) @return [(info,c,fun args x => P,[|...|fun yij => ti| ...|])] where [info] is pretty-printing information *) val destCase : constr -> case_info * constr * constr * constr array +[@@ocaml.deprecated "Alias for [Constr.destCase]"] (** Destructs a projection *) -val destProj : constr -> projection * constr +val destProj : constr -> Projection.t * constr +[@@ocaml.deprecated "Alias for [Constr.destProj]"] (** Destructs the {% $ %}i{% $ %}th function of the block [Fixpoint f{_ 1} ctx{_ 1} = b{_ 1} @@ -194,9 +166,10 @@ val destProj : constr -> projection * constr where the length of the {% $ %}j{% $ %}th context is {% $ %}ij{% $ %}. *) val destFix : constr -> fixpoint +[@@ocaml.deprecated "Alias for [Constr.destFix]"] val destCoFix : constr -> cofixpoint - +[@@ocaml.deprecated "Alias for [Constr.destCoFix]"] (** {5 Derived constructors} *) @@ -271,7 +244,7 @@ val lambda_applist : constr -> constr list -> constr val lambda_appvect : constr -> constr array -> constr (** In [lambda_applist_assum n c args], [c] is supposed to have the - form [λΓ.c] with [Γ] of length [m] and possibly with let-ins; it + form [λΓ.c] with [Γ] of length [n] and possibly with let-ins; it returns [c] with the assumptions of [Γ] instantiated by [args] and the local definitions of [Γ] expanded. *) val lambda_applist_assum : int -> constr -> constr list -> constr @@ -280,15 +253,15 @@ val lambda_appvect_assum : int -> constr -> constr array -> constr (** pseudo-reduction rule *) (** [prod_appvect] [forall (x1:B1;...;xn:Bn), B] [a1...an] @return [B[a1...an]] *) -val prod_appvect : constr -> constr array -> constr -val prod_applist : constr -> constr list -> constr +val prod_appvect : types -> constr array -> types +val prod_applist : types -> constr list -> types (** In [prod_appvect_assum n c args], [c] is supposed to have the - form [∀Γ.c] with [Γ] of length [m] and possibly with let-ins; it + form [∀Γ.c] with [Γ] of length [n] and possibly with let-ins; it returns [c] with the assumptions of [Γ] instantiated by [args] and the local definitions of [Γ] expanded. *) -val prod_appvect_assum : int -> constr -> constr array -> constr -val prod_applist_assum : int -> constr -> constr list -> constr +val prod_appvect_assum : int -> types -> constr array -> types +val prod_applist_assum : int -> types -> constr list -> types (** {5 Other term destructors. } *) @@ -349,26 +322,12 @@ val strip_lam_n : int -> constr -> constr val strip_prod_assum : types -> types val strip_lam_assum : constr -> constr -(** Flattens application lists *) -val collapse_appl : constr -> constr - - -(** Remove recursively the casts around a term i.e. - [strip_outer_cast (Cast (Cast ... (Cast c, t) ... ))] is [c]. *) -val strip_outer_cast : constr -> constr - -(** Apply a function letting Casted types in place *) -val under_casts : (constr -> constr) -> constr -> constr - -(** Apply a function under components of Cast if any *) -val under_outer_cast : (constr -> constr) -> constr -> constr - (** {5 ... } *) (** An "arity" is a term of the form [[x1:T1]...[xn:Tn]s] with [s] a sort. Such a term can canonically be seen as the pair of a context of types and of a sort *) -type arity = Context.Rel.t * sorts +type arity = Context.Rel.t * Sorts.t (** Build an "arity" from its canonical form *) val mkArity : arity -> types @@ -382,7 +341,7 @@ val isArity : types -> bool (** {5 Kind of type} *) type ('constr, 'types) kind_of_type = - | SortType of sorts + | SortType of Sorts.t | CastType of 'types * 'types | ProdType of Name.t * 'types * 'types | LetInType of Name.t * 'constr * 'types * 'types @@ -392,23 +351,23 @@ val kind_of_type : types -> (constr, types) kind_of_type (** {5 Redeclaration of stuff from module [Sorts]} *) -val set_sort : sorts -(** Alias for Sorts.set *) +val set_sort : Sorts.t +[@@ocaml.deprecated "Alias for Sorts.set"] -val prop_sort : sorts -(** Alias for Sorts.prop *) +val prop_sort : Sorts.t +[@@ocaml.deprecated "Alias for Sorts.prop"] -val type1_sort : sorts -(** Alias for Sorts.type1 *) +val type1_sort : Sorts.t +[@@ocaml.deprecated "Alias for Sorts.type1"] -val sorts_ord : sorts -> sorts -> int -(** Alias for Sorts.compare *) +val sorts_ord : Sorts.t -> Sorts.t -> int +[@@ocaml.deprecated "Alias for Sorts.compare"] -val is_prop_sort : sorts -> bool -(** Alias for Sorts.is_prop *) +val is_prop_sort : Sorts.t -> bool +[@@ocaml.deprecated "Alias for Sorts.is_prop"] -val family_of_sort : sorts -> sorts_family -(** Alias for Sorts.family *) +val family_of_sort : Sorts.t -> Sorts.family +[@@ocaml.deprecated "Alias for Sorts.family"] (** {5 Redeclaration of stuff from module [Constr]} @@ -417,87 +376,215 @@ val family_of_sort : sorts -> sorts_family (** {6 Term constructors. } *) val mkRel : int -> constr +[@@ocaml.deprecated "Alias for Constr.mkRel"] val mkVar : Id.t -> constr +[@@ocaml.deprecated "Alias for Constr.mkVar"] val mkMeta : metavariable -> constr +[@@ocaml.deprecated "Alias for Constr.mkMeta"] val mkEvar : existential -> constr -val mkSort : sorts -> types +[@@ocaml.deprecated "Alias for Constr.mkEvar"] +val mkSort : Sorts.t -> types +[@@ocaml.deprecated "Alias for Constr.mkSort"] val mkProp : types +[@@ocaml.deprecated "Alias for Constr.mkProp"] val mkSet : types -val mkType : Univ.universe -> types +[@@ocaml.deprecated "Alias for Constr.mkSet"] +val mkType : Univ.Universe.t -> types +[@@ocaml.deprecated "Alias for Constr.mkType"] val mkCast : constr * cast_kind * constr -> constr +[@@ocaml.deprecated "Alias for Constr"] val mkProd : Name.t * types * types -> types +[@@ocaml.deprecated "Alias for Constr"] val mkLambda : Name.t * types * constr -> constr +[@@ocaml.deprecated "Alias for Constr"] val mkLetIn : Name.t * constr * types * constr -> constr +[@@ocaml.deprecated "Alias for Constr"] val mkApp : constr * constr array -> constr -val mkConst : constant -> constr -val mkProj : projection * constr -> constr +[@@ocaml.deprecated "Alias for Constr"] +val mkConst : Constant.t -> constr +[@@ocaml.deprecated "Alias for Constr"] +val mkProj : Projection.t * constr -> constr +[@@ocaml.deprecated "Alias for Constr"] val mkInd : inductive -> constr +[@@ocaml.deprecated "Alias for Constr"] val mkConstruct : constructor -> constr -val mkConstU : constant puniverses -> constr -val mkIndU : inductive puniverses -> constr -val mkConstructU : constructor puniverses -> constr +[@@ocaml.deprecated "Alias for Constr"] +val mkConstU : Constant.t Univ.puniverses -> constr +[@@ocaml.deprecated "Alias for Constr"] +val mkIndU : inductive Univ.puniverses -> constr +[@@ocaml.deprecated "Alias for Constr"] +val mkConstructU : constructor Univ.puniverses -> constr +[@@ocaml.deprecated "Alias for Constr"] val mkConstructUi : (pinductive * int) -> constr +[@@ocaml.deprecated "Alias for Constr"] val mkCase : case_info * constr * constr * constr array -> constr +[@@ocaml.deprecated "Alias for Constr.mkCase"] val mkFix : fixpoint -> constr +[@@ocaml.deprecated "Alias for Constr.mkFix"] val mkCoFix : cofixpoint -> constr +[@@ocaml.deprecated "Alias for Constr.mkCoFix"] (** {6 Aliases} *) val eq_constr : constr -> constr -> bool -(** Alias for [Constr.equal] *) +[@@ocaml.deprecated "Alias for Constr.equal"] (** [eq_constr_univs u a b] is [true] if [a] equals [b] modulo alpha, casts, application grouping and the universe constraints in [u]. *) val eq_constr_univs : constr UGraph.check_function +[@@ocaml.deprecated "Alias for Constr.eq_constr_univs"] (** [leq_constr_univs u a b] is [true] if [a] is convertible to [b] modulo alpha, casts, application grouping and the universe constraints in [u]. *) val leq_constr_univs : constr UGraph.check_function +[@@ocaml.deprecated "Alias for Constr.leq_constr_univs"] (** [eq_constr_univs a b] [true, c] if [a] equals [b] modulo alpha, casts, application grouping and ignoring universe instances. *) val eq_constr_nounivs : constr -> constr -> bool +[@@ocaml.deprecated "Alias for Constr.qe_constr_nounivs"] + +val kind_of_term : constr -> (constr, types, Sorts.t, Univ.Instance.t) kind_of_term +[@@ocaml.deprecated "Alias for Constr.kind"] -val kind_of_term : constr -> (constr, types) kind_of_term -(** Alias for [Constr.kind] *) +val compare : constr -> constr -> int +[@@ocaml.deprecated "Alias for [Constr.compare]"] val constr_ord : constr -> constr -> int -(** Alias for [Constr.compare] *) +[@@ocaml.deprecated "Alias for [Term.compare]"] val fold_constr : ('a -> constr -> 'a) -> 'a -> constr -> 'a -(** Alias for [Constr.fold] *) +[@@ocaml.deprecated "Alias for [Constr.fold]"] val map_constr : (constr -> constr) -> constr -> constr -(** Alias for [Constr.map] *) +[@@ocaml.deprecated "Alias for [Constr.map]"] val map_constr_with_binders : ('a -> 'a) -> ('a -> constr -> constr) -> 'a -> constr -> constr -(** Alias for [Constr.map_with_binders] *) +[@@ocaml.deprecated "Alias for [Constr.map_with_binders]"] -val map_puniverses : ('a -> 'b) -> 'a puniverses -> 'b puniverses -val univ_of_sort : sorts -> Univ.universe -val sort_of_univ : Univ.universe -> sorts +val map_puniverses : ('a -> 'b) -> 'a Univ.puniverses -> 'b Univ.puniverses +[@@ocaml.deprecated "Alias for [Constr.map_puniverses]"] +val univ_of_sort : Sorts.t -> Univ.Universe.t +[@@ocaml.deprecated "Alias for [Sorts.univ_of_sort]"] +val sort_of_univ : Univ.Universe.t -> Sorts.t +[@@ocaml.deprecated "Alias for [Sorts.sort_of_univ]"] val iter_constr : (constr -> unit) -> constr -> unit -(** Alias for [Constr.iter] *) +[@@ocaml.deprecated "Alias for [Constr.iter]"] val iter_constr_with_binders : ('a -> 'a) -> ('a -> constr -> unit) -> 'a -> constr -> unit -(** Alias for [Constr.iter_with_binders] *) +[@@ocaml.deprecated "Alias for [Constr.iter_with_binders]"] + +val compare_constr : (int -> constr -> constr -> bool) -> int -> constr -> constr -> bool +[@@ocaml.deprecated "Alias for [Constr.compare_head]"] + +type constr = Constr.constr +[@@ocaml.deprecated "Alias for Constr.t"] + +(** Alias types, for compatibility. *) + +type types = Constr.types +[@@ocaml.deprecated "Alias for Constr.types"] + +type contents = Sorts.contents = Pos | Null +[@@ocaml.deprecated "Alias for Sorts.contents"] + +type sorts = Sorts.t = + | Prop of Sorts.contents (** Prop and Set *) + | Type of Univ.Universe.t (** Type *) +[@@ocaml.deprecated "Alias for Sorts.t"] + +type sorts_family = Sorts.family = InProp | InSet | InType +[@@ocaml.deprecated "Alias for Sorts.family"] + +type 'a puniverses = 'a Univ.puniverses +[@@ocaml.deprecated "Alias for Constr.puniverses"] + +(** Simply type aliases *) +type pconstant = Constr.pconstant +[@@ocaml.deprecated "Alias for Constr.pconstant"] +type pinductive = Constr.pinductive +[@@ocaml.deprecated "Alias for Constr.pinductive"] +type pconstructor = Constr.pconstructor +[@@ocaml.deprecated "Alias for Constr.pconstructor"] +type existential_key = Evar.t +[@@ocaml.deprecated "Alias for Evar.t"] +type existential = Constr.existential +[@@ocaml.deprecated "Alias for Constr.existential"] +type metavariable = Constr.metavariable +[@@ocaml.deprecated "Alias for Constr.metavariable"] + +type case_style = Constr.case_style = + LetStyle | IfStyle | LetPatternStyle | MatchStyle | RegularStyle +[@@ocaml.deprecated "Alias for Constr.case_style"] + +type case_printing = Constr.case_printing = + { ind_tags : bool list; cstr_tags : bool list array; style : Constr.case_style } +[@@ocaml.deprecated "Alias for Constr.case_printing"] + +type case_info = Constr.case_info = + { ci_ind : inductive; + ci_npar : int; + ci_cstr_ndecls : int array; + ci_cstr_nargs : int array; + ci_pp_info : Constr.case_printing + } +[@@ocaml.deprecated "Alias for Constr.case_info"] + +type cast_kind = Constr.cast_kind = + VMcast | NATIVEcast | DEFAULTcast | REVERTcast +[@@ocaml.deprecated "Alias for Constr.cast_kind"] + +type rec_declaration = Constr.rec_declaration +[@@ocaml.deprecated "Alias for Constr.rec_declaration"] +type fixpoint = Constr.fixpoint +[@@ocaml.deprecated "Alias for Constr.fixpoint"] +type cofixpoint = Constr.cofixpoint +[@@ocaml.deprecated "Alias for Constr.cofixpoint"] +type 'constr pexistential = 'constr Constr.pexistential +[@@ocaml.deprecated "Alias for Constr.pexistential"] +type ('constr, 'types) prec_declaration = + ('constr, 'types) Constr.prec_declaration +[@@ocaml.deprecated "Alias for Constr.prec_declaration"] +type ('constr, 'types) pfixpoint = ('constr, 'types) Constr.pfixpoint +[@@ocaml.deprecated "Alias for Constr.pfixpoint"] +type ('constr, 'types) pcofixpoint = ('constr, 'types) Constr.pcofixpoint +[@@ocaml.deprecated "Alias for Constr.pcofixpoint"] -val compare_constr : (constr -> constr -> bool) -> constr -> constr -> bool -(** Alias for [Constr.compare_head] *) +type ('constr, 'types, 'sort, 'univs) kind_of_term = + ('constr, 'types, 'sort, 'univs) Constr.kind_of_term = + | Rel of int + | Var of Id.t + | Meta of Constr.metavariable + | Evar of 'constr Constr.pexistential + | Sort of 'sort + | Cast of 'constr * Constr.cast_kind * 'types + | Prod of Name.t * 'types * 'types + | Lambda of Name.t * 'types * 'constr + | LetIn of Name.t * 'constr * 'types * 'constr + | App of 'constr * 'constr array + | Const of (Constant.t * 'univs) + | Ind of (inductive * 'univs) + | Construct of (constructor * 'univs) + | Case of Constr.case_info * 'constr * 'constr * 'constr array + | Fix of ('constr, 'types) Constr.pfixpoint + | CoFix of ('constr, 'types) Constr.pcofixpoint + | Proj of Projection.t * 'constr +[@@ocaml.deprecated "Alias for Constr.kind_of_term"] -val hash_constr : constr -> int -(** Alias for [Constr.hash] *) +type values = Vmvalues.values +[@@ocaml.deprecated "Alias for Vmvalues.values"] -(*********************************************************************) +val hash_constr : Constr.constr -> int +[@@ocaml.deprecated "Alias for Constr.hash"] -val hcons_sorts : sorts -> sorts -(** Alias for [Constr.hashcons_sorts] *) +val hcons_sorts : Sorts.t -> Sorts.t +[@@ocaml.deprecated "Alias for [Sorts.hcons]"] -val hcons_constr : constr -> constr -(** Alias for [Constr.hashcons] *) +val hcons_constr : Constr.constr -> Constr.constr +[@@ocaml.deprecated "Alias for [Constr.hcons]"] -val hcons_types : types -> types -(** Alias for [Constr.hashcons] *) +val hcons_types : Constr.types -> Constr.types +[@@ocaml.deprecated "Alias for [Constr.hcons]"] |