| Quellcodebibliothek Statistik Leitseite products/sources/formale Sprachen/Roqc/kernel/ (Beweissystem des Inria Version 9.1.0©) Datei vom 15.8.2025 mit Größe 17 kB |
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Quelle environ.mli Sprache: SML |
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(* * The Rocq Prover / The Rocq Development Team *) (* v * Copyright INRIA, CNRS and contributors *) (* <O___,, * (see version control and CREDITS file for authors & dates) *) (* \VV/ **************************************************************) (* // * 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 open Univ open UVars open Declarations open Mod_declarations (** Unsafe environments. We define here a datatype for environments. Since typing is not yet defined, it is not possible to check the informations added in environments, and that is why we speak here of ``unsafe'' environments. *) (** Environments have the following components: - a context for de Bruijn variables - a context for de Bruijn variables vm values - a context for section variables and goal assumptions - a context for section variables and goal assumptions vm values - a context for global constants and axioms - a context for inductive definitions - a set of universe constraints - a flag telling if Set is, can be, or cannot be set impredicative *) (** Linking information for the native compiler *) type link_info = | Linked of string | NotLinked type key = int CEphemeron.key option ref type constant_key = constant_body * (link_info ref * key) type mind_key = mutual_inductive_body * link_info ref type named_context_val = private { env_named_ctx : Constr.named_context; env_named_map : Constr.named_declaration Id.Map.t; (** Identifier-indexed version of [env_named_ctx] *) env_named_idx : Constr.named_declaration Range.t; (** Same as env_named_ctx but with a fast-access list. *) } type rel_context_val = private { env_rel_ctx : Constr.rel_context; env_rel_map : Constr.rel_declaration Range.t; } type env (** Type of global environments. *) type rewrule_not_allowed = Symb | Rule exception RewriteRulesNotAllowed of rewrule_not_allowed val oracle : env -> Conv_oracle.oracle val set_oracle : env -> Conv_oracle.oracle -> env val eq_named_context_val : named_context_val -> named_context_val -> bool val empty_env : env val universes : env -> UGraph.t val rel_context : env -> Constr.rel_context val rel_context_val : env -> rel_context_val val named_context : env -> Constr.named_context val named_context_val : env -> named_context_val val set_universes : UGraph.t -> env -> env val qualities : env -> Sorts.QVar.Set.t val set_qualities : Sorts.QVar.Set.t -> env -> env val typing_flags : env -> typing_flags val is_impredicative_set : env -> bool val type_in_type : env -> bool val deactivated_guard : env -> bool val indices_matter : env -> bool val is_impredicative_sort : env -> Sorts.t -> bool (** is the local context empty *) val empty_context : env -> bool (** {5 Context of de Bruijn variables ([rel_context]) } *) val nb_rel : env -> int val push_rel : Constr.rel_declaration -> env -> env val push_rel_context : Constr.rel_context -> env -> env val push_rec_types : rec_declaration -> env -> env val push_rel_context_val : Constr.rel_declaration -> rel_context_val -> rel_context_val val set_rel_context_val : rel_context_val -> env -> env val empty_rel_context_val : rel_context_val (** Looks up in the context of local vars referred by indice ([rel_context]) raises [Not_found] if the index points out of the context *) val lookup_rel : int -> env -> Constr.rel_declaration val evaluable_rel : int -> env -> bool val env_of_rel : int -> env -> env (** {6 Recurrence on [rel_context] } *) val fold_rel_context : (env -> Constr.rel_declaration -> 'a -> 'a) -> env -> init:'a -> 'a (** {5 Context of variables (section variables and goal assumptions) } *) val named_context_of_val : named_context_val -> Constr.named_context val val_of_named_context : Constr.named_context -> named_context_val val empty_named_context_val : named_context_val val ids_of_named_context_val : named_context_val -> Id.Set.t (** [map_named_val f ctxt] apply [f] to the body and the type of each declarations. *** /!\ *** [f t] should be convertible with t, and preserve the name *) val map_named_val : (named_declaration -> named_declaration) -> named_context_val -> named_context_val val push_named : Constr.named_declaration -> env -> env val push_named_context : Constr.named_context -> env -> env val push_named_context_val : Constr.named_declaration -> named_context_val -> named_context_val (** Looks up in the context of local vars referred by names ([named_context]) raises [Not_found] if the Id.t is not found *) val lookup_named : variable -> env -> Constr.named_declaration val lookup_named_ctxt : variable -> named_context_val -> Constr.named_declaration val evaluable_named : variable -> env -> bool val named_type : variable -> env -> types val named_body : variable -> env -> constr option (** {6 Recurrence on [named_context]: older declarations processed first } *) val fold_named_context : (env -> Constr.named_declaration -> 'a -> 'a) -> env -> init:'a -> 'a val match_named_context_val : named_context_val -> (named_declaration * named_context_va (** Recurrence on [named_context] starting from younger decl *) val fold_named_context_reverse : ('a -> Constr.named_declaration -> 'a) -> init:'a -> env -> 'a (** This forgets named and rel contexts *) val reset_context : env -> env (** This forgets rel context and sets a new named context *) val reset_with_named_context : named_context_val -> env -> env (** This removes the [n] last declarations from the rel context *) val pop_rel_context : int -> env -> env (** Useful for printing *) val fold_constants : (Constant.t -> constant_body -> 'a -> 'a) -> env -> 'a -> 'a val fold_inductives : (MutInd.t -> Declarations.mutual_inductive_body -> 'a -> 'a) -> env -> 'a (** {5 Global constants } {6 Add entries to global environment } *) val add_constant : Constant.t -> constant_body -> env -> env val add_constant_key : Constant.t -> constant_body -> link_info -> env -> env val lookup_constant_key : Constant.t -> env -> constant_key (** Looks up in the context of global constant names raises an anomaly if the required path is not found *) val lookup_constant : Constant.t -> env -> constant_body val evaluable_constant : Constant.t -> env -> bool val constant_relevance : Constant.t -> env -> Sorts.relevance val mem_constant : Constant.t -> env -> bool val add_rewrite_rules : (Constant.t * rewrite_rule) list -> env -> env val lookup_rewrite_rules : Constant.t -> env -> rewrite_rule list (** New-style polymorphism *) val polymorphic_constant : Constant.t -> env -> bool val polymorphic_pconstant : pconstant -> env -> bool val type_in_type_constant : Constant.t -> env -> bool (** {6 ... } *) (** [constant_value env c] raises [NotEvaluableConst Opaque] if [c] is opaque, [NotEvaluableConst NoBody] if it has no body, [NotEvaluableConst IsProj] if [c] is a projection, [NotEvaluableConst (IsPrimitive p)] if [c] is primitive [p] and an anomaly if it does not exist in [env] *) type const_evaluation_result = | NoBody | Opaque | IsPrimitive of Instance.t * CPrimitives.t | HasRules of Instance.t * bool * rewrite_rule list exception NotEvaluableConst of const_evaluation_result val constant_type : env -> Constant.t puniverses -> types constrained val constant_value_and_type : env -> Constant.t puniverses -> constr option * types * Constraints.t (** The universe context associated to the constant, empty if not polymorphic *) val constant_context : env -> Constant.t -> AbstractContext.t (* These functions should be called under the invariant that [env] already contains the constraints corresponding to the constant application. *) val constant_value_in : env -> Constant.t puniverses -> constr val constant_type_in : env -> Constant.t puniverses -> types val constant_opt_value_in : env -> Constant.t puniverses -> constr option val is_symbol : env -> Constant.t -> bool val is_primitive : env -> Constant.t -> bool val get_primitive : env -> Constant.t -> CPrimitives.t option val is_array_type : env -> Constant.t -> bool val is_int63_type : env -> Constant.t -> bool val is_float64_type : env -> Constant.t -> bool val is_string_type : env -> Constant.t -> bool val is_primitive_type : env -> Constant.t -> bool (** {6 Primitive projections} *) (** Checks that the number of parameters is correct. *) val lookup_projection : Names.Projection.t -> env -> Sorts.relevance * types (** Anomaly when not a primitive record or invalid proj_arg. *) val get_projection : env -> inductive -> proj_arg:int -> Names.Projection.Repr.t * Sorts.relev val get_projections : env -> inductive -> (Names.Projection.Repr.t * Sorts.relevance) array o (** {5 Inductive types } *) val lookup_mind_key : MutInd.t -> env -> mind_key val add_mind_key : MutInd.t -> mind_key -> env -> env val add_mind : MutInd.t -> mutual_inductive_body -> env -> env (** Looks up in the context of global inductive names raises an anomaly if the required path is not found *) val lookup_mind : MutInd.t -> env -> mutual_inductive_body val mem_mind : MutInd.t -> env -> bool val ind_relevance : inductive -> env -> Sorts.relevance (** The universe context associated to the inductive, empty if not polymorphic *) val mind_context : env -> MutInd.t -> AbstractContext.t (** New-style polymorphism *) val polymorphic_ind : inductive -> env -> bool val polymorphic_pind : pinductive -> env -> bool val type_in_type_ind : inductive -> env -> bool (** Old-style polymorphism *) val template_polymorphic_ind : inductive -> env -> bool val template_polymorphic_pind : pinductive -> env -> bool (** {6 Changes of representation of Case nodes} *) (** Given an inductive type and its parameters, builds the context of the return clause, including the inductive being eliminated. The additional binder array is only used to set the names of the context variables, we use the less general type to make it easy to use this function on Case nodes. *) val expand_arity : Declarations.mind_specif -> pinductive -> constr array -> Name.t binder_annot array -> rel_context (** Given an inductive type and its parameters, builds the context of the return clause, including the inductive being eliminated. The additional binder array is only used to set the names of the context variables, we use the less general type to make it easy to use this function on Case nodes. *) val expand_branch_contexts : Declarations.mind_specif -> UVars.Instance.t -> constr array -> (Name.t binder_annot array * 'a) array -> rel_context array (** [instantiate_context u subst nas ctx] applies both [u] and [subst] to [ctx] while replacing names using [nas] (order reversed). In particular, assumes that [ctx] and [nas] have the same length. *) val instantiate_context : UVars.Instance.t -> Vars.substl -> Name.t binder_annot array -> rel_context -> rel_context (** {6 Name quotients} *) module type QNameS = sig type t val equal : env -> t -> t -> bool val compare : env -> t -> t -> int val hash : env -> t -> int val canonize : env -> t -> t end module QConstant : QNameS with type t = Constant.t module QMutInd : QNameS with type t = MutInd.t module QInd : QNameS with type t = Ind.t module QConstruct : QNameS with type t = Construct.t module QProjection : sig include QNameS with type t = Projection.t module Repr : QNameS with type t = Projection.Repr.t end module QGlobRef : QNameS with type t = GlobRef.t (** {5 Modules } *) val add_modtype : ModPath.t -> module_type_body -> env -> env (** [shallow_add_module] does not add module components *) val shallow_add_module : ModPath.t -> module_body -> env -> env val lookup_module : ModPath.t -> env -> module_body val lookup_modtype : ModPath.t -> env -> module_type_body (** {5 Universe constraints } *) val add_constraints : Constraints.t -> env -> env (** Add universe constraints to the environment. @raise UniverseInconsistency. *) val check_constraints : Constraints.t -> env -> bool (** Check constraints are satifiable in the environment. *) val push_context : ?strict:bool -> UContext.t -> env -> env (** [push_context ?(strict=false) ctx env] pushes the universe context to the environment. @raise UGraph.AlreadyDeclared if one of the universes is already declared. *) val push_context_set : ?strict:bool -> ContextSet.t -> env -> env (** [push_context_set ?(strict=false) ctx env] pushes the universe context set to the environment. It does not fail even if one of the universes is already declared. *) val push_qualities : Sorts.QVar.Set.t -> env -> env (** Add the qualities to the environment. Only used in higher layers. *) val push_quality_set : Sorts.QVar.Set.t -> env -> env (** [push_quality_set qs env] pushes the set of quality variables in the environment. It does not fail even if a quality variable is already declared. *) val push_subgraph : ContextSet.t -> env -> env (** [push_subgraph univs env] adds the universes and constraints in [univs] to [env] as [push_context_set ~strict:false univs env], and also checks that they do not imply new transitive constraints between pre-existing universes in [env]. *) val set_typing_flags : typing_flags -> env -> env val set_impredicative_set : bool -> env -> env val set_type_in_type : bool -> env -> env val set_allow_sprop : bool -> env -> env val sprop_allowed : env -> bool val allow_rewrite_rules : env -> env val rewrite_rules_allowed : env -> bool val same_flags : typing_flags -> typing_flags -> bool (** [update_typing_flags ?typing_flags] may update env with optional typing flags *) val update_typing_flags : ?typing_flags:typing_flags -> env -> env val universes_of_global : env -> GlobRef.t -> AbstractContext.t (** {6 Sets of referred section variables } [global_vars_set env c] returns the list of [id]'s occurring either directly as [Var id] in [c] or indirectly as a section variable dependent in a global reference occurring in [c] *) val global_vars_set : env -> constr -> Id.Set.t val vars_of_global : env -> GlobRef.t -> Id.Set.t (** closure of the input id set w.r.t. dependency *) val really_needed : env -> Id.Set.t -> Id.Set.t (** like [really_needed] but computes a well ordered named context *) val keep_hyps : env -> Id.Set.t -> Constr.named_context (** {5 Unsafe judgments. } We introduce here the pre-type of judgments, which is actually only a datatype to store a term with its type and the type of its type. *) type ('constr, 'types) punsafe_judgment = { uj_val : 'constr; uj_type : 'types } val on_judgment : ('a -> 'b) -> ('a, 'a) punsafe_judgment -> ('b, 'b) punsafe_judgment val on_judgment_value : ('c -> 'c) -> ('c, 't) punsafe_judgment -> ('c, 't) punsafe_judgmen val on_judgment_type : ('t -> 't) -> ('c, 't) punsafe_judgment -> ('c, 't) punsafe_judgment type unsafe_judgment = (constr, types) punsafe_judgment val make_judge : 'constr -> 'types -> ('constr, 'types) punsafe_judgment val j_val : ('constr, 'types) punsafe_judgment -> 'constr val j_type : ('constr, 'types) punsafe_judgment -> 'types type ('types, 'sorts) punsafe_type_judgment = { utj_val : 'types; utj_type : 'sorts } type unsafe_type_judgment = (types, Sorts.t) punsafe_type_judgment exception Hyp_not_found (** [apply_to_hyp sign id f] split [sign] into [tail::(id,_,_)::head] and return [tail::(f head (id,_,_) (rev tail))::head]. the value associated to id should not change *) val apply_to_hyp : named_context_val -> variable -> (Constr.named_context -> Constr.named_declaration -> Constr.named_context -> Constr.named named_context_val val remove_hyps : Id.Set.t -> (Constr.named_declaration -> Constr.named_declaration) -> name val is_polymorphic : env -> Names.GlobRef.t -> bool val is_template_polymorphic : env -> GlobRef.t -> bool val is_type_in_type : env -> GlobRef.t -> bool (** {5 VM and native} *) val vm_library : env -> Vmlibrary.t val set_vm_library : Vmlibrary.t -> env -> env val link_vm_library : Vmlibrary.on_disk -> env -> env val lookup_vm_code : Vmlibrary.index -> env -> Vmemitcodes.to_patch (** Native compiler *) val no_link_info : link_info (** Primitives *) val set_retroknowledge : env -> Retroknowledge.retroknowledge -> env val retroknowledge : env -> Retroknowledge.retroknowledge module Internal : sig (** Makes the qvars treated as above prop. Do not use outside kernel inductive typechecking. *) val push_template_context : UContext.t -> env -> env val is_above_prop : env -> Sorts.QVar.t -> bool module View : sig type t = { env_constants : constant_key Cmap_env.t; env_inductives : mind_key Mindmap_env.t; env_modules : module_body MPmap.t; env_modtypes : module_type_body MPmap.t; env_named_context : named_context_val; env_rel_context : rel_context_val; env_universes : UGraph.t; env_qualities : Sorts.QVar.Set.t; env_symb_pats : rewrite_rule list Cmap_env.t; env_typing_flags : typing_flags; } val view : env -> t end (** View type only used by Serlib. Do not use otherwise. *) end ¤ Dauer der Verarbeitung: 0.17 Sekunden (vorverarbeitet) ¤*© Formatika GbR, Deutschland |
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2026-03-28