-(* Copyright (C) 2000, HELM Team.
- *
- * This file is part of HELM, an Hypertextual, Electronic
- * Library of Mathematics, developed at the Computer Science
- * Department, University of Bologna, Italy.
- *
- * HELM is free software; you can redistribute it and/or
- * modify it under the terms of the GNU General Public License
- * as published by the Free Software Foundation; either version 2
- * of the License, or (at your option) any later version.
- *
- * HELM is distributed in the hope that it will be useful,
- * but WITHOUT ANY WARRANTY; without even the implied warranty of
- * MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
- * GNU General Public License for more details.
- *
- * You should have received a copy of the GNU General Public License
- * along with HELM; if not, write to the Free Software
- * Foundation, Inc., 59 Temple Place - Suite 330, Boston,
- * MA 02111-1307, USA.
- *
- * For details, see the HELM World-Wide-Web page,
- * http://cs.unibo.it/helm/.
- *)
-
-(*****************************************************************************)
-(* *)
-(* PROJECT HELM *)
-(* *)
-(* Claudio Sacerdoti Coen <sacerdot@cs.unibo.it> *)
-(* 29/11/2000 *)
-(* *)
-(* This module defines the internal representation of the objects (variables,*)
-(* blocks of (co)inductive definitions and constants) and the terms of cic *)
-(* *)
-(*****************************************************************************)
-
-(* $Id: cic.ml 7190 2007-01-31 18:36:04Z sacerdot $ *)
(*
-(* STUFF TO MANAGE IDENTIFIERS *)
-type id = string (* the abstract type of the (annotated) node identifiers *)
-type 'term explicit_named_substitution = (UriManager.uri * 'term) list
+ ||M|| This file is part of HELM, an Hypertextual, Electronic
+ ||A|| Library of Mathematics, developed at the Computer Science
+ ||T|| Department, University of Bologna, Italy.
+ ||I||
+ ||T|| HELM is free software; you can redistribute it and/or
+ ||A|| modify it under the terms of the GNU General Public License
+ \ / version 2 or (at your option) any later version.
+ \ / This software is distributed as is, NO WARRANTY.
+ V_______________________________________________________________ *)
+(* $Id$ *)
-(* INTERNAL REPRESENTATION OF CIC OBJECTS AND TERMS *)
+(********************************* TERMS ************************************)
-type object_flavour =
- [ `Definition
- | `MutualDefinition
- | `Fact
- | `Lemma
- | `Remark
- | `Theorem
- | `Variant
- | `Axiom
- ]
+type univ_algebra = [ `Type | `Succ | `CProp ]
-type object_class =
- [ `Coercion of int
- | `Elim of sort (** elimination principle; if sort is Type, the universe is
- * not relevant *)
- | `Record of (string * bool * int) list (**
- inductive type that encodes a record; the arguments are
- the record fields names and if they are coercions and
- then the coercion arity *)
- | `Projection (** record projection *)
- | `InversionPrinciple (** inversion principle *)
- ]
-
-type attribute =
- [ `Class of object_class
- | `Flavour of object_flavour
- | `Generated
- ]
-*)
-type sort =
- | Prop
- | Set
- | Type of CicUniv.universe
- | CProp
-
-type implicit_annotation = [ `Closed | `Type | `Hole | `Term ]
-
-type name = Name of string | Anonymous
-
-type local_context = int * (term list) option (* shift, subst (None means id) *)
+type universe = (univ_algebra * NUri.uri) list
+ (* Max of non-empty list of named universes, or their successor (when true)
+ * The empty list represents type0 *)
+
+type sort = Prop | Type of universe
+
+type implicit_annotation =
+ [ `Closed | `Type | `Hole | `Tagged of string | `Term | `Typeof of int | `Vector ]
+
+type lc_kind = Irl of int | Ctx of term list
+
+and local_context = int * lc_kind (* shift (0 -> no shift),
+ subst (Irl n means id of
+ length n) *)
and term =
- | Rel of int (* DeBruijn index, 1 based *)
+ | Rel of int (* DeBruijn index, 1 based *)
| Meta of int * local_context
- | Appl of term list (* arguments *)
- | Prod of name * term * term (* binder, source, target *)
- | Lambda of name * term * term (* binder, source, target *)
- | LetIn of name * term * term * term (* binder, type, term, body *)
- | Const of UriManager.uri (* uri contains indtypeno/constrno *)
- | Sort of sort (* sort *)
- | Implicit of implicit_annotation (* ... *)
- | MutCase of UriManager.uri * (* ind. uri, *)
- term * term * (* outtype, ind. term *)
- term list (* patterns *)
-and obj =
- Constant of string * term option * term * (* id, body, type, *)
- UriManager.uri list * attribute list (* parameters *)
- | Variable of string * term option * term * (* name, body, type *)
- UriManager.uri list * attribute list (* parameters *)
- | CurrentProof of string * metasenv * term * (* name, conjectures, body, *)
- term * UriManager.uri list * attribute list (* type, parameters *)
- | InductiveDefinition of inductiveType list * (* inductive types, *)
- UriManager.uri list * int * attribute list (* params, left params no *)
-and inductiveType =
- string * bool * term * (* typename, inductive, arity *)
- constructor list (* constructors *)
-and constructor =
- string * term (* id, type *)
-and inductiveFun =
- string * int * term * term (* name, ind. index, type, body *)
-and coInductiveFun =
- string * term * term (* name, type, body *)
-
-(* a metasenv is a list of declarations of metas in declarations *)
-(* order (i.e. [oldest ; ... ; newest]). Older variables can not *)
-(* depend on new ones. *)
-and conjecture = int * context * term
-and metasenv = conjecture list
-and substitution = (int * (context * term * term)) list
-
-
-
-(* a metasenv is a list of declarations of metas in declarations *)
-(* order (i.e. [oldest ; ... ; newest]). Older variables can not *)
-(* depend on new ones. *)
-and annconjecture = id * int * anncontext * annterm
-and annmetasenv = annconjecture list
-
-and annterm =
- ARel of id * id * int * (* idref, DeBrujin index, *)
- string (* binder *)
- | AVar of id * UriManager.uri * (* uri, *)
- annterm explicit_named_substitution (* explicit named subst. *)
- | AMeta of id * int * (annterm option) list (* numeric id, *)
- (* local context *)
- | ASort of id * sort (* sort *)
- | AImplicit of id * implicit_annotation option (* *)
- | ACast of id * annterm * annterm (* value, type *)
- | AProd of id * name * annterm * annterm (* binder, source, target *)
- | ALambda of id * name * annterm * annterm (* binder, source, target *)
- | ALetIn of id * name * annterm * annterm (* binder, term, target *)
- | AAppl of id * annterm list (* arguments *)
- | AConst of id * UriManager.uri * (* uri, *)
- annterm explicit_named_substitution (* explicit named subst. *)
- | AMutInd of id * UriManager.uri * int * (* uri, typeno *)
- annterm explicit_named_substitution (* explicit named subst. *)
- (* typeno is 0 based *)
- | AMutConstruct of id * UriManager.uri * (* uri, *)
- int * int * (* typeno, consno *)
- annterm explicit_named_substitution (* explicit named subst. *)
- (* typeno is 0 based *)
- (* consno is 1 based *)
- | AMutCase of id * UriManager.uri * (* ind. uri, *)
- int * (* ind. typeno, *)
- annterm * annterm * (* outtype, ind. term *)
- annterm list (* patterns *)
- | AFix of id * int * anninductiveFun list (* funno, functions *)
- | ACoFix of id * int * anncoInductiveFun list (* funno, functions *)
-and annobj =
- AConstant of id * id option * string * (* name, *)
- annterm option * annterm * (* body, type, *)
- UriManager.uri list * attribute list (* parameters *)
- | AVariable of id *
- string * annterm option * annterm * (* name, body, type *)
- UriManager.uri list * attribute list (* parameters *)
- | ACurrentProof of id * id *
- string * annmetasenv * (* name, conjectures, *)
- annterm * annterm * UriManager.uri list * (* body,type,parameters *)
- attribute list
- | AInductiveDefinition of id *
- anninductiveType list * (* inductive types , *)
- UriManager.uri list * int * attribute list (* parameters,n ind. pars*)
-and anninductiveType =
- id * string * bool * annterm * (* typename, inductive, arity *)
- annconstructor list (* constructors *)
-and annconstructor =
- string * annterm (* id, type *)
-and anninductiveFun =
- id * string * int * annterm * annterm (* name, ind. index, type, body *)
-and anncoInductiveFun =
- id * string * annterm * annterm (* name, type, body *)
-and annotation =
- string
-
-and context_entry = (* A declaration or definition *)
- Decl of term
- | Def of term * term option (* body, type (if known) *)
-
-and hypothesis =
- (name * context_entry) option (* None means no more accessible *)
-
-and context = hypothesis list
-
-and anncontext_entry = (* A declaration or definition *)
- ADecl of annterm
- | ADef of annterm
-
-and annhypothesis =
- id * (name * anncontext_entry) option (* None means no more accessible *)
-
-and anncontext = annhypothesis list
-;;
-
-type lazy_term =
- context -> metasenv -> CicUniv.universe_graph ->
- term * metasenv * CicUniv.universe_graph
-
-type anntarget =
- Object of annobj (* if annobj is a Constant, this is its type *)
- | ConstantBody of annobj
- | Term of annterm
- | Conjecture of annconjecture
- | Hypothesis of annhypothesis
-
-module CicHash =
- Hashtbl.Make
- (struct
- type t = term
- let equal = (==)
- let hash = Hashtbl.hash_param 100 1000
- end)
-;;
+ | Appl of term list (* arguments *)
+ | Prod of string * term * term (* binder, source, target *)
+ | Lambda of string * term * term (* binder, source, target *)
+ | LetIn of string * term * term * term (* binder, type, term, body *)
+(* Cast \def degenerate LetIn *)
+ | Const of NReference.reference (* ref has (indtype|constr)no *)
+ | Sort of sort (* sort *)
+ | Implicit of implicit_annotation (* ... *)
+ | Match of NReference.reference * (* ind. reference, *)
+ term * term * (* outtype, ind. term *)
+ term list (* patterns *)
+
+
+(********************************* TYPING ***********************************)
+
+type context_entry = (* A declaration or definition *)
+ | Decl of term (* type *)
+ | Def of term * term (* body, type *)
+
+type hypothesis = string * context_entry (* name, entry *)
+
+type context = hypothesis list
+
+type meta_attr =
+ [ `Name of string
+ | `IsTerm | `IsType | `IsSort
+ | `InScope | `OutScope of int]
+
+type meta_attrs = meta_attr list
+type conjecture = meta_attrs * context * term
+
+type metasenv = (int * conjecture) list
+
+type subst_entry = meta_attrs * context * term * term (* name,ctx,bo,ty *)
+
+type substitution = (int * subst_entry) list
+
+
+(******************************** OBJECTS **********************************)
+
+type relevance = bool list (* relevance of arguments for conversion *)
+
+ (* relevance, name, recno, ty, bo *)
+type inductiveFun = relevance * string * int * term * term
+ (* if coinductive, the int has no meaning and must be set to -1 *)
+
+type constructor = relevance * string * term (* id, type *)
+
+type inductiveType =
+ relevance * string * term * constructor list
+ (* relevance, typename, arity, constructors *)
+
+type def_flavour = (* presentational *)
+ [ `Definition | `Fact | `Lemma | `Theorem | `Corollary | `Example ]
+
+type def_pragma = (* pragmatic of the object *)
+ [ `Coercion of int
+ | `Elim of sort (* elimination principle; universe is not relevant *)
+ | `Projection (* record projection *)
+ | `InversionPrinciple (* inversion principle *)
+ | `Variant
+ | `Local
+ | `Regular ] (* Local = hidden technicality *)
+
+type ind_pragma = (* pragmatic of the object *)
+ [ `Record of (string * bool * int) list | `Regular ]
+ (* inductive type that encodes a record; the arguments are the record
+ * fields names and if they are coercions and then the coercion arity *)
+
+type generated = [ `Generated | `Provided ]
+
+type c_attr = generated * def_flavour * def_pragma
+type f_attr = generated * def_flavour * def_pragma
+type i_attr = generated * ind_pragma
+
+ (* invariant: metasenv and substitution have disjoint domains *)
+type obj_kind =
+ | Constant of relevance * string * term option * term * c_attr
+ | Fixpoint of bool * inductiveFun list * f_attr
+ (* true -> fix, funcs, arrts *)
+ | Inductive of bool * int * inductiveType list * i_attr
+ (* true -> inductive, leftno, types *)
+
+ (* the int must be 0 if the object has no body *)
+type obj = NUri.uri * int * metasenv * substitution * obj_kind