From a4c7f8bd98be2a200489325ff7c5061cf80ab4f3 Mon Sep 17 00:00:00 2001 From: Enrico Tassi Date: Tue, 27 Dec 2016 16:53:30 +0100 Subject: Imported Upstream version 8.6 --- lib/genarg.mli | 182 +++++++++++++++------------------------------------------ 1 file changed, 48 insertions(+), 134 deletions(-) (limited to 'lib/genarg.mli') diff --git a/lib/genarg.mli b/lib/genarg.mli index 671d96b7..d7ad9b93 100644 --- a/lib/genarg.mli +++ b/lib/genarg.mli @@ -6,6 +6,8 @@ (* * GNU Lesser General Public License Version 2.1 *) (************************************************************************) +(** Generic arguments used by the extension mechanisms of several Coq ASTs. *) + (** The route of a generic argument, from parsing to evaluation. In the following diagram, "object" can be tactic_expr, constr, tactic_arg, etc. @@ -34,69 +36,57 @@ In the following diagram, "object" can be tactic_expr, constr, tactic_arg, etc. effective use {% \end{%}verbatim{% }%} -To distinguish between the uninterpreted (raw), globalized and +To distinguish between the uninterpreted, globalized and interpreted worlds, we annotate the type [generic_argument] by a -phantom argument which is either [constr_expr], [glob_constr] or -[constr]. +phantom argument. -Transformation for each type : -{% \begin{%}verbatim{% }%} -tag raw open type cooked closed type - -BoolArgType bool bool -IntArgType int int -IntOrVarArgType int or_var int -StringArgType string (parsed w/ "") string -PreIdentArgType string (parsed w/o "") (vernac only) -IdentArgType true identifier identifier -IdentArgType false identifier (pattern_ident) identifier -IntroPatternArgType intro_pattern_expr intro_pattern_expr -VarArgType identifier located identifier -RefArgType reference global_reference -QuantHypArgType quantified_hypothesis quantified_hypothesis -ConstrArgType constr_expr constr -ConstrMayEvalArgType constr_expr may_eval constr -OpenConstrArgType open_constr_expr open_constr -ConstrWithBindingsArgType constr_expr with_bindings constr with_bindings -BindingsArgType constr_expr bindings constr bindings -List0ArgType of argument_type -List1ArgType of argument_type -OptArgType of argument_type -ExtraArgType of string '_a '_b -{% \end{%}verbatim{% }%} *) (** {5 Generic types} *) -type ('raw, 'glob, 'top) genarg_type -(** Generic types. ['raw] is the OCaml lowest level, ['glob] is the globalized - one, and ['top] the internalized one. *) +module ArgT : +sig + type ('a, 'b, 'c) tag + val eq : ('a1, 'b1, 'c1) tag -> ('a2, 'b2, 'c2) tag -> ('a1 * 'b1 * 'c1, 'a2 * 'b2 * 'c2) CSig.eq option + val repr : ('a, 'b, 'c) tag -> string + type any = Any : ('a, 'b, 'c) tag -> any + val name : string -> any option +end + +(** Generic types. The first parameter is the OCaml lowest level, the second one + is the globalized level, and third one the internalized level. *) +type (_, _, _) genarg_type = +| ExtraArg : ('a, 'b, 'c) ArgT.tag -> ('a, 'b, 'c) genarg_type +| ListArg : ('a, 'b, 'c) genarg_type -> ('a list, 'b list, 'c list) genarg_type +| OptArg : ('a, 'b, 'c) genarg_type -> ('a option, 'b option, 'c option) genarg_type +| PairArg : ('a1, 'b1, 'c1) genarg_type * ('a2, 'b2, 'c2) genarg_type -> + ('a1 * 'a2, 'b1 * 'b2, 'c1 * 'c2) genarg_type type 'a uniform_genarg_type = ('a, 'a, 'a) genarg_type (** Alias for concision when the three types agree. *) -val make0 : 'raw option -> string -> ('raw, 'glob, 'top) genarg_type +val make0 : string -> ('raw, 'glob, 'top) genarg_type (** Create a new generic type of argument: force to associate unique ML types at each of the three levels. *) -val create_arg : 'raw option -> string -> ('raw, 'glob, 'top) genarg_type +val create_arg : string -> ('raw, 'glob, 'top) genarg_type (** Alias for [make0]. *) (** {5 Specialized types} *) (** All of [rlevel], [glevel] and [tlevel] must be non convertible - to ensure the injectivity of the type inference from type - ['co generic_argument] to [('a,'co) abstract_argument_type]; - this guarantees that, for 'co fixed, the type of - out_gen is monomorphic over 'a, hence type-safe -*) + to ensure the injectivity of the GADT type inference. *) -type rlevel -type glevel -type tlevel +type rlevel = [ `rlevel ] +type glevel = [ `glevel ] +type tlevel = [ `tlevel ] -type ('a, 'co) abstract_argument_type -(** Type at level ['co] represented by an OCaml value of type ['a]. *) +(** Generic types at a fixed level. The first parameter embeds the OCaml type + and the second one the level. *) +type (_, _) abstract_argument_type = +| Rawwit : ('a, 'b, 'c) genarg_type -> ('a, rlevel) abstract_argument_type +| Glbwit : ('a, 'b, 'c) genarg_type -> ('b, glevel) abstract_argument_type +| Topwit : ('a, 'b, 'c) genarg_type -> ('c, tlevel) abstract_argument_type type 'a raw_abstract_argument_type = ('a, rlevel) abstract_argument_type (** Specialized type at raw level. *) @@ -120,7 +110,7 @@ val topwit : ('a, 'b, 'c) genarg_type -> ('c, tlevel) abstract_argument_type (** {5 Generic arguments} *) -type 'a generic_argument +type 'l generic_argument = GenArg : ('a, 'l) abstract_argument_type * 'a -> 'l generic_argument (** A inhabitant of ['level generic_argument] is a inhabitant of some type at level ['level], together with the representation of this type. *) @@ -141,66 +131,20 @@ val has_type : 'co generic_argument -> ('a, 'co) abstract_argument_type -> bool (** [has_type v t] tells whether [v] has type [t]. If true, it ensures that [out_gen t v] will not raise a dynamic type exception. *) -(** {6 Destructors} *) - -type ('a, 'b, 'c, 'l) cast - -val raw : ('a, 'b, 'c, rlevel) cast -> 'a -val glb : ('a, 'b, 'c, glevel) cast -> 'b -val top : ('a, 'b, 'c, tlevel) cast -> 'c - -type ('r, 'l) unpacker = - { unpacker : 'a 'b 'c. ('a, 'b, 'c) genarg_type -> ('a, 'b, 'c, 'l) cast -> 'r } - -val unpack : ('r, 'l) unpacker -> 'l generic_argument -> 'r -(** Existential-type destructors. *) - -(** {6 Manipulation of generic arguments} - -Those functions fail if they are applied to an argument which has not the right -dynamic type. *) - -type ('r, 'l) list_unpacker = - { list_unpacker : 'a 'b 'c. ('a, 'b, 'c) genarg_type -> - ('a list, 'b list, 'c list, 'l) cast -> 'r } - -val list_unpack : ('r, 'l) list_unpacker -> 'l generic_argument -> 'r - -type ('r, 'l) opt_unpacker = - { opt_unpacker : 'a 'b 'c. ('a, 'b, 'c) genarg_type -> - ('a option, 'b option, 'c option, 'l) cast -> 'r } - -val opt_unpack : ('r, 'l) opt_unpacker -> 'l generic_argument -> 'r - -type ('r, 'l) pair_unpacker = - { pair_unpacker : 'a1 'a2 'b1 'b2 'c1 'c2. - ('a1, 'b1, 'c1) genarg_type -> ('a2, 'b2, 'c2) genarg_type -> - (('a1 * 'a2), ('b1 * 'b2), ('c1 * 'c2), 'l) cast -> 'r } - -val pair_unpack : ('r, 'l) pair_unpacker -> 'l generic_argument -> 'r - (** {6 Type reification} *) -type argument_type = - (** Basic types *) - | IntOrVarArgType - | IdentArgType - | VarArgType - (** Specific types *) - | GenArgType - | ConstrArgType - | ConstrMayEvalArgType - | QuantHypArgType - | OpenConstrArgType - | ConstrWithBindingsArgType - | BindingsArgType - | RedExprArgType - | ListArgType of argument_type - | OptArgType of argument_type - | PairArgType of argument_type * argument_type - | ExtraArgType of string +type argument_type = ArgumentType : ('a, 'b, 'c) genarg_type -> argument_type + +(** {6 Equalities} *) val argument_type_eq : argument_type -> argument_type -> bool +val genarg_type_eq : + ('a1, 'b1, 'c1) genarg_type -> + ('a2, 'b2, 'c2) genarg_type -> + ('a1 * 'b1 * 'c1, 'a2 * 'b2 * 'c2) CSig.eq option +val abstract_argument_type_eq : + ('a, 'l) abstract_argument_type -> ('b, 'l) abstract_argument_type -> + ('a, 'b) CSig.eq option val pr_argument_type : argument_type -> Pp.std_ppcmds (** Print a human-readable representation for a given type. *) @@ -236,43 +180,13 @@ sig end -(** {5 Basic generic type constructors} *) +(** {5 Compatibility layer} -(** {6 Parameterized types} *) +The functions below are aliases for generic_type constructors. + +*) val wit_list : ('a, 'b, 'c) genarg_type -> ('a list, 'b list, 'c list) genarg_type val wit_opt : ('a, 'b, 'c) genarg_type -> ('a option, 'b option, 'c option) genarg_type val wit_pair : ('a1, 'b1, 'c1) genarg_type -> ('a2, 'b2, 'c2) genarg_type -> ('a1 * 'a2, 'b1 * 'b2, 'c1 * 'c2) genarg_type - -(** {5 Magic used by the parser} *) - -val default_empty_value : ('raw, 'glb, 'top) genarg_type -> 'raw option - -val register_name0 : ('a, 'b, 'c) genarg_type -> string -> unit -(** Used by the extension to give a name to types. The string should be the - absolute path of the argument witness, e.g. - [register_name0 wit_toto "MyArg.wit_toto"]. *) - -val get_name0 : string -> string -(** Return the absolute path of a given witness. *) - -(** {5 Unsafe loophole} *) - -module Unsafe : -sig - -(** Unsafe magic functions. Not for kids. This is provided here as a loophole to - escape this module. Do NOT use outside of the dedicated areas. NOT. EVER. *) - -val inj : argument_type -> Obj.t -> 'lev generic_argument -(** Injects an object as generic argument. !!!BEWARE!!! only do this as - [inj tpe x] where: - - 1. [tpe] is the reification of a [('a, 'b, 'c) genarg_type]; - 2. [x] has type ['a], ['b] or ['c] according to the return level ['lev]. *) - -val prj : 'lev generic_argument -> Obj.t -(** Recover the contents of a generic argument. *) - -end -- cgit v1.2.3