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(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2012 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
(** * Declarative part of the interface of CoqIde calls to Coq *)
(** * Generic structures *)
type raw = bool
type verbose = bool
(** The type of coqtop goals *)
type goal = {
goal_id : string;
(** Unique goal identifier *)
goal_hyp : string list;
(** List of hypotheses *)
goal_ccl : string;
(** Goal conclusion *)
}
type evar = {
evar_info : string;
(** A string describing an evar: type, number, environment *)
}
type status = {
status_path : string list;
(** Module path of the current proof *)
status_proofname : string option;
(** Current proof name. [None] if no focussed proof is in progress *)
status_allproofs : string list;
(** List of all pending proofs. Order is not significant *)
status_proofnum : int;
(** An id describing the state of the current proof. *)
}
type goals = {
fg_goals : goal list;
(** List of the focussed goals *)
bg_goals : (goal list * goal list) list;
(** Zipper representing the unfocussed background goals *)
shelved_goals : goal list;
(** List of the goals on the shelf. *)
given_up_goals : goal list;
(** List of the goals that have been given up *)
}
type hint = (string * string) list
(** A list of tactics applicable and their appearance *)
type option_name = string list
type option_value =
| BoolValue of bool
| IntValue of int option
| StringValue of string
(** Summary of an option status *)
type option_state = {
opt_sync : bool;
(** Whether an option is synchronous *)
opt_depr : bool;
(** Wheter an option is deprecated *)
opt_name : string;
(** A short string that is displayed when using [Test] *)
opt_value : option_value;
(** The current value of the option *)
}
type search_constraint =
(** Whether the name satisfies a regexp (uses Ocaml Str syntax) *)
| Name_Pattern of string
(** Whether the object type satisfies a pattern *)
| Type_Pattern of string
(** Whether some subtype of object type satisfies a pattern *)
| SubType_Pattern of string
(** Whether the object pertains to a module *)
| In_Module of string list
(** Bypass the Search blacklist *)
| Include_Blacklist
(** A list of search constraints; the boolean flag is set to [false] whenever
the flag should be negated. *)
type search_flags = (search_constraint * bool) list
(** A named object in Coq. [coq_object_qualid] is the shortest path defined for
the user. [coq_object_prefix] is the missing part to recover the fully
qualified name, i.e [fully_qualified = coq_object_prefix + coq_object_qualid].
[coq_object_object] is the actual content of the object. *)
type 'a coq_object = {
coq_object_prefix : string list;
coq_object_qualid : string list;
coq_object_object : 'a;
}
type coq_info = {
coqtop_version : string;
protocol_version : string;
release_date : string;
compile_date : string;
}
(** Coq unstructured messages *)
type message_level =
| Debug of string
| Info
| Notice
| Warning
| Error
type message = {
message_level : message_level;
message_content : string;
}
(** Coq "semantic" infos obtained during parsing/execution *)
type edit_id = int
type state_id = Stateid.t
type edit_or_state_id = Edit of edit_id | State of state_id
type feedback_content =
| AddedAxiom
| Processed
| GlobRef of Loc.t * string * string * string * string
| ErrorMsg of Loc.t * string
| InProgress of int
| SlaveStatus of int * string
type feedback = {
id : edit_or_state_id;
content : feedback_content;
}
(** Calls result *)
type location = (int * int) option (* start and end of the error *)
(* The fail case carries the current state_id of the prover, the GUI
should probably retract to that point *)
type 'a value =
| Good of 'a
| Fail of (state_id * location * string)
type ('a, 'b) union = ('a, 'b) Util.union
(* Request/Reply message protocol between Coq and CoqIde *)
(** [add ((s,eid),(sid,v))] adds the phrase [s] with edit id [eid]
on top of the current edit position (that is asserted to be [sid])
verbosely if [v] is true. The response [(id,(rc,s)] is the new state
[id] assigned to the phrase, some output [s]. [rc] is [Inl] if the new
state id is the tip of the edit point, or [Inr tip] if the new phrase
closes a focus and [tip] is the new edit tip *)
type add_sty = (string * edit_id) * (state_id * verbose)
type add_rty = state_id * ((unit, state_id) union * string)
(** [edit_at id] declares the user wants to edit just after [id].
The response is [Inl] if the document has been rewound to that point,
[Inr (start,(stop,tip))] if [id] is in a zone that can be focused.
In that case the zone is delimited by [start] and [stop] while [tip]
is the new document [tip]. Edits made by subsequent [add] are always
performend on top of [id]. *)
type edit_at_sty = state_id
type edit_at_rty = (unit, state_id * (state_id * state_id)) union
(** [query s id] executes [s] at state [id] and does not record any state
change but for the printings that are sent in response *)
type query_sty = string * state_id
type query_rty = string
(** Fetching the list of current goals. Return [None] if no proof is in
progress, [Some gl] otherwise. *)
type goals_sty = unit
type goals_rty = goals option
(** Retrieve the list of unintantiated evars in the current proof. [None] if no
proof is in progress. *)
type evars_sty = unit
type evars_rty = evar list option
(** Retrieving the tactics applicable to the current goal. [None] if there is
no proof in progress. *)
type hints_sty = unit
type hints_rty = (hint list * hint) option
(** The status, for instance "Ready in SomeSection, proving Foo", the
input boolean (if true) forces the evaluation of all unevaluated
statements *)
type status_sty = bool
type status_rty = status
(** Search for objects satisfying the given search flags. *)
type search_sty = search_flags
type search_rty = string coq_object list
(** Retrieve the list of options of the current toplevel *)
type get_options_sty = unit
type get_options_rty = (option_name * option_state) list
(** Set the options to the given value. Warning: this is not atomic, so whenever
the call fails, the option state can be messed up... This is the caller duty
to check that everything is correct. *)
type set_options_sty = (option_name * option_value) list
type set_options_rty = unit
(** Is a directory part of Coq's loadpath ? *)
type inloadpath_sty = string
type inloadpath_rty = bool
(** Create a "match" template for a given inductive type.
For each branch of the match, we list the constructor name
followed by enough pattern variables. *)
type mkcases_sty = string
type mkcases_rty = string list list
(** Quit gracefully the interpreter. *)
type quit_sty = unit
type quit_rty = unit
(* Initialize, and return the initial state id *)
type init_sty = unit
type init_rty = state_id
type about_sty = unit
type about_rty = coq_info
type handle_exn_sty = exn
type handle_exn_rty = state_id * location * string
type handler = {
add : add_sty -> add_rty;
edit_at : edit_at_sty -> edit_at_rty;
query : query_sty -> query_rty;
goals : goals_sty -> goals_rty;
evars : evars_sty -> evars_rty;
hints : hints_sty -> hints_rty;
status : status_sty -> status_rty;
search : search_sty -> search_rty;
get_options : get_options_sty -> get_options_rty;
set_options : set_options_sty -> set_options_rty;
inloadpath : inloadpath_sty -> inloadpath_rty;
mkcases : mkcases_sty -> mkcases_rty;
about : about_sty -> about_rty;
handle_exn : handle_exn_sty -> handle_exn_rty;
init : init_sty -> init_rty;
quit : quit_sty -> quit_rty;
}
|