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(************************************************************************)
(* v * The Coq Proof Assistant / The Coq Development Team *)
(* <O___,, * INRIA - CNRS - LIX - LRI - PPS - Copyright 1999-2010 *)
(* \VV/ **************************************************************)
(* // * This file is distributed under the terms of the *)
(* * GNU Lesser General Public License Version 2.1 *)
(************************************************************************)
open Vernacexpr
open Names
open Feedback
open Loc
(** state-transaction-machine interface *)
(* [add ontop check vebose eid s] adds a new command [s] on the state [ontop]
having edit id [eid]. [check] is called on the AST.
The [ontop] parameter is just for asserting the GUI is on sync, but
will eventually call edit_at on the fly if needed.
The sentence [s] is parsed in the state [ontop].
If [newtip] is provided, then the returned state id is guaranteed to be
[newtip] *)
val add :
ontop:Stateid.t -> ?newtip:Stateid.t ->
?check:(vernac_expr located -> unit) ->
bool -> edit_id -> string ->
Stateid.t * [ `NewTip | `Unfocus of Stateid.t ]
(* parses and executes a command at a given state, throws away its side effects
but for the printings. Feedback is sent with report_with (defaults to dummy
state id) *)
val query :
at:Stateid.t -> ?report_with:(Stateid.t * Feedback.route_id) -> string -> unit
(* [edit_at id] is issued to change the editing zone. [`NewTip] is returned if
the requested id is the new document tip hence the document portion following
[id] is dropped by Coq. [`Focus fo] is returned to say that [fo.tip] is the
new document tip, the document between [id] and [fo.stop] has been dropped.
The portion between [fo.stop] and [fo.tip] has been kept. [fo.start] is
just to tell the gui where the editing zone starts, in case it wants to
graphically denote it. All subsequent [add] happen on top of [id].
If Flags.async_proofs_full is set, then [id] is not [observe]d, else it is.
*)
type focus = { start : Stateid.t; stop : Stateid.t; tip : Stateid.t }
val edit_at : Stateid.t -> [ `NewTip | `Focus of focus ]
(* Evaluates the tip of the current branch *)
val finish : unit -> unit
val observe : Stateid.t -> unit
val stop_worker : string -> unit
(* Joins the entire document. Implies finish, but also checks proofs *)
val join : unit -> unit
(* Saves on the disk a .vio corresponding to the current status:
- if the worker pool is empty, all tasks are saved
- if the worker proof is not empty, then it waits until all workers
are done with their current jobs and then dumps (or fails if one
of the completed tasks is a failure) *)
val snapshot_vio : DirPath.t -> string -> unit
(* Empties the task queue, can be used only if the worker pool is empty (E.g.
* after having built a .vio in batch mode *)
val reset_task_queue : unit -> unit
(* A .vio contains tasks to be completed *)
type tasks
val check_task : string -> tasks -> int -> bool
val info_tasks : tasks -> (string * float * int) list
val finish_tasks : string ->
Library.seg_univ -> Library.seg_discharge -> Library.seg_proofs ->
tasks -> Library.seg_univ * Library.seg_proofs
(* Id of the tip of the current branch *)
val get_current_state : unit -> Stateid.t
(* Misc *)
val init : unit -> unit
(* This returns the node at that position *)
val get_ast : Stateid.t -> (Vernacexpr.vernac_expr * Loc.t) option
(* Filename *)
val set_compilation_hints : string -> unit
(* Reorders the task queue putting forward what is in the perspective *)
val set_perspective : Stateid.t list -> unit
type document
val backup : unit -> document
val restore : document -> unit
(** workers **************************************************************** **)
module ProofTask : AsyncTaskQueue.Task
module TacTask : AsyncTaskQueue.Task
module QueryTask : AsyncTaskQueue.Task
(** document structure customization *************************************** **)
(* A proof block delimiter defines a syntactic delimiter for sub proofs
that, when contain an error, do not impact the rest of the proof.
While checking a proof, if an error occurs in a (valid) block then
processing can skip the entire block and go on to give feedback
on the rest of the proof.
static_block_detection and dynamic_block_validation are run when
the closing block marker is parsed/executed respectively.
static_block_detection is for example called when "}" is parsed and
declares a block containing all proof steps between it and the matching
"{".
dynamic_block_validation is called when an error "crosses" the "}" statement.
Depending on the nature of the goal focused by "{" the block may absorb the
error or not. For example if the focused goal occurs in the type of
another goal, then the block is leaky.
Note that one can design proof commands that need no dynamic validation.
Example of document:
.. { tac1. tac2. } ..
Corresponding DAG:
.. (3) <-- { -- (4) <-- tac1 -- (5) <-- tac2 -- (6) <-- } -- (7) ..
Declaration of block [-------------------------------------------]
start = 5 the first state_id that could fail in the block
stop = 7 the node that may absorb the error
dynamic_switch = 4 dynamic check on this node
carry_on_data = () no need to carry extra data from static to dynamic
checks
*)
module DynBlockData : Dyn.S
type static_block_declaration = {
block_start : Stateid.t;
block_stop : Stateid.t;
dynamic_switch : Stateid.t;
carry_on_data : DynBlockData.t;
}
type document_node = {
indentation : int;
ast : Vernacexpr.vernac_expr;
id : Stateid.t;
}
type document_view = {
entry_point : document_node;
prev_node : document_node -> document_node option;
}
type static_block_detection =
document_view -> static_block_declaration option
type recovery_action = {
base_state : Stateid.t;
goals_to_admit : Goal.goal list;
recovery_command : Vernacexpr.vernac_expr option;
}
type dynamic_block_error_recovery =
static_block_declaration -> [ `ValidBlock of recovery_action | `Leaks ]
val register_proof_block_delimiter :
Vernacexpr.proof_block_name ->
static_block_detection ->
dynamic_block_error_recovery ->
unit
(** customization ********************************************************** **)
(* From the master (or worker, but beware that to install the hook
* into a worker one has to build the worker toploop to do so and
* the alternative toploop for the worker can be selected by changing
* the name of the Task(s) above) *)
val state_computed_hook : (Stateid.t -> in_cache:bool -> unit) Hook.t
val parse_error_hook :
(Feedback.edit_or_state_id -> Loc.t -> Pp.std_ppcmds -> unit) Hook.t
val unreachable_state_hook : (Stateid.t -> Exninfo.iexn -> unit) Hook.t
(* ready means that master has it at hand *)
val state_ready_hook : (Stateid.t -> unit) Hook.t
(* called with true before and with false after a tactic explicitly
* in the document is run *)
val tactic_being_run_hook : (bool -> unit) Hook.t
(* Messages from the workers to the master *)
val forward_feedback_hook : (Feedback.feedback -> unit) Hook.t
type state = {
system : States.state;
proof : Proof_global.state;
shallow : bool
}
val state_of_id :
Stateid.t -> [ `Valid of state option | `Expired | `Error of exn ]
(** read-eval-print loop compatible interface ****************************** **)
(* Adds a new line to the document. It replaces the core of Vernac.interp.
[finish] is called as the last bit of this function if the system
is running interactively (-emacs or coqtop). *)
val interp : bool -> vernac_expr located -> unit
(* Queries for backward compatibility *)
val current_proof_depth : unit -> int
val get_all_proof_names : unit -> Id.t list
(* Hooks to be set by other Coq components in order to break file cycles *)
val process_error_hook : Future.fix_exn Hook.t
|