From 7cfc4e5146be5666419451bdd516f1f3f264d24a Mon Sep 17 00:00:00 2001 From: Enrico Tassi Date: Sun, 25 Jan 2015 14:42:51 +0100 Subject: Imported Upstream version 8.5~beta1+dfsg --- stm/stm.ml | 2407 ++++++++++++++++++++++++++++++++++++++++++++++++++++++++++++ 1 file changed, 2407 insertions(+) create mode 100644 stm/stm.ml (limited to 'stm/stm.ml') diff --git a/stm/stm.ml b/stm/stm.ml new file mode 100644 index 00000000..7b246854 --- /dev/null +++ b/stm/stm.ml @@ -0,0 +1,2407 @@ +(************************************************************************) +(* v * The Coq Proof Assistant / The Coq Development Team *) +(* + feedback ~state_id Feedback.Processed) () + +let state_ready, state_ready_hook = Hook.make + ~default:(fun state_id -> ()) () + +let forward_feedback, forward_feedback_hook = Hook.make + ~default:(function + | { Feedback.id = Feedback.Edit edit_id; route; contents } -> + feedback ~edit_id ~route contents + | { Feedback.id = Feedback.State state_id; route; contents } -> + feedback ~state_id ~route contents) () + +let parse_error, parse_error_hook = Hook.make + ~default:(function + | Feedback.Edit edit_id -> fun loc msg -> + feedback ~edit_id (Feedback.ErrorMsg (loc, string_of_ppcmds msg)) + | Feedback.State state_id -> fun loc msg -> + feedback ~state_id (Feedback.ErrorMsg (loc, string_of_ppcmds msg))) () + +let execution_error, execution_error_hook = Hook.make + ~default:(fun state_id loc msg -> + feedback ~state_id (Feedback.ErrorMsg (loc, string_of_ppcmds msg))) () + +let unreachable_state, unreachable_state_hook = Hook.make + ~default:(fun _ -> ()) () + +include Hook + +(* enables: Hooks.(call foo args) *) +let call = get + +let call_process_error_once = + let processed : unit Exninfo.t = Exninfo.make () in + fun (_, info as ei) -> + match Exninfo.get info processed with + | Some _ -> ei + | None -> + let e, info = call process_error ei in + let info = Exninfo.add info processed () in + e, info + +end + +(* During interactive use we cache more states so that Undoing is fast *) +let interactive () = + if !Flags.ide_slave || !Flags.print_emacs || not !Flags.batch_mode then `Yes + else `No + +let async_proofs_workers_extra_env = ref [||] + +type ast = { verbose : bool; loc : Loc.t; mutable expr : vernac_expr } +let pr_ast { expr } = pr_vernac expr + +(* Wrapper for Vernacentries.interp to set the feedback id *) +let vernac_interp ?proof id ?route { verbose; loc; expr } = + let rec internal_command = function + | VernacResetName _ | VernacResetInitial | VernacBack _ + | VernacBackTo _ | VernacRestart | VernacUndo _ | VernacUndoTo _ + | VernacBacktrack _ | VernacAbortAll | VernacAbort _ -> true + | VernacTime el -> List.for_all (fun (_,e) -> internal_command e) el + | _ -> false in + if internal_command expr then begin + prerr_endline ("ignoring " ^ string_of_ppcmds(pr_vernac expr)) + end else begin + set_id_for_feedback ?route (Feedback.State id); + Aux_file.record_in_aux_set_at loc; + prerr_endline ("interpreting " ^ string_of_ppcmds(pr_vernac expr)); + try Hooks.(call interp ?verbosely:(Some verbose) ?proof (loc, expr)) + with e -> + let e = Errors.push e in + iraise Hooks.(call_process_error_once e) + end + +(* Wrapper for Vernac.parse_sentence to set the feedback id *) +let vernac_parse ?newtip ?route eid s = + let feedback_id = + if Option.is_empty newtip then Feedback.Edit eid + else Feedback.State (Option.get newtip) in + set_id_for_feedback ?route feedback_id; + let pa = Pcoq.Gram.parsable (Stream.of_string s) in + Flags.with_option Flags.we_are_parsing (fun () -> + try + match Pcoq.Gram.entry_parse Pcoq.main_entry pa with + | None -> raise (Invalid_argument "vernac_parse") + | Some ast -> ast + with e when Errors.noncritical e -> + let (e, info) = Errors.push e in + let loc = Option.default Loc.ghost (Loc.get_loc info) in + Hooks.(call parse_error feedback_id loc (iprint (e, info))); + iraise (e, info)) + () + +let pr_open_cur_subgoals () = + try Printer.pr_open_subgoals () + with Proof_global.NoCurrentProof -> str"" + +module Vcs_ = Vcs.Make(Stateid) +type future_proof = Proof_global.closed_proof_output Future.computation +type proof_mode = string +type depth = int +type cancel_switch = bool ref +type branch_type = + [ `Master + | `Proof of proof_mode * depth + | `Edit of proof_mode * Stateid.t * Stateid.t ] +type cmd_t = { + cast : ast; + cids : Id.t list; + cqueue : [ `MainQueue | `TacQueue of cancel_switch | `QueryQueue of cancel_switch ] } +type fork_t = ast * Vcs_.Branch.t * Vernacexpr.opacity_guarantee * Id.t list +type qed_t = { + qast : ast; + keep : vernac_qed_type; + mutable fproof : (future_proof * cancel_switch) option; + brname : Vcs_.Branch.t; + brinfo : branch_type Vcs_.branch_info +} +type seff_t = ast option +type alias_t = Stateid.t +type transaction = + | Cmd of cmd_t + | Fork of fork_t + | Qed of qed_t + | Sideff of seff_t + | Alias of alias_t + | Noop +type step = + [ `Cmd of cmd_t + | `Fork of fork_t * Stateid.t option + | `Qed of qed_t * Stateid.t + | `Sideff of [ `Ast of ast * Stateid.t | `Id of Stateid.t ] + | `Alias of alias_t ] +type visit = { step : step; next : Stateid.t } + +type state = { + system : States.state; + proof : Proof_global.state; + shallow : bool +} +type branch = Vcs_.Branch.t * branch_type Vcs_.branch_info +type backup = { mine : branch; others : branch list } +type 'vcs state_info = { (* Make private *) + mutable n_reached : int; + mutable n_goals : int; + mutable state : state option; + mutable vcs_backup : 'vcs option * backup option; +} +let default_info () = + { n_reached = 0; n_goals = 0; state = None; vcs_backup = None,None } + +(* Functions that work on a Vcs with a specific branch type *) +module Vcs_aux : sig + + val proof_nesting : (branch_type, 't,'i) Vcs_.t -> int + val find_proof_at_depth : + (branch_type, 't, 'i) Vcs_.t -> int -> + Vcs_.Branch.t * branch_type Vcs_.branch_info + exception Expired + val visit : (branch_type, transaction,'i) Vcs_.t -> Vcs_.Dag.node -> visit + +end = struct (* {{{ *) + + let proof_nesting vcs = + List.fold_left max 0 + (List.map_filter + (function + | { Vcs_.kind = `Proof (_,n) } -> Some n + | { Vcs_.kind = `Edit _ } -> Some 1 + | _ -> None) + (List.map (Vcs_.get_branch vcs) (Vcs_.branches vcs))) + + let find_proof_at_depth vcs pl = + try List.find (function + | _, { Vcs_.kind = `Proof(m, n) } -> Int.equal n pl + | _, { Vcs_.kind = `Edit _ } -> anomaly(str"find_proof_at_depth") + | _ -> false) + (List.map (fun h -> h, Vcs_.get_branch vcs h) (Vcs_.branches vcs)) + with Not_found -> failwith "find_proof_at_depth" + + exception Expired + let visit vcs id = + if Stateid.equal id Stateid.initial then + anomaly(str"Visiting the initial state id") + else if Stateid.equal id Stateid.dummy then + anomaly(str"Visiting the dummy state id") + else + try + match Vcs_.Dag.from_node (Vcs_.dag vcs) id with + | [n, Cmd x] -> { step = `Cmd x; next = n } + | [n, Alias x] -> { step = `Alias x; next = n } + | [n, Fork x] -> { step = `Fork (x,None); next = n } + | [n, Fork x; p, Noop] -> { step = `Fork (x,Some p); next = n } + | [p, Noop; n, Fork x] -> { step = `Fork (x,Some p); next = n } + | [n, Qed x; p, Noop] + | [p, Noop; n, Qed x] -> { step = `Qed (x,p); next = n } + | [n, Sideff None; p, Noop] + | [p, Noop; n, Sideff None]-> { step = `Sideff (`Id p); next = n } + | [n, Sideff (Some x); p, Noop] + | [p, Noop; n, Sideff (Some x)]-> { step = `Sideff(`Ast (x,p)); next = n } + | [n, Sideff (Some x)]-> {step = `Sideff(`Ast (x,Stateid.dummy)); next=n} + | _ -> anomaly (str ("Malformed VCS at node "^Stateid.to_string id)) + with Not_found -> raise Expired + +end (* }}} *) + +(*************************** THE DOCUMENT *************************************) +(******************************************************************************) + +(* Imperative wrap around VCS to obtain _the_ VCS that is the + * representation of the document Coq is currently processing *) +module VCS : sig + + exception Expired + + module Branch : (module type of Vcs_.Branch with type t = Vcs_.Branch.t) + type id = Stateid.t + type 'branch_type branch_info = 'branch_type Vcs_.branch_info = { + kind : [> `Master] as 'branch_type; + root : id; + pos : id; + } + + type vcs = (branch_type, transaction, vcs state_info) Vcs_.t + + val init : id -> unit + + val current_branch : unit -> Branch.t + val checkout : Branch.t -> unit + val branches : unit -> Branch.t list + val get_branch : Branch.t -> branch_type branch_info + val get_branch_pos : Branch.t -> id + val new_node : ?id:Stateid.t -> unit -> id + val merge : id -> ours:transaction -> ?into:Branch.t -> Branch.t -> unit + val rewrite_merge : id -> ours:transaction -> at:id -> Branch.t -> unit + val delete_branch : Branch.t -> unit + val commit : id -> transaction -> unit + val mk_branch_name : ast -> Branch.t + val edit_branch : Branch.t + val branch : ?root:id -> ?pos:id -> Branch.t -> branch_type -> unit + val reset_branch : Branch.t -> id -> unit + val reachable : id -> Vcs_.NodeSet.t + val cur_tip : unit -> id + + val get_info : id -> vcs state_info + val reached : id -> bool -> unit + val goals : id -> int -> unit + val set_state : id -> state -> unit + val get_state : id -> state option + + (* cuts from start -> stop, raising Expired if some nodes are not there *) + val slice : start:id -> stop:id -> vcs + val nodes_in_slice : start:id -> stop:id -> Stateid.t list + + val create_cluster : id list -> qed:id -> start:id -> unit + val cluster_of : id -> (id * id) option + val delete_cluster_of : id -> unit + + val proof_nesting : unit -> int + val checkout_shallowest_proof_branch : unit -> unit + val propagate_sideff : ast option -> unit + + val gc : unit -> unit + + val visit : id -> visit + + val print : ?now:bool -> unit -> unit + + val backup : unit -> vcs + val restore : vcs -> unit + +end = struct (* {{{ *) + + include Vcs_ + exception Expired = Vcs_aux.Expired + + module StateidSet = Set.Make(Stateid) + open Printf + + let print_dag vcs () = + let fname = + "stm_" ^ Str.global_replace (Str.regexp " ") "_" (System.process_id ()) in + let string_of_transaction = function + | Cmd { cast = t } | Fork (t, _,_,_) -> + (try string_of_ppcmds (pr_ast t) with _ -> "ERR") + | Sideff (Some t) -> + sprintf "Sideff(%s)" + (try string_of_ppcmds (pr_ast t) with _ -> "ERR") + | Sideff None -> "EnvChange" + | Noop -> " " + | Alias id -> sprintf "Alias(%s)" (Stateid.to_string id) + | Qed { qast } -> string_of_ppcmds (pr_ast qast) in + let is_green id = + match get_info vcs id with + | Some { state = Some _ } -> true + | _ -> false in + let is_red id = + match get_info vcs id with + | Some s -> Int.equal s.n_reached ~-1 + | _ -> false in + let head = current_branch vcs in + let heads = + List.map (fun x -> x, (get_branch vcs x).pos) (branches vcs) in + let graph = dag vcs in + let quote s = + Str.global_replace (Str.regexp "\n") "
" + (Str.global_replace (Str.regexp "<") "<" + (Str.global_replace (Str.regexp ">") ">" + (Str.global_replace (Str.regexp "\"") """ + (Str.global_replace (Str.regexp "&") "&" + (String.sub s 0 (min (String.length s) 20)))))) in + let fname_dot, fname_ps = + let f = "/tmp/" ^ Filename.basename fname in + f ^ ".dot", f ^ ".pdf" in + let node id = "s" ^ Stateid.to_string id in + let edge tr = + sprintf "<%s>" + (quote (string_of_transaction tr)) in + let ids = ref StateidSet.empty in + let clus = Hashtbl.create 13 in + let node_info id = + match get_info vcs id with + | None -> "" + | Some info -> + sprintf "<%s" (Stateid.to_string id) ^ + sprintf " r:%d g:%d>" + info.n_reached info.n_goals in + let color id = + if is_red id then "red" else if is_green id then "green" else "white" in + let nodefmt oc id = + fprintf oc "%s [label=%s,style=filled,fillcolor=%s];\n" + (node id) (node_info id) (color id) in + let add_to_clus_or_ids from cf = + match cf with + | None -> ids := StateidSet.add from !ids; false + | Some c -> Hashtbl.replace clus c + (try let n = Hashtbl.find clus c in from::n + with Not_found -> [from]); true in + let oc = open_out fname_dot in + output_string oc "digraph states {\nsplines=ortho\n"; + Dag.iter graph (fun from cf _ l -> + let c1 = add_to_clus_or_ids from cf in + List.iter (fun (dest, trans) -> + let c2 = add_to_clus_or_ids dest (Dag.cluster_of graph dest) in + fprintf oc "%s -> %s [xlabel=%s,labelfloat=%b];\n" + (node from) (node dest) (edge trans) (c1 && c2)) l + ); + StateidSet.iter (nodefmt oc) !ids; + Hashtbl.iter (fun c nodes -> + fprintf oc "subgraph cluster_%s {\n" (Dag.Cluster.to_string c); + List.iter (nodefmt oc) nodes; + fprintf oc "color=blue; }\n" + ) clus; + List.iteri (fun i (b,id) -> + let shape = if Branch.equal head b then "box3d" else "box" in + fprintf oc "b%d -> %s;\n" i (node id); + fprintf oc "b%d [shape=%s,label=\"%s\"];\n" i shape + (Branch.to_string b); + ) heads; + output_string oc "}\n"; + close_out oc; + ignore(Sys.command + ("dot -Tpdf -Gcharset=latin1 " ^ fname_dot ^ " -o" ^ fname_ps)) + + type vcs = (branch_type, transaction, vcs state_info) t + let vcs : vcs ref = ref (empty Stateid.dummy) + + let init id = + vcs := empty id; + vcs := set_info !vcs id (default_info ()) + + let current_branch () = current_branch !vcs + + let checkout head = vcs := checkout !vcs head + let branches () = branches !vcs + let get_branch head = get_branch !vcs head + let get_branch_pos head = (get_branch head).pos + let new_node ?(id=Stateid.fresh ()) () = + assert(Vcs_.get_info !vcs id = None); + vcs := set_info !vcs id (default_info ()); + id + let merge id ~ours ?into branch = + vcs := merge !vcs id ~ours ~theirs:Noop ?into branch + let delete_branch branch = vcs := delete_branch !vcs branch + let reset_branch branch id = vcs := reset_branch !vcs branch id + let commit id t = vcs := commit !vcs id t + let rewrite_merge id ~ours ~at branch = + vcs := rewrite_merge !vcs id ~ours ~theirs:Noop ~at branch + let reachable id = reachable !vcs id + let mk_branch_name { expr = x } = Branch.make + (match x with + | VernacDefinition (_,(_,i),_) -> string_of_id i + | VernacStartTheoremProof (_,[Some (_,i),_],_) -> string_of_id i + | _ -> "branch") + let edit_branch = Branch.make "edit" + let branch ?root ?pos name kind = vcs := branch !vcs ?root ?pos name kind + let get_info id = + match get_info !vcs id with + | Some x -> x + | None -> raise Vcs_aux.Expired + let set_state id s = + (get_info id).state <- Some s; + if Flags.async_proofs_is_master () then Hooks.(call state_ready id) + let get_state id = (get_info id).state + let reached id b = + let info = get_info id in + if b then info.n_reached <- info.n_reached + 1 + else info.n_reached <- -1 + let goals id n = (get_info id).n_goals <- n + let cur_tip () = get_branch_pos (current_branch ()) + + let proof_nesting () = Vcs_aux.proof_nesting !vcs + + let checkout_shallowest_proof_branch () = + if List.mem edit_branch (Vcs_.branches !vcs) then begin + checkout edit_branch; + match get_branch edit_branch with + | { kind = `Edit (mode, _, _) } -> Proof_global.activate_proof_mode mode + | _ -> assert false + end else + let pl = proof_nesting () in + try + let branch, mode = match Vcs_aux.find_proof_at_depth !vcs pl with + | h, { Vcs_.kind = `Proof (m, _) } -> h, m | _ -> assert false in + checkout branch; + prerr_endline ("mode:" ^ mode); + Proof_global.activate_proof_mode mode + with Failure _ -> + checkout Branch.master; + Proof_global.disactivate_proof_mode "Classic" + + (* copies the transaction on every open branch *) + let propagate_sideff t = + List.iter (fun b -> + checkout b; + let id = new_node () in + merge id ~ours:(Sideff t) ~into:b Branch.master) + (List.filter (fun b -> not (Branch.equal b Branch.master)) (branches ())) + + let visit id = Vcs_aux.visit !vcs id + + let nodes_in_slice ~start ~stop = + let rec aux id = + if Stateid.equal id start then [] else + match visit id with + | { next = n; step = `Cmd x } -> (id,Cmd x) :: aux n + | { next = n; step = `Alias x } -> (id,Alias x) :: aux n + | { next = n; step = `Sideff (`Ast (x,_)) } -> + (id,Sideff (Some x)) :: aux n + | _ -> anomaly(str("Cannot slice from "^ Stateid.to_string start ^ + " to "^Stateid.to_string stop)) + in aux stop + + let slice ~start ~stop = + let l = nodes_in_slice ~start ~stop in + let copy_info v id = + Vcs_.set_info v id + { (get_info id) with state = None; vcs_backup = None,None } in + let copy_info_w_state v id = + Vcs_.set_info v id { (get_info id) with vcs_backup = None,None } in + let v = Vcs_.empty start in + let v = copy_info v start in + let v = List.fold_right (fun (id,tr) v -> + let v = Vcs_.commit v id tr in + let v = copy_info v id in + v) l v in + (* Stm should have reached the beginning of proof *) + assert (not (Option.is_empty (get_info start).state)); + (* We put in the new dag the most recent state known to master *) + let rec fill id = + if (get_info id).state = None then fill (Vcs_aux.visit v id).next + else copy_info_w_state v id in + fill stop + + let nodes_in_slice ~start ~stop = + List.rev (List.map fst (nodes_in_slice ~start ~stop)) + + let create_cluster l ~qed ~start = vcs := create_cluster !vcs l (qed,start) + let cluster_of id = Option.map Dag.Cluster.data (cluster_of !vcs id) + let delete_cluster_of id = + Option.iter (fun x -> vcs := delete_cluster !vcs x) (Vcs_.cluster_of !vcs id) + + let gc () = + let old_vcs = !vcs in + let new_vcs, erased_nodes = gc old_vcs in + Vcs_.NodeSet.iter (fun id -> + match (Vcs_aux.visit old_vcs id).step with + | `Qed ({ fproof = Some (_, cancel_switch) }, _) + | `Cmd { cqueue = `TacQueue cancel_switch } + | `Cmd { cqueue = `QueryQueue cancel_switch } -> + cancel_switch := true + | _ -> ()) + erased_nodes; + vcs := new_vcs + + module NB : sig (* Non blocking Sys.command *) + + val command : now:bool -> (unit -> unit) -> unit + + end = struct + + let m = Mutex.create () + let c = Condition.create () + let job = ref None + let worker = ref None + + let set_last_job j = + Mutex.lock m; + job := Some j; + Condition.signal c; + Mutex.unlock m + + let get_last_job () = + Mutex.lock m; + while Option.is_empty !job do Condition.wait c m; done; + match !job with + | None -> assert false + | Some x -> job := None; Mutex.unlock m; x + + let run_command () = + try while true do get_last_job () () done + with e -> () (* No failure *) + + let command ~now job = + if now then job () + else begin + set_last_job job; + if Option.is_empty !worker then + worker := Some (Thread.create run_command ()) + end + + end + + let print ?(now=false) () = + if not !Flags.debug && not now then () else NB.command ~now (print_dag !vcs) + + let backup () = !vcs + let restore v = vcs := v + +end (* }}} *) + +let state_of_id id = + try `Valid (VCS.get_info id).state + with VCS.Expired -> `Expired + + +(****** A cache: fills in the nodes of the VCS document with their value ******) +module State : sig + + (** The function is from unit, so it uses the current state to define + a new one. I.e. one may been to install the right state before + defining a new one. + Warning: an optimization in installed_cached requires that state + modifying functions are always executed using this wrapper. *) + val define : + ?safe_id:Stateid.t -> + ?redefine:bool -> ?cache:Summary.marshallable -> + ?feedback_processed:bool -> (unit -> unit) -> Stateid.t -> unit + + val install_cached : Stateid.t -> unit + val is_cached : ?cache:Summary.marshallable -> Stateid.t -> bool + + + val exn_on : Stateid.t -> ?valid:Stateid.t -> iexn -> iexn + (* to send states across worker/master *) + type frozen_state + val get_cached : Stateid.t -> frozen_state + val same_env : frozen_state -> frozen_state -> bool + type partial_state = + [ `Full of frozen_state | `Proof of Stateid.t * Proof_global.state ] + val proof_part_of_frozen : frozen_state -> Proof_global.state + val assign : Stateid.t -> partial_state -> unit + +end = struct (* {{{ *) + + (* cur_id holds Stateid.dummy in case the last attempt to define a state + * failed, so the global state may contain garbage *) + let cur_id = ref Stateid.dummy + + (* helpers *) + let freeze_global_state marshallable = + { system = States.freeze ~marshallable; + proof = Proof_global.freeze ~marshallable; + shallow = (marshallable = `Shallow) } + let unfreeze_global_state { system; proof } = + States.unfreeze system; Proof_global.unfreeze proof + + (* hack to make futures functional *) + let in_t, out_t = Dyn.create "state4future" + let () = Future.set_freeze + (fun () -> in_t (freeze_global_state `No, !cur_id)) + (fun t -> let s,i = out_t t in unfreeze_global_state s; cur_id := i) + + type frozen_state = state + type partial_state = + [ `Full of frozen_state | `Proof of Stateid.t * Proof_global.state ] + let proof_part_of_frozen { proof } = proof + + let freeze marhallable id = VCS.set_state id (freeze_global_state marhallable) + + let is_cached ?(cache=`No) id = + if Stateid.equal id !cur_id then + try match VCS.get_info id with + | { state = None } when cache = `Yes -> freeze `No id; true + | { state = None } when cache = `Shallow -> freeze `Shallow id; true + | _ -> true + with VCS.Expired -> false + else + try match VCS.get_info id with + | { state = Some _ } -> true + | _ -> false + with VCS.Expired -> false + + let install_cached id = + if Stateid.equal id !cur_id then () else (* optimization *) + let s = + match VCS.get_info id with + | { state = Some s } -> s + | _ -> anomaly (str "unfreezing a non existing state") in + unfreeze_global_state s; cur_id := id + + let get_cached id = + try match VCS.get_info id with + | { state = Some s } -> s + | _ -> anomaly (str "not a cached state") + with VCS.Expired -> anomaly (str "not a cached state (expired)") + + let assign id what = + if VCS.get_state id <> None then () else + try match what with + | `Full s -> VCS.set_state id s + | `Proof(ontop,p) -> + if is_cached ontop then ( + VCS.set_state id { (get_cached ontop) with proof = p }) + with VCS.Expired -> () + + let exn_on id ?valid (e, info) = + match Stateid.get info with + | Some _ -> (e, info) + | None -> + let loc = Option.default Loc.ghost (Loc.get_loc info) in + let (e, info) = Hooks.(call_process_error_once (e, info)) in + Hooks.(call execution_error id loc (iprint (e, info))); + (e, Stateid.add info ?valid id) + + let same_env { system = s1 } { system = s2 } = + let s1 = States.summary_of_state s1 in + let e1 = Summary.project_summary s1 [Global.global_env_summary_name] in + let s2 = States.summary_of_state s2 in + let e2 = Summary.project_summary s2 [Global.global_env_summary_name] in + Summary.pointer_equal e1 e2 + + let define ?safe_id ?(redefine=false) ?(cache=`No) ?(feedback_processed=true) + f id + = + feedback ~state_id:id Feedback.(ProcessingIn !Flags.async_proofs_worker_id); + let str_id = Stateid.to_string id in + if is_cached id && not redefine then + anomaly (str"defining state "++str str_id++str" twice"); + try + prerr_endline("defining "^str_id^" (cache="^ + if cache = `Yes then "Y)" else if cache = `Shallow then "S)" else "N)"); + f (); + if cache = `Yes then freeze `No id + else if cache = `Shallow then freeze `Shallow id; + prerr_endline ("setting cur id to "^str_id); + cur_id := id; + if feedback_processed then + Hooks.(call state_computed id ~in_cache:false); + VCS.reached id true; + if Proof_global.there_are_pending_proofs () then + VCS.goals id (Proof_global.get_open_goals ()); + with e -> + let (e, info) = Errors.push e in + let good_id = !cur_id in + cur_id := Stateid.dummy; + VCS.reached id false; + Hooks.(call unreachable_state id); + match Stateid.get info, safe_id with + | None, None -> iraise (exn_on id ~valid:good_id (e, info)) + | None, Some good_id -> iraise (exn_on id ~valid:good_id (e, info)) + | Some _, None -> iraise (e, info) + | Some (_,at), Some id -> iraise (e, Stateid.add info ~valid:id at) + +end (* }}} *) + + +(****************************** CRUFT *****************************************) +(******************************************************************************) + +(* The backtrack module simulates the classic behavior of a linear document *) +module Backtrack : sig + + val record : unit -> unit + val backto : Stateid.t -> unit + val back_safe : unit -> unit + + (* we could navigate the dag, but this ways easy *) + val branches_of : Stateid.t -> backup + + (* To be installed during initialization *) + val undo_vernac_classifier : vernac_expr -> vernac_classification + +end = struct (* {{{ *) + + let record () = + List.iter (fun current_branch -> + let mine = current_branch, VCS.get_branch current_branch in + let info = VCS.get_info (VCS.get_branch_pos current_branch) in + let others = + CList.map_filter (fun b -> + if Vcs_.Branch.equal b current_branch then None + else Some(b, VCS.get_branch b)) (VCS.branches ()) in + let backup = if fst info.vcs_backup <> None then fst info.vcs_backup + else Some (VCS.backup ()) in + let branches = if snd info.vcs_backup <> None then snd info.vcs_backup + else Some { mine; others } in + info.vcs_backup <- backup, branches) + [VCS.current_branch (); VCS.Branch.master] + + let backto oid = + let info = VCS.get_info oid in + match info.vcs_backup with + | None, _ -> + anomaly(str"Backtrack.backto "++str(Stateid.to_string oid)++ + str": a state with no vcs_backup") + | Some vcs, _ -> VCS.restore vcs + + let branches_of id = + let info = VCS.get_info id in + match info.vcs_backup with + | _, None -> + anomaly(str"Backtrack.branches_of "++str(Stateid.to_string id)++ + str": a state with no vcs_backup") + | _, Some x -> x + + let rec fold_until f acc id = + let next acc = + if id = Stateid.initial then raise Not_found + else fold_until f acc (VCS.visit id).next in + let info = VCS.get_info id in + match info.vcs_backup with + | None, _ -> next acc + | Some vcs, _ -> + let ids = + if id = Stateid.initial || id = Stateid.dummy then [] else + match VCS.visit id with + | { step = `Fork ((_,_,_,l),_) } -> l + | { step = `Cmd { cids = l } } -> l + | _ -> [] in + match f acc (id, vcs, ids) with + | `Stop x -> x + | `Cont acc -> next acc + + let back_safe () = + let id = + fold_until (fun n (id,_,_) -> + if n >= 0 && State.is_cached id then `Stop id else `Cont (succ n)) + 0 (VCS.get_branch_pos (VCS.current_branch ())) in + backto id + + let undo_vernac_classifier v = + try + match v with + | VernacResetInitial -> + VtStm (VtBack Stateid.initial, true), VtNow + | VernacResetName (_,name) -> + msg_warning + (str"Reset not implemented for automatically generated constants"); + let id = VCS.get_branch_pos (VCS.current_branch ()) in + (try + let oid = + fold_until (fun b (id,_,label) -> + if b then `Stop id else `Cont (List.mem name label)) + false id in + VtStm (VtBack oid, true), VtNow + with Not_found -> + VtStm (VtBack id, true), VtNow) + | VernacBack n -> + let id = VCS.get_branch_pos (VCS.current_branch ()) in + let oid = fold_until (fun n (id,_,_) -> + if Int.equal n 0 then `Stop id else `Cont (n-1)) n id in + VtStm (VtBack oid, true), VtNow + | VernacUndo n -> + let id = VCS.get_branch_pos (VCS.current_branch ()) in + let oid = fold_until (fun n (id,_,_) -> + if Int.equal n 0 then `Stop id else `Cont (n-1)) n id in + if n = 1 && !Flags.coqtop_ui && not !Flags.batch_mode && + not !Flags.print_emacs then + VtStm (VtBack oid, false), VtNow + else VtStm (VtBack oid, true), VtLater + | VernacUndoTo _ + | VernacRestart as e -> + let m = match e with VernacUndoTo m -> m | _ -> 0 in + let id = VCS.get_branch_pos (VCS.current_branch ()) in + let vcs = + match (VCS.get_info id).vcs_backup with + | None, _ -> anomaly(str"Backtrack: tip with no vcs_backup") + | Some vcs, _ -> vcs in + let cb, _ = + Vcs_aux.find_proof_at_depth vcs (Vcs_aux.proof_nesting vcs) in + let n = fold_until (fun n (_,vcs,_) -> + if List.mem cb (Vcs_.branches vcs) then `Cont (n+1) else `Stop n) + 0 id in + let oid = fold_until (fun n (id,_,_) -> + if Int.equal n 0 then `Stop id else `Cont (n-1)) (n-m-1) id in + VtStm (VtBack oid, true), VtLater + | VernacAbortAll -> + let id = VCS.get_branch_pos (VCS.current_branch ()) in + let oid = fold_until (fun () (id,vcs,_) -> + match Vcs_.branches vcs with [_] -> `Stop id | _ -> `Cont ()) + () id in + VtStm (VtBack oid, true), VtLater + | VernacBacktrack (id,_,_) + | VernacBackTo id -> + VtStm (VtBack (Stateid.of_int id), not !Flags.print_emacs), VtNow + | _ -> VtUnknown, VtNow + with + | Not_found -> + msg_warning(str"undo_vernac_classifier: going back to the initial state."); + VtStm (VtBack Stateid.initial, true), VtNow + +end (* }}} *) + +let hints = ref Aux_file.empty_aux_file +let set_compilation_hints file = + hints := Aux_file.load_aux_file_for file +let get_hint_ctx loc = + let s = Aux_file.get !hints loc "context_used" in + let ids = List.map Names.Id.of_string (Str.split (Str.regexp " ") s) in + let ids = List.map (fun id -> Loc.ghost, id) ids in + SsExpr (SsSet ids) + +let get_hint_bp_time proof_name = + try float_of_string (Aux_file.get !hints Loc.ghost proof_name) + with Not_found -> 1.0 + +let record_pb_time proof_name loc time = + let proof_build_time = Printf.sprintf "%.3f" time in + Aux_file.record_in_aux_at loc "proof_build_time" proof_build_time; + if proof_name <> "" then begin + Aux_file.record_in_aux_at Loc.ghost proof_name proof_build_time; + hints := Aux_file.set !hints Loc.ghost proof_name proof_build_time + end + +exception RemoteException of std_ppcmds +let _ = Errors.register_handler (function + | RemoteException ppcmd -> ppcmd + | _ -> raise Unhandled) + +(****************************** THE SCHEDULER *********************************) +(******************************************************************************) + +module rec ProofTask : sig + + type competence = Stateid.t list + type task_build_proof = { + t_exn_info : Stateid.t * Stateid.t; + t_start : Stateid.t; + t_stop : Stateid.t; + t_states : competence; + t_assign : Proof_global.closed_proof_output Future.assignement -> unit; + t_loc : Loc.t; + t_uuid : Future.UUID.t; + t_name : string } + + type task = + | BuildProof of task_build_proof + | States of Stateid.t list + + type request = + | ReqBuildProof of (Future.UUID.t,VCS.vcs) Stateid.request * competence + | ReqStates of Stateid.t list + + include AsyncTaskQueue.Task + with type task := task + and type competence := competence + and type request := request + + val build_proof_here : + Stateid.t * Stateid.t -> Loc.t -> Stateid.t -> + Proof_global.closed_proof_output Future.computation + +end = struct (* {{{ *) + + let forward_feedback msg = Hooks.(call forward_feedback msg) + + type competence = Stateid.t list + type task_build_proof = { + t_exn_info : Stateid.t * Stateid.t; + t_start : Stateid.t; + t_stop : Stateid.t; + t_states : competence; + t_assign : Proof_global.closed_proof_output Future.assignement -> unit; + t_loc : Loc.t; + t_uuid : Future.UUID.t; + t_name : string } + + type task = + | BuildProof of task_build_proof + | States of Stateid.t list + + type request = + | ReqBuildProof of (Future.UUID.t,VCS.vcs) Stateid.request * competence + | ReqStates of Stateid.t list + + type error = { + e_error_at : Stateid.t; + e_safe_id : Stateid.t; + e_msg : std_ppcmds; + e_safe_states : Stateid.t list } + + type response = + | RespBuiltProof of Proof_global.closed_proof_output * float + | RespError of error + | RespStates of (Stateid.t * State.partial_state) list + | RespDone + + let name = ref "proofworker" + let extra_env () = !async_proofs_workers_extra_env + + let task_match age t = + match age, t with + | `Fresh, BuildProof _ -> true + | `Old my_states, States l -> + List.for_all (fun x -> CList.mem_f Stateid.equal x my_states) l + | _ -> false + + let name_of_task = function + | BuildProof t -> "proof: " ^ t.t_name + | States l -> "states: " ^ String.concat "," (List.map Stateid.to_string l) + let name_of_request = function + | ReqBuildProof(r,_) -> "proof: " ^ r.Stateid.name + | ReqStates l -> "states: "^String.concat "," (List.map Stateid.to_string l) + + let request_of_task age = function + | States l -> Some (ReqStates l) + | BuildProof { t_exn_info;t_start;t_stop;t_loc;t_uuid;t_name;t_states } -> + assert(age = `Fresh); + try Some (ReqBuildProof ({ + Stateid.exn_info = t_exn_info; + stop = t_stop; + document = VCS.slice ~start:t_start ~stop:t_stop; + loc = t_loc; + uuid = t_uuid; + name = t_name }, t_states)) + with VCS.Expired -> None + + let use_response (s : competence AsyncTaskQueue.worker_status) t r = + match s, t, r with + | `Old c, States _, RespStates l -> + List.iter (fun (id,s) -> State.assign id s) l; `End + | `Fresh, BuildProof { t_assign; t_loc; t_name; t_states }, + RespBuiltProof (pl, time) -> + feedback (Feedback.InProgress ~-1); + t_assign (`Val pl); + record_pb_time t_name t_loc time; + if not !Flags.async_proofs_full then `End + else `Stay(t_states,[States t_states]) + | `Fresh, BuildProof { t_assign; t_loc; t_name; t_states }, + RespError { e_error_at; e_safe_id = valid; e_msg; e_safe_states } -> + feedback (Feedback.InProgress ~-1); + let info = Stateid.add ~valid Exninfo.null e_error_at in + let e = (RemoteException e_msg, info) in + t_assign (`Exn e); + `Stay(t_states,[States e_safe_states]) + | _ -> assert false + + let on_task_cancellation_or_expiration_or_slave_death = function + | None -> () + | Some (States _) -> () + | Some (BuildProof { t_start = start; t_assign }) -> + let s = "Worker dies or task expired" in + let info = Stateid.add ~valid:start Exninfo.null start in + let e = (RemoteException (strbrk s), info) in + t_assign (`Exn e); + Hooks.(call execution_error start Loc.ghost (strbrk s)); + feedback (Feedback.InProgress ~-1) + + let build_proof_here (id,valid) loc eop = + Future.create (State.exn_on id ~valid) (fun () -> + let wall_clock1 = Unix.gettimeofday () in + if !Flags.batch_mode then Reach.known_state ~cache:`No eop + else Reach.known_state ~cache:`Shallow eop; + let wall_clock2 = Unix.gettimeofday () in + Aux_file.record_in_aux_at loc "proof_build_time" + (Printf.sprintf "%.3f" (wall_clock2 -. wall_clock1)); + Proof_global.return_proof ()) + + let perform_buildp { Stateid.exn_info; stop; document; loc } my_states = + try + VCS.restore document; + VCS.print (); + let proof, future_proof, time = + let wall_clock = Unix.gettimeofday () in + let fp = build_proof_here exn_info loc stop in + let proof = Future.force fp in + proof, fp, Unix.gettimeofday () -. wall_clock in + (* We typecheck the proof with the kernel (in the worker) to spot + * the few errors tactics don't catch, like the "fix" tactic building + * a bad fixpoint *) + let fix_exn = Future.fix_exn_of future_proof in + let checked_proof = Future.chain ~pure:false future_proof (fun p -> + let pobject, _ = + Proof_global.close_future_proof stop (Future.from_val ~fix_exn p) in + let terminator = (* The one sent by master is an InvalidKey *) + Lemmas.(standard_proof_terminator [] (mk_hook (fun _ _ -> ()))) in + vernac_interp stop + ~proof:(pobject, terminator) + { verbose = false; loc; + expr = (VernacEndProof (Proved (true,None))) }) in + ignore(Future.join checked_proof); + RespBuiltProof(proof,time) + with + | e when Errors.noncritical e -> + let (e, info) = Errors.push e in + (* This can happen if the proof is broken. The error has also been + * signalled as a feedback, hence we can silently recover *) + let e_error_at, e_safe_id = match Stateid.get info with + | Some (safe, err) -> err, safe + | None -> Stateid.dummy, Stateid.dummy in + let e_msg = iprint (e, info) in + prerr_endline "failed with the following exception:"; + prerr_endline (string_of_ppcmds e_msg); + let e_safe_states = List.filter State.is_cached my_states in + RespError { e_error_at; e_safe_id; e_msg; e_safe_states } + + let perform_states query = + if query = [] then [] else + let initial = + let rec aux id = + try match VCS.visit id with { next } -> aux next + with VCS.Expired -> id in + aux (List.hd query) in + let get_state seen id = + let prev = + try + let { next = prev; step } = VCS.visit id in + if State.is_cached prev && List.mem prev seen + then Some (prev, State.get_cached prev, step) + else None + with VCS.Expired -> None in + let this = + if State.is_cached id then Some (State.get_cached id) else None in + match prev, this with + | _, None -> None + | Some (prev, o, `Cmd { cast = { expr = VernacSolve _ }}), Some n + when State.same_env o n -> (* A pure tactic *) + Some (id, `Proof (prev, State.proof_part_of_frozen n)) + | Some _, Some s -> + msg_warning (str "Sending back a fat state"); + Some (id, `Full s) + | _, Some s -> Some (id, `Full s) in + let rec aux seen = function + | [] -> [] + | id :: rest -> + match get_state seen id with + | None -> aux seen rest + | Some stuff -> stuff :: aux (id :: seen) rest in + aux [initial] query + + let perform = function + | ReqBuildProof (bp,states) -> perform_buildp bp states + | ReqStates sl -> RespStates (perform_states sl) + + let on_marshal_error s = function + | States _ -> msg_error(strbrk("Marshalling error: "^s^". "^ + "The system state could not be sent to the master process.")) + | BuildProof { t_exn_info; t_stop; t_assign; t_loc } -> + msg_error(strbrk("Marshalling error: "^s^". "^ + "The system state could not be sent to the worker process. "^ + "Falling back to local, lazy, evaluation.")); + t_assign(`Comp(build_proof_here t_exn_info t_loc t_stop)); + feedback (Feedback.InProgress ~-1) + +end (* }}} *) + +(* Slave processes (if initialized, otherwise local lazy evaluation) *) +and Slaves : sig + + (* (eventually) remote calls *) + val build_proof : loc:Loc.t -> + exn_info:(Stateid.t * Stateid.t) -> start:Stateid.t -> stop:Stateid.t -> + name:string -> future_proof * cancel_switch + + (* blocking function that waits for the task queue to be empty *) + val wait_all_done : unit -> unit + + (* initialize the whole machinery (optional) *) + val init : unit -> unit + + type 'a tasks = ('a,VCS.vcs) Stateid.request list + val dump_snapshot : unit -> Future.UUID.t tasks + val check_task : string -> int tasks -> int -> bool + val info_tasks : 'a tasks -> (string * float * int) list + val finish_task : + string -> + Library.seg_univ -> Library.seg_discharge -> Library.seg_proofs -> + int tasks -> int -> Library.seg_univ + + val cancel_worker : WorkerPool.worker_id -> unit + + val reset_task_queue : unit -> unit + + val set_perspective : Stateid.t list -> unit + +end = struct (* {{{ *) + + module TaskQueue = AsyncTaskQueue.MakeQueue(ProofTask) + + let queue = ref None + + let init () = + if Flags.async_proofs_is_master () then + queue := Some (TaskQueue.create !Flags.async_proofs_n_workers) + else + queue := Some (TaskQueue.create 0) + + let check_task_aux extra name l i = + let { Stateid.stop; document; loc; name = r_name } = List.nth l i in + msg_info( + str(Printf.sprintf "Checking task %d (%s%s) of %s" i r_name extra name)); + VCS.restore document; + let start = + let rec aux cur = + try aux (VCS.visit cur).next + with VCS.Expired -> cur in + aux stop in + try + Reach.known_state ~cache:`No stop; + (* The original terminator, a hook, has not been saved in the .vio*) + Proof_global.set_terminator + (Lemmas.standard_proof_terminator [] + (Lemmas.mk_hook (fun _ _ -> ()))); + let proof = + Proof_global.close_proof ~keep_body_ucst_sepatate:true (fun x -> x) in + (* We jump at the beginning since the kernel handles side effects by also + * looking at the ones that happen to be present in the current env *) + Reach.known_state ~cache:`No start; + vernac_interp stop ~proof + { verbose = false; loc; + expr = (VernacEndProof (Proved (true,None))) }; + Some proof + with e -> + let (e, info) = Errors.push e in + (try match Stateid.get info with + | None -> + pperrnl ( + str"File " ++ str name ++ str ": proof of " ++ str r_name ++ + spc () ++ iprint (e, info)) + | Some (_, cur) -> + match VCS.visit cur with + | { step = `Cmd { cast = { loc } } } + | { step = `Fork (( { loc }, _, _, _), _) } + | { step = `Qed ( { qast = { loc } }, _) } + | { step = `Sideff (`Ast ( { loc }, _)) } -> + let start, stop = Loc.unloc loc in + pperrnl ( + str"File " ++ str name ++ str ": proof of " ++ str r_name ++ + str ": chars " ++ int start ++ str "-" ++ int stop ++ + spc () ++ iprint (e, info)) + | _ -> + pperrnl ( + str"File " ++ str name ++ str ": proof of " ++ str r_name ++ + spc () ++ iprint (e, info)) + with e -> + msg_error (str"unable to print error message: " ++ + str (Printexc.to_string e))); None + + let finish_task name (u,cst,_) d p l i = + let bucket = (List.nth l i).Stateid.uuid in + match check_task_aux (Printf.sprintf ", bucket %d" bucket) name l i with + | None -> exit 1 + | Some (po,_) -> + let discharge c = List.fold_right Cooking.cook_constr d.(bucket) c in + let con = + Nametab.locate_constant + (Libnames.qualid_of_ident po.Proof_global.id) in + let c = Global.lookup_constant con in + let o = match c.Declarations.const_body with + | Declarations.OpaqueDef o -> o + | _ -> assert false in + let uc = + Option.get + (Opaqueproof.get_constraints (Global.opaque_tables ()) o) in + let pr = + Future.from_val (Option.get (Global.body_of_constant_body c)) in + let uc = + Future.chain + ~greedy:true ~pure:true uc Univ.hcons_universe_context_set in + let pr = Future.chain ~greedy:true ~pure:true pr discharge in + let pr = Future.chain ~greedy:true ~pure:true pr Constr.hcons in + Future.sink pr; + let extra = Future.join uc in + u.(bucket) <- uc; + p.(bucket) <- pr; + u, Univ.ContextSet.union cst extra, false + + let check_task name l i = + match check_task_aux "" name l i with + | Some _ -> true + | None -> false + + let info_tasks l = + CList.map_i (fun i { Stateid.loc; name } -> + let time1 = + try float_of_string (Aux_file.get !hints loc "proof_build_time") + with Not_found -> 0.0 in + let time2 = + try float_of_string (Aux_file.get !hints loc "proof_check_time") + with Not_found -> 0.0 in + name, max (time1 +. time2) 0.0001,i) 0 l + + let set_perspective idl = + let open Stateid in + let open ProofTask in + let overlap s1 s2 = + List.exists (fun x -> CList.mem_f Stateid.equal x s2) s1 in + let overlap_rel s1 s2 = + match overlap s1 idl, overlap s2 idl with + | true, true | false, false -> 0 + | true, false -> -1 + | false, true -> 1 in + TaskQueue.set_order (Option.get !queue) (fun task1 task2 -> + match task1, task2 with + | BuildProof { t_states = s1 }, + BuildProof { t_states = s2 } -> overlap_rel s1 s2 + | _ -> 0) + + let build_proof ~loc ~exn_info ~start ~stop ~name:pname = + let id, valid as t_exn_info = exn_info in + let cancel_switch = ref false in + if TaskQueue.n_workers (Option.get !queue) = 0 then + if !Flags.compilation_mode = Flags.BuildVio then begin + let f,assign = + Future.create_delegate ~blocking:true (State.exn_on id ~valid) in + let t_uuid = Future.uuid f in + let task = ProofTask.(BuildProof { + t_exn_info; t_start = start; t_stop = stop; + t_assign = assign; t_loc = loc; t_uuid; t_name = pname; + t_states = VCS.nodes_in_slice ~start ~stop }) in + TaskQueue.enqueue_task (Option.get !queue) (task,cancel_switch); + f, cancel_switch + end else + ProofTask.build_proof_here t_exn_info loc stop, cancel_switch + else + let f, t_assign = Future.create_delegate (State.exn_on id ~valid) in + let t_uuid = Future.uuid f in + feedback (Feedback.InProgress 1); + let task = ProofTask.(BuildProof { + t_exn_info; t_start = start; t_stop = stop; t_assign; + t_loc = loc; t_uuid; t_name = pname; + t_states = VCS.nodes_in_slice ~start ~stop }) in + TaskQueue.enqueue_task (Option.get !queue) (task,cancel_switch); + f, cancel_switch + + let wait_all_done () = TaskQueue.join (Option.get !queue) + + let cancel_worker n = TaskQueue.cancel_worker (Option.get !queue) n + + (* For external users this name is nicer than request *) + type 'a tasks = ('a,VCS.vcs) Stateid.request list + let dump_snapshot () = + let tasks = TaskQueue.snapshot (Option.get !queue) in + let reqs = + CList.map_filter + ProofTask.(fun x -> + match request_of_task `Fresh x with + | Some (ReqBuildProof (r, _)) -> Some r + | _ -> None) + tasks in + prerr_endline (Printf.sprintf "dumping %d tasks\n" (List.length reqs)); + reqs + + let reset_task_queue () = TaskQueue.clear (Option.get !queue) + +end (* }}} *) + +and TacTask : sig + + type output = Constr.constr * Evd.evar_universe_context + type task = { + t_state : Stateid.t; + t_state_fb : Stateid.t; + t_assign : output Future.assignement -> unit; + t_ast : ast; + t_goal : Goal.goal; + t_kill : unit -> unit; + t_name : string } + + include AsyncTaskQueue.Task with type task := task + +end = struct (* {{{ *) + + type output = Constr.constr * Evd.evar_universe_context + + let forward_feedback msg = Hooks.(call forward_feedback msg) + + type task = { + t_state : Stateid.t; + t_state_fb : Stateid.t; + t_assign : output Future.assignement -> unit; + t_ast : ast; + t_goal : Goal.goal; + t_kill : unit -> unit; + t_name : string } + + type request = { + r_state : Stateid.t; + r_state_fb : Stateid.t; + r_document : VCS.vcs option; + r_ast : ast; + r_goal : Goal.goal; + r_name : string } + + type response = + | RespBuiltSubProof of output + | RespError of std_ppcmds + + let name = ref "tacworker" + let extra_env () = [||] + type competence = unit + let task_match _ _ = true + + (* run by the master, on a thread *) + let request_of_task age { t_state; t_state_fb; t_ast; t_goal; t_name } = + try Some { + r_state = t_state; + r_state_fb = t_state_fb; + r_document = + if age <> `Fresh then None + else Some (VCS.slice ~start:t_state ~stop:t_state); + r_ast = t_ast; + r_goal = t_goal; + r_name = t_name } + with VCS.Expired -> None + + let use_response _ { t_assign; t_state; t_state_fb; t_kill } resp = + match resp with + | RespBuiltSubProof o -> t_assign (`Val o); `Stay ((),[]) + | RespError msg -> + let info = Stateid.add ~valid:t_state Exninfo.null t_state_fb in + let e = (RemoteException msg, info) in + t_assign (`Exn e); + t_kill (); + `Stay ((),[]) + + let on_marshal_error err { t_name } = + pr_err ("Fatal marshal error: " ^ t_name ); + flush_all (); exit 1 + + let on_task_cancellation_or_expiration_or_slave_death = function + | Some { t_kill } -> t_kill () + | _ -> () + + let perform { r_state = id; r_state_fb; r_document = vcs; r_ast; r_goal } = + Option.iter VCS.restore vcs; + try + Reach.known_state ~cache:`No id; + let t, uc = Future.purify (fun () -> + vernac_interp r_state_fb r_ast; + let _,_,_,_,sigma = Proof.proof (Proof_global.give_me_the_proof ()) in + match Evd.(evar_body (find sigma r_goal)) with + | Evd.Evar_empty -> Errors.errorlabstrm "Stm" (str "no progress") + | Evd.Evar_defined t -> + let t = Evarutil.nf_evar sigma t in + if Evarutil.is_ground_term sigma t then + t, Evd.evar_universe_context sigma + else Errors.errorlabstrm "Stm" (str"The solution is not ground")) + () in + RespBuiltSubProof (t,uc) + with e when Errors.noncritical e -> RespError (Errors.print e) + + let name_of_task { t_name } = t_name + let name_of_request { r_name } = r_name + +end (* }}} *) + +and Partac : sig + + val vernac_interp : + cancel_switch -> int -> Stateid.t -> Stateid.t -> ast -> unit + +end = struct (* {{{ *) + + module TaskQueue = AsyncTaskQueue.MakeQueue(TacTask) + + let vernac_interp cancel nworkers safe_id id { verbose; loc; expr = e } = + let e, etac, time, fail = + let rec find time fail = function + | VernacSolve(_,_,re,b) -> re, b, time, fail + | VernacTime [_,e] -> find true fail e + | VernacFail e -> find time true e + | _ -> errorlabstrm "Stm" (str"unsupported") in find false false e in + Hooks.call Hooks.with_fail fail (fun () -> + (if time then System.with_time false else (fun x -> x)) (fun () -> + ignore(TaskQueue.with_n_workers nworkers (fun queue -> + Proof_global.with_current_proof (fun _ p -> + let goals, _, _, _, _ = Proof.proof p in + let open TacTask in + let res = CList.map_i (fun i g -> + let f,assign= Future.create_delegate (State.exn_on id ~valid:safe_id) in + let t_ast = + { verbose;loc;expr = VernacSolve(SelectNth i,None,e,etac) } in + let t_name = Goal.uid g in + TaskQueue.enqueue_task queue + ({ t_state = safe_id; t_state_fb = id; + t_assign = assign; t_ast; t_goal = g; t_name; + t_kill = (fun () -> TaskQueue.cancel_all queue) }, cancel); + Goal.uid g,f) + 1 goals in + TaskQueue.join queue; + let assign_tac : unit Proofview.tactic = + Proofview.V82.tactic (fun gl -> + let open Tacmach in + let sigma, g = project gl, sig_it gl in + let gid = Goal.uid g in + let f = + try List.assoc gid res + with Not_found -> Errors.anomaly(str"Partac: wrong focus") in + if Future.is_over f then + let pt, uc = Future.join f in + prerr_endline (string_of_ppcmds(hov 0 ( + str"g=" ++ str gid ++ spc () ++ + str"t=" ++ (Printer.pr_constr pt) ++ spc () ++ + str"uc=" ++ Evd.pr_evar_universe_context uc))); + let sigma = Goal.V82.partial_solution sigma g pt in + let sigma = Evd.merge_universe_context sigma uc in + re_sig [] sigma + else (* One has failed and cancelled the others, but not this one *) + re_sig [g] sigma) in + Proof.run_tactic (Global.env()) assign_tac p)))) ()) + +end (* }}} *) + +and QueryTask : sig + + type task = { t_where : Stateid.t; t_for : Stateid.t ; t_what : ast } + include AsyncTaskQueue.Task with type task := task + +end = struct (* {{{ *) + + type task = + { t_where : Stateid.t; t_for : Stateid.t ; t_what : ast } + + type request = + { r_where : Stateid.t ; r_for : Stateid.t ; r_what : ast; r_doc : VCS.vcs } + type response = unit + + let name = ref "queryworker" + let extra_env _ = [||] + type competence = unit + let task_match _ _ = true + + let request_of_task _ { t_where; t_what; t_for } = + try Some { + r_where = t_where; + r_for = t_for; + r_doc = VCS.slice ~start:t_where ~stop:t_where; + r_what = t_what } + with VCS.Expired -> None + + let use_response _ _ _ = `End + + let on_marshal_error _ _ = + pr_err ("Fatal marshal error in query"); + flush_all (); exit 1 + + let on_task_cancellation_or_expiration_or_slave_death _ = () + + let forward_feedback msg = Hooks.(call forward_feedback msg) + + let perform { r_where; r_doc; r_what; r_for } = + VCS.restore r_doc; + VCS.print (); + Reach.known_state ~cache:`No r_where; + try + vernac_interp r_for { r_what with verbose = true }; + feedback ~state_id:r_for Feedback.Processed + with e when Errors.noncritical e -> + let msg = string_of_ppcmds (print e) in + feedback ~state_id:r_for (Feedback.ErrorMsg (Loc.ghost, msg)) + + let name_of_task { t_what } = string_of_ppcmds (pr_ast t_what) + let name_of_request { r_what } = string_of_ppcmds (pr_ast r_what) + +end (* }}} *) + +and Query : sig + + val init : unit -> unit + val vernac_interp : cancel_switch -> Stateid.t -> Stateid.t -> ast -> unit + +end = struct (* {{{ *) + + module TaskQueue = AsyncTaskQueue.MakeQueue(QueryTask) + + let queue = ref None + + let vernac_interp switch prev id q = + assert(TaskQueue.n_workers (Option.get !queue) > 0); + TaskQueue.enqueue_task (Option.get !queue) + QueryTask.({ QueryTask.t_where = prev; t_for = id; t_what = q }, switch) + + let init () = queue := Some (TaskQueue.create + (if !Flags.async_proofs_full then 1 else 0)) + +end (* }}} *) + +(* Runs all transactions needed to reach a state *) +and Reach : sig + + val known_state : + ?redefine_qed:bool -> cache:Summary.marshallable -> Stateid.t -> unit + +end = struct (* {{{ *) + +let pstate = ["meta counter"; "evar counter"; "program-tcc-table"] + +let async_policy () = + let open Flags in + if interactive () = `Yes then + (async_proofs_is_master () || !async_proofs_mode = Flags.APonLazy) + else + (!compilation_mode = Flags.BuildVio || !async_proofs_mode <> Flags.APoff) + +let delegate name = + let time = get_hint_bp_time name in + time >= 1.0 || !Flags.compilation_mode = Flags.BuildVio + +let collect_proof keep cur hd brkind id = + prerr_endline ("Collecting proof ending at "^Stateid.to_string id); + let no_name = "" in + let name = function + | [] -> no_name + | id :: _ -> Id.to_string id in + let loc = (snd cur).loc in + let is_defined = function + | _, { expr = VernacEndProof (Proved (false,_)) } -> true + | _ -> false in + let proof_using_ast = function + | Some (_, ({ expr = VernacProof(_,Some _) } as v)) -> Some v + | _ -> None in + let has_proof_using x = proof_using_ast x <> None in + let proof_no_using = function + | Some (_, ({ expr = VernacProof(t,None) } as v)) -> t,v + | _ -> assert false in + let has_proof_no_using = function + | Some (_, { expr = VernacProof(_,None) }) -> true + | _ -> false in + let parent = function Some (p, _) -> p | None -> assert false in + let rec collect last accn id = + let view = VCS.visit id in + match view.step with + | `Cmd { cast = x } -> collect (Some (id,x)) (id::accn) view.next + (* An Alias could jump everywhere... we hope we can ignore it*) + | `Alias _ -> `Sync (no_name,None,`Alias) + | `Fork((_,_,_,_::_::_), _) -> + `Sync (no_name,proof_using_ast last,`MutualProofs) + | `Fork((_,_,Doesn'tGuaranteeOpacity,_), _) -> + `Sync (no_name,proof_using_ast last,`Doesn'tGuaranteeOpacity) + | `Fork((_,hd',GuaranteesOpacity,ids), _) when has_proof_using last -> + assert (VCS.Branch.equal hd hd' || VCS.Branch.equal hd VCS.edit_branch); + let name = name ids in + `ASync (parent last,proof_using_ast last,accn,name,delegate name) + | `Fork((_, hd', GuaranteesOpacity, ids), _) when + has_proof_no_using last && not (State.is_cached (parent last)) && + !Flags.compilation_mode = Flags.BuildVio -> + assert (VCS.Branch.equal hd hd'||VCS.Branch.equal hd VCS.edit_branch); + (try + let name, hint = name ids, get_hint_ctx loc in + let t, v = proof_no_using last in + v.expr <- VernacProof(t, Some hint); + `ASync (parent last,proof_using_ast last,accn,name,delegate name) + with Not_found -> `Sync (no_name,None,`NoHint)) + | `Fork((_, hd', GuaranteesOpacity, ids), _) -> + assert (VCS.Branch.equal hd hd' || VCS.Branch.equal hd VCS.edit_branch); + let name = name ids in + `MaybeASync (parent last, None, accn, name, delegate name) + | `Sideff _ -> `Sync (no_name,None,`NestedProof) + | _ -> `Sync (no_name,None,`Unknown) in + let make_sync why = function + | `Sync(name,pua,_) -> `Sync (name,pua,why) + | `MaybeASync(_,pua,_,name,_) -> `Sync (name,pua,why) + | `ASync(_,pua,_,name,_) -> `Sync (name,pua,why) in + let check_policy rc = if async_policy () then rc else make_sync `Policy rc in + match cur, (VCS.visit id).step, brkind with + | (parent, { expr = VernacExactProof _ }), `Fork _, _ -> + `Sync (no_name,None,`Immediate) + | _, _, { VCS.kind = `Edit _ } -> check_policy (collect (Some cur) [] id) + | _ -> + if is_defined cur then `Sync (no_name,None,`Transparent) + else if keep == VtDrop then `Sync (no_name,None,`Aborted) + else + let rc = collect (Some cur) [] id in + if keep == VtKeep && + (not(State.is_cached id) || !Flags.async_proofs_full) + then check_policy rc + else make_sync `AlreadyEvaluated rc + +let string_of_reason = function + | `Transparent -> "Transparent" + | `AlreadyEvaluated -> "AlreadyEvaluated" + | `Policy -> "Policy" + | `NestedProof -> "NestedProof" + | `Immediate -> "Immediate" + | `Alias -> "Alias" + | `NoHint -> "NoHint" + | `Doesn'tGuaranteeOpacity -> "Doesn'tGuaranteeOpacity" + | `Aborted -> "Aborted" + | _ -> "Unknown Reason" + +let wall_clock_last_fork = ref 0.0 + +let known_state ?(redefine_qed=false) ~cache id = + + (* ugly functions to process nested lemmas, i.e. hard to reproduce + * side effects *) + let cherry_pick_non_pstate () = + Summary.freeze_summary ~marshallable:`No ~complement:true pstate, + Lib.freeze ~marshallable:`No in + let inject_non_pstate (s,l) = Summary.unfreeze_summary s; Lib.unfreeze l in + + let rec pure_cherry_pick_non_pstate id = Future.purify (fun id -> + prerr_endline ("cherry-pick non pstate " ^ Stateid.to_string id); + reach id; + cherry_pick_non_pstate ()) id + + (* traverses the dag backward from nodes being already calculated *) + and reach ?(redefine_qed=false) ?(cache=cache) id = + prerr_endline ("reaching: " ^ Stateid.to_string id); + if not redefine_qed && State.is_cached ~cache id then begin + State.install_cached id; + Hooks.(call state_computed id ~in_cache:true); + prerr_endline ("reached (cache)") + end else + let step, cache_step, feedback_processed = + let view = VCS.visit id in + match view.step with + | `Alias id -> (fun () -> + reach view.next; reach id + ), cache, true + | `Cmd { cast = x; cqueue = `TacQueue cancel } -> (fun () -> + reach ~cache:`Shallow view.next; + Partac.vernac_interp + cancel !Flags.async_proofs_n_tacworkers view.next id x + ), cache, true + | `Cmd { cast = x; cqueue = `QueryQueue cancel } + when Flags.async_proofs_is_master () -> (fun () -> + reach ~cache:`Shallow view.next; + Query.vernac_interp cancel view.next id x + ), cache, false + | `Cmd { cast = x } -> (fun () -> + reach view.next; vernac_interp id x + ), cache, true + | `Fork ((x,_,_,_), None) -> (fun () -> + reach view.next; vernac_interp id x; + wall_clock_last_fork := Unix.gettimeofday () + ), `Yes, true + | `Fork ((x,_,_,_), Some prev) -> (fun () -> + reach ~cache:`Shallow prev; + reach view.next; + (try vernac_interp id x; + with e when Errors.noncritical e -> + let (e, info) = Errors.push e in + let info = Stateid.add info ~valid:prev id in + iraise (e, info)); + wall_clock_last_fork := Unix.gettimeofday () + ), `Yes, true + | `Qed ({ qast = x; keep; brinfo; brname } as qed, eop) -> + let rec aux = function + | `ASync (start, pua, nodes, name, delegate) -> (fun () -> + assert(keep == VtKeep); + let stop, exn_info, loc = eop, (id, eop), x.loc in + prerr_endline ("Asynchronous " ^ Stateid.to_string id); + VCS.create_cluster nodes ~qed:id ~start; + begin match brinfo, qed.fproof with + | { VCS.kind = `Edit _ }, None -> assert false + | { VCS.kind = `Edit _ }, Some (ofp, cancel) -> + assert(redefine_qed = true); + let fp, cancel = + Slaves.build_proof ~loc ~exn_info ~start ~stop ~name in + Future.replace ofp fp; + qed.fproof <- Some (fp, cancel) + | { VCS.kind = `Proof _ }, Some _ -> assert false + | { VCS.kind = `Proof _ }, None -> + reach ~cache:`Shallow start; + let fp, cancel = + if delegate then + Slaves.build_proof ~loc ~exn_info ~start ~stop ~name + else + ProofTask.build_proof_here exn_info loc stop, ref false + in + qed.fproof <- Some (fp, cancel); + let proof = + Proof_global.close_future_proof ~feedback_id:id fp in + if not delegate then ignore(Future.compute fp); + reach view.next; + vernac_interp id ~proof x; + feedback ~state_id:id Feedback.Incomplete + | { VCS.kind = `Master }, _ -> assert false + end; + Proof_global.discard_all () + ), (if redefine_qed then `No else `Yes), true + | `Sync (name, _, `Immediate) -> (fun () -> + assert (Stateid.equal view.next eop); + reach eop; vernac_interp id x; Proof_global.discard_all () + ), `Yes, true + | `Sync (name, pua, reason) -> (fun () -> + prerr_endline ("Synchronous " ^ Stateid.to_string id ^ " " ^ + string_of_reason reason); + reach eop; + let wall_clock = Unix.gettimeofday () in + record_pb_time name x.loc (wall_clock -. !wall_clock_last_fork); + let proof = + if keep != VtKeep then None + else Some(Proof_global.close_proof + ~keep_body_ucst_sepatate:false + (State.exn_on id ~valid:eop)) in + if proof = None then prerr_endline "NONE!!!!!"; + reach view.next; + if keep == VtKeepAsAxiom then + Option.iter (vernac_interp id) pua; + let wall_clock2 = Unix.gettimeofday () in + vernac_interp id ?proof x; + let wall_clock3 = Unix.gettimeofday () in + Aux_file.record_in_aux_at x.loc "proof_check_time" + (Printf.sprintf "%.3f" (wall_clock3 -. wall_clock2)); + Proof_global.discard_all () + ), `Yes, true + | `MaybeASync (start, pua, nodes, name, delegate) -> (fun () -> + prerr_endline ("MaybeAsynchronous " ^ Stateid.to_string id); + reach ~cache:`Shallow start; + (* no sections *) + if List.is_empty (Environ.named_context (Global.env ())) + then pi1 (aux (`ASync (start, pua, nodes, name, delegate))) () + else pi1 (aux (`Sync (name, pua, `Unknown))) () + ), (if redefine_qed then `No else `Yes), true + in + aux (collect_proof keep (view.next, x) brname brinfo eop) + | `Sideff (`Ast (x,_)) -> (fun () -> + reach view.next; vernac_interp id x; + ), cache, true + | `Sideff (`Id origin) -> (fun () -> + reach view.next; + inject_non_pstate (pure_cherry_pick_non_pstate origin); + ), cache, true + in + let cache_step = + if !Flags.async_proofs_cache = Some Flags.Force then `Yes + else cache_step in + State.define + ~cache:cache_step ~redefine:redefine_qed ~feedback_processed step id; + prerr_endline ("reached: "^ Stateid.to_string id) in + reach ~redefine_qed id + +end (* }}} *) + +(********************************* STM API ************************************) +(******************************************************************************) + +let init () = + VCS.init Stateid.initial; + set_undo_classifier Backtrack.undo_vernac_classifier; + State.define ~cache:`Yes (fun () -> ()) Stateid.initial; + Backtrack.record (); + Slaves.init (); + if Flags.async_proofs_is_master () then begin + prerr_endline "Initialising workers"; + Query.init (); + let opts = match !Flags.async_proofs_private_flags with + | None -> [] + | Some s -> Str.split_delim (Str.regexp ",") s in + begin try + let env_opt = Str.regexp "^extra-env=" in + let env = List.find (fun s -> Str.string_match env_opt s 0) opts in + async_proofs_workers_extra_env := Array.of_list + (Str.split_delim (Str.regexp ";") (Str.replace_first env_opt "" env)) + with Not_found -> () end; + end + +let observe id = + let vcs = VCS.backup () in + try + Reach.known_state ~cache:(interactive ()) id; + VCS.print () + with e -> + let e = Errors.push e in + VCS.print (); + VCS.restore vcs; + iraise e + +let finish ?(print_goals=false) () = + observe (VCS.get_branch_pos (VCS.current_branch ())); + if print_goals then msg_notice (pr_open_cur_subgoals ()); + VCS.print () + +let wait () = + Slaves.wait_all_done (); + VCS.print () + +let join () = + finish (); + wait (); + prerr_endline "Joining the environment"; + Global.join_safe_environment (); + VCS.print (); + VCS.print () + +let dump_snapshot () = Slaves.dump_snapshot (), RemoteCounter.snapshot () +type document = VCS.vcs +type tasks = int Slaves.tasks * RemoteCounter.remote_counters_status +let check_task name (tasks,rcbackup) i = + RemoteCounter.restore rcbackup; + let vcs = VCS.backup () in + try + let rc = Future.purify (Slaves.check_task name tasks) i in + pperr_flush (); + VCS.restore vcs; + rc + with e when Errors.noncritical e -> VCS.restore vcs; false +let info_tasks (tasks,_) = Slaves.info_tasks tasks +let finish_tasks name u d p (t,rcbackup as tasks) = + RemoteCounter.restore rcbackup; + let finish_task u (_,_,i) = + let vcs = VCS.backup () in + let u = Future.purify (Slaves.finish_task name u d p t) i in + pperr_flush (); + VCS.restore vcs; + u in + try + let u, a, _ = List.fold_left finish_task u (info_tasks tasks) in + (u,a,true), p + with e -> + let e = Errors.push e in + pperrnl (str"File " ++ str name ++ str ":" ++ spc () ++ iprint e); + exit 1 + +let merge_proof_branch ?id qast keep brname = + let brinfo = VCS.get_branch brname in + let qed fproof = { qast; keep; brname; brinfo; fproof } in + match brinfo with + | { VCS.kind = `Proof _ } -> + VCS.checkout VCS.Branch.master; + let id = VCS.new_node ?id () in + VCS.merge id ~ours:(Qed (qed None)) brname; + VCS.delete_branch brname; + if keep <> VtDrop then VCS.propagate_sideff None; + `Ok + | { VCS.kind = `Edit (mode, qed_id, master_id) } -> + let ofp = + match VCS.visit qed_id with + | { step = `Qed ({ fproof }, _) } -> fproof + | _ -> assert false in + VCS.rewrite_merge qed_id ~ours:(Qed (qed ofp)) ~at:master_id brname; + VCS.delete_branch brname; + VCS.gc (); + Reach.known_state ~redefine_qed:true ~cache:`No qed_id; + VCS.checkout VCS.Branch.master; + `Unfocus qed_id + | { VCS.kind = `Master } -> + iraise (State.exn_on Stateid.dummy (Proof_global.NoCurrentProof, Exninfo.null)) + +(* When tty is true, this code also does some of the job of the user interface: + jump back to a state that is valid *) +let handle_failure (e, info) vcs tty = + if e = Errors.Drop then iraise (e, info) else + match Stateid.get info with + | None -> + VCS.restore vcs; + VCS.print (); + if tty && interactive () = `Yes then begin + (* Hopefully the 1 to last state is valid *) + Backtrack.back_safe (); + VCS.checkout_shallowest_proof_branch (); + end; + VCS.print (); + anomaly(str"error with no safe_id attached:" ++ spc() ++ + Errors.print_no_report e) + | Some (safe_id, id) -> + prerr_endline ("Failed at state " ^ Stateid.to_string id); + VCS.restore vcs; + if tty && interactive () = `Yes then begin + (* We stay on a valid state *) + Backtrack.backto safe_id; + VCS.checkout_shallowest_proof_branch (); + Reach.known_state ~cache:(interactive ()) safe_id; + end; + VCS.print (); + iraise (e, info) + +let snapshot_vio ldir long_f_dot_v = + finish (); + if List.length (VCS.branches ()) > 1 then + Errors.errorlabstrm "stm" (str"Cannot dump a vio with open proofs"); + Library.save_library_to ~todo:(dump_snapshot ()) ldir long_f_dot_v + (Global.opaque_tables ()) + +let reset_task_queue = Slaves.reset_task_queue + +(* Document building *) +let process_transaction ?(newtip=Stateid.fresh ()) ~tty verbose c (loc, expr) = + let warn_if_pos a b = + if b then msg_warning(pr_ast a ++ str" should not be part of a script") in + let v, x = expr, { verbose = verbose; loc; expr } in + prerr_endline ("{{{ processing: "^ string_of_ppcmds (pr_ast x)); + let vcs = VCS.backup () in + try + let head = VCS.current_branch () in + VCS.checkout head; + let rc = begin + prerr_endline (" classified as: " ^ string_of_vernac_classification c); + match c with + (* PG stuff *) + | VtStm(VtPG,false), VtNow -> vernac_interp Stateid.dummy x; `Ok + | VtStm(VtPG,_), _ -> anomaly(str "PG command in script or VtLater") + (* Joining various parts of the document *) + | VtStm (VtJoinDocument, b), VtNow -> warn_if_pos x b; join (); `Ok + | VtStm (VtFinish, b), VtNow -> warn_if_pos x b; finish (); `Ok + | VtStm (VtWait, b), VtNow -> warn_if_pos x b; finish (); wait (); `Ok + | VtStm (VtPrintDag, b), VtNow -> + warn_if_pos x b; VCS.print ~now:true (); `Ok + | VtStm (VtObserve id, b), VtNow -> warn_if_pos x b; observe id; `Ok + | VtStm ((VtObserve _ | VtFinish | VtJoinDocument + |VtPrintDag |VtWait),_), VtLater -> + anomaly(str"classifier: join actions cannot be classified as VtLater") + + (* Back *) + | VtStm (VtBack oid, true), w -> + let id = VCS.new_node ~id:newtip () in + let { mine; others } = Backtrack.branches_of oid in + List.iter (fun branch -> + if not (List.mem_assoc branch (mine::others)) then + ignore(merge_proof_branch x VtDrop branch)) + (VCS.branches ()); + VCS.checkout_shallowest_proof_branch (); + let head = VCS.current_branch () in + List.iter (fun b -> + if not(VCS.Branch.equal b head) then begin + VCS.checkout b; + VCS.commit (VCS.new_node ()) (Alias oid); + end) + (VCS.branches ()); + VCS.checkout_shallowest_proof_branch (); + VCS.commit id (Alias oid); + Backtrack.record (); if w == VtNow then finish (); `Ok + | VtStm (VtBack id, false), VtNow -> + prerr_endline ("undo to state " ^ Stateid.to_string id); + Backtrack.backto id; + VCS.checkout_shallowest_proof_branch (); + Reach.known_state ~cache:(interactive ()) id; `Ok + | VtStm (VtBack id, false), VtLater -> + anomaly(str"classifier: VtBack + VtLater must imply part_of_script") + + (* Query *) + | VtQuery (false,(report_id,route)), VtNow when tty = true -> + finish (); + (try Future.purify (vernac_interp report_id ~route) + { verbose = true; loc; expr } + with e when Errors.noncritical e -> + let e = Errors.push e in + iraise (State.exn_on report_id e)); `Ok + | VtQuery (false,(report_id,route)), VtNow -> + (try vernac_interp report_id ~route x + with e when Errors.noncritical e -> + let e = Errors.push e in + iraise (State.exn_on report_id e)); `Ok + | VtQuery (true,(report_id,_)), w -> + assert(Stateid.equal report_id Stateid.dummy); + let id = VCS.new_node ~id:newtip () in + let queue = + if !Flags.async_proofs_full then `QueryQueue (ref false) + else `MainQueue in + VCS.commit id (Cmd { cast = x; cids = []; cqueue = queue }); + Backtrack.record (); if w == VtNow then finish (); `Ok + | VtQuery (false,_), VtLater -> + anomaly(str"classifier: VtQuery + VtLater must imply part_of_script") + + (* Proof *) + | VtStartProof (mode, guarantee, names), w -> + let id = VCS.new_node ~id:newtip () in + let bname = VCS.mk_branch_name x in + VCS.checkout VCS.Branch.master; + if VCS.Branch.equal head VCS.Branch.master then begin + VCS.commit id (Fork (x, bname, guarantee, names)); + VCS.branch bname (`Proof (mode, VCS.proof_nesting () + 1)) + end else begin + VCS.branch bname (`Proof (mode, VCS.proof_nesting () + 1)); + VCS.merge id ~ours:(Fork (x, bname, guarantee, names)) head + end; + Proof_global.activate_proof_mode mode; + Backtrack.record (); if w == VtNow then finish (); `Ok + | VtProofMode _, VtLater -> + anomaly(str"VtProofMode must be executed VtNow") + | VtProofMode mode, VtNow -> + let id = VCS.new_node ~id:newtip () in + VCS.checkout VCS.Branch.master; + VCS.commit id (Cmd {cast = x; cids=[]; cqueue = `MainQueue}); + VCS.propagate_sideff (Some x); + List.iter + (fun bn -> match VCS.get_branch bn with + | { VCS.root; kind = `Master; pos } -> () + | { VCS.root; kind = `Proof(_,d); pos } -> + VCS.delete_branch bn; + VCS.branch ~root ~pos bn (`Proof(mode,d)) + | { VCS.root; kind = `Edit(_,f,q); pos } -> + VCS.delete_branch bn; + VCS.branch ~root ~pos bn (`Edit(mode,f,q))) + (VCS.branches ()); + VCS.checkout_shallowest_proof_branch (); + Backtrack.record (); + finish (); + `Ok + | VtProofStep paral, w -> + let id = VCS.new_node ~id:newtip () in + let queue = if paral then `TacQueue (ref false) else `MainQueue in + VCS.commit id (Cmd {cast = x; cids = []; cqueue = queue }); + Backtrack.record (); if w == VtNow then finish (); `Ok + | VtQed keep, w -> + let rc = merge_proof_branch ~id:newtip x keep head in + VCS.checkout_shallowest_proof_branch (); + Backtrack.record (); if w == VtNow then finish (); + rc + + (* Side effect on all branches *) + | VtUnknown, _ when expr = VernacToplevelControl Drop -> + vernac_interp (VCS.get_branch_pos head) x; `Ok + + | VtSideff l, w -> + let id = VCS.new_node ~id:newtip () in + VCS.checkout VCS.Branch.master; + VCS.commit id (Cmd { cast = x; cids = l; cqueue = `MainQueue}); + VCS.propagate_sideff (Some x); + VCS.checkout_shallowest_proof_branch (); + Backtrack.record (); if w == VtNow then finish (); `Ok + + (* Unknown: we execute it, check for open goals and propagate sideeff *) + | VtUnknown, VtNow -> + let id = VCS.new_node ~id:newtip () in + let head_id = VCS.get_branch_pos head in + Reach.known_state ~cache:`Yes head_id; (* ensure it is ok *) + let step () = + VCS.checkout VCS.Branch.master; + let mid = VCS.get_branch_pos VCS.Branch.master in + Reach.known_state ~cache:(interactive ()) mid; + vernac_interp id x; + (* Vernac x may or may not start a proof *) + if VCS.Branch.equal head VCS.Branch.master && + Proof_global.there_are_pending_proofs () + then begin + let bname = VCS.mk_branch_name x in + VCS.commit id (Fork (x,bname,Doesn'tGuaranteeOpacity,[])); + VCS.branch bname (`Proof ("Classic", VCS.proof_nesting () + 1)); + Proof_global.activate_proof_mode "Classic"; + end else begin + VCS.commit id (Cmd { cast = x; cids = []; cqueue = `MainQueue}); + VCS.propagate_sideff (Some x); + VCS.checkout_shallowest_proof_branch (); + end in + State.define ~safe_id:head_id ~cache:`Yes step id; + Backtrack.record (); `Ok + + | VtUnknown, VtLater -> + anomaly(str"classifier: VtUnknown must imply VtNow") + end in + (* Proof General *) + begin match v with + | VernacStm (PGLast _) -> + if not (VCS.Branch.equal head VCS.Branch.master) then + vernac_interp Stateid.dummy + { verbose = true; loc = Loc.ghost; + expr = VernacShow (ShowGoal OpenSubgoals) } + | _ -> () + end; + prerr_endline "processed }}}"; + VCS.print (); + rc + with e -> + let e = Errors.push e in + handle_failure e vcs tty + +let print_ast id = + try + match VCS.visit id with + | { step = `Cmd { cast = { loc; expr } } } + | { step = `Fork (({ loc; expr }, _, _, _), _) } + | { step = `Qed ({ qast = { loc; expr } }, _) } -> + let xml = + try Texmacspp.tmpp expr loc + with e -> Xml_datatype.PCData ("ERROR " ^ Printexc.to_string e) in + xml; + | _ -> Xml_datatype.PCData "ERROR" + with _ -> Xml_datatype.PCData "ERROR" + +let stop_worker n = Slaves.cancel_worker n + +let add ~ontop ?newtip ?(check=ignore) verb eid s = + let cur_tip = VCS.cur_tip () in + if Stateid.equal ontop cur_tip then begin + let _, ast as loc_ast = vernac_parse ?newtip eid s in + check(loc_ast); + let clas = classify_vernac ast in + match process_transaction ?newtip ~tty:false verb clas loc_ast with + | `Ok -> VCS.cur_tip (), `NewTip + | `Unfocus qed_id -> qed_id, `Unfocus (VCS.cur_tip ()) + end else begin + (* For now, arbitrary edits should be announced with edit_at *) + anomaly(str"Not yet implemented, the GUI should not try this") + end + +let set_perspective id_list = Slaves.set_perspective id_list + +type focus = { + start : Stateid.t; + stop : Stateid.t; + tip : Stateid.t +} + +let query ~at ?(report_with=(Stateid.dummy,Feedback.default_route)) s = + Future.purify (fun s -> + if Stateid.equal at Stateid.dummy then finish () + else Reach.known_state ~cache:`Yes at; + let newtip, route = report_with in + let _, ast as loc_ast = vernac_parse ~newtip ~route 0 s in + let clas = classify_vernac ast in + match clas with + | VtStm (w,_), _ -> + ignore(process_transaction + ~tty:false true (VtStm (w,false), VtNow) loc_ast) + | _ -> + ignore(process_transaction + ~tty:false true (VtQuery (false,report_with), VtNow) loc_ast)) + s + +let edit_at id = + if Stateid.equal id Stateid.dummy then anomaly(str"edit_at dummy") else + let vcs = VCS.backup () in + let on_cur_branch id = + let rec aux cur = + if id = cur then true + else match VCS.visit cur with + | { step = `Fork _ } -> false + | { next } -> aux next in + aux (VCS.get_branch_pos (VCS.current_branch ())) in + let is_ancestor_of_cur_branch id = + Vcs_.NodeSet.mem id + (VCS.reachable (VCS.get_branch_pos (VCS.current_branch ()))) in + let has_failed qed_id = + match VCS.visit qed_id with + | { step = `Qed ({ fproof = Some (fp,_) }, _) } -> Future.is_exn fp + | _ -> false in + let rec master_for_br root tip = + if Stateid.equal tip Stateid.initial then tip else + match VCS.visit tip with + | { next } when next = root -> root + | { step = `Fork _ } -> tip + | { step = `Sideff (`Ast(_,id)|`Id id) } -> id + | { next } -> master_for_br root next in + let reopen_branch start at_id mode qed_id tip = + let master_id, cancel_switch = + (* Hum, this should be the real start_id in the clusted and not next *) + match VCS.visit qed_id with + | { step = `Qed ({ fproof = Some (_,cs)},_) } -> start, cs + | _ -> anomaly (str "Cluster not ending with Qed") in + VCS.branch ~root:master_id ~pos:id + VCS.edit_branch (`Edit (mode, qed_id, master_id)); + VCS.delete_cluster_of id; + cancel_switch := true; + Reach.known_state ~cache:(interactive ()) id; + VCS.checkout_shallowest_proof_branch (); + `Focus { stop = qed_id; start = master_id; tip } in + let backto id = + List.iter VCS.delete_branch (VCS.branches ()); + let ancestors = VCS.reachable id in + let { mine = brname, brinfo; others } = Backtrack.branches_of id in + List.iter (fun (name,{ VCS.kind = k; root; pos }) -> + if not(VCS.Branch.equal name VCS.Branch.master) && + Vcs_.NodeSet.mem root ancestors then + VCS.branch ~root ~pos name k) + others; + VCS.reset_branch VCS.Branch.master (master_for_br brinfo.VCS.root id); + VCS.branch ~root:brinfo.VCS.root ~pos:brinfo.VCS.pos brname brinfo.VCS.kind; + VCS.delete_cluster_of id; + VCS.gc (); + Reach.known_state ~cache:(interactive ()) id; + VCS.checkout_shallowest_proof_branch (); + `NewTip in + try + let rc = + let focused = List.exists ((=) VCS.edit_branch) (VCS.branches ()) in + let branch_info = + match snd (VCS.get_info id).vcs_backup with + | Some{ mine = _, { VCS.kind = (`Proof(m,_)|`Edit(m,_,_)) }} -> Some m + | _ -> None in + match focused, VCS.cluster_of id, branch_info with + | _, Some _, None -> assert false + | false, Some (qed_id,start), Some mode -> + let tip = VCS.cur_tip () in + if has_failed qed_id && not !Flags.async_proofs_never_reopen_branch + then reopen_branch start id mode qed_id tip + else backto id + | true, Some (qed_id,_), Some mode -> + if on_cur_branch id then begin + assert false + end else if is_ancestor_of_cur_branch id then begin + backto id + end else begin + anomaly(str"Cannot leave an `Edit branch open") + end + | true, None, _ -> + if on_cur_branch id then begin + VCS.reset_branch (VCS.current_branch ()) id; + Reach.known_state ~cache:(interactive ()) id; + VCS.checkout_shallowest_proof_branch (); + `NewTip + end else if is_ancestor_of_cur_branch id then begin + backto id + end else begin + anomaly(str"Cannot leave an `Edit branch open") + end + | false, None, _ -> backto id + in + VCS.print (); + rc + with e -> + let (e, info) = Errors.push e in + match Stateid.get info with + | None -> + VCS.print (); + anomaly (str ("edit_at "^Stateid.to_string id^": ") ++ + Errors.print_no_report e) + | Some (_, id) -> + prerr_endline ("Failed at state " ^ Stateid.to_string id); + VCS.restore vcs; + VCS.print (); + iraise (e, info) + +(*********************** TTY API (PG, coqtop, coqc) ***************************) +(******************************************************************************) + +let interp verb (_,e as lexpr) = + let clas = classify_vernac e in + let rc = process_transaction ~tty:true verb clas lexpr in + if rc <> `Ok then anomaly(str"tty loop can't be mixed with the STM protocol"); + if interactive () = `Yes || + (!Flags.async_proofs_mode = Flags.APoff && + !Flags.compilation_mode = Flags.BuildVo) then + let vcs = VCS.backup () in + let print_goals = + verb && match clas with + | VtQuery _, _ -> false + | (VtProofStep _ | VtStm (VtBack _, _)), _ -> true + | _ -> not !Flags.coqtop_ui || !Flags.print_emacs in + try finish ~print_goals () + with e -> + let e = Errors.push e in + handle_failure e vcs true + +let finish () = finish () + +let get_current_state () = VCS.cur_tip () + +let current_proof_depth () = + let head = VCS.current_branch () in + match VCS.get_branch head with + | { VCS.kind = `Master } -> 0 + | { VCS.pos = cur; VCS.kind = (`Proof _ | `Edit _); VCS.root = root } -> + let rec distance root = + if Stateid.equal cur root then 0 + else 1 + distance (VCS.visit cur).next in + distance cur + +let unmangle n = + let n = VCS.Branch.to_string n in + let idx = String.index n '_' + 1 in + Names.id_of_string (String.sub n idx (String.length n - idx)) + +let proofname b = match VCS.get_branch b with + | { VCS.kind = (`Proof _| `Edit _) } -> Some b + | _ -> None + +let get_all_proof_names () = + List.map unmangle (List.map_filter proofname (VCS.branches ())) + +let get_current_proof_name () = + Option.map unmangle (proofname (VCS.current_branch ())) + +let get_script prf = + let branch, test = + match prf with + | None -> VCS.Branch.master, fun _ -> true + | Some name -> VCS.current_branch (), List.mem name in + let rec find acc id = + if Stateid.equal id Stateid.initial || + Stateid.equal id Stateid.dummy then acc else + let view = VCS.visit id in + match view.step with + | `Fork((_,_,_,ns), _) when test ns -> acc + | `Qed (qed, proof) -> find [qed.qast.expr, (VCS.get_info id).n_goals] proof + | `Sideff (`Ast (x,_)) -> + find ((x.expr, (VCS.get_info id).n_goals)::acc) view.next + | `Sideff (`Id id) -> find acc id + | `Cmd {cast = x} -> find ((x.expr, (VCS.get_info id).n_goals)::acc) view.next + | `Alias id -> find acc id + | `Fork _ -> find acc view.next + in + find [] (VCS.get_branch_pos branch) + +(* indentation code for Show Script, initially contributed + by D. de Rauglaudre *) + +let indent_script_item ((ng1,ngl1),nl,beginend,ppl) (cmd,ng) = + (* ng1 : number of goals remaining at the current level (before cmd) + ngl1 : stack of previous levels with their remaining goals + ng : number of goals after the execution of cmd + beginend : special indentation stack for { } *) + let ngprev = List.fold_left (+) ng1 ngl1 in + let new_ngl = + if ng > ngprev then + (* We've branched *) + (ng - ngprev + 1, ng1 - 1 :: ngl1) + else if ng < ngprev then + (* A subgoal have been solved. Let's compute the new current level + by discarding all levels with 0 remaining goals. *) + let rec loop = function + | (0, ng2::ngl2) -> loop (ng2,ngl2) + | p -> p + in loop (ng1-1, ngl1) + else + (* Standard case, same goal number as before *) + (ng1, ngl1) + in + (* When a subgoal have been solved, separate this block by an empty line *) + let new_nl = (ng < ngprev) + in + (* Indentation depth *) + let ind = List.length ngl1 + in + (* Some special handling of bullets and { }, to get a nicer display *) + let pred n = max 0 (n-1) in + let ind, nl, new_beginend = match cmd with + | VernacSubproof _ -> pred ind, nl, (pred ind)::beginend + | VernacEndSubproof -> List.hd beginend, false, List.tl beginend + | VernacBullet _ -> pred ind, nl, beginend + | _ -> ind, nl, beginend + in + let pp = + (if nl then fnl () else mt ()) ++ + (hov (ind+1) (str (String.make ind ' ') ++ Ppvernac.pr_vernac cmd)) + in + (new_ngl, new_nl, new_beginend, pp :: ppl) + +let show_script ?proof () = + try + let prf = + try match proof with + | None -> Some (Pfedit.get_current_proof_name ()) + | Some (p,_) -> Some (p.Proof_global.id) + with Proof_global.NoCurrentProof -> None + in + let cmds = get_script prf in + let _,_,_,indented_cmds = + List.fold_left indent_script_item ((1,[]),false,[],[]) cmds + in + let indented_cmds = List.rev (indented_cmds) in + msg_notice (v 0 (prlist_with_sep fnl (fun x -> x) indented_cmds)) + with Vcs_aux.Expired -> () + +(* Export hooks *) +let state_computed_hook = Hooks.state_computed_hook +let state_ready_hook = Hooks.state_ready_hook +let parse_error_hook = Hooks.parse_error_hook +let execution_error_hook = Hooks.execution_error_hook +let forward_feedback_hook = Hooks.forward_feedback_hook +let process_error_hook = Hooks.process_error_hook +let interp_hook = Hooks.interp_hook +let with_fail_hook = Hooks.with_fail_hook +let unreachable_state_hook = Hooks.unreachable_state_hook + +(* vim:set foldmethod=marker: *) -- cgit v1.2.3