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pass_GenerateServerAst.ml
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pass_GenerateServerAst.ml
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(*
Copyright © 2011 MLstate
This file is part of OPA.
OPA is free software: you can redistribute it and/or modify it under the
terms of the GNU Affero General Public License, version 3, as published by
the Free Software Foundation.
OPA is distributed in the hope that it will be useful, but WITHOUT ANY
WARRANTY; without even the implied warranty of MERCHANTABILITY or FITNESS
FOR A PARTICULAR PURPOSE. See the GNU Affero General Public License for
more details.
You should have received a copy of the GNU Affero General Public License
along with OPA. If not, see <http://www.gnu.org/licenses/>.
*)
module Q = QmlAst
module List = BaseList
module Format = BaseFormat
type env = IdentSet.t
type runtime_type_key = string
type runtime_rpc_key = string
type runtime_ident = string
type runtime_code_elt = {
ident : runtime_ident option;
client_equivalent : runtime_ident option;
defines : [ `rpc of runtime_rpc_key | `type_ of runtime_type_key | `nothing ];
ident_deps : runtime_ident list;
rpc_deps: runtime_rpc_key list;
type_deps : runtime_type_key list;
root : bool;
}
type runtime_code = runtime_code_elt list
module S =
struct
type t = env
let pass = "pass_GenerateServerAst"
let pp _ _ = ()
end
module R =
struct
include ObjectFiles.Make(S)
let load () =
let env = IdentSet.empty in
(* can't be a safe union because of fakesources *)
fold IdentSet.union env
let save ~loaded_env ~env =
let small_env = IdentSet.diff env loaded_env in
save small_env
end
let pp_ident_field f = function
| None -> Format.fprintf f "None"
| Some i -> Format.fprintf f "Some %s" i
let pp_defines f = function
| `nothing -> Format.fprintf f "`nothing"
| `rpc s -> Format.fprintf f "`rpc %s" s
| `type_ s -> Format.fprintf f "`type_ %s" s
let pp_ident_deps =
Format.pp_list ",@ " Format.pp_print_string
let pp_rpc_deps = pp_ident_deps
let pp_type_deps = pp_ident_deps
let pp_root = Format.pp_print_bool
let pp_code_elt f {ident; client_equivalent; defines; ident_deps; rpc_deps; type_deps; root} =
Format.fprintf f
"@[@[<v2>{@\n@[<2>ident: %a@]@\n[<2>client_equivalent: %a@]@\n@[<2>defines: %a@]@\n@[<2>ident_deps: %a@]@\n@[<2>type_deps: %a@]@\n@[<2>rpc_deps: %a@]@\n@[<2>root: %a@]@]@\n}@]"
pp_ident_field ident
pp_ident_field client_equivalent
pp_defines defines
pp_ident_deps ident_deps
pp_type_deps type_deps
pp_rpc_deps rpc_deps
pp_root root
let pp_code =
Format.pp_list "@\n" pp_code_elt
let is_root e =
QmlAstWalk.Expr.traverse_exists
(fun tra -> function
| Q.Lambda _ -> false
| Q.Apply _ -> true
| e -> tra e) e
type acc = {
mutable acc_rpc_deps : runtime_rpc_key list;
mutable acc_type_deps : runtime_type_key list;
mutable acc_rpc_def : runtime_rpc_key list;
mutable acc_type_def : runtime_type_key list;
mutable acc_ident_deps : IdentSet.t;
mutable acc_rec_ident_deps : IdentSet.t;
mutable acc_fun_action_deps : runtime_ident list;
}
let useless = function
| {acc_rpc_deps = [];
acc_type_deps = [];
acc_rpc_def = [];
acc_type_def = [];
acc_ident_deps = x;
acc_rec_ident_deps = _;
acc_fun_action_deps = []} when IdentSet.is_empty x -> true
| _ -> false
let useful acc = not (useless acc)
let process_toplevel_binding env rec_idents e =
let acc = {
acc_rpc_deps = [];
acc_type_deps = [];
acc_rpc_def = [];
acc_type_def = [];
acc_ident_deps = IdentSet.empty;
acc_rec_ident_deps = IdentSet.empty;
acc_fun_action_deps = [];
} in
let e =
QmlAstWalk.Expr.map
(fun e ->
match e with
| Q.Ident (_, i) ->
if IdentSet.mem i env then
(* dependencies only on toplevel useful idents (env)
* or rec_idents, because for recursive bindings, this is tricky *)
acc.acc_ident_deps <- IdentSet.add i acc.acc_ident_deps
else if IdentSet.mem i rec_idents then
acc.acc_rec_ident_deps <- IdentSet.add i acc.acc_rec_ident_deps;
e
| Q.Directive (label, `tagged_string (s, kind), _, _) ->
(match kind with
| Q.Type_def -> acc.acc_type_def <- s :: acc.acc_type_def
| Q.Type_use -> acc.acc_type_deps <- s :: acc.acc_type_deps
| Q.Rpc_def -> acc.acc_rpc_def <- s :: acc.acc_rpc_def
| Q.Rpc_use -> acc.acc_rpc_deps <- s :: acc.acc_rpc_deps
| Q.Client_closure_use -> acc.acc_fun_action_deps <- s :: acc.acc_fun_action_deps);
Q.Const (label, Q.String s)
| _ -> e
) e in
acc, e
let process_code_elt (rev_qml,code,env) = function
| Q.NewVal (label, iel)
| Q.NewValRec (label, iel) as code_elt ->
let idents = List.fold_left (fun acc (i,_) -> IdentSet.add i acc) IdentSet.empty iel in
let ieal =
List.map
(fun (i,e) ->
let acc, e = process_toplevel_binding env idents e in
(i, e, acc)
) iel in
let rev_qml =
let l = List.map (fun (i,e,_) -> (i,e)) ieal in
let code_elt =
match code_elt with
| Q.NewVal _ -> Q.NewVal (label, l)
| Q.NewValRec _ -> Q.NewValRec (label, l)
| _ -> assert false in
code_elt :: rev_qml in
if List.exists (fun (_, _, acc) -> useful acc) ieal then
let env = IdentSet.union env idents in
let code = List.rev_append ieal code in
(rev_qml, code, env)
else
(rev_qml, code, env)
| _ ->
assert false
let process_code acc code =
List.fold_left process_code_elt acc code
let ident_to_string = Ident.to_string
(* don't care about that serialization fonction, i think *)
let runtime_code_of_accs ~server_renaming ~client_renaming accs =
List.map
(fun (i,e,acc) ->
let {
acc_rpc_deps;
acc_type_deps;
acc_rpc_def;
acc_type_def;
acc_ident_deps;
acc_rec_ident_deps;
acc_fun_action_deps
} = acc in
let defines =
(match acc_rpc_def, acc_type_def with
| [], [] -> `nothing
| [s], [] -> `rpc s
| [], [s] -> `type_ s
| _ ->
Printf.printf "ident: %s, rpc:%d, type:%d\n%!"
(Ident.to_string i)
(List.length acc_rpc_def) (List.length acc_type_def);
assert false
) in {
ident = Some (ident_to_string i);
client_equivalent =
(try
let i = QmlRenamingMap.new_from_original client_renaming (QmlRenamingMap.original_from_new server_renaming i) in
let s = JsPrint.string_of_ident (JsAst.ExprIdent i) in
Some s
with Not_found -> None);
defines = defines;
ident_deps = acc_fun_action_deps @ List.map ident_to_string (IdentSet.elements (IdentSet.union acc_ident_deps acc_rec_ident_deps));
rpc_deps = acc_rpc_deps;
type_deps = acc_type_deps;
root = (defines = `nothing && acc_fun_action_deps = [] && is_root e)
}
) accs
let ser_int b i =
(* we need to make sure that the length of an integer is fixed (or predictable at least) *)
(* big bytes first *)
for j = 64 / 8 - 1 downto 0 do
Buffer.add_char b (Char.chr ((i lsr (j*8)) mod 256));
done
let ser_string b s =
ser_int b (String.length s);
Buffer.add_string b s
let ser_option ser_a b = function
| None -> Buffer.add_char b '\000'
| Some a -> Buffer.add_char b '\001'; ser_a b a
let ser_list ser_a b l =
ser_int b (List.length l);
List.iter (fun a -> ser_a b a) l
let ser_bool b bool =
Buffer.add_char b (if bool then '\001' else '\000')
let ser_rpc b s =
(* same escaping as in qmljs_serializer! *)
ser_string b (JsPrint.escape_string s)
let ser_type b s =
(* same escaping as in qmljs_serializer! *)
ser_string b (JsPrint.escape_string s)
let ser_defines b = function
| `nothing -> Buffer.add_char b '\000'
| `rpc s -> Buffer.add_char b '\001'; ser_rpc b s
| `type_ s -> Buffer.add_char b '\002'; ser_type b s
let ser_ident b o =
ser_option ser_string b o
let ser_ident_deps b l =
ser_list ser_string b l
let ser_rpc_deps b l =
ser_list ser_rpc b l
let ser_type_deps b l =
ser_list ser_type b l
let ser_root = ser_bool
let ser_code_elt b {ident; client_equivalent; defines; ident_deps; rpc_deps; type_deps; root} =
(* alphabetic order of fields *)
ser_ident b client_equivalent;
ser_defines b defines;
ser_ident b ident;
ser_ident_deps b ident_deps;
ser_root b root;
ser_rpc_deps b rpc_deps;
ser_type_deps b type_deps
let ser_code b code =
ser_list ser_code_elt b code
let generate_register ~gamma ~stdlib_gamma ~annotmap ~val_ ~server_code =
let ident = val_ Opacapi.Core_server_code.register_server_code in
let tsc = QmlTypes.Env.Ident.find ident stdlib_gamma in
let ty = QmlTypes.Scheme.instantiate tsc in
let annotmap, fun_ = QmlAstCons.TypedExpr.ident annotmap ident ty in
let annotmap, string = QmlAstCons.TypedExpr.string annotmap server_code in
let annotmap, package = QmlAstCons.TypedExpr.string annotmap (ObjectFiles.get_current_package_name ()) in
let annotmap, arg = QmlAstCons.TypedExpr.record annotmap ["adhoc", string; "package_", package] in
let annotmap, app = QmlAstCons.TypedExpr.apply gamma annotmap fun_ [arg] in
let dummy_ident = Ident.next "server_ast" in
let tyvoid = Q.TypeRecord (Q.TyRow ([], None)) in
let tsc_void = QmlTypes.Scheme.quantify tyvoid in
let gamma = QmlTypes.Env.Ident.add dummy_ident tsc_void gamma in
IdentSet.singleton ident, gamma, annotmap, Q.NewVal (Annot.nolabel "pass_GenerateServerAst", [dummy_ident, app])
let _outputer oc ast =
let fmt = Format.formatter_of_out_channel oc in
Format.fprintf fmt "%a%!" pp_code ast
let process ~annotmap ~stdlib_gamma ~gamma ~val_ ~generate ~server_renaming ~client_renaming ~code =
match ObjectFiles.compilation_mode () with
| `init -> gamma, annotmap, code
| `prelude | `linking | `compilation ->
let loaded_env = R.load () in
let (rev_qml, acc, env) = process_code ([], [], loaded_env) code in
R.save ~loaded_env ~env;
let qml = List.rev rev_qml in
if generate &&
(try ignore (val_ Opacapi.Core_server_code.register_server_code); true
with Not_found -> false) then (
let rc = runtime_code_of_accs ~server_renaming ~client_renaming acc in
#<If:SERVER_SERIALIZE>
ignore (PassTracker.file ~filename:"serverast" _outputer rc);
#<End>;
let b = Buffer.create 1000 in
ser_code b rc;
let string = Buffer.contents b in
#<If:SERVER_SERIALIZE$contains "overhead">
Printf.printf "length: %d\n%!" (String.length string);
let r = ref 0 in
for i = 0 to String.length string - 1 do
if string.[i] < '\005' then incr r
done;
Printf.printf "overhead: %d, %.2f%%\n%!" !r (100. *. float !r /. float (String.length string))
#<End>;
let deps, gamma, annotmap, code_elt = generate_register ~gamma ~stdlib_gamma ~annotmap ~val_ ~server_code:string in
(* for the first package, we need to insert the code_elt at the end :/ *)
gamma, annotmap, QmlAstUtils.Code.insert ~deps ~insert:[code_elt] qml
) else
gamma, annotmap, qml
(* FIXME:
the computation of roots could be finer:
f(x)(y) = ...
a = f(1) // a is considered as being a root
*)