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genxml.ml
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genxml.ml
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(*
The Haxe Compiler
Copyright (C) 2005-2015 Haxe Foundation
This program is free software; you can redistribute it and/or
modify it under the terms of the GNU General Public License
as published by the Free Software Foundation; either version 2
of the License, or (at your option) any later version.
This program 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 General Public License for more details.
You should have received a copy of the GNU General Public License
along with this program; if not, write to the Free Software
Foundation, Inc., 51 Franklin Street, Fifth Floor, Boston, MA 02110-1301, USA.
*)
open Ast
open Type
open Common
open ExtString
type xml =
| Node of string * (string * string) list * xml list
| PCData of string
| CData of string
let tag name = Node (name,[],[])
let xml name att = Node (name,att,[])
let node name att childs = Node (name,att,childs)
let pcdata s = PCData s
let cdata s = CData s
let pmap f m =
PMap.fold (fun x acc -> f x :: acc) m []
let gen_path (p,n) priv =
("path",String.concat "." (p @ [n]))
let gen_string s =
if String.contains s '<' || String.contains s '>' || String.contains s '&' then cdata s else pcdata s
let gen_doc s =
(* remove trailing space and convert newlines *)
let s = ExtString.String.strip s in
let s = String.concat "\n" (ExtString.String.nsplit (String.concat "\n" (ExtString.String.nsplit s "\r\n")) "\r") in
node "haxe_doc" [] [gen_string s]
let gen_doc_opt d =
match d with
| None -> []
| Some s -> [gen_doc s]
let gen_arg_name (name,opt,_) =
(if opt then "?" else "") ^ name
let real_path path meta =
let rec loop = function
| [] -> path
| (Meta.RealPath,[(Ast.EConst (Ast.String s),_)],_) :: _ -> parse_path s
| _ :: l -> loop l
in
loop meta
let tpath t =
let i = t_infos t in
real_path i.mt_path i.mt_meta
let rec follow_param t =
match t with
| TMono r ->
(match !r with
| Some t -> follow_param t
| _ -> t)
| TType ({ t_path = [],"Null" } as t,tl) ->
follow_param (apply_params t.t_params tl t.t_type)
| _ ->
t
let gen_meta meta =
let meta = List.filter (fun (m,_,_) -> match m with Meta.Used | Meta.MaybeUsed | Meta.RealPath -> false | _ -> true) meta in
match meta with
| [] -> []
| _ ->
let nodes = List.map (fun (m,el,_) ->
node "m" ["n",fst (MetaInfo.to_string m)] (List.map (fun e -> node "e" [] [gen_string (Ast.s_expr e)]) el)
) meta in
[node "meta" [] nodes]
let rec gen_type ?(values=None) t =
match t with
| TMono m -> (match !m with None -> tag "unknown" | Some t -> gen_type t)
| TEnum (e,params) -> gen_type_decl "e" (TEnumDecl e) params
| TInst (c,params) -> gen_type_decl "c" (TClassDecl c) params
| TAbstract (a,params) -> gen_type_decl "x" (TAbstractDecl a) params
| TType (t,params) -> gen_type_decl "t" (TTypeDecl t) params
| TFun (args,r) ->
let names = String.concat ":" (List.map gen_arg_name args) in
let values = match values with
| None -> []
| Some values ->
let has_value = ref false in
let values = List.map (fun (n,_,_) ->
try
let e = PMap.find n values in
has_value := true;
let s = Ast.s_expr e in
s
with Not_found ->
""
) args in
if !has_value then
["v",String.concat ":" values]
else
[]
in
let args = List.map (fun (_,opt,t) ->
if opt then follow_param t else t
) args in
node "f" (("a",names) :: values) (List.map gen_type (args @ [r]))
| TAnon a -> node "a" [] (pmap (fun f -> gen_field [] { f with cf_public = false }) a.a_fields)
| TDynamic t2 -> node "d" [] (if t == t2 then [] else [gen_type t2])
| TLazy f -> gen_type (!f())
and gen_type_decl n t pl =
let i = t_infos t in
node n [gen_path (tpath t) i.mt_private] (List.map gen_type pl)
and gen_field att f =
let add_get_set acc name att =
match acc with
| AccNormal | AccResolve | AccRequire _ -> att
| AccNo | AccNever -> (name, "null") :: att
| AccCall -> (name,"accessor") :: att
| AccInline -> (name,"inline") :: att
in
let att = (match f.cf_expr with None -> att | Some e -> ("line",string_of_int (Lexer.get_error_line e.epos)) :: att) in
let att,values = (match f.cf_kind with
| Var v ->
let att = try
begin match Meta.get Meta.Value f.cf_meta with
| (_,[e],_) -> ("expr",Ast.s_expr e) :: att
| _ -> att
end
with Not_found ->
att
in
add_get_set v.v_read "get" (add_get_set v.v_write "set" att),PMap.empty
| Method m ->
let att = match m with
| MethNormal | MethMacro -> ("set", "method") :: att
| MethDynamic -> ("set", "dynamic") :: att
| MethInline -> ("get", "inline") :: ("set","null") :: att
in
att,get_value_meta f.cf_meta
) in
let att = (match f.cf_params with [] -> att | l -> ("params", String.concat ":" (List.map (fun (n,_) -> n) l)) :: att) in
let overloads = match List.map (gen_field []) f.cf_overloads with
| [] -> []
| nl -> [node "overloads" [] nl]
in
let field_name cf =
try
begin match Meta.get Meta.RealPath cf.cf_meta with
| _,[EConst (String (s)),_],_ -> s
| _ -> raise Not_found
end;
with Not_found ->
cf.cf_name
in
node (field_name f) (if f.cf_public then ("public","1") :: att else att) (gen_type ~values:(Some values) f.cf_type :: gen_meta f.cf_meta @ gen_doc_opt f.cf_doc @ overloads)
let gen_constr e =
let doc = gen_doc_opt e.ef_doc in
let args, t = (match follow e.ef_type with
| TFun (args,_) ->
["a",String.concat ":" (List.map gen_arg_name args)] ,
List.map (fun (_,opt,t) -> gen_type (if opt then follow_param t else t)) args @ doc
| _ ->
[] , doc
) in
node e.ef_name args (t @ gen_meta e.ef_meta)
let gen_ordered_constr e =
let rec loop el = match el with
| n :: el ->
gen_constr (PMap.find n e.e_constrs) :: loop el
| [] ->
[]
in
loop e.e_names
let gen_type_params ipos priv path params pos m =
let mpriv = (if priv then [("private","1")] else []) in
let mpath = (if m.m_path <> path then [("module",snd (gen_path m.m_path false))] else []) in
let file = (if ipos && pos <> null_pos then [("file",pos.pfile)] else []) in
gen_path path priv :: ("params", String.concat ":" (List.map fst params)) :: (file @ mpriv @ mpath)
let gen_class_path name (c,pl) =
node name [("path",s_type_path (tpath (TClassDecl c)))] (List.map gen_type pl)
let rec exists f c =
PMap.exists f.cf_name c.cl_fields ||
match c.cl_super with
| None -> false
| Some (csup,_) -> exists f csup
let rec gen_type_decl com pos t =
let m = (t_infos t).mt_module in
match t with
| TClassDecl c ->
let stats = List.filter (fun cf ->
cf.cf_name <> "__meta__" && not (Meta.has Meta.GenericInstance cf.cf_meta)
) c.cl_ordered_statics in
let stats = List.map (gen_field ["static","1"]) stats in
let fields = List.filter (fun cf ->
not (Meta.has Meta.GenericInstance cf.cf_meta)
) c.cl_ordered_fields in
let fields = (match c.cl_super with
| None -> List.map (fun f -> f,[]) fields
| Some (csup,_) -> List.map (fun f -> if exists f csup then (f,["override","1"]) else (f,[])) fields
) in
let fields = List.map (fun (f,att) -> gen_field att f) fields in
let constr = (match c.cl_constructor with None -> [] | Some f -> [gen_field [] f]) in
let impl = List.map (gen_class_path (if c.cl_interface then "extends" else "implements")) c.cl_implements in
let tree = (match c.cl_super with
| None -> impl
| Some x -> gen_class_path "extends" x :: impl
) in
let doc = gen_doc_opt c.cl_doc in
let meta = gen_meta c.cl_meta in
let ext = (if c.cl_extern then [("extern","1")] else []) in
let interf = (if c.cl_interface then [("interface","1")] else []) in
let dynamic = (match c.cl_dynamic with
| None -> []
| Some t -> [node "haxe_dynamic" [] [gen_type t]]
) in
node "class" (gen_type_params pos c.cl_private (tpath t) c.cl_params c.cl_pos m @ ext @ interf) (tree @ stats @ fields @ constr @ doc @ meta @ dynamic)
| TEnumDecl e ->
let doc = gen_doc_opt e.e_doc in
let meta = gen_meta e.e_meta in
node "enum" (gen_type_params pos e.e_private (tpath t) e.e_params e.e_pos m) (gen_ordered_constr e @ doc @ meta)
| TTypeDecl t ->
let doc = gen_doc_opt t.t_doc in
let meta = gen_meta t.t_meta in
let tt = gen_type t.t_type in
node "typedef" (gen_type_params pos t.t_private t.t_path t.t_params t.t_pos m) (tt :: doc @ meta)
| TAbstractDecl a ->
let doc = gen_doc_opt a.a_doc in
let meta = gen_meta a.a_meta in
let mk_cast t = node "icast" [] [gen_type t] in
let mk_field_cast (t,cf) = node "icast" ["field",cf.cf_name] [gen_type t] in
let sub = (match a.a_from,a.a_from_field with [],[] -> [] | l1,l2 -> [node "from" [] ((List.map mk_cast l1) @ (List.map mk_field_cast l2))]) in
let super = (match a.a_to,a.a_to_field with [],[] -> [] | l1,l2 -> [node "to" [] ((List.map mk_cast l1) @ (List.map mk_field_cast l2))]) in
let impl = (match a.a_impl with None -> [] | Some c -> [node "impl" [] [gen_type_decl com pos (TClassDecl c)]]) in
let this = [node "this" [] [gen_type a.a_this]] in
node "abstract" (gen_type_params pos a.a_private (tpath t) a.a_params a.a_pos m) (sub @ this @ super @ doc @ meta @ impl)
let escape_entities s =
Xml.to_string (Xml.PCData s)
let att_str att =
String.concat "" (List.map (fun (a,v) -> Printf.sprintf " %s=\"%s\"" a (escape_entities v)) att)
let rec write_xml ch tabs x =
match x with
| Node (name,att,[]) ->
IO.printf ch "%s<%s%s/>" tabs name (att_str att)
| Node (name,att,[x]) ->
IO.printf ch "%s<%s%s>" tabs name (att_str att);
write_xml ch "" x;
IO.printf ch "</%s>" name;
| Node (name,att,childs) ->
IO.printf ch "%s<%s%s>\n" tabs name (att_str att);
List.iter (fun x ->
write_xml ch (tabs ^ "\t") x;
IO.printf ch "\n";
) childs;
IO.printf ch "%s</%s>" tabs name
| PCData s ->
IO.printf ch "%s" s
| CData s ->
IO.printf ch "<![CDATA[%s]]>" s
let generate com file =
let t = Common.timer "construct xml" in
let x = node "haxe" [] (List.map (gen_type_decl com true) (List.filter (fun t -> not (Meta.has Meta.NoDoc (t_infos t).mt_meta)) com.types)) in
t();
let t = Common.timer "write xml" in
let ch = IO.output_channel (open_out_bin file) in
write_xml ch "" x;
IO.close_out ch;
t()
let gen_type_string ctx t =
let x = gen_type_decl ctx false t in
let ch = IO.output_string() in
write_xml ch "" x;
IO.close_out ch
(* -------------------------------------------------------------------------- *)
(* PRINT HX FROM TYPE *)
let rec create_dir acc = function
| [] -> ()
| d :: l ->
let path = acc ^ "/" ^ d in
(try Unix.mkdir path 0o777 with _ -> ());
create_dir path l
let conv_path p =
match List.rev (fst p) with
| x :: l when x.[0] = '_' -> List.rev (("priv" ^ x) :: l), snd p
| _ -> p
let get_real_path meta path =
try
let real_path = match Meta.get Meta.RealPath meta with
| (_,[(EConst(String s),_)],_) ->
s
| _ -> raise Not_found
in
match List.rev (String.nsplit real_path ".") with
| name :: pack ->
(List.rev pack), name
| _ -> raise Not_found
with | Not_found ->
path
let generate_type com t =
let base_path = "hxclasses" in
let pack, name =
let info = t_infos t in
get_real_path info.mt_meta info.mt_path
in
create_dir "." (base_path :: pack);
match pack, name with
| ["flash";"net"], "NetStreamPlayTransitions"
| ["flash";"filters"], "BitmapFilterQuality"
| ["flash";"display"], ("BitmapDataChannel" | "GraphicsPathCommand") -> ()
| _ ->
let f = open_out_bin (base_path ^ "/" ^ (match pack with [] -> "" | l -> String.concat "/" l ^ "/") ^ name ^ ".hx") in
let ch = IO.output_channel f in
let p fmt = IO.printf ch fmt in
if pack <> [] then IO.printf ch "package %s;\n\n" (String.concat "." pack);
let rec notnull t =
match t with
| TMono r ->
(match !r with
| None -> t
| Some t -> notnull t)
| TLazy f ->
notnull ((!f)())
| TType ({ t_path = [],"Null" },[t]) ->
t
| _ ->
t
in
let rec path meta p tl =
let p = conv_path (get_real_path meta p) in
(if fst p = pack then snd p else s_type_path p) ^ (match tl with [] -> "" | _ -> "<" ^ String.concat "," (List.map stype tl) ^ ">")
and stype t =
match t with
| TMono r ->
(match !r with
| None -> "Unknown"
| Some t -> stype t)
| TInst ({ cl_kind = KTypeParameter _ } as c,tl) ->
path [] ([],snd c.cl_path) tl
| TInst (c,tl) ->
path c.cl_meta c.cl_path tl
| TEnum (e,tl) ->
path e.e_meta e.e_path tl
| TType (t,tl) ->
path t.t_meta t.t_path tl
| TAbstract (a,tl) ->
path a.a_meta a.a_path tl
| TAnon a ->
let fields = PMap.fold (fun f acc -> (f.cf_name ^ " : " ^ stype f.cf_type) :: acc) a.a_fields [] in
"{" ^ String.concat ", " fields ^ "}"
| TLazy f ->
stype ((!f)())
| TDynamic t2 ->
if t == t2 then "Dynamic" else "Dynamic<" ^ stype t2 ^ ">"
| TFun ([],ret) ->
"Void -> " ^ ftype ret
| TFun (args,ret) ->
String.concat " -> " (List.map (fun (_,_,t) -> ftype t) args) ^ " -> " ^ ftype ret
and ftype t =
match t with
| TMono r ->
(match !r with
| None -> stype t
| Some t -> ftype t)
| TLazy f ->
ftype ((!f)())
| TFun _ ->
"(" ^ stype t ^ ")"
| _ ->
stype t
in
let sparam (n,v,t) =
match v with
| None ->
n ^ " : " ^ stype t
| Some (Ident "null") ->
if is_nullable (notnull t) then
"?" ^ n ^ " : " ^ stype (notnull t)
else
(* we have not found a default value stored in metadata, let's generate it *)
n ^ " : " ^ stype t ^ " = " ^ (match follow t with
| TAbstract ({ a_path = [],("Int"|"Float"|"UInt") },_) -> "0"
| TAbstract ({ a_path = [],"Bool" },_) -> "false"
| _ -> "null")
| Some v ->
n ^ " : " ^ stype t ^ " = " ^ (match s_constant v with "nan" -> "0./*NaN*/" | v -> v)
in
let print_meta ml =
List.iter (fun (m,pl,_) ->
match m with
| Meta.DefParam | Meta.CoreApi | Meta.Used | Meta.MaybeUsed | Meta.FlatEnum | Meta.Value | Meta.DirectlyUsed -> ()
| _ ->
match pl with
| [] -> p "@%s " (fst (MetaInfo.to_string m))
| l -> p "@%s(%s) " (fst (MetaInfo.to_string m)) (String.concat "," (List.map Ast.s_expr pl))
) ml
in
let access is_read a =
match a, pack with
| AccNever, "flash" :: _ -> "null"
| _ -> s_access is_read a
in
let rec print_field stat f =
p "\t";
print_meta f.cf_meta;
if stat then p "static ";
let name = try (match Meta.get Meta.RealPath f.cf_meta with
| (Meta.RealPath, [EConst( String s ), _], _) ->
s
| _ ->
raise Not_found)
with Not_found ->
f.cf_name
in
(match f.cf_kind with
| Var v ->
p "var %s" name;
if v.v_read <> AccNormal || v.v_write <> AccNormal then p "(%s,%s)" (access true v.v_read) (access false v.v_write);
p " : %s" (stype f.cf_type);
| Method m ->
let params, ret = (match follow f.cf_type with
| TFun (args,ret) ->
List.map (fun (a,o,t) ->
let rec loop = function
| [] -> Ident "null"
| (Meta.DefParam,[(EConst (String p),_);(EConst v,_)],_) :: _ when p = a ->
(match v with
| Float "1.#QNAN" -> Float "0./*NaN*/"
| Float "4294967295." -> Int "0xFFFFFFFF"
| Int "16777215" -> Int "0xFFFFFF"
| Float x ->
(try
let f = float_of_string x in
let s = string_of_int (int_of_float f) in
if s ^ "." = x then Int s else v
with _ ->
v)
| _ -> v)
| _ :: l -> loop l
in
a,(if o then Some (loop f.cf_meta) else None ),t
) args, ret
| _ ->
assert false
) in
let tparams = (match f.cf_params with [] -> "" | l -> "<" ^ String.concat "," (List.map fst l) ^ ">") in
p "function %s%s(%s) : %s" name tparams (String.concat ", " (List.map sparam params)) (stype ret);
);
p ";\n";
if Meta.has Meta.Overload f.cf_meta then List.iter (fun f -> print_field stat f) f.cf_overloads
in
(match t with
| TClassDecl c ->
print_meta c.cl_meta;
p "extern %s %s" (if c.cl_interface then "interface" else "class") (stype (TInst (c,List.map snd c.cl_params)));
let ext = (match c.cl_super with
| None -> []
| Some (c,pl) -> [" extends " ^ stype (TInst (c,pl))]
) in
let ext = List.fold_left (fun acc (i,pl) -> ((if c.cl_interface then " extends " else " implements ") ^ stype (TInst (i,pl))) :: acc) ext c.cl_implements in
let ext = (match c.cl_dynamic with
| None -> ext
| Some t ->
(match c.cl_path with
| ["flash";"errors"], _ -> ext
| _ when t == t_dynamic -> " implements Dynamic" :: ext
| _ -> (" implements Dynamic<" ^ stype t ^ ">") :: ext)
) in
let ext = (match c.cl_path with
| ["flash";"utils"], "ByteArray" -> " implements ArrayAccess<Int>" :: ext
| ["flash";"utils"], "Dictionnary" -> [" implements ArrayAccess<Dynamic>"]
| ["flash";"xml"], "XML" -> [" implements Dynamic<XMLList>"]
| ["flash";"xml"], "XMLList" -> [" implements ArrayAccess<XML>"]
| ["flash";"display"],"MovieClip" -> [" extends Sprite #if !flash_strict implements Dynamic #end"]
| ["flash";"errors"], "Error" -> [" #if !flash_strict implements Dynamic #end"]
| _ -> ext
) in
p "%s" (String.concat "" (List.rev ext));
p " {\n";
let sort l =
let a = Array.of_list (List.filter (fun f -> f.cf_public && not (List.memq f c.cl_overrides)) l) in
let name = function "new" -> "" | n -> n in
Array.sort (fun f1 f2 ->
match f1.cf_kind, f2.cf_kind with
| Var _, Var _ | Method _ , Method _ -> compare (name f1.cf_name) (name f2.cf_name)
| Var _, _ -> -1
| _ -> 1
) a;
Array.to_list a
in
List.iter (print_field false) (sort (match c.cl_constructor with None -> c.cl_ordered_fields | Some f -> f :: c.cl_ordered_fields));
List.iter (print_field true) (sort c.cl_ordered_statics);
p "}\n";
| TEnumDecl e ->
print_meta e.e_meta;
p "extern enum %s {\n" (stype (TEnum(e,List.map snd e.e_params)));
let sort l =
let a = Array.of_list l in
Array.sort compare a;
Array.to_list a
in
List.iter (fun n ->
let c = PMap.find n e.e_constrs in
p "\t%s" c.ef_name;
(match follow c.ef_type with
| TFun (args,_) -> p "(%s)" (String.concat ", " (List.map sparam (List.map (fun (a,o,t) -> a,(if o then Some (Ident "null") else None),t) args)))
| _ -> ());
p ";\n";
) (if Meta.has Meta.FakeEnum e.e_meta then sort e.e_names else e.e_names);
p "}\n"
| TTypeDecl t ->
print_meta t.t_meta;
p "typedef %s = " (stype (TType (t,List.map snd t.t_params)));
p "%s" (stype t.t_type);
p "\n";
| TAbstractDecl a ->
print_meta a.a_meta;
p "abstract %s {}" (stype (TAbstract (a,List.map snd a.a_params)));
);
IO.close_out ch
let generate_hx com =
List.iter (generate_type com) com.types