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genneko.ml
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genneko.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 Nast
open Common
type context = {
version : int;
com : Common.context;
packages : (string list, unit) Hashtbl.t;
globals : (string list * string, string) Hashtbl.t;
mutable curglobal : int;
mutable macros : bool;
mutable curclass : string;
mutable curmethod : string;
mutable inits : (tclass * texpr) list;
mutable label_count : int;
}
let files = Hashtbl.create 0
let pos ctx p =
if ctx.macros then
{
psource = p.pfile;
pline = p.pmin lor ((p.pmax - p.pmin) lsl 20);
}
else let file = (match ctx.com.debug with
| true -> ctx.curclass ^ "::" ^ ctx.curmethod
| false ->
try
Hashtbl.find files p.pfile
with Not_found ->
let path = (match Common.defined ctx.com Common.Define.AbsolutePath with
| true -> if (Filename.is_relative p.pfile)
then Filename.concat (Sys.getcwd()) p.pfile
else p.pfile
| false -> try
(* lookup relative path *)
let len = String.length p.pfile in
let base = List.find (fun path ->
let l = String.length path in
len > l && String.sub p.pfile 0 l = path
) ctx.com.Common.class_path in
let l = String.length base in
String.sub p.pfile l (len - l)
with Not_found -> p.pfile
) in
Hashtbl.add files p.pfile path;
path
) in
{
psource = file;
pline = Lexer.get_error_line p;
}
let gen_global_name ctx path =
match path with
| [], name -> name
| _ ->
try
Hashtbl.find ctx.globals path
with Not_found ->
let name = "@G" ^ string_of_int ctx.curglobal in
ctx.curglobal <- ctx.curglobal + 1;
Hashtbl.add ctx.globals path name;
name
let null p =
(EConst Null,p)
let this p =
(EConst This,p)
let int p n =
(EConst (Int n),p)
let str p s =
(EConst (String s),p)
let ident p s =
let l = String.length s in
if l > 10 && String.sub s 0 10 = "__dollar__" then
(EConst (Builtin (String.sub s 10 (l - 10))),p)
else
(EConst (Ident s),p)
let field p e f =
(EField (e,f),p)
let builtin p n =
(EConst (Builtin n),p)
let call p e el =
(ECall (e,el),p)
let array p el =
call p (builtin p "array") el
let pmap_list f p =
PMap.fold (fun v acc -> f v :: acc) p []
let rec needs_return e =
match e with
| (EBlock l,_) ->
let rec loop = function
| [] -> true
| [x] -> needs_return x
| _ :: l -> loop l
in
loop l
| (EReturn _,_) ->
false
| _ ->
true
let with_return e =
if needs_return e then
let p = snd e in
let ret = EReturn (Some (null p)),p in
match e with
| (EBlock l,_) ->
(EBlock (l @ [ret]),p)
| _ ->
(EBlock [e;ret] , p)
else
e
let gen_type_path p (path,t) =
match path with
| [] ->
ident p t
| path :: l ->
let epath = List.fold_left (fun e path -> field p e path) (ident p path) l in
field p epath t
let rec gen_big_string ctx p s =
let max = 1 lsl 16 - 1 in
if String.length s > max then
(EBinop ("+",str p (String.sub s 0 max),gen_big_string ctx p (String.sub s max (String.length s - max))),p)
else
str p s
let gen_constant ctx pe c =
let p = pos ctx pe in
match c with
| TInt i ->
(try
let h = Int32.to_int (Int32.shift_right_logical i 24) in
if (h land 128 = 0) <> (h land 64 = 0) then raise Exit;
int p (Int32.to_int i)
with _ ->
if ctx.version < 2 then error "This integer is too big to be compiled to a Neko 31-bit integer. Please use a Float instead" pe;
(EConst (Int32 i),p))
| TFloat f -> (EConst (Float f),p)
| TString s -> call p (field p (ident p "String") "new") [gen_big_string ctx p s]
| TBool b -> (EConst (if b then True else False),p)
| TNull -> null p
| TThis -> this p
| TSuper -> assert false
let rec gen_binop ctx p op e1 e2 =
(EBinop (Ast.s_binop op,gen_expr ctx e1,gen_expr ctx e2),p)
and gen_unop ctx p op flag e =
match op with
| Increment -> (EBinop ((if flag = Prefix then "+=" else "++="), gen_expr ctx e , int p 1),p)
| Decrement -> (EBinop ((if flag = Prefix then "-=" else "--="), gen_expr ctx e , int p 1),p)
| Not -> call p (builtin p "not") [gen_expr ctx e]
| Neg -> (EBinop ("-",int p 0, gen_expr ctx e),p)
| NegBits -> (EBinop ("-",int p (-1), gen_expr ctx e),p)
and gen_call ctx p e el =
match e.eexpr , el with
| TConst TSuper , _ ->
let c = (match follow e.etype with TInst (c,_) -> c | _ -> assert false) in
call p (builtin p "call") [
field p (gen_type_path p c.cl_path) "__construct__";
this p;
array p (List.map (gen_expr ctx) el)
]
| TLocal { v_name = "__resources__" }, [] ->
call p (builtin p "array") (Hashtbl.fold (fun name data acc ->
(EObject [("name",gen_constant ctx e.epos (TString name));("data",gen_big_string ctx p data)],p) :: acc
) ctx.com.resources [])
| TField ({ eexpr = TConst TSuper; etype = t },f) , _ ->
let c = (match follow t with TInst (c,_) -> c | _ -> assert false) in
call p (builtin p "call") [
field p (gen_type_path p (fst c.cl_path,"@" ^ snd c.cl_path)) (field_name f);
this p;
array p (List.map (gen_expr ctx) el)
]
| _ , _ ->
let e = (match gen_expr ctx e with EFunction _, _ as e -> (EBlock [e],p) | e -> e) in
call p e (List.map (gen_expr ctx) el)
and gen_expr ctx e =
let p = pos ctx e.epos in
match e.eexpr with
| TConst c ->
gen_constant ctx e.epos c
| TLocal v when v.v_name.[0] = '$' ->
(EConst (Builtin (String.sub v.v_name 1 (String.length v.v_name - 1))),p)
| TLocal v ->
if v.v_capture then
(EArray (ident p v.v_name,int p 0),p)
else
ident p v.v_name
| TArray (e1,e2) ->
(EArray (gen_expr ctx e1,gen_expr ctx e2),p)
| TBinop (OpAssign,{ eexpr = TField (e1,f) },e2) ->
(EBinop ("=",field p (gen_expr ctx e1) (field_name f),gen_expr ctx e2),p)
| TBinop (op,e1,e2) ->
gen_binop ctx p op e1 e2
| TField (e2,FClosure (_,f)) ->
(match follow e.etype with
| TFun (args,_) ->
let n = List.length args in
if n > 5 then error "Cannot create closure with more than 5 arguments" e.epos;
let tmp = ident p "@tmp" in
EBlock [
(EVars ["@tmp", Some (gen_expr ctx e2); "@fun", Some (field p tmp f.cf_name)] , p);
if ctx.macros then
call p (builtin p "closure") [ident p "@fun";tmp]
else
call p (ident p ("@closure" ^ string_of_int n)) [tmp;ident p "@fun"]
] , p
| _ -> assert false)
| TEnumParameter (e,_,i) ->
EArray (field p (gen_expr ctx e) "args",int p i),p
| TField (e,f) ->
field p (gen_expr ctx e) (field_name f)
| TTypeExpr t ->
gen_type_path p (t_path t)
| TParenthesis e ->
(EParenthesis (gen_expr ctx e),p)
| TMeta (_,e) ->
gen_expr ctx e
| TObjectDecl fl ->
let hasToString = ref false in
let fl = List.map (fun (f,e) -> if f = "toString" then hasToString := (match follow e.etype with TFun ([],_) -> true | _ -> false); f , gen_expr ctx e) fl in
(EObject (if !hasToString then ("__string",ident p "@default__string") :: fl else fl),p)
| TArrayDecl el ->
call p (field p (ident p "Array") "new1") [array p (List.map (gen_expr ctx) el); int p (List.length el)]
| TCall (e,el) ->
gen_call ctx p e el
| TNew (c,_,params) ->
call p (field p (gen_type_path p c.cl_path) "new") (List.map (gen_expr ctx) params)
| TUnop (op,flag,e) ->
gen_unop ctx p op flag e
| TVar (v,eo) ->
(EVars (
let e = (match eo with
| None ->
if v.v_capture then
Some (call p (builtin p "array") [null p])
else
None
| Some e ->
let e = gen_expr ctx e in
if v.v_capture then
Some (call p (builtin p "array") [e])
else
Some e
) in
[v.v_name, e]
),p)
| TFunction f ->
let inits = List.fold_left (fun acc (a,c) ->
let acc = if a.v_capture then
(EBinop ("=",ident p a.v_name,call p (builtin p "array") [ident p a.v_name]),p) :: acc
else
acc
in
match c with
| None | Some TNull -> acc
| Some c -> gen_expr ctx (Codegen.set_default ctx.com a c e.epos) :: acc
) [] f.tf_args in
let e = gen_expr ctx f.tf_expr in
let e = (match inits with [] -> e | _ -> EBlock (List.rev (e :: inits)),p) in
(EFunction (List.map arg_name f.tf_args, with_return e),p)
| TBlock el ->
(EBlock (List.map (gen_expr ctx) el), p)
| TFor (v, it, e) ->
let it = gen_expr ctx it in
let e = gen_expr ctx e in
let next = call p (field p (ident p "@tmp") "next") [] in
let next = (if v.v_capture then call p (builtin p "array") [next] else next) in
(EBlock
[(EVars ["@tmp", Some it],p);
(EWhile (call p (field p (ident p "@tmp") "hasNext") [],
(EBlock [
(EVars [v.v_name, Some next],p);
e
],p)
,NormalWhile),p)]
,p)
| TIf (cond,e1,e2) ->
(* if(e)-1 is parsed as if( e - 1 ) *)
let parent e = mk (TParenthesis e) e.etype e.epos in
let e1 = (match e1.eexpr with TConst (TInt n) when n < 0l -> parent e1 | TConst (TFloat f) when f.[0] = '-' -> parent e1 | _ -> e1) in
(EIf (gen_expr ctx cond,gen_expr ctx e1,(match e2 with None -> None | Some e -> Some (gen_expr ctx e))),p)
| TWhile (econd,e,flag) ->
(EWhile (gen_expr ctx econd, gen_expr ctx e, match flag with Ast.NormalWhile -> NormalWhile | Ast.DoWhile -> DoWhile),p)
| TTry (e,catchs) ->
let rec loop = function
| [] -> call p (builtin p "rethrow") [ident p "@tmp"]
| (v,e) :: l ->
let e2 = loop l in
let path = (match follow v.v_type with
| TInst (c,_) -> Some c.cl_path
| TEnum (e,_) -> Some e.e_path
| TAbstract (a,_) -> Some a.a_path
| TDynamic _ -> None
| _ -> assert false
) in
let cond = (match path with
| None -> (EConst True,p)
| Some path -> call p (field p (gen_type_path p (["neko"],"Boot")) "__instanceof") [ident p "@tmp"; gen_type_path p path]
) in
let id = ident p "@tmp" in
let id = (if v.v_capture then call p (builtin p "array") [id] else id) in
let e = gen_expr ctx e in
(EIf (cond,(EBlock [
EVars [v.v_name,Some id],p;
e;
],p),Some e2),p)
in
let catchs = loop catchs in
let catchs = (EBlock [
(EIf (
(EBinop ("==",call p (builtin p "typeof") [ident p "@tmp"],builtin p "tstring"),p),
(EBinop ("=",ident p "@tmp",call p (field p (ident p "String") "new") [ident p "@tmp"]),p),
None
),p);
catchs;
],p) in
(ETry (gen_expr ctx e,"@tmp",catchs),p)
| TReturn eo ->
(EReturn (match eo with None -> Some (null p) | Some e -> Some (gen_expr ctx e)),p)
| TBreak ->
(EBreak None,p)
| TContinue ->
(EContinue,p)
| TThrow e ->
call p (builtin p "throw") [gen_expr ctx e]
| TCast (e,None) ->
gen_expr ctx e
| TCast (e1,Some t) ->
gen_expr ctx (Codegen.default_cast ~vtmp:"@tmp" ctx.com e1 t e.etype e.epos)
| TSwitch (e,cases,eo) ->
let e = gen_expr ctx e in
let eo = (match eo with None -> None | Some e -> Some (gen_expr ctx e)) in
try
(ESwitch (
e,
List.map (fun (el,e2) ->
match List.map (gen_expr ctx) el with
| [] -> assert false
| [e] -> e, gen_expr ctx e2
| _ -> raise Exit
) cases,
eo
),p)
with
Exit ->
(EBlock [
(EVars ["@tmp",Some e],p);
List.fold_left (fun acc (el,e) ->
let cond = (match el with
| [] -> assert false
| e :: l ->
let eq e = (EBinop ("==",ident p "@tmp",gen_expr ctx e),p) in
List.fold_left (fun acc e -> (EBinop ("||",acc,eq e),p)) (eq e) l
) in
EIf (cond,gen_expr ctx e,Some acc),p
) (match eo with None -> null p | Some e -> e) (List.rev cases)
],p)
let gen_method ctx p c acc =
ctx.curmethod <- c.cf_name;
if is_extern_field c then acc else
match c.cf_expr with
| None ->
((c.cf_name, null p) :: acc)
| Some e ->
match e.eexpr with
| TCall ({ eexpr = TField (_,FStatic ({cl_path=["neko"],"Lib"},{cf_name="load" | "loadLazy" as load})) },[{ eexpr = TConst (TString m) };{ eexpr = TConst (TString f) };{ eexpr = TConst (TInt n) }]) ->
let p = pos ctx e.epos in
let e = call p (EField (builtin p "loader","loadprim"),p) [(EBinop ("+",(EBinop ("+",str p m,str p "@"),p),str p f),p); (EConst (Int (Int32.to_int n)),p)] in
let e = (if load = "load" then e else (ETry (e,"@e",call p (ident p "@lazy_error") [ident p "@e"]),p)) in
(c.cf_name, e) :: acc
| TFunction _ -> ((if c.cf_name = "new" then "__construct__" else c.cf_name), gen_expr ctx e) :: acc
| _ -> (c.cf_name, null p) :: acc
let gen_class ctx c =
ctx.curclass <- s_type_path c.cl_path;
ctx.curmethod <- "$init";
let p = pos ctx c.cl_pos in
let clpath = gen_type_path p (fst c.cl_path,"@" ^ snd c.cl_path) in
let stpath = gen_type_path p c.cl_path in
let fnew = (match c.cl_constructor with
| Some f ->
(match f.cf_expr with
| Some {eexpr = TFunction tf} ->
let params = List.map (fun (v,_) -> v.v_name) tf.tf_args in
gen_method ctx p f ["new",(EFunction (params,(EBlock [
(EVars ["@o",Some (call p (builtin p "new") [null p])],p);
(call p (builtin p "objsetproto") [ident p "@o"; clpath]);
(call p (builtin p "call") [field p (this p) "__construct__"; ident p "@o"; array p (List.map (ident p) params)]);
(EReturn (Some (ident p "@o")),p)
],p)),p)]
| _ -> [])
| None ->
[]
) in
let fstring = (try
let f = PMap.find "toString" c.cl_fields in
match follow f.cf_type with
| TFun ([],_) -> ["__string",ident p "@default__string"]
| _ -> []
with Not_found ->
[]
) in
let fserialize = "__serialize" , ident p "@serialize" in
let others = (match c.cl_implements with
| [] -> []
| l -> ["__interfaces__",array p (List.map (fun (c,_) -> gen_type_path p c.cl_path) l)]
) @ (match c.cl_super with
| None -> []
| Some (c,_) -> ["__super__", gen_type_path p c.cl_path]
) in
let build (f,e) = (EBinop ("=",field p (ident p "@tmp") f,e),p) in
let tmp = (EVars ["@tmp",Some (call p (builtin p "new") [null p])],p) in
let estat = (EBinop ("=", stpath, ident p "@tmp"),p) in
let gen_props props = (EObject (List.map (fun (n,s) -> n,str p s) props),p) in
let sprops = (match Codegen.get_properties c.cl_ordered_statics with
| [] -> []
| l -> ["__properties__",gen_props l]
) in
let sfields = List.map build
(
("prototype",clpath) :: sprops @
PMap.fold (gen_method ctx p) c.cl_statics (fnew @ others)
)
in
let eclass = (EBinop ("=", clpath, ident p "@tmp"),p) in
let mfields = List.map build
(PMap.fold (gen_method ctx p) c.cl_fields (fserialize :: fstring))
in
let props = Codegen.get_properties c.cl_ordered_fields in
let emeta = (EBinop ("=",field p clpath "__class__",stpath),p) ::
(match props with
| [] -> []
| _ ->
let props = gen_props props in
let props = (match c.cl_super with
| Some (csup,_) when Codegen.has_properties csup ->
(EBlock [
(EVars ["@tmp",Some props],p);
call p (builtin p "objsetproto") [ident p "@tmp";field p (field p (gen_type_path p csup.cl_path) "prototype") "__properties__"];
ident p "@tmp"
],p)
| _ -> props
) in
[EBinop ("=",field p clpath "__properties__",props),p])
@ match c.cl_path with
| [] , name -> [(EBinop ("=",field p (ident p "@classes") name,ident p name),p)]
| _ -> []
in
let emeta = if ctx.macros then
(EBinop ("=",field p stpath "__ct__",call p (builtin p "typewrap") [Obj.magic (TClassDecl c)]),p) :: emeta
else
emeta
in
let eextends = (match c.cl_super with
| None -> []
| Some (c,_) ->
let esuper = gen_type_path p (fst c.cl_path,"@" ^ snd c.cl_path) in
[call p (builtin p "objsetproto") [clpath; esuper]]
) in
(EBlock (tmp :: eclass :: mfields @ tmp :: estat :: sfields @ eextends @ emeta),p)
let gen_enum_constr ctx path c =
ctx.curmethod <- c.ef_name;
let p = pos ctx c.ef_pos in
(EBinop ("=",field p path c.ef_name, match follow c.ef_type with
| TFun (params,_) ->
let params = List.map (fun (n,_,_) -> n) params in
(EFunction (params,
(EBlock [
(EVars ["@tmp",Some (EObject [
"tag" , str p c.ef_name;
"index" , int p c.ef_index;
"args" , array p (List.map (ident p) params);
],p)],p);
call p (builtin p "objsetproto") [ident p "@tmp"; field p path "prototype"];
ident p "@tmp";
],p)
),p)
| _ ->
(EBlock [
(EVars ["@tmp",Some (EObject ["tag" , str p c.ef_name; "index", int p c.ef_index; "__serialize" , ident p "@tag_serialize"],p)],p);
call p (builtin p "objsetproto") [ident p "@tmp"; field p path "prototype"];
ident p "@tmp";
],p)
),p)
let gen_enum ctx e =
ctx.curclass <- s_type_path e.e_path;
ctx.curmethod <- "$init";
let p = pos ctx e.e_pos in
let path = gen_type_path p e.e_path in
let uname = (EConst (Ident (gen_global_name ctx e.e_path)),p) in
(EBlock (
(EBinop ("=",uname, call p (builtin p "new") [null p]),p) ::
(EBinop ("=",path, uname),p) ::
(EBinop ("=",field p uname "prototype", (EObject [
"__enum__" , uname;
"__serialize" , ident p "@serialize";
"__string" , ident p "@enum_to_string"
],p)),p) ::
pmap_list (gen_enum_constr ctx uname) e.e_constrs @
(match e.e_path with
| [] , name -> [EBinop ("=",field p (ident p "@classes") name,ident p name),p]
| _ -> [])
),p)
let gen_type ctx t acc =
match t with
| TClassDecl c ->
(match c.cl_init with
| None -> ()
| Some e -> ctx.inits <- (c,e) :: ctx.inits);
if c.cl_extern then
acc
else
gen_class ctx c :: acc
| TEnumDecl e ->
if e.e_extern then
acc
else
gen_enum ctx e :: acc
| TTypeDecl _ | TAbstractDecl _ ->
acc
let gen_static_vars ctx t =
match t with
| TEnumDecl _ | TTypeDecl _ | TAbstractDecl _ -> []
| TClassDecl c ->
if c.cl_extern then
[]
else
List.fold_right (fun f acc ->
match f.cf_expr with
| None -> acc
| Some e ->
match e.eexpr with
| TFunction _ -> acc
| _ ->
ctx.curclass <- s_type_path c.cl_path;
ctx.curmethod <- "$statics";
let p = pos ctx e.epos in
(EBinop ("=",
(field p (gen_type_path p c.cl_path) f.cf_name),
gen_expr ctx e
),p) :: acc
) c.cl_ordered_statics []
let gen_package ctx t =
let rec loop acc p =
match p with
| [] -> []
| x :: l ->
let path = acc @ [x] in
if not (Hashtbl.mem ctx.packages path) then begin
let p = pos ctx (t_infos t).mt_pos in
let e = (EBinop ("=",gen_type_path p (acc,x),call p (builtin p "new") [null p]),p) in
Hashtbl.add ctx.packages path ();
(match acc with
| [] ->
let reg = (EBinop ("=",field p (ident p "@classes") x,ident p x),p) in
e :: reg :: loop path l
| _ ->
e :: loop path l)
end else
loop path l
in
loop [] (fst (t_path t))
let gen_boot ctx =
(EBlock [
EBinop ("=",field null_pos (gen_type_path null_pos (["neko"],"Boot")) "__classes",ident null_pos "@classes"),null_pos;
call null_pos (field null_pos (gen_type_path null_pos (["neko"],"Boot")) "__init") [];
],null_pos)
let gen_name ctx acc t =
match t with
| TEnumDecl e when e.e_extern ->
acc
| TEnumDecl e ->
let p = pos ctx e.e_pos in
let name = fst e.e_path @ [snd e.e_path] in
let arr = call p (field p (ident p "Array") "new1") [array p (List.map (fun n -> gen_constant ctx e.e_pos (TString n)) name); int p (List.length name)] in
let path = gen_type_path p e.e_path in
let setname = (EBinop ("=",field p path "__ename__",arr),p) in
let arr = call p (field p (ident p "Array") "new1") [array p (List.map (fun n -> gen_constant ctx e.e_pos (TString n)) e.e_names); int p (List.length e.e_names)] in
let setconstrs = (EBinop ("=", field p path "__constructs__", arr),p) in
let meta = (match Codegen.build_metadata ctx.com (TEnumDecl e) with
| None -> []
| Some e -> [EBinop ("=",field p path "__meta__", gen_expr ctx e),p]
) in
let meta = if ctx.macros then
(EBinop ("=",field p path "__et__",call p (builtin p "typewrap") [Obj.magic t]),p) :: meta
else
meta
in
setname :: setconstrs :: meta @ acc
| TClassDecl c ->
if c.cl_extern || (match c.cl_kind with KTypeParameter _ -> true | _ -> false) then
acc
else
let p = pos ctx c.cl_pos in
let name = fst c.cl_path @ [snd c.cl_path] in
let arr = call p (field p (ident p "Array") "new1") [array p (List.map (fun n -> gen_constant ctx c.cl_pos (TString n)) name); int p (List.length name)] in
(EBinop ("=",field p (gen_type_path p c.cl_path) "__name__",arr),p) ::
(match c.cl_implements with
| [] -> acc
| l ->
let interf = field p (gen_type_path p c.cl_path) "__interfaces__" in
(EBinop ("=",interf, call p (field p (ident p "Array") "new1") [interf; int p (List.length l)]),p) :: acc)
| TTypeDecl _ | TAbstractDecl _ ->
acc
let generate_libs_init = function
| [] -> []
| libs ->
(*
var @s = $loader.loadprim("std@sys_string",0)();
var @env = $loader.loadprim("std@get_env",1);
var @b = if( @s == "Windows" )
@env("HAXEPATH") + "\\lib\\"
else try $loader.loadprim("std@file_contents",1)(@env("HOME")+"/.haxelib") + "/"
catch e
if( @s == "Linux" )
if( $loader(loadprim("std@sys_exists",1))("/usr/lib/haxe/lib") )
"/usr/lib/haxe/lib"
else
"/usr/share/haxe/lib/"
else
"/usr/local/lib/haxe/lib/";
if( try $loader.loadprim("std@sys_file_type",1)(".haxelib") == "dir" catch e false ) @b = $loader.loadprim("std@file_full_path",1)(".haxelib") + "/";
if( $loader.loadprim("std@sys_is64",0)() ) @s = @s + 64;
@b = @b + "/"
*)
let p = null_pos in
let es = ident p "@s" in
let loadp n nargs =
call p (field p (builtin p "loader") "loadprim") [str p ("std@" ^ n); int p nargs]
in
let op o e1 e2 =
(EBinop (o,e1,e2),p)
in
let boot = [
(EVars [
"@s",Some (call p (loadp "sys_string" 0) []);
"@env",Some (loadp "get_env" 1);
"@b", Some (EIf (op "==" es (str p "Windows"),
op "+" (call p (ident p "@env") [str p "HAXEPATH"]) (str p "\\lib\\"),
Some (ETry (
op "+" (call p (loadp "file_contents" 1) [op "+" (call p (ident p "@env") [str p "HOME"]) (str p "/.haxelib")]) (str p "/"),
"e",
(EIf (op "==" es (str p "Linux"),
(EIf (call p (loadp "sys_exists" 1) [ str p "/usr/lib/haxe/lib" ],
str p "/usr/lib/haxe/lib/",
Some (str p "/usr/share/haxe/lib/")),p),
Some (str p "/usr/local/lib/haxe/lib/")
),p)
),p)
),p);
],p);
(EIf ((ETry (op "==" (call p (loadp "sys_file_type" 1) [str p ".haxelib"]) (str p "dir"),"e",(EConst False,p)),p),op "=" (ident p "@b") (op "+" (call p (loadp "file_full_path" 1) [str p ".haxelib"]) (str p "/")), None),p);
(EIf (call p (loadp "sys_is64" 0) [],op "=" es (op "+" es (int p 64)),None),p);
op "=" es (op "+" es (str p "/"));
] in
let lpath = field p (builtin p "loader") "path" in
boot @ List.map (fun dir ->
let full_path = dir.[0] = '/' || dir.[1] = ':' in
let dstr = str p dir in
(*
// for each lib dir
$loader.path = $array($loader.path,@b+dir+@s);
*)
op "=" lpath (call p (builtin p "array") [op "+" (if full_path then dstr else op "+" (ident p "@b") dstr) (ident p "@s"); lpath])
) libs
let new_context com ver macros =
{
version = ver;
com = com;
globals = Hashtbl.create 0;
curglobal = 0;
packages = Hashtbl.create 0;
macros = macros;
curclass = "$boot";
curmethod = "$init";
inits = [];
label_count = 0;
}
let header() =
let p = { psource = "<header>"; pline = 1 } in
let fields l =
let rec loop = function
| [] -> assert false
| [x] -> ident p x
| x :: l -> field p (loop l) x
in
loop (List.rev l)
in
let func pl e =
(EFunction (pl,(EReturn (Some e),p)),p)
in
let inits = [
"@classes",call p (builtin p "new") [null p];
"@enum_to_string",func [] (call p (fields ["neko";"Boot";"__enum_str"]) [this p]);
"@serialize",func [] (call p (fields ["neko";"Boot";"__serialize"]) [this p]);
"@tag_serialize",func [] (call p (fields ["neko";"Boot";"__tagserialize"]) [this p]);
"@lazy_error",func ["e"] (call p (builtin p "varargs") [func ["_"] (call p (builtin p "throw") [ident p "e"])]);
"@default__string",func [] (EBlock [
EVars ["@s",Some (call p (field p (this p) "toString") [])] ,p;
EIf ((EBinop ("!=",call p (builtin p "typeof") [ident p "@s"],builtin p "tobject"),p),(EReturn (Some (null p)),p),None),p;
EReturn (Some (field p (ident p "@s") "__s")),p;
],p)
] in
let inits = inits @ List.map (fun nargs ->
let args = Array.to_list (Array.init nargs (fun i -> Printf.sprintf "%c" (char_of_int (int_of_char 'a' + i)))) in
let efun = (EFunction (args,(EBlock [
(EBinop ("=",(EConst This,p),ident p "@this"),p);
call p (ident p "@fun") (List.map (ident p) args);
],p)),p) in
let eif = EIf ((EBinop ("==",ident p "@fun",null p),p),null p,Some efun) in
let e = func ["@this";"@fun"] (eif,p) in
"@closure" ^ string_of_int nargs, e
) [0;1;2;3;4;5] in
List.map (fun (v,e)-> EBinop ("=",ident p v,e),p) inits
let build ctx types =
let packs = List.concat (List.map (gen_package ctx) types) in
let names = List.fold_left (gen_name ctx) [] types in
let methods = List.rev (List.fold_left (fun acc t -> gen_type ctx t acc) [] types) in
let boot = gen_boot ctx in
let inits = List.map (fun (c,e) ->
ctx.curclass <- s_type_path c.cl_path;
ctx.curmethod <- "__init__";
gen_expr ctx e
) (List.rev ctx.inits) in
ctx.inits <- [];
let vars = List.concat (List.map (gen_static_vars ctx) types) in
packs @ methods @ boot :: names @ inits @ vars
let generate com =
let ctx = new_context com (if Common.defined com Define.NekoV1 then 1 else 2) false in
let libs = (EBlock (generate_libs_init com.neko_libs) , { psource = "<header>"; pline = 1; }) in
let el = build ctx com.types in
let emain = (match com.main with None -> [] | Some e -> [gen_expr ctx e]) in
let e = (EBlock ((header()) @ libs :: el @ emain), null_pos) in
let source = Common.defined com Define.NekoSource in
let use_nekoc = Common.defined com Define.UseNekoc in
if not use_nekoc then begin
try
mkdir_from_path com.file;
let ch = IO.output_channel (open_out_bin com.file) in
Nbytecode.write ch (Ncompile.compile ctx.version e);
IO.close_out ch;
with Ncompile.Error (msg,pos) ->
let pfile = Common.find_file com pos.psource in
let rec loop p =
let pp = { pfile = pfile; pmin = p; pmax = p; } in
if Lexer.get_error_line pp >= pos.pline then
pp
else
loop (p + 1)
in
error msg (loop 0)
end;
let command cmd = try com.run_command cmd with _ -> -1 in
let neko_file = (try Filename.chop_extension com.file with _ -> com.file) ^ ".neko" in
if source || use_nekoc then begin
let ch = IO.output_channel (open_out_bin neko_file) in
Binast.write ch e;
IO.close_out ch;
end;
if use_nekoc && command ("nekoc" ^ (if ctx.version > 1 then " -version " ^ string_of_int ctx.version else "") ^ " \"" ^ neko_file ^ "\"") <> 0 then failwith "Neko compilation failure";
if source then begin
if command ("nekoc -p \"" ^ neko_file ^ "\"") <> 0 then failwith "Failed to print neko code";
Sys.remove neko_file;
Sys.rename ((try Filename.chop_extension com.file with _ -> com.file) ^ "2.neko") neko_file;
end