compile.ml 5.87 KB
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open Ident
open Lambda

type env = {
  vars: var_loc Env.t;
  stack_size: int
}

let empty = { vars = Env.empty; stack_size = 0 }

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let find x env =
  try Env.find x env.vars
  with Not_found -> 
    failwith ("Compile: cannot find " ^ (Ident.to_string x))

let rec compile env tail e = compile_aux env tail e.Typed.exp_descr
and compile_aux env tail = function
  | Typed.Forget (e,_) -> compile env tail e
  | Typed.Var x -> Var (find x env)
  | Typed.Apply (e1,e2) -> Apply (tail, compile env false e1, compile env tail e2)
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  | Typed.Abstraction a -> compile_abstr env a
  | Typed.Cst c -> Const c
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  | Typed.Pair (e1,e2) -> Pair(compile env false e1, compile env tail e2)
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  | Typed.Xml (e1, { Typed.exp_descr = Typed.Pair (e2,e3) }) -> 
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      Xml (compile env false e1, compile env false e2, compile env tail e3)
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  | Typed.Xml (_,_) -> assert false
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  | Typed.RecordLitt r -> Record (LabelMap.map (compile env false) r)
  | Typed.String (i,j,s,q) -> String (i,j,s,compile env tail q)
  | Typed.Match (e,brs) -> Match (compile env false e, compile_branches env tail brs)
  | Typed.Map (e,brs) -> Map (compile env false e, compile_branches env false brs)
  | Typed.Transform (e,brs) -> Transform 
      (compile env false e, compile_branches env false brs)
  | Typed.Xtrans (e,brs) -> Xtrans (compile env false e, compile_branches env false brs)
  | Typed.Validate (e,sch,t) -> Validate (compile env tail e, sch, t)
  | Typed.RemoveField (e,l) -> RemoveField (compile env tail e,l)
  | Typed.Dot (e,l) -> Dot (compile env tail e, l)
  | Typed.Try (e,brs) -> Try (compile env false e, compile_branches env tail brs)
  | Typed.UnaryOp (op,e) -> UnaryOp (op, compile env tail e)
  | Typed.BinaryOp (op,e1,e2) -> BinaryOp (op, compile env false e1, compile env tail e2)
  | Typed.Ref (e,t) ->  Ref (compile env tail e, t)
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and compile_abstr env a =
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  let fun_env = 
    match a.Typed.fun_name with
      | Some x -> Env.add x (Env 0) Env.empty
      | None -> Env.empty in

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  let (slots,nb_slots,fun_env) = 
    List.fold_left 
      (fun (slots,nb_slots,fun_env) x ->
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	 match find x env with
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	   | (Stack _ | Env _) as p -> 
	       p::slots,
	       succ nb_slots,
	       Env.add x (Env nb_slots) fun_env;
	   | Global _ as p -> 
	       slots,
	       nb_slots,
	       Env.add x p fun_env
	   | Dummy -> assert false
      )
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      ([Dummy],1,fun_env) (IdSet.get a.Typed.fun_fv) in
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  let slots = Array.of_list (List.rev slots) in  
  let env = { vars = fun_env; stack_size = 0 } in
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  let body = compile_branches env true a.Typed.fun_body in
  Abstraction (slots, a.Typed.fun_iface, body)
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and compile_branches env tail (brs : Typed.branches) =
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  { 
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    brs = List.map (compile_branch env tail) brs.Typed.br_branches;
    brs_tail = tail;
    brs_accept_chars = not (Types.Char.is_empty brs.Typed.br_accept);
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    brs_input = brs.Typed.br_typ;
    brs_compiled = None
  }

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and compile_branch env tail br =
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  let env = 
    List.fold_left 
      (fun env x ->
	 { vars = Env.add x (Stack env.stack_size) env.vars;
	   stack_size = env.stack_size + 1 }
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      ) env (Patterns.fv_list br.Typed.br_pat) in
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  (br.Typed.br_pat, compile env tail br.Typed.br_body)


let enter_global env x =
  { vars = Env.add x (Global env.stack_size) env.vars;
    stack_size = env.stack_size + 1 }

let enter_globals = List.fold_left enter_global

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let compile_eval env e = Eval (compile env false e)

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let compile_let_decl env decl =
  let pat = decl.Typed.let_pat in
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  let code = Let_decl (pat, compile env false (decl.Typed.let_body)) in
  let env = enter_globals env (Patterns.fv_list pat) in
  (env, code)
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let compile_rec_funs env funs =
  let fun_name = function
    | { Typed.exp_descr=Typed.Abstraction{Typed.fun_name = Some x}} -> x
    | _ -> assert false in
  let fun_a = function
    | { Typed.exp_descr=Typed.Abstraction a } -> a
    | _ -> assert false in
  let names = List.map fun_name funs in
  let env = enter_globals env names in
  let exprs = List.map (compile_abstr env) (List.map fun_a funs) in
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  (env, Let_funs exprs)


(****************************************)

open Location

let eval (tenv,cenv,codes) e =
  let (e,_) = Typer.type_expr tenv e in
  let code = compile_eval cenv e in 
  (tenv,cenv,code :: codes)
  
let let_decl (tenv,cenv,codes) p e =
  let (tenv,decl,_) = Typer.type_let_decl tenv p e in
  let (cenv,code) = compile_let_decl cenv decl in
  (tenv,cenv,code :: codes)
  
let let_funs (tenv,cenv,codes) funs =
  let (tenv,funs,_) = Typer.type_let_funs tenv funs in
  let (cenv,code) = compile_rec_funs cenv funs in
  (tenv,cenv,code :: codes)
  
let type_defs (tenv,cenv,codes) typs =
  let tenv = Typer.enter_types (Typer.type_defs tenv typs) tenv in
  (tenv,cenv,codes)

let namespace (tenv,cenv,codes) pr ns =
  let tenv = Typer.enter_ns pr ns tenv in
  (tenv,cenv,codes)

let rec collect_funs accu = function
  | { descr = Ast.FunDecl e } :: rest -> collect_funs (e::accu) rest
  | rest -> (accu,rest)

let rec collect_types accu = function
  | { descr = Ast.TypeDecl (x,t) } :: rest -> 
      collect_types ((x,t) :: accu) rest
  | rest -> (accu,rest)

let rec phrases accu phs = match phs with
  | { descr = Ast.FunDecl _ } :: _ -> 
      let (funs,rest) = collect_funs [] phs in
      phrases (let_funs accu funs) rest
  | { descr = Ast.TypeDecl (_,_) } :: _ ->
      let (typs,rest) = collect_types [] phs in
      phrases (type_defs accu typs) rest
  | { descr = Ast.SchemaDecl (name, schema) } :: rest ->
      Typer.register_schema name schema;
      phrases accu rest
  | { descr = Ast.Namespace (pr,ns) } :: rest ->
      phrases (namespace accu pr ns) rest
  | { descr = Ast.EvalStatement e } :: rest ->
      phrases (eval accu e) rest
  | { descr = Ast.LetDecl (p,e) } :: rest ->
      phrases (let_decl accu p e) rest
  | { descr = Ast.Debug l } :: rest -> 
      phrases accu rest
  | { descr = Ast.Directive _ } :: rest ->
      phrases accu rest
  | [] -> accu

let comp_unit tenv cenv phs =
  let (tenv,cenv,codes) = phrases (tenv,cenv,[]) phs in
  (tenv,cenv,List.rev codes)