247 lines
7.8 KiB
OCaml
247 lines
7.8 KiB
OCaml
(***********************************************************************)
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(* *)
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(* Objective Caml *)
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(* *)
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(* Xavier Leroy, projet Cristal, INRIA Rocquencourt *)
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(* *)
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(* Copyright 1996 Institut National de Recherche en Informatique et *)
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(* Automatique. Distributed only by permission. *)
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(* *)
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(***********************************************************************)
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(* $Id$ *)
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open Misc
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open Path
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open Asttypes
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type primitive =
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Pidentity
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(* Globals *)
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| Pgetglobal of Ident.t
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| Psetglobal of Ident.t
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(* Operations on heap blocks *)
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| Pmakeblock of int * mutable_flag
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| Pfield of int
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| Psetfield of int * bool
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| Pfloatfield of int
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| Psetfloatfield of int
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(* External call *)
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| Pccall of Primitive.description
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(* Exceptions *)
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| Praise
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(* Boolean operations *)
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| Psequand | Psequor | Pnot
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(* Integer operations *)
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| Pnegint | Paddint | Psubint | Pmulint | Pdivint | Pmodint
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| Pandint | Porint | Pxorint
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| Plslint | Plsrint | Pasrint
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| Pintcomp of comparison
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| Poffsetint of int
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| Poffsetref of int
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(* Float operations *)
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| Pintoffloat | Pfloatofint
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| Pnegfloat | Pabsfloat
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| Paddfloat | Psubfloat | Pmulfloat | Pdivfloat
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| Pfloatcomp of comparison
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(* String operations *)
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| Pstringlength | Pstringrefu | Pstringsetu | Pstringrefs | Pstringsets
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(* Array operations *)
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| Pmakearray of array_kind
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| Parraylength of array_kind
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| Parrayrefu of array_kind
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| Parraysetu of array_kind
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| Parrayrefs of array_kind
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| Parraysets of array_kind
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(* Bitvect operations *)
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| Pbittest
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and comparison =
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Ceq | Cneq | Clt | Cgt | Cle | Cge
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and array_kind =
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Pgenarray | Paddrarray | Pintarray | Pfloatarray
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type structured_constant =
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Const_base of constant
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| Const_pointer of int
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| Const_block of int * structured_constant list
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| Const_float_array of string list
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type function_kind = Curried | Tupled
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type let_kind = Strict | Alias | StrictOpt | Variable
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type shared_code = (int * int) list
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type lambda =
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Lvar of Ident.t
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| Lconst of structured_constant
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| Lapply of lambda * lambda list
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| Lfunction of function_kind * Ident.t list * lambda
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| Llet of let_kind * Ident.t * lambda * lambda
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| Lletrec of (Ident.t * lambda) list * lambda
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| Lprim of primitive * lambda list
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| Lswitch of lambda * lambda_switch
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| Lstaticfail
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| Lcatch of lambda * lambda
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| Ltrywith of lambda * Ident.t * lambda
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| Lifthenelse of lambda * lambda * lambda
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| Lsequence of lambda * lambda
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| Lwhile of lambda * lambda
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| Lfor of Ident.t * lambda * lambda * direction_flag * lambda
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| Lassign of Ident.t * lambda
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| Lsend of lambda * lambda * lambda list
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| Levent of lambda * lambda_event
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| Lifused of Ident.t * lambda
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and lambda_switch =
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{ sw_numconsts: int;
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sw_consts: (int * lambda) list;
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sw_numblocks: int;
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sw_blocks: (int * lambda) list;
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sw_checked: bool }
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and lambda_event =
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{ lev_loc: int;
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lev_kind: lambda_event_kind;
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lev_repr: int ref option;
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lev_env: Env.summary }
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and lambda_event_kind =
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Lev_before
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| Lev_after of Types.type_expr
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| Lev_function
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let const_unit = Const_pointer 0
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let lambda_unit = Lconst const_unit
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let name_lambda arg fn =
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match arg with
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Lvar id -> fn id
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| _ -> let id = Ident.create "let" in Llet(Strict, id, arg, fn id)
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let name_lambda_list args fn =
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let rec name_list names = function
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[] -> fn (List.rev names)
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| (Lvar id as arg) :: rem ->
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name_list (arg :: names) rem
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| arg :: rem ->
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let id = Ident.create "let" in
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Llet(Strict, id, arg, name_list (Lvar id :: names) rem) in
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name_list [] args
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module IdentSet =
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Set.Make(struct
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type t = Ident.t
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let compare = compare
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end)
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let free_variables l =
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let fv = ref IdentSet.empty in
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let rec freevars = function
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Lvar id ->
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fv := IdentSet.add id !fv
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| Lconst sc -> ()
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| Lapply(fn, args) ->
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freevars fn; List.iter freevars args
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| Lfunction(kind, params, body) ->
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freevars body;
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List.iter (fun param -> fv := IdentSet.remove param !fv) params
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| Llet(str, id, arg, body) ->
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freevars arg; freevars body; fv := IdentSet.remove id !fv
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| Lletrec(decl, body) ->
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freevars body;
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List.iter (fun (id, exp) -> freevars exp) decl;
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List.iter (fun (id, exp) -> fv := IdentSet.remove id !fv) decl
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| Lprim(p, args) ->
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List.iter freevars args
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| Lswitch(arg, sw) ->
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freevars arg;
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List.iter (fun (key, case) -> freevars case) sw.sw_consts;
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List.iter (fun (key, case) -> freevars case) sw.sw_blocks
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| Lstaticfail -> ()
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| Lcatch(e1, e2) ->
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freevars e1; freevars e2
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| Ltrywith(e1, exn, e2) ->
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freevars e1; freevars e2; fv := IdentSet.remove exn !fv
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| Lifthenelse(e1, e2, e3) ->
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freevars e1; freevars e2; freevars e3
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| Lsequence(e1, e2) ->
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freevars e1; freevars e2
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| Lwhile(e1, e2) ->
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freevars e1; freevars e2
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| Lfor(v, e1, e2, dir, e3) ->
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freevars e1; freevars e2; freevars e3; fv := IdentSet.remove v !fv
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| Lassign(id, e) ->
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fv := IdentSet.add id !fv; freevars e
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| Lsend (met, obj, args) ->
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List.iter freevars (met::obj::args)
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| Levent (lam, evt) ->
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freevars lam
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| Lifused (v, e) ->
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freevars e
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in freevars l; !fv
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(* Check if an action has a "when" guard *)
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let rec is_guarded = function
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Lifthenelse(cond, body, Lstaticfail) -> true
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| Llet(str, id, lam, body) -> is_guarded body
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| Levent(lam, ev) -> is_guarded lam
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| _ -> false
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(* Translate an access path *)
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let rec transl_path = function
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Pident id ->
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if Ident.global id then Lprim(Pgetglobal id, []) else Lvar id
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| Pdot(p, s, pos) ->
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Lprim(Pfield pos, [transl_path p])
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| Papply(p1, p2) ->
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fatal_error "Lambda.transl_path"
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(* Compile a sequence of expressions *)
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let rec make_sequence fn = function
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[] -> lambda_unit
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| [x] -> fn x
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| x::rem ->
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let lam = fn x in Lsequence(lam, make_sequence fn rem)
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(* Apply a substitution to a lambda-term.
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Assumes that the bound variables of the lambda-term do not
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belong to the domain of the substitution.
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Assumes that the image of the substitution is out of reach
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of the bound variables of the lambda-term (no capture). *)
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let subst_lambda s lam =
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let rec subst = function
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Lvar id as l ->
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begin try Ident.find_same id s with Not_found -> l end
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| Lconst sc as l -> l
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| Lapply(fn, args) -> Lapply(subst fn, List.map subst args)
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| Lfunction(kind, params, body) -> Lfunction(kind, params, subst body)
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| Llet(str, id, arg, body) -> Llet(str, id, subst arg, subst body)
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| Lletrec(decl, body) -> Lletrec(List.map subst_decl decl, subst body)
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| Lprim(p, args) -> Lprim(p, List.map subst args)
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| Lswitch(arg, sw) ->
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Lswitch(subst arg,
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{sw with sw_consts = List.map subst_case sw.sw_consts;
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sw_blocks = List.map subst_case sw.sw_blocks})
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| Lstaticfail -> Lstaticfail
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| Lcatch(e1, e2) -> Lcatch(subst e1, subst e2)
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| Ltrywith(e1, exn, e2) -> Ltrywith(subst e1, exn, subst e2)
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| Lifthenelse(e1, e2, e3) -> Lifthenelse(subst e1, subst e2, subst e3)
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| Lsequence(e1, e2) -> Lsequence(subst e1, subst e2)
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| Lwhile(e1, e2) -> Lwhile(subst e1, subst e2)
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| Lfor(v, e1, e2, dir, e3) -> Lfor(v, subst e1, subst e2, dir, subst e3)
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| Lassign(id, e) -> Lassign(id, subst e)
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| Lsend (met, obj, args) -> Lsend (subst met, subst obj, List.map subst args)
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| Levent (lam, evt) -> Levent (subst lam, evt)
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| Lifused (v, e) -> Lifused (v, subst e)
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and subst_decl (id, exp) = (id, subst exp)
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and subst_case (key, case) = (key, subst case)
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in subst lam
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