685 lines
25 KiB
OCaml
685 lines
25 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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(* en Automatique. All rights reserved. This file is distributed *)
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(* under the terms of the Q Public License version 1.0. *)
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(* *)
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(***********************************************************************)
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(* $Id$ *)
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(* bytegen.ml : translation of lambda terms to lists of instructions. *)
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open Misc
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open Asttypes
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open Primitive
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open Types
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open Lambda
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open Instruct
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(**** Label generation ****)
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let label_counter = ref 0
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let new_label () =
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incr label_counter; !label_counter
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(**** Operations on compilation environments. ****)
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let empty_env =
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{ ce_stack = Ident.empty; ce_heap = Ident.empty; ce_rec = Ident.empty }
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(* Add a stack-allocated variable *)
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let add_var id pos env =
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{ ce_stack = Ident.add id pos env.ce_stack;
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ce_heap = env.ce_heap;
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ce_rec = env.ce_rec }
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let rec add_vars idlist pos env =
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match idlist with
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[] -> env
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| id :: rem -> add_vars rem (pos + 1) (add_var id pos env)
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(**** Examination of the continuation ****)
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(* Return a label to the beginning of the given continuation.
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If the sequence starts with a branch, use the target of that branch
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as the label, thus avoiding a jump to a jump. *)
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let label_code = function
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Kbranch lbl :: _ as cont -> (lbl, cont)
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| Klabel lbl :: _ as cont -> (lbl, cont)
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| cont -> let lbl = new_label() in (lbl, Klabel lbl :: cont)
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(* Return a branch to the continuation. That is, an instruction that,
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when executed, branches to the continuation or performs what the
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continuation performs. We avoid generating branches to branches and
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branches to returns. *)
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let rec make_branch_2 lbl n cont =
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function
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Kreturn m :: _ -> (Kreturn (n + m), cont)
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| Klabel _ :: c -> make_branch_2 lbl n cont c
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| Kpop m :: c -> make_branch_2 lbl (n + m) cont c
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| _ ->
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match lbl with
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Some lbl -> (Kbranch lbl, cont)
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| None -> let lbl = new_label() in (Kbranch lbl, Klabel lbl :: cont)
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let make_branch cont =
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match cont with
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(Kbranch _ as branch) :: _ -> (branch, cont)
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| (Kreturn _ as return) :: _ -> (return, cont)
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| Kraise :: _ -> (Kraise, cont)
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| Klabel lbl :: _ -> make_branch_2 (Some lbl) 0 cont cont
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| _ -> make_branch_2 (None) 0 cont cont
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(* Discard all instructions up to the next label.
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This function is to be applied to the continuation before adding a
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non-terminating instruction (branch, raise, return) in front of it. *)
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let rec discard_dead_code = function
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[] -> []
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| (Klabel _ | Krestart | Ksetglobal _) :: _ as cont -> cont
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| _ :: cont -> discard_dead_code cont
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(* Check if we're in tailcall position *)
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let rec is_tailcall = function
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Kreturn _ :: _ -> true
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| Klabel _ :: c -> is_tailcall c
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| Kpop _ :: c -> is_tailcall c
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| _ -> false
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(* Add a Kpop N instruction in front of a continuation *)
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let rec add_pop n cont =
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if n = 0 then cont else
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match cont with
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Kpop m :: cont -> add_pop (n + m) cont
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| Kreturn m :: cont -> Kreturn(n + m) :: cont
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| Kraise :: _ -> cont
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| _ -> Kpop n :: cont
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(* Add the constant "unit" in front of a continuation *)
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let add_const_unit = function
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(Kacc _ | Kconst _ | Kgetglobal _ | Kpush_retaddr _) :: _ as cont -> cont
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| cont -> Kconst const_unit :: cont
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(**** Auxiliary for compiling "let rec" ****)
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let rec size_of_lambda = function
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| Lfunction(kind, params, body) as funct ->
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1 + IdentSet.cardinal(free_variables funct)
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| Lprim(Pmakeblock(tag, mut), args) -> List.length args
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| Lprim(Pmakearray kind, args) -> List.length args
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| Llet(str, id, arg, body) -> size_of_lambda body
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| Lletrec(bindings, body) -> size_of_lambda body
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| Levent (lam, _) -> size_of_lambda lam
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| Lsequence (lam, lam') -> size_of_lambda lam'
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| _ -> fatal_error "Bytegen.size_of_lambda"
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(**** Merging consecutive events ****)
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let copy_event ev kind info repr =
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{ ev_pos = 0; (* patched in emitcode *)
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ev_module = ev.ev_module;
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ev_char = ev.ev_char;
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ev_kind = kind;
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ev_info = info;
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ev_typenv = ev.ev_typenv;
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ev_compenv = ev.ev_compenv;
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ev_stacksize = ev.ev_stacksize;
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ev_repr = repr }
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let merge_infos ev ev' =
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match ev.ev_info, ev'.ev_info with
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Event_other, info -> info
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| info, Event_other -> info
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| _ -> fatal_error "Bytegen.merge_infos"
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let merge_repr ev ev' =
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match ev.ev_repr, ev'.ev_repr with
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Event_none, x -> x
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| x, Event_none -> x
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| Event_parent r, Event_child r' when r == r' && !r = 1 -> Event_none
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| Event_child r, Event_parent r' when r == r' -> Event_parent r
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| _, _ -> fatal_error "Bytegen.merge_repr"
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let merge_events ev ev' =
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let (maj, min) =
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match ev.ev_kind, ev'.ev_kind with
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(* Discard pseudo-events *)
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Event_pseudo, _ -> ev', ev
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| _, Event_pseudo -> ev, ev'
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(* Keep following event, supposedly more informative *)
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| Event_before, (Event_after _ | Event_before) -> ev', ev
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(* Discard following events, supposedly less informative *)
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| Event_after _, (Event_after _ | Event_before) -> ev, ev'
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in
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copy_event maj maj.ev_kind (merge_infos maj min) (merge_repr maj min)
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let weaken_event ev cont =
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match ev.ev_kind with
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Event_after _ ->
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begin match cont with
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Kpush :: Kevent ({ev_repr = Event_none} as ev') :: c ->
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begin match ev.ev_info with
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Event_return _ ->
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(* Weaken event *)
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let repr = ref 1 in
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let ev =
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copy_event ev Event_pseudo ev.ev_info (Event_parent repr)
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and ev' =
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copy_event ev' ev'.ev_kind ev'.ev_info (Event_child repr)
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in
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Kevent ev :: Kpush :: Kevent ev' :: c
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| _ ->
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(* Only keep following event, equivalent *)
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cont
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end
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| _ ->
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Kevent ev :: cont
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end
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| _ ->
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Kevent ev :: cont
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let add_event ev =
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function
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Kevent ev' :: cont -> weaken_event (merge_events ev ev') cont
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| cont -> weaken_event ev cont
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(**** Compilation of a lambda expression ****)
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(* The label to which Lstaticfail branches, and the stack size at that point.*)
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let lbl_staticfail = ref None
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and sz_staticfail = ref 0
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(* Function bodies that remain to be compiled *)
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type function_to_compile =
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{ params: Ident.t list; (* function parameters *)
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body: lambda; (* the function body *)
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label: label; (* the label of the function entry *)
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free_vars: Ident.t list; (* free variables of the function *)
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num_defs: int; (* number of mutually recursive definitions *)
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rec_vars: Ident.t list; (* mutually recursive fn names *)
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rec_pos: int } (* rank in recursive definition *)
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let functions_to_compile = (Stack.create () : function_to_compile Stack.t)
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(* Name of current compilation unit (for debugging events) *)
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let compunit_name = ref ""
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(* Compile an expression.
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The value of the expression is left in the accumulator.
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env = compilation environment
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exp = the lambda expression to compile
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sz = current size of the stack frame
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cont = list of instructions to execute afterwards
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Result = list of instructions that evaluate exp, then perform cont. *)
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let rec comp_expr env exp sz cont =
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match exp with
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Lvar id ->
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begin try
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let pos = Ident.find_same id env.ce_stack in
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Kacc(sz - pos) :: cont
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with Not_found ->
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try
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let pos = Ident.find_same id env.ce_heap in
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Kenvacc(pos) :: cont
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with Not_found ->
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try
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let ofs = Ident.find_same id env.ce_rec in
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Koffsetclosure(ofs) :: cont
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with Not_found ->
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Ident.print id; print_newline();
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fatal_error ("Bytegen.comp_expr: var " ^ Ident.unique_name id)
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end
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| Lconst cst ->
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Kconst cst :: cont
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| Lapply(func, args) ->
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let nargs = List.length args in
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if is_tailcall cont then
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comp_args env args sz
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(Kpush :: comp_expr env func (sz + nargs)
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(Kappterm(nargs, sz + nargs) :: discard_dead_code cont))
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else
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if nargs < 4 then
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comp_args env args sz
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(Kpush :: comp_expr env func (sz + nargs) (Kapply nargs :: cont))
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else begin
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let (lbl, cont1) = label_code cont in
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Kpush_retaddr lbl ::
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comp_args env args (sz + 3)
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(Kpush :: comp_expr env func (sz + 3 + nargs)
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(Kapply nargs :: cont1))
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end
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| Lsend(met, obj, args) ->
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let nargs = List.length args + 1 in
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if is_tailcall cont then
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comp_args env (met::obj::args) sz
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(Kgetmethod :: Kappterm(nargs, sz + nargs) :: discard_dead_code cont)
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else
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if nargs < 4 then
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comp_args env (met::obj::args) sz
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(Kgetmethod :: Kapply nargs :: cont)
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else begin
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let (lbl, cont1) = label_code cont in
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Kpush_retaddr lbl ::
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comp_args env (met::obj::args) (sz + 3)
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(Kgetmethod :: Kapply nargs :: cont1)
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end
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| Lfunction(kind, params, body) -> (* assume kind = Curried *)
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let lbl = new_label() in
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let fv = IdentSet.elements(free_variables exp) in
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let to_compile =
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{ params = params; body = body; label = lbl;
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free_vars = fv; num_defs = 1; rec_vars = []; rec_pos = 0 } in
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Stack.push to_compile functions_to_compile;
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comp_args env (List.map (fun n -> Lvar n) fv) sz
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(Kclosure(lbl, List.length fv) :: cont)
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| Llet(str, id, arg, body) ->
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comp_expr env arg sz
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(Kpush :: comp_expr (add_var id (sz+1) env) body (sz+1)
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(add_pop 1 cont))
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| Lletrec(decl, body) ->
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let ndecl = List.length decl in
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if List.for_all (function (_, Lfunction(_,_,_)) -> true | _ -> false)
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decl then begin
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(* let rec of functions *)
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let fv =
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IdentSet.elements (free_variables (Lletrec(decl, lambda_unit))) in
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let rec_idents = List.map (fun (id, lam) -> id) decl in
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let rec comp_fun pos = function
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[] -> []
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| (id, Lfunction(kind, params, body)) :: rem ->
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let lbl = new_label() in
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let to_compile =
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{ params = params; body = body; label = lbl; free_vars = fv;
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num_defs = ndecl; rec_vars = rec_idents; rec_pos = pos} in
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Stack.push to_compile functions_to_compile;
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lbl :: comp_fun (pos + 1) rem
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| _ -> assert false in
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let lbls = comp_fun 0 decl in
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let num_funcs = List.length lbls in
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comp_args env (List.map (fun n -> Lvar n) fv) sz
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(Kclosurerec(lbls, List.length fv) ::
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(comp_expr (add_vars rec_idents (sz+1) env) body (sz + ndecl)
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(add_pop ndecl cont)))
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end else begin
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let decl_size =
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List.map (fun (id, exp) -> (id, exp, size_of_lambda exp)) decl in
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let rec comp_decl new_env sz i = function
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[] ->
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comp_expr new_env body sz (add_pop ndecl cont)
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| (id, exp, blocksize) :: rem ->
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comp_expr new_env exp sz
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(Kpush :: Kacc i :: Kccall("update_dummy", 2) ::
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comp_decl new_env sz (i-1) rem) in
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let rec comp_init new_env sz = function
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[] ->
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comp_decl new_env sz ndecl decl_size
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| (id, exp, blocksize) :: rem ->
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Kconst(Const_base(Const_int blocksize)) ::
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Kccall("alloc_dummy", 1) :: Kpush ::
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comp_init (add_var id (sz+1) new_env) (sz+1) rem in
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comp_init env sz decl_size
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end
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| Lprim(Pidentity, [arg]) ->
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comp_expr env arg sz cont
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| Lprim(Pignore, [arg]) ->
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comp_expr env arg sz (add_const_unit cont)
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| Lprim(Pnot, [arg]) ->
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let newcont =
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match cont with
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Kbranchif lbl :: cont1 -> Kbranchifnot lbl :: cont1
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| Kbranchifnot lbl :: cont1 -> Kbranchif lbl :: cont1
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| _ -> Kboolnot :: cont in
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comp_expr env arg sz newcont
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| Lprim(Psequand, [exp1; exp2]) ->
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begin match cont with
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Kbranchifnot lbl :: _ ->
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comp_expr env exp1 sz (Kbranchifnot lbl ::
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comp_expr env exp2 sz cont)
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| Kbranchif lbl :: cont1 ->
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let (lbl2, cont2) = label_code cont1 in
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comp_expr env exp1 sz (Kbranchifnot lbl2 ::
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comp_expr env exp2 sz (Kbranchif lbl :: cont2))
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| _ ->
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let (lbl, cont1) = label_code cont in
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comp_expr env exp1 sz (Kstrictbranchifnot lbl ::
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comp_expr env exp2 sz cont1)
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end
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| Lprim(Psequor, [exp1; exp2]) ->
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begin match cont with
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Kbranchif lbl :: _ ->
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comp_expr env exp1 sz (Kbranchif lbl ::
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comp_expr env exp2 sz cont)
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| Kbranchifnot lbl :: cont1 ->
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let (lbl2, cont2) = label_code cont1 in
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comp_expr env exp1 sz (Kbranchif lbl2 ::
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comp_expr env exp2 sz (Kbranchifnot lbl :: cont2))
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| _ ->
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let (lbl, cont1) = label_code cont in
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comp_expr env exp1 sz (Kstrictbranchif lbl ::
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comp_expr env exp2 sz cont1)
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end
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| Lprim(Praise, [arg]) ->
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comp_expr env arg sz (Kraise :: discard_dead_code cont)
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| Lprim((Paddint | Psubint as prim), [arg; Lconst(Const_base(Const_int n))])
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when n >= immed_min & n <= immed_max ->
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let ofs = if prim == Paddint then n else -n in
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comp_expr env arg sz (Koffsetint ofs :: cont)
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| Lprim(Pmakearray kind, args) ->
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begin match kind with
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Pintarray | Paddrarray ->
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comp_args env args sz (Kmakeblock(List.length args, 0) :: cont)
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| Pfloatarray ->
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comp_args env args sz (Kmakefloatblock(List.length args) :: cont)
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| Pgenarray ->
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if args = []
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then Kmakeblock(0, 0) :: cont
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else comp_args env args sz
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(Kmakeblock(List.length args, 0) ::
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Kccall("make_array", 1) :: cont)
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end
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| Lprim(p, args) ->
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let instr =
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match p with
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Pgetglobal id -> Kgetglobal id
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| Psetglobal id -> Ksetglobal id
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| Pintcomp cmp -> Kintcomp cmp
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| Pmakeblock(tag, mut) -> Kmakeblock(List.length args, tag)
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| Pfield n -> Kgetfield n
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| Psetfield(n, ptr) -> Ksetfield n
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| Pfloatfield n -> Kgetfloatfield n
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| Psetfloatfield n -> Ksetfloatfield n
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| Pccall p -> Kccall(p.prim_name, p.prim_arity)
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| Pnegint -> Knegint
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| Paddint -> Kaddint
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| Psubint -> Ksubint
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| Pmulint -> Kmulint
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| Pdivint -> Kdivint
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| Pmodint -> Kmodint
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| Pandint -> Kandint
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| Porint -> Korint
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| Pxorint -> Kxorint
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| Plslint -> Klslint
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| Plsrint -> Klsrint
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| Pasrint -> Kasrint
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| Poffsetint n -> Koffsetint n
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| Poffsetref n -> Koffsetref n
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| Pintoffloat -> Kccall("int_of_float", 1)
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| Pfloatofint -> Kccall("float_of_int", 1)
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| Pnegfloat -> Kccall("neg_float", 1)
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| Pabsfloat -> Kccall("abs_float", 1)
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| Paddfloat -> Kccall("add_float", 2)
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| Psubfloat -> Kccall("sub_float", 2)
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| Pmulfloat -> Kccall("mul_float", 2)
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| Pdivfloat -> Kccall("div_float", 2)
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| Pfloatcomp Ceq -> Kccall("eq_float", 2)
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| Pfloatcomp Cneq -> Kccall("neq_float", 2)
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| Pfloatcomp Clt -> Kccall("lt_float", 2)
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| Pfloatcomp Cgt -> Kccall("gt_float", 2)
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| Pfloatcomp Cle -> Kccall("le_float", 2)
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| Pfloatcomp Cge -> Kccall("ge_float", 2)
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| Pstringlength -> Kccall("ml_string_length", 1)
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| Pstringrefs -> Kccall("string_get", 2)
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| Pstringsets -> Kccall("string_set", 3)
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| Pstringrefu -> Kgetstringchar
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| Pstringsetu -> Ksetstringchar
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| Parraylength kind -> Kvectlength
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| Parrayrefs Pgenarray -> Kccall("array_get", 2)
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| Parrayrefs Pfloatarray -> Kccall("array_get_float", 2)
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| Parrayrefs _ -> Kccall("array_get_addr", 2)
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| Parraysets Pgenarray -> Kccall("array_set", 3)
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| Parraysets Pfloatarray -> Kccall("array_set_float", 3)
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| Parraysets _ -> Kccall("array_set_addr", 3)
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| Parrayrefu Pgenarray -> Kccall("array_unsafe_get", 2)
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| Parrayrefu Pfloatarray -> Kccall("array_unsafe_get_float", 2)
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| Parrayrefu _ -> Kgetvectitem
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| Parraysetu Pgenarray -> Kccall("array_unsafe_set", 3)
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| Parraysetu Pfloatarray -> Kccall("array_unsafe_set_float", 3)
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| Parraysetu _ -> Ksetvectitem
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| Pisint -> Kisint
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| Pbittest -> Kccall("bitvect_test", 2)
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| _ -> fatal_error "Bytegen.comp_expr: prim" in
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comp_args env args sz (instr :: cont)
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| Lcatch(body, Lstaticfail) ->
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comp_expr env body sz cont
|
|
| Lcatch(body, handler) ->
|
|
let (branch1, cont1) = make_branch cont in
|
|
let (lbl_handler, cont2) = label_code (comp_expr env handler sz cont1) in
|
|
let saved_lbl_staticfail = !lbl_staticfail
|
|
and saved_sz_staticfail = !sz_staticfail in
|
|
lbl_staticfail := Some lbl_handler;
|
|
sz_staticfail := sz;
|
|
let cont3 = comp_expr env body sz (branch1 :: cont2) in
|
|
lbl_staticfail := saved_lbl_staticfail;
|
|
sz_staticfail := saved_sz_staticfail;
|
|
cont3
|
|
| Lstaticfail ->
|
|
let cont = discard_dead_code cont in
|
|
begin match !lbl_staticfail with
|
|
None -> cont
|
|
| Some label ->
|
|
add_pop (sz - !sz_staticfail) (Kbranch label :: cont)
|
|
end
|
|
| Ltrywith(body, id, handler) ->
|
|
let (branch1, cont1) = make_branch cont in
|
|
let lbl_handler = new_label() in
|
|
Kpushtrap lbl_handler ::
|
|
comp_expr env body (sz+4) (Kpoptrap :: branch1 ::
|
|
Klabel lbl_handler :: Kpush ::
|
|
comp_expr (add_var id (sz+1) env) handler (sz+1) (add_pop 1 cont1))
|
|
| Lifthenelse(cond, ifso, ifnot) ->
|
|
comp_binary_test env cond ifso ifnot sz cont
|
|
| Lsequence(exp1, exp2) ->
|
|
comp_expr env exp1 sz (comp_expr env exp2 sz cont)
|
|
| Lwhile(cond, body) ->
|
|
let lbl_loop = new_label() in
|
|
let lbl_test = new_label() in
|
|
Kbranch lbl_test :: Klabel lbl_loop :: Kcheck_signals ::
|
|
comp_expr env body sz
|
|
(Klabel lbl_test ::
|
|
comp_expr env cond sz (Kbranchif lbl_loop :: add_const_unit cont))
|
|
| Lfor(param, start, stop, dir, body) ->
|
|
let lbl_loop = new_label() in
|
|
let lbl_test = new_label() in
|
|
let offset = match dir with Upto -> 1 | Downto -> -1 in
|
|
let comp = match dir with Upto -> Cle | Downto -> Cge in
|
|
comp_expr env start sz
|
|
(Kpush :: comp_expr env stop (sz+1)
|
|
(Kpush :: Kbranch lbl_test ::
|
|
Klabel lbl_loop :: Kcheck_signals ::
|
|
comp_expr (add_var param (sz+1) env) body (sz+2)
|
|
(Kacc 1 :: Koffsetint offset :: Kassign 1 ::
|
|
Klabel lbl_test ::
|
|
Kacc 0 :: Kpush :: Kacc 2 :: Kintcomp comp ::
|
|
Kbranchif lbl_loop ::
|
|
add_const_unit (add_pop 2 cont))))
|
|
| Lswitch(arg, sw) ->
|
|
let (branch, cont1) = make_branch cont in
|
|
let c = ref (discard_dead_code cont1) in
|
|
let act_consts = Array.create sw.sw_numconsts Lstaticfail in
|
|
List.iter (fun (n, act) -> act_consts.(n) <- act) sw.sw_consts;
|
|
let act_blocks = Array.create sw.sw_numblocks Lstaticfail in
|
|
List.iter (fun (n, act) -> act_blocks.(n) <- act) sw.sw_blocks;
|
|
let lbl_consts = Array.create sw.sw_numconsts 0 in
|
|
let lbl_blocks = Array.create sw.sw_numblocks 0 in
|
|
for i = sw.sw_numblocks - 1 downto 0 do
|
|
let (lbl, c1) =
|
|
label_code(comp_expr env act_blocks.(i) sz (branch :: !c)) in
|
|
lbl_blocks.(i) <- lbl;
|
|
c := discard_dead_code c1
|
|
done;
|
|
for i = sw.sw_numconsts - 1 downto 0 do
|
|
let (lbl, c1) =
|
|
label_code(comp_expr env act_consts.(i) sz (branch :: !c)) in
|
|
lbl_consts.(i) <- lbl;
|
|
c := discard_dead_code c1
|
|
done;
|
|
if sw.sw_checked then c := comp_expr env Lstaticfail sz !c;
|
|
comp_expr env arg sz (Kswitch(lbl_consts, lbl_blocks) :: !c)
|
|
| Lassign(id, expr) ->
|
|
begin try
|
|
let pos = Ident.find_same id env.ce_stack in
|
|
comp_expr env expr sz (Kassign(sz - pos) :: cont)
|
|
with Not_found ->
|
|
fatal_error "Bytegen.comp_expr: assign"
|
|
end
|
|
| Levent(lam, lev) ->
|
|
let event kind info =
|
|
{ ev_pos = 0; (* patched in emitcode *)
|
|
ev_module = !compunit_name;
|
|
ev_char = lev.lev_loc;
|
|
ev_kind = kind;
|
|
ev_info = info;
|
|
ev_typenv = lev.lev_env;
|
|
ev_compenv = env;
|
|
ev_stacksize = sz;
|
|
ev_repr =
|
|
begin match lev.lev_repr with
|
|
None ->
|
|
Event_none
|
|
| Some ({contents = 1} as repr) when lev.lev_kind = Lev_function ->
|
|
Event_child repr
|
|
| Some ({contents = 1} as repr) ->
|
|
Event_parent repr
|
|
| Some repr when lev.lev_kind = Lev_function ->
|
|
Event_parent repr
|
|
| Some repr ->
|
|
Event_child repr
|
|
end }
|
|
in
|
|
begin match lev.lev_kind with
|
|
Lev_before ->
|
|
let c = comp_expr env lam sz cont in
|
|
let ev = event Event_before Event_other in
|
|
add_event ev c
|
|
| Lev_function ->
|
|
let c = comp_expr env lam sz cont in
|
|
let ev = event Event_pseudo Event_function in
|
|
add_event ev c
|
|
| Lev_after _ when is_tailcall cont -> (* don't destroy tail call opt *)
|
|
comp_expr env lam sz cont
|
|
| Lev_after ty ->
|
|
let info =
|
|
match lam with
|
|
Lapply(_, args) -> Event_return (List.length args)
|
|
| Lsend(_, _, args) -> Event_return (List.length args + 1)
|
|
| _ -> Event_other
|
|
in
|
|
let ev = event (Event_after ty) info in
|
|
let cont1 = add_event ev cont in
|
|
comp_expr env lam sz cont1
|
|
end
|
|
| Lifused (_, exp) ->
|
|
comp_expr env exp sz cont
|
|
|
|
(* Compile a list of arguments [e1; ...; eN] to a primitive operation.
|
|
The values of eN ... e2 are pushed on the stack, e2 at top of stack,
|
|
then e3, then ... The value of e1 is left in the accumulator. *)
|
|
|
|
and comp_args env argl sz cont =
|
|
comp_expr_list env (List.rev argl) sz cont
|
|
|
|
and comp_expr_list env exprl sz cont =
|
|
match exprl with
|
|
[] -> cont
|
|
| [exp] -> comp_expr env exp sz cont
|
|
| exp :: rem ->
|
|
comp_expr env exp sz (Kpush :: comp_expr_list env rem (sz+1) cont)
|
|
|
|
(* Compile an if-then-else test. *)
|
|
|
|
and comp_binary_test env cond ifso ifnot sz cont =
|
|
let cont_cond =
|
|
if ifnot = Lconst const_unit then begin
|
|
let (lbl_end, cont1) = label_code cont in
|
|
Kstrictbranchifnot lbl_end :: comp_expr env ifso sz cont1
|
|
end else
|
|
if ifso = Lstaticfail && (sz = !sz_staticfail || !lbl_staticfail = None)
|
|
then
|
|
let cont = comp_expr env ifnot sz cont in
|
|
match !lbl_staticfail with
|
|
None -> cont
|
|
| Some label -> Kbranchif label :: cont
|
|
else
|
|
if ifnot = Lstaticfail && (sz = !sz_staticfail || !lbl_staticfail = None)
|
|
then
|
|
let cont = comp_expr env ifso sz cont in
|
|
match !lbl_staticfail with
|
|
None -> cont
|
|
| Some label -> Kbranchifnot label :: cont
|
|
else begin
|
|
let (branch_end, cont1) = make_branch cont in
|
|
let (lbl_not, cont2) = label_code(comp_expr env ifnot sz cont1) in
|
|
Kbranchifnot lbl_not :: comp_expr env ifso sz (branch_end :: cont2)
|
|
end in
|
|
comp_expr env cond sz cont_cond
|
|
|
|
(**** Compilation of functions ****)
|
|
|
|
let comp_function tc cont =
|
|
let arity = List.length tc.params in
|
|
let rec positions pos delta = function
|
|
[] -> Ident.empty
|
|
| id :: rem -> Ident.add id pos (positions (pos + delta) delta rem) in
|
|
let env =
|
|
{ ce_stack = positions arity (-1) tc.params;
|
|
ce_heap = positions (2 * (tc.num_defs - tc.rec_pos) - 1) 1 tc.free_vars;
|
|
ce_rec = positions (-2 * tc.rec_pos) 2 tc.rec_vars } in
|
|
let cont1 =
|
|
comp_expr env tc.body arity (Kreturn arity :: cont) in
|
|
if arity > 1 then
|
|
Krestart :: Klabel tc.label :: Kgrab(arity - 1) :: cont1
|
|
else
|
|
Klabel tc.label :: cont1
|
|
|
|
let comp_remainder cont =
|
|
let c = ref cont in
|
|
begin try
|
|
while true do
|
|
c := comp_function (Stack.pop functions_to_compile) !c
|
|
done
|
|
with Stack.Empty ->
|
|
()
|
|
end;
|
|
!c
|
|
|
|
(**** Compilation of a lambda phrase ****)
|
|
|
|
let compile_implementation modulename expr =
|
|
Stack.clear functions_to_compile;
|
|
label_counter := 0;
|
|
lbl_staticfail := None;
|
|
sz_staticfail := 0;
|
|
compunit_name := modulename;
|
|
let init_code = comp_expr empty_env expr 0 [] in
|
|
if Stack.length functions_to_compile > 0 then begin
|
|
let lbl_init = new_label() in
|
|
Kbranch lbl_init :: comp_remainder (Klabel lbl_init :: init_code)
|
|
end else
|
|
init_code
|
|
|
|
let compile_phrase expr =
|
|
Stack.clear functions_to_compile;
|
|
label_counter := 0;
|
|
lbl_staticfail := None;
|
|
sz_staticfail := 0;
|
|
let init_code = comp_expr empty_env expr 1 [Kreturn 1] in
|
|
let fun_code = comp_remainder [] in
|
|
(init_code, fun_code)
|
|
|