268 lines
8.6 KiB
OCaml
268 lines
8.6 KiB
OCaml
(***********************************************************************)
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(* *)
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(* OCaml *)
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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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(* Transformation of Mach code into a list of pseudo-instructions. *)
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open Reg
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open Mach
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type label = int
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let label_counter = ref 99
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let new_label() = incr label_counter; !label_counter
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type instruction =
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{ mutable desc: instruction_desc;
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mutable next: instruction;
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arg: Reg.t array;
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res: Reg.t array;
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dbg: Debuginfo.t;
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live: Reg.Set.t }
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and instruction_desc =
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Lend
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| Lop of operation
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| Lreloadretaddr
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| Lreturn
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| Llabel of label
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| Lbranch of label
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| Lcondbranch of test * label
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| Lcondbranch3 of label option * label option * label option
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| Lswitch of label array
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| Lsetuptrap of label
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| Lpushtrap
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| Lpoptrap
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| Lraise
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let has_fallthrough = function
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| Lreturn | Lbranch _ | Lswitch _ | Lraise
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| Lop Itailcall_ind | Lop (Itailcall_imm _) -> false
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| _ -> true
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type fundecl =
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{ fun_name: string;
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fun_body: instruction;
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fun_fast: bool }
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(* Invert a test *)
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let invert_integer_test = function
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Isigned cmp -> Isigned(Cmm.negate_comparison cmp)
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| Iunsigned cmp -> Iunsigned(Cmm.negate_comparison cmp)
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let invert_test = function
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Itruetest -> Ifalsetest
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| Ifalsetest -> Itruetest
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| Iinttest(cmp) -> Iinttest(invert_integer_test cmp)
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| Iinttest_imm(cmp, n) -> Iinttest_imm(invert_integer_test cmp, n)
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| Ifloattest(cmp, neg) -> Ifloattest(cmp, not neg)
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| Ieventest -> Ioddtest
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| Ioddtest -> Ieventest
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(* The "end" instruction *)
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let rec end_instr =
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{ desc = Lend;
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next = end_instr;
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arg = [||];
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res = [||];
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dbg = Debuginfo.none;
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live = Reg.Set.empty }
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(* Cons an instruction (live, debug empty) *)
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let instr_cons d a r n =
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{ desc = d; next = n; arg = a; res = r;
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dbg = Debuginfo.none; live = Reg.Set.empty }
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(* Cons a simple instruction (arg, res, live empty) *)
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let cons_instr d n =
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{ desc = d; next = n; arg = [||]; res = [||];
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dbg = Debuginfo.none; live = Reg.Set.empty }
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(* Build an instruction with arg, res, dbg, live taken from
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the given Mach.instruction *)
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let copy_instr d i n =
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{ desc = d; next = n;
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arg = i.Mach.arg; res = i.Mach.res;
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dbg = i.Mach.dbg; live = i.Mach.live }
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(*
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Label the beginning of the given instruction sequence.
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- If the sequence starts with a branch, jump over it.
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- If the sequence is the end, (tail call position), just do nothing
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*)
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let get_label n = match n.desc with
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Lbranch lbl -> (lbl, n)
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| Llabel lbl -> (lbl, n)
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| Lend -> (-1, n)
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| _ -> let lbl = new_label() in (lbl, cons_instr (Llabel lbl) n)
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(* Check the fallthrough label *)
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let check_label n = match n.desc with
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| Lbranch lbl -> lbl
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| Llabel lbl -> lbl
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| _ -> -1
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(* Discard all instructions up to the next label.
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This function is to be called before adding a non-terminating
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instruction. *)
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let rec discard_dead_code n =
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match n.desc with
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Lend -> n
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| Llabel _ -> n
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(* Do not discard Lpoptrap or Istackoffset instructions,
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as this may cause a stack imbalance later during assembler generation. *)
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| Lpoptrap -> n
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| Lop(Istackoffset _) -> n
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| _ -> discard_dead_code n.next
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(*
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Add a branch in front of a continuation.
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Discard dead code in the continuation.
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Does not insert anything if we're just falling through
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or if we jump to dead code after the end of function (lbl=-1)
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*)
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let add_branch lbl n =
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if lbl >= 0 then
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let n1 = discard_dead_code n in
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match n1.desc with
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| Llabel lbl1 when lbl1 = lbl -> n1
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| _ -> cons_instr (Lbranch lbl) n1
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else
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discard_dead_code n
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(* Current labels for exit handler *)
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let exit_label = ref []
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let find_exit_label k =
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try
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List.assoc k !exit_label
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with
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| Not_found -> Misc.fatal_error "Linearize.find_exit_label"
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let is_next_catch n = match !exit_label with
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| (n0,_)::_ when n0=n -> true
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| _ -> false
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(* Linearize an instruction [i]: add it in front of the continuation [n] *)
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let rec linear i n =
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match i.Mach.desc with
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Iend -> n
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| Iop(Itailcall_ind | Itailcall_imm _ as op) ->
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copy_instr (Lop op) i (discard_dead_code n)
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| Iop(Imove | Ireload | Ispill)
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when i.Mach.arg.(0).loc = i.Mach.res.(0).loc ->
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linear i.Mach.next n
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| Iop op ->
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copy_instr (Lop op) i (linear i.Mach.next n)
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| Ireturn ->
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let n1 = copy_instr Lreturn i (discard_dead_code n) in
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if !Proc.contains_calls
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then cons_instr Lreloadretaddr n1
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else n1
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| Iifthenelse(test, ifso, ifnot) ->
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let n1 = linear i.Mach.next n in
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begin match (ifso.Mach.desc, ifnot.Mach.desc, n1.desc) with
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Iend, _, Lbranch lbl ->
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copy_instr (Lcondbranch(test, lbl)) i (linear ifnot n1)
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| _, Iend, Lbranch lbl ->
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copy_instr (Lcondbranch(invert_test test, lbl)) i (linear ifso n1)
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| Iexit nfail1, Iexit nfail2, _
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when is_next_catch nfail1 ->
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let lbl2 = find_exit_label nfail2 in
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copy_instr
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(Lcondbranch (invert_test test, lbl2)) i (linear ifso n1)
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| Iexit nfail, _, _ ->
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let n2 = linear ifnot n1
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and lbl = find_exit_label nfail in
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copy_instr (Lcondbranch(test, lbl)) i n2
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| _, Iexit nfail, _ ->
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let n2 = linear ifso n1 in
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let lbl = find_exit_label nfail in
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copy_instr (Lcondbranch(invert_test test, lbl)) i n2
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| Iend, _, _ ->
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let (lbl_end, n2) = get_label n1 in
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copy_instr (Lcondbranch(test, lbl_end)) i (linear ifnot n2)
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| _, Iend, _ ->
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let (lbl_end, n2) = get_label n1 in
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copy_instr (Lcondbranch(invert_test test, lbl_end)) i
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(linear ifso n2)
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| _, _, _ ->
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(* Should attempt branch prediction here *)
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let (lbl_end, n2) = get_label n1 in
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let (lbl_else, nelse) = get_label (linear ifnot n2) in
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copy_instr (Lcondbranch(invert_test test, lbl_else)) i
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(linear ifso (add_branch lbl_end nelse))
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end
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| Iswitch(index, cases) ->
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let lbl_cases = Array.create (Array.length cases) 0 in
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let (lbl_end, n1) = get_label(linear i.Mach.next n) in
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let n2 = ref (discard_dead_code n1) in
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for i = Array.length cases - 1 downto 0 do
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let (lbl_case, ncase) =
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get_label(linear cases.(i) (add_branch lbl_end !n2)) in
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lbl_cases.(i) <- lbl_case;
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n2 := discard_dead_code ncase
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done;
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(* Switches with 1 and 2 branches have been eliminated earlier.
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Here, we do something for switches with 3 branches. *)
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if Array.length index = 3 then begin
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let fallthrough_lbl = check_label !n2 in
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let find_label n =
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let lbl = lbl_cases.(index.(n)) in
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if lbl = fallthrough_lbl then None else Some lbl in
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copy_instr (Lcondbranch3(find_label 0, find_label 1, find_label 2))
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i !n2
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end else
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copy_instr (Lswitch(Array.map (fun n -> lbl_cases.(n)) index)) i !n2
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| Iloop body ->
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let lbl_head = new_label() in
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let n1 = linear i.Mach.next n in
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let n2 = linear body (cons_instr (Lbranch lbl_head) n1) in
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cons_instr (Llabel lbl_head) n2
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| Icatch(io, body, handler) ->
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let (lbl_end, n1) = get_label(linear i.Mach.next n) in
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let (lbl_handler, n2) = get_label(linear handler n1) in
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exit_label := (io, lbl_handler) :: !exit_label ;
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let n3 = linear body (add_branch lbl_end n2) in
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exit_label := List.tl !exit_label;
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n3
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| Iexit nfail ->
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let n1 = linear i.Mach.next n in
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let lbl = find_exit_label nfail in
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add_branch lbl n1
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| Itrywith(body, handler) ->
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let (lbl_join, n1) = get_label (linear i.Mach.next n) in
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let (lbl_body, n2) =
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get_label (cons_instr Lpushtrap
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(linear body (cons_instr Lpoptrap n1))) in
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cons_instr (Lsetuptrap lbl_body)
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(linear handler (add_branch lbl_join n2))
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| Iraise ->
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copy_instr Lraise i (discard_dead_code n)
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let fundecl f =
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{ fun_name = f.Mach.fun_name;
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fun_body = linear f.Mach.fun_body end_instr;
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fun_fast = f.Mach.fun_fast }
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