865 lines
28 KiB
Plaintext
865 lines
28 KiB
Plaintext
(***********************************************************************)
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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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(* Emission of PowerPC assembly code *)
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module StringSet = Set.Make(struct type t = string let compare = compare end)
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open Misc
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open Cmm
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open Arch
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open Proc
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open Reg
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open Mach
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open Linearize
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open Emitaux
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(* Distinguish between the PowerPC and the RS6000 submodels *)
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let powerpc =
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match Config.model with
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"ppc" -> true
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| "rs6000" -> false
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| _ -> fatal_error "wrong $(MODEL)"
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(* Distinguish between the PowerOpen (AIX, MacOS) relative-addressing model
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and the SVR4 (Solaris, MkLinux) absolute-addressing model. *)
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let toc =
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match Config.system with
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"aix" -> true
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| "elf" -> false
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| _ -> fatal_error "wrong $(SYSTEM)"
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(* Layout of the stack *)
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(* In the TOC-based model:
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The bottom 24 bytes of the stack are reserved at all times
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for a standard linkage area.
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In this area, the word at offset +20 is used by glue code and others to
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save the TOC register.
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The bottom two words are used as temporaries and for trap frames.
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The stack is kept 8-aligned.
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In the absolute-address model:
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No reserved space at the bottom of the stack.
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The stack is kept 8-aligned. *)
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let stack_linkage_area = if toc then 24 else 0
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let trap_frame_size = if toc then 24 else 8
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let stack_offset = ref 0
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let frame_size () =
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let size =
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stack_linkage_area + (* The bottom linkage area *)
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!stack_offset + (* Trap frame, outgoing parameters *)
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4 * num_stack_slots.(0) + 8 * num_stack_slots.(1) + (* Local variables *)
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(if !contains_calls then 4 else 0) in (* The return address *)
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Misc.align size 8
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let slot_offset loc cls =
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match loc with
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Local n ->
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if cls = 0
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then stack_linkage_area + !stack_offset + num_stack_slots.(1) * 8 + n * 4
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else stack_linkage_area + !stack_offset + n * 8
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| Incoming n -> frame_size() + n
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| Outgoing n -> n
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(* Output a symbol *)
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let emit_symbol s =
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Emitaux.emit_symbol '.' s
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let emit_codesymbol s =
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if toc then emit_char '.';
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emit_symbol s
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(* Output a label *)
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let label_prefix = if toc then "L.." else ".L"
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let emit_label lbl =
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emit_string label_prefix; emit_int lbl
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(* Output a pseudo-register *)
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let emit_reg r =
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match r.loc with
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Reg r -> emit_string (register_name r)
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| _ -> fatal_error "Emit.emit_reg"
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(* Output a stack reference *)
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let emit_stack r =
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match r.loc with
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Stack s ->
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let ofs = slot_offset s (register_class r) in `{emit_int ofs}(1)`
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| _ -> fatal_error "Emit.emit_stack"
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(* Split a 32-bit integer constants in two 16-bit halves *)
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let low n = n land 0xFFFF
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let high n = n asr 16
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let nativelow n = Nativeint.to_int n land 0xFFFF
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let nativehigh n = Nativeint.to_int (Nativeint.shift n (-16))
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let is_native_immediate n =
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Nativeint.cmp n 32767 <= 0 && Nativeint.cmp n (-32768) >= 0
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(* Output a load or store operation *)
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let emit_symbol_offset s d =
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emit_symbol s;
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if d > 0 then `+`;
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if d <> 0 then emit_int d
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let emit_load_store instr addressing_mode addr n arg =
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match addressing_mode with
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Ibased(s, d) ->
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(* Only relevant in the absolute model *)
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` addis 11, 0, {emit_symbol_offset s d}@ha\n`;
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` {emit_string instr} {emit_reg arg}, {emit_symbol_offset s d}@l(11)\n`
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| Iindexed ofs ->
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if is_immediate ofs then
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` {emit_string instr} {emit_reg arg}, {emit_int ofs}({emit_reg addr.(n)})\n`
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else begin
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` lis 0, {emit_int(high ofs)}\n`;
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if low ofs <> 0 then
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` ori 0, 0, {emit_int(low ofs)}\n`;
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` {emit_string instr}x {emit_reg arg}, {emit_reg addr.(n)}, 0\n`
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end
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| Iindexed2 ->
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` {emit_string instr}x {emit_reg arg}, {emit_reg addr.(n)}, {emit_reg addr.(n+1)}\n`
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(* After a comparison, extract the result as 0 or 1 *)
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let emit_set_comp cmp res =
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` mfcr 0\n`;
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let bitnum =
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match cmp with
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Ceq | Cne -> 2
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| Cgt | Cle -> 1
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| Clt | Cge -> 0 in
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` rlwinm {emit_reg res}, 0, {emit_int(bitnum+1)}, 1\n`;
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begin match cmp with
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Cne | Cle | Cge -> ` xori {emit_reg res}, {emit_reg res}, 1\n`
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| _ -> ()
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end
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(* Record live pointers at call points *)
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type frame_descr =
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{ fd_lbl: int; (* Return address *)
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fd_frame_size: int; (* Size of stack frame *)
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fd_live_offset: int list } (* Offsets/regs of live addresses *)
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let frame_descriptors = ref([] : frame_descr list)
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let record_frame live =
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let lbl = new_label() in
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let live_offset = ref [] in
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Reg.Set.iter
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(function
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{typ = Addr; loc = Reg r} ->
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live_offset := (r lsl 1) + 1 :: !live_offset
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| {typ = Addr; loc = Stack s} as reg ->
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live_offset := slot_offset s (register_class reg) :: !live_offset
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| _ -> ())
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live;
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frame_descriptors :=
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{ fd_lbl = lbl;
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fd_frame_size = frame_size();
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fd_live_offset = !live_offset } :: !frame_descriptors;
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`{emit_label lbl}:`
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let emit_frame fd =
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` .long {emit_label fd.fd_lbl} + 4\n`;
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` .short {emit_int fd.fd_frame_size}\n`;
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` .short {emit_int (List.length fd.fd_live_offset)}\n`;
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List.iter
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(fun n ->
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` .short {emit_int n}\n`)
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fd.fd_live_offset;
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` .align 2\n`
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(* Record symbols and floating-point constants (for the TOC model).
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These will go in the toc section. *)
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let label_constant table constant =
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try
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Hashtbl.find table constant
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with Not_found ->
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let lbl = new_label() in
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Hashtbl.add table constant lbl;
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lbl
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let symbol_constants = (Hashtbl.create 17 : (string, int) Hashtbl.t)
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let float_constants = (Hashtbl.create 11 : (string, int) Hashtbl.t)
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let label_symbol s = label_constant symbol_constants s
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let label_float s = label_constant float_constants s
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let emit_symbol_constant symb lbl =
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`{emit_label lbl}: .tc {emit_symbol symb}[TC], {emit_symbol symb}\n`
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let emit_float_constant float lbl =
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`{emit_label lbl}: .tc FD_`;
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for i = 0 to 7 do
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emit_printf "%02x" (Char.code (String.unsafe_get float i))
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done;
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`[TC], 0x`;
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for i = 0 to 3 do
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emit_printf "%02x" (Char.code (String.unsafe_get float i))
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done;
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`, 0x`;
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for i = 4 to 7 do
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emit_printf "%02x" (Char.code (String.unsafe_get float i))
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done;
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`\n`
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(* Record floating-point literals (for the ELF model) *)
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let float_literals = ref ([] : (string * int) list)
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(* Names for conditional branches after comparisons *)
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let branch_for_comparison = function
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Ceq -> "beq" | Cne -> "bne"
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| Cle -> "ble" | Cgt -> "bgt"
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| Cge -> "bge" | Clt -> "blt"
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let name_for_int_comparison = function
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Isigned cmp -> ("cmpw", branch_for_comparison cmp)
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| Iunsigned cmp -> ("cmplw", branch_for_comparison cmp)
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(* Names for various instructions *)
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let name_for_intop = function
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Iadd -> "add"
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| Imul -> "mullw"
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| Idiv -> if powerpc then "divw" else "divs"
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| Iand -> "and"
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| Ior -> "or"
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| Ixor -> "xor"
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| Ilsl -> "slw"
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| Ilsr -> "srw"
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| Iasr -> "sraw"
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| _ -> Misc.fatal_error "Emit.Intop"
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let name_for_intop_imm = function
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Iadd -> "addi"
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| Imul -> "mulli"
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| Iand -> "andi."
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| Ior -> "ori"
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| Ixor -> "xori"
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| Ilsl -> "slwi"
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| Ilsr -> "srwi"
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| Iasr -> "srawi"
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| _ -> Misc.fatal_error "Emit.Intop_imm"
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let name_for_floatop1 = function
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Inegf -> "fneg"
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| Iabsf -> "fabs"
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| _ -> Misc.fatal_error "Emit.Iopf1"
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let name_for_floatop2 = function
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Iaddf -> "fadd"
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| Isubf -> "fsub"
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| Imulf -> "fmul"
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| Idivf -> "fdiv"
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| _ -> Misc.fatal_error "Emit.Iopf2"
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let name_for_specific = function
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Imultaddf -> "fmadd"
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| Imultsubf -> "fmsub"
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(* Name of current function *)
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let function_name = ref ""
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(* Entry point for tail recursive calls *)
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let tailrec_entry_point = ref 0
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(* Names of functions defined in the current file *)
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let defined_functions = ref StringSet.empty
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(* Label of glue code for calling the GC *)
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let call_gc_label = ref 0
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(* Label of jump table *)
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let lbl_jumptbl = ref 0
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(* List of all labels in jumptable (reverse order) *)
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let jumptbl_entries = ref []
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(* Number of jumptable entries *)
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let num_jumptbl_entries = ref 0
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(* Output the assembly code for an instruction *)
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let rec emit_instr i dslot =
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match i.desc with
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Lend -> ()
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| Lop(Imove | Ispill | Ireload) ->
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let src = i.arg.(0) and dst = i.res.(0) in
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if src.loc <> dst.loc then begin
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match (src, dst) with
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{loc = Reg rs; typ = (Int | Addr)}, {loc = Reg rd} ->
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` mr {emit_reg dst}, {emit_reg src}\n`
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| {loc = Reg rs; typ = Float}, {loc = Reg rd; typ = Float} ->
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` fmr {emit_reg dst}, {emit_reg src}\n`
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| {loc = Reg rs; typ = (Int | Addr)}, {loc = Stack sd} ->
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` stw {emit_reg src}, {emit_stack dst}\n`
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| {loc = Reg rs; typ = Float}, {loc = Stack sd} ->
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` stfd {emit_reg src}, {emit_stack dst}\n`
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| {loc = Stack ss; typ = (Int | Addr)}, {loc = Reg rd} ->
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` lwz {emit_reg dst}, {emit_stack src}\n`
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| {loc = Stack ss; typ = Float}, {loc = Reg rd} ->
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` lfd {emit_reg dst}, {emit_stack src}\n`
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| (_, _) ->
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fatal_error "Emit: Imove"
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end
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| Lop(Iconst_int n) ->
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if is_native_immediate n then
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` li {emit_reg i.res.(0)}, {emit_nativeint n}\n`
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else begin
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` lis {emit_reg i.res.(0)}, {emit_int(nativehigh n)}\n`;
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if nativelow n <> 0 then
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` ori {emit_reg i.res.(0)}, {emit_reg i.res.(0)}, {emit_int(nativelow n)}\n`
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end
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| Lop(Iconst_float s) ->
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if toc then begin
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let repr = (Obj.magic (float_of_string s) : string) in
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let lbl = label_float repr in
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` lfd {emit_reg i.res.(0)}, {emit_label lbl}(2) # {emit_string s}\n`
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end else begin
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let lbl = new_label() in
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float_literals := (s, lbl) :: !float_literals;
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` addis 11, 0, {emit_label lbl}@ha\n`;
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` lfd {emit_reg i.res.(0)}, {emit_label lbl}@l(11)\n`
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end
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| Lop(Iconst_symbol s) ->
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if toc then begin
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let lbl = label_symbol s in
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` lwz {emit_reg i.res.(0)}, {emit_label lbl}(2) # {emit_symbol s}\n`
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end else begin
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` addis {emit_reg i.res.(0)}, 0, {emit_symbol s}@ha\n`;
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` addi {emit_reg i.res.(0)}, {emit_reg i.res.(0)}, {emit_symbol s}@l\n`
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end
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| Lop(Icall_ind) ->
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if toc then begin
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` lwz 0, 0({emit_reg i.arg.(0)})\n`;
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` stw 2, 20(1)\n`;
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` mtlr 0\n`;
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` lwz 2, 4({emit_reg i.arg.(0)})\n`;
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record_frame i.live;
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` blrl\n`;
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` lwz 2, 20(1)\n`
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end else begin
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` mtlr {emit_reg i.arg.(0)}\n`;
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record_frame i.live;
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` blrl\n`
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end
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| Lop(Icall_imm s) ->
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record_frame i.live;
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` bl {emit_codesymbol s}\n`;
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if toc && not (StringSet.mem s !defined_functions) then
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` cror 31, 31, 31\n` (* nop *)
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| Lop(Itailcall_ind) ->
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let n = frame_size() in
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if toc then begin
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` lwz 0, 0({emit_reg i.arg.(0)})\n`;
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` lwz 2, 4({emit_reg i.arg.(0)})\n`;
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` mtctr 0\n`
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end else begin
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` mtctr {emit_reg i.arg.(0)}\n`
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end;
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if !contains_calls then begin
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` lwz 11, {emit_int(n - 4)}(1)\n`;
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` addi 1, 1, {emit_int n}\n`;
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` mtlr 11\n`
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end else begin
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` addi 1, 1, {emit_int n}\n`
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end;
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` bctr\n`
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| Lop(Itailcall_imm s) ->
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if s = !function_name then
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` b {emit_label !tailrec_entry_point}\n`
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else if not toc || StringSet.mem s !defined_functions then begin
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let n = frame_size() in
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if !contains_calls then begin
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` lwz 11, {emit_int(n - 4)}(1)\n`;
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` addi 1, 1, {emit_int n}\n`;
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` mtlr 11\n`
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end else begin
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` addi 1, 1, {emit_int n}\n`
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end;
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` b {emit_codesymbol s}\n`
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end else begin
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(* Tailcalling a function that has a possibly different TOC
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is difficult, because the callee's TOC must be loaded in r2,
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but ours must not be stored in 20(r1), which would overwrite
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our caller's saved TOC. Hence we can't go through the
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standard glue code. Here, we just proceed as in tailcall_ind. *)
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let lbl = label_symbol s in
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let n = frame_size() in
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` lwz 12, {emit_label lbl}(2) # {emit_symbol s}\n`;
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if !contains_calls then begin
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` lwz 11, {emit_int(n - 4)}(1)\n`;
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` lwz 0, 0(12)\n`;
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` lwz 2, 4(12)\n`;
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` mtctr 0\n`;
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` addi 1, 1, {emit_int n}\n`;
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` mtlr 11\n`
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end else begin
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` lwz 0, 0(12)\n`;
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` lwz 2, 4(12)\n`;
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` mtctr 0\n`;
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` addi 1, 1, {emit_int n}\n`
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end;
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` bctr\n`
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end
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| Lop(Iextcall(s, alloc)) ->
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if alloc then begin
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if toc then begin
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let lbl = label_symbol s in
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` lwz 11, {emit_label lbl}(2) # {emit_symbol s}\n`
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end else begin
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` addis 11, 0, {emit_symbol s}@ha\n`;
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` addi 11, 11, {emit_symbol s}@l\n`
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end;
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record_frame i.live;
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` bl {emit_codesymbol "caml_c_call"}\n`
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end else begin
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` bl {emit_codesymbol s}\n`
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end;
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if toc then
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` cror 31, 31, 31\n` (* nop *)
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| Lop(Istackoffset n) ->
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` addi 1, 1, {emit_int (-n)}\n`;
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stack_offset := !stack_offset + n
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| Lop(Iload(chunk, addr)) ->
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let loadinstr =
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match chunk with
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Word -> if i.res.(0).typ = Float then "lfd" else "lwz"
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| Byte_unsigned -> "lbz"
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| Byte_signed -> "lbz"
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| Sixteen_unsigned -> "lhz"
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| Sixteen_signed -> "lha" in
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emit_load_store loadinstr addr i.arg 0 i.res.(0);
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if chunk = Byte_signed then
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` extsb {emit_reg i.res.(0)}, {emit_reg i.res.(0)}\n`
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| Lop(Istore(chunk, addr)) ->
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let storeinstr =
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match chunk with
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Word -> if i.arg.(0).typ = Float then "stfd" else "stw"
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| Byte_unsigned | Byte_signed -> "stb"
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| Sixteen_unsigned | Sixteen_signed -> "sth" in
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emit_load_store storeinstr addr i.arg 1 i.arg.(0)
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| Lop(Ialloc n) ->
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if !call_gc_label = 0 then call_gc_label := new_label();
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` addi 31, 31, {emit_int(-n)}\n`;
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` cmplw 31, 30\n`;
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` addi {emit_reg i.res.(0)}, 31, 4\n`;
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record_frame i.live;
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` bltl {emit_label !call_gc_label}\n`
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|
| Lop(Iintop Isub) -> (* subf has swapped arguments *)
|
|
(* Use subfc instead of subf for RS6000 compatibility. *)
|
|
` subfc {emit_reg i.res.(0)}, {emit_reg i.arg.(1)}, {emit_reg i.arg.(0)}\n`
|
|
| Lop(Iintop Imod) ->
|
|
if powerpc then begin
|
|
` divw 0, {emit_reg i.arg.(0)}, {emit_reg i.arg.(1)}\n`;
|
|
` mullw 0, 0, {emit_reg i.arg.(1)}\n`;
|
|
` subfc {emit_reg i.res.(0)}, 0, {emit_reg i.arg.(0)}\n`
|
|
end else begin
|
|
` divs 0, {emit_reg i.arg.(0)}, {emit_reg i.arg.(1)}\n`;
|
|
` mfmq {emit_reg i.res.(0)}\n`
|
|
end
|
|
| Lop(Iintop(Icomp cmp)) ->
|
|
begin match cmp with
|
|
Isigned c ->
|
|
` cmpw {emit_reg i.arg.(0)}, {emit_reg i.arg.(1)}\n`;
|
|
emit_set_comp c i.res.(0)
|
|
| Iunsigned c ->
|
|
` cmplw {emit_reg i.arg.(0)}, {emit_reg i.arg.(1)}\n`;
|
|
emit_set_comp c i.res.(0)
|
|
end
|
|
| Lop(Iintop Icheckbound) ->
|
|
` twlle {emit_reg i.arg.(0)}, {emit_reg i.arg.(1)}\n`
|
|
| Lop(Iintop op) ->
|
|
let instr = name_for_intop op in
|
|
` {emit_string instr} {emit_reg i.res.(0)}, {emit_reg i.arg.(0)}, {emit_reg i.arg.(1)}\n`
|
|
| Lop(Iintop_imm(Isub, n)) ->
|
|
` addi {emit_reg i.res.(0)}, {emit_reg i.arg.(0)}, {emit_int(-n)}\n`
|
|
| Lop(Iintop_imm(Idiv, n)) -> (* n is guaranteed to be a power of 2 *)
|
|
let l = Misc.log2 n in
|
|
` srawi {emit_reg i.res.(0)}, {emit_reg i.arg.(0)}, {emit_int l}\n`;
|
|
` addze {emit_reg i.res.(0)}, {emit_reg i.res.(0)}\n`
|
|
| Lop(Iintop_imm(Imod, n)) -> (* n is guaranteed to be a power of 2 *)
|
|
let l = Misc.log2 n in
|
|
` srawi 0, {emit_reg i.arg.(0)}, {emit_int l}\n`;
|
|
` addze 0, 0\n`;
|
|
` slwi 0, 0, {emit_int l}\n`;
|
|
` subfc {emit_reg i.res.(0)}, 0, {emit_reg i.arg.(0)}\n`
|
|
| Lop(Iintop_imm(Icomp cmp, n)) ->
|
|
begin match cmp with
|
|
Isigned c ->
|
|
` cmpwi {emit_reg i.arg.(0)}, {emit_int n}\n`;
|
|
emit_set_comp c i.res.(0)
|
|
| Iunsigned c ->
|
|
` cmplwi {emit_reg i.arg.(0)}, {emit_int n}\n`;
|
|
emit_set_comp c i.res.(0)
|
|
end
|
|
| Lop(Iintop_imm(Icheckbound, n)) ->
|
|
` twllei {emit_reg i.arg.(0)}, {emit_int n}\n`
|
|
| Lop(Iintop_imm(op, n)) ->
|
|
let instr = name_for_intop_imm op in
|
|
` {emit_string instr} {emit_reg i.res.(0)}, {emit_reg i.arg.(0)}, {emit_int n}\n`
|
|
| Lop(Inegf | Iabsf as op) ->
|
|
let instr = name_for_floatop1 op in
|
|
` {emit_string instr} {emit_reg i.res.(0)}, {emit_reg i.arg.(0)}\n`
|
|
| Lop(Iaddf | Isubf | Imulf | Idivf as op) ->
|
|
let instr = name_for_floatop2 op in
|
|
` {emit_string instr} {emit_reg i.res.(0)}, {emit_reg i.arg.(0)}, {emit_reg i.arg.(1)}\n`
|
|
| Lop(Ifloatofint) ->
|
|
if toc then begin
|
|
let lbl = label_float "\067\048\000\000\128\000\000\000" in
|
|
(* That string above represents 0x4330000080000000 *)
|
|
` lfd 0, {emit_label lbl}(2)\n`
|
|
end else begin
|
|
let lbl = new_label() in
|
|
float_literals := ("4.503601774854144e15", lbl) :: !float_literals;
|
|
(* That float above also represents 0x4330000080000000 *)
|
|
` addis 11, 0, {emit_label lbl}@ha\n`;
|
|
` lfd 0, {emit_label lbl}@l(11)\n`
|
|
end;
|
|
` lis 0, 0x4330\n`;
|
|
` stwu 0, -8(1)\n`;
|
|
` xoris 0, {emit_reg i.arg.(0)}, 0x8000\n`;
|
|
` stw 0, 4(1)\n`;
|
|
` lfd {emit_reg i.res.(0)}, 0(1)\n`;
|
|
` addi 1, 1, 8\n`;
|
|
` fsub {emit_reg i.res.(0)}, {emit_reg i.res.(0)}, 0\n`
|
|
| Lop(Iintoffloat) ->
|
|
` fctiwz 0, {emit_reg i.arg.(0)}\n`;
|
|
` stfdu 0, -8(1)\n`;
|
|
` lwz {emit_reg i.res.(0)}, 4(1)\n`;
|
|
` addi 1, 1, 8\n`
|
|
| Lop(Ispecific sop) ->
|
|
let instr = name_for_specific sop in
|
|
` {emit_string instr} {emit_reg i.res.(0)}, {emit_reg i.arg.(0)}, {emit_reg i.arg.(1)}, {emit_reg i.arg.(2)}\n`
|
|
| Lreloadretaddr ->
|
|
let n = frame_size() in
|
|
` lwz 11, {emit_int(n - 4)}(1)\n`;
|
|
` mtlr 11\n`
|
|
| Lreturn ->
|
|
let n = frame_size() in
|
|
` addi 1, 1, {emit_int n}\n`;
|
|
` blr\n`
|
|
| Llabel lbl ->
|
|
`{emit_label lbl}:\n`
|
|
| Lbranch lbl ->
|
|
` b {emit_label lbl}\n`
|
|
| Lcondbranch(tst, lbl) ->
|
|
begin match tst with
|
|
Itruetest ->
|
|
` cmpwi {emit_reg i.arg.(0)}, 0\n`;
|
|
emit_delay dslot;
|
|
` bne {emit_label lbl}\n`
|
|
| Ifalsetest ->
|
|
` cmpwi {emit_reg i.arg.(0)}, 0\n`;
|
|
emit_delay dslot;
|
|
` beq {emit_label lbl}\n`
|
|
| Iinttest cmp ->
|
|
let (comp, branch) = name_for_int_comparison cmp in
|
|
` {emit_string comp} {emit_reg i.arg.(0)}, {emit_reg i.arg.(1)}\n`;
|
|
emit_delay dslot;
|
|
` {emit_string branch} {emit_label lbl}\n`
|
|
| Iinttest_imm(cmp, n) ->
|
|
let (comp, branch) = name_for_int_comparison cmp in
|
|
` {emit_string comp}i {emit_reg i.arg.(0)}, {emit_int n}\n`;
|
|
emit_delay dslot;
|
|
` {emit_string branch} {emit_label lbl}\n`
|
|
| Ifloattest(cmp, neg) ->
|
|
` fcmpu 0, {emit_reg i.arg.(0)}, {emit_reg i.arg.(1)}\n`;
|
|
(* bit 0 = lt, bit 1 = gt, bit 2 = eq *)
|
|
let (bitnum, negtst) =
|
|
match cmp with
|
|
Ceq -> (2, neg)
|
|
| Cne -> (2, not neg)
|
|
| Cle -> ` cror 3, 0, 2\n`; (* lt or eq *)
|
|
(3, neg)
|
|
| Cgt -> (1, neg)
|
|
| Cge -> ` cror 3, 1, 2\n`; (* gt or eq *)
|
|
(3, neg)
|
|
| Clt -> (0, neg) in
|
|
emit_delay dslot;
|
|
if negtst
|
|
then ` bf {emit_int bitnum}, {emit_label lbl}\n`
|
|
else ` bt {emit_int bitnum}, {emit_label lbl}\n`
|
|
| Ioddtest ->
|
|
` andi. 0, {emit_reg i.arg.(0)}, 1\n`;
|
|
emit_delay dslot;
|
|
` bne {emit_label lbl}\n`
|
|
| Ieventest ->
|
|
` andi. 0, {emit_reg i.arg.(0)}, 1\n`;
|
|
emit_delay dslot;
|
|
` beq {emit_label lbl}\n`
|
|
end
|
|
| Lcondbranch3(lbl0, lbl1, lbl2) ->
|
|
` cmpwi {emit_reg i.arg.(0)}, 1\n`;
|
|
emit_delay dslot;
|
|
begin match lbl0 with
|
|
None -> ()
|
|
| Some lbl -> ` blt {emit_label lbl}\n`
|
|
end;
|
|
begin match lbl1 with
|
|
None -> ()
|
|
| Some lbl -> ` beq {emit_label lbl}\n`
|
|
end;
|
|
begin match lbl2 with
|
|
None -> ()
|
|
| Some lbl -> ` bgt {emit_label lbl}\n`
|
|
end
|
|
| Lswitch jumptbl ->
|
|
if !lbl_jumptbl = 0 then lbl_jumptbl := new_label();
|
|
if toc then begin
|
|
` lwz 11, {emit_label !lbl_jumptbl}(2)\n`
|
|
end else begin
|
|
` addis 11, 0, {emit_label !lbl_jumptbl}@ha\n`;
|
|
` addi 11, 11, {emit_label !lbl_jumptbl}@l\n`
|
|
end;
|
|
` addi 0, {emit_reg i.arg.(0)}, {emit_int !num_jumptbl_entries}\n`;
|
|
` slwi 0, 0, 2\n`;
|
|
` lwzx 0, 11, 0\n`;
|
|
` add 0, 11, 0\n`;
|
|
` mtctr 0\n`;
|
|
` bctr\n`;
|
|
for i = 0 to Array.length jumptbl - 1 do
|
|
jumptbl_entries := jumptbl.(i) :: !jumptbl_entries;
|
|
incr num_jumptbl_entries
|
|
done
|
|
| Lsetuptrap lbl ->
|
|
` bl {emit_label lbl}\n`
|
|
| Lpushtrap ->
|
|
stack_offset := !stack_offset + trap_frame_size;
|
|
` mflr 0\n`;
|
|
` stwu 0, -{emit_int trap_frame_size}(1)\n`;
|
|
` stw 29, 4(1)\n`;
|
|
if toc then
|
|
` stw 2, 20(1)\n`;
|
|
` mr 29, 1\n`
|
|
| Lpoptrap ->
|
|
` lwz 29, 4(1)\n`;
|
|
` addi 1, 1, {emit_int trap_frame_size}\n`;
|
|
stack_offset := !stack_offset - trap_frame_size
|
|
| Lraise ->
|
|
` lwz 0, 0(29)\n`;
|
|
` mr 1, 29\n`;
|
|
` mtlr 0\n`;
|
|
` lwz 29, 4(1)\n`;
|
|
if toc then
|
|
` lwz 2, 20(1)\n`;
|
|
` addi 1, 1, {emit_int trap_frame_size}\n\n`;
|
|
` blr\n`
|
|
|
|
and emit_delay = function
|
|
None -> ()
|
|
| Some i -> emit_instr i None
|
|
|
|
(* Checks if a pseudo-instruction expands to instructions
|
|
that do not branch and do not affect CR0 nor R12. *)
|
|
|
|
let is_simple_instr i =
|
|
match i.desc with
|
|
Lop op ->
|
|
begin match op with
|
|
Icall_imm _ | Icall_ind | Itailcall_imm _ | Itailcall_ind |
|
|
Iextcall(_, _) -> false
|
|
| Ialloc(_) -> false
|
|
| Iintop(Icomp _) -> false
|
|
| Iintop_imm(Iand, _) -> false
|
|
| Iintop_imm(Icomp _, _) -> false
|
|
| _ -> true
|
|
end
|
|
| Lreloadretaddr -> true
|
|
| _ -> false
|
|
|
|
let no_interference res arg =
|
|
try
|
|
for i = 0 to Array.length arg - 1 do
|
|
for j = 0 to Array.length res - 1 do
|
|
if arg.(i).loc = res.(j).loc then raise Exit
|
|
done
|
|
done;
|
|
true
|
|
with Exit ->
|
|
false
|
|
|
|
(* Emit a sequence of instructions, trying to fill delay slots for branches *)
|
|
|
|
let rec emit_all i =
|
|
match i with
|
|
{desc = Lend} -> ()
|
|
| {next = {desc = (Lcondbranch(_, _) | Lcondbranch3(_, _, _))}}
|
|
when is_simple_instr i & no_interference i.res i.next.arg ->
|
|
emit_instr i.next (Some i);
|
|
emit_all i.next.next
|
|
| _ ->
|
|
emit_instr i None;
|
|
emit_all i.next
|
|
|
|
(* Emission of a function declaration *)
|
|
|
|
let fundecl fundecl =
|
|
function_name := fundecl.fun_name;
|
|
defined_functions := StringSet.add fundecl.fun_name !defined_functions;
|
|
tailrec_entry_point := new_label();
|
|
stack_offset := 0;
|
|
call_gc_label := 0;
|
|
float_literals := [];
|
|
` .globl {emit_symbol fundecl.fun_name}\n`;
|
|
if toc then begin
|
|
` .globl .{emit_symbol fundecl.fun_name}\n`;
|
|
` .csect {emit_symbol fundecl.fun_name}[DS]\n`;
|
|
`{emit_symbol fundecl.fun_name}:\n`;
|
|
` .long .{emit_symbol fundecl.fun_name}, TOC[tc0], 0\n`;
|
|
` .csect .text[PR]\n`;
|
|
` .align 2\n`
|
|
end else begin
|
|
` .type {emit_symbol fundecl.fun_name}, @function\n`;
|
|
` .section \".text\"\n`;
|
|
` .align 2\n`
|
|
end;
|
|
`{emit_codesymbol fundecl.fun_name}:\n`;
|
|
let n = frame_size() in
|
|
if !contains_calls then begin
|
|
` mflr 0\n`;
|
|
` addi 1, 1, {emit_int(-n)}\n`;
|
|
` stw 0, {emit_int(n - 4)}(1)\n`
|
|
end else
|
|
` addi 1, 1, {emit_int(-n)}\n`;
|
|
`{emit_label !tailrec_entry_point}:\n`;
|
|
emit_all fundecl.fun_body;
|
|
(* Emit the glue code to call the GC *)
|
|
if !call_gc_label > 0 then begin
|
|
`{emit_label !call_gc_label}:\n`;
|
|
if toc then begin
|
|
` mflr 0\n`; (* Save return address in r0 *)
|
|
` bl .caml_call_gc\n`;
|
|
` cror 31, 31, 31\n`; (* nop *)
|
|
` blr\n` (* Will re-execute the allocation *)
|
|
end else begin
|
|
` b caml_call_gc\n`
|
|
end
|
|
end;
|
|
(* Emit the floating-point literals *)
|
|
if !float_literals <> [] then begin
|
|
` .section \".rodata\"\n`;
|
|
` .align 3\n`;
|
|
List.iter
|
|
(fun (f, lbl) ->
|
|
`{emit_label lbl}: .double 0d{emit_string f}\n`)
|
|
!float_literals
|
|
end
|
|
|
|
(* Emission of data *)
|
|
|
|
let data_space =
|
|
if toc
|
|
then " .csect .data[RW]\n"
|
|
else " .section \".data\"\n"
|
|
|
|
let declare_global_data s =
|
|
` .globl {emit_symbol s}\n`;
|
|
if not toc then ` .type {emit_symbol s}, @object\n`
|
|
|
|
let emit_item = function
|
|
Cdefine_symbol s ->
|
|
`{emit_symbol s}:\n`;
|
|
declare_global_data s
|
|
| Cdefine_label lbl ->
|
|
`{emit_label (lbl + 10000)}:\n`
|
|
| Cint8 n ->
|
|
` .byte {emit_int n}\n`
|
|
| Cint16 n ->
|
|
` .short {emit_int n}\n`
|
|
| Cint n ->
|
|
` .long {emit_nativeint n}\n`
|
|
| Cfloat f ->
|
|
` .double 0d{emit_string f}\n`
|
|
| Csymbol_address s ->
|
|
` .long {emit_symbol s}\n`
|
|
| Clabel_address lbl ->
|
|
` .long {emit_label (lbl + 10000)}\n`
|
|
| Cstring s ->
|
|
emit_bytes_directive " .byte " s
|
|
| Cskip n ->
|
|
if n > 0 then ` .space {emit_int n}\n`
|
|
| Calign n ->
|
|
` .align {emit_int (Misc.log2 n)}\n`
|
|
|
|
let data l =
|
|
emit_string data_space;
|
|
List.iter emit_item l
|
|
|
|
(* Beginning / end of an assembly file *)
|
|
|
|
let begin_assembly() =
|
|
Hashtbl.clear symbol_constants;
|
|
Hashtbl.clear float_constants;
|
|
defined_functions := StringSet.empty;
|
|
num_jumptbl_entries := 0;
|
|
jumptbl_entries := [];
|
|
lbl_jumptbl := 0;
|
|
(* Emit the beginning of the data segment *)
|
|
let lbl_begin = Compilenv.current_unit_name() ^ "_begin" in
|
|
emit_string data_space;
|
|
declare_global_data lbl_begin;
|
|
`{emit_symbol lbl_begin}:\n`
|
|
|
|
let end_assembly() =
|
|
(* Emit the jump table *)
|
|
if !num_jumptbl_entries > 0 then begin
|
|
let lbl_tbl =
|
|
if toc then begin
|
|
let lbl_tbl = new_label() in
|
|
` .toc\n`;
|
|
`{emit_label !lbl_jumptbl}: .tc {emit_label lbl_tbl}[TC], {emit_label lbl_tbl}\n`;
|
|
` .csect .text[PR]\n`;
|
|
lbl_tbl
|
|
end else begin
|
|
` .section \".text\"\n`;
|
|
!lbl_jumptbl
|
|
end in
|
|
`{emit_label lbl_tbl}:\n`;
|
|
List.iter
|
|
(fun lbl -> ` .long {emit_label lbl} - {emit_label lbl_tbl}\n`)
|
|
(List.rev !jumptbl_entries);
|
|
jumptbl_entries := []
|
|
end;
|
|
if toc then begin
|
|
(* Emit the table of constants *)
|
|
` .toc\n`;
|
|
Hashtbl.iter emit_symbol_constant symbol_constants;
|
|
Hashtbl.iter emit_float_constant float_constants
|
|
end;
|
|
emit_string data_space;
|
|
(* Emit the end of the data segment *)
|
|
let lbl_end = Compilenv.current_unit_name() ^ "_end" in
|
|
declare_global_data lbl_end;
|
|
`{emit_symbol lbl_end}:\n`;
|
|
` .long 0\n`;
|
|
(* Emit the frame descriptors *)
|
|
let lbl = Compilenv.current_unit_name() ^ "_frametable" in
|
|
declare_global_data lbl;
|
|
`{emit_symbol lbl}:\n`;
|
|
` .long {emit_int (List.length !frame_descriptors)}\n`;
|
|
List.iter emit_frame !frame_descriptors;
|
|
frame_descriptors := []
|