(***********************************************************************) (* *) (* Objective Caml *) (* *) (* Xavier Leroy, projet Cristal, INRIA Rocquencourt *) (* *) (* Copyright 2000 Institut National de Recherche en Informatique et *) (* en Automatique. All rights reserved. This file is distributed *) (* under the terms of the Q Public License version 1.0. *) (* *) (***********************************************************************) (* $Id$ *) (* Machine-specific command-line options *) let pic_code = ref true let command_line_options = [ "-fPIC", Arg.Set pic_code, " Generate position-independent machine code (default)"; "-fno-PIC", Arg.Clear pic_code, " Generate position-dependent machine code" ] (* Specific operations for the AMD64 processor *) open Format type addressing_mode = Ibased of string * int (* symbol + displ *) | Iindexed of int (* reg + displ *) | Iindexed2 of int (* reg + reg + displ *) | Iscaled of int * int (* reg * scale + displ *) | Iindexed2scaled of int * int (* reg + reg * scale + displ *) type specific_operation = Ilea of addressing_mode (* "lea" gives scaled adds *) | Istore_int of nativeint * addressing_mode (* Store an integer constant *) | Istore_symbol of string * addressing_mode (* Store a symbol *) | Ioffset_loc of int * addressing_mode (* Add a constant to a location *) | Ifloatarithmem of float_operation * addressing_mode (* Float arith operation with memory *) and float_operation = Ifloatadd | Ifloatsub | Ifloatmul | Ifloatdiv (* Sizes, endianness *) let big_endian = false let size_addr = 8 let size_int = 8 let size_float = 8 (* Operations on addressing modes *) let identity_addressing = Iindexed 0 let offset_addressing addr delta = match addr with Ibased(s, n) -> Ibased(s, n + delta) | Iindexed n -> Iindexed(n + delta) | Iindexed2 n -> Iindexed2(n + delta) | Iscaled(scale, n) -> Iscaled(scale, n + delta) | Iindexed2scaled(scale, n) -> Iindexed2scaled(scale, n + delta) let num_args_addressing = function Ibased(s, n) -> 0 | Iindexed n -> 1 | Iindexed2 n -> 2 | Iscaled(scale, n) -> 1 | Iindexed2scaled(scale, n) -> 2 (* Printing operations and addressing modes *) let print_addressing printreg addr ppf arg = match addr with | Ibased(s, 0) -> fprintf ppf "\"%s\"" s | Ibased(s, n) -> fprintf ppf "\"%s\" + %i" s n | Iindexed n -> let idx = if n <> 0 then Printf.sprintf " + %i" n else "" in fprintf ppf "%a%s" printreg arg.(0) idx | Iindexed2 n -> let idx = if n <> 0 then Printf.sprintf " + %i" n else "" in fprintf ppf "%a + %a%s" printreg arg.(0) printreg arg.(1) idx | Iscaled(scale, n) -> let idx = if n <> 0 then Printf.sprintf " + %i" n else "" in fprintf ppf "%a * %i%s" printreg arg.(0) scale idx | Iindexed2scaled(scale, n) -> let idx = if n <> 0 then Printf.sprintf " + %i" n else "" in fprintf ppf "%a + %a * %i%s" printreg arg.(0) printreg arg.(1) scale idx let print_specific_operation printreg op ppf arg = match op with | Ilea addr -> print_addressing printreg addr ppf arg | Istore_int(n, addr) -> fprintf ppf "[%a] := %nd" (print_addressing printreg addr) arg n | Istore_symbol(lbl, addr) -> fprintf ppf "[%a] := \"%s\"" (print_addressing printreg addr) arg lbl | Ioffset_loc(n, addr) -> fprintf ppf "[%a] +:= %i" (print_addressing printreg addr) arg n | Ifloatarithmem(op, addr) -> let op_name = function | Ifloatadd -> "+f" | Ifloatsub -> "-f" | Ifloatmul -> "*f" | Ifloatdiv -> "/f" in fprintf ppf "%a %s float64[%a]" printreg arg.(0) (op_name op) (print_addressing printreg addr) (Array.sub arg 1 (Array.length arg - 1))