(***********************************************************************) (* *) (* Objective Caml *) (* *) (* Xavier Leroy, projet Cristal, INRIA Rocquencourt *) (* *) (* Copyright 1996 Institut National de Recherche en Informatique et *) (* Automatique. Distributed only by permission. *) (* *) (***********************************************************************) (* $Id$ *) (* Specific operations for the Motorola 68020 processor *) 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 int * addressing_mode (* Store an integer constant *) | Istore_symbol of string * addressing_mode (* Store a symbol *) | Ipush (* Push regs on stack *) | Ipush_int of int (* Push an integer constant *) | Ipush_symbol of string (* Push a symbol *) | Ipush_load of addressing_mode (* Load a scalar and push *) | Ipush_load_float of addressing_mode (* Load a float and push *) (* Sizes, endianness *) let big_endian = true let size_addr = 4 let size_int = 4 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 *) open Format let print_addressing printreg addr arg = match addr with Ibased(s, 0) -> print_string "\""; print_string s; print_string "\"" | Ibased(s, n) -> print_string "\""; print_string s; print_string "\" + "; print_int n | Iindexed n -> printreg arg.(0); if n <> 0 then begin print_string " + "; print_int n end | Iindexed2 n -> printreg arg.(0); print_string " + "; printreg arg.(1); if n <> 0 then begin print_string " + "; print_int n end | Iscaled(scale, n) -> printreg arg.(0); print_string " * "; print_int scale; if n <> 0 then begin print_string " + "; print_int n end | Iindexed2scaled(scale, n) -> printreg arg.(0); print_string " + "; printreg arg.(1); print_string " * "; print_int scale; if n <> 0 then begin print_string " + "; print_int n end let print_specific_operation printreg op arg = match op with Ilea addr -> print_addressing printreg addr arg | Istore_int(n, addr) -> print_string "["; print_addressing printreg addr arg; print_string "] := "; print_int n | Istore_symbol(lbl, addr) -> print_string "["; print_addressing printreg addr arg; print_string "] := \""; print_string lbl; print_string "\"" | Ipush -> print_string "push "; for i = 0 to Array.length arg - 1 do if i > 0 then print_string ", "; printreg arg.(i) done | Ipush_int n -> print_string "push "; print_int n | Ipush_symbol s -> print_string "push \""; print_string s; print_string "\"" | Ipush_load addr -> print_string "push ["; print_addressing printreg addr arg; print_string "]" | Ipush_load_float addr -> print_string "pushfloat ["; print_addressing printreg addr arg; print_string "]"