(***********************************************************************) (* *) (* Objective Caml *) (* *) (* Xavier Leroy, projet Cristal, INRIA Rocquencourt *) (* *) (* Copyright 1997 Institut National de Recherche en Informatique et *) (* Automatique. Distributed only by permission. *) (* *) (***********************************************************************) (* $Id$ *) (* Instruction selection for the HPPA processor *) open Misc open Cmm open Reg open Arch open Proc open Mach let shiftadd = function 2 -> Ishift1add | 4 -> Ishift2add | 8 -> Ishift3add | _ -> fatal_error "Proc_hppa.shiftadd" class selector () as self = inherit Selectgen.selector_generic() as super method is_immediate n = (n < 16) && (n >= -16) (* 5 bits *) method select_addressing = function Cconst_symbol s -> (Ibased(s, 0), Ctuple []) | Cop(Cadda, [Cconst_symbol s; Cconst_int n]) -> (Ibased(s, n), Ctuple []) | Cop(Cadda, [arg; Cconst_int n]) -> (Iindexed n, arg) | Cop(Cadda, [arg1; Cop(Caddi, [arg2; Cconst_int n])]) -> (Iindexed n, Cop(Cadda, [arg1; arg2])) | arg -> (Iindexed 0, arg) method select_operation op args = match (op, args) with (* Recognize shift-add operations. *) ((Caddi|Cadda), [arg2; Cop(Clsl, [arg1; Cconst_int(1|2|3 as shift)])]) -> (Ispecific(shiftadd(1 lsl shift)), [arg1; arg2]) | ((Caddi|Cadda), [arg2; Cop(Cmuli, [arg1; Cconst_int(2|4|8 as mult)])]) -> (Ispecific(shiftadd mult), [arg1; arg2]) | ((Caddi|Cadda), [arg2; Cop(Cmuli, [Cconst_int(2|4|8 as mult); arg1])]) -> (Ispecific(shiftadd mult), [arg1; arg2]) | (Caddi, [Cop(Clsl, [arg1; Cconst_int(1|2|3 as shift)]); arg2]) -> (Ispecific(shiftadd(1 lsl shift)), [arg1; arg2]) | (Caddi, [Cop(Cmuli, [arg1; Cconst_int(2|4|8 as mult)]); arg2]) -> (Ispecific(shiftadd mult), [arg1; arg2]) | (Caddi, [Cop(Cmuli, [Cconst_int(2|4|8 as mult); arg1]); arg2]) -> (Ispecific(shiftadd mult), [arg1; arg2]) (* Prevent the recognition of some immediate arithmetic operations *) (* Cmuli : -> Ilsl if power of 2 Cdivi, Cmodi : only if power of 2 Cand, Cor, Cxor : never *) | (Cmuli, ([arg1; Cconst_int n] as args)) -> let l = Misc.log2 n in if n = 1 lsl l then (Iintop_imm(Ilsl, l), [arg1]) else (Iintop Imul, args) | (Cmuli, ([Cconst_int n; arg1] as args)) -> let l = Misc.log2 n in if n = 1 lsl l then (Iintop_imm(Ilsl, l), [arg1]) else (Iintop Imul, args) | (Cmuli, args) -> (Iintop Imul, args) | (Cdivi, [arg1; Cconst_int n]) when n = 1 lsl (Misc.log2 n) -> (Iintop_imm(Idiv, n), [arg1]) | (Cdivi, args) -> (Iintop Idiv, args) | (Cmodi, [arg1; Cconst_int n]) when n = 1 lsl (Misc.log2 n) -> (Iintop_imm(Imod, n), [arg1]) | (Cmodi, args) -> (Iintop Imod, args) | (Cand, args) -> (Iintop Iand, args) | (Cor, args) -> (Iintop Ior, args) | (Cxor, args) -> (Iintop Ixor, args) | _ -> super#select_operation op args (* Deal with register constraints *) method insert_op op rs rd = match op with Iintop(Idiv | Imod) -> (* handled via calls to millicode *) let rs' = [|phys_reg 20; phys_reg 19|] (* %r26, %r25 *) and rd' = [|phys_reg 22|] (* %r29 *) in self#insert_moves rs rs'; self#insert (Iop op) rs' rd'; self#insert_moves rd' rd; rd | _ -> super#insert_op op rs rd end let fundecl f = (new selector ())#emit_fundecl f