(***********************************************************************) (* *) (* Objective Caml *) (* *) (* Xavier Leroy, projet Cristal, INRIA Rocquencourt *) (* *) (* Copyright 1996 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. *) (* *) (***********************************************************************) (* $Id$ *) (* Pretty-printing of C-- code *) open Format open Cmm let machtype_component ppf = function | Addr -> fprintf ppf "addr" | Int -> fprintf ppf "int" | Float -> fprintf ppf "float" let machtype ppf mty = match Array.length mty with | 0 -> fprintf ppf "unit" | n -> machtype_component ppf mty.(0); for i = 1 to n-1 do fprintf ppf "*%a" machtype_component mty.(i) done let comparison = function | Ceq -> "==" | Cne -> "!=" | Clt -> "<" | Cle -> "<=" | Cgt -> ">" | Cge -> ">=" let chunk = function | Byte_unsigned -> "unsigned int8" | Byte_signed -> "signed int8" | Sixteen_unsigned -> "unsigned int16" | Sixteen_signed -> "signed int16" | Thirtytwo_unsigned -> "unsigned int32" | Thirtytwo_signed -> "signed int32" | Word -> "" | Single -> "float32" | Double -> "float64" | Double_u -> "float64u" let operation = function | Capply ty -> "app" | Cextcall(lbl, ty, alloc) -> Printf.sprintf "extcall \"%s\"" lbl | Cload Word -> "load" | Cload c -> Printf.sprintf "load %s" (chunk c) | Calloc -> "alloc" | Cstore Word -> "store" | Cstore c -> Printf.sprintf "store %s" (chunk c) | Caddi -> "+" | Csubi -> "-" | Cmuli -> "*" | Cdivi -> "/" | Cmodi -> "mod" | Cand -> "and" | Cor -> "or" | Cxor -> "xor" | Clsl -> "<<" | Clsr -> ">>u" | Casr -> ">>s" | Ccmpi c -> comparison c | Cadda -> "+a" | Csuba -> "-a" | Ccmpa c -> Printf.sprintf "%sa" (comparison c) | Cnegf -> "~f" | Cabsf -> "absf" | Caddf -> "+f" | Csubf -> "-f" | Cmulf -> "*f" | Cdivf -> "/f" | Cfloatofint -> "floatofint" | Cintoffloat -> "intoffloat" | Ccmpf c -> Printf.sprintf "%sf" (comparison c) | Craise -> "raise" | Ccheckbound -> "checkbound" let rec expr ppf = function | Cconst_int n -> fprintf ppf "%i" n | Cconst_natint n -> fprintf ppf "%s" (Nativeint.to_string n) | Cconst_float s -> fprintf ppf "%s" s | Cconst_symbol s -> fprintf ppf "\"%s\"" s | Cconst_pointer n -> fprintf ppf "%ia" n | Cconst_natpointer n -> fprintf ppf "%sa" (Nativeint.to_string n) | Cvar id -> Ident.print ppf id | Clet(id, def, (Clet(_, _, _) as body)) -> let print_binding id ppf def = fprintf ppf "@[<2>%a@ %a@]" Ident.print id expr def in let rec in_part ppf = function | Clet(id, def, body) -> fprintf ppf "@ %a" (print_binding id) def; in_part ppf body | exp -> exp in fprintf ppf "@[<2>(let@ @[<1>(%a" (print_binding id) def; let exp = in_part ppf body in fprintf ppf ")@]@ %a)@]" sequence exp | Clet(id, def, body) -> fprintf ppf "@[<2>(let@ @[<2>%a@ %a@]@ %a)@]" Ident.print id expr def sequence body | Cassign(id, exp) -> fprintf ppf "@[<2>(assign @[<2>%a@ %a@])@]" Ident.print id expr exp | Ctuple el -> let tuple ppf el = let first = ref true in List.iter (fun e -> if !first then first := false else fprintf ppf "@ "; expr ppf e) el in fprintf ppf "@[<1>[%a]@]" tuple el | Cop(op, el) -> fprintf ppf "@[<2>(%s" (operation op); List.iter (fun e -> fprintf ppf "@ %a" expr e) el; begin match op with | Capply mty -> fprintf ppf "@ %a" machtype mty | Cextcall(_, mty, _) -> fprintf ppf "@ %a" machtype mty | _ -> () end; fprintf ppf ")@]" | Csequence(e1, e2) -> fprintf ppf "@[<2>(seq@ %a@ %a)@]" sequence e1 sequence e2 | Cifthenelse(e1, e2, e3) -> fprintf ppf "@[<2>(if@ %a@ %a@ %a)@]" expr e1 expr e2 expr e3 | Cswitch(e1, index, cases) -> let print_case i ppf = for j = 0 to Array.length index - 1 do if index.(j) = i then fprintf ppf "case %i:" j done in let print_cases ppf = for i = 0 to Array.length cases - 1 do fprintf ppf "@ @[<2>%t@ %a@]" (print_case i) sequence cases.(i) done in fprintf ppf "@[@[<2>(switch@ %a@ @]%t)@]" expr e1 print_cases | Cloop e -> fprintf ppf "@[<2>(loop@ %a)@]" sequence e | Ccatch(i, ids, e1, e2) -> fprintf ppf "@[<2>(catch@ %a@;<1 -2>with(%d%a)@ %a)@]" sequence e1 i (fun ppf ids -> List.iter (fun id -> fprintf ppf " %a" Ident.print id) ids) ids sequence e2 | Cexit (i, el) -> fprintf ppf "@[<2>(exit %d" i ; List.iter (fun e -> fprintf ppf "@ %a" expr e) el; fprintf ppf ")@]" | Ctrywith(e1, id, e2) -> fprintf ppf "@[<2>(try@ %a@;<1 -2>with@ %a@ %a)@]" sequence e1 Ident.print id sequence e2 and sequence ppf = function | Csequence(e1, e2) -> fprintf ppf "%a@ %a" sequence e1 sequence e2 | e -> expression ppf e and expression ppf e = fprintf ppf "%a" expr e let fundecl ppf f = let print_cases ppf cases = let first = ref true in List.iter (fun (id, ty) -> if !first then first := false else fprintf ppf "@ "; fprintf ppf "%a: %a" Ident.print id machtype ty) cases in fprintf ppf "@[<1>(function %s@;<1 4>@[<1>(%a)@]@ @[%a@])@]@." f.fun_name print_cases f.fun_args sequence f.fun_body let data_item ppf = function | Cdefine_symbol s -> fprintf ppf "\"%s\":" s | Cdefine_label l -> fprintf ppf "L%i:" l | Cglobal_symbol s -> fprintf ppf "global \"%s\"" s | Cint8 n -> fprintf ppf "byte %i" n | Cint16 n -> fprintf ppf "int16 %i" n | Cint32 n -> fprintf ppf "int32 %s" (Nativeint.to_string n) | Cint n -> fprintf ppf "int %s" (Nativeint.to_string n) | Csingle f -> fprintf ppf "single %s" f | Cdouble f -> fprintf ppf "double %s" f | Csymbol_address s -> fprintf ppf "addr \"%s\"" s | Clabel_address l -> fprintf ppf "addr L%i" l | Cstring s -> fprintf ppf "string \"%s\"" s | Cskip n -> fprintf ppf "skip %i" n | Calign n -> fprintf ppf "align %i" n let data ppf dl = let items ppf = List.iter (fun d -> fprintf ppf "@ %a" data_item d) dl in fprintf ppf "@[(data%t)@]" items let phrase ppf = function | Cfunction f -> fundecl ppf f | Cdata dl -> data ppf dl