(***********************************************************************) (* *) (* Caml Special Light *) (* *) (* Xavier Leroy, projet Cristal, INRIA Rocquencourt *) (* *) (* Copyright 1995 Institut National de Recherche en Informatique et *) (* Automatique. Distributed only by permission. *) (* *) (***********************************************************************) (* $Id$ *) open Format open Asttypes open Primitive open Typedtree open Lambda let rec structured_constant = function Const_base(Const_int n) -> print_int n | Const_base(Const_char c) -> print_string "'"; print_string(Char.escaped c); print_string "'" | Const_base(Const_string s) -> print_string "\""; print_string(String.escaped s); print_string "\"" | Const_base(Const_float s) -> print_string s | Const_pointer n -> print_int n; print_string "a" | Const_block(tag, []) -> print_string "["; print_int tag; print_string "]" | Const_block(tag, sc1::scl) -> open_hovbox 1; print_string "["; print_int tag; print_string ":"; print_space(); open_hovbox 0; structured_constant sc1; List.iter (fun sc -> print_space(); structured_constant sc) scl; close_box(); print_string "]"; close_box() | Const_float_array [] -> print_string "[| |]" | Const_float_array (f1 :: fl) -> open_hovbox 1; print_string "[|"; open_hovbox 0; print_string f1; List.iter (fun f -> print_space(); print_string f) fl; close_box(); print_string "|]"; close_box() let primitive = function Pidentity -> print_string "id" | Pgetglobal id -> print_string "global "; Ident.print id | Psetglobal id -> print_string "setglobal "; Ident.print id | Pmakeblock(tag, Immutable) -> print_string "makeblock "; print_int tag | Pmakeblock(tag, Mutable) -> print_string "makemutable "; print_int tag | Pfield n -> print_string "field "; print_int n | Psetfield(n, _) -> print_string "setfield "; print_int n | Pfloatfield n -> print_string "floatfield "; print_int n | Psetfloatfield n -> print_string "setfloatfield "; print_int n | Pccall p -> print_string p.prim_name | Praise -> print_string "raise" | Psequand -> print_string "&&" | Psequor -> print_string "||" | Pnot -> print_string "not" | Pnegint -> print_string "~" | Paddint -> print_string "+" | Psubint -> print_string "-" | Pmulint -> print_string "*" | Pdivint -> print_string "/" | Pmodint -> print_string "mod" | Pandint -> print_string "and" | Porint -> print_string "or" | Pxorint -> print_string "xor" | Plslint -> print_string "lsl" | Plsrint -> print_string "lsr" | Pasrint -> print_string "asr" | Pintcomp(Ceq) -> print_string "==" | Pintcomp(Cneq) -> print_string "!=" | Pintcomp(Clt) -> print_string "<" | Pintcomp(Cle) -> print_string "<=" | Pintcomp(Cgt) -> print_string ">" | Pintcomp(Cge) -> print_string ">=" | Poffsetint n -> print_int n; print_string "+" | Poffsetref n -> print_int n; print_string "+:=" | Pintoffloat -> print_string "int_of_float" | Pfloatofint -> print_string "float_of_int" | Pnegfloat -> print_string "~." | Paddfloat -> print_string "+." | Psubfloat -> print_string "-." | Pmulfloat -> print_string "*." | Pdivfloat -> print_string "/." | Pfloatcomp(Ceq) -> print_string "==." | Pfloatcomp(Cneq) -> print_string "!=." | Pfloatcomp(Clt) -> print_string "<." | Pfloatcomp(Cle) -> print_string "<=." | Pfloatcomp(Cgt) -> print_string ">." | Pfloatcomp(Cge) -> print_string ">=." | Pstringlength -> print_string "string.length" | Pstringrefu -> print_string "string.unsafe_get" | Pstringsetu -> print_string "string.unsafe_set" | Pstringrefs -> print_string "string.get" | Pstringsets -> print_string "string.set" | Parraylength _ -> print_string "array.length" | Pmakearray _ -> print_string "makearray " | Parrayrefu _ -> print_string "array.unsafe_get" | Parraysetu _ -> print_string "array.unsafe_set" | Parrayrefs _ -> print_string "array.get" | Parraysets _ -> print_string "array.set" | Ptranslate tbl -> print_string "translate ["; open_hvbox 0; for i = 0 to Array.length tbl - 1 do if i > 0 then print_space(); let (lo, hi, ofs) = tbl.(i) in print_space(); print_int lo; print_string "/"; print_int hi; print_string "/"; print_int ofs done; print_string "]"; close_box() let rec lambda = function Lvar id -> Ident.print id | Lconst cst -> structured_constant cst | Lapply(lfun, largs) -> open_hovbox 2; print_string "(apply"; print_space(); lambda lfun; List.iter (fun l -> print_space(); lambda l) largs; print_string ")"; close_box() | Lfunction(param, body) -> open_hovbox 2; print_string "(function"; print_space(); Ident.print param; print_space(); lambda body; print_string ")"; close_box() | Llet(id, arg, body) -> open_hovbox 2; print_string "(let"; print_space(); open_hvbox 1; print_string "("; open_hovbox 2; Ident.print id; print_space(); lambda arg; close_box(); letbody body; print_string ")"; close_box() | Lletrec(id_arg_list, body) -> open_hovbox 2; print_string "(letrec"; print_space(); open_hvbox 1; print_string "("; let spc = ref false in List.iter (fun (id, l) -> if !spc then print_space() else spc := true; Ident.print id; print_string " "; lambda l) id_arg_list; close_box(); print_string ")"; print_space(); lambda body; print_string ")"; close_box() | Lprim(prim, largs) -> open_hovbox 2; print_string "("; primitive prim; List.iter (fun l -> print_space(); lambda l) largs; print_string ")"; close_box() | Lswitch(larg, num_cases1, cases1, num_cases2, cases2) -> open_hovbox 1; print_string "(switch "; lambda larg; print_space(); open_vbox 0; let spc = ref false in List.iter (fun (n, l) -> if !spc then print_space() else spc := true; open_hvbox 1; print_string "case int "; print_int n; print_string ":"; print_space(); lambda l; close_box()) cases1; List.iter (fun (n, l) -> if !spc then print_space() else spc := true; open_hvbox 1; print_string "case tag "; print_int n; print_string ":"; print_space(); lambda l; close_box()) cases2; print_string ")"; close_box(); close_box() | Lstaticfail -> print_string "exit" | Lcatch(lbody, lhandler) -> open_hovbox 2; print_string "(catch"; print_space(); lambda lbody; print_break 1 (-1); print_string "with"; print_space(); lambda lhandler; print_string ")"; close_box() | Ltrywith(lbody, param, lhandler) -> open_hovbox 2; print_string "(try"; print_space(); lambda lbody; print_break 1 (-1); print_string "with "; Ident.print param; print_space(); lambda lhandler; print_string ")"; close_box() | Lifthenelse(lcond, lif, lelse) -> open_hovbox 2; print_string "(if"; print_space(); lambda lcond; print_space(); lambda lif; print_space(); lambda lelse; print_string ")"; close_box() | Lsequence(l1, l2) -> open_hovbox 2; print_string "(seq"; print_space(); lambda l1; print_space(); sequence l2; print_string ")"; close_box() | Lwhile(lcond, lbody) -> open_hovbox 2; print_string "(while"; print_space(); lambda lcond; print_space(); lambda lbody; print_string ")"; close_box() | Lfor(param, lo, hi, dir, body) -> open_hovbox 2; print_string "(for "; Ident.print param; print_space(); lambda lo; print_space(); print_string(match dir with Upto -> "to" | Downto -> "downto"); print_space(); lambda hi; print_space(); lambda body; print_string ")"; close_box() | Lshared(l, lbl) -> lambda l | Lassign(id, expr) -> open_hovbox 2; print_string "(assign"; print_space(); Ident.print id; print_space(); lambda expr; print_string ")"; close_box() and sequence = function Lsequence(l1, l2) -> sequence l1; print_space(); sequence l2 | l -> lambda l and letbody = function Llet(id, arg, body) -> print_space(); open_hovbox 2; Ident.print id; print_space(); lambda arg; close_box(); letbody body | Lshared(l, lbl) -> letbody l | l -> print_string ")"; close_box(); print_space(); lambda l