author | wenzelm |
Wed, 31 Dec 2008 18:53:17 +0100 | |
changeset 29272 | fb3ccf499df5 |
parent 28703 | aef727ef30e5 |
child 30190 | 479806475f3c |
permissions | -rw-r--r-- |
24584 | 1 |
(* Title: HOL/Tools/recfun_codegen.ML |
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Author: Stefan Berghofer, TU Muenchen |
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Code generator for recursive functions. |
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*) |
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signature RECFUN_CODEGEN = |
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sig |
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val setup: theory -> theory |
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end; |
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structure RecfunCodegen : RECFUN_CODEGEN = |
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struct |
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open Codegen; |
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structure ModuleData = TheoryDataFun |
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( |
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type T = string Symtab.table; |
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val empty = Symtab.empty; |
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val copy = I; |
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val extend = I; |
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fun merge _ = Symtab.merge (K true); |
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); |
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fun add_thm NONE thm thy = Code.add_eqn thm thy |
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| add_thm (SOME module_name) thm thy = |
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case Code_Unit.warning_thm (Code_Unit.mk_eqn thy) thm |
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of SOME (thm', _) => let val c = Code_Unit.const_eqn thm' |
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in thy |
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|> ModuleData.map (Symtab.update (c, module_name)) |
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|> Code.add_eqn thm' |
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end |
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| NONE => Code.add_eqn thm thy; |
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distinction between regular and default code theorems
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fun meta_eq_to_obj_eq thy thm = |
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let |
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val T = (fastype_of o fst o Logic.dest_equals o Thm.prop_of) thm; |
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in if Sign.of_sort thy (T, @{sort type}) |
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then SOME (Conv.fconv_rule Drule.beta_eta_conversion (@{thm meta_eq_to_obj_eq} OF [thm])) |
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else NONE |
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end; |
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fun expand_eta thy [] = [] |
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| expand_eta thy (thms as thm :: _) = |
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let |
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val (_, ty) = Code_Unit.const_typ_eqn thm; |
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in if null (Term.add_tvarsT ty []) orelse (null o fst o strip_type) ty |
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then thms |
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else map (Code_Unit.expand_eta thy 1) thms |
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end; |
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fun retrieve_equations thy (c, T) = if c = @{const_name "op ="} then NONE else |
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let |
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val c' = AxClass.unoverload_const thy (c, T); |
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val opt_name = Symtab.lookup (ModuleData.get thy) c'; |
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val thms = Code.these_raw_eqns thy c' |
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|> map_filter (fn (thm, linear) => if linear then SOME thm else NONE) |
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|> expand_eta thy |
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|> map (AxClass.overload thy) |
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|> map_filter (meta_eq_to_obj_eq thy) |
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|> Code_Unit.norm_varnames thy Code_Name.purify_tvar Code_Name.purify_var |
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|> map (rpair opt_name) |
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in if null thms then NONE else SOME thms end; |
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val dest_eqn = HOLogic.dest_eq o HOLogic.dest_Trueprop; |
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val const_of = dest_Const o head_of o fst o dest_eqn; |
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Reimplemented some operations on "code lemma" table to avoid that code
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fun get_equations thy defs (s, T) = |
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(case retrieve_equations thy (s, T) of |
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NONE => ([], "") |
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| SOME thms => |
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let val thms' = filter (fn (thm, _) => is_instance T |
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(snd (const_of (prop_of thm)))) thms |
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in if null thms' then ([], "") |
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else (preprocess thy (map fst thms'), |
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case snd (snd (split_last thms')) of |
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NONE => (case get_defn thy defs s T of |
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simplified retrieval of theory names of consts and types
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NONE => Codegen.thyname_of_const thy s |
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| SOME ((_, (thyname, _)), _) => thyname) |
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| SOME thyname => thyname) |
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end); |
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fun mk_suffix thy defs (s, T) = (case get_defn thy defs s T of |
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SOME (_, SOME i) => " def" ^ string_of_int i | _ => ""); |
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exception EQN of string * typ * string; |
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fun cycle g (xs, x : string) = |
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if member (op =) xs x then xs |
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else Library.foldl (cycle g) (x :: xs, flat (Graph.all_paths (fst g) (x, x))); |
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fun add_rec_funs thy defs dep module eqs gr = |
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let |
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fun dest_eq t = (fst (const_of t) ^ mk_suffix thy defs (const_of t), |
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dest_eqn (rename_term t)); |
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val eqs' = map dest_eq eqs; |
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val (dname, _) :: _ = eqs'; |
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val (s, T) = const_of (hd eqs); |
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fun mk_fundef module fname first [] gr = ([], gr) |
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| mk_fundef module fname first ((fname' : string, (lhs, rhs)) :: xs) gr = |
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let |
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val (pl, gr1) = invoke_codegen thy defs dname module false lhs gr; |
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val (pr, gr2) = invoke_codegen thy defs dname module false rhs gr1; |
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val (rest, gr3) = mk_fundef module fname' false xs gr2 ; |
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val (ty, gr4) = invoke_tycodegen thy defs dname module false T gr3; |
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val num_args = (length o snd o strip_comb) lhs; |
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val prfx = if fname = fname' then " |" |
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else if not first then "and" |
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else if num_args = 0 then "val" |
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else "fun"; |
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val pl' = Pretty.breaks (str prfx |
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:: (if num_args = 0 then [pl, str ":", ty] else [pl])); |
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in |
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(Pretty.blk (4, pl' |
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@ [str " =", Pretty.brk 1, pr]) :: rest, gr4) |
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end; |
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fun put_code module fundef = map_node dname |
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(K (SOME (EQN ("", dummyT, dname)), module, string_of (Pretty.blk (0, |
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separate Pretty.fbrk fundef @ [str ";"])) ^ "\n\n")); |
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in |
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(case try (get_node gr) dname of |
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NONE => |
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let |
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val gr1 = add_edge (dname, dep) |
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(new_node (dname, (SOME (EQN (s, T, "")), module, "")) gr); |
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val (fundef, gr2) = mk_fundef module "" true eqs' gr1 ; |
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val xs = cycle gr2 ([], dname); |
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val cs = map (fn x => case get_node gr2 x of |
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(SOME (EQN (s, T, _)), _, _) => (s, T) |
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| _ => error ("RecfunCodegen: illegal cyclic dependencies:\n" ^ |
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implode (separate ", " xs))) xs |
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in (case xs of |
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[_] => (module, put_code module fundef gr2) |
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| _ => |
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if not (dep mem xs) then |
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let |
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val thmss as (_, thyname) :: _ = map (get_equations thy defs) cs; |
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val module' = if_library thyname module; |
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val eqs'' = map (dest_eq o prop_of) (List.concat (map fst thmss)); |
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val (fundef', gr3) = mk_fundef module' "" true eqs'' |
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(add_edge (dname, dep) |
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(foldr (uncurry new_node) (del_nodes xs gr2) |
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(map (fn k => |
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(k, (SOME (EQN ("", dummyT, dname)), module', ""))) xs))) |
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in (module', put_code module' fundef' gr3) end |
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else (module, gr2)) |
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end |
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| SOME (SOME (EQN (_, _, s)), module', _) => |
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(module', if s = "" then |
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if dname = dep then gr else add_edge (dname, dep) gr |
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else if s = dep then gr else add_edge (s, dep) gr)) |
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end; |
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fun recfun_codegen thy defs dep module brack t gr = (case strip_comb t of |
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consts in consts_code Isar commands are now referred to by usual term syntax
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parents:
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changeset
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(Const (p as (s, T)), ts) => (case (get_equations thy defs p, get_assoc_code thy (s, T)) of |
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(([], _), _) => NONE |
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| (_, SOME _) => NONE |
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| ((eqns, thyname), NONE) => |
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let |
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val module' = if_library thyname module; |
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val (ps, gr') = fold_map |
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(invoke_codegen thy defs dep module true) ts gr; |
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val suffix = mk_suffix thy defs p; |
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val (module'', gr'') = |
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add_rec_funs thy defs dep module' (map prop_of eqns) gr'; |
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val (fname, gr''') = mk_const_id module'' (s ^ suffix) gr'' |
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in |
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SOME (mk_app brack (str (mk_qual_id module fname)) ps, gr''') |
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end) |
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| _ => NONE); |
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val setup = let |
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fun add opt_module = Thm.declaration_attribute (fn thm => Context.mapping |
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(add_thm opt_module thm) I); |
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val del = Thm.declaration_attribute (fn thm => Context.mapping |
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(Code.del_eqn thm) I); |
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in |
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add_codegen "recfun" recfun_codegen |
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#> Code.add_attribute ("", Args.del |-- Scan.succeed del |
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|| Scan.option (Args.$$$ "target" |-- Args.colon |-- Args.name) >> add) |
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end; |
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end; |