# HG changeset patch # User haftmann # Date 1285744078 -7200 # Node ID 4f8f08362bf76b97312b02d5c6b6d9b6272234ac # Parent cde508d2eac8434cfc32c1444ca7f827571c6f34 moved old_primrec source to nominal package, where it is still used diff -r cde508d2eac8 -r 4f8f08362bf7 src/HOL/IsaMakefile --- a/src/HOL/IsaMakefile Tue Sep 28 15:39:59 2010 +0200 +++ b/src/HOL/IsaMakefile Wed Sep 29 09:07:58 2010 +0200 @@ -1175,6 +1175,7 @@ Nominal/nominal_permeq.ML \ Nominal/nominal_primrec.ML \ Nominal/nominal_thmdecls.ML \ + Nominal/old_primrec.ML \ Library/Infinite_Set.thy @cd Nominal; $(ISABELLE_TOOL) usedir -b -g true $(OUT)/HOL HOL-Nominal diff -r cde508d2eac8 -r 4f8f08362bf7 src/HOL/Nominal/Nominal.thy --- a/src/HOL/Nominal/Nominal.thy Tue Sep 28 15:39:59 2010 +0200 +++ b/src/HOL/Nominal/Nominal.thy Wed Sep 29 09:07:58 2010 +0200 @@ -10,6 +10,7 @@ ("nominal_primrec.ML") ("nominal_inductive.ML") ("nominal_inductive2.ML") + ("old_primrec.ML") begin section {* Permutations *} @@ -3604,6 +3605,7 @@ (***************************************) (* setup for the individial atom-kinds *) (* and nominal datatypes *) +use "old_primrec.ML" use "nominal_atoms.ML" (************************************************************) diff -r cde508d2eac8 -r 4f8f08362bf7 src/HOL/Nominal/old_primrec.ML --- /dev/null Thu Jan 01 00:00:00 1970 +0000 +++ b/src/HOL/Nominal/old_primrec.ML Wed Sep 29 09:07:58 2010 +0200 @@ -0,0 +1,326 @@ +(* Title: HOL/Tools/old_primrec.ML + Author: Norbert Voelker, FernUni Hagen + Author: Stefan Berghofer, TU Muenchen + +Package for defining functions on datatypes by primitive recursion. +*) + +signature OLD_PRIMREC = +sig + val unify_consts: theory -> term list -> term list -> term list * term list + val add_primrec: string -> ((bstring * string) * Attrib.src list) list + -> theory -> thm list * theory + val add_primrec_unchecked: string -> ((bstring * string) * Attrib.src list) list + -> theory -> thm list * theory + val add_primrec_i: string -> ((bstring * term) * attribute list) list + -> theory -> thm list * theory + val add_primrec_unchecked_i: string -> ((bstring * term) * attribute list) list + -> theory -> thm list * theory +end; + +structure OldPrimrec : OLD_PRIMREC = +struct + +open Datatype_Aux; + +exception RecError of string; + +fun primrec_err s = error ("Primrec definition error:\n" ^ s); +fun primrec_eq_err thy s eq = + primrec_err (s ^ "\nin\n" ^ quote (Syntax.string_of_term_global thy eq)); + + +(*the following code ensures that each recursive set always has the + same type in all introduction rules*) +fun unify_consts thy cs intr_ts = + (let + fun varify t (i, ts) = + let val t' = map_types (Logic.incr_tvar (i + 1)) (snd (Type.varify_global [] t)) + in (maxidx_of_term t', t'::ts) end; + val (i, cs') = fold_rev varify cs (~1, []); + val (i', intr_ts') = fold_rev varify intr_ts (i, []); + val rec_consts = fold Term.add_consts cs' []; + val intr_consts = fold Term.add_consts intr_ts' []; + fun unify (cname, cT) = + let val consts = map snd (filter (fn (c, _) => c = cname) intr_consts) + in fold (Sign.typ_unify thy) ((replicate (length consts) cT) ~~ consts) end; + val (env, _) = fold unify rec_consts (Vartab.empty, i'); + val subst = Type.legacy_freeze o map_types (Envir.norm_type env) + + in (map subst cs', map subst intr_ts') + end) handle Type.TUNIFY => + (warning "Occurrences of recursive constant have non-unifiable types"; (cs, intr_ts)); + + +(* preprocessing of equations *) + +fun process_eqn thy eq rec_fns = + let + val (lhs, rhs) = + if null (Term.add_vars eq []) then + HOLogic.dest_eq (HOLogic.dest_Trueprop eq) + handle TERM _ => raise RecError "not a proper equation" + else raise RecError "illegal schematic variable(s)"; + + val (recfun, args) = strip_comb lhs; + val fnameT = dest_Const recfun handle TERM _ => + raise RecError "function is not declared as constant in theory"; + + val (ls', rest) = take_prefix is_Free args; + val (middle, rs') = take_suffix is_Free rest; + val rpos = length ls'; + + val (constr, cargs') = if null middle then raise RecError "constructor missing" + else strip_comb (hd middle); + val (cname, T) = dest_Const constr + handle TERM _ => raise RecError "ill-formed constructor"; + val (tname, _) = dest_Type (body_type T) handle TYPE _ => + raise RecError "cannot determine datatype associated with function" + + val (ls, cargs, rs) = + (map dest_Free ls', map dest_Free cargs', map dest_Free rs') + handle TERM _ => raise RecError "illegal argument in pattern"; + val lfrees = ls @ rs @ cargs; + + fun check_vars _ [] = () + | check_vars s vars = raise RecError (s ^ commas_quote (map fst vars)) + in + if length middle > 1 then + raise RecError "more than one non-variable in pattern" + else + (check_vars "repeated variable names in pattern: " (duplicates (op =) lfrees); + check_vars "extra variables on rhs: " + (subtract (op =) lfrees (map dest_Free (OldTerm.term_frees rhs))); + case AList.lookup (op =) rec_fns fnameT of + NONE => + (fnameT, (tname, rpos, [(cname, (ls, cargs, rs, rhs, eq))]))::rec_fns + | SOME (_, rpos', eqns) => + if AList.defined (op =) eqns cname then + raise RecError "constructor already occurred as pattern" + else if rpos <> rpos' then + raise RecError "position of recursive argument inconsistent" + else + AList.update (op =) (fnameT, (tname, rpos, (cname, (ls, cargs, rs, rhs, eq))::eqns)) + rec_fns) + end + handle RecError s => primrec_eq_err thy s eq; + +fun process_fun thy descr rec_eqns (i, fnameT as (fname, _)) (fnameTs, fnss) = + let + val (_, (tname, _, constrs)) = List.nth (descr, i); + + (* substitute "fname ls x rs" by "y ls rs" for (x, (_, y)) in subs *) + + fun subst [] t fs = (t, fs) + | subst subs (Abs (a, T, t)) fs = + fs + |> subst subs t + |-> (fn t' => pair (Abs (a, T, t'))) + | subst subs (t as (_ $ _)) fs = + let + val (f, ts) = strip_comb t; + in + if is_Const f andalso member (op =) (map fst rec_eqns) (dest_Const f) then + let + val fnameT' as (fname', _) = dest_Const f; + val (_, rpos, _) = the (AList.lookup (op =) rec_eqns fnameT'); + val ls = take rpos ts; + val rest = drop rpos ts; + val (x', rs) = (hd rest, tl rest) + handle Empty => raise RecError ("not enough arguments\ + \ in recursive application\nof function " ^ quote fname' ^ " on rhs"); + val (x, xs) = strip_comb x' + in case AList.lookup (op =) subs x + of NONE => + fs + |> fold_map (subst subs) ts + |-> (fn ts' => pair (list_comb (f, ts'))) + | SOME (i', y) => + fs + |> fold_map (subst subs) (xs @ ls @ rs) + ||> process_fun thy descr rec_eqns (i', fnameT') + |-> (fn ts' => pair (list_comb (y, ts'))) + end + else + fs + |> fold_map (subst subs) (f :: ts) + |-> (fn (f'::ts') => pair (list_comb (f', ts'))) + end + | subst _ t fs = (t, fs); + + (* translate rec equations into function arguments suitable for rec comb *) + + fun trans eqns (cname, cargs) (fnameTs', fnss', fns) = + (case AList.lookup (op =) eqns cname of + NONE => (warning ("No equation for constructor " ^ quote cname ^ + "\nin definition of function " ^ quote fname); + (fnameTs', fnss', (Const ("HOL.undefined", dummyT))::fns)) + | SOME (ls, cargs', rs, rhs, eq) => + let + val recs = filter (is_rec_type o snd) (cargs' ~~ cargs); + val rargs = map fst recs; + val subs = map (rpair dummyT o fst) + (rev (Term.rename_wrt_term rhs rargs)); + val (rhs', (fnameTs'', fnss'')) = + (subst (map (fn ((x, y), z) => + (Free x, (body_index y, Free z))) + (recs ~~ subs)) rhs (fnameTs', fnss')) + handle RecError s => primrec_eq_err thy s eq + in (fnameTs'', fnss'', + (list_abs_free (cargs' @ subs @ ls @ rs, rhs'))::fns) + end) + + in (case AList.lookup (op =) fnameTs i of + NONE => + if exists (equal fnameT o snd) fnameTs then + raise RecError ("inconsistent functions for datatype " ^ quote tname) + else + let + val (_, _, eqns) = the (AList.lookup (op =) rec_eqns fnameT); + val (fnameTs', fnss', fns) = fold_rev (trans eqns) constrs + ((i, fnameT)::fnameTs, fnss, []) + in + (fnameTs', (i, (fname, #1 (snd (hd eqns)), fns))::fnss') + end + | SOME fnameT' => + if fnameT = fnameT' then (fnameTs, fnss) + else raise RecError ("inconsistent functions for datatype " ^ quote tname)) + end; + + +(* prepare functions needed for definitions *) + +fun get_fns fns ((i : int, (tname, _, constrs)), rec_name) (fs, defs) = + case AList.lookup (op =) fns i of + NONE => + let + val dummy_fns = map (fn (_, cargs) => Const ("HOL.undefined", + replicate (length cargs + length (filter is_rec_type cargs)) + dummyT ---> HOLogic.unitT)) constrs; + val _ = warning ("No function definition for datatype " ^ quote tname) + in + (dummy_fns @ fs, defs) + end + | SOME (fname, ls, fs') => (fs' @ fs, (fname, ls, rec_name, tname) :: defs); + + +(* make definition *) + +fun make_def thy fs (fname, ls, rec_name, tname) = + let + val rhs = fold_rev (fn T => fn t => Abs ("", T, t)) + ((map snd ls) @ [dummyT]) + (list_comb (Const (rec_name, dummyT), + fs @ map Bound (0 ::(length ls downto 1)))) + val def_name = Long_Name.base_name fname ^ "_" ^ Long_Name.base_name tname ^ "_def"; + val def_prop = + singleton (Syntax.check_terms (ProofContext.init_global thy)) + (Logic.mk_equals (Const (fname, dummyT), rhs)); + in (def_name, def_prop) end; + + +(* find datatypes which contain all datatypes in tnames' *) + +fun find_dts (dt_info : info Symtab.table) _ [] = [] + | find_dts dt_info tnames' (tname::tnames) = + (case Symtab.lookup dt_info tname of + NONE => primrec_err (quote tname ^ " is not a datatype") + | SOME dt => + if subset (op =) (tnames', map (#1 o snd) (#descr dt)) then + (tname, dt)::(find_dts dt_info tnames' tnames) + else find_dts dt_info tnames' tnames); + +fun prepare_induct ({descr, induct, ...}: info) rec_eqns = + let + fun constrs_of (_, (_, _, cs)) = + map (fn (cname:string, (_, cargs, _, _, _)) => (cname, map fst cargs)) cs; + val params_of = these o AList.lookup (op =) (maps constrs_of rec_eqns); + in + induct + |> Rule_Cases.rename_params (map params_of (maps (map #1 o #3 o #2) descr)) + |> Rule_Cases.save induct + end; + +local + +fun gen_primrec_i note def alt_name eqns_atts thy = + let + val (eqns, atts) = split_list eqns_atts; + val dt_info = Datatype_Data.get_all thy; + val rec_eqns = fold_rev (process_eqn thy o snd) eqns [] ; + val tnames = distinct (op =) (map (#1 o snd) rec_eqns); + val dts = find_dts dt_info tnames tnames; + val main_fns = + map (fn (tname, {index, ...}) => + (index, + (fst o the o find_first (fn f => (#1 o snd) f = tname)) rec_eqns)) + dts; + val {descr, rec_names, rec_rewrites, ...} = + if null dts then + primrec_err ("datatypes " ^ commas_quote tnames ^ "\nare not mutually recursive") + else snd (hd dts); + val (fnameTs, fnss) = + fold_rev (process_fun thy descr rec_eqns) main_fns ([], []); + val (fs, defs) = fold_rev (get_fns fnss) (descr ~~ rec_names) ([], []); + val defs' = map (make_def thy fs) defs; + val nameTs1 = map snd fnameTs; + val nameTs2 = map fst rec_eqns; + val _ = if eq_set (op =) (nameTs1, nameTs2) then () + else primrec_err ("functions " ^ commas_quote (map fst nameTs2) ^ + "\nare not mutually recursive"); + val primrec_name = + if alt_name = "" then (space_implode "_" (map (Long_Name.base_name o #1) defs)) else alt_name; + val (defs_thms', thy') = + thy + |> Sign.add_path primrec_name + |> fold_map def (map (fn (name, t) => ((name, []), t)) defs'); + val rewrites = (map mk_meta_eq rec_rewrites) @ map snd defs_thms'; + val simps = map (fn (_, t) => Goal.prove_global thy' [] [] t + (fn _ => EVERY [rewrite_goals_tac rewrites, rtac refl 1])) eqns; + val (simps', thy'') = + thy' + |> fold_map note ((map fst eqns ~~ atts) ~~ map single simps); + val simps'' = maps snd simps'; + val lhss = map (Logic.varify_global o fst o Logic.dest_equals o snd) defs'; + in + thy'' + |> note (("simps", + [Simplifier.simp_add, Nitpick_Simps.add, Code.add_default_eqn_attribute]), simps'') + |> snd + |> Spec_Rules.add_global Spec_Rules.Equational (lhss, simps) + |> note (("induct", []), [prepare_induct (#2 (hd dts)) rec_eqns]) + |> snd + |> Sign.parent_path + |> pair simps'' + end; + +fun gen_primrec note def alt_name eqns thy = + let + val ((names, strings), srcss) = apfst split_list (split_list eqns); + val atts = map (map (Attrib.attribute thy)) srcss; + val eqn_ts = map (fn s => Syntax.read_prop_global thy s + handle ERROR msg => cat_error msg ("The error(s) above occurred for " ^ s)) strings; + val rec_ts = map (fn eq => head_of (fst (HOLogic.dest_eq (HOLogic.dest_Trueprop eq))) + handle TERM _ => primrec_eq_err thy "not a proper equation" eq) eqn_ts; + val (_, eqn_ts') = unify_consts thy rec_ts eqn_ts + in + gen_primrec_i note def alt_name (names ~~ eqn_ts' ~~ atts) thy + end; + +fun thy_note ((name, atts), thms) = + Global_Theory.add_thmss [((Binding.name name, thms), atts)] #-> (fn [thms] => pair (name, thms)); +fun thy_def false ((name, atts), t) = + Global_Theory.add_defs false [((Binding.name name, t), atts)] #-> (fn [thm] => pair (name, thm)) + | thy_def true ((name, atts), t) = + Global_Theory.add_defs_unchecked false [((Binding.name name, t), atts)] #-> (fn [thm] => pair (name, thm)); + +in + +val add_primrec = gen_primrec thy_note (thy_def false); +val add_primrec_unchecked = gen_primrec thy_note (thy_def true); +val add_primrec_i = gen_primrec_i thy_note (thy_def false); +val add_primrec_unchecked_i = gen_primrec_i thy_note (thy_def true); + +end; + +end;