author | wenzelm |
Thu, 08 Nov 2001 23:59:37 +0100 | |
changeset 12109 | bd6eb9194a5d |
parent 11991 | da6ee05d9f3d |
child 12128 | 25565bbbd246 |
permissions | -rw-r--r-- |
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(* Title: HOL/Tools/inductive_package.ML |
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ID: $Id$ |
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Author: Lawrence C Paulson, Cambridge University Computer Laboratory |
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Author: Stefan Berghofer, TU Muenchen |
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Author: Markus Wenzel, TU Muenchen |
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License: GPL (GNU GENERAL PUBLIC LICENSE) |
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(Co)Inductive Definition module for HOL. |
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Features: |
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* least or greatest fixedpoints |
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* user-specified product and sum constructions |
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* mutually recursive definitions |
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* definitions involving arbitrary monotone operators |
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* automatically proves introduction and elimination rules |
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The recursive sets must *already* be declared as constants in the |
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current theory! |
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Introduction rules have the form |
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add_cases_induct: project_rules accomodates mutual induction;
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[| ti:M(Sj), ..., P(x), ... |] ==> t: Sk |
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where M is some monotone operator (usually the identity) |
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P(x) is any side condition on the free variables |
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ti, t are any terms |
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Sj, Sk are two of the sets being defined in mutual recursion |
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Sums are used only for mutual recursion. Products are used only to |
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derive "streamlined" induction rules for relations. |
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*) |
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signature INDUCTIVE_PACKAGE = |
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sig |
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val quiet_mode: bool ref |
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val unify_consts: Sign.sg -> term list -> term list -> term list * term list |
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val split_rule_vars: term list -> thm -> thm |
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val get_inductive: theory -> string -> ({names: string list, coind: bool} * |
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{defs: thm list, elims: thm list, raw_induct: thm, induct: thm, |
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intrs: thm list, mk_cases: string -> thm, mono: thm, unfold: thm}) option |
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val print_inductives: theory -> unit |
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val mono_add_global: theory attribute |
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val mono_del_global: theory attribute |
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val get_monos: theory -> thm list |
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export inductive_forall_name, inductive_forall_def, rulify;
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val inductive_forall_name: string |
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export inductive_forall_name, inductive_forall_def, rulify;
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val inductive_forall_def: thm |
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export inductive_forall_name, inductive_forall_def, rulify;
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val rulify: thm -> thm |
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val inductive_cases: ((bstring * Args.src list) * string list) * Comment.text |
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-> theory -> theory |
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val inductive_cases_i: ((bstring * theory attribute list) * term list) * Comment.text |
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-> theory -> theory |
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val add_inductive_i: bool -> bool -> bstring -> bool -> bool -> bool -> term list -> |
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((bstring * term) * theory attribute list) list -> |
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thm list -> thm list -> theory -> theory * |
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{defs: thm list, elims: thm list, raw_induct: thm, induct: thm, |
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intrs: thm list, mk_cases: string -> thm, mono: thm, unfold: thm} |
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val add_inductive: bool -> bool -> string list -> |
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((bstring * string) * Args.src list) list -> (xstring * Args.src list) list -> |
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(xstring * Args.src list) list -> theory -> theory * |
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{defs: thm list, elims: thm list, raw_induct: thm, induct: thm, |
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intrs: thm list, mk_cases: string -> thm, mono: thm, unfold: thm} |
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val setup: (theory -> theory) list |
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end; |
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structure InductivePackage: INDUCTIVE_PACKAGE = |
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struct |
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(** theory context references **) |
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val mono_name = "HOL.mono"; |
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val gfp_name = "Gfp.gfp"; |
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val lfp_name = "Lfp.lfp"; |
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val vimage_name = "Inverse_Image.vimage"; |
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val Const _ $ (vimage_f $ _) $ _ = HOLogic.dest_Trueprop (Thm.concl_of vimageD); |
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val inductive_forall_name = "HOL.induct_forall"; |
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val inductive_forall_def = thm "induct_forall_def"; |
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val inductive_conj_name = "HOL.induct_conj"; |
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val inductive_conj_def = thm "induct_conj_def"; |
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val inductive_conj = thms "induct_conj"; |
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val inductive_atomize = thms "induct_atomize"; |
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val inductive_rulify1 = thms "induct_rulify1"; |
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val inductive_rulify2 = thms "induct_rulify2"; |
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(** theory data **) |
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(* data kind 'HOL/inductive' *) |
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type inductive_info = |
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{names: string list, coind: bool} * {defs: thm list, elims: thm list, raw_induct: thm, |
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induct: thm, intrs: thm list, mk_cases: string -> thm, mono: thm, unfold: thm}; |
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structure InductiveArgs = |
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struct |
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val name = "HOL/inductive"; |
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type T = inductive_info Symtab.table * thm list; |
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val empty = (Symtab.empty, []); |
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val copy = I; |
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val finish = I; |
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val prep_ext = I; |
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fun merge ((tab1, monos1), (tab2, monos2)) = |
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(Symtab.merge (K true) (tab1, tab2), Drule.merge_rules (monos1, monos2)); |
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fun print sg (tab, monos) = |
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[Pretty.strs ("(co)inductives:" :: map #1 (Sign.cond_extern_table sg Sign.constK tab)), |
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Pretty.big_list "monotonicity rules:" (map (Display.pretty_thm_sg sg) monos)] |
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|> Pretty.chunks |> Pretty.writeln; |
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end; |
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structure InductiveData = TheoryDataFun(InductiveArgs); |
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val print_inductives = InductiveData.print; |
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(* get and put data *) |
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fun get_inductive thy name = Symtab.lookup (fst (InductiveData.get thy), name); |
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fun the_inductive thy name = |
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(case get_inductive thy name of |
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None => error ("Unknown (co)inductive set " ^ quote name) |
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| Some info => info); |
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fun put_inductives names info thy = |
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let |
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fun upd ((tab, monos), name) = (Symtab.update_new ((name, info), tab), monos); |
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val tab_monos = foldl upd (InductiveData.get thy, names) |
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handle Symtab.DUP name => error ("Duplicate definition of (co)inductive set " ^ quote name); |
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in InductiveData.put tab_monos thy end; |
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(** monotonicity rules **) |
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val get_monos = #2 o InductiveData.get; |
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fun map_monos f = InductiveData.map (Library.apsnd f); |
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fun mk_mono thm = |
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let |
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fun eq2mono thm' = [standard (thm' RS (thm' RS eq_to_mono))] @ |
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(case concl_of thm of |
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(_ $ (_ $ (Const ("Not", _) $ _) $ _)) => [] |
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| _ => [standard (thm' RS (thm' RS eq_to_mono2))]); |
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val concl = concl_of thm |
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in |
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if Logic.is_equals concl then |
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eq2mono (thm RS meta_eq_to_obj_eq) |
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else if can (HOLogic.dest_eq o HOLogic.dest_Trueprop) concl then |
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eq2mono thm |
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else [thm] |
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end; |
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(* attributes *) |
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fun mono_add_global (thy, thm) = (map_monos (Drule.add_rules (mk_mono thm)) thy, thm); |
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fun mono_del_global (thy, thm) = (map_monos (Drule.del_rules (mk_mono thm)) thy, thm); |
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val mono_attr = |
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(Attrib.add_del_args mono_add_global mono_del_global, |
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Attrib.add_del_args Attrib.undef_local_attribute Attrib.undef_local_attribute); |
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(** misc utilities **) |
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val quiet_mode = ref false; |
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fun message s = if ! quiet_mode then () else writeln s; |
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fun clean_message s = if ! quick_and_dirty then () else message s; |
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fun coind_prefix true = "co" |
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| coind_prefix false = ""; |
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(*the following code ensures that each recursive set always has the |
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same type in all introduction rules*) |
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fun unify_consts sign cs intr_ts = |
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(let |
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val {tsig, ...} = Sign.rep_sg sign; |
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val add_term_consts_2 = |
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foldl_aterms (fn (cs, Const c) => c ins cs | (cs, _) => cs); |
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fun varify (t, (i, ts)) = |
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let val t' = map_term_types (incr_tvar (i + 1)) (Type.varify (t, [])) |
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in (maxidx_of_term t', t'::ts) end; |
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val (i, cs') = foldr varify (cs, (~1, [])); |
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val (i', intr_ts') = foldr varify (intr_ts, (i, [])); |
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val rec_consts = foldl add_term_consts_2 ([], cs'); |
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val intr_consts = foldl add_term_consts_2 ([], intr_ts'); |
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fun unify (env, (cname, cT)) = |
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let val consts = map snd (filter (fn c => fst c = cname) intr_consts) |
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in foldl (fn ((env', j'), Tp) => (Type.unify tsig j' env' Tp)) |
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|
193 |
(env, (replicate (length consts) cT) ~~ consts) |
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194 |
end; |
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195 |
val (env, _) = foldl unify ((Vartab.empty, i'), rec_consts); |
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196 |
fun typ_subst_TVars_2 env T = let val T' = typ_subst_TVars_Vartab env T |
7020
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197 |
in if T = T' then T else typ_subst_TVars_2 env T' end; |
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198 |
val subst = fst o Type.freeze_thaw o |
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199 |
(map_term_types (typ_subst_TVars_2 env)) |
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200 |
|
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|
201 |
in (map subst cs', map subst intr_ts') |
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202 |
end) handle Type.TUNIFY => |
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203 |
(warning "Occurrences of recursive constant have non-unifiable types"; (cs, intr_ts)); |
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204 |
|
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205 |
|
10735 | 206 |
(*make injections used in mutually recursive definitions*) |
5094 | 207 |
fun mk_inj cs sumT c x = |
208 |
let |
|
209 |
fun mk_inj' T n i = |
|
210 |
if n = 1 then x else |
|
211 |
let val n2 = n div 2; |
|
212 |
val Type (_, [T1, T2]) = T |
|
213 |
in |
|
214 |
if i <= n2 then |
|
215 |
Const ("Inl", T1 --> T) $ (mk_inj' T1 n2 i) |
|
216 |
else |
|
217 |
Const ("Inr", T2 --> T) $ (mk_inj' T2 (n - n2) (i - n2)) |
|
218 |
end |
|
219 |
in mk_inj' sumT (length cs) (1 + find_index_eq c cs) |
|
220 |
end; |
|
221 |
||
10735 | 222 |
(*make "vimage" terms for selecting out components of mutually rec.def*) |
5094 | 223 |
fun mk_vimage cs sumT t c = if length cs < 2 then t else |
224 |
let |
|
225 |
val cT = HOLogic.dest_setT (fastype_of c); |
|
226 |
val vimageT = [cT --> sumT, HOLogic.mk_setT sumT] ---> HOLogic.mk_setT cT |
|
227 |
in |
|
228 |
Const (vimage_name, vimageT) $ |
|
229 |
Abs ("y", cT, mk_inj cs sumT c (Bound 0)) $ t |
|
230 |
end; |
|
231 |
||
10988
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232 |
(** proper splitting **) |
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233 |
|
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234 |
fun prod_factors p (Const ("Pair", _) $ t $ u) = |
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|
235 |
p :: prod_factors (1::p) t @ prod_factors (2::p) u |
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236 |
| prod_factors p _ = []; |
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237 |
|
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238 |
fun mg_prod_factors ts (fs, t $ u) = if t mem ts then |
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|
239 |
let val f = prod_factors [] u |
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|
240 |
in overwrite (fs, (t, f inter if_none (assoc (fs, t)) f)) end |
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|
241 |
else mg_prod_factors ts (mg_prod_factors ts (fs, t), u) |
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242 |
| mg_prod_factors ts (fs, Abs (_, _, t)) = mg_prod_factors ts (fs, t) |
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|
243 |
| mg_prod_factors ts (fs, _) = fs; |
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|
244 |
|
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|
245 |
fun prodT_factors p ps (T as Type ("*", [T1, T2])) = |
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|
246 |
if p mem ps then prodT_factors (1::p) ps T1 @ prodT_factors (2::p) ps T2 |
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|
247 |
else [T] |
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|
248 |
| prodT_factors _ _ T = [T]; |
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|
249 |
|
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|
250 |
fun ap_split p ps (Type ("*", [T1, T2])) T3 u = |
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|
251 |
if p mem ps then HOLogic.split_const (T1, T2, T3) $ |
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|
252 |
Abs ("v", T1, ap_split (2::p) ps T2 T3 (ap_split (1::p) ps T1 |
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|
253 |
(prodT_factors (2::p) ps T2 ---> T3) (incr_boundvars 1 u) $ Bound 0)) |
e0016a009c17
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|
254 |
else u |
e0016a009c17
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|
255 |
| ap_split _ _ _ _ u = u; |
e0016a009c17
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|
256 |
|
e0016a009c17
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|
257 |
fun mk_tuple p ps (Type ("*", [T1, T2])) (tms as t::_) = |
e0016a009c17
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changeset
|
258 |
if p mem ps then HOLogic.mk_prod (mk_tuple (1::p) ps T1 tms, |
e0016a009c17
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changeset
|
259 |
mk_tuple (2::p) ps T2 (drop (length (prodT_factors (1::p) ps T1), tms))) |
e0016a009c17
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changeset
|
260 |
else t |
e0016a009c17
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changeset
|
261 |
| mk_tuple _ _ _ (t::_) = t; |
e0016a009c17
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changeset
|
262 |
|
e0016a009c17
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changeset
|
263 |
fun split_rule_var' ((t as Var (v, Type ("fun", [T1, T2])), ps), rl) = |
e0016a009c17
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diff
changeset
|
264 |
let val T' = prodT_factors [] ps T1 ---> T2 |
e0016a009c17
Splitting of arguments of product types in induction rules is now less
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diff
changeset
|
265 |
val newt = ap_split [] ps T1 T2 (Var (v, T')) |
e0016a009c17
Splitting of arguments of product types in induction rules is now less
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parents:
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diff
changeset
|
266 |
val cterm = Thm.cterm_of (#sign (rep_thm rl)) |
e0016a009c17
Splitting of arguments of product types in induction rules is now less
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parents:
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changeset
|
267 |
in |
e0016a009c17
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diff
changeset
|
268 |
instantiate ([], [(cterm t, cterm newt)]) rl |
e0016a009c17
Splitting of arguments of product types in induction rules is now less
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diff
changeset
|
269 |
end |
e0016a009c17
Splitting of arguments of product types in induction rules is now less
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diff
changeset
|
270 |
| split_rule_var' (_, rl) = rl; |
e0016a009c17
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diff
changeset
|
271 |
|
e0016a009c17
Splitting of arguments of product types in induction rules is now less
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diff
changeset
|
272 |
val remove_split = rewrite_rule [split_conv RS eq_reflection]; |
e0016a009c17
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diff
changeset
|
273 |
|
e0016a009c17
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diff
changeset
|
274 |
fun split_rule_vars vs rl = standard (remove_split (foldr split_rule_var' |
e0016a009c17
Splitting of arguments of product types in induction rules is now less
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diff
changeset
|
275 |
(mg_prod_factors vs ([], #prop (rep_thm rl)), rl))); |
e0016a009c17
Splitting of arguments of product types in induction rules is now less
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diff
changeset
|
276 |
|
e0016a009c17
Splitting of arguments of product types in induction rules is now less
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parents:
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changeset
|
277 |
fun split_rule vs rl = standard (remove_split (foldr split_rule_var' |
e0016a009c17
Splitting of arguments of product types in induction rules is now less
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parents:
10910
diff
changeset
|
278 |
(mapfilter (fn (t as Var ((a, _), _)) => |
e0016a009c17
Splitting of arguments of product types in induction rules is now less
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diff
changeset
|
279 |
apsome (pair t) (assoc (vs, a))) (term_vars (#prop (rep_thm rl))), rl))); |
6424 | 280 |
|
281 |
||
10729 | 282 |
(** process rules **) |
283 |
||
284 |
local |
|
5094 | 285 |
|
10729 | 286 |
fun err_in_rule sg name t msg = |
287 |
error (cat_lines ["Ill-formed introduction rule " ^ quote name, Sign.string_of_term sg t, msg]); |
|
288 |
||
289 |
fun err_in_prem sg name t p msg = |
|
290 |
error (cat_lines ["Ill-formed premise", Sign.string_of_term sg p, |
|
291 |
"in introduction rule " ^ quote name, Sign.string_of_term sg t, msg]); |
|
5094 | 292 |
|
10729 | 293 |
val bad_concl = "Conclusion of introduction rule must have form \"t : S_i\""; |
294 |
||
11358
416ea5c009f5
now checks for leading meta-quantifiers and complains, instead of
paulson
parents:
11036
diff
changeset
|
295 |
val all_not_allowed = |
416ea5c009f5
now checks for leading meta-quantifiers and complains, instead of
paulson
parents:
11036
diff
changeset
|
296 |
"Introduction rule must not have a leading \"!!\" quantifier"; |
416ea5c009f5
now checks for leading meta-quantifiers and complains, instead of
paulson
parents:
11036
diff
changeset
|
297 |
|
11781 | 298 |
val atomize_cterm = Tactic.rewrite_cterm true inductive_atomize; |
10729 | 299 |
|
300 |
in |
|
5094 | 301 |
|
10729 | 302 |
fun check_rule sg cs ((name, rule), att) = |
303 |
let |
|
304 |
val concl = Logic.strip_imp_concl rule; |
|
305 |
val prems = Logic.strip_imp_prems rule; |
|
306 |
val aprems = prems |> map (Thm.term_of o atomize_cterm o Thm.cterm_of sg); |
|
307 |
val arule = Logic.list_implies (aprems, concl); |
|
5094 | 308 |
|
10729 | 309 |
fun check_prem (prem, aprem) = |
310 |
if can HOLogic.dest_Trueprop aprem then () |
|
311 |
else err_in_prem sg name rule prem "Non-atomic premise"; |
|
312 |
in |
|
11358
416ea5c009f5
now checks for leading meta-quantifiers and complains, instead of
paulson
parents:
11036
diff
changeset
|
313 |
(case concl of |
416ea5c009f5
now checks for leading meta-quantifiers and complains, instead of
paulson
parents:
11036
diff
changeset
|
314 |
Const ("Trueprop", _) $ (Const ("op :", _) $ t $ u) => |
10729 | 315 |
if u mem cs then |
316 |
if exists (Logic.occs o rpair t) cs then |
|
317 |
err_in_rule sg name rule "Recursion term on left of member symbol" |
|
318 |
else seq check_prem (prems ~~ aprems) |
|
319 |
else err_in_rule sg name rule bad_concl |
|
11358
416ea5c009f5
now checks for leading meta-quantifiers and complains, instead of
paulson
parents:
11036
diff
changeset
|
320 |
| Const ("all", _) $ _ => err_in_rule sg name rule all_not_allowed |
10729 | 321 |
| _ => err_in_rule sg name rule bad_concl); |
322 |
((name, arule), att) |
|
323 |
end; |
|
5094 | 324 |
|
10729 | 325 |
val rulify = |
10804 | 326 |
standard o Tactic.norm_hhf o |
11036 | 327 |
hol_simplify inductive_rulify2 o hol_simplify inductive_rulify1 o |
328 |
hol_simplify inductive_conj; |
|
10729 | 329 |
|
330 |
end; |
|
331 |
||
5094 | 332 |
|
6424 | 333 |
|
10735 | 334 |
(** properties of (co)inductive sets **) |
5094 | 335 |
|
10735 | 336 |
(* elimination rules *) |
5094 | 337 |
|
8375 | 338 |
fun mk_elims cs cTs params intr_ts intr_names = |
5094 | 339 |
let |
340 |
val used = foldr add_term_names (intr_ts, []); |
|
341 |
val [aname, pname] = variantlist (["a", "P"], used); |
|
342 |
val P = HOLogic.mk_Trueprop (Free (pname, HOLogic.boolT)); |
|
343 |
||
344 |
fun dest_intr r = |
|
345 |
let val Const ("op :", _) $ t $ u = |
|
346 |
HOLogic.dest_Trueprop (Logic.strip_imp_concl r) |
|
347 |
in (u, t, Logic.strip_imp_prems r) end; |
|
348 |
||
8380 | 349 |
val intrs = map dest_intr intr_ts ~~ intr_names; |
5094 | 350 |
|
351 |
fun mk_elim (c, T) = |
|
352 |
let |
|
353 |
val a = Free (aname, T); |
|
354 |
||
355 |
fun mk_elim_prem (_, t, ts) = |
|
356 |
list_all_free (map dest_Free ((foldr add_term_frees (t::ts, [])) \\ params), |
|
357 |
Logic.list_implies (HOLogic.mk_Trueprop (HOLogic.mk_eq (a, t)) :: ts, P)); |
|
8375 | 358 |
val c_intrs = (filter (equal c o #1 o #1) intrs); |
5094 | 359 |
in |
8375 | 360 |
(Logic.list_implies (HOLogic.mk_Trueprop (HOLogic.mk_mem (a, c)) :: |
361 |
map mk_elim_prem (map #1 c_intrs), P), map #2 c_intrs) |
|
5094 | 362 |
end |
363 |
in |
|
364 |
map mk_elim (cs ~~ cTs) |
|
365 |
end; |
|
9598 | 366 |
|
6424 | 367 |
|
10735 | 368 |
(* premises and conclusions of induction rules *) |
5094 | 369 |
|
370 |
fun mk_indrule cs cTs params intr_ts = |
|
371 |
let |
|
372 |
val used = foldr add_term_names (intr_ts, []); |
|
373 |
||
374 |
(* predicates for induction rule *) |
|
375 |
||
376 |
val preds = map Free (variantlist (if length cs < 2 then ["P"] else |
|
377 |
map (fn i => "P" ^ string_of_int i) (1 upto length cs), used) ~~ |
|
378 |
map (fn T => T --> HOLogic.boolT) cTs); |
|
379 |
||
380 |
(* transform an introduction rule into a premise for induction rule *) |
|
381 |
||
382 |
fun mk_ind_prem r = |
|
383 |
let |
|
384 |
val frees = map dest_Free ((add_term_frees (r, [])) \\ params); |
|
385 |
||
7710
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
386 |
val pred_of = curry (Library.gen_assoc (op aconv)) (cs ~~ preds); |
5094 | 387 |
|
7710
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
388 |
fun subst (s as ((m as Const ("op :", T)) $ t $ u)) = |
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
389 |
(case pred_of u of |
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
390 |
None => (m $ fst (subst t) $ fst (subst u), None) |
10735 | 391 |
| Some P => (HOLogic.mk_binop inductive_conj_name (s, P $ t), Some (s, P $ t))) |
7710
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
392 |
| subst s = |
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
393 |
(case pred_of s of |
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
394 |
Some P => (HOLogic.mk_binop "op Int" |
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
395 |
(s, HOLogic.Collect_const (HOLogic.dest_setT |
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
396 |
(fastype_of s)) $ P), None) |
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
397 |
| None => (case s of |
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
398 |
(t $ u) => (fst (subst t) $ fst (subst u), None) |
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
399 |
| (Abs (a, T, t)) => (Abs (a, T, fst (subst t)), None) |
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
400 |
| _ => (s, None))); |
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
401 |
|
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
402 |
fun mk_prem (s, prems) = (case subst s of |
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
403 |
(_, Some (t, u)) => t :: u :: prems |
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
404 |
| (t, _) => t :: prems); |
9598 | 405 |
|
5094 | 406 |
val Const ("op :", _) $ t $ u = |
407 |
HOLogic.dest_Trueprop (Logic.strip_imp_concl r) |
|
408 |
||
409 |
in list_all_free (frees, |
|
7710
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
410 |
Logic.list_implies (map HOLogic.mk_Trueprop (foldr mk_prem |
5094 | 411 |
(map HOLogic.dest_Trueprop (Logic.strip_imp_prems r), [])), |
7710
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
412 |
HOLogic.mk_Trueprop (the (pred_of u) $ t))) |
5094 | 413 |
end; |
414 |
||
415 |
val ind_prems = map mk_ind_prem intr_ts; |
|
10988
e0016a009c17
Splitting of arguments of product types in induction rules is now less
berghofe
parents:
10910
diff
changeset
|
416 |
val factors = foldl (mg_prod_factors preds) ([], ind_prems); |
5094 | 417 |
|
418 |
(* make conclusions for induction rules *) |
|
419 |
||
420 |
fun mk_ind_concl ((c, P), (ts, x)) = |
|
421 |
let val T = HOLogic.dest_setT (fastype_of c); |
|
10988
e0016a009c17
Splitting of arguments of product types in induction rules is now less
berghofe
parents:
10910
diff
changeset
|
422 |
val ps = if_none (assoc (factors, P)) []; |
e0016a009c17
Splitting of arguments of product types in induction rules is now less
berghofe
parents:
10910
diff
changeset
|
423 |
val Ts = prodT_factors [] ps T; |
5094 | 424 |
val (frees, x') = foldr (fn (T', (fs, s)) => |
425 |
((Free (s, T'))::fs, bump_string s)) (Ts, ([], x)); |
|
10988
e0016a009c17
Splitting of arguments of product types in induction rules is now less
berghofe
parents:
10910
diff
changeset
|
426 |
val tuple = mk_tuple [] ps T frees; |
5094 | 427 |
in ((HOLogic.mk_binop "op -->" |
428 |
(HOLogic.mk_mem (tuple, c), P $ tuple))::ts, x') |
|
429 |
end; |
|
430 |
||
7710
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
431 |
val mutual_ind_concl = HOLogic.mk_Trueprop (foldr1 HOLogic.mk_conj |
5094 | 432 |
(fst (foldr mk_ind_concl (cs ~~ preds, ([], "xa"))))) |
433 |
||
10988
e0016a009c17
Splitting of arguments of product types in induction rules is now less
berghofe
parents:
10910
diff
changeset
|
434 |
in (preds, ind_prems, mutual_ind_concl, |
e0016a009c17
Splitting of arguments of product types in induction rules is now less
berghofe
parents:
10910
diff
changeset
|
435 |
map (apfst (fst o dest_Free)) factors) |
5094 | 436 |
end; |
437 |
||
6424 | 438 |
|
10735 | 439 |
(* prepare cases and induct rules *) |
8316
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
440 |
|
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
441 |
(* |
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
442 |
transform mutual rule: |
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
443 |
HH ==> (x1:A1 --> P1 x1) & ... & (xn:An --> Pn xn) |
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
444 |
into i-th projection: |
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
445 |
xi:Ai ==> HH ==> Pi xi |
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
446 |
*) |
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
447 |
|
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
448 |
fun project_rules [name] rule = [(name, rule)] |
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
449 |
| project_rules names mutual_rule = |
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
450 |
let |
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
451 |
val n = length names; |
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
452 |
fun proj i = |
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
453 |
(if i < n then (fn th => th RS conjunct1) else I) |
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
454 |
(Library.funpow (i - 1) (fn th => th RS conjunct2) mutual_rule) |
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
455 |
RS mp |> Thm.permute_prems 0 ~1 |> Drule.standard; |
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
456 |
in names ~~ map proj (1 upto n) end; |
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
457 |
|
11005 | 458 |
fun add_cases_induct no_elim no_ind names elims induct = |
8316
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
459 |
let |
9405 | 460 |
fun cases_spec (name, elim) thy = |
461 |
thy |
|
462 |
|> Theory.add_path (Sign.base_name name) |
|
10279 | 463 |
|> (#1 o PureThy.add_thms [(("cases", elim), [InductAttrib.cases_set_global name])]) |
9405 | 464 |
|> Theory.parent_path; |
8375 | 465 |
val cases_specs = if no_elim then [] else map2 cases_spec (names, elims); |
8316
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
466 |
|
11005 | 467 |
fun induct_spec (name, th) = #1 o PureThy.add_thms |
468 |
[(("", RuleCases.save induct th), [InductAttrib.induct_set_global name])]; |
|
8401 | 469 |
val induct_specs = if no_ind then [] else map induct_spec (project_rules names induct); |
9405 | 470 |
in Library.apply (cases_specs @ induct_specs) end; |
8316
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
471 |
|
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
472 |
|
74639e19eca0
add_cases_induct: project_rules accomodates mutual induction;
wenzelm
parents:
8312
diff
changeset
|
473 |
|
10735 | 474 |
(** proofs for (co)inductive sets **) |
6424 | 475 |
|
10735 | 476 |
(* prove monotonicity -- NOT subject to quick_and_dirty! *) |
5094 | 477 |
|
478 |
fun prove_mono setT fp_fun monos thy = |
|
10735 | 479 |
(message " Proving monotonicity ..."; |
11880 | 480 |
Goals.prove_goalw_cterm [] (*NO quick_and_dirty_prove_goalw_cterm here!*) |
10735 | 481 |
(Thm.cterm_of (Theory.sign_of thy) (HOLogic.mk_Trueprop |
5094 | 482 |
(Const (mono_name, (setT --> setT) --> HOLogic.boolT) $ fp_fun))) |
11502 | 483 |
(fn _ => [rtac monoI 1, REPEAT (ares_tac (flat (map mk_mono monos) @ get_monos thy) 1)])); |
5094 | 484 |
|
6424 | 485 |
|
10735 | 486 |
(* prove introduction rules *) |
5094 | 487 |
|
488 |
fun prove_intrs coind mono fp_def intr_ts con_defs rec_sets_defs thy = |
|
489 |
let |
|
10735 | 490 |
val _ = clean_message " Proving the introduction rules ..."; |
5094 | 491 |
|
492 |
val unfold = standard (mono RS (fp_def RS |
|
10186 | 493 |
(if coind then def_gfp_unfold else def_lfp_unfold))); |
5094 | 494 |
|
495 |
fun select_disj 1 1 = [] |
|
496 |
| select_disj _ 1 = [rtac disjI1] |
|
497 |
| select_disj n i = (rtac disjI2)::(select_disj (n - 1) (i - 1)); |
|
498 |
||
11880 | 499 |
val intrs = map (fn (i, intr) => quick_and_dirty_prove_goalw_cterm thy rec_sets_defs |
10735 | 500 |
(Thm.cterm_of (Theory.sign_of thy) intr) (fn prems => |
5094 | 501 |
[(*insert prems and underlying sets*) |
502 |
cut_facts_tac prems 1, |
|
503 |
stac unfold 1, |
|
504 |
REPEAT (resolve_tac [vimageI2, CollectI] 1), |
|
505 |
(*Now 1-2 subgoals: the disjunction, perhaps equality.*) |
|
506 |
EVERY1 (select_disj (length intr_ts) i), |
|
507 |
(*Not ares_tac, since refl must be tried before any equality assumptions; |
|
508 |
backtracking may occur if the premises have extra variables!*) |
|
10735 | 509 |
DEPTH_SOLVE_1 (resolve_tac [refl, exI, conjI] 1 APPEND assume_tac 1), |
5094 | 510 |
(*Now solve the equations like Inl 0 = Inl ?b2*) |
511 |
rewrite_goals_tac con_defs, |
|
10729 | 512 |
REPEAT (rtac refl 1)]) |
513 |
|> rulify) (1 upto (length intr_ts) ~~ intr_ts) |
|
5094 | 514 |
|
515 |
in (intrs, unfold) end; |
|
516 |
||
6424 | 517 |
|
10735 | 518 |
(* prove elimination rules *) |
5094 | 519 |
|
8375 | 520 |
fun prove_elims cs cTs params intr_ts intr_names unfold rec_sets_defs thy = |
5094 | 521 |
let |
10735 | 522 |
val _ = clean_message " Proving the elimination rules ..."; |
5094 | 523 |
|
7710
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
524 |
val rules1 = [CollectE, disjE, make_elim vimageD, exE]; |
10735 | 525 |
val rules2 = [conjE, Inl_neq_Inr, Inr_neq_Inl] @ map make_elim [Inl_inject, Inr_inject]; |
8375 | 526 |
in |
11005 | 527 |
mk_elims cs cTs params intr_ts intr_names |> map (fn (t, cases) => |
11880 | 528 |
quick_and_dirty_prove_goalw_cterm thy rec_sets_defs |
11005 | 529 |
(Thm.cterm_of (Theory.sign_of thy) t) (fn prems => |
530 |
[cut_facts_tac [hd prems] 1, |
|
531 |
dtac (unfold RS subst) 1, |
|
532 |
REPEAT (FIRSTGOAL (eresolve_tac rules1)), |
|
533 |
REPEAT (FIRSTGOAL (eresolve_tac rules2)), |
|
534 |
EVERY (map (fn prem => DEPTH_SOLVE_1 (ares_tac [prem, conjI] 1)) (tl prems))]) |
|
535 |
|> rulify |
|
536 |
|> RuleCases.name cases) |
|
8375 | 537 |
end; |
5094 | 538 |
|
6424 | 539 |
|
10735 | 540 |
(* derivation of simplified elimination rules *) |
5094 | 541 |
|
542 |
(*Applies freeness of the given constructors, which *must* be unfolded by |
|
9598 | 543 |
the given defs. Cannot simply use the local con_defs because con_defs=[] |
10735 | 544 |
for inference systems. (??) *) |
5094 | 545 |
|
11682
d9063229b4a1
simp_case_tac is back again from induct_method.ML;
wenzelm
parents:
11628
diff
changeset
|
546 |
local |
d9063229b4a1
simp_case_tac is back again from induct_method.ML;
wenzelm
parents:
11628
diff
changeset
|
547 |
|
7107 | 548 |
(*cprop should have the form t:Si where Si is an inductive set*) |
11682
d9063229b4a1
simp_case_tac is back again from induct_method.ML;
wenzelm
parents:
11628
diff
changeset
|
549 |
val mk_cases_err = "mk_cases: proposition not of form \"t : S_i\""; |
9598 | 550 |
|
11682
d9063229b4a1
simp_case_tac is back again from induct_method.ML;
wenzelm
parents:
11628
diff
changeset
|
551 |
(*delete needless equality assumptions*) |
d9063229b4a1
simp_case_tac is back again from induct_method.ML;
wenzelm
parents:
11628
diff
changeset
|
552 |
val refl_thin = prove_goal HOL.thy "!!P. a = a ==> P ==> P" (fn _ => [assume_tac 1]); |
d9063229b4a1
simp_case_tac is back again from induct_method.ML;
wenzelm
parents:
11628
diff
changeset
|
553 |
val elim_rls = [asm_rl, FalseE, refl_thin, conjE, exE, Pair_inject]; |
d9063229b4a1
simp_case_tac is back again from induct_method.ML;
wenzelm
parents:
11628
diff
changeset
|
554 |
val elim_tac = REPEAT o Tactic.eresolve_tac elim_rls; |
d9063229b4a1
simp_case_tac is back again from induct_method.ML;
wenzelm
parents:
11628
diff
changeset
|
555 |
|
d9063229b4a1
simp_case_tac is back again from induct_method.ML;
wenzelm
parents:
11628
diff
changeset
|
556 |
fun simp_case_tac solved ss i = |
d9063229b4a1
simp_case_tac is back again from induct_method.ML;
wenzelm
parents:
11628
diff
changeset
|
557 |
EVERY' [elim_tac, asm_full_simp_tac ss, elim_tac, REPEAT o bound_hyp_subst_tac] i |
d9063229b4a1
simp_case_tac is back again from induct_method.ML;
wenzelm
parents:
11628
diff
changeset
|
558 |
THEN_MAYBE (if solved then no_tac else all_tac); |
d9063229b4a1
simp_case_tac is back again from induct_method.ML;
wenzelm
parents:
11628
diff
changeset
|
559 |
|
d9063229b4a1
simp_case_tac is back again from induct_method.ML;
wenzelm
parents:
11628
diff
changeset
|
560 |
in |
9598 | 561 |
|
562 |
fun mk_cases_i elims ss cprop = |
|
7107 | 563 |
let |
564 |
val prem = Thm.assume cprop; |
|
11682
d9063229b4a1
simp_case_tac is back again from induct_method.ML;
wenzelm
parents:
11628
diff
changeset
|
565 |
val tac = ALLGOALS (simp_case_tac false ss) THEN prune_params_tac; |
9298 | 566 |
fun mk_elim rl = Drule.standard (Tactic.rule_by_tactic tac (prem RS rl)); |
7107 | 567 |
in |
568 |
(case get_first (try mk_elim) elims of |
|
569 |
Some r => r |
|
570 |
| None => error (Pretty.string_of (Pretty.block |
|
9598 | 571 |
[Pretty.str mk_cases_err, Pretty.fbrk, Display.pretty_cterm cprop]))) |
7107 | 572 |
end; |
573 |
||
6141 | 574 |
fun mk_cases elims s = |
9598 | 575 |
mk_cases_i elims (simpset()) (Thm.read_cterm (Thm.sign_of_thm (hd elims)) (s, propT)); |
576 |
||
577 |
fun smart_mk_cases thy ss cprop = |
|
578 |
let |
|
579 |
val c = #1 (Term.dest_Const (Term.head_of (#2 (HOLogic.dest_mem (HOLogic.dest_Trueprop |
|
580 |
(Logic.strip_imp_concl (Thm.term_of cprop))))))) handle TERM _ => error mk_cases_err; |
|
581 |
val (_, {elims, ...}) = the_inductive thy c; |
|
582 |
in mk_cases_i elims ss cprop end; |
|
7107 | 583 |
|
11682
d9063229b4a1
simp_case_tac is back again from induct_method.ML;
wenzelm
parents:
11628
diff
changeset
|
584 |
end; |
d9063229b4a1
simp_case_tac is back again from induct_method.ML;
wenzelm
parents:
11628
diff
changeset
|
585 |
|
7107 | 586 |
|
587 |
(* inductive_cases(_i) *) |
|
588 |
||
589 |
fun gen_inductive_cases prep_att prep_const prep_prop |
|
9598 | 590 |
(((name, raw_atts), raw_props), comment) thy = |
591 |
let |
|
592 |
val ss = Simplifier.simpset_of thy; |
|
593 |
val sign = Theory.sign_of thy; |
|
594 |
val cprops = map (Thm.cterm_of sign o prep_prop (ProofContext.init thy)) raw_props; |
|
595 |
val atts = map (prep_att thy) raw_atts; |
|
596 |
val thms = map (smart_mk_cases thy ss) cprops; |
|
11740 | 597 |
in |
598 |
thy |> |
|
599 |
IsarThy.have_theorems_i Drule.lemmaK [(((name, atts), map Thm.no_attributes thms), comment)] |
|
600 |
end; |
|
5094 | 601 |
|
7107 | 602 |
val inductive_cases = |
603 |
gen_inductive_cases Attrib.global_attribute Sign.intern_const ProofContext.read_prop; |
|
604 |
||
605 |
val inductive_cases_i = gen_inductive_cases (K I) (K I) ProofContext.cert_prop; |
|
606 |
||
6424 | 607 |
|
9598 | 608 |
(* mk_cases_meth *) |
609 |
||
610 |
fun mk_cases_meth (ctxt, raw_props) = |
|
611 |
let |
|
612 |
val thy = ProofContext.theory_of ctxt; |
|
613 |
val ss = Simplifier.get_local_simpset ctxt; |
|
614 |
val cprops = map (Thm.cterm_of (Theory.sign_of thy) o ProofContext.read_prop ctxt) raw_props; |
|
10743 | 615 |
in Method.erule 0 (map (smart_mk_cases thy ss) cprops) end; |
9598 | 616 |
|
617 |
val mk_cases_args = Method.syntax (Scan.lift (Scan.repeat1 Args.name)); |
|
618 |
||
619 |
||
10735 | 620 |
(* prove induction rule *) |
5094 | 621 |
|
622 |
fun prove_indrule cs cTs sumT rec_const params intr_ts mono |
|
623 |
fp_def rec_sets_defs thy = |
|
624 |
let |
|
10735 | 625 |
val _ = clean_message " Proving the induction rule ..."; |
5094 | 626 |
|
6394 | 627 |
val sign = Theory.sign_of thy; |
5094 | 628 |
|
7293 | 629 |
val sum_case_rewrites = (case ThyInfo.lookup_theory "Datatype" of |
630 |
None => [] |
|
631 |
| Some thy' => map mk_meta_eq (PureThy.get_thms thy' "sum.cases")); |
|
632 |
||
10988
e0016a009c17
Splitting of arguments of product types in induction rules is now less
berghofe
parents:
10910
diff
changeset
|
633 |
val (preds, ind_prems, mutual_ind_concl, factors) = |
e0016a009c17
Splitting of arguments of product types in induction rules is now less
berghofe
parents:
10910
diff
changeset
|
634 |
mk_indrule cs cTs params intr_ts; |
5094 | 635 |
|
636 |
(* make predicate for instantiation of abstract induction rule *) |
|
637 |
||
638 |
fun mk_ind_pred _ [P] = P |
|
639 |
| mk_ind_pred T Ps = |
|
640 |
let val n = (length Ps) div 2; |
|
641 |
val Type (_, [T1, T2]) = T |
|
7293 | 642 |
in Const ("Datatype.sum.sum_case", |
5094 | 643 |
[T1 --> HOLogic.boolT, T2 --> HOLogic.boolT, T] ---> HOLogic.boolT) $ |
644 |
mk_ind_pred T1 (take (n, Ps)) $ mk_ind_pred T2 (drop (n, Ps)) |
|
645 |
end; |
|
646 |
||
647 |
val ind_pred = mk_ind_pred sumT preds; |
|
648 |
||
649 |
val ind_concl = HOLogic.mk_Trueprop |
|
650 |
(HOLogic.all_const sumT $ Abs ("x", sumT, HOLogic.mk_binop "op -->" |
|
651 |
(HOLogic.mk_mem (Bound 0, rec_const), ind_pred $ Bound 0))); |
|
652 |
||
653 |
(* simplification rules for vimage and Collect *) |
|
654 |
||
655 |
val vimage_simps = if length cs < 2 then [] else |
|
11880 | 656 |
map (fn c => quick_and_dirty_prove_goalw_cterm thy [] (Thm.cterm_of sign |
5094 | 657 |
(HOLogic.mk_Trueprop (HOLogic.mk_eq |
658 |
(mk_vimage cs sumT (HOLogic.Collect_const sumT $ ind_pred) c, |
|
659 |
HOLogic.Collect_const (HOLogic.dest_setT (fastype_of c)) $ |
|
660 |
nth_elem (find_index_eq c cs, preds))))) |
|
10735 | 661 |
(fn _ => [rtac vimage_Collect 1, rewrite_goals_tac sum_case_rewrites, rtac refl 1])) cs; |
5094 | 662 |
|
11880 | 663 |
val induct = quick_and_dirty_prove_goalw_cterm thy [inductive_conj_def] (Thm.cterm_of sign |
5094 | 664 |
(Logic.list_implies (ind_prems, ind_concl))) (fn prems => |
665 |
[rtac (impI RS allI) 1, |
|
10202 | 666 |
DETERM (etac (mono RS (fp_def RS def_lfp_induct)) 1), |
7710
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
667 |
rewrite_goals_tac (map mk_meta_eq (vimage_Int::Int_Collect::vimage_simps)), |
5094 | 668 |
fold_goals_tac rec_sets_defs, |
669 |
(*This CollectE and disjE separates out the introduction rules*) |
|
7710
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
670 |
REPEAT (FIRSTGOAL (eresolve_tac [CollectE, disjE, exE])), |
5094 | 671 |
(*Now break down the individual cases. No disjE here in case |
672 |
some premise involves disjunction.*) |
|
7710
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
673 |
REPEAT (FIRSTGOAL (etac conjE ORELSE' hyp_subst_tac)), |
7293 | 674 |
rewrite_goals_tac sum_case_rewrites, |
5094 | 675 |
EVERY (map (fn prem => |
5149 | 676 |
DEPTH_SOLVE_1 (ares_tac [prem, conjI, refl] 1)) prems)]); |
5094 | 677 |
|
11880 | 678 |
val lemma = quick_and_dirty_prove_goalw_cterm thy rec_sets_defs (Thm.cterm_of sign |
5094 | 679 |
(Logic.mk_implies (ind_concl, mutual_ind_concl))) (fn prems => |
680 |
[cut_facts_tac prems 1, |
|
681 |
REPEAT (EVERY |
|
682 |
[REPEAT (resolve_tac [conjI, impI] 1), |
|
683 |
TRY (dtac vimageD 1), etac allE 1, dtac mp 1, atac 1, |
|
7293 | 684 |
rewrite_goals_tac sum_case_rewrites, |
5094 | 685 |
atac 1])]) |
686 |
||
10988
e0016a009c17
Splitting of arguments of product types in induction rules is now less
berghofe
parents:
10910
diff
changeset
|
687 |
in standard (split_rule factors (induct RS lemma)) end; |
5094 | 688 |
|
6424 | 689 |
|
690 |
||
10735 | 691 |
(** specification of (co)inductive sets **) |
5094 | 692 |
|
10729 | 693 |
fun cond_declare_consts declare_consts cs paramTs cnames = |
694 |
if declare_consts then |
|
695 |
Theory.add_consts_i (map (fn (c, n) => (n, paramTs ---> fastype_of c, NoSyn)) (cs ~~ cnames)) |
|
696 |
else I; |
|
697 |
||
9072
a4896cf23638
Now also proves monotonicity when in quick_and_dirty mode.
berghofe
parents:
8720
diff
changeset
|
698 |
fun mk_ind_def declare_consts alt_name coind cs intr_ts monos con_defs thy |
a4896cf23638
Now also proves monotonicity when in quick_and_dirty mode.
berghofe
parents:
8720
diff
changeset
|
699 |
params paramTs cTs cnames = |
5094 | 700 |
let |
701 |
val sumT = fold_bal (fn (T, U) => Type ("+", [T, U])) cTs; |
|
702 |
val setT = HOLogic.mk_setT sumT; |
|
703 |
||
10735 | 704 |
val fp_name = if coind then gfp_name else lfp_name; |
5094 | 705 |
|
5149 | 706 |
val used = foldr add_term_names (intr_ts, []); |
707 |
val [sname, xname] = variantlist (["S", "x"], used); |
|
708 |
||
5094 | 709 |
(* transform an introduction rule into a conjunction *) |
710 |
(* [| t : ... S_i ... ; ... |] ==> u : S_j *) |
|
711 |
(* is transformed into *) |
|
712 |
(* x = Inj_j u & t : ... Inj_i -`` S ... & ... *) |
|
713 |
||
714 |
fun transform_rule r = |
|
715 |
let |
|
716 |
val frees = map dest_Free ((add_term_frees (r, [])) \\ params); |
|
5149 | 717 |
val subst = subst_free |
718 |
(cs ~~ (map (mk_vimage cs sumT (Free (sname, setT))) cs)); |
|
5094 | 719 |
val Const ("op :", _) $ t $ u = |
720 |
HOLogic.dest_Trueprop (Logic.strip_imp_concl r) |
|
721 |
||
722 |
in foldr (fn ((x, T), P) => HOLogic.mk_exists (x, T, P)) |
|
7710
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
723 |
(frees, foldr1 HOLogic.mk_conj |
5149 | 724 |
(((HOLogic.eq_const sumT) $ Free (xname, sumT) $ (mk_inj cs sumT u t)):: |
5094 | 725 |
(map (subst o HOLogic.dest_Trueprop) |
726 |
(Logic.strip_imp_prems r)))) |
|
727 |
end |
|
728 |
||
729 |
(* make a disjunction of all introduction rules *) |
|
730 |
||
5149 | 731 |
val fp_fun = absfree (sname, setT, (HOLogic.Collect_const sumT) $ |
7710
bf8cb3fc5d64
Monotonicity rules for inductive definitions can now be added to a theory via
berghofe
parents:
7349
diff
changeset
|
732 |
absfree (xname, sumT, foldr1 HOLogic.mk_disj (map transform_rule intr_ts))); |
5094 | 733 |
|
734 |
(* add definiton of recursive sets to theory *) |
|
735 |
||
736 |
val rec_name = if alt_name = "" then space_implode "_" cnames else alt_name; |
|
6394 | 737 |
val full_rec_name = Sign.full_name (Theory.sign_of thy) rec_name; |
5094 | 738 |
|
739 |
val rec_const = list_comb |
|
740 |
(Const (full_rec_name, paramTs ---> setT), params); |
|
741 |
||
742 |
val fp_def_term = Logic.mk_equals (rec_const, |
|
10735 | 743 |
Const (fp_name, (setT --> setT) --> setT) $ fp_fun); |
5094 | 744 |
|
745 |
val def_terms = fp_def_term :: (if length cs < 2 then [] else |
|
746 |
map (fn c => Logic.mk_equals (c, mk_vimage cs sumT rec_const c)) cs); |
|
747 |
||
8433 | 748 |
val (thy', [fp_def :: rec_sets_defs]) = |
749 |
thy |
|
10729 | 750 |
|> cond_declare_consts declare_consts cs paramTs cnames |
8433 | 751 |
|> (if length cs < 2 then I |
752 |
else Theory.add_consts_i [(rec_name, paramTs ---> setT, NoSyn)]) |
|
753 |
|> Theory.add_path rec_name |
|
9315 | 754 |
|> PureThy.add_defss_i false [(("defs", def_terms), [])]; |
5094 | 755 |
|
9072
a4896cf23638
Now also proves monotonicity when in quick_and_dirty mode.
berghofe
parents:
8720
diff
changeset
|
756 |
val mono = prove_mono setT fp_fun monos thy' |
5094 | 757 |
|
10735 | 758 |
in (thy', mono, fp_def, rec_sets_defs, rec_const, sumT) end; |
5094 | 759 |
|
9072
a4896cf23638
Now also proves monotonicity when in quick_and_dirty mode.
berghofe
parents:
8720
diff
changeset
|
760 |
fun add_ind_def verbose declare_consts alt_name coind no_elim no_ind cs |
11628 | 761 |
intros monos con_defs thy params paramTs cTs cnames induct_cases = |
9072
a4896cf23638
Now also proves monotonicity when in quick_and_dirty mode.
berghofe
parents:
8720
diff
changeset
|
762 |
let |
10735 | 763 |
val _ = |
764 |
if verbose then message ("Proofs for " ^ coind_prefix coind ^ "inductive set(s) " ^ |
|
765 |
commas_quote cnames) else (); |
|
9072
a4896cf23638
Now also proves monotonicity when in quick_and_dirty mode.
berghofe
parents:
8720
diff
changeset
|
766 |
|
a4896cf23638
Now also proves monotonicity when in quick_and_dirty mode.
berghofe
parents:
8720
diff
changeset
|
767 |
val ((intr_names, intr_ts), intr_atts) = apfst split_list (split_list intros); |
a4896cf23638
Now also proves monotonicity when in quick_and_dirty mode.
berghofe
parents:
8720
diff
changeset
|
768 |
|
9939 | 769 |
val (thy1, mono, fp_def, rec_sets_defs, rec_const, sumT) = |
9072
a4896cf23638
Now also proves monotonicity when in quick_and_dirty mode.
berghofe
parents:
8720
diff
changeset
|
770 |
mk_ind_def declare_consts alt_name coind cs intr_ts monos con_defs thy |
a4896cf23638
Now also proves monotonicity when in quick_and_dirty mode.
berghofe
parents:
8720
diff
changeset
|
771 |
params paramTs cTs cnames; |
a4896cf23638
Now also proves monotonicity when in quick_and_dirty mode.
berghofe
parents:
8720
diff
changeset
|
772 |
|
5094 | 773 |
val (intrs, unfold) = prove_intrs coind mono fp_def intr_ts con_defs |
9939 | 774 |
rec_sets_defs thy1; |
5094 | 775 |
val elims = if no_elim then [] else |
9939 | 776 |
prove_elims cs cTs params intr_ts intr_names unfold rec_sets_defs thy1; |
8312
b470bc28b59d
add_cases_induct: accomodate no_elim and no_ind flags;
wenzelm
parents:
8307
diff
changeset
|
777 |
val raw_induct = if no_ind then Drule.asm_rl else |
5094 | 778 |
if coind then standard (rule_by_tactic |
5553 | 779 |
(rewrite_tac [mk_meta_eq vimage_Un] THEN |
5094 | 780 |
fold_tac rec_sets_defs) (mono RS (fp_def RS def_Collect_coinduct))) |
781 |
else |
|
782 |
prove_indrule cs cTs sumT rec_const params intr_ts mono fp_def |
|
9939 | 783 |
rec_sets_defs thy1; |
5108 | 784 |
val induct = if coind orelse no_ind orelse length cs > 1 then raw_induct |
5094 | 785 |
else standard (raw_induct RSN (2, rev_mp)); |
786 |
||
9939 | 787 |
val (thy2, intrs') = |
788 |
thy1 |> PureThy.add_thms ((intr_names ~~ intrs) ~~ intr_atts); |
|
10735 | 789 |
val (thy3, ([intrs'', elims'], [induct'])) = |
790 |
thy2 |
|
11005 | 791 |
|> PureThy.add_thmss |
11628 | 792 |
[(("intros", intrs'), []), |
11005 | 793 |
(("elims", elims), [RuleCases.consumes 1])] |
10735 | 794 |
|>>> PureThy.add_thms |
11005 | 795 |
[((coind_prefix coind ^ "induct", rulify induct), |
796 |
[RuleCases.case_names induct_cases, |
|
797 |
RuleCases.consumes 1])] |
|
8433 | 798 |
|>> Theory.parent_path; |
9939 | 799 |
in (thy3, |
10735 | 800 |
{defs = fp_def :: rec_sets_defs, |
5094 | 801 |
mono = mono, |
802 |
unfold = unfold, |
|
9939 | 803 |
intrs = intrs'', |
7798
42e94b618f34
return stored thms with proper naming in derivation;
wenzelm
parents:
7710
diff
changeset
|
804 |
elims = elims', |
42e94b618f34
return stored thms with proper naming in derivation;
wenzelm
parents:
7710
diff
changeset
|
805 |
mk_cases = mk_cases elims', |
10729 | 806 |
raw_induct = rulify raw_induct, |
7798
42e94b618f34
return stored thms with proper naming in derivation;
wenzelm
parents:
7710
diff
changeset
|
807 |
induct = induct'}) |
5094 | 808 |
end; |
809 |
||
6424 | 810 |
|
10735 | 811 |
(* external interfaces *) |
5094 | 812 |
|
10735 | 813 |
fun try_term f msg sign t = |
814 |
(case Library.try f t of |
|
815 |
Some x => x |
|
816 |
| None => error (msg ^ Sign.string_of_term sign t)); |
|
5094 | 817 |
|
818 |
fun add_inductive_i verbose declare_consts alt_name coind no_elim no_ind cs |
|
11628 | 819 |
pre_intros monos con_defs thy = |
5094 | 820 |
let |
6424 | 821 |
val _ = Theory.requires thy "Inductive" (coind_prefix coind ^ "inductive definitions"); |
6394 | 822 |
val sign = Theory.sign_of thy; |
5094 | 823 |
|
824 |
(*parameters should agree for all mutually recursive components*) |
|
825 |
val (_, params) = strip_comb (hd cs); |
|
10735 | 826 |
val paramTs = map (try_term (snd o dest_Free) "Parameter in recursive\ |
5094 | 827 |
\ component is not a free variable: " sign) params; |
828 |
||
10735 | 829 |
val cTs = map (try_term (HOLogic.dest_setT o fastype_of) |
5094 | 830 |
"Recursive component not of type set: " sign) cs; |
831 |
||
10735 | 832 |
val full_cnames = map (try_term (fst o dest_Const o head_of) |
5094 | 833 |
"Recursive set not previously declared as constant: " sign) cs; |
6437 | 834 |
val cnames = map Sign.base_name full_cnames; |
5094 | 835 |
|
10729 | 836 |
val save_sign = |
837 |
thy |> Theory.copy |> cond_declare_consts declare_consts cs paramTs cnames |> Theory.sign_of; |
|
838 |
val intros = map (check_rule save_sign cs) pre_intros; |
|
8401 | 839 |
val induct_cases = map (#1 o #1) intros; |
6437 | 840 |
|
9405 | 841 |
val (thy1, result as {elims, induct, ...}) = |
11628 | 842 |
add_ind_def verbose declare_consts alt_name coind no_elim no_ind cs intros monos |
8401 | 843 |
con_defs thy params paramTs cTs cnames induct_cases; |
8307 | 844 |
val thy2 = thy1 |
845 |
|> put_inductives full_cnames ({names = full_cnames, coind = coind}, result) |
|
11005 | 846 |
|> add_cases_induct no_elim (no_ind orelse coind) full_cnames elims induct; |
6437 | 847 |
in (thy2, result) end; |
5094 | 848 |
|
11628 | 849 |
fun add_inductive verbose coind c_strings intro_srcs raw_monos raw_con_defs thy = |
5094 | 850 |
let |
6394 | 851 |
val sign = Theory.sign_of thy; |
8100 | 852 |
val cs = map (term_of o Thm.read_cterm sign o rpair HOLogic.termT) c_strings; |
6424 | 853 |
|
854 |
val intr_names = map (fst o fst) intro_srcs; |
|
9405 | 855 |
fun read_rule s = Thm.read_cterm sign (s, propT) |
856 |
handle ERROR => error ("The error(s) above occurred for " ^ s); |
|
857 |
val intr_ts = map (Thm.term_of o read_rule o snd o fst) intro_srcs; |
|
6424 | 858 |
val intr_atts = map (map (Attrib.global_attribute thy) o snd) intro_srcs; |
7020
75ff179df7b7
Exported function unify_consts (workaround to avoid inconsistently
berghofe
parents:
6851
diff
changeset
|
859 |
val (cs', intr_ts') = unify_consts sign cs intr_ts; |
5094 | 860 |
|
6424 | 861 |
val ((thy', con_defs), monos) = thy |
862 |
|> IsarThy.apply_theorems raw_monos |
|
863 |
|> apfst (IsarThy.apply_theorems raw_con_defs); |
|
864 |
in |
|
7020
75ff179df7b7
Exported function unify_consts (workaround to avoid inconsistently
berghofe
parents:
6851
diff
changeset
|
865 |
add_inductive_i verbose false "" coind false false cs' |
11628 | 866 |
((intr_names ~~ intr_ts') ~~ intr_atts) monos con_defs thy' |
5094 | 867 |
end; |
868 |
||
6424 | 869 |
|
870 |
||
6437 | 871 |
(** package setup **) |
872 |
||
873 |
(* setup theory *) |
|
874 |
||
8634 | 875 |
val setup = |
876 |
[InductiveData.init, |
|
9625 | 877 |
Method.add_methods [("ind_cases", mk_cases_meth oo mk_cases_args, |
9598 | 878 |
"dynamic case analysis on sets")], |
9893 | 879 |
Attrib.add_attributes [("mono", mono_attr, "declaration of monotonicity rule")]]; |
6437 | 880 |
|
881 |
||
882 |
(* outer syntax *) |
|
6424 | 883 |
|
6723 | 884 |
local structure P = OuterParse and K = OuterSyntax.Keyword in |
6424 | 885 |
|
11628 | 886 |
fun mk_ind coind (((sets, intrs), monos), con_defs) = |
887 |
#1 o add_inductive true coind sets (map P.triple_swap intrs) monos con_defs; |
|
6424 | 888 |
|
889 |
fun ind_decl coind = |
|
6729 | 890 |
(Scan.repeat1 P.term --| P.marg_comment) -- |
9598 | 891 |
(P.$$$ "intros" |-- |
11628 | 892 |
P.!!! (Scan.repeat1 (P.opt_thm_name ":" -- P.prop --| P.marg_comment))) -- |
6729 | 893 |
Scan.optional (P.$$$ "monos" |-- P.!!! P.xthms1 --| P.marg_comment) [] -- |
894 |
Scan.optional (P.$$$ "con_defs" |-- P.!!! P.xthms1 --| P.marg_comment) [] |
|
6424 | 895 |
>> (Toplevel.theory o mk_ind coind); |
896 |
||
6723 | 897 |
val inductiveP = |
898 |
OuterSyntax.command "inductive" "define inductive sets" K.thy_decl (ind_decl false); |
|
899 |
||
900 |
val coinductiveP = |
|
901 |
OuterSyntax.command "coinductive" "define coinductive sets" K.thy_decl (ind_decl true); |
|
6424 | 902 |
|
7107 | 903 |
|
904 |
val ind_cases = |
|
9625 | 905 |
P.opt_thm_name ":" -- Scan.repeat1 P.prop -- P.marg_comment |
7107 | 906 |
>> (Toplevel.theory o inductive_cases); |
907 |
||
908 |
val inductive_casesP = |
|
9804 | 909 |
OuterSyntax.command "inductive_cases" |
9598 | 910 |
"create simplified instances of elimination rules (improper)" K.thy_script ind_cases; |
7107 | 911 |
|
9643 | 912 |
val _ = OuterSyntax.add_keywords ["intros", "monos", "con_defs"]; |
7107 | 913 |
val _ = OuterSyntax.add_parsers [inductiveP, coinductiveP, inductive_casesP]; |
6424 | 914 |
|
5094 | 915 |
end; |
6424 | 916 |
|
917 |
end; |