author | haftmann |
Wed, 18 Aug 2010 12:26:48 +0200 | |
changeset 38522 | de7984a7172b |
parent 37781 | 2fbbf0a48cef |
child 39288 | f1ae2493d93f |
permissions | -rw-r--r-- |
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(* Title: ZF/Tools/inductive_package.ML |
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Author: Lawrence C Paulson, Cambridge University Computer Laboratory |
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Fixedpoint definition module -- for Inductive/Coinductive Definitions |
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The functor will be instantiated for normal sums/products (inductive defs) |
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and non-standard sums/products (coinductive defs) |
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Sums are used only for mutual recursion; |
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Products are used only to derive "streamlined" induction rules for relations |
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*) |
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type inductive_result = |
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{defs : thm list, (*definitions made in thy*) |
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bnd_mono : thm, (*monotonicity for the lfp definition*) |
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dom_subset : thm, (*inclusion of recursive set in dom*) |
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intrs : thm list, (*introduction rules*) |
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elim : thm, (*case analysis theorem*) |
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induct : thm, (*main induction rule*) |
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mutual_induct : thm}; (*mutual induction rule*) |
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(*Functor's result signature*) |
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signature INDUCTIVE_PACKAGE = |
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sig |
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(*Insert definitions for the recursive sets, which |
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must *already* be declared as constants in parent theory!*) |
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val add_inductive_i: bool -> term list * term -> |
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((binding * term) * attribute list) list -> |
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thm list * thm list * thm list * thm list -> theory -> theory * inductive_result |
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val add_inductive: string list * string -> |
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((binding * string) * Attrib.src list) list -> |
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(Facts.ref * Attrib.src list) list * (Facts.ref * Attrib.src list) list * |
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(Facts.ref * Attrib.src list) list * (Facts.ref * Attrib.src list) list -> |
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theory -> theory * inductive_result |
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end; |
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(*Declares functions to add fixedpoint/constructor defs to a theory. |
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Recursive sets must *already* be declared as constants.*) |
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functor Add_inductive_def_Fun |
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(structure Fp: FP and Pr : PR and CP: CARTPROD and Su : SU val coind: bool) |
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: INDUCTIVE_PACKAGE = |
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struct |
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open Ind_Syntax; |
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val co_prefix = if coind then "co" else ""; |
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(* utils *) |
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(*make distinct individual variables a1, a2, a3, ..., an. *) |
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fun mk_frees a [] = [] |
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| mk_frees a (T::Ts) = Free(a,T) :: mk_frees (Symbol.bump_string a) Ts; |
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(* add_inductive(_i) *) |
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(*internal version, accepting terms*) |
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fun add_inductive_i verbose (rec_tms, dom_sum) |
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raw_intr_specs (monos, con_defs, type_intrs, type_elims) thy = |
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let |
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val _ = Theory.requires thy "Inductive_ZF" "(co)inductive definitions"; |
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val ctxt = ProofContext.init_global thy; |
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val intr_specs = map (apfst (apfst Binding.name_of)) raw_intr_specs; |
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val (intr_names, intr_tms) = split_list (map fst intr_specs); |
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val case_names = Rule_Cases.case_names intr_names; |
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(*recT and rec_params should agree for all mutually recursive components*) |
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val rec_hds = map head_of rec_tms; |
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val dummy = assert_all is_Const rec_hds |
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(fn t => "Recursive set not previously declared as constant: " ^ |
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Syntax.string_of_term ctxt t); |
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(*Now we know they are all Consts, so get their names, type and params*) |
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val rec_names = map (#1 o dest_Const) rec_hds |
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and (Const(_,recT),rec_params) = strip_comb (hd rec_tms); |
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val rec_base_names = map Long_Name.base_name rec_names; |
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val dummy = assert_all Syntax.is_identifier rec_base_names |
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(fn a => "Base name of recursive set not an identifier: " ^ a); |
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local (*Checking the introduction rules*) |
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val intr_sets = map (#2 o rule_concl_msg thy) intr_tms; |
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fun intr_ok set = |
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case head_of set of Const(a,recT) => member (op =) rec_names a | _ => false; |
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in |
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val dummy = assert_all intr_ok intr_sets |
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(fn t => "Conclusion of rule does not name a recursive set: " ^ |
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Syntax.string_of_term ctxt t); |
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end; |
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val dummy = assert_all is_Free rec_params |
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(fn t => "Param in recursion term not a free variable: " ^ |
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Syntax.string_of_term ctxt t); |
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(*** Construct the fixedpoint definition ***) |
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val mk_variant = Name.variant (List.foldr OldTerm.add_term_names [] intr_tms); |
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val z' = mk_variant"z" and X' = mk_variant"X" and w' = mk_variant"w"; |
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fun dest_tprop (Const(@{const_name Trueprop},_) $ P) = P |
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| dest_tprop Q = error ("Ill-formed premise of introduction rule: " ^ |
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Syntax.string_of_term ctxt Q); |
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(*Makes a disjunct from an introduction rule*) |
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fun fp_part intr = (*quantify over rule's free vars except parameters*) |
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let val prems = map dest_tprop (Logic.strip_imp_prems intr) |
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val dummy = List.app (fn rec_hd => List.app (chk_prem rec_hd) prems) rec_hds |
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val exfrees = subtract (op =) rec_params (OldTerm.term_frees intr) |
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val zeq = FOLogic.mk_eq (Free(z',iT), #1 (rule_concl intr)) |
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in List.foldr FOLogic.mk_exists |
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(Balanced_Tree.make FOLogic.mk_conj (zeq::prems)) exfrees |
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end; |
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(*The Part(A,h) terms -- compose injections to make h*) |
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fun mk_Part (Bound 0) = Free(X',iT) (*no mutual rec, no Part needed*) |
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| mk_Part h = @{const Part} $ Free(X',iT) $ Abs(w',iT,h); |
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(*Access to balanced disjoint sums via injections*) |
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val parts = map mk_Part |
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(Balanced_Tree.accesses {left = fn t => Su.inl $ t, right = fn t => Su.inr $ t, init = Bound 0} |
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(length rec_tms)); |
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(*replace each set by the corresponding Part(A,h)*) |
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val part_intrs = map (subst_free (rec_tms ~~ parts) o fp_part) intr_tms; |
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val fp_abs = absfree(X', iT, |
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mk_Collect(z', dom_sum, |
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Balanced_Tree.make FOLogic.mk_disj part_intrs)); |
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val fp_rhs = Fp.oper $ dom_sum $ fp_abs |
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val dummy = List.app (fn rec_hd => (Logic.occs (rec_hd, fp_rhs) andalso |
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error "Illegal occurrence of recursion operator"; ())) |
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rec_hds; |
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(*** Make the new theory ***) |
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(*A key definition: |
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If no mutual recursion then it equals the one recursive set. |
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If mutual recursion then it differs from all the recursive sets. *) |
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val big_rec_base_name = space_implode "_" rec_base_names; |
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val big_rec_name = Sign.intern_const thy big_rec_base_name; |
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val _ = |
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if verbose then |
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writeln ((if coind then "Coind" else "Ind") ^ "uctive definition " ^ quote big_rec_name) |
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else (); |
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(*Big_rec... is the union of the mutually recursive sets*) |
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val big_rec_tm = list_comb(Const(big_rec_name,recT), rec_params); |
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(*The individual sets must already be declared*) |
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val axpairs = map Misc_Legacy.mk_defpair |
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((big_rec_tm, fp_rhs) :: |
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(case parts of |
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[_] => [] (*no mutual recursion*) |
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| _ => rec_tms ~~ (*define the sets as Parts*) |
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map (subst_atomic [(Free(X',iT),big_rec_tm)]) parts)); |
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(*tracing: print the fixedpoint definition*) |
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val dummy = if !Ind_Syntax.trace then |
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writeln (cat_lines (map (Syntax.string_of_term ctxt o #2) axpairs)) |
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else () |
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(*add definitions of the inductive sets*) |
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val (_, thy1) = |
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thy |
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|> Sign.add_path big_rec_base_name |
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|> PureThy.add_defs false (map (Thm.no_attributes o apfst Binding.name) axpairs); |
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val ctxt1 = ProofContext.init_global thy1; |
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(*fetch fp definitions from the theory*) |
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val big_rec_def::part_rec_defs = |
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map (Misc_Legacy.get_def thy1) |
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(case rec_names of [_] => rec_names |
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| _ => big_rec_base_name::rec_names); |
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(********) |
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val dummy = writeln " Proving monotonicity..."; |
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val bnd_mono = |
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Goal.prove_global thy1 [] [] (FOLogic.mk_Trueprop (Fp.bnd_mono $ dom_sum $ fp_abs)) |
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(fn _ => EVERY |
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[rtac (@{thm Collect_subset} RS @{thm bnd_monoI}) 1, |
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REPEAT (ares_tac (@{thms basic_monos} @ monos) 1)]); |
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val dom_subset = Drule.export_without_context (big_rec_def RS Fp.subs); |
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val unfold = Drule.export_without_context ([big_rec_def, bnd_mono] MRS Fp.Tarski); |
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(********) |
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val dummy = writeln " Proving the introduction rules..."; |
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(*Mutual recursion? Helps to derive subset rules for the |
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individual sets.*) |
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val Part_trans = |
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case rec_names of |
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[_] => asm_rl |
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| _ => Drule.export_without_context (@{thm Part_subset} RS @{thm subset_trans}); |
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(*To type-check recursive occurrences of the inductive sets, possibly |
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enclosed in some monotonic operator M.*) |
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val rec_typechecks = |
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[dom_subset] RL (asm_rl :: ([Part_trans] RL monos)) |
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RL [@{thm subsetD}]; |
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(*Type-checking is hardest aspect of proof; |
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disjIn selects the correct disjunct after unfolding*) |
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fun intro_tacsf disjIn = |
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[DETERM (stac unfold 1), |
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REPEAT (resolve_tac [@{thm Part_eqI}, @{thm CollectI}] 1), |
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(*Now 2-3 subgoals: typechecking, the disjunction, perhaps equality.*) |
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rtac disjIn 2, |
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(*Not ares_tac, since refl must be tried before equality assumptions; |
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backtracking may occur if the premises have extra variables!*) |
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DEPTH_SOLVE_1 (resolve_tac [@{thm refl}, @{thm exI}, @{thm conjI}] 2 APPEND assume_tac 2), |
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(*Now solve the equations like Tcons(a,f) = Inl(?b4)*) |
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rewrite_goals_tac con_defs, |
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REPEAT (rtac @{thm refl} 2), |
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(*Typechecking; this can fail*) |
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if !Ind_Syntax.trace then print_tac "The type-checking subgoal:" |
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else all_tac, |
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REPEAT (FIRSTGOAL ( dresolve_tac rec_typechecks |
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ORELSE' eresolve_tac (asm_rl :: @{thm PartE} :: @{thm SigmaE2} :: |
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type_elims) |
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ORELSE' hyp_subst_tac)), |
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if !Ind_Syntax.trace then print_tac "The subgoal after monos, type_elims:" |
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else all_tac, |
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DEPTH_SOLVE (swap_res_tac (@{thm SigmaI} :: @{thm subsetI} :: type_intrs) 1)]; |
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(*combines disjI1 and disjI2 to get the corresponding nested disjunct...*) |
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val mk_disj_rls = Balanced_Tree.accesses |
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{left = fn rl => rl RS @{thm disjI1}, |
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right = fn rl => rl RS @{thm disjI2}, |
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init = @{thm asm_rl}}; |
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val intrs = |
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(intr_tms, map intro_tacsf (mk_disj_rls (length intr_tms))) |
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|> ListPair.map (fn (t, tacs) => |
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Goal.prove_global thy1 [] [] t |
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(fn _ => EVERY (rewrite_goals_tac part_rec_defs :: tacs))); |
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(********) |
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val dummy = writeln " Proving the elimination rule..."; |
|
254 |
||
255 |
(*Breaks down logical connectives in the monotonic function*) |
|
256 |
val basic_elim_tac = |
|
257 |
REPEAT (SOMEGOAL (eresolve_tac (Ind_Syntax.elim_rls @ Su.free_SEs) |
|
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258 |
ORELSE' bound_hyp_subst_tac)) |
6051 | 259 |
THEN prune_params_tac |
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260 |
(*Mutual recursion: collapse references to Part(D,h)*) |
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261 |
THEN (PRIMITIVE (fold_rule part_rec_defs)); |
6051 | 262 |
|
263 |
(*Elimination*) |
|
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264 |
val elim = rule_by_tactic (ProofContext.init_global thy1) basic_elim_tac |
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265 |
(unfold RS Ind_Syntax.equals_CollectD) |
6051 | 266 |
|
267 |
(*Applies freeness of the given constructors, which *must* be unfolded by |
|
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268 |
the given defs. Cannot simply use the local con_defs because |
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269 |
con_defs=[] for inference systems. |
12175 | 270 |
Proposition A should have the form t:Si where Si is an inductive set*) |
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271 |
fun make_cases ctxt A = |
36546 | 272 |
rule_by_tactic ctxt |
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273 |
(basic_elim_tac THEN ALLGOALS (asm_full_simp_tac (simpset_of ctxt)) THEN basic_elim_tac) |
12175 | 274 |
(Thm.assume A RS elim) |
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275 |
|> Drule.export_without_context_open; |
6051 | 276 |
|
277 |
fun induction_rules raw_induct thy = |
|
278 |
let |
|
279 |
val dummy = writeln " Proving the induction rule..."; |
|
280 |
||
281 |
(*** Prove the main induction rule ***) |
|
282 |
||
283 |
val pred_name = "P"; (*name for predicate variables*) |
|
284 |
||
285 |
(*Used to make induction rules; |
|
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286 |
ind_alist = [(rec_tm1,pred1),...] associates predicates with rec ops |
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287 |
prem is a premise of an intr rule*) |
26189 | 288 |
fun add_induct_prem ind_alist (prem as Const (@{const_name Trueprop}, _) $ |
289 |
(Const (@{const_name mem}, _) $ t $ X), iprems) = |
|
17314 | 290 |
(case AList.lookup (op aconv) ind_alist X of |
15531 | 291 |
SOME pred => prem :: FOLogic.mk_Trueprop (pred $ t) :: iprems |
292 |
| NONE => (*possibly membership in M(rec_tm), for M monotone*) |
|
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293 |
let fun mk_sb (rec_tm,pred) = |
26189 | 294 |
(rec_tm, @{const Collect} $ rec_tm $ pred) |
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295 |
in subst_free (map mk_sb ind_alist) prem :: iprems end) |
6051 | 296 |
| add_induct_prem ind_alist (prem,iprems) = prem :: iprems; |
297 |
||
298 |
(*Make a premise of the induction rule.*) |
|
299 |
fun induct_prem ind_alist intr = |
|
33040 | 300 |
let val quantfrees = map dest_Free (subtract (op =) rec_params (OldTerm.term_frees intr)) |
30190 | 301 |
val iprems = List.foldr (add_induct_prem ind_alist) [] |
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302 |
(Logic.strip_imp_prems intr) |
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303 |
val (t,X) = Ind_Syntax.rule_concl intr |
17314 | 304 |
val (SOME pred) = AList.lookup (op aconv) ind_alist X |
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|
305 |
val concl = FOLogic.mk_Trueprop (pred $ t) |
6051 | 306 |
in list_all_free (quantfrees, Logic.list_implies (iprems,concl)) end |
307 |
handle Bind => error"Recursion term not found in conclusion"; |
|
308 |
||
309 |
(*Minimizes backtracking by delivering the correct premise to each goal. |
|
310 |
Intro rules with extra Vars in premises still cause some backtracking *) |
|
311 |
fun ind_tac [] 0 = all_tac |
|
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312 |
| ind_tac(prem::prems) i = |
35409 | 313 |
DEPTH_SOLVE_1 (ares_tac [prem, @{thm refl}] i) THEN ind_tac prems (i-1); |
6051 | 314 |
|
315 |
val pred = Free(pred_name, Ind_Syntax.iT --> FOLogic.oT); |
|
316 |
||
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|
317 |
val ind_prems = map (induct_prem (map (rpair pred) rec_tms)) |
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|
318 |
intr_tms; |
6051 | 319 |
|
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|
320 |
val dummy = |
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|
321 |
if ! Ind_Syntax.trace then |
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|
322 |
writeln (cat_lines |
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|
323 |
(["ind_prems:"] @ map (Syntax.string_of_term ctxt1) ind_prems @ |
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|
324 |
["raw_induct:", Display.string_of_thm ctxt1 raw_induct])) |
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|
325 |
else (); |
6051 | 326 |
|
327 |
||
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|
328 |
(*We use a MINIMAL simpset. Even FOL_ss contains too many simpules. |
6051 | 329 |
If the premises get simplified, then the proofs could fail.*) |
35232
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|
330 |
val min_ss = Simplifier.global_context thy empty_ss |
36543
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|
331 |
setmksimps (K (map mk_eq o ZF_atomize o gen_all)) |
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|
332 |
setSolver (mk_solver "minimal" |
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|
333 |
(fn prems => resolve_tac (triv_rls@prems) |
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|
334 |
ORELSE' assume_tac |
35409 | 335 |
ORELSE' etac @{thm FalseE})); |
6051 | 336 |
|
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|
337 |
val quant_induct = |
20342 | 338 |
Goal.prove_global thy1 [] ind_prems |
17985 | 339 |
(FOLogic.mk_Trueprop (Ind_Syntax.mk_all_imp (big_rec_tm, pred))) |
26712
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|
340 |
(fn {prems, ...} => EVERY |
17985 | 341 |
[rewrite_goals_tac part_rec_defs, |
26189 | 342 |
rtac (@{thm impI} RS @{thm allI}) 1, |
17985 | 343 |
DETERM (etac raw_induct 1), |
344 |
(*Push Part inside Collect*) |
|
24893 | 345 |
full_simp_tac (min_ss addsimps [@{thm Part_Collect}]) 1, |
17985 | 346 |
(*This CollectE and disjE separates out the introduction rules*) |
26189 | 347 |
REPEAT (FIRSTGOAL (eresolve_tac [@{thm CollectE}, @{thm disjE}])), |
17985 | 348 |
(*Now break down the individual cases. No disjE here in case |
349 |
some premise involves disjunction.*) |
|
26189 | 350 |
REPEAT (FIRSTGOAL (eresolve_tac [@{thm CollectE}, @{thm exE}, @{thm conjE}] |
17985 | 351 |
ORELSE' bound_hyp_subst_tac)), |
20046 | 352 |
ind_tac (rev (map (rewrite_rule part_rec_defs) prems)) (length prems)]); |
6051 | 353 |
|
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|
354 |
val dummy = |
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changeset
|
355 |
if ! Ind_Syntax.trace then |
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proper context for Display.pretty_thm etc. or old-style versions Display.pretty_thm_global, Display.pretty_thm_without_context etc.;
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|
356 |
writeln ("quant_induct:\n" ^ Display.string_of_thm ctxt1 quant_induct) |
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proper context for Display.pretty_thm etc. or old-style versions Display.pretty_thm_global, Display.pretty_thm_without_context etc.;
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|
357 |
else (); |
6051 | 358 |
|
359 |
||
360 |
(*** Prove the simultaneous induction rule ***) |
|
361 |
||
362 |
(*Make distinct predicates for each inductive set*) |
|
363 |
||
364 |
(*The components of the element type, several if it is a product*) |
|
365 |
val elem_type = CP.pseudo_type dom_sum; |
|
366 |
val elem_factors = CP.factors elem_type; |
|
367 |
val elem_frees = mk_frees "za" elem_factors; |
|
368 |
val elem_tuple = CP.mk_tuple Pr.pair elem_type elem_frees; |
|
369 |
||
370 |
(*Given a recursive set and its domain, return the "fsplit" predicate |
|
371 |
and a conclusion for the simultaneous induction rule. |
|
372 |
NOTE. This will not work for mutually recursive predicates. Previously |
|
373 |
a summand 'domt' was also an argument, but this required the domain of |
|
374 |
mutual recursion to invariably be a disjoint sum.*) |
|
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|
375 |
fun mk_predpair rec_tm = |
6051 | 376 |
let val rec_name = (#1 o dest_Const o head_of) rec_tm |
30364
577edc39b501
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|
377 |
val pfree = Free(pred_name ^ "_" ^ Long_Name.base_name rec_name, |
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|
378 |
elem_factors ---> FOLogic.oT) |
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|
379 |
val qconcl = |
30190 | 380 |
List.foldr FOLogic.mk_all |
15574
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changeset
|
381 |
(FOLogic.imp $ |
26189 | 382 |
(@{const mem} $ elem_tuple $ rec_tm) |
15574
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changeset
|
383 |
$ (list_comb (pfree, elem_frees))) elem_frees |
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|
384 |
in (CP.ap_split elem_type FOLogic.oT pfree, |
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|
385 |
qconcl) |
6051 | 386 |
end; |
387 |
||
388 |
val (preds,qconcls) = split_list (map mk_predpair rec_tms); |
|
389 |
||
390 |
(*Used to form simultaneous induction lemma*) |
|
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|
391 |
fun mk_rec_imp (rec_tm,pred) = |
26189 | 392 |
FOLogic.imp $ (@{const mem} $ Bound 0 $ rec_tm) $ |
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|
393 |
(pred $ Bound 0); |
6051 | 394 |
|
395 |
(*To instantiate the main induction rule*) |
|
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|
396 |
val induct_concl = |
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|
397 |
FOLogic.mk_Trueprop |
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changeset
|
398 |
(Ind_Syntax.mk_all_imp |
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changeset
|
399 |
(big_rec_tm, |
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changeset
|
400 |
Abs("z", Ind_Syntax.iT, |
32765 | 401 |
Balanced_Tree.make FOLogic.mk_conj |
12132
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|
402 |
(ListPair.map mk_rec_imp (rec_tms, preds))))) |
6051 | 403 |
and mutual_induct_concl = |
32765 | 404 |
FOLogic.mk_Trueprop (Balanced_Tree.make FOLogic.mk_conj qconcls); |
6051 | 405 |
|
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changeset
|
406 |
val dummy = if !Ind_Syntax.trace then |
1ef58b332ca9
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diff
changeset
|
407 |
(writeln ("induct_concl = " ^ |
26189 | 408 |
Syntax.string_of_term ctxt1 induct_concl); |
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|
409 |
writeln ("mutual_induct_concl = " ^ |
26189 | 410 |
Syntax.string_of_term ctxt1 mutual_induct_concl)) |
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|
411 |
else (); |
6051 | 412 |
|
413 |
||
26189 | 414 |
val lemma_tac = FIRST' [eresolve_tac [@{thm asm_rl}, @{thm conjE}, @{thm PartE}, @{thm mp}], |
415 |
resolve_tac [@{thm allI}, @{thm impI}, @{thm conjI}, @{thm Part_eqI}], |
|
416 |
dresolve_tac [@{thm spec}, @{thm mp}, Pr.fsplitD]]; |
|
6051 | 417 |
|
418 |
val need_mutual = length rec_names > 1; |
|
419 |
||
420 |
val lemma = (*makes the link between the two induction rules*) |
|
421 |
if need_mutual then |
|
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|
422 |
(writeln " Proving the mutual induction rule..."; |
20342 | 423 |
Goal.prove_global thy1 [] [] |
17985 | 424 |
(Logic.mk_implies (induct_concl, mutual_induct_concl)) |
425 |
(fn _ => EVERY |
|
426 |
[rewrite_goals_tac part_rec_defs, |
|
20046 | 427 |
REPEAT (rewrite_goals_tac [Pr.split_eq] THEN lemma_tac 1)])) |
26189 | 428 |
else (writeln " [ No mutual induction rule needed ]"; @{thm TrueI}); |
6051 | 429 |
|
32091
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proper context for Display.pretty_thm etc. or old-style versions Display.pretty_thm_global, Display.pretty_thm_without_context etc.;
wenzelm
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diff
changeset
|
430 |
val dummy = |
30e2ffbba718
proper context for Display.pretty_thm etc. or old-style versions Display.pretty_thm_global, Display.pretty_thm_without_context etc.;
wenzelm
parents:
30609
diff
changeset
|
431 |
if ! Ind_Syntax.trace then |
30e2ffbba718
proper context for Display.pretty_thm etc. or old-style versions Display.pretty_thm_global, Display.pretty_thm_without_context etc.;
wenzelm
parents:
30609
diff
changeset
|
432 |
writeln ("lemma: " ^ Display.string_of_thm ctxt1 lemma) |
30e2ffbba718
proper context for Display.pretty_thm etc. or old-style versions Display.pretty_thm_global, Display.pretty_thm_without_context etc.;
wenzelm
parents:
30609
diff
changeset
|
433 |
else (); |
6051 | 434 |
|
435 |
||
436 |
(*Mutual induction follows by freeness of Inl/Inr.*) |
|
437 |
||
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|
438 |
(*Simplification largely reduces the mutual induction rule to the |
6051 | 439 |
standard rule*) |
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|
440 |
val mut_ss = |
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changeset
|
441 |
min_ss addsimps [Su.distinct, Su.distinct', Su.inl_iff, Su.inr_iff]; |
6051 | 442 |
|
443 |
val all_defs = con_defs @ part_rec_defs; |
|
444 |
||
445 |
(*Removes Collects caused by M-operators in the intro rules. It is very |
|
446 |
hard to simplify |
|
12132
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changeset
|
447 |
list({v: tf. (v : t --> P_t(v)) & (v : f --> P_f(v))}) |
6051 | 448 |
where t==Part(tf,Inl) and f==Part(tf,Inr) to list({v: tf. P_t(v)}). |
449 |
Instead the following rules extract the relevant conjunct. |
|
450 |
*) |
|
24893 | 451 |
val cmonos = [@{thm subset_refl} RS @{thm Collect_mono}] RL monos |
452 |
RLN (2,[@{thm rev_subsetD}]); |
|
6051 | 453 |
|
454 |
(*Minimizes backtracking by delivering the correct premise to each goal*) |
|
455 |
fun mutual_ind_tac [] 0 = all_tac |
|
12132
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changeset
|
456 |
| mutual_ind_tac(prem::prems) i = |
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changeset
|
457 |
DETERM |
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changeset
|
458 |
(SELECT_GOAL |
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|
459 |
( |
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
460 |
(*Simplify the assumptions and goal by unfolding Part and |
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
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changeset
|
461 |
using freeness of the Sum constructors; proves all but one |
1ef58b332ca9
support co/inductive definitions in new-style theories;
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parents:
11680
diff
changeset
|
462 |
conjunct by contradiction*) |
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
463 |
rewrite_goals_tac all_defs THEN |
24893 | 464 |
simp_tac (mut_ss addsimps [@{thm Part_iff}]) 1 THEN |
12132
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
465 |
IF_UNSOLVED (*simp_tac may have finished it off!*) |
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
466 |
((*simplify assumptions*) |
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
467 |
(*some risk of excessive simplification here -- might have |
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
468 |
to identify the bare minimum set of rewrites*) |
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
469 |
full_simp_tac |
26287 | 470 |
(mut_ss addsimps @{thms conj_simps} @ @{thms imp_simps} @ @{thms quant_simps}) 1 |
12132
1ef58b332ca9
support co/inductive definitions in new-style theories;
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parents:
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diff
changeset
|
471 |
THEN |
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
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diff
changeset
|
472 |
(*unpackage and use "prem" in the corresponding place*) |
35409 | 473 |
REPEAT (rtac @{thm impI} 1) THEN |
12132
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
474 |
rtac (rewrite_rule all_defs prem) 1 THEN |
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
475 |
(*prem must not be REPEATed below: could loop!*) |
35409 | 476 |
DEPTH_SOLVE (FIRSTGOAL (ares_tac [@{thm impI}] ORELSE' |
477 |
eresolve_tac (@{thm conjE} :: @{thm mp} :: cmonos)))) |
|
12132
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
478 |
) i) |
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
479 |
THEN mutual_ind_tac prems (i-1); |
6051 | 480 |
|
12132
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
481 |
val mutual_induct_fsplit = |
6051 | 482 |
if need_mutual then |
20342 | 483 |
Goal.prove_global thy1 [] (map (induct_prem (rec_tms~~preds)) intr_tms) |
17985 | 484 |
mutual_induct_concl |
26712
e2dcda7b0401
adapted to ProofContext.revert_skolem: extra Name.clean required;
wenzelm
parents:
26336
diff
changeset
|
485 |
(fn {prems, ...} => EVERY |
17985 | 486 |
[rtac (quant_induct RS lemma) 1, |
20046 | 487 |
mutual_ind_tac (rev prems) (length prems)]) |
35409 | 488 |
else @{thm TrueI}; |
6051 | 489 |
|
490 |
(** Uncurrying the predicate in the ordinary induction rule **) |
|
491 |
||
492 |
(*instantiate the variable to a tuple, if it is non-trivial, in order to |
|
493 |
allow the predicate to be "opened up". |
|
494 |
The name "x.1" comes from the "RS spec" !*) |
|
12132
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
495 |
val inst = |
1ef58b332ca9
support co/inductive definitions in new-style theories;
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parents:
11680
diff
changeset
|
496 |
case elem_frees of [_] => I |
20342 | 497 |
| _ => instantiate ([], [(cterm_of thy1 (Var(("x",1), Ind_Syntax.iT)), |
498 |
cterm_of thy1 elem_tuple)]); |
|
6051 | 499 |
|
500 |
(*strip quantifier and the implication*) |
|
35409 | 501 |
val induct0 = inst (quant_induct RS @{thm spec} RSN (2, @{thm rev_mp})); |
6051 | 502 |
|
26189 | 503 |
val Const (@{const_name Trueprop}, _) $ (pred_var $ _) = concl_of induct0 |
6051 | 504 |
|
12132
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
505 |
val induct = CP.split_rule_var(pred_var, elem_type-->FOLogic.oT, induct0) |
35021
c839a4c670c6
renamed old-style Drule.standard to Drule.export_without_context, to emphasize that this is in no way a standard operation;
wenzelm
parents:
33385
diff
changeset
|
506 |
|> Drule.export_without_context |
6051 | 507 |
and mutual_induct = CP.remove_split mutual_induct_fsplit |
8438 | 508 |
|
18377 | 509 |
val ([induct', mutual_induct'], thy') = |
510 |
thy |
|
29579 | 511 |
|> PureThy.add_thms [((Binding.name (co_prefix ^ "induct"), induct), |
24861
cc669ca5f382
tuned Induct interface: prefer pred'' over set'';
wenzelm
parents:
24830
diff
changeset
|
512 |
[case_names, Induct.induct_pred big_rec_name]), |
29579 | 513 |
((Binding.name "mutual_induct", mutual_induct), [case_names])]; |
12227 | 514 |
in ((thy', induct'), mutual_induct') |
6051 | 515 |
end; (*of induction_rules*) |
516 |
||
35021
c839a4c670c6
renamed old-style Drule.standard to Drule.export_without_context, to emphasize that this is in no way a standard operation;
wenzelm
parents:
33385
diff
changeset
|
517 |
val raw_induct = Drule.export_without_context ([big_rec_def, bnd_mono] MRS Fp.induct) |
6051 | 518 |
|
12227 | 519 |
val ((thy2, induct), mutual_induct) = |
520 |
if not coind then induction_rules raw_induct thy1 |
|
18377 | 521 |
else |
522 |
(thy1 |
|
29579 | 523 |
|> PureThy.add_thms [((Binding.name (co_prefix ^ "induct"), raw_induct), [])] |
35409 | 524 |
|> apfst hd |> Library.swap, @{thm TrueI}) |
6051 | 525 |
and defs = big_rec_def :: part_rec_defs |
526 |
||
527 |
||
18377 | 528 |
val (([bnd_mono', dom_subset', elim'], [defs', intrs']), thy3) = |
8438 | 529 |
thy2 |
12183 | 530 |
|> IndCases.declare big_rec_name make_cases |
12132
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
531 |
|> PureThy.add_thms |
29579 | 532 |
[((Binding.name "bnd_mono", bnd_mono), []), |
533 |
((Binding.name "dom_subset", dom_subset), []), |
|
534 |
((Binding.name "cases", elim), [case_names, Induct.cases_pred big_rec_name])] |
|
18377 | 535 |
||>> (PureThy.add_thmss o map Thm.no_attributes) |
29579 | 536 |
[(Binding.name "defs", defs), |
537 |
(Binding.name "intros", intrs)]; |
|
18377 | 538 |
val (intrs'', thy4) = |
539 |
thy3 |
|
29579 | 540 |
|> PureThy.add_thms ((map Binding.name intr_names ~~ intrs') ~~ map #2 intr_specs) |
24712
64ed05609568
proper Sign operations instead of Theory aliases;
wenzelm
parents:
24255
diff
changeset
|
541 |
||> Sign.parent_path; |
8438 | 542 |
in |
12132
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
543 |
(thy4, |
8438 | 544 |
{defs = defs', |
545 |
bnd_mono = bnd_mono', |
|
546 |
dom_subset = dom_subset', |
|
12132
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
547 |
intrs = intrs'', |
8438 | 548 |
elim = elim', |
549 |
induct = induct, |
|
550 |
mutual_induct = mutual_induct}) |
|
551 |
end; |
|
6051 | 552 |
|
12132
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
553 |
(*source version*) |
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
554 |
fun add_inductive (srec_tms, sdom_sum) intr_srcs |
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
555 |
(raw_monos, raw_con_defs, raw_type_intrs, raw_type_elims) thy = |
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
556 |
let |
36610
bafd82950e24
renamed ProofContext.init to ProofContext.init_global to emphasize that this is not the real thing;
wenzelm
parents:
36546
diff
changeset
|
557 |
val ctxt = ProofContext.init_global thy; |
37145
01aa36932739
renamed structure TypeInfer to Type_Infer, keeping the old name as legacy alias for some time;
wenzelm
parents:
36960
diff
changeset
|
558 |
val read_terms = map (Syntax.parse_term ctxt #> Type_Infer.constrain Ind_Syntax.iT) |
24726 | 559 |
#> Syntax.check_terms ctxt; |
560 |
||
18728 | 561 |
val intr_atts = map (map (Attrib.attribute thy) o snd) intr_srcs; |
17937 | 562 |
val sintrs = map fst intr_srcs ~~ intr_atts; |
24726 | 563 |
val rec_tms = read_terms srec_tms; |
564 |
val dom_sum = singleton read_terms sdom_sum; |
|
565 |
val intr_tms = Syntax.read_props ctxt (map (snd o fst) sintrs); |
|
17937 | 566 |
val intr_specs = (map (fst o fst) sintrs ~~ intr_tms) ~~ map snd sintrs; |
24726 | 567 |
val monos = Attrib.eval_thms ctxt raw_monos; |
568 |
val con_defs = Attrib.eval_thms ctxt raw_con_defs; |
|
569 |
val type_intrs = Attrib.eval_thms ctxt raw_type_intrs; |
|
570 |
val type_elims = Attrib.eval_thms ctxt raw_type_elims; |
|
12132
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
571 |
in |
18418
bf448d999b7e
re-arranged tuples (theory * 'a) to ('a * theory) in Pure
haftmann
parents:
18377
diff
changeset
|
572 |
thy |
24726 | 573 |
|> add_inductive_i true (rec_tms, dom_sum) intr_specs (monos, con_defs, type_intrs, type_elims) |
18418
bf448d999b7e
re-arranged tuples (theory * 'a) to ('a * theory) in Pure
haftmann
parents:
18377
diff
changeset
|
574 |
end; |
12132
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
575 |
|
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
576 |
|
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
577 |
(* outer syntax *) |
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
578 |
|
36960
01594f816e3a
prefer structure Keyword, Parse, Parse_Spec, Outer_Syntax;
wenzelm
parents:
36954
diff
changeset
|
579 |
val _ = List.app Keyword.keyword |
24867 | 580 |
["domains", "intros", "monos", "con_defs", "type_intros", "type_elims"]; |
581 |
||
12132
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
582 |
fun mk_ind (((((doms, intrs), monos), con_defs), type_intrs), type_elims) = |
36960
01594f816e3a
prefer structure Keyword, Parse, Parse_Spec, Outer_Syntax;
wenzelm
parents:
36954
diff
changeset
|
583 |
#1 o add_inductive doms (map Parse.triple_swap intrs) (monos, con_defs, type_intrs, type_elims); |
12132
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
584 |
|
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
585 |
val ind_decl = |
36960
01594f816e3a
prefer structure Keyword, Parse, Parse_Spec, Outer_Syntax;
wenzelm
parents:
36954
diff
changeset
|
586 |
(Parse.$$$ "domains" |-- Parse.!!! (Parse.enum1 "+" Parse.term -- |
01594f816e3a
prefer structure Keyword, Parse, Parse_Spec, Outer_Syntax;
wenzelm
parents:
36954
diff
changeset
|
587 |
((Parse.$$$ "\<subseteq>" || Parse.$$$ "<=") |-- Parse.term))) -- |
01594f816e3a
prefer structure Keyword, Parse, Parse_Spec, Outer_Syntax;
wenzelm
parents:
36954
diff
changeset
|
588 |
(Parse.$$$ "intros" |-- |
01594f816e3a
prefer structure Keyword, Parse, Parse_Spec, Outer_Syntax;
wenzelm
parents:
36954
diff
changeset
|
589 |
Parse.!!! (Scan.repeat1 (Parse_Spec.opt_thm_name ":" -- Parse.prop))) -- |
01594f816e3a
prefer structure Keyword, Parse, Parse_Spec, Outer_Syntax;
wenzelm
parents:
36954
diff
changeset
|
590 |
Scan.optional (Parse.$$$ "monos" |-- Parse.!!! Parse_Spec.xthms1) [] -- |
01594f816e3a
prefer structure Keyword, Parse, Parse_Spec, Outer_Syntax;
wenzelm
parents:
36954
diff
changeset
|
591 |
Scan.optional (Parse.$$$ "con_defs" |-- Parse.!!! Parse_Spec.xthms1) [] -- |
01594f816e3a
prefer structure Keyword, Parse, Parse_Spec, Outer_Syntax;
wenzelm
parents:
36954
diff
changeset
|
592 |
Scan.optional (Parse.$$$ "type_intros" |-- Parse.!!! Parse_Spec.xthms1) [] -- |
01594f816e3a
prefer structure Keyword, Parse, Parse_Spec, Outer_Syntax;
wenzelm
parents:
36954
diff
changeset
|
593 |
Scan.optional (Parse.$$$ "type_elims" |-- Parse.!!! Parse_Spec.xthms1) [] |
12132
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
594 |
>> (Toplevel.theory o mk_ind); |
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
595 |
|
36960
01594f816e3a
prefer structure Keyword, Parse, Parse_Spec, Outer_Syntax;
wenzelm
parents:
36954
diff
changeset
|
596 |
val _ = |
01594f816e3a
prefer structure Keyword, Parse, Parse_Spec, Outer_Syntax;
wenzelm
parents:
36954
diff
changeset
|
597 |
Outer_Syntax.command (co_prefix ^ "inductive") |
01594f816e3a
prefer structure Keyword, Parse, Parse_Spec, Outer_Syntax;
wenzelm
parents:
36954
diff
changeset
|
598 |
("define " ^ co_prefix ^ "inductive sets") Keyword.thy_decl ind_decl; |
12132
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
599 |
|
6051 | 600 |
end; |
12132
1ef58b332ca9
support co/inductive definitions in new-style theories;
wenzelm
parents:
11680
diff
changeset
|
601 |