author | blanchet |
Thu, 01 Oct 2015 18:44:48 +0200 | |
changeset 61303 | af6b8bd0d076 |
parent 60642 | 48dd1cefb4ae |
child 69593 | 3dda49e08b9d |
permissions | -rw-r--r-- |
24584 | 1 |
(* Title: ZF/Tools/cartprod.ML |
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Author: Lawrence C Paulson, Cambridge University Computer Laboratory |
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Copyright 1996 University of Cambridge |
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Signatures for inductive definitions. |
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Syntactic operations for Cartesian Products. |
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*) |
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signature FP = (** Description of a fixed point operator **) |
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sig |
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val oper : term (*fixed point operator*) |
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val bnd_mono : term (*monotonicity predicate*) |
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val bnd_monoI : thm (*intro rule for bnd_mono*) |
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val subs : thm (*subset theorem for fp*) |
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val Tarski : thm (*Tarski's fixed point theorem*) |
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val induct : thm (*induction/coinduction rule*) |
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end; |
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signature SU = (** Description of a disjoint sum **) |
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sig |
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val sum : term (*disjoint sum operator*) |
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val inl : term (*left injection*) |
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val inr : term (*right injection*) |
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val elim : term (*case operator*) |
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val case_inl : thm (*inl equality rule for case*) |
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val case_inr : thm (*inr equality rule for case*) |
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val inl_iff : thm (*injectivity of inl, using <->*) |
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val inr_iff : thm (*injectivity of inr, using <->*) |
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val distinct : thm (*distinctness of inl, inr using <->*) |
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val distinct' : thm (*distinctness of inr, inl using <->*) |
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val free_SEs : thm list (*elim rules for SU, and pair_iff!*) |
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end; |
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signature PR = (** Description of a Cartesian product **) |
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sig |
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val sigma : term (*Cartesian product operator*) |
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val pair : term (*pairing operator*) |
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val split_name : string (*name of polymorphic split*) |
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val pair_iff : thm (*injectivity of pairing, using <->*) |
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val split_eq : thm (*equality rule for split*) |
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val fsplitI : thm (*intro rule for fsplit*) |
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val fsplitD : thm (*destruct rule for fsplit*) |
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val fsplitE : thm (*elim rule; apparently never used*) |
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end; |
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signature CARTPROD = (** Derived syntactic functions for produts **) |
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sig |
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val ap_split : typ -> typ -> term -> term |
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val factors : typ -> typ list |
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val mk_prod : typ * typ -> typ |
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val mk_tuple : term -> typ -> term list -> term |
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val pseudo_type : term -> typ |
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54742
7a86358a3c0b
proper context for basic Simplifier operations: rewrite_rule, rewrite_goals_rule, rewrite_goals_tac etc.;
wenzelm
parents:
43333
diff
changeset
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val remove_split : Proof.context -> thm -> thm |
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val split_const : typ -> term |
54742
7a86358a3c0b
proper context for basic Simplifier operations: rewrite_rule, rewrite_goals_rule, rewrite_goals_tac etc.;
wenzelm
parents:
43333
diff
changeset
|
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val split_rule_var : Proof.context -> term * typ * thm -> thm |
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end; |
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functor CartProd_Fun (Pr: PR) : CARTPROD = |
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struct |
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15674
4a1d07bb53e2
reverted renaming of Some/None in comments and strings;
wenzelm
parents:
15570
diff
changeset
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(* Some of these functions expect "pseudo-types" containing products, |
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as in HOL; the true ZF types would just be "i" *) |
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fun mk_prod (T1,T2) = Type("*", [T1,T2]); |
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(*Bogus product type underlying a (possibly nested) Sigma. |
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Lets us share HOL code*) |
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fun pseudo_type (t $ A $ Abs(_,_,B)) = |
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if t = Pr.sigma |
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then mk_prod(pseudo_type A, pseudo_type B) |
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else @{typ i} |
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| pseudo_type _ = @{typ i}; |
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(*Maps the type T1*...*Tn to [T1,...,Tn], however nested*) |
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fun factors (Type("*", [T1, T2])) = factors T1 @ factors T2 |
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| factors T = [T]; |
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(*Make a well-typed instance of "split"*) |
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fun split_const T = Const(Pr.split_name, |
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[[Ind_Syntax.iT, Ind_Syntax.iT]--->T, |
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Ind_Syntax.iT] ---> T); |
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(*In ap_split S T u, term u expects separate arguments for the factors of S, |
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with result type T. The call creates a new term expecting one argument |
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of type S.*) |
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fun ap_split (Type("*", [T1,T2])) T3 u = |
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split_const T3 $ |
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Abs("v", Ind_Syntax.iT, (*Not T1, as it involves pseudo-product types*) |
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ap_split T2 T3 |
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((ap_split T1 (factors T2 ---> T3) (incr_boundvars 1 u)) $ |
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Bound 0)) |
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| ap_split T T3 u = u; |
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(*Makes a nested tuple from a list, following the product type structure*) |
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fun mk_tuple pair (Type("*", [T1,T2])) tms = |
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pair $ mk_tuple pair T1 tms |
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$ mk_tuple pair T2 (drop (length (factors T1)) tms) |
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| mk_tuple pair T (t::_) = t; |
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(*Attempts to remove occurrences of split, and pair-valued parameters*) |
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54742
7a86358a3c0b
proper context for basic Simplifier operations: rewrite_rule, rewrite_goals_rule, rewrite_goals_tac etc.;
wenzelm
parents:
43333
diff
changeset
|
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fun remove_split ctxt = rewrite_rule ctxt [Pr.split_eq]; |
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(*Uncurries any Var according to its "pseudo-product type" T1 in the rule*) |
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54742
7a86358a3c0b
proper context for basic Simplifier operations: rewrite_rule, rewrite_goals_rule, rewrite_goals_tac etc.;
wenzelm
parents:
43333
diff
changeset
|
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fun split_rule_var ctxt (Var(v,_), Type("fun",[T1,T2]), rl) = |
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let val T' = factors T1 ---> T2 |
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val newt = ap_split T1 T2 (Var(v,T')) |
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in |
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remove_split ctxt |
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(Drule.instantiate_normalize ([], |
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60642
48dd1cefb4ae
simplified Thm.instantiate and derivatives: the LHS refers to non-certified variables -- this merely serves as index into already certified structures (or is ignored);
wenzelm
parents:
59626
diff
changeset
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[((v, Ind_Syntax.iT-->T2), Thm.cterm_of ctxt newt)]) rl) |
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end |
54742
7a86358a3c0b
proper context for basic Simplifier operations: rewrite_rule, rewrite_goals_rule, rewrite_goals_tac etc.;
wenzelm
parents:
43333
diff
changeset
|
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| split_rule_var _ (t,T,rl) = rl; |
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end; |
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