author | paulson |
Fri, 02 May 1997 10:19:19 +0200 | |
changeset 3093 | c9419211e542 |
parent 3000 | 7ecb8b6a3d7f |
child 3840 | e0baea4d485a |
permissions | -rw-r--r-- |
1461 | 1 |
(* Title: ZF/func |
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ID: $Id$ |
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Author: Lawrence C Paulson, Cambridge University Computer Laboratory |
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Copyright 1991 University of Cambridge |
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||
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Functions in Zermelo-Fraenkel Set Theory |
|
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*) |
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||
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(*** The Pi operator -- dependent function space ***) |
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||
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goalw ZF.thy [Pi_def] |
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"f: Pi(A,B) <-> function(f) & f<=Sigma(A,B) & A<=domain(f)"; |
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by (Blast_tac 1); |
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qed "Pi_iff"; |
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(*For upward compatibility with the former definition*) |
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goalw ZF.thy [Pi_def, function_def] |
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"f: Pi(A,B) <-> f<=Sigma(A,B) & (ALL x:A. EX! y. <x,y>: f)"; |
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by (Blast_tac 1); |
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qed "Pi_iff_old"; |
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goal ZF.thy "!!f. f: Pi(A,B) ==> function(f)"; |
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by (asm_full_simp_tac (FOL_ss addsimps [Pi_iff]) 1); |
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qed "fun_is_function"; |
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|
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(**Two "destruct" rules for Pi **) |
|
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||
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val [major] = goalw ZF.thy [Pi_def] "f: Pi(A,B) ==> f <= Sigma(A,B)"; |
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by (rtac (major RS CollectD1 RS PowD) 1); |
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qed "fun_is_rel"; |
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|
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goal ZF.thy "!!f. [| f: Pi(A,B); a:A |] ==> EX! y. <a,y>: f"; |
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by (blast_tac (!claset addSDs [Pi_iff_old RS iffD1]) 1); |
|
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qed "fun_unique_Pair"; |
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|
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val prems = goalw ZF.thy [Pi_def] |
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"[| A=A'; !!x. x:A' ==> B(x)=B'(x) |] ==> Pi(A,B) = Pi(A',B')"; |
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by (simp_tac (FOL_ss addsimps prems addcongs [Sigma_cong]) 1); |
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qed "Pi_cong"; |
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|
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(*Sigma_cong, Pi_cong NOT given to Addcongs: they cause |
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flex-flex pairs and the "Check your prover" error. Most |
|
43 |
Sigmas and Pis are abbreviated as * or -> *) |
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||
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(*Weakening one function type to another; see also Pi_type*) |
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goalw ZF.thy [Pi_def] "!!f. [| f: A->B; B<=D |] ==> f: A->D"; |
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by (Best_tac 1); |
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qed "fun_weaken_type"; |
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|
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(*Empty function spaces*) |
|
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goalw ZF.thy [Pi_def, function_def] "Pi(0,A) = {0}"; |
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by (Blast_tac 1); |
|
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qed "Pi_empty1"; |
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|
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goalw ZF.thy [Pi_def] "!!A a. a:A ==> A->0 = 0"; |
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by (Blast_tac 1); |
|
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qed "Pi_empty2"; |
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|
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(*The empty function*) |
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goalw ZF.thy [Pi_def, function_def] "0: Pi(0,B)"; |
61 |
by (Blast_tac 1); |
|
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qed "empty_fun"; |
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|
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(*The singleton function*) |
|
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goalw ZF.thy [Pi_def, function_def] "{<a,b>} : {a} -> {b}"; |
66 |
by (Blast_tac 1); |
|
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qed "singleton_fun"; |
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|
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Addsimps [empty_fun, singleton_fun]; |
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||
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(*** Function Application ***) |
72 |
||
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goalw ZF.thy [Pi_def, function_def] |
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"!!a b f. [| <a,b>: f; <a,c>: f; f: Pi(A,B) |] ==> b=c"; |
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by (Blast_tac 1); |
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qed "apply_equality2"; |
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|
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goalw ZF.thy [apply_def] "!!a b f. [| <a,b>: f; f: Pi(A,B) |] ==> f`a = b"; |
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by (rtac the_equality 1); |
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by (rtac apply_equality2 2); |
|
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by (REPEAT (assume_tac 1)); |
|
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qed "apply_equality"; |
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|
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(*Applying a function outside its domain yields 0*) |
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goalw ZF.thy [apply_def] |
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"!!a b f. [| a ~: domain(f); f: Pi(A,B) |] ==> f`a = 0"; |
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by (rtac the_0 1); |
|
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by (Blast_tac 1); |
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qed "apply_0"; |
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|
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goal ZF.thy "!!f. [| f: Pi(A,B); c: f |] ==> EX x:A. c = <x,f`x>"; |
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by (forward_tac [fun_is_rel] 1); |
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by (blast_tac (!claset addDs [apply_equality]) 1); |
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qed "Pi_memberD"; |
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|
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goal ZF.thy "!!f. [| f: Pi(A,B); a:A |] ==> <a,f`a>: f"; |
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by (rtac (fun_unique_Pair RS ex1E) 1); |
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by (resolve_tac [apply_equality RS ssubst] 3); |
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by (REPEAT (assume_tac 1)); |
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qed "apply_Pair"; |
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(*Conclusion is flexible -- use res_inst_tac or else apply_funtype below!*) |
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goal ZF.thy "!!f. [| f: Pi(A,B); a:A |] ==> f`a : B(a)"; |
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by (rtac (fun_is_rel RS subsetD RS SigmaE2) 1); |
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by (REPEAT (ares_tac [apply_Pair] 1)); |
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qed "apply_type"; |
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|
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(*This version is acceptable to the simplifier*) |
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goal ZF.thy "!!f. [| f: A->B; a:A |] ==> f`a : B"; |
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by (REPEAT (ares_tac [apply_type] 1)); |
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qed "apply_funtype"; |
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val [major] = goal ZF.thy |
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"f: Pi(A,B) ==> <a,b>: f <-> a:A & f`a = b"; |
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by (cut_facts_tac [major RS fun_is_rel] 1); |
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by (blast_tac (!claset addSIs [major RS apply_Pair, |
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major RSN (2,apply_equality)]) 1); |
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qed "apply_iff"; |
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|
120 |
(*Refining one Pi type to another*) |
|
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val pi_prem::prems = goal ZF.thy |
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"[| f: Pi(A,C); !!x. x:A ==> f`x : B(x) |] ==> f : Pi(A,B)"; |
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by (cut_facts_tac [pi_prem] 1); |
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by (asm_full_simp_tac (FOL_ss addsimps [Pi_iff]) 1); |
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by (blast_tac (!claset addIs prems addSDs [pi_prem RS Pi_memberD]) 1); |
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qed "Pi_type"; |
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|
128 |
||
129 |
(** Elimination of membership in a function **) |
|
130 |
||
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goal ZF.thy "!!a A. [| <a,b> : f; f: Pi(A,B) |] ==> a : A"; |
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by (REPEAT (ares_tac [fun_is_rel RS subsetD RS SigmaD1] 1)); |
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qed "domain_type"; |
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|
2877 | 135 |
goal ZF.thy "!!b B a. [| <a,b> : f; f: Pi(A,B) |] ==> b : B(a)"; |
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by (etac (fun_is_rel RS subsetD RS SigmaD2) 1); |
137 |
by (assume_tac 1); |
|
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qed "range_type"; |
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|
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val prems = goal ZF.thy |
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"[| <a,b>: f; f: Pi(A,B); \ |
142 |
\ [| a:A; b:B(a); f`a = b |] ==> P \ |
|
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\ |] ==> P"; |
|
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by (cut_facts_tac prems 1); |
|
145 |
by (resolve_tac prems 1); |
|
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by (REPEAT (eresolve_tac [asm_rl,domain_type,range_type,apply_equality] 1)); |
|
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qed "Pair_mem_PiE"; |
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|
149 |
(*** Lambda Abstraction ***) |
|
150 |
||
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goalw ZF.thy [lam_def] "!!A b. a:A ==> <a,b(a)> : (lam x:A. b(x))"; |
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by (etac RepFunI 1); |
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qed "lamI"; |
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|
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val major::prems = goalw ZF.thy [lam_def] |
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"[| p: (lam x:A. b(x)); !!x.[| x:A; p=<x,b(x)> |] ==> P \ |
157 |
\ |] ==> P"; |
|
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by (rtac (major RS RepFunE) 1); |
|
159 |
by (REPEAT (ares_tac prems 1)); |
|
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qed "lamE"; |
0 | 161 |
|
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goal ZF.thy "!!a b c. [| <a,c>: (lam x:A. b(x)) |] ==> c = b(a)"; |
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by (REPEAT (eresolve_tac [asm_rl,lamE,Pair_inject,ssubst] 1)); |
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qed "lamD"; |
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|
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val prems = goalw ZF.thy [lam_def, Pi_def, function_def] |
0 | 167 |
"[| !!x. x:A ==> b(x): B(x) |] ==> (lam x:A.b(x)) : Pi(A,B)"; |
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by (blast_tac (!claset addIs prems) 1); |
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qed "lam_type"; |
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|
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goal ZF.thy "(lam x:A.b(x)) : A -> {b(x). x:A}"; |
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by (REPEAT (ares_tac [refl,lam_type,RepFunI] 1)); |
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qed "lam_funtype"; |
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|
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goal ZF.thy "!!a A. a : A ==> (lam x:A.b(x)) ` a = b(a)"; |
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by (REPEAT (ares_tac [apply_equality,lam_funtype,lamI] 1)); |
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qed "beta"; |
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|
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goalw ZF.thy [lam_def] "(lam x:0. b(x)) = 0"; |
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by (Simp_tac 1); |
181 |
qed "lam_empty"; |
|
182 |
||
183 |
Addsimps [beta, lam_empty]; |
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||
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(*congruence rule for lambda abstraction*) |
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val prems = goalw ZF.thy [lam_def] |
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"[| A=A'; !!x. x:A' ==> b(x)=b'(x) |] ==> Lambda(A,b) = Lambda(A',b')"; |
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by (simp_tac (FOL_ss addsimps prems addcongs [RepFun_cong]) 1); |
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qed "lam_cong"; |
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|
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Addcongs [lam_cong]; |
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||
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val [major] = goal ZF.thy |
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"(!!x. x:A ==> EX! y. Q(x,y)) ==> EX f. ALL x:A. Q(x, f`x)"; |
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by (res_inst_tac [("x", "lam x: A. THE y. Q(x,y)")] exI 1); |
|
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by (rtac ballI 1); |
|
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by (stac beta 1); |
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by (assume_tac 1); |
199 |
by (etac (major RS theI) 1); |
|
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qed "lam_theI"; |
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|
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(** Extensionality **) |
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(*Semi-extensionality!*) |
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val prems = goal ZF.thy |
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"[| f : Pi(A,B); g: Pi(C,D); A<=C; \ |
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\ !!x. x:A ==> f`x = g`x |] ==> f<=g"; |
|
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by (rtac subsetI 1); |
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by (eresolve_tac (prems RL [Pi_memberD RS bexE]) 1); |
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by (etac ssubst 1); |
212 |
by (resolve_tac (prems RL [ssubst]) 1); |
|
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by (REPEAT (ares_tac (prems@[apply_Pair,subsetD]) 1)); |
|
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qed "fun_subset"; |
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|
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val prems = goal ZF.thy |
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"[| f : Pi(A,B); g: Pi(A,D); \ |
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\ !!x. x:A ==> f`x = g`x |] ==> f=g"; |
|
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by (REPEAT (ares_tac (prems @ (prems RL [sym]) @ |
|
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[subset_refl,equalityI,fun_subset]) 1)); |
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qed "fun_extension"; |
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|
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goal ZF.thy "!!f A B. f : Pi(A,B) ==> (lam x:A. f`x) = f"; |
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by (rtac fun_extension 1); |
225 |
by (REPEAT (ares_tac [lam_type,apply_type,beta] 1)); |
|
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qed "eta"; |
0 | 227 |
|
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Addsimps [eta]; |
229 |
||
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(*Every element of Pi(A,B) may be expressed as a lambda abstraction!*) |
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val prems = goal ZF.thy |
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"[| f: Pi(A,B); \ |
233 |
\ !!b. [| ALL x:A. b(x):B(x); f = (lam x:A.b(x)) |] ==> P \ |
|
234 |
\ |] ==> P"; |
|
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by (resolve_tac prems 1); |
|
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by (rtac (eta RS sym) 2); |
|
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by (REPEAT (ares_tac (prems@[ballI,apply_type]) 1)); |
|
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qed "Pi_lamE"; |
0 | 239 |
|
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||
435 | 241 |
(** Images of functions **) |
242 |
||
2877 | 243 |
goalw ZF.thy [lam_def] "!!C A. C <= A ==> (lam x:A.b(x)) `` C = {b(x). x:C}"; |
244 |
by (Blast_tac 1); |
|
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qed "image_lam"; |
435 | 246 |
|
2877 | 247 |
goal ZF.thy "!!C A. [| f : Pi(A,B); C <= A |] ==> f``C = {f`x. x:C}"; |
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by (etac (eta RS subst) 1); |
435 | 249 |
by (asm_full_simp_tac (FOL_ss addsimps [beta, image_lam, subset_iff] |
250 |
addcongs [RepFun_cong]) 1); |
|
760 | 251 |
qed "image_fun"; |
435 | 252 |
|
253 |
||
0 | 254 |
(*** properties of "restrict" ***) |
255 |
||
2877 | 256 |
goalw ZF.thy [restrict_def,lam_def] |
0 | 257 |
"!!f A. [| f: Pi(C,B); A<=C |] ==> restrict(f,A) <= f"; |
2877 | 258 |
by (blast_tac (!claset addIs [apply_Pair]) 1); |
760 | 259 |
qed "restrict_subset"; |
0 | 260 |
|
2877 | 261 |
val prems = goalw ZF.thy [restrict_def] |
0 | 262 |
"[| !!x. x:A ==> f`x: B(x) |] ==> restrict(f,A) : Pi(A,B)"; |
263 |
by (rtac lam_type 1); |
|
264 |
by (eresolve_tac prems 1); |
|
760 | 265 |
qed "restrict_type"; |
0 | 266 |
|
2877 | 267 |
val [pi,subs] = goal ZF.thy |
0 | 268 |
"[| f: Pi(C,B); A<=C |] ==> restrict(f,A) : Pi(A,B)"; |
269 |
by (rtac (pi RS apply_type RS restrict_type) 1); |
|
270 |
by (etac (subs RS subsetD) 1); |
|
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qed "restrict_type2"; |
0 | 272 |
|
2877 | 273 |
goalw ZF.thy [restrict_def] "!!a A. a : A ==> restrict(f,A) ` a = f`a"; |
0 | 274 |
by (etac beta 1); |
760 | 275 |
qed "restrict"; |
0 | 276 |
|
2877 | 277 |
goalw ZF.thy [restrict_def] "restrict(f,0) = 0"; |
2469 | 278 |
by (Simp_tac 1); |
279 |
qed "restrict_empty"; |
|
280 |
||
281 |
Addsimps [restrict, restrict_empty]; |
|
282 |
||
0 | 283 |
(*NOT SAFE as a congruence rule for the simplifier! Can cause it to fail!*) |
2877 | 284 |
val prems = goalw ZF.thy [restrict_def] |
0 | 285 |
"[| A=B; !!x. x:B ==> f`x=g`x |] ==> restrict(f,A) = restrict(g,B)"; |
286 |
by (REPEAT (ares_tac (prems@[lam_cong]) 1)); |
|
760 | 287 |
qed "restrict_eqI"; |
0 | 288 |
|
2877 | 289 |
goalw ZF.thy [restrict_def, lam_def] "domain(restrict(f,C)) = C"; |
290 |
by (Blast_tac 1); |
|
760 | 291 |
qed "domain_restrict"; |
0 | 292 |
|
2877 | 293 |
val [prem] = goalw ZF.thy [restrict_def] |
0 | 294 |
"A<=C ==> restrict(lam x:C. b(x), A) = (lam x:A. b(x))"; |
295 |
by (rtac (refl RS lam_cong) 1); |
|
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by (etac (prem RS subsetD RS beta) 1); (*easier than calling simp_tac*) |
760 | 297 |
qed "restrict_lam_eq"; |
0 | 298 |
|
299 |
||
300 |
||
301 |
(*** Unions of functions ***) |
|
302 |
||
303 |
(** The Union of a set of COMPATIBLE functions is a function **) |
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|
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goalw ZF.thy [function_def] |
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|
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"!!S. [| ALL x:S. function(x); \ |
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\ ALL x:S. ALL y:S. x<=y | y<=x |] ==> \ |
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\ function(Union(S))"; |
2925 | 309 |
by (fast_tac (ZF_cs addSDs [bspec RS bspec]) 1); |
310 |
(*by (Blast_tac 1); takes too long...*) |
|
760 | 311 |
qed "function_Union"; |
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312 |
|
2877 | 313 |
goalw ZF.thy [Pi_def] |
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314 |
"!!S. [| ALL f:S. EX C D. f:C->D; \ |
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\ ALL f:S. ALL y:S. f<=y | y<=f |] ==> \ |
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316 |
\ Union(S) : domain(Union(S)) -> range(Union(S))"; |
2877 | 317 |
by (blast_tac (subset_cs addSIs [rel_Union, function_Union]) 1); |
760 | 318 |
qed "fun_Union"; |
0 | 319 |
|
320 |
||
321 |
(** The Union of 2 disjoint functions is a function **) |
|
322 |
||
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323 |
val Un_rls = [Un_subset_iff, domain_Un_eq, SUM_Un_distrib1, prod_Un_distrib2, |
1461 | 324 |
Un_upper1 RSN (2, subset_trans), |
325 |
Un_upper2 RSN (2, subset_trans)]; |
|
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326 |
|
2925 | 327 |
goal ZF.thy "!!f. [| f: A->B; g: C->D; A Int C = 0 |] \ |
328 |
\ ==> (f Un g) : (A Un C) -> (B Un D)"; |
|
2877 | 329 |
(*Prove the product and domain subgoals using distributive laws*) |
330 |
by (asm_full_simp_tac (!simpset addsimps [Pi_iff,extension]@Un_rls) 1); |
|
1461 | 331 |
by (rewtac function_def); |
3093 | 332 |
by (Blast.depth_tac (!claset) 12 1); (*9 secs*) |
760 | 333 |
qed "fun_disjoint_Un"; |
0 | 334 |
|
2877 | 335 |
goal ZF.thy |
0 | 336 |
"!!f g a. [| a:A; f: A->B; g: C->D; A Int C = 0 |] ==> \ |
337 |
\ (f Un g)`a = f`a"; |
|
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338 |
by (rtac (apply_Pair RS UnI1 RS apply_equality) 1); |
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339 |
by (REPEAT (ares_tac [fun_disjoint_Un] 1)); |
760 | 340 |
qed "fun_disjoint_apply1"; |
0 | 341 |
|
2877 | 342 |
goal ZF.thy |
0 | 343 |
"!!f g c. [| c:C; f: A->B; g: C->D; A Int C = 0 |] ==> \ |
344 |
\ (f Un g)`c = g`c"; |
|
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345 |
by (rtac (apply_Pair RS UnI2 RS apply_equality) 1); |
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346 |
by (REPEAT (ares_tac [fun_disjoint_Un] 1)); |
760 | 347 |
qed "fun_disjoint_apply2"; |
0 | 348 |
|
349 |
(** Domain and range of a function/relation **) |
|
350 |
||
2877 | 351 |
goalw ZF.thy [Pi_def] "!!f. f : Pi(A,B) ==> domain(f)=A"; |
352 |
by (Blast_tac 1); |
|
760 | 353 |
qed "domain_of_fun"; |
0 | 354 |
|
2877 | 355 |
goal ZF.thy "!!f. [| f : Pi(A,B); a: A |] ==> f`a : range(f)"; |
517 | 356 |
by (etac (apply_Pair RS rangeI) 1); |
357 |
by (assume_tac 1); |
|
760 | 358 |
qed "apply_rangeI"; |
517 | 359 |
|
2877 | 360 |
val [major] = goal ZF.thy "f : Pi(A,B) ==> f : A->range(f)"; |
0 | 361 |
by (rtac (major RS Pi_type) 1); |
517 | 362 |
by (etac (major RS apply_rangeI) 1); |
760 | 363 |
qed "range_of_fun"; |
0 | 364 |
|
365 |
(*** Extensions of functions ***) |
|
366 |
||
2877 | 367 |
goal ZF.thy |
37 | 368 |
"!!f A B. [| f: A->B; c~:A |] ==> cons(<c,b>,f) : cons(c,A) -> cons(b,B)"; |
857 | 369 |
by (forward_tac [singleton_fun RS fun_disjoint_Un] 1); |
519 | 370 |
by (asm_full_simp_tac (FOL_ss addsimps [cons_eq]) 2); |
2877 | 371 |
by (Blast_tac 1); |
760 | 372 |
qed "fun_extend"; |
0 | 373 |
|
2877 | 374 |
goal ZF.thy |
538 | 375 |
"!!f A B. [| f: A->B; c~:A; b: B |] ==> cons(<c,b>,f) : cons(c,A) -> B"; |
2877 | 376 |
by (blast_tac (!claset addIs [fun_extend RS fun_weaken_type]) 1); |
760 | 377 |
qed "fun_extend3"; |
538 | 378 |
|
2877 | 379 |
goal ZF.thy "!!f A B. [| f: A->B; a:A; c~:A |] ==> cons(<c,b>,f)`a = f`a"; |
0 | 380 |
by (rtac (apply_Pair RS consI2 RS apply_equality) 1); |
381 |
by (rtac fun_extend 3); |
|
382 |
by (REPEAT (assume_tac 1)); |
|
760 | 383 |
qed "fun_extend_apply1"; |
0 | 384 |
|
2877 | 385 |
goal ZF.thy "!!f A B. [| f: A->B; c~:A |] ==> cons(<c,b>,f)`c = b"; |
0 | 386 |
by (rtac (consI1 RS apply_equality) 1); |
387 |
by (rtac fun_extend 1); |
|
388 |
by (REPEAT (assume_tac 1)); |
|
760 | 389 |
qed "fun_extend_apply2"; |
0 | 390 |
|
2469 | 391 |
bind_thm ("singleton_apply", [singletonI, singleton_fun] MRS apply_equality); |
392 |
Addsimps [singleton_apply]; |
|
393 |
||
538 | 394 |
(*For Finite.ML. Inclusion of right into left is easy*) |
2877 | 395 |
goal ZF.thy |
485 | 396 |
"!!c. c ~: A ==> cons(c,A) -> B = (UN f: A->B. UN b:B. {cons(<c,b>, f)})"; |
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|
397 |
by (rtac equalityI 1); |
2835 | 398 |
by (safe_tac (!claset addSEs [fun_extend3])); |
485 | 399 |
(*Inclusion of left into right*) |
400 |
by (subgoal_tac "restrict(x, A) : A -> B" 1); |
|
2877 | 401 |
by (blast_tac (!claset addIs [restrict_type2]) 2); |
485 | 402 |
by (rtac UN_I 1 THEN assume_tac 1); |
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|
403 |
by (rtac (apply_funtype RS UN_I) 1 THEN REPEAT (ares_tac [consI1] 1)); |
2469 | 404 |
by (Simp_tac 1); |
1461 | 405 |
by (rtac fun_extension 1 THEN REPEAT (ares_tac [fun_extend] 1)); |
485 | 406 |
by (etac consE 1); |
407 |
by (ALLGOALS |
|
2469 | 408 |
(asm_simp_tac (!simpset addsimps [restrict, fun_extend_apply1, |
2493 | 409 |
fun_extend_apply2]))); |
760 | 410 |
qed "cons_fun_eq"; |
485 | 411 |