New unified treatment of sequent calculi by Sara Kalvala
combines the old LK and Modal with the new ILL (Int. Linear Logic)
(* Title: HOLCF/lift1.ML
ID: $Id$
Author: Franz Regensburger
Copyright 1993 Technische Universitaet Muenchen
*)
open Lift1;
qed_goalw "Exh_Lift" Lift1.thy [UU_lift_def,Iup_def ]
"z = UU_lift | (? x. z = Iup(x))"
(fn prems =>
[
(rtac (Rep_Lift_inverse RS subst) 1),
(res_inst_tac [("s","Rep_Lift(z)")] sumE 1),
(rtac disjI1 1),
(res_inst_tac [("f","Abs_Lift")] arg_cong 1),
(rtac (unique_void2 RS subst) 1),
(atac 1),
(rtac disjI2 1),
(rtac exI 1),
(res_inst_tac [("f","Abs_Lift")] arg_cong 1),
(atac 1)
]);
qed_goal "inj_Abs_Lift" Lift1.thy "inj(Abs_Lift)"
(fn prems =>
[
(rtac inj_inverseI 1),
(rtac Abs_Lift_inverse 1)
]);
qed_goal "inj_Rep_Lift" Lift1.thy "inj(Rep_Lift)"
(fn prems =>
[
(rtac inj_inverseI 1),
(rtac Rep_Lift_inverse 1)
]);
qed_goalw "inject_Iup" Lift1.thy [Iup_def] "Iup(x)=Iup(y) ==> x=y"
(fn prems =>
[
(cut_facts_tac prems 1),
(rtac (inj_Inr RS injD) 1),
(rtac (inj_Abs_Lift RS injD) 1),
(atac 1)
]);
qed_goalw "defined_Iup" Lift1.thy [Iup_def,UU_lift_def] "Iup(x)~=UU_lift"
(fn prems =>
[
(rtac notI 1),
(rtac notE 1),
(rtac Inl_not_Inr 1),
(rtac sym 1),
(etac (inj_Abs_Lift RS injD) 1)
]);
qed_goal "liftE" Lift1.thy
"[| p=UU_lift ==> Q; !!x. p=Iup(x)==>Q|] ==>Q"
(fn prems =>
[
(rtac (Exh_Lift RS disjE) 1),
(eresolve_tac prems 1),
(etac exE 1),
(eresolve_tac prems 1)
]);
qed_goalw "Ilift1" Lift1.thy [Ilift_def,UU_lift_def]
"Ilift(f)(UU_lift)=UU"
(fn prems =>
[
(stac Abs_Lift_inverse 1),
(stac sum_case_Inl 1),
(rtac refl 1)
]);
qed_goalw "Ilift2" Lift1.thy [Ilift_def,Iup_def]
"Ilift(f)(Iup(x))=f`x"
(fn prems =>
[
(stac Abs_Lift_inverse 1),
(stac sum_case_Inr 1),
(rtac refl 1)
]);
val Lift0_ss = (simpset_of "Cfun3") addsimps [Ilift1,Ilift2];
qed_goalw "less_lift1a" Lift1.thy [less_lift_def,UU_lift_def]
"less_lift(UU_lift)(z)"
(fn prems =>
[
(stac Abs_Lift_inverse 1),
(stac sum_case_Inl 1),
(rtac TrueI 1)
]);
qed_goalw "less_lift1b" Lift1.thy [Iup_def,less_lift_def,UU_lift_def]
"~less_lift (Iup x) UU_lift"
(fn prems =>
[
(rtac notI 1),
(rtac iffD1 1),
(atac 2),
(stac Abs_Lift_inverse 1),
(stac Abs_Lift_inverse 1),
(stac sum_case_Inr 1),
(stac sum_case_Inl 1),
(rtac refl 1)
]);
qed_goalw "less_lift1c" Lift1.thy [Iup_def,less_lift_def,UU_lift_def]
"less_lift (Iup x) (Iup y)=(x<<y)"
(fn prems =>
[
(stac Abs_Lift_inverse 1),
(stac Abs_Lift_inverse 1),
(stac sum_case_Inr 1),
(stac sum_case_Inr 1),
(rtac refl 1)
]);
qed_goal "refl_less_lift" Lift1.thy "less_lift p p"
(fn prems =>
[
(res_inst_tac [("p","p")] liftE 1),
(hyp_subst_tac 1),
(rtac less_lift1a 1),
(hyp_subst_tac 1),
(rtac (less_lift1c RS iffD2) 1),
(rtac refl_less 1)
]);
qed_goal "antisym_less_lift" Lift1.thy
"[|less_lift p1 p2;less_lift p2 p1|] ==> p1=p2"
(fn prems =>
[
(cut_facts_tac prems 1),
(res_inst_tac [("p","p1")] liftE 1),
(hyp_subst_tac 1),
(res_inst_tac [("p","p2")] liftE 1),
(hyp_subst_tac 1),
(rtac refl 1),
(hyp_subst_tac 1),
(res_inst_tac [("P","less_lift (Iup x) UU_lift")] notE 1),
(rtac less_lift1b 1),
(atac 1),
(hyp_subst_tac 1),
(res_inst_tac [("p","p2")] liftE 1),
(hyp_subst_tac 1),
(res_inst_tac [("P","less_lift (Iup x) UU_lift")] notE 1),
(rtac less_lift1b 1),
(atac 1),
(hyp_subst_tac 1),
(rtac arg_cong 1),
(rtac antisym_less 1),
(etac (less_lift1c RS iffD1) 1),
(etac (less_lift1c RS iffD1) 1)
]);
qed_goal "trans_less_lift" Lift1.thy
"[|less_lift p1 p2;less_lift p2 p3|] ==> less_lift p1 p3"
(fn prems =>
[
(cut_facts_tac prems 1),
(res_inst_tac [("p","p1")] liftE 1),
(hyp_subst_tac 1),
(rtac less_lift1a 1),
(hyp_subst_tac 1),
(res_inst_tac [("p","p2")] liftE 1),
(hyp_subst_tac 1),
(rtac notE 1),
(rtac less_lift1b 1),
(atac 1),
(hyp_subst_tac 1),
(res_inst_tac [("p","p3")] liftE 1),
(hyp_subst_tac 1),
(rtac notE 1),
(rtac less_lift1b 1),
(atac 1),
(hyp_subst_tac 1),
(rtac (less_lift1c RS iffD2) 1),
(rtac trans_less 1),
(etac (less_lift1c RS iffD1) 1),
(etac (less_lift1c RS iffD1) 1)
]);