src/HOL/ATP_Linkup.thy
author wenzelm
Fri Mar 28 19:43:54 2008 +0100 (2008-03-28)
changeset 26462 dac4e2bce00d
parent 25741 2d102ddaca8b
child 26729 43a72d892594
permissions -rw-r--r--
avoid rebinding of existing facts;
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(*  Title:      HOL/ATP_Linkup.thy
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    ID:         $Id$
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    Author:     Lawrence C Paulson
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    Author:     Jia Meng, NICTA
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*)
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header{* The Isabelle-ATP Linkup *}
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theory ATP_Linkup
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imports PreList Hilbert_Choice
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   (*FIXME It must be a parent or a child of every other theory, to prevent theory-merge errors. FIXME*)
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uses
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  "Tools/polyhash.ML"
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  "Tools/res_clause.ML"
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  ("Tools/res_hol_clause.ML")
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  ("Tools/res_axioms.ML")
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  ("Tools/res_reconstruct.ML")
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  ("Tools/watcher.ML")
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  ("Tools/res_atp.ML")
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  ("Tools/res_atp_provers.ML")
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  ("Tools/res_atp_methods.ML")
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  "~~/src/Tools/Metis/metis.ML"
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  ("Tools/metis_tools.ML")
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begin
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definition COMBI :: "'a => 'a"
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  where "COMBI P == P"
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definition COMBK :: "'a => 'b => 'a"
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  where "COMBK P Q == P"
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definition COMBB :: "('b => 'c) => ('a => 'b) => 'a => 'c"
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  where "COMBB P Q R == P (Q R)"
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definition COMBC :: "('a => 'b => 'c) => 'b => 'a => 'c"
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  where "COMBC P Q R == P R Q"
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definition COMBS :: "('a => 'b => 'c) => ('a => 'b) => 'a => 'c"
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  where "COMBS P Q R == P R (Q R)"
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definition fequal :: "'a => 'a => bool"
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  where "fequal X Y == (X=Y)"
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lemma fequal_imp_equal: "fequal X Y ==> X=Y"
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  by (simp add: fequal_def)
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lemma equal_imp_fequal: "X=Y ==> fequal X Y"
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  by (simp add: fequal_def)
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text{*These two represent the equivalence between Boolean equality and iff.
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They can't be converted to clauses automatically, as the iff would be
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expanded...*}
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lemma iff_positive: "P | Q | P=Q"
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by blast
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lemma iff_negative: "~P | ~Q | P=Q"
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by blast
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text{*Theorems for translation to combinators*}
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lemma abs_S: "(%x. (f x) (g x)) == COMBS f g"
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apply (rule eq_reflection)
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apply (rule ext) 
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apply (simp add: COMBS_def) 
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done
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lemma abs_I: "(%x. x) == COMBI"
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apply (rule eq_reflection)
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apply (rule ext) 
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apply (simp add: COMBI_def) 
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done
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lemma abs_K: "(%x. y) == COMBK y"
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apply (rule eq_reflection)
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apply (rule ext) 
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apply (simp add: COMBK_def) 
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done
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lemma abs_B: "(%x. a (g x)) == COMBB a g"
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apply (rule eq_reflection)
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apply (rule ext) 
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apply (simp add: COMBB_def) 
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done
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lemma abs_C: "(%x. (f x) b) == COMBC f b"
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apply (rule eq_reflection)
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apply (rule ext) 
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apply (simp add: COMBC_def) 
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done
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use "Tools/res_axioms.ML"      --{*requires the combinators declared above*}
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use "Tools/res_hol_clause.ML"
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use "Tools/res_reconstruct.ML"
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use "Tools/watcher.ML"
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use "Tools/res_atp.ML"
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setup ResAxioms.meson_method_setup
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subsection {* Setup for Vampire, E prover and SPASS *}
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use "Tools/res_atp_provers.ML"
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oracle vampire_oracle ("string * int") = {* ResAtpProvers.vampire_o *}
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oracle eprover_oracle ("string * int") = {* ResAtpProvers.eprover_o *}
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oracle spass_oracle ("string * int") = {* ResAtpProvers.spass_o *}
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use "Tools/res_atp_methods.ML"
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setup ResAtpMethods.setup      --{*Oracle ATP methods: still useful?*}
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setup ResReconstruct.setup     --{*Config parameters*}
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setup ResAxioms.setup          --{*Sledgehammer*}
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subsection {* The Metis prover *}
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use "Tools/metis_tools.ML"
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setup MetisTools.setup
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setup {*
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  Theory.at_end ResAxioms.clause_cache_endtheory
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*}
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end