author  wenzelm 
Fri, 23 Nov 2018 16:43:11 +0100  
changeset 69334  6b49700da068 
parent 59498  50b60f501b05 
permissions  rwrr 
32960
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parents:
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(* Title: Provers/typedsimp.ML 
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Author: Lawrence C Paulson, Cambridge University Computer Laboratory 
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Copyright 1993 University of Cambridge 
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Functor for constructing simplifiers. Suitable for Constructive Type 

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Theory with its typed reflexivity axiom a:A ==> a=a:A. For most logics try 

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simp.ML. 

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*) 

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signature TSIMP_DATA = 

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sig 
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val refl: thm (*Reflexive law*) 
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val sym: thm (*Symmetric law*) 
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val trans: thm (*Transitive law*) 
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val refl_red: thm (* reduce(a,a) *) 
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parents:
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val trans_red: thm (* [a=b; reduce(b,c) ] ==> a=c *) 
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val red_if_equal: thm (* a=b ==> reduce(a,b) *) 
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(*Builtin rewrite rules*) 

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val default_rls: thm list 

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(*Type checking or similar  solution of routine conditions*) 

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val routine_tac: Proof.context > thm list > int > tactic 
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end; 
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signature TSIMP = 

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sig 
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val asm_res_tac: Proof.context > thm list > int > tactic 

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val cond_norm_tac: Proof.context > ((int>tactic) * thm list * thm list) > tactic 
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val cond_step_tac: Proof.context > ((int>tactic) * thm list * thm list) > int > tactic 
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val norm_tac: Proof.context > (thm list * thm list) > tactic 
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val process_rules: thm list > thm list * thm list 
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val rewrite_res_tac: Proof.context > int > tactic 
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val split_eqn: thm 
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val step_tac: Proof.context > (thm list * thm list) > int > tactic 
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val subconv_res_tac: Proof.context > thm list > int > tactic 
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end; 

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functor TSimpFun (TSimp_data: TSIMP_DATA) : TSIMP = 
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struct 
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local open TSimp_data 

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in 

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(*For simplifying both sides of an equation: 

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[ a=c; b=c ] ==> b=a 

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Can use resolve_tac [split_eqn] to prepare an equation for simplification. *) 

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val split_eqn = Drule.zero_var_indexes (sym RSN (2,trans) RS sym); 
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(* [ a=b; b=c ] ==> reduce(a,c) *) 

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val red_trans = Drule.zero_var_indexes (trans RS red_if_equal); 
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(*For REWRITE rule: Make a reduction rule for simplification, e.g. 

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[ a: C(0); ... ; a=c: C(0) ] ==> rec(0,a,b) = c: C(0) *) 

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fun simp_rule rl = rl RS trans; 

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(*For REWRITE rule: Make rule for resimplifying if possible, e.g. 

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[ a: C(0); ...; a=c: C(0) ] ==> reduce(rec(0,a,b), c) *) 

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fun resimp_rule rl = rl RS red_trans; 

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(*For CONGRUENCE rule, like a=b ==> succ(a) = succ(b) 

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Make rule for simplifying subterms, e.g. 

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[ a=b: N; reduce(succ(b), c) ] ==> succ(a)=c: N *) 

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fun subconv_rule rl = rl RS trans_red; 

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(*If the rule proves an equality then add both forms to simp_rls 

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else add the rule to other_rls*) 

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fun add_rule rl (simp_rls, other_rls) = 
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(simp_rule rl :: resimp_rule rl :: simp_rls, other_rls) 
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handle THM _ => (simp_rls, rl :: other_rls); 

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(*Given the list rls, return the pair (simp_rls, other_rls).*) 

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fun process_rules rls = fold_rev add_rule rls ([], []); 
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(*Given list of rewrite rules, return list of both forms, reject others*) 

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fun process_rewrites rls = 
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case process_rules rls of 
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(simp_rls,[]) => simp_rls 

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 (_,others) => raise THM 
32960
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wenzelm
parents:
32957
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("process_rewrites: Illformed rewrite", 0, others); 
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(*Process the default rewrite rules*) 

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val simp_rls = process_rewrites default_rls; 

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val simp_net = Tactic.build_net simp_rls; 
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(*If subgoal is too flexible (e.g. ?a=?b or just ?P) then filt_resolve_tac 

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will fail! The filter will pass all the rules, and the bound permits 

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no ambiguity.*) 

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(*Resolution with rewrite/sub rules. Builds the tree for filt_resolve_tac.*) 

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fun rewrite_res_tac ctxt = filt_resolve_from_net_tac ctxt 2 simp_net; 
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(*The congruence rules for simplifying subterms. If subgoal is too flexible 

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then only refl,refl_red will be used (if even them!). *) 

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fun subconv_res_tac ctxt congr_rls = 
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filt_resolve_from_net_tac ctxt 2 (Tactic.build_net (map subconv_rule congr_rls)) 

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ORELSE' filt_resolve_from_net_tac ctxt 1 (Tactic.build_net [refl, refl_red]); 

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(*Resolve with asms, whether rewrites or not*) 

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fun asm_res_tac ctxt asms = 
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let val (xsimp_rls, xother_rls) = process_rules asms 
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in routine_tac ctxt xother_rls ORELSE' 

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filt_resolve_from_net_tac ctxt 2 (Tactic.build_net xsimp_rls) 

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end; 
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(*Single step for simple rewriting*) 

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fun step_tac ctxt (congr_rls, asms) = 
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asm_res_tac ctxt asms ORELSE' rewrite_res_tac ctxt ORELSE' 

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subconv_res_tac ctxt congr_rls; 

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(*Single step for conditional rewriting: prove_cond_tac handles new subgoals.*) 

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fun cond_step_tac ctxt (prove_cond_tac, congr_rls, asms) = 
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asm_res_tac ctxt asms ORELSE' rewrite_res_tac ctxt ORELSE' 
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(resolve_tac ctxt [trans, red_trans] THEN' prove_cond_tac) ORELSE' 
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subconv_res_tac ctxt congr_rls; 
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(*Unconditional normalization tactic*) 

58963
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fun norm_tac ctxt arg = REPEAT_FIRST (step_tac ctxt arg) THEN 
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TRYALL (resolve_tac ctxt [red_if_equal]); 
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(*Conditional normalization tactic*) 

58963
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fun cond_norm_tac ctxt arg = REPEAT_FIRST (cond_step_tac ctxt arg) THEN 
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TRYALL (resolve_tac ctxt [red_if_equal]); 
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end; 

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end; 

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