author  paulson 
Thu, 26 Sep 1996 17:34:36 +0200  
changeset 2042  33b4c1624e26 
parent 1601  0ef6ea27ab15 
child 2672  85d7e800d754 
permissions  rwrr 
1593  1 
(* Title: Pure/deriv.ML 
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ID: $Id$ 

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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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Derivations (proof objects) and functions for examining them 

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*) 

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signature DERIV = 

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sig 

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(*Objectlevel rules*) 

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datatype orule = Subgoal of cterm 

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 Asm of int 

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 Res of deriv 

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 Equal of deriv 

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 Thm of string 
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 Other of deriv; 
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val size : deriv > int 

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val drop : 'a mtree * int > 'a mtree 

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val linear : deriv > deriv list 

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val tree : deriv > orule mtree 

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end; 

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structure Deriv : DERIV = 

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struct 

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fun size (Join(Theorem _, _)) = 1 

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 size (Join(_, ders)) = foldl op+ (1, map size ders); 

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(*Conversion to linear format. Children of a node are the LIST of inferences 

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justifying ONE of the premises*) 

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fun rev_deriv (Join (rl, [])) = [Join(rl,[])] 

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 rev_deriv (Join (Theorem name, _)) = [Join(Theorem name, [])] 
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 rev_deriv (Join (Assumption arg, [der])) = 
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Join(Assumption arg,[]) :: rev_deriv der 

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 rev_deriv (Join (Bicompose arg, [rder, sder])) = 

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Join (Bicompose arg, linear rder) :: rev_deriv sder 

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 rev_deriv (Join (_, [der])) = rev_deriv der 

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 rev_deriv (Join (rl, der::ders)) = (*catchall case; doubtful?*) 

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Join(rl, flat (map linear ders)) :: rev_deriv der 

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and linear der = rev (rev_deriv der); 

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(*** Conversion of objectlevel proof trees ***) 

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(*Objectlevel rules*) 

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datatype orule = Subgoal of cterm 

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 Asm of int 

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 Res of deriv 

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 Equal of deriv 

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 Thm of string 
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 Other of deriv; 
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(*At position i, splice in value x, removing ngoal elements*) 

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fun splice (i,x,ngoal,prfs) = 

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let val prfs0 = take(i1,prfs) 

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and prfs1 = drop(i1,prfs) 

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val prfs2 = Join (x, take(ngoal, prfs1)) :: drop(ngoal, prfs1) 

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in prfs0 @ prfs2 end; 

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(*Deletes trivial uses of Equal_elim; hides derivations of Theorems*) 

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fun simp_deriv (Join (Equal_elim, [Join (Rewrite_cterm _, []), der])) = 

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simp_deriv der 

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 simp_deriv (Join (Equal_elim, [Join (Reflexive _, []), der])) = 

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simp_deriv der 

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 simp_deriv (Join (rule as Theorem name, [_])) = Join (rule, []) 
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 simp_deriv (Join (rule, ders)) = Join (rule, map simp_deriv ders); 
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(*Proof term is an equality: first premise of equal_elim. 

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Attempt to decode proof terms made by Drule.goals_conv. 

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Subgoal numbers are returned; they are wrong if original subgoal 

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had flexflex pairs! 

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NEGATIVE i means "could affect all subgoals starting from i"*) 

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fun scan_equals (i, Join (Combination, 

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[Join (Combination, [_, der1]), der2])) = 

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(case der1 of (*ignore trivial cases*) 

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Join (Reflexive _, _) => scan_equals (i+1, der2) 

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 Join (Rewrite_cterm _, []) => scan_equals (i+1, der2) 

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 Join (Rewrite_cterm _, _) => (i,der1) :: scan_equals (i+1, der2) 

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 _ (*impossible in gconv*) => []) 

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 scan_equals (i, Join (Reflexive _, [])) = [] 

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 scan_equals (i, Join (Rewrite_cterm _, [])) = [] 

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(*Anything else could affect ALL following goals*) 

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 scan_equals (i, der) = [(~i,der)]; 

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(*Record uses of equality reasoning on 1 or more subgoals*) 

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fun update_equals ((i,der), prfs) = 

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if i>0 then splice (i, Equal (simp_deriv der), 1, prfs) 

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else take (~i1, prfs) @ 

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map (fn prf => Join (Equal (simp_deriv der), [prf])) 

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(drop (~i1, prfs)); 

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fun delift (Join (Lift_rule _, [der])) = der 

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 delift der = der; 

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(*Conversion to an objectlevel proof tree. 

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Uses embedded Lift_rules to "annotate" the proof tree with subgoals; 

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 assumes that Lift_rule never occurs except with resolution 

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 may contain Vars that, in fact, are instantiated in that step*) 

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fun tree_aux (Join (Trivial ct, []), prfs) = Join(Subgoal ct, prfs) 

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 tree_aux (Join (Assumption(i,_), [der]), prfs) = 

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tree_aux (der, splice (i, Asm i, 0, prfs)) 

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 tree_aux (Join (Equal_elim, [der1,der2]), prfs) = 

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tree_aux (der2, foldr update_equals (scan_equals (1, der1), prfs)) 

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 tree_aux (Join (Bicompose (match,true,i,ngoal,env), ders), prfs) = 

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(*change eresolve_tac to proof by assumption*) 

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tree_aux (Join (Assumption(i, Some env), 

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[Join (Bicompose (match,false,i,ngoal,env), ders)]), 

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prfs) 

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 tree_aux (Join (Lift_rule (ct,i), [der]), prfs) = 

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tree_aux (der, splice (i, Subgoal ct, 1, prfs)) 

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 tree_aux (Join (Bicompose arg, 

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[Join (Instantiate _, [rder]), sder]), prfs) = 

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(*Ignore Instantiate*) 

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tree_aux (Join (Bicompose arg, [rder, sder]), prfs) 

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 tree_aux (Join (Bicompose arg, 

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[Join (Lift_rule larg, [rder]), sder]), prfs) = 

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(*Move Lift_rule: to make a Subgoal on the result*) 

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tree_aux (Join (Bicompose arg, [rder, 

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Join(Lift_rule larg, [sder])]), prfs) 

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 tree_aux (Join (Bicompose (match,ef,i,ngoal,env), 

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[Join (Bicompose (match',ef',i',ngoal',env'), 

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[der1,der2]), 

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der3]), prfs) = 

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(*associate resolutions to the right*) 

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tree_aux (Join (Bicompose (match', ef', i'+i1, ngoal', env'), 

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[delift der1, (*This Lift_rule would be wrong!*) 

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Join (Bicompose (match, ef, i, ngoalngoal'+1, env), 

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[der2, der3])]), prfs) 

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 tree_aux (Join (Bicompose (arg as (_,_,i,ngoal,_)), 

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[rder, sder]), prfs) = 

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(*resolution with basic rule/assumption  we hope!*) 

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tree_aux (sder, splice (i, Res (simp_deriv rder), ngoal, prfs)) 

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 tree_aux (Join (Theorem name, _), prfs) = Join(Thm name, prfs) 
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 tree_aux (Join (_, [der]), prfs) = tree_aux (der,prfs) 
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 tree_aux (der, prfs) = Join(Other (simp_deriv der), prfs); 

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fun tree der = tree_aux (der,[]); 

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(*Currently declared at end, to avoid conflicting with library's drop 

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Can put it after "size" once we switch to List.drop*) 

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fun drop (der,0) = der 

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 drop (Join (_, der::_), n) = drop (der, n1) 
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 drop (der,_) = der; 
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end; 

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(*We do NOT open this structure*) 