renamed functor ProjectRuleFun to Project_Rule;
renamed structure ProjectRule to Project_Rule;
(* Title: Tools/project_rule.ML
Author: Makarius
Transform mutual rule:
HH ==> (x1:A1 --> P1 x1) & ... & (xn:An --> Pn xn)
into projection:
xi:Ai ==> HH ==> Pi xi
*)
signature PROJECT_RULE_DATA =
sig
val conjunct1: thm
val conjunct2: thm
val mp: thm
end;
signature PROJECT_RULE =
sig
val project: Proof.context -> int -> thm -> thm
val projects: Proof.context -> int list -> thm -> thm list
val projections: Proof.context -> thm -> thm list
end;
functor Project_Rule(Data: PROJECT_RULE_DATA): PROJECT_RULE =
struct
fun conj1 th = th RS Data.conjunct1;
fun conj2 th = th RS Data.conjunct2;
fun imp th = th RS Data.mp;
fun projects ctxt is raw_rule =
let
fun proj 1 th = the_default th (try conj1 th)
| proj k th = proj (k - 1) (conj2 th);
fun prems k th =
(case try imp th of
NONE => (k, th)
| SOME th' => prems (k + 1) th');
val ((_, [rule]), ctxt') = Variable.import true [raw_rule] ctxt;
fun result i =
rule
|> proj i
|> prems 0 |-> (fn k =>
Thm.permute_prems 0 (~ k)
#> singleton (Variable.export ctxt' ctxt)
#> Drule.zero_var_indexes
#> RuleCases.save raw_rule
#> RuleCases.add_consumes k);
in map result is end;
fun project ctxt i th = hd (projects ctxt [i] th);
fun projections ctxt raw_rule =
let
fun projs k th =
(case try conj2 th of
NONE => k
| SOME th' => projs (k + 1) th');
val ((_, [rule]), _) = Variable.import true [raw_rule] ctxt;
in projects ctxt (1 upto projs 1 rule) raw_rule end;
end;