--- a/src/Provers/Arith/combine_numerals.ML Sat Feb 14 02:06:12 2004 +0100
+++ b/src/Provers/Arith/combine_numerals.ML Sun Feb 15 10:46:37 2004 +0100
@@ -20,7 +20,7 @@
sig
(*abstract syntax*)
val add: int * int -> int (*addition (or multiplication) *)
- val mk_sum: term list -> term
+ val mk_sum: typ -> term list -> term
val dest_sum: term -> term list
val mk_coeff: int * term -> term
val dest_coeff: term -> int * term
@@ -66,22 +66,23 @@
(*the simplification procedure*)
fun proc sg _ t =
let (*first freeze any Vars in the term to prevent flex-flex problems*)
- val (t', xs) = Term.adhoc_freeze_vars t;
+ val (t', xs) = Term.adhoc_freeze_vars t
val (u,m,n,terms) = find_repeated (Termtab.empty, [], Data.dest_sum t')
+ val T = Term.fastype_of u
val reshape = (*Move i*u to the front and put j*u into standard form
i + #m + j + k == #m + i + (j + k) *)
if m=0 orelse n=0 then (*trivial, so do nothing*)
raise TERM("combine_numerals", [])
else Data.prove_conv [Data.norm_tac] sg xs
(t',
- Data.mk_sum ([Data.mk_coeff(m,u),
- Data.mk_coeff(n,u)] @ terms))
+ Data.mk_sum T ([Data.mk_coeff(m,u),
+ Data.mk_coeff(n,u)] @ terms))
in
apsome Data.simplify_meta_eq
(Data.prove_conv
[Data.trans_tac reshape, rtac Data.left_distrib 1,
Data.numeral_simp_tac] sg xs
- (t', Data.mk_sum (Data.mk_coeff(Data.add(m,n), u) :: terms)))
+ (t', Data.mk_sum T (Data.mk_coeff(Data.add(m,n), u) :: terms)))
end
handle TERM _ => None
| TYPE _ => None; (*Typically (if thy doesn't include Numeral)