Structure realSimps


Source File Identifier index Theory binding index

signature realSimps =
sig

  include Abbrev
  (* eliminates common factors in divisions *)
  val elim_common_factor : Term.term -> Thm.thm

  (* Useful rewrites for basic real arithmetic *)
  val real_SS : simpLib.ssfrag

  (* performs calculations over rational values *)
  val REAL_REDUCE_ss : simpLib.ssfrag

  (* Incorporates simpsets for bool, pair, and arithmetic as well  *)
  val real_ss : simpLib.simpset

  (* AC rewrites for + and *: occasionally useful *)
  val real_ac_SS : simpLib.ssfrag

  (* the RealArith decision procedure *)
  val REAL_ARITH_ss : simpLib.ssfrag
  val arith_cache : Cache.cache (* the cache of results behind it *)

  (* Incorporates the real simpset *)
  val real_ac_ss : simpLib.simpset

  (* canonicalise additive and multiplicative terms; with addcanon calling
     mulcanon on each summand *)
  val REALADDCANON : conv
  val REALMULCANON : conv
  val RMULCANON_ss : simpLib.ssfrag
  val RADDCANON_ss : simpLib.ssfrag

  (* put literal values into a canonical form:
     - integral values are left alone
     - inverses applied to integers are turned into 1/n
     - negative signs are moved to denominators
     - fractions are reduced by gcds
  *)
  val REAL_LITCANON : conv

  (* eliminate common terms from either side of a relation symbol, factoring
     as necessary.  Arguments:
       1. relation symbol;
       2. list of (theorem * selector-fn) pairs.
          The theorem justifies removal of common factors on left and the
          common factor must be the first universally quantified variable in
          the theorem statement. The selector-fn identifies where in the
          equation the smaller-term appears.  (For example, in the
          inequalities, it's always   x * y  R   x * z   <=>    _  R  _
          so the selector-fn is just rhs, but for equality we have

             x * y = x * z  <=>  x = 0 \/ y = z

          so the selector-fn is (rand o rhs);
       3. solver to discharge side conditions to do with non-zero ness and
          signs. The list passed to it is the stack of previous side
          condition attempts.
   *)
  val mulrelnorm : term -> (thm * (term -> term)) list ->
                   (term list -> term -> thm) ->
                   term list -> term -> thm
  val RMULRELNORM_ss : simpLib.ssfrag


  val real_compset : unit -> computeLib.compset

end


Source File Identifier index Theory binding index

HOL 4, Trindemossen-1