rat.ML is now part of Pure to allow tigther integration with Isabelle/ML;

--- a/src/HOL/Nat.thy	Tue May 31 18:31:33 2016 +0200
+++ b/src/HOL/Nat.thy	Tue May 31 19:51:01 2016 +0200
@@ -11,8 +11,6 @@
 imports Inductive Typedef Fun Rings
 begin
 
-ML_file "~~/src/Tools/rat.ML"
-
 named_theorems arith "arith facts -- only ground formulas"
 ML_file "Tools/arith_data.ML"
 

--- /dev/null	Thu Jan 01 00:00:00 1970 +0000
+++ b/src/Pure/General/rat.ML	Tue May 31 19:51:01 2016 +0200
@@ -0,0 +1,118 @@
+(*  Title:      Pure/General/rat.ML
+    Author:     Tobias Nipkow, Florian Haftmann, TU Muenchen
+
+Canonical implementation of exact rational numbers.
+*)
+
+signature RAT =
+sig
+  eqtype rat
+  exception DIVZERO
+  val zero: rat
+  val one: rat
+  val two: rat
+  val rat_of_int: int -> rat
+  val rat_of_quotient: int * int -> rat
+  val quotient_of_rat: rat -> int * int
+  val string_of_rat: rat -> string
+  val eq: rat * rat -> bool
+  val ord: rat * rat -> order
+  val le: rat -> rat -> bool
+  val lt: rat -> rat -> bool
+  val sign: rat -> order
+  val abs: rat -> rat
+  val add: rat -> rat -> rat
+  val mult: rat -> rat -> rat
+  val neg: rat -> rat
+  val inv: rat -> rat
+  val rounddown: rat -> rat
+  val roundup: rat -> rat
+end;
+
+structure Rat : RAT =
+struct
+
+fun common (p1, q1) (p2, q2) =
+  let
+    val m = Integer.lcm q1 q2;
+  in ((p1 * (m div q1), p2 * (m div q2)), m) end;
+
+datatype rat = Rat of int * int;  (*nominator, denominator (positive!)*)
+
+exception DIVZERO;
+
+fun rat_of_quotient (p, q) =
+  let
+    val m = Integer.gcd (Int.abs p) q
+  in Rat (p div m, q div m) end handle Div => raise DIVZERO;
+
+fun quotient_of_rat (Rat r) = r;
+
+fun rat_of_int i = Rat (i, 1);
+
+val zero = rat_of_int 0;
+val one = rat_of_int 1;
+val two = rat_of_int 2;
+
+fun string_of_rat (Rat (p, q)) =
+  string_of_int p ^ "/" ^ string_of_int q;
+
+fun eq (Rat (p1, q1), Rat (p2, q2)) = (p1 = p2 andalso q1 = q2);
+
+fun ord (Rat (p1, q1), Rat (p2, q2)) =
+ case (Integer.sign p1, Integer.sign p2)
+ of (LESS, EQUAL) => LESS
+  | (LESS, GREATER) => LESS
+  | (EQUAL, LESS) => GREATER
+  | (EQUAL, EQUAL) => EQUAL
+  | (EQUAL, GREATER) => LESS
+  | (GREATER, LESS) => GREATER
+  | (GREATER, EQUAL) => GREATER
+  | _ => int_ord (fst (common (p1, q1) (p2, q2)));
+
+fun le a b = not (ord (a, b) = GREATER);
+fun lt a b = (ord (a, b) = LESS);
+
+fun sign (Rat (p, _)) = Integer.sign p;
+
+fun abs (Rat (p, q)) = Rat (Int.abs p, q);
+
+fun add (Rat (p1, q1)) (Rat (p2, q2)) =
+  let
+    val ((m1, m2), n) = common (p1, q1) (p2, q2);
+  in rat_of_quotient (m1 + m2, n) end;
+
+fun mult (Rat (p1, q1)) (Rat (p2, q2)) =
+  rat_of_quotient (p1 * p2, q1 * q2);
+
+fun neg (Rat (p, q)) = Rat (~ p, q);
+
+fun inv (Rat (p, q)) =
+ case Integer.sign p
+ of LESS => Rat (~ q, ~ p)
+  | EQUAL => raise DIVZERO
+  | GREATER => Rat (q, p);
+
+fun rounddown (Rat (p, q)) = Rat (p div q, 1);
+
+fun roundup (Rat (p, q)) =
+ case Integer.div_mod p q
+ of (m, 0) => Rat (m, 1)
+  | (m, _) => Rat (m + 1, 1);
+
+end;
+
+infix 7 */ //;
+infix 6 +/ -/;
+infix 4 =/ </ <=/ >/ >=/ <>/;
+
+fun a +/ b = Rat.add a b;
+fun a -/ b = a +/ Rat.neg b;
+fun a */ b = Rat.mult a b;
+fun a // b = a */ Rat.inv b;
+fun a =/ b = Rat.eq (a, b);
+fun a </ b = Rat.lt a b;
+fun a <=/ b = Rat.le a b;
+fun a >/ b = b </ a;
+fun a >=/ b = b <=/ a;
+fun a <>/ b = not (a =/ b);

--- a/src/Pure/ROOT.ML	Tue May 31 18:31:33 2016 +0200
+++ b/src/Pure/ROOT.ML	Tue May 31 19:51:01 2016 +0200
@@ -52,6 +52,7 @@
 subsection "Library of general tools";
 
 ML_file "General/integer.ML";
+ML_file "General/rat.ML";
 ML_file "General/stack.ML";
 ML_file "General/queue.ML";
 ML_file "General/heap.ML";

--- a/src/Tools/rat.ML	Tue May 31 18:31:33 2016 +0200
+++ /dev/null	Thu Jan 01 00:00:00 1970 +0000
@@ -1,118 +0,0 @@
-(*  Title:      Tools/rat.ML
-    Author:     Tobias Nipkow, Florian Haftmann, TU Muenchen
-
-Canonical implementation of exact rational numbers.
-*)
-
-signature RAT =
-sig
-  eqtype rat
-  exception DIVZERO
-  val zero: rat
-  val one: rat
-  val two: rat
-  val rat_of_int: int -> rat
-  val rat_of_quotient: int * int -> rat
-  val quotient_of_rat: rat -> int * int
-  val string_of_rat: rat -> string
-  val eq: rat * rat -> bool
-  val ord: rat * rat -> order
-  val le: rat -> rat -> bool
-  val lt: rat -> rat -> bool
-  val sign: rat -> order
-  val abs: rat -> rat
-  val add: rat -> rat -> rat
-  val mult: rat -> rat -> rat
-  val neg: rat -> rat
-  val inv: rat -> rat
-  val rounddown: rat -> rat
-  val roundup: rat -> rat
-end;
-
-structure Rat : RAT =
-struct
-
-fun common (p1, q1) (p2, q2) =
-  let
-    val m = Integer.lcm q1 q2;
-  in ((p1 * (m div q1), p2 * (m div q2)), m) end;
-
-datatype rat = Rat of int * int;  (*nominator, denominator (positive!)*)
-
-exception DIVZERO;
-
-fun rat_of_quotient (p, q) =
-  let
-    val m = Integer.gcd (Int.abs p) q
-  in Rat (p div m, q div m) end handle Div => raise DIVZERO;
-
-fun quotient_of_rat (Rat r) = r;
-
-fun rat_of_int i = Rat (i, 1);
-
-val zero = rat_of_int 0;
-val one = rat_of_int 1;
-val two = rat_of_int 2;
-
-fun string_of_rat (Rat (p, q)) =
-  string_of_int p ^ "/" ^ string_of_int q;
-
-fun eq (Rat (p1, q1), Rat (p2, q2)) = (p1 = p2 andalso q1 = q2);
-
-fun ord (Rat (p1, q1), Rat (p2, q2)) =
- case (Integer.sign p1, Integer.sign p2)
- of (LESS, EQUAL) => LESS
-  | (LESS, GREATER) => LESS
-  | (EQUAL, LESS) => GREATER
-  | (EQUAL, EQUAL) => EQUAL
-  | (EQUAL, GREATER) => LESS
-  | (GREATER, LESS) => GREATER
-  | (GREATER, EQUAL) => GREATER
-  | _ => int_ord (fst (common (p1, q1) (p2, q2)));
-
-fun le a b = not (ord (a, b) = GREATER);
-fun lt a b = (ord (a, b) = LESS);
-
-fun sign (Rat (p, _)) = Integer.sign p;
-
-fun abs (Rat (p, q)) = Rat (Int.abs p, q);
-
-fun add (Rat (p1, q1)) (Rat (p2, q2)) =
-  let
-    val ((m1, m2), n) = common (p1, q1) (p2, q2);
-  in rat_of_quotient (m1 + m2, n) end;
-
-fun mult (Rat (p1, q1)) (Rat (p2, q2)) =
-  rat_of_quotient (p1 * p2, q1 * q2);
-
-fun neg (Rat (p, q)) = Rat (~ p, q);
-
-fun inv (Rat (p, q)) =
- case Integer.sign p
- of LESS => Rat (~ q, ~ p)
-  | EQUAL => raise DIVZERO
-  | GREATER => Rat (q, p);
-
-fun rounddown (Rat (p, q)) = Rat (p div q, 1);
-
-fun roundup (Rat (p, q)) =
- case Integer.div_mod p q
- of (m, 0) => Rat (m, 1)
-  | (m, _) => Rat (m + 1, 1);
-
-end;
-
-infix 7 */ //;
-infix 6 +/ -/;
-infix 4 =/ </ <=/ >/ >=/ <>/;
-
-fun a +/ b = Rat.add a b;
-fun a -/ b = a +/ Rat.neg b;
-fun a */ b = Rat.mult a b;
-fun a // b = a */ Rat.inv b;
-fun a =/ b = Rat.eq (a, b);
-fun a </ b = Rat.lt a b;
-fun a <=/ b = Rat.le a b;
-fun a >/ b = b </ a;
-fun a >=/ b = b <=/ a;
-fun a <>/ b = not (a =/ b);