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doc-src/IsarAdvanced/Classes/Thy/code_examples/Classes.hs
changeset 24628 33137422d7fd
parent 23956 48494ccfabaf
child 24991 c6f5cc939c29 
--- a/doc-src/IsarAdvanced/Classes/Thy/code_examples/Classes.hs	Tue Sep 18 08:28:47 2007 +0200
+++ b/doc-src/IsarAdvanced/Classes/Thy/code_examples/Classes.hs	Tue Sep 18 10:44:02 2007 +0200
@@ -1,25 +1,26 @@
 module Classes where {
 
 
-data Nat = Zero_nat | Suc Nat;
+data Nat = Suc Classes.Nat | Zero_nat;
 
-data Bit = B0 | B1;
+data Bit = B1 | B0;
 
-nat_aux :: Integer -> Nat -> Nat;
-nat_aux i n = (if i <= 0 then n else nat_aux (i - 1) (Suc n));
+nat_aux :: Integer -> Classes.Nat -> Classes.Nat;
+nat_aux i n =
+  (if i <= 0 then n else Classes.nat_aux (i - 1) (Classes.Suc n));
 
-nat :: Integer -> Nat;
-nat i = nat_aux i Zero_nat;
+nat :: Integer -> Classes.Nat;
+nat i = Classes.nat_aux i Classes.Zero_nat;
 
 class Semigroup a where {
   mult :: a -> a -> a;
 };
 
-class (Semigroup a) => Monoidl a where {
+class (Classes.Semigroup a) => Monoidl a where {
   neutral :: a;
 };
 
-class (Monoidl a) => Group a where {
+class (Classes.Monoidl a) => Group a where {
   inverse :: a -> a;
 };
 
@@ -32,28 +33,28 @@
 mult_int :: Integer -> Integer -> Integer;
 mult_int i j = i + j;
 
-instance Semigroup Integer where {
-  mult = mult_int;
+instance Classes.Semigroup Integer where {
+  mult = Classes.mult_int;
 };
 
-instance Monoidl Integer where {
-  neutral = neutral_int;
+instance Classes.Monoidl Integer where {
+  neutral = Classes.neutral_int;
 };
 
-instance Group Integer where {
-  inverse = inverse_int;
+instance Classes.Group Integer where {
+  inverse = Classes.inverse_int;
 };
 
-pow_nat :: (Group b) => Nat -> b -> b;
-pow_nat (Suc n) x = mult x (pow_nat n x);
-pow_nat Zero_nat x = neutral;
+pow_nat :: (Classes.Group b) => Classes.Nat -> b -> b;
+pow_nat (Classes.Suc n) x = Classes.mult x (Classes.pow_nat n x);
+pow_nat Classes.Zero_nat x = Classes.neutral;
 
-pow_int :: (Group a) => Integer -> a -> a;
+pow_int :: (Classes.Group a) => Integer -> a -> a;
 pow_int k x =
-  (if 0 <= k then pow_nat (nat k) x
-    else inverse (pow_nat (nat (negate k)) x));
+  (if 0 <= k then Classes.pow_nat (Classes.nat k) x
+    else Classes.inverse (Classes.pow_nat (Classes.nat (negate k)) x));
 
 example :: Integer;
-example = pow_int 10 (-2);
+example = Classes.pow_int 10 (-2);
 
 }
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