{-# htermination (encodeFloatFloat :: Integer -> MyInt -> Float) #-} import qualified Prelude data MyBool = MyTrue | MyFalse data List a = Cons a (List a) | Nil data Double = Double MyInt MyInt ; data Float = Float MyInt MyInt ; data Integer = Integer MyInt ; data MyInt = Pos Nat | Neg Nat ; data Nat = Succ Nat | Zero ; data Ordering = LT | EQ | GT ; primIntToFloat :: MyInt -> Float; primIntToFloat x = Float x (Pos (Succ Zero)); primIntegerToFloat :: Integer -> Float; primIntegerToFloat (Integer x) = primIntToFloat x; fromIntegerFloat :: Integer -> Float fromIntegerFloat = primIntegerToFloat; doubleToFloat :: Double -> Float; doubleToFloat (Double x y) = Float x y; fromDoubleFloat :: Double -> Float fromDoubleFloat = doubleToFloat; primPlusNat :: Nat -> Nat -> Nat; primPlusNat Zero Zero = Zero; primPlusNat Zero (Succ y) = Succ y; primPlusNat (Succ x) Zero = Succ x; primPlusNat (Succ x) (Succ y) = Succ (Succ (primPlusNat x y)); primMulNat :: Nat -> Nat -> Nat; primMulNat Zero Zero = Zero; primMulNat Zero (Succ y) = Zero; primMulNat (Succ x) Zero = Zero; primMulNat (Succ x) (Succ y) = primPlusNat (primMulNat x (Succ y)) (Succ y); primMulInt :: MyInt -> MyInt -> MyInt; primMulInt (Pos x) (Pos y) = Pos (primMulNat x y); primMulInt (Pos x) (Neg y) = Neg (primMulNat x y); primMulInt (Neg x) (Pos y) = Neg (primMulNat x y); primMulInt (Neg x) (Neg y) = Pos (primMulNat x y); srMyInt :: MyInt -> MyInt -> MyInt srMyInt = primMulInt; primDivFloat :: Float -> Float -> Float; primDivFloat (Float x1 x2) (Float y1 y2) = Float (srMyInt x1 y2) (srMyInt x2 y1); fsFloat :: Float -> Float -> Float fsFloat = primDivFloat; primNegInt :: MyInt -> MyInt; primNegInt (Pos x) = Neg x; primNegInt (Neg x) = Pos x; negateMyInt :: MyInt -> MyInt negateMyInt = primNegInt; primFloatEncodePower0 x y = fsFloat (fromDoubleFloat (Double (Pos (Succ Zero)) (Pos (Succ Zero)))) (primFloatEncodePower x (negateMyInt y)); primCmpNat :: Nat -> Nat -> Ordering; primCmpNat Zero Zero = EQ; primCmpNat Zero (Succ y) = LT; primCmpNat (Succ x) Zero = GT; primCmpNat (Succ x) (Succ y) = primCmpNat x y; primCmpInt :: MyInt -> MyInt -> Ordering; primCmpInt (Pos Zero) (Pos Zero) = EQ; primCmpInt (Pos Zero) (Neg Zero) = EQ; primCmpInt (Neg Zero) (Pos Zero) = EQ; primCmpInt (Neg Zero) (Neg Zero) = EQ; primCmpInt (Pos x) (Pos y) = primCmpNat x y; primCmpInt (Pos x) (Neg y) = GT; primCmpInt (Neg x) (Pos y) = LT; primCmpInt (Neg x) (Neg y) = primCmpNat y x; compareMyInt :: MyInt -> MyInt -> Ordering compareMyInt = primCmpInt; esEsOrdering :: Ordering -> Ordering -> MyBool esEsOrdering LT LT = MyTrue; esEsOrdering LT EQ = MyFalse; esEsOrdering LT GT = MyFalse; esEsOrdering EQ LT = MyFalse; esEsOrdering EQ EQ = MyTrue; esEsOrdering EQ GT = MyFalse; esEsOrdering GT LT = MyFalse; esEsOrdering GT EQ = MyFalse; esEsOrdering GT GT = MyTrue; not :: MyBool -> MyBool; not MyTrue = MyFalse; not MyFalse = MyTrue;
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