{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE MultiParamTypeClasses #-}
module IntervalAlgebra.Axioms
( IntervalAxioms(..)
, M1set(..)
, M2set(..)
, M5set(..)
) where
import Data.Either ( isRight )
import Data.Maybe ( fromJust
, isJust
, isNothing
)
import Data.Set ( Set
, disjointUnion
, fromList
, member
)
import Data.Time as DT
( Day(..)
, DiffTime
, NominalDiffTime
, UTCTime(..)
)
import IntervalAlgebra.Arbitrary
import IntervalAlgebra.Core
import Test.QuickCheck ( (===)
, (==>)
, Arbitrary(arbitrary)
, Property
)
xor :: Bool -> Bool -> Bool
xor :: Bool -> Bool -> Bool
xor Bool
a Bool
b = Bool
a Bool -> Bool -> Bool
forall a. Eq a => a -> a -> Bool
/= Bool
b
makePos :: (Ord b, Num b) => b -> b
makePos :: b -> b
makePos b
x | b
x b -> b -> Bool
forall a. Eq a => a -> a -> Bool
== b
0 = b
x b -> b -> b
forall a. Num a => a -> a -> a
+ b
1
| b
x b -> b -> Bool
forall a. Ord a => a -> a -> Bool
< b
0 = b -> b
forall a. Num a => a -> a
negate b
x
| Bool
otherwise = b
x
data M1set a = M1set
{ M1set a -> Interval a
m11 :: Interval a
, M1set a -> Interval a
m12 :: Interval a
, M1set a -> Interval a
m13 :: Interval a
, M1set a -> Interval a
m14 :: Interval a
}
deriving Int -> M1set a -> ShowS
[M1set a] -> ShowS
M1set a -> String
(Int -> M1set a -> ShowS)
-> (M1set a -> String) -> ([M1set a] -> ShowS) -> Show (M1set a)
forall a. (Show a, Ord a) => Int -> M1set a -> ShowS
forall a. (Show a, Ord a) => [M1set a] -> ShowS
forall a. (Show a, Ord a) => M1set a -> String
forall a.
(Int -> a -> ShowS) -> (a -> String) -> ([a] -> ShowS) -> Show a
showList :: [M1set a] -> ShowS
$cshowList :: forall a. (Show a, Ord a) => [M1set a] -> ShowS
show :: M1set a -> String
$cshow :: forall a. (Show a, Ord a) => M1set a -> String
showsPrec :: Int -> M1set a -> ShowS
$cshowsPrec :: forall a. (Show a, Ord a) => Int -> M1set a -> ShowS
Show
instance Arbitrary (M1set Int) where
arbitrary :: Gen (M1set Int)
arbitrary = do
Interval Int
x <- Gen (Interval Int)
forall a. Arbitrary a => Gen a
arbitrary
Int
a <- Gen Int
forall a. Arbitrary a => Gen a
arbitrary
Int
b <- Gen Int
forall a. Arbitrary a => Gen a
arbitrary
Interval Int -> Int -> Int -> Int -> M1set Int
forall a b.
(IntervalAxioms a b, IntervalSizeable a b) =>
Interval a -> b -> b -> b -> M1set a
m1set Interval Int
x Int
a Int
b (Int -> M1set Int) -> Gen Int -> Gen (M1set Int)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Gen Int
forall a. Arbitrary a => Gen a
arbitrary
instance Arbitrary (M1set DT.Day) where
arbitrary :: Gen (M1set Day)
arbitrary = do
Interval Day
x <- Gen (Interval Day)
forall a. Arbitrary a => Gen a
arbitrary
Integer
a <- Gen Integer
forall a. Arbitrary a => Gen a
arbitrary
Integer
b <- Gen Integer
forall a. Arbitrary a => Gen a
arbitrary
Interval Day -> Integer -> Integer -> Integer -> M1set Day
forall a b.
(IntervalAxioms a b, IntervalSizeable a b) =>
Interval a -> b -> b -> b -> M1set a
m1set Interval Day
x Integer
a Integer
b (Integer -> M1set Day) -> Gen Integer -> Gen (M1set Day)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Gen Integer
forall a. Arbitrary a => Gen a
arbitrary
instance Arbitrary (M1set DT.UTCTime) where
arbitrary :: Gen (M1set UTCTime)
arbitrary = do
Interval UTCTime
x <- Gen (Interval UTCTime)
forall a. Arbitrary a => Gen a
arbitrary
NominalDiffTime
a <- Gen NominalDiffTime
forall a. Arbitrary a => Gen a
arbitrary
NominalDiffTime
b <- Gen NominalDiffTime
forall a. Arbitrary a => Gen a
arbitrary
Interval UTCTime
-> NominalDiffTime
-> NominalDiffTime
-> NominalDiffTime
-> M1set UTCTime
forall a b.
(IntervalAxioms a b, IntervalSizeable a b) =>
Interval a -> b -> b -> b -> M1set a
m1set Interval UTCTime
x NominalDiffTime
a NominalDiffTime
b (NominalDiffTime -> M1set UTCTime)
-> Gen NominalDiffTime -> Gen (M1set UTCTime)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Gen NominalDiffTime
forall a. Arbitrary a => Gen a
arbitrary
data M2set a = M2set
{ M2set a -> Interval a
m21 :: Interval a
, M2set a -> Interval a
m22 :: Interval a
, M2set a -> Interval a
m23 :: Interval a
, M2set a -> Interval a
m24 :: Interval a
}
deriving Int -> M2set a -> ShowS
[M2set a] -> ShowS
M2set a -> String
(Int -> M2set a -> ShowS)
-> (M2set a -> String) -> ([M2set a] -> ShowS) -> Show (M2set a)
forall a. (Show a, Ord a) => Int -> M2set a -> ShowS
forall a. (Show a, Ord a) => [M2set a] -> ShowS
forall a. (Show a, Ord a) => M2set a -> String
forall a.
(Int -> a -> ShowS) -> (a -> String) -> ([a] -> ShowS) -> Show a
showList :: [M2set a] -> ShowS
$cshowList :: forall a. (Show a, Ord a) => [M2set a] -> ShowS
show :: M2set a -> String
$cshow :: forall a. (Show a, Ord a) => M2set a -> String
showsPrec :: Int -> M2set a -> ShowS
$cshowsPrec :: forall a. (Show a, Ord a) => Int -> M2set a -> ShowS
Show
instance Arbitrary (M2set Int) where
arbitrary :: Gen (M2set Int)
arbitrary = do
Interval Int
x <- Gen (Interval Int)
forall a. Arbitrary a => Gen a
arbitrary
Interval Int
a <- Gen (Interval Int)
forall a. Arbitrary a => Gen a
arbitrary
Int
b <- Gen Int
forall a. Arbitrary a => Gen a
arbitrary
Interval Int -> Interval Int -> Int -> Int -> M2set Int
forall a b.
(IntervalAxioms a b, IntervalSizeable a b) =>
Interval a -> Interval a -> b -> b -> M2set a
m2set Interval Int
x Interval Int
a Int
b (Int -> M2set Int) -> Gen Int -> Gen (M2set Int)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Gen Int
forall a. Arbitrary a => Gen a
arbitrary
instance Arbitrary (M2set DT.Day) where
arbitrary :: Gen (M2set Day)
arbitrary = do
Interval Day
x <- Gen (Interval Day)
forall a. Arbitrary a => Gen a
arbitrary
Interval Day
a <- Gen (Interval Day)
forall a. Arbitrary a => Gen a
arbitrary
Integer
b <- Gen Integer
forall a. Arbitrary a => Gen a
arbitrary
Interval Day -> Interval Day -> Integer -> Integer -> M2set Day
forall a b.
(IntervalAxioms a b, IntervalSizeable a b) =>
Interval a -> Interval a -> b -> b -> M2set a
m2set Interval Day
x Interval Day
a Integer
b (Integer -> M2set Day) -> Gen Integer -> Gen (M2set Day)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Gen Integer
forall a. Arbitrary a => Gen a
arbitrary
instance Arbitrary (M2set DT.UTCTime) where
arbitrary :: Gen (M2set UTCTime)
arbitrary = do
Interval UTCTime
x <- Gen (Interval UTCTime)
forall a. Arbitrary a => Gen a
arbitrary
Interval UTCTime
a <- Gen (Interval UTCTime)
forall a. Arbitrary a => Gen a
arbitrary
NominalDiffTime
b <- Gen NominalDiffTime
forall a. Arbitrary a => Gen a
arbitrary
Interval UTCTime
-> Interval UTCTime
-> NominalDiffTime
-> NominalDiffTime
-> M2set UTCTime
forall a b.
(IntervalAxioms a b, IntervalSizeable a b) =>
Interval a -> Interval a -> b -> b -> M2set a
m2set Interval UTCTime
x Interval UTCTime
a NominalDiffTime
b (NominalDiffTime -> M2set UTCTime)
-> Gen NominalDiffTime -> Gen (M2set UTCTime)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Gen NominalDiffTime
forall a. Arbitrary a => Gen a
arbitrary
data M5set a = M5set
{ M5set a -> Interval a
m51 :: Interval a
, M5set a -> Interval a
m52 :: Interval a
}
deriving Int -> M5set a -> ShowS
[M5set a] -> ShowS
M5set a -> String
(Int -> M5set a -> ShowS)
-> (M5set a -> String) -> ([M5set a] -> ShowS) -> Show (M5set a)
forall a. (Show a, Ord a) => Int -> M5set a -> ShowS
forall a. (Show a, Ord a) => [M5set a] -> ShowS
forall a. (Show a, Ord a) => M5set a -> String
forall a.
(Int -> a -> ShowS) -> (a -> String) -> ([a] -> ShowS) -> Show a
showList :: [M5set a] -> ShowS
$cshowList :: forall a. (Show a, Ord a) => [M5set a] -> ShowS
show :: M5set a -> String
$cshow :: forall a. (Show a, Ord a) => M5set a -> String
showsPrec :: Int -> M5set a -> ShowS
$cshowsPrec :: forall a. (Show a, Ord a) => Int -> M5set a -> ShowS
Show
instance Arbitrary (M5set Int) where
arbitrary :: Gen (M5set Int)
arbitrary = do
Interval Int
x <- Gen (Interval Int)
forall a. Arbitrary a => Gen a
arbitrary
Int
a <- Gen Int
forall a. Arbitrary a => Gen a
arbitrary
Interval Int -> Int -> Int -> M5set Int
forall a b.
(IntervalAxioms a b, IntervalSizeable a b) =>
Interval a -> b -> b -> M5set a
m5set Interval Int
x Int
a (Int -> M5set Int) -> Gen Int -> Gen (M5set Int)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Gen Int
forall a. Arbitrary a => Gen a
arbitrary
instance Arbitrary (M5set DT.Day) where
arbitrary :: Gen (M5set Day)
arbitrary = do
Interval Day
x <- Gen (Interval Day)
forall a. Arbitrary a => Gen a
arbitrary
Integer
a <- Gen Integer
forall a. Arbitrary a => Gen a
arbitrary
Interval Day -> Integer -> Integer -> M5set Day
forall a b.
(IntervalAxioms a b, IntervalSizeable a b) =>
Interval a -> b -> b -> M5set a
m5set Interval Day
x Integer
a (Integer -> M5set Day) -> Gen Integer -> Gen (M5set Day)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Gen Integer
forall a. Arbitrary a => Gen a
arbitrary
instance Arbitrary (M5set DT.UTCTime) where
arbitrary :: Gen (M5set UTCTime)
arbitrary = do
Interval UTCTime
x <- Gen (Interval UTCTime)
forall a. Arbitrary a => Gen a
arbitrary
NominalDiffTime
a <- Gen NominalDiffTime
forall a. Arbitrary a => Gen a
arbitrary
Interval UTCTime
-> NominalDiffTime -> NominalDiffTime -> M5set UTCTime
forall a b.
(IntervalAxioms a b, IntervalSizeable a b) =>
Interval a -> b -> b -> M5set a
m5set Interval UTCTime
x NominalDiffTime
a (NominalDiffTime -> M5set UTCTime)
-> Gen NominalDiffTime -> Gen (M5set UTCTime)
forall (f :: * -> *) a b. Functor f => (a -> b) -> f a -> f b
<$> Gen NominalDiffTime
forall a. Arbitrary a => Gen a
arbitrary
class ( IntervalSizeable a b ) => IntervalAxioms a b where
m1set :: (IntervalSizeable a b) => Interval a -> b -> b -> b -> M1set a
m1set Interval a
x b
a b
b b
c = Interval a -> Interval a -> Interval a -> Interval a -> M1set a
forall a.
Interval a -> Interval a -> Interval a -> Interval a -> M1set a
M1set Interval a
p1 Interval a
p2 Interval a
p3 Interval a
p4
where p1 :: Interval a
p1 = Interval a
x
p2 :: Interval a
p2 = b -> a -> Interval a
forall a b. IntervalSizeable a b => b -> a -> Interval a
beginerval b
a (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
end Interval a
x)
p3 :: Interval a
p3 = b -> a -> Interval a
forall a b. IntervalSizeable a b => b -> a -> Interval a
beginerval b
b (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
end Interval a
x)
p4 :: Interval a
p4 = b -> a -> Interval a
forall a b. IntervalSizeable a b => b -> a -> Interval a
enderval (b -> b
forall b. (Ord b, Num b) => b -> b
makePos b
c) (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
begin Interval a
p2)
prop_IAaxiomM1 :: (Ord a) => M1set a -> Property
prop_IAaxiomM1 M1set a
x =
(Interval a
i ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
j Bool -> Bool -> Bool
&& Interval a
i ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
k Bool -> Bool -> Bool
&& Interval a
l ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
j) Bool -> Bool -> Property
forall prop. Testable prop => Bool -> prop -> Property
==> (Interval a
l ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
k)
where i :: Interval a
i = M1set a -> Interval a
forall a. M1set a -> Interval a
m11 M1set a
x
j :: Interval a
j = M1set a -> Interval a
forall a. M1set a -> Interval a
m12 M1set a
x
k :: Interval a
k = M1set a -> Interval a
forall a. M1set a -> Interval a
m13 M1set a
x
l :: Interval a
l = M1set a -> Interval a
forall a. M1set a -> Interval a
m14 M1set a
x
m2set :: (IntervalSizeable a b)=> Interval a -> Interval a -> b -> b -> M2set a
m2set Interval a
x Interval a
y b
a b
b = Interval a -> Interval a -> Interval a -> Interval a -> M2set a
forall a.
Interval a -> Interval a -> Interval a -> Interval a -> M2set a
M2set Interval a
p1 Interval a
p2 Interval a
p3 Interval a
p4
where p1 :: Interval a
p1 = Interval a
x
p2 :: Interval a
p2 = b -> a -> Interval a
forall a b. IntervalSizeable a b => b -> a -> Interval a
beginerval b
a (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
end Interval a
x)
p3 :: Interval a
p3 = Interval a
y
p4 :: Interval a
p4 = b -> a -> Interval a
forall a b. IntervalSizeable a b => b -> a -> Interval a
beginerval b
b (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
end Interval a
y)
prop_IAaxiomM2 :: (IntervalSizeable a b, Show a) =>
M2set a -> Property
prop_IAaxiomM2 M2set a
x =
(Interval a
i ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
j Bool -> Bool -> Bool
&& Interval a
k ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
l) Bool -> Bool -> Property
forall prop. Testable prop => Bool -> prop -> Property
==>
(Interval a
i ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
l) Bool -> Bool -> Bool
`xor`
Either ParseErrorInterval (Interval a) -> Bool
forall a b. Either a b -> Bool
isRight Either ParseErrorInterval (Interval a)
m Bool -> Bool -> Bool
`xor`
Either ParseErrorInterval (Interval a) -> Bool
forall a b. Either a b -> Bool
isRight Either ParseErrorInterval (Interval a)
n
where i :: Interval a
i = M2set a -> Interval a
forall a. M2set a -> Interval a
m21 M2set a
x
j :: Interval a
j = M2set a -> Interval a
forall a. M2set a -> Interval a
m22 M2set a
x
k :: Interval a
k = M2set a -> Interval a
forall a. M2set a -> Interval a
m23 M2set a
x
l :: Interval a
l = M2set a -> Interval a
forall a. M2set a -> Interval a
m24 M2set a
x
m :: Either ParseErrorInterval (Interval a)
m = a -> a -> Either ParseErrorInterval (Interval a)
forall a.
(Show a, Ord a) =>
a -> a -> Either ParseErrorInterval (Interval a)
parseInterval (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
end Interval a
i) (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
begin Interval a
l)
n :: Either ParseErrorInterval (Interval a)
n = a -> a -> Either ParseErrorInterval (Interval a)
forall a.
(Show a, Ord a) =>
a -> a -> Either ParseErrorInterval (Interval a)
parseInterval (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
end Interval a
k) (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
begin Interval a
j)
prop_IAaxiomML1 :: (Ord a) => Interval a -> Property
prop_IAaxiomML1 Interval a
x = Bool -> Bool
not (Interval a
x ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
x) Bool -> Bool -> Property
forall a. (Eq a, Show a) => a -> a -> Property
=== Bool
True
prop_IAaxiomML2 :: (Ord a)=> M2set a -> Property
prop_IAaxiomML2 M2set a
x =
(Interval a
i ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
j) Bool -> Bool -> Property
forall prop. Testable prop => Bool -> prop -> Property
==> Bool -> Bool
not (Interval a
j ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
i)
where i :: Interval a
i = M2set a -> Interval a
forall a. M2set a -> Interval a
m21 M2set a
x
j :: Interval a
j = M2set a -> Interval a
forall a. M2set a -> Interval a
m22 M2set a
x
prop_IAaxiomM3 :: (IntervalSizeable a b)=>
b -> Interval a -> Property
prop_IAaxiomM3 b
b Interval a
i =
(Interval a
j ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
i Bool -> Bool -> Bool
&& Interval a
i ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
k) Bool -> Bool -> Property
forall a. (Eq a, Show a) => a -> a -> Property
=== Bool
True
where j :: Interval a
j = b -> a -> Interval a
forall a b. IntervalSizeable a b => b -> a -> Interval a
enderval b
b (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
begin Interval a
i)
k :: Interval a
k = b -> a -> Interval a
forall a b. IntervalSizeable a b => b -> a -> Interval a
beginerval b
b (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
end Interval a
i)
prop_IAaxiomM4 :: (IntervalSizeable a b)=>
b -> M2set a -> Property
prop_IAaxiomM4 b
b M2set a
x =
((Interval a
m ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
i Bool -> Bool -> Bool
&& Interval a
i ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
j Bool -> Bool -> Bool
&& Interval a
j ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
n) Bool -> Bool -> Bool
&&
(Interval a
m ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
k Bool -> Bool -> Bool
&& Interval a
k ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
n)) Bool -> Bool -> Property
forall a. (Eq a, Show a) => a -> a -> Property
=== Bool
True
where i :: Interval a
i = M2set a -> Interval a
forall a. M2set a -> Interval a
m21 M2set a
x
j :: Interval a
j = M2set a -> Interval a
forall a. M2set a -> Interval a
m22 M2set a
x
m :: Interval a
m = b -> a -> Interval a
forall a b. IntervalSizeable a b => b -> a -> Interval a
enderval b
b (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
begin Interval a
i)
n :: Interval a
n = b -> a -> Interval a
forall a b. IntervalSizeable a b => b -> a -> Interval a
beginerval b
b (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
end Interval a
j)
k :: Interval a
k = b -> a -> Interval a
forall a b. IntervalSizeable a b => b -> a -> Interval a
beginerval b
g (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
end Interval a
m)
g :: b
g = a -> a -> b
forall a b. IntervalSizeable a b => a -> a -> b
diff (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
begin Interval a
n) (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
end Interval a
m)
m5set :: (IntervalSizeable a b)=> Interval a -> b -> b -> M5set a
m5set Interval a
x b
a b
b = Interval a -> Interval a -> M5set a
forall a. Interval a -> Interval a -> M5set a
M5set Interval a
p1 Interval a
p2
where p1 :: Interval a
p1 = Interval a
x
p2 :: Interval a
p2 = b -> a -> Interval a
forall a b. IntervalSizeable a b => b -> a -> Interval a
beginerval b
a a
ps
ps :: a
ps = Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
end (b -> Interval a -> Interval a
forall a b (i :: * -> *).
(IntervalSizeable a b, Intervallic i a) =>
b -> i a -> i a
expandr (b -> b
forall b. (Ord b, Num b) => b -> b
makePos b
b) Interval a
x)
prop_IAaxiomM5 :: (IntervalSizeable a b) =>
M5set a -> Property
prop_IAaxiomM5 M5set a
x =
((Interval a
i ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
j Bool -> Bool -> Bool
&& Interval a
j ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
l) Bool -> Bool -> Bool
&&
(Interval a
i ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
k Bool -> Bool -> Bool
&& Interval a
k ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
l)) Bool -> Bool -> Property
forall a. (Eq a, Show a) => a -> a -> Property
=== (Interval a
j ComparativePredicateOf2 (Interval a) (Interval a)
forall a. Eq a => a -> a -> Bool
== Interval a
k)
where i :: Interval a
i = M5set a -> Interval a
forall a. M5set a -> Interval a
m51 M5set a
x
j :: Interval a
j = b -> a -> Interval a
forall a b. IntervalSizeable a b => b -> a -> Interval a
beginerval b
g (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
end Interval a
i)
k :: Interval a
k = b -> a -> Interval a
forall a b. IntervalSizeable a b => b -> a -> Interval a
beginerval b
g (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
end Interval a
i)
g :: b
g = a -> a -> b
forall a b. IntervalSizeable a b => a -> a -> b
diff (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
begin Interval a
l) (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
end Interval a
i)
l :: Interval a
l = M5set a -> Interval a
forall a. M5set a -> Interval a
m52 M5set a
x
prop_IAaxiomM4_1 :: (IntervalSizeable a b)=>
b -> M2set a -> Property
prop_IAaxiomM4_1 b
b M2set a
x =
((Interval a
m ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
i Bool -> Bool -> Bool
&& Interval a
i ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
j Bool -> Bool -> Bool
&& Interval a
j ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
n) Bool -> Bool -> Bool
&&
(Interval a
m ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
ij Bool -> Bool -> Bool
&& Interval a
ij ComparativePredicateOf2 (Interval a) (Interval a)
forall (i0 :: * -> *) a (i1 :: * -> *).
(Intervallic i0 a, Intervallic i1 a) =>
ComparativePredicateOf2 (i0 a) (i1 a)
`meets` Interval a
n)) Bool -> Bool -> Property
forall a. (Eq a, Show a) => a -> a -> Property
=== Bool
True
where i :: Interval a
i = M2set a -> Interval a
forall a. M2set a -> Interval a
m21 M2set a
x
j :: Interval a
j = M2set a -> Interval a
forall a. M2set a -> Interval a
m22 M2set a
x
m :: Interval a
m = b -> a -> Interval a
forall a b. IntervalSizeable a b => b -> a -> Interval a
enderval b
b (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
begin Interval a
i)
n :: Interval a
n = b -> a -> Interval a
forall a b. IntervalSizeable a b => b -> a -> Interval a
beginerval b
b (Interval a -> a
forall (i :: * -> *) a. Intervallic i a => i a -> a
end Interval a
j)
ij :: Interval a
ij = Maybe (Interval a) -> Interval a
forall a. HasCallStack => Maybe a -> a
fromJust (Maybe (Interval a) -> Interval a)
-> Maybe (Interval a) -> Interval a
forall a b. (a -> b) -> a -> b
$ Interval a
i Interval a -> Interval a -> Maybe (Interval a)
forall (i :: * -> *) a.
IntervalCombinable i a =>
i a -> i a -> Maybe (i a)
.+. Interval a
j
instance IntervalAxioms Int Int
instance IntervalAxioms Day Integer
instance IntervalAxioms UTCTime NominalDiffTime