Relational algebra
Pointfree
José Nuno Oliveira: First Steps in Pointfree Functional Dependency Theory. A concise and deep approach, it is pointfree. See also the author's homepage and also his many other papers -- many materials related to in this topic can be found.
Just a thought
An early, immature thought of mine to represent relational algebra expressions:
data Query :: * -> * -> * where
Identity :: Scheme a => Query a a
Restrict :: (Scheme a, Scheme b) => Expr b Bool -> Query a b -> Query a b
Project :: (Scheme a, Scheme b, Scheme b', Sub b' b) => b' -> Query a b -> Query a b'
Rename :: (Scheme a, Scheme b, Scheme b', Iso b b') => Query a b -> Query a b'
Product :: (Scheme a, Scheme b1, Scheme b2, Scheme b, Sum b1 b2 b) =>
Query a b1 -> Query a b2 -> Query a b
Union :: (Scheme a, Scheme b, Id b) => Query a b -> Query a b -> Query a b
Difference :: (Scheme a, Scheme b, Id b) => Query a b -> Query a b -> Query a b
... using the concepts / ideas of
- generalised algebraic datatype
- a sort of differential approach (I think I took it from Zipper). Can
Querybe regarded as an arrow, and if so, is it worth of doing so?
The case of Restrict uses Expr. I think, the concept of Expr is an inside approach (making the relational algebra -- regarded as an embedded language -- richer, more autonome from the host language, but also more restricted):
data Expr :: * -> * -> * where
Constant :: (Scheme sch, Literal a) => a -> Expr sch a
Attribute :: (Scheme sch, Match attr a, Context attr sch) => attr -> Expr sch a
Not :: Scheme sch => Expr sch Bool -> Expr sch Bool
And :: Scheme sch => Expr sch Bool -> Expr sch Bool -> Expr sch Bool
Or :: Scheme sch => Expr sch Bool -> Expr sch Bool -> Expr sch Bool
Equal :: (Scheme sch, Eq a) => Expr sch a -> Expr sch a -> Expr sch Bool
Less :: (Scheme sch, Ord a) => Expr sch a -> Expr sch a -> Expr sch Bool
Maybe an outside approach (exploiting the host language more, thus enjoying more generality) would be also appropriate:
data Query :: * -> * -> * where
...
Restrict :: (Scheme a, Scheme b, Record br, On b br) => (br -> Bool) -> Query a b -> Query a b
...
Rename :: (Scheme a, Scheme b, Scheme b', Iso b b') => (b -> b') -> Query a b -> Query a b'
Practice
Database managemant systems can be approached also in declarative, type safe ways. See the examples of