use super::*;
pub struct And<T, U, V, W, X, Y>
where T: traits::Filter,
U: traits::Filter,
V: traits::Filter,
W: traits::Filter,
X: traits::Filter,
Y: traits::Filter,
{
t: T,
u: U,
v: Option<V>,
w: Option<W>,
x: Option<X>,
y: Option<Y>,
}
impl<T, U> std::convert::From<(T, U)> for And<T, U, T, T, T, T>
where T: traits::Filter, U: traits::Filter {
fn from((t, u): (T, U)) -> Self {
And { t, u, v: None, w: None, x: None, y: None }
}
}
impl<T, U, V> std::convert::From<(T, U, V)> for And<T, U, V, T, T, T>
where T: traits::Filter, U: traits::Filter, V: traits::Filter {
fn from((t, u, v): (T, U, V)) -> Self {
And { t, u, v: Some(v), w: None, x: None, y: None }
}
}
impl<T, U, V, W> std::convert::From<(T, U, V, W)> for And<T, U, V, W, T, T>
where T: traits::Filter, U: traits::Filter, V: traits::Filter, W: traits::Filter {
fn from((t, u, v, w): (T, U, V, W)) -> Self {
And { t, u, v: Some(v), w: Some(w), x: None, y: None }
}
}
impl<T, U, V, W, X> std::convert::From<(T, U, V, W, X)> for And<T, U, V, W, X, T>
where T: traits::Filter, U: traits::Filter, V: traits::Filter, W: traits::Filter, X: traits::Filter {
fn from((t, u, v, w, x): (T, U, V, W, X)) -> Self {
And { t, u, v: Some(v), w: Some(w), x: Some(x), y: None }
}
}
impl<T, U, V, W, X, Y> std::convert::From<(T, U, V, W, X, Y)> for And<T, U, V, W, X, Y>
where T: traits::Filter, U: traits::Filter, V: traits::Filter, W: traits::Filter, X: traits::Filter, Y: traits::Filter {
fn from((t, u, v, w, x, y): (T, U, V, W, X, Y)) -> Self {
And { t, u, v: Some(v), w: Some(w), x: Some(x), y: Some(y) }
}
}
impl<T, U, V, W, X, Y> traits::Filter for And<T, U, V, W, X, Y>
where T: traits::Filter, U: traits::Filter, V: traits::Filter,
W: traits::Filter, X: traits::Filter, Y: traits::Filter,
{
fn filter(&self) -> String {
let a = self.t.filter(); let b = self.u.filter();
match self.v.as_ref().map(|v| v.filter()) {
Some(c) => match self.w.as_ref().map(|w| w.filter()) {
Some(d) => match self.x.as_ref().map(|x| x.filter()) {
Some(e) => match self.y.as_ref().map(|y| y.filter()) {
Some(f) => format!("( {a} AND {b} AND {c} AND {d} AND {e} AND {f} )"),
None => format!("( {a} AND {b} AND {c} AND {d} AND {e} )"),
},
None => format!("( {a} AND {b} AND {c} AND {d} )"),
},
None => format!("( {a} AND {b} AND {c} )"),
},
None => format!("( {a} AND {b} )"),
}
}
}
#[cfg(test)]
mod tests {
use super::*;
struct WordOne { }
impl traits::Filter for WordOne {
fn filter(&self) -> String {
"1".to_string()
}
}
struct WordHouse { }
impl traits::Filter for WordHouse {
fn filter(&self) -> String {
"House".to_string()
}
}
#[test]
fn it_combines_filter() -> Result<()> {
use traits::Filter;
let and: And<_, _, _, _, _, _> = (WordOne {}, WordOne {}).into();
assert!(and.filter().eq("( 1 AND 1 )"));
let and: And<_, _, _, _, _, _> = (WordOne {}, WordHouse {}, WordOne {}).into();
assert!(and.filter().eq("( 1 AND House AND 1 )"));
let and: And<_, _, _, _, _, _> = (WordOne {}, WordHouse {}, WordHouse {}, WordOne {}).into();
assert!(and.filter().eq("( 1 AND House AND House AND 1 )"));
let and: And<_, _, _, _, _, _> = (WordOne {}, WordHouse {}, WordHouse {}, WordOne {}, WordHouse {}, ).into();
assert!(and.filter().eq("( 1 AND House AND House AND 1 AND House )"));
let and: And<_, _, _, _, _, _> = (WordOne {}, WordHouse {}, WordHouse {}, WordOne {}, WordHouse {}, WordHouse {}).into();
assert!(and.filter().eq("( 1 AND House AND House AND 1 AND House AND House )"));
Ok(())
}
}