use commands::ast::Value;
use commands::ast::AST;
pub struct Div<'ast> {
lvalue: &'ast AST<'ast>,
rvalue: &'ast AST<'ast>,
}
pub fn new<'ast>(lvalue: &'ast AST<'ast>, rvalue: &'ast AST<'ast>) -> Div<'ast> {
Div {
lvalue: lvalue,
rvalue: rvalue,
}
}
impl<'ast> Div<'ast> {
fn a_a(l: i64, r: i64) -> AST<'ast> {
AST::Value(Value::Number(l / r))
}
fn l_a(l: &'ast AST<'ast>, r: &'ast AST<'ast>) -> AST<'ast> {
AST::Value(Value::Number(1))
}
fn a_l(l: &'ast AST<'ast>, r: &'ast AST<'ast>) -> AST<'ast> {
AST::Value(Value::Number(1))
}
fn l_l(l: &[i64], r: &[i64]) -> AST<'ast> {
let a:Vec<i64> = l.iter().zip(r)
.map(|(l,r)| l / r)
.collect();
AST::Value(Value::VecInt(a))
}
}
impl<'ast> Iterator for Div<'ast> {
type Item = AST<'ast>;
fn next(&mut self) -> Option<Self::Item> {
match (self.lvalue, self.rvalue) {
(&AST::Value(Value::Number(l)), &AST::Value(Value::Number(r))) => Some(Self::a_a(l, r)),
_ => None,
}
}
}
impl<'a, 'ast> Iterator for &'a Div<'ast> {
type Item = AST<'ast>;
fn next(&mut self) -> Option<Self::Item> {
None
}
}