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use crate::nodes::InnerNode;
use crate::nodes::InspectVec;
use crate::source::Range;
use crate::Node;
/// Represents an arguments list
///
/// `Args(vec![Arg("a"), Optarg("b", Int("1"))])` in `def m(a, b = 1); end`
#[derive(Debug, Clone, PartialEq)]
pub struct Args {
/// List of arguments
pub args: Vec<Node>,
/// Location of the full expression
///
/// ```text
/// def m(a, b = 1, c:, &blk); end
/// ~~~~~~~~~~~~~~~~~~~~
/// ```
pub expression_l: Range,
/// Location of the open parenthesis
///
/// ```text
/// def m(a, b = 1, c:, &blk); end
/// ~
/// ```
///
/// `None` for code like `def m; end` or `def m arg; end`
pub begin_l: Option<Range>,
/// Location of the closing parenthesis
///
/// ```text
/// def m(a, b = 1, c:, &blk); end
/// ~
/// ```
///
/// `None` for code like `def m; end` or `def m arg; end`
pub end_l: Option<Range>,
}
impl InnerNode for Args {
fn expression(&self) -> &Range {
&self.expression_l
}
fn inspected_children(&self, indent: usize) -> Vec<String> {
let mut result = InspectVec::new(indent);
result.push_nodes(&self.args);
result.strings()
}
fn str_type(&self) -> &'static str {
"args"
}
fn print_with_locs(&self) {
println!("{}", self.inspect(0));
if let Some(range) = &self.end_l {
range.print("end");
}
if let Some(range) = &self.begin_l {
range.print("begin");
}
self.expression_l.print("expression");
for node in self.args.iter() {
node.inner_ref().print_with_locs();
}
}
}