use crate::priv_prelude::*;
#[derive(Clone, Debug)]
pub struct PathExpr {
pub root_opt: Option<(Option<AngleBrackets<QualifiedPathRoot>>, DoubleColonToken)>,
pub prefix: PathExprSegment,
pub suffix: Vec<(DoubleColonToken, PathExprSegment)>,
}
#[derive(Clone, Debug)]
pub struct PathExprSegment {
pub fully_qualified: Option<TildeToken>,
pub name: Ident,
pub generics_opt: Option<(DoubleColonToken, GenericArgs)>,
}
impl Spanned for PathExpr {
fn span(&self) -> Span {
let start = match &self.root_opt {
Some((qualified_path_root_opt, double_colon_token)) => match qualified_path_root_opt {
Some(qualified_path_root) => qualified_path_root.span(),
None => double_colon_token.span(),
},
None => self.prefix.span(),
};
let end = match self.suffix.last() {
Some((_double_colon_token, path_expr_segment)) => path_expr_segment.span(),
None => self.prefix.span(),
};
Span::join(start, end)
}
}
impl PathExpr {
pub fn try_into_ident(self) -> Result<Ident, PathExpr> {
if self.root_opt.is_none()
&& self.suffix.is_empty()
&& self.prefix.fully_qualified.is_none()
&& self.prefix.generics_opt.is_none()
{
return Ok(self.prefix.name);
}
Err(self)
}
}
impl Spanned for PathExprSegment {
fn span(&self) -> Span {
let start = match &self.fully_qualified {
Some(tilde_token) => tilde_token.span(),
None => self.name.span(),
};
let end = match &self.generics_opt {
Some((_double_colon_token, generic_args)) => generic_args.span(),
None => self.name.span(),
};
Span::join(start, end)
}
}
impl Parse for PathExpr {
fn parse(parser: &mut Parser) -> ParseResult<PathExpr> {
let root_opt = match parser.take() {
Some(open_angle_bracket_token) => {
let qualified_path_root = parser.parse()?;
let close_angle_bracket_token = parser.parse()?;
let angle_brackets = AngleBrackets {
open_angle_bracket_token,
inner: qualified_path_root,
close_angle_bracket_token,
};
let double_colon_token = parser.parse()?;
Some((Some(angle_brackets), double_colon_token))
}
None => parser
.take()
.map(|double_colon_token| (None, double_colon_token)),
};
let prefix = parser.parse()?;
let mut suffix = Vec::new();
while let Some(double_colon_token) = parser.take() {
let segment = parser.parse()?;
suffix.push((double_colon_token, segment));
}
Ok(PathExpr {
root_opt,
prefix,
suffix,
})
}
}
impl Parse for PathExprSegment {
fn parse(parser: &mut Parser) -> ParseResult<PathExprSegment> {
let fully_qualified = parser.take();
let name = parser.parse()?;
let generics_opt = if parser
.peek2::<DoubleColonToken, OpenAngleBracketToken>()
.is_some()
{
let double_colon_token = parser.parse()?;
let generics = parser.parse()?;
Some((double_colon_token, generics))
} else {
None
};
Ok(PathExprSegment {
fully_qualified,
name,
generics_opt,
})
}
}
#[derive(Clone, Debug)]
pub struct PathType {
pub root_opt: Option<(Option<AngleBrackets<QualifiedPathRoot>>, DoubleColonToken)>,
pub prefix: PathTypeSegment,
pub suffix: Vec<(DoubleColonToken, PathTypeSegment)>,
}
impl Spanned for PathType {
fn span(&self) -> Span {
let start = match &self.root_opt {
Some((qualified_path_root_opt, double_colon_token)) => match qualified_path_root_opt {
Some(qualified_path_root) => qualified_path_root.span(),
None => double_colon_token.span(),
},
None => self.prefix.span(),
};
let end = match self.suffix.last() {
Some((_double_colon_token, path_type_segment)) => path_type_segment.span(),
None => self.prefix.span(),
};
Span::join(start, end)
}
}
#[derive(Clone, Debug)]
pub struct PathTypeSegment {
pub fully_qualified: Option<TildeToken>,
pub name: Ident,
pub generics_opt: Option<(Option<DoubleColonToken>, GenericArgs)>,
}
impl Spanned for PathTypeSegment {
fn span(&self) -> Span {
let start = match &self.fully_qualified {
Some(tilde_token) => tilde_token.span(),
None => self.name.span(),
};
let end = match &self.generics_opt {
Some((_double_colon_token, generic_args)) => generic_args.span(),
None => self.name.span(),
};
Span::join(start, end)
}
}
#[derive(Clone, Debug)]
pub struct QualifiedPathRoot {
pub ty: Box<Ty>,
pub as_trait: Option<(AsToken, Box<PathType>)>,
}
impl Parse for PathType {
fn parse(parser: &mut Parser) -> ParseResult<PathType> {
let root_opt = match parser.take() {
Some(open_angle_bracket_token) => {
let qualified_path_root = parser.parse()?;
let close_angle_bracket_token = parser.parse()?;
let angle_brackets = AngleBrackets {
open_angle_bracket_token,
inner: qualified_path_root,
close_angle_bracket_token,
};
let double_colon_token = parser.parse()?;
Some((Some(angle_brackets), double_colon_token))
}
None => parser
.take()
.map(|double_colon_token| (None, double_colon_token)),
};
let prefix = parser.parse()?;
let mut suffix = Vec::new();
while let Some(double_colon_token) = parser.take() {
let segment = parser.parse()?;
suffix.push((double_colon_token, segment));
}
Ok(PathType {
root_opt,
prefix,
suffix,
})
}
}
impl Parse for PathTypeSegment {
fn parse(parser: &mut Parser) -> ParseResult<PathTypeSegment> {
let fully_qualified = parser.take();
let name = parser.parse()?;
let generics_opt = if parser.peek::<OpenAngleBracketToken>().is_some() {
let generics = parser.parse()?;
Some((None, generics))
} else if parser
.peek2::<DoubleColonToken, OpenAngleBracketToken>()
.is_some()
{
let double_colon_token = parser.parse()?;
let generics = parser.parse()?;
Some((Some(double_colon_token), generics))
} else {
None
};
Ok(PathTypeSegment {
fully_qualified,
name,
generics_opt,
})
}
}
impl Parse for QualifiedPathRoot {
fn parse(parser: &mut Parser) -> ParseResult<QualifiedPathRoot> {
let ty = parser.parse()?;
let as_trait = match parser.take() {
Some(as_token) => {
let path_type = parser.parse()?;
Some((as_token, path_type))
}
None => None,
};
Ok(QualifiedPathRoot { ty, as_trait })
}
}