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use crate::{Parse, ParseResult, Parser};
use sway_ast::keywords::{DoubleColonToken, OpenAngleBracketToken, SelfToken, StorageToken};
use sway_ast::{
AngleBrackets, PathExpr, PathExprSegment, PathType, PathTypeSegment, QualifiedPathRoot,
};
use sway_types::{Ident, Spanned};
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<(DoubleColonToken, PathExprSegment)> = Vec::new();
let mut incomplete_suffix = false;
while let Some(double_colon_token) = parser.take() {
if let Ok(segment) = parser.parse() {
suffix.push((double_colon_token, segment));
} else {
incomplete_suffix = true;
let dummy_path_expr_segment = PathExprSegment {
name: Ident::new(double_colon_token.span()),
generics_opt: None,
};
suffix.push((double_colon_token, dummy_path_expr_segment));
break;
}
}
Ok(PathExpr {
root_opt,
prefix,
suffix,
incomplete_suffix,
})
}
}
fn parse_ident(parser: &mut Parser) -> ParseResult<Ident> {
if let Some(token) = parser.take::<StorageToken>() {
Ok(Ident::from(token))
} else if let Some(token) = parser.take::<SelfToken>() {
Ok(Ident::from(token))
} else {
parser.parse::<Ident>()
}
}
impl Parse for PathExprSegment {
fn parse(parser: &mut Parser) -> ParseResult<PathExprSegment> {
Ok(PathExprSegment {
name: parse_ident(parser)?,
generics_opt: parser.guarded_parse::<(DoubleColonToken, OpenAngleBracketToken), _>()?,
})
}
}
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 name = parse_ident(parser)?;
let generics_opt =
if let Some(generics) = parser.guarded_parse::<OpenAngleBracketToken, _>()? {
Some((None, generics))
} else if let Some((double_colon_token, generics)) =
parser.guarded_parse::<(DoubleColonToken, OpenAngleBracketToken), _>()?
{
Some((Some(double_colon_token), generics))
} else {
None
};
Ok(PathTypeSegment { 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) => Some((as_token, parser.parse()?)),
None => None,
};
Ok(QualifiedPathRoot { ty, as_trait })
}
}