rust/crates/ra_syntax/src/ast/extensions.rs

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//! Various extension methods to ast Nodes, which are hard to code-generate.
//! Extensions for various expressions live in a sibling `expr_extensions` module.
use itertools::Itertools;
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use ra_parser::SyntaxKind;
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use crate::{
ast::{
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self, child_opt, children, support, AstNode, AstToken, AttrInput, NameOwner, SyntaxNode,
},
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SmolStr, SyntaxElement, SyntaxToken, T,
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};
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impl ast::Name {
pub fn text(&self) -> &SmolStr {
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text_of_first_token(self.syntax())
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}
}
impl ast::NameRef {
pub fn text(&self) -> &SmolStr {
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text_of_first_token(self.syntax())
}
pub fn as_tuple_field(&self) -> Option<usize> {
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if let Some(ast::NameRefToken::IntNumber(token)) = self.name_ref_token() {
token.text().as_str().parse().ok()
} else {
None
}
}
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}
fn text_of_first_token(node: &SyntaxNode) -> &SmolStr {
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node.green().children().next().and_then(|it| it.into_token()).unwrap().text()
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}
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#[derive(Debug, Clone, PartialEq, Eq)]
pub enum AttrKind {
Inner,
Outer,
}
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impl ast::Attr {
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pub fn as_simple_atom(&self) -> Option<SmolStr> {
match self.input() {
None => self.simple_name(),
Some(_) => None,
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}
}
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pub fn as_simple_call(&self) -> Option<(SmolStr, ast::TokenTree)> {
match self.input() {
Some(AttrInput::TokenTree(tt)) => Some((self.simple_name()?, tt)),
_ => None,
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}
}
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pub fn as_simple_key_value(&self) -> Option<(SmolStr, SmolStr)> {
match self.input() {
Some(AttrInput::Literal(lit)) => {
let key = self.simple_name()?;
// FIXME: escape? raw string?
let value = lit.syntax().first_token()?.text().trim_matches('"').into();
Some((key, value))
}
_ => None,
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}
}
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pub fn simple_name(&self) -> Option<SmolStr> {
let path = self.path()?;
match (path.segment(), path.qualifier()) {
(Some(segment), None) => Some(segment.syntax().first_token()?.text().clone()),
_ => None,
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}
}
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pub fn kind(&self) -> AttrKind {
let first_token = self.syntax().first_token();
let first_token_kind = first_token.as_ref().map(SyntaxToken::kind);
let second_token_kind =
first_token.and_then(|token| token.next_token()).as_ref().map(SyntaxToken::kind);
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match (first_token_kind, second_token_kind) {
(Some(SyntaxKind::POUND), Some(SyntaxKind::EXCL)) => AttrKind::Inner,
_ => AttrKind::Outer,
}
}
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}
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#[derive(Debug, Clone, PartialEq, Eq)]
pub enum PathSegmentKind {
Name(ast::NameRef),
Type { type_ref: Option<ast::TypeRef>, trait_ref: Option<ast::PathType> },
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SelfKw,
SuperKw,
CrateKw,
}
impl ast::PathSegment {
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pub fn parent_path(&self) -> ast::Path {
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self.syntax()
.parent()
.and_then(ast::Path::cast)
.expect("segments are always nested in paths")
}
pub fn kind(&self) -> Option<PathSegmentKind> {
let res = if let Some(name_ref) = self.name_ref() {
PathSegmentKind::Name(name_ref)
} else {
match self.syntax().first_child_or_token()?.kind() {
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T![self] => PathSegmentKind::SelfKw,
T![super] => PathSegmentKind::SuperKw,
T![crate] => PathSegmentKind::CrateKw,
T![<] => {
// <T> or <T as Trait>
// T is any TypeRef, Trait has to be a PathType
let mut type_refs =
self.syntax().children().filter(|node| ast::TypeRef::can_cast(node.kind()));
let type_ref = type_refs.next().and_then(ast::TypeRef::cast);
let trait_ref = type_refs.next().and_then(ast::PathType::cast);
PathSegmentKind::Type { type_ref, trait_ref }
}
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_ => return None,
}
};
Some(res)
}
}
impl ast::Path {
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pub fn parent_path(&self) -> Option<ast::Path> {
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self.syntax().parent().and_then(ast::Path::cast)
}
}
impl ast::Module {
pub fn has_semi(&self) -> bool {
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self.semi().is_some()
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}
}
impl ast::UseTreeList {
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pub fn parent_use_tree(&self) -> ast::UseTree {
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self.syntax()
.parent()
.and_then(ast::UseTree::cast)
.expect("UseTreeLists are always nested in UseTrees")
}
}
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impl ast::ImplDef {
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pub fn target_type(&self) -> Option<ast::TypeRef> {
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match self.target() {
(Some(t), None) | (_, Some(t)) => Some(t),
_ => None,
}
}
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pub fn target_trait(&self) -> Option<ast::TypeRef> {
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match self.target() {
(Some(t), Some(_)) => Some(t),
_ => None,
}
}
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fn target(&self) -> (Option<ast::TypeRef>, Option<ast::TypeRef>) {
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let mut types = children(self);
let first = types.next();
let second = types.next();
(first, second)
}
pub fn is_negative(&self) -> bool {
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self.excl().is_some()
}
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}
#[derive(Debug, Clone, PartialEq, Eq)]
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pub enum StructKind {
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Record(ast::RecordFieldDefList),
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Tuple(ast::TupleFieldDefList),
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Unit,
}
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impl StructKind {
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fn from_node<N: AstNode>(node: &N) -> StructKind {
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if let Some(nfdl) = child_opt::<_, ast::RecordFieldDefList>(node) {
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StructKind::Record(nfdl)
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} else if let Some(pfl) = child_opt::<_, ast::TupleFieldDefList>(node) {
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StructKind::Tuple(pfl)
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} else {
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StructKind::Unit
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}
}
}
impl ast::StructDef {
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pub fn kind(&self) -> StructKind {
StructKind::from_node(self)
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}
}
impl ast::EnumVariant {
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pub fn parent_enum(&self) -> ast::EnumDef {
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self.syntax()
.parent()
.and_then(|it| it.parent())
.and_then(ast::EnumDef::cast)
.expect("EnumVariants are always nested in Enums")
}
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pub fn kind(&self) -> StructKind {
StructKind::from_node(self)
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}
}
impl ast::FnDef {
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pub fn semicolon_token(&self) -> Option<SyntaxToken> {
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Some(self.semi()?.syntax().clone())
}
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pub fn is_async(&self) -> bool {
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self.async_kw().is_some()
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}
}
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impl ast::LetStmt {
pub fn has_semi(&self) -> bool {
match self.syntax().last_child_or_token() {
None => false,
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Some(node) => node.kind() == T![;],
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}
}
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pub fn eq_token(&self) -> Option<SyntaxToken> {
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Some(self.eq()?.syntax().clone())
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}
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}
impl ast::ExprStmt {
pub fn has_semi(&self) -> bool {
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self.semi().is_some()
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}
}
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#[derive(Debug, Clone, PartialEq, Eq)]
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pub enum FieldKind {
Name(ast::NameRef),
Index(SyntaxToken),
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}
impl ast::FieldExpr {
pub fn index_token(&self) -> Option<SyntaxToken> {
self.syntax
.children_with_tokens()
// FIXME: Accepting floats here to reject them in validation later
.find(|c| c.kind() == SyntaxKind::INT_NUMBER || c.kind() == SyntaxKind::FLOAT_NUMBER)
.as_ref()
.and_then(SyntaxElement::as_token)
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.cloned()
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}
pub fn field_access(&self) -> Option<FieldKind> {
if let Some(nr) = self.name_ref() {
Some(FieldKind::Name(nr))
} else if let Some(tok) = self.index_token() {
Some(FieldKind::Index(tok))
} else {
None
}
}
}
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impl ast::RefPat {
pub fn is_mut(&self) -> bool {
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self.syntax().children_with_tokens().any(|n| n.kind() == T![mut])
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}
}
impl ast::BindPat {
pub fn is_mutable(&self) -> bool {
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self.syntax().children_with_tokens().any(|n| n.kind() == T![mut])
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}
pub fn is_ref(&self) -> bool {
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self.syntax().children_with_tokens().any(|n| n.kind() == T![ref])
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}
pub fn has_at(&self) -> bool {
self.syntax().children_with_tokens().any(|it| it.kind() == T![@])
}
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}
pub struct SlicePatComponents {
pub prefix: Vec<ast::Pat>,
pub slice: Option<ast::Pat>,
pub suffix: Vec<ast::Pat>,
}
impl ast::SlicePat {
pub fn components(&self) -> SlicePatComponents {
let mut args = self.args().peekable();
let prefix = args
.peeking_take_while(|p| match p {
ast::Pat::DotDotPat(_) => false,
ast::Pat::BindPat(bp) => match bp.pat() {
Some(ast::Pat::DotDotPat(_)) => false,
_ => true,
},
ast::Pat::RefPat(rp) => match rp.pat() {
Some(ast::Pat::DotDotPat(_)) => false,
Some(ast::Pat::BindPat(bp)) => match bp.pat() {
Some(ast::Pat::DotDotPat(_)) => false,
_ => true,
},
_ => true,
},
_ => true,
})
.collect();
let slice = args.next();
let suffix = args.collect();
SlicePatComponents { prefix, slice, suffix }
}
}
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impl ast::PointerType {
pub fn is_mut(&self) -> bool {
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self.syntax().children_with_tokens().any(|n| n.kind() == T![mut])
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}
}
impl ast::ReferenceType {
pub fn is_mut(&self) -> bool {
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self.syntax().children_with_tokens().any(|n| n.kind() == T![mut])
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}
}
#[derive(Copy, Clone, Debug, PartialEq, Eq, Hash)]
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pub enum SelfParamKind {
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/// self
Owned,
/// &self
Ref,
/// &mut self
MutRef,
}
impl ast::SelfParam {
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pub fn kind(&self) -> SelfParamKind {
if self.amp().is_some() {
if self.amp_mut_kw().is_some() {
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SelfParamKind::MutRef
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} else {
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SelfParamKind::Ref
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}
} else {
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SelfParamKind::Owned
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}
}
/// the "mut" in "mut self", not the one in "&mut self"
pub fn mut_kw(&self) -> Option<ast::MutKw> {
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self.syntax()
.children_with_tokens()
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.filter_map(|it| it.into_token())
.take_while(|it| it.kind() != T![&])
.find_map(ast::MutKw::cast)
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}
/// the "mut" in "&mut self", not the one in "mut self"
pub fn amp_mut_kw(&self) -> Option<ast::MutKw> {
self.syntax()
.children_with_tokens()
.filter_map(|it| it.into_token())
.skip_while(|it| it.kind() != T![&])
.find_map(ast::MutKw::cast)
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}
}
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#[derive(Clone, Debug, PartialEq, Eq, Hash)]
pub enum TypeBoundKind {
/// Trait
PathType(ast::PathType),
/// for<'a> ...
ForType(ast::ForType),
/// 'a
Lifetime(ast::Lifetime),
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}
impl ast::TypeBound {
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pub fn kind(&self) -> TypeBoundKind {
if let Some(path_type) = children(self).next() {
TypeBoundKind::PathType(path_type)
} else if let Some(for_type) = children(self).next() {
TypeBoundKind::ForType(for_type)
} else if let Some(lifetime) = self.lifetime() {
TypeBoundKind::Lifetime(lifetime)
} else {
unreachable!()
}
}
pub fn has_question_mark(&self) -> bool {
self.question().is_some()
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}
pub fn const_question(&self) -> Option<ast::Question> {
self.syntax()
.children_with_tokens()
.filter_map(|it| it.into_token())
.take_while(|it| it.kind() != T![const])
.find_map(ast::Question::cast)
}
pub fn question(&self) -> Option<ast::Question> {
if self.const_kw().is_some() {
self.syntax()
.children_with_tokens()
.filter_map(|it| it.into_token())
.skip_while(|it| it.kind() != T![const])
.find_map(ast::Question::cast)
} else {
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support::token(&self.syntax)
}
}
}
impl ast::TraitDef {
pub fn is_auto(&self) -> bool {
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self.syntax().children_with_tokens().any(|t| t.kind() == T![auto])
}
}
pub enum VisibilityKind {
In(ast::Path),
PubCrate,
PubSuper,
PubSelf,
Pub,
}
impl ast::Visibility {
pub fn kind(&self) -> VisibilityKind {
if let Some(path) = children(self).next() {
VisibilityKind::In(path)
} else if self.is_pub_crate() {
VisibilityKind::PubCrate
} else if self.is_pub_super() {
VisibilityKind::PubSuper
} else if self.is_pub_self() {
VisibilityKind::PubSuper
} else {
VisibilityKind::Pub
}
}
fn is_pub_crate(&self) -> bool {
self.syntax().children_with_tokens().any(|it| it.kind() == T![crate])
}
fn is_pub_super(&self) -> bool {
self.syntax().children_with_tokens().any(|it| it.kind() == T![super])
}
fn is_pub_self(&self) -> bool {
self.syntax().children_with_tokens().any(|it| it.kind() == T![self])
}
}
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impl ast::MacroCall {
pub fn is_macro_rules(&self) -> Option<ast::Name> {
let name_ref = self.path()?.segment()?.name_ref()?;
if name_ref.text() == "macro_rules" {
self.name()
} else {
None
}
}
}
impl ast::LifetimeParam {
pub fn lifetime_bounds(&self) -> impl Iterator<Item = ast::Lifetime> {
self.syntax()
.children_with_tokens()
.filter_map(|it| it.into_token())
.skip_while(|x| x.kind() != T![:])
.filter_map(ast::Lifetime::cast)
}
}
impl ast::RangePat {
pub fn start(&self) -> Option<ast::Pat> {
self.syntax()
.children_with_tokens()
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.take_while(|it| !ast::RangeSeparator::can_cast(it.kind()))
.filter_map(|it| it.into_node())
.find_map(ast::Pat::cast)
}
pub fn end(&self) -> Option<ast::Pat> {
self.syntax()
.children_with_tokens()
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.skip_while(|it| !ast::RangeSeparator::can_cast(it.kind()))
.filter_map(|it| it.into_node())
.find_map(ast::Pat::cast)
}
}
impl ast::TokenTree {
pub fn left_delimiter(&self) -> Option<ast::LeftDelimiter> {
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self.syntax().first_child_or_token()?.into_token().and_then(ast::LeftDelimiter::cast)
}
pub fn right_delimiter(&self) -> Option<ast::RightDelimiter> {
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self.syntax().last_child_or_token()?.into_token().and_then(ast::RightDelimiter::cast)
}
}