diff --git a/crates/metaslang/cst/src/query/engine.rs b/crates/metaslang/cst/src/query/engine.rs index 34a2d7760..e4dbebbdf 100644 --- a/crates/metaslang/cst/src/query/engine.rs +++ b/crates/metaslang/cst/src/query/engine.rs @@ -83,27 +83,63 @@ impl ASTNode { } } - fn create_matcher(&self, cursor: Cursor, needs_actual_match: bool) -> MatcherRef { + // The `require_explicit_match` parameter modifies the behaviour of this and + // later matchers. If this value is true, this and later matchers should not + // match sibling nodes implicitly. + // Currently this only modifies the behaviour of the ellipsis matcher, which + // otherwise will attempt to consume any number of sibling nodes. + // In a sequence of matchers, this value is set to true by the ellipsis + // operator itself, to consume all available sibling nodes and prevent later + // ellipsis matchers from doing so. + // Conversely, it's set to false by the `NodeMatcher`, both when recursing + // into its children and for later matchers after itself, as it handles an + // explicit match requested by the user. + // All other matchers should propagate the received value forward. + // + // The whole point of propagating this flag is to prevent a weird + // interaction between ellipsis operators working on the same set of sibling + // nodes. While two consecutive ellipsis operators should never happen, we + // have the `OptionalMatcher` which will not consume any nodes in the nil + // case. This means that `... [_]? ...` will effectively work (in one case) + // as `... ...`. If we allow both ellipsis operators to consume any number + // of nodes, for a sequence of N nodes we get N+1 identical query results + // when the operators take turns matching each prefix and complementary + // suffix of the list of nodes. By only allowing the first ellipsis operator + // to consume an arbitrary number of nodes, we reduce the returned matches + // to a single one. + // + fn create_matcher(&self, cursor: Cursor, require_explicit_match: bool) -> MatcherRef { match self { - Self::Capture(matcher) => { - Box::new(CaptureMatcher::::new(Rc::clone(matcher), cursor, needs_actual_match)) - } + Self::Capture(matcher) => Box::new(CaptureMatcher::::new( + Rc::clone(matcher), + cursor, + require_explicit_match, + )), Self::NodeMatch(matcher) => { - Box::new(NodeMatchMatcher::::new(Rc::clone(matcher), cursor, needs_actual_match)) - } - Self::Sequence(matcher) => { - Box::new(SequenceMatcher::::new(Rc::clone(matcher), cursor, needs_actual_match)) - } - Self::Alternatives(matcher) => { - Box::new(AlternativesMatcher::::new(Rc::clone(matcher), cursor, needs_actual_match)) + // By definition this matcher matches nodes explicitly + Box::new(NodeMatchMatcher::::new(Rc::clone(matcher), cursor)) } - Self::Optional(matcher) => { - Box::new(OptionalMatcher::::new(Rc::clone(matcher), cursor, needs_actual_match)) - } - Self::OneOrMore(matcher) => { - Box::new(OneOrMoreMatcher::::new(Rc::clone(matcher), cursor, needs_actual_match)) - } - Self::Anchor => Box::new(AnchorMatcher::::new(cursor, needs_actual_match)), + Self::Sequence(matcher) => Box::new(SequenceMatcher::::new( + Rc::clone(matcher), + cursor, + require_explicit_match, + )), + Self::Alternatives(matcher) => Box::new(AlternativesMatcher::::new( + Rc::clone(matcher), + cursor, + require_explicit_match, + )), + Self::Optional(matcher) => Box::new(OptionalMatcher::::new( + Rc::clone(matcher), + cursor, + require_explicit_match, + )), + Self::OneOrMore(matcher) => Box::new(OneOrMoreMatcher::::new( + Rc::clone(matcher), + cursor, + require_explicit_match, + )), + Self::Anchor => Box::new(AnchorMatcher::::new(cursor, require_explicit_match)), } } } @@ -112,7 +148,7 @@ pub struct QueryMatch { pub queries: Rc>>, pub query_number: usize, pub root_cursor: Cursor, - // These correspond to the capture definitions in tne query + // These correspond to the capture definitions in the query pub captures: BTreeMap>>, } @@ -179,6 +215,7 @@ impl QueryMatchIterator { while self.query_number < self.queries.len() { let ast_node = &self.queries[self.query_number].ast_node; if ast_node.can_match(&self.cursor) { + // The first matcher in the query should allow implicit matches self.matcher = Some(ast_node.create_matcher(self.cursor.clone(), false)); return; }; @@ -216,19 +253,28 @@ impl Iterator for QueryMatchIterator { } } +#[derive(Clone)] +struct MatcherResult { + // if cursor.is_completed() -> end of input + // if !cursor.is_completed() -> there is more input to go + cursor: Cursor, + + // Controls whether next matchers can match nodes implicitly. For matchers + // applied on a sequence of sibling nodes, this will be: + // - initially false, allowing the first found ellipsis matcher to consume + // an arbitrary number of nodes + // - true after the execution of an ellipsis, thus preventing later ellipsis + // from consuming nodes + // - propagated forward by other matchers, until + // - an actual `NodeMatcher` successfully matches a node, which then flips + // this value back to false + require_explicit_match: bool, +} + trait Matcher { // None -> failed to match, you must backtrack. DO NOT call again - // Some(cursor, needs_actual_match) if cursor.is_complete -> matched, end of input - // Some(cursor, needs_actual_match) if !cursor.is_complete -> matched, more input to go - // - // needs_actual_match indicates if we can skip further nodes (eg. with an - // ellipsis). If true, this is used to indicate that there already is an - // adjacent ellipsis operator that can skip over nodes. Further matchers - // need to either nil-match, ie. match without consuming any nodes and - // forwarding this flag, or match an actual node with a NodeMatcher. This is - // to resolve the interaction between two adjacent (although maybe not - // strictly consecutive) ellipsis matchers. - fn next(&mut self) -> Option<(Cursor, bool)>; + // Some(result) -> matched, check result.cursor and pass require_explicit_match forward + fn next(&mut self) -> Option>; fn record_captures(&self, captures: &mut BTreeMap>>); } type MatcherRef = Box>; @@ -241,7 +287,9 @@ struct CaptureMatcher { impl CaptureMatcher { fn new(matcher: Rc>, cursor: Cursor, needs_actual_match: bool) -> Self { - let child = matcher.child.create_matcher(cursor.clone(), needs_actual_match); + let child = matcher + .child + .create_matcher(cursor.clone(), needs_actual_match); Self { matcher, cursor, @@ -251,7 +299,7 @@ impl CaptureMatcher { } impl Matcher for CaptureMatcher { - fn next(&mut self) -> Option<(Cursor, bool)> { + fn next(&mut self) -> Option> { self.child.next() } @@ -272,9 +320,7 @@ struct NodeMatchMatcher { } impl NodeMatchMatcher { - fn new(matcher: Rc>, cursor: Cursor, _needs_actual_match: bool) -> Self { - // is this matcher succeeds it will always return an actual match, so we - // can ignore the argument + fn new(matcher: Rc>, cursor: Cursor) -> Self { Self { matcher, child: None, @@ -285,7 +331,7 @@ impl NodeMatchMatcher { } impl Matcher for NodeMatchMatcher { - fn next(&mut self) -> Option<(Cursor, bool)> { + fn next(&mut self) -> Option> { if self.cursor.is_completed() { return None; } @@ -303,30 +349,39 @@ impl Matcher for NodeMatchMatcher { if let Some(child) = self.matcher.child.as_ref() { let mut child_cursor = self.cursor.clone(); if !child_cursor.go_to_first_child() { - // have child matchers, but no children + // We have child matchers, but no children. return None; } + // Start traversing the children nodes allowing an ellipsis + // operator to match implicitly. self.child = Some(child.create_matcher(child_cursor, false)); } else { - // no child matchers + // We have no child matchers, we can return the result now. let mut return_cursor = self.cursor.clone(); return_cursor.irrevocably_go_to_next_sibling(); - return Some((return_cursor, false)); + return Some(MatcherResult { + cursor: return_cursor, + require_explicit_match: false, + }); } } if let Some(child) = self.child.as_mut() { - // get matches from the child matcher - while let Some((cursor, _)) = child.as_mut().next() { + // Match our children with the child matcher repeatedly. + while let Some(MatcherResult { cursor, .. }) = child.as_mut().next() { if cursor.is_completed() { - // and if found and complete, return the match *from our own cursor* + // If match found and exhausted our children list, return + // the match *from our own cursor* let mut return_cursor = self.cursor.clone(); return_cursor.irrevocably_go_to_next_sibling(); - return Some((return_cursor, false)); + return Some(MatcherResult { + cursor: return_cursor, + require_explicit_match: false, + }); } } - // reset the child matcher if it cannot find more matches + // No more matches from the child matcher, we will backtrack at this point. self.child = None; } @@ -351,17 +406,20 @@ struct SequenceMatcher { cursor: Cursor, is_initialised: bool, template: Vec, - needs_actual_match: bool, + require_explicit_match: bool, } impl SequenceMatcher { - fn new(matcher: Rc>, cursor: Cursor, needs_actual_match: bool) -> Self { + fn new( + matcher: Rc>, + cursor: Cursor, + require_explicit_match: bool, + ) -> Self { // Produce a template of instructions to create the matchers for the // sequence by inserting ellipsis matchers at the start, end, and in - // between each of the child matchers, unless it's explicitly disabled - // by an anchor token. + // between each of the child matchers, unless we find an anchor token. // If the sequence is anchored (eg. option in alt or quantified - // group sequence) then the starting and ending anchors are implicit. + // group sequence) then we should not add matchers at the edges. let (mut template, last_anchor) = matcher.children.iter().enumerate().fold( (Vec::new(), matcher.anchored), |(mut acc, last_anchor), (index, child)| { @@ -389,39 +447,54 @@ impl SequenceMatcher { cursor, is_initialised: false, template, - needs_actual_match, + require_explicit_match, } } - fn create_matcher(&self, index: usize, cursor: Cursor, needs_actual_match: bool) -> MatcherRef { + fn create_matcher( + &self, + index: usize, + cursor: Cursor, + require_explicit_match: bool, + ) -> MatcherRef { let item = &self.template[index]; match item { - SequenceItem::Ellipsis => Box::new(EllipsisMatcher::new(cursor, needs_actual_match)), + SequenceItem::Ellipsis => { + Box::new(EllipsisMatcher::new(cursor, require_explicit_match)) + } SequenceItem::ChildMatcher(index) => { - self.matcher.children[*index].create_matcher(cursor, needs_actual_match) + self.matcher.children[*index].create_matcher(cursor, require_explicit_match) } } } } impl Matcher for SequenceMatcher { - fn next(&mut self) -> Option<(Cursor, bool)> { + fn next(&mut self) -> Option> { if !self.is_initialised { self.is_initialised = true; let child_cursor = self.cursor.clone(); - let child = self.create_matcher(0, child_cursor, self.needs_actual_match); + let child = self.create_matcher(0, child_cursor, self.require_explicit_match); self.children.push(child); } while !self.children.is_empty() { - if let Some((child_cursor, child_needs_match)) = self.children.last_mut().unwrap().next() { + if let Some(child_matcher_result) = self.children.last_mut().unwrap().next() { if self.children.len() == self.template.len() { - return Some((child_cursor, child_needs_match)); + // Last child, return its result as our own + return Some(child_matcher_result); } - let child = self.create_matcher(self.children.len(), child_cursor, child_needs_match); + // Create the next child matcher propagating the + // `require_explicit_match` flag forward. + let child = self.create_matcher( + self.children.len(), + child_matcher_result.cursor, + child_matcher_result.require_explicit_match, + ); self.children.push(child); } else { + // Backtrack self.children.pop(); } } @@ -441,28 +514,35 @@ struct AlternativesMatcher { next_child_number: usize, child: Option>, cursor: Cursor, - needs_actual_match: bool, + require_explicit_match: bool, } impl AlternativesMatcher { - fn new(matcher: Rc>, cursor: Cursor, needs_actual_match: bool) -> Self { + fn new( + matcher: Rc>, + cursor: Cursor, + require_explicit_match: bool, + ) -> Self { Self { matcher, next_child_number: 0, child: None, cursor, - needs_actual_match, + require_explicit_match, } } } impl Matcher for AlternativesMatcher { - fn next(&mut self) -> Option<(Cursor, bool)> { + fn next(&mut self) -> Option> { loop { if self.child.is_none() { + // Create the next available child matcher forwarding the + // `require_explicit_match` flag, or give up if we have no more match self.matcher.children.get(self.next_child_number) { Some(child) => { - let child = child.create_matcher(self.cursor.clone(), self.needs_actual_match); + let child = + child.create_matcher(self.cursor.clone(), self.require_explicit_match); self.child = Some(child); self.next_child_number += 1; } @@ -471,7 +551,7 @@ impl Matcher for AlternativesMatcher { } match self.child.as_mut().unwrap().next() { - Some(cursor_and_needs_match) => return Some(cursor_and_needs_match), + Some(child_matcher_result) => return Some(child_matcher_result), None => self.child = None, } } @@ -487,42 +567,52 @@ struct OptionalMatcher { child: Option>, cursor: Cursor, have_nonempty_match: bool, - needs_actual_match: bool, + require_explicit_match: bool, } impl OptionalMatcher { - fn new(matcher: Rc>, cursor: Cursor, needs_actual_match: bool) -> Self { + fn new( + matcher: Rc>, + cursor: Cursor, + require_explicit_match: bool, + ) -> Self { Self { matcher, child: None, cursor, have_nonempty_match: false, - needs_actual_match, + require_explicit_match, } } } impl Matcher for OptionalMatcher { - fn next(&mut self) -> Option<(Cursor, bool)> { + fn next(&mut self) -> Option> { if let Some(child) = self.child.as_mut() { - // this is for the second entry, when we have a child matcher created - match child.next() { - Some((cursor, child_needs_match)) => { - self.have_nonempty_match = true; - Some((cursor, child_needs_match)) - } - None => { - self.child = None; - None - } + // Second visit, we have a child matcher created + if let Some(child_matcher_result) = child.next() { + self.have_nonempty_match = true; + Some(child_matcher_result) + } else { + self.child = None; + None } } else { - // we don't have a child matcher yet, so create it forwarding our needs_actual_match + // First visit, we don't have a child matcher yet, so create it + // forwarding our `require_explicit_match` flag let child_cursor = self.cursor.clone(); - let child = self.matcher.child.create_matcher(child_cursor, self.needs_actual_match); + let child = self + .matcher + .child + .create_matcher(child_cursor, self.require_explicit_match); self.child = Some(child); - // this is the return for the empty case, so we forward needs_actual_match - Some((self.cursor.clone(), self.needs_actual_match)) + + // Return a match result for the empty case, forwarding the + // `require_explicit_match` flag. + Some(MatcherResult { + cursor: self.cursor.clone(), + require_explicit_match: self.require_explicit_match, + }) } } @@ -538,36 +628,43 @@ impl Matcher for OptionalMatcher { struct OneOrMoreMatcher { matcher: Rc>, children: Vec>, - cursor_for_next_repetition: Option<(Cursor, bool)>, + result_for_next_repetition: Option>, } impl OneOrMoreMatcher { - fn new(matcher: Rc>, cursor: Cursor, needs_actual_match: bool) -> Self { - let cursor_for_next_repetition = Some((cursor, needs_actual_match)); + fn new( + matcher: Rc>, + cursor: Cursor, + require_explicit_match: bool, + ) -> Self { + let cursor_for_next_repetition = Some(MatcherResult { + cursor, + require_explicit_match, + }); Self { matcher, children: vec![], - cursor_for_next_repetition, + result_for_next_repetition: cursor_for_next_repetition, } } } impl Matcher for OneOrMoreMatcher { - fn next(&mut self) -> Option<(Cursor, bool)> { + fn next(&mut self) -> Option> { loop { - if let Some((cursor_for_next_repetition, needs_actual_match)) = self.cursor_for_next_repetition.take() { + if let Some(last_result) = self.result_for_next_repetition.take() { let next_child = self .matcher .child - .create_matcher(cursor_for_next_repetition, needs_actual_match); + .create_matcher(last_result.cursor, last_result.require_explicit_match); self.children.push(next_child); } else { let tail = self.children.last_mut().unwrap(); - if let Some((cursor, child_needs_match)) = tail.next() { - if !cursor.is_completed() { - self.cursor_for_next_repetition = Some((cursor.clone(), child_needs_match)); + if let Some(child_matcher_result) = tail.next() { + if !child_matcher_result.cursor.is_completed() { + self.result_for_next_repetition = Some(child_matcher_result.clone()); } - return Some((cursor, child_needs_match)); + return Some(child_matcher_result); } self.children.pop(); if self.children.is_empty() { @@ -586,36 +683,48 @@ impl Matcher for OneOrMoreMatcher { /// Matches any number of sibling nodes and is used in between other matchers /// when matching sequences, unless an explicit anchor is added. +/// If `require_explicit_match` is true, then this matcher can only return a +/// result for the empty case. This usually means that in the same sequence of +/// siblings we found a previous ellipsis matcher which will be able to consume +/// an arbitrary number of nodes. Then, the value is false if this is the first +/// `EllipsisMatcher` in a sibling list, or there was an explicit match (by a +/// `NodeMatcher`) in a previous matcher of the sequence. struct EllipsisMatcher { cursor: Cursor, has_returned_initial_empty_value: bool, - needs_actual_match: bool, + require_explicit_match: bool, } impl EllipsisMatcher { - fn new(cursor: Cursor, needs_actual_match: bool) -> Self { + fn new(cursor: Cursor, require_explicit_match: bool) -> Self { Self { cursor, has_returned_initial_empty_value: false, - needs_actual_match, + require_explicit_match, } } } impl Matcher for EllipsisMatcher { - fn next(&mut self) -> Option<(Cursor, bool)> { + fn next(&mut self) -> Option> { + // First visit, we always return a match for empty case if !self.has_returned_initial_empty_value { self.has_returned_initial_empty_value = true; - // we will be consuming nodes, so we need a later matcher to avoid that and return an actual match - return Some((self.cursor.clone(), true)); + // We need later matchers to avoid consuming nodes + return Some(MatcherResult { + cursor: self.cursor.clone(), + require_explicit_match: true, + }); } - // we only consume nodes we don't need an actual match, ie. if this is - // the *first* adjacent ellipsis operator; if there is another one - // before us, it will be consuming an arbitrary sequence of nodes - if !self.needs_actual_match && self.cursor.irrevocably_go_to_next_sibling() { - // we are consuming nodes, so we need a later matcher to avoid that and return an actual match - return Some((self.cursor.clone(), true)); + // Subsequent visits: we only consume nodes if an explicit match is not + // required, ie. if this is the *first* ellipsis operator in a sibling + // sequence or there was an explicit match before us. + if !self.require_explicit_match && self.cursor.irrevocably_go_to_next_sibling() { + return Some(MatcherResult { + cursor: self.cursor.clone(), + require_explicit_match: true, + }); } None @@ -627,25 +736,28 @@ impl Matcher for EllipsisMatcher { /// Greedily consumes all available trivia nodes struct AnchorMatcher { cursor: Option>, - needs_actual_match: bool, + require_explicit_match: bool, } impl AnchorMatcher { - fn new(cursor: Cursor, needs_actual_match: bool) -> Self { + fn new(cursor: Cursor, require_explicit_match: bool) -> Self { Self { cursor: Some(cursor), - needs_actual_match, + require_explicit_match, } } } impl Matcher for AnchorMatcher { - fn next(&mut self) -> Option<(Cursor, bool)> { + fn next(&mut self) -> Option> { if let Some(mut cursor) = self.cursor.take() { while !cursor.is_completed() && cursor.node().is_trivia() { cursor.irrevocably_go_to_next_sibling(); } - Some((cursor, self.needs_actual_match)) + Some(MatcherResult { + cursor, + require_explicit_match: self.require_explicit_match, + }) } else { None } diff --git a/crates/solidity/outputs/cargo/tests/src/doc_examples/tree_query_language.rs b/crates/solidity/outputs/cargo/tests/src/doc_examples/tree_query_language.rs index 119b2743a..236f3f716 100644 --- a/crates/solidity/outputs/cargo/tests/src/doc_examples/tree_query_language.rs +++ b/crates/solidity/outputs/cargo/tests/src/doc_examples/tree_query_language.rs @@ -208,7 +208,7 @@ fn quantification() { let matches: Vec<_> = iter.collect(); - matches[3].captures.get("arg").unwrap(); + matches[0].captures.get("arg").unwrap(); } #[test] diff --git a/crates/testlang/outputs/cargo/tests/src/query/engine_tests.rs b/crates/testlang/outputs/cargo/tests/src/query/engine_tests.rs index b8e7f59ba..01dbacd68 100644 --- a/crates/testlang/outputs/cargo/tests/src/query/engine_tests.rs +++ b/crates/testlang/outputs/cargo/tests/src/query/engine_tests.rs @@ -331,7 +331,7 @@ fn test_anchor_at_end_skips_trivia() { ); } -fn other_tree() -> Edge { +fn flat_tree() -> Edge { cst_tree!( TreeNode [ Node: DelimitedIdentifier "A", @@ -343,12 +343,10 @@ fn other_tree() -> Edge { ) } -// "[TreeNode ... @x [DelimitedIdentifier] ... (@y [DelimitedIdentifier] . @z [DelimitedIdentifier])? ...]" - #[test] -fn test_grouping_interaction_with_trivia() { +fn test_ellipsis_followed_by_optional_grouping() { run_query_test( - &other_tree(), + &flat_tree(), "[TreeNode @x [DelimitedIdentifier] (@y [DelimitedIdentifier] . @z [DelimitedIdentifier])?]", query_matches! { {x: ["A"], y: ["B"], z: ["C"]} @@ -362,12 +360,10 @@ fn test_grouping_interaction_with_trivia() { ); } -// "[TreeNode ... @x [DelimitedIdentifier] . (@y [DelimitedIdentifier] . @z [DelimitedIdentifier])? ...]", - #[test] -fn test_anchored_grouping_interaction_with_trivia() { +fn test_anchor_followed_by_optional_grouping() { run_query_test( - &other_tree(), + &flat_tree(), "[TreeNode @x [DelimitedIdentifier] . (@y [DelimitedIdentifier] . @z [DelimitedIdentifier])?]", query_matches! { {x: ["A"]} @@ -379,3 +375,121 @@ fn test_anchored_grouping_interaction_with_trivia() { }, ); } + +#[test] +fn test_captures_followed_by_non_captured_matchers() { + run_query_test( + &flat_tree(), + "[TreeNode @x [DelimitedIdentifier] [DelimitedIdentifier]]", + query_matches! { + {x: ["A"]} + {x: ["A"]} + {x: ["A"]} + {x: ["B"]} + {x: ["B"]} + {x: ["C"]} + }, + ); +} + +#[test] +fn test_captures_followed_by_anonymous_matchers() { + run_query_test( + &flat_tree(), + "[TreeNode @x [DelimitedIdentifier] [_]]", + query_matches! { + {x: ["A"]} + {x: ["A"]} + {x: ["A"]} + {x: ["A"]} // TODO: there is an extra case here for the whitespace, + // but eventually we want to ignore whitespace completely + {x: ["B"]} + {x: ["B"]} + {x: ["C"]} + }, + ); +} + +#[test] +fn test_captures_followed_by_non_captured_optional_matchers() { + run_query_test( + &flat_tree(), + "[TreeNode @x [DelimitedIdentifier] [DelimitedIdentifier]?]", + query_matches! { + {x: ["A"]} + {x: ["A"]} + {x: ["A"]} + {x: ["A"]} + {x: ["B"]} + {x: ["B"]} + {x: ["B"]} + {x: ["C"]} + {x: ["C"]} + {x: ["D"]} + }, + ); +} + +#[test] +fn test_captures_followed_by_captured_optional_matchers() { + run_query_test( + &flat_tree(), + "[TreeNode @x [DelimitedIdentifier] @y [DelimitedIdentifier]?]", + query_matches! { + {x: ["A"], y: ["B"]} + {x: ["A"], y: ["C"]} + {x: ["A"], y: ["D"]} + {x: ["A"]} + {x: ["B"], y: ["C"]} + {x: ["B"], y: ["D"]} + {x: ["B"]} + {x: ["C"], y: ["D"]} + {x: ["C"]} + {x: ["D"]} + }, + ); +} + +fn sample_deep_tree() -> Edge { + cst_tree!( + Tree [ + Keyword: TreeKeyword "tree", + Name: Identifier "$t1", + Node: TreeNode [ + OpenBracket "[", + Members: TreeNodeChildren [ + TreeNodeChild [ + Variant: DelimitedIdentifier "A", + ], + TreeNodeChild [ + Variant: TreeNode [ + OpenBracket "[", + Members: TreeNodeChildren [ + TreeNodeChild [ + Variant: DelimitedIdentifier "B" + ], + TreeNodeChild [ + Variant: DelimitedIdentifier "C" + ], + ], + CloseBracket "]", + ] + ] + ], + CloseBracket "]", + ], + Semicolon: Semicolon ";" + ] + ) +} + +#[test] +fn test_deeply_nested_matchers() { + run_query_test( + &sample_deep_tree(), + "@parent [TreeNode members: [TreeNodeChildren [TreeNodeChild @child variant: [TreeNode]]]]", + query_matches! { + {parent: ["[A[BC]]"], child: ["[BC]"]} + }, + ); +}