1 files changed, 156 insertions, 198 deletions
diff --git a/crates/ra_mbe/src/subtree_source.rs b/crates/ra_mbe/src/subtree_source.rs
index 4b37c2bda..6aa20057e 100644
--- a/crates/ra_mbe/src/subtree_source.rs
+++ b/crates/ra_mbe/src/subtree_source.rs
@@ -2,6 +2,64 @@ use ra_parser::{TokenSource};
 use ra_syntax::{classify_literal, SmolStr, SyntaxKind, SyntaxKind::*};
 use std::cell::{RefCell};
+// A Sequece of Token,
+#[derive(Debug, Clone, Eq, PartialEq)]
+pub(super) enum TokenSeq<'a> {
+    Subtree(&'a tt::Subtree),
+    Seq(&'a [tt::TokenTree]),
+}
+impl<'a> From<&'a tt::Subtree> for TokenSeq<'a> {
+    fn from(s: &'a tt::Subtree) -> TokenSeq<'a> {
+        TokenSeq::Subtree(s)
+    }
+}
+impl<'a> From<&'a [tt::TokenTree]> for TokenSeq<'a> {
+    fn from(s: &'a [tt::TokenTree]) -> TokenSeq<'a> {
+        TokenSeq::Seq(s)
+    }
+}
+enum DelimToken<'a> {
+    Delim(&'a tt::Delimiter, bool),
+    Token(&'a tt::TokenTree),
+    End,
+}
+impl<'a> TokenSeq<'a> {
+    fn get(&self, pos: usize) -> DelimToken<'a> {
+        match self {
+            TokenSeq::Subtree(subtree) => {
+                let len = subtree.token_trees.len() + 2;
+                match pos {
+                    p if p >= len => DelimToken::End,
+                    p if p == len - 1 => DelimToken::Delim(&subtree.delimiter, true),
+                    0 => DelimToken::Delim(&subtree.delimiter, false),
+                    p => DelimToken::Token(&subtree.token_trees[p - 1]),
+                }
+            }
+            TokenSeq::Seq(tokens) => {
+                tokens.get(pos).map(DelimToken::Token).unwrap_or(DelimToken::End)
+            }
+        }
+    }
+    fn len(&self) -> usize {
+        match self {
+            TokenSeq::Subtree(subtree) => subtree.token_trees.len() + 2,
+            TokenSeq::Seq(tokens) => tokens.len(),
+        }
+    }
+    fn child_slice(&self) -> &[tt::TokenTree] {
+        match self {
+            TokenSeq::Subtree(subtree) => &subtree.token_trees,
+            TokenSeq::Seq(tokens) => &tokens,
+        }
+    }
+}
 #[derive(Debug, Clone, Eq, PartialEq)]
 struct TtToken {
    pub kind: SyntaxKind,
@@ -12,29 +70,27 @@ struct TtToken {
 #[derive(Debug, Clone, Eq, PartialEq)]
 enum WalkCursor {
-    DelimiterBegin(Option<TtToken>),
+    Token(usize, TtToken),
-    Token(usize, Option<TtToken>),
-    DelimiterEnd(Option<TtToken>),
    Eof,
 }
 #[derive(Debug)]
 struct SubTreeWalker<'a> {
    pos: usize,
-    stack: Vec<(&'a tt::Subtree, Option<usize>)>,
+    stack: Vec<(TokenSeq<'a>, usize)>,
    cursor: WalkCursor,
    last_steps: Vec<usize>,
-    subtree: &'a tt::Subtree,
+    ts: TokenSeq<'a>,
 }
 impl<'a> SubTreeWalker<'a> {
-    fn new(subtree: &tt::Subtree) -> SubTreeWalker {
+    fn new(ts: TokenSeq<'a>) -> SubTreeWalker {
        let mut res = SubTreeWalker {
            pos: 0,
            stack: vec![],
            cursor: WalkCursor::Eof,
            last_steps: vec![],
-            subtree,
+            ts,
        };
        res.reset();
@@ -47,209 +103,106 @@ impl<'a> SubTreeWalker<'a> {
    fn reset(&mut self) {
        self.pos = 0;
-        self.stack = vec![(self.subtree, None)];
+        self.stack = vec![];
-        self.cursor = WalkCursor::DelimiterBegin(convert_delim(self.subtree.delimiter, false));
        self.last_steps = vec![];
-        while self.is_empty_delimiter() {
+        self.cursor = match self.ts.get(0) {
-            self.forward_unchecked();
+            DelimToken::Token(token) => match token {
-        }
+                tt::TokenTree::Subtree(subtree) => {
-    }
+                    WalkCursor::Token(0, convert_delim(subtree.delimiter, false))
+                }
-    // This funciton will fast forward the cursor,
+                tt::TokenTree::Leaf(leaf) => {
-    // Such that backward will stop at `start_pos` point
+                    let next_tokens = self.ts.child_slice();
-    fn start_from_nth(&mut self, start_pos: usize) {
+                    WalkCursor::Token(0, convert_leaf(&next_tokens, leaf))
-        self.reset();
+                }
-        self.pos = start_pos;
+            },
-        self.cursor = self.walk_token(start_pos, 0, false);
+            DelimToken::Delim(delim, is_end) => {
+                assert!(!is_end);
-        while self.is_empty_delimiter() {
+                WalkCursor::Token(0, convert_delim(*delim, false))
-            self.forward_unchecked();
+            }
+            DelimToken::End => WalkCursor::Eof,
        }
    }
    fn current(&self) -> Option<&TtToken> {
        match &self.cursor {
-            WalkCursor::DelimiterBegin(t) => t.as_ref(),
+            WalkCursor::Token(_, t) => Some(t),
-            WalkCursor::Token(_, t) => t.as_ref(),
-            WalkCursor::DelimiterEnd(t) => t.as_ref(),
            WalkCursor::Eof => None,
        }
    }
-    fn is_empty_delimiter(&self) -> bool {
+    fn top(&self) -> &TokenSeq {
-        match &self.cursor {
+        self.stack.last().map(|(t, _)| t).unwrap_or(&self.ts)
-            WalkCursor::DelimiterBegin(None) => true,
-            WalkCursor::DelimiterEnd(None) => true,
-            _ => false,
-        }
    }
-    /// Move cursor backward by 1 step with empty checking
+    /// Move cursor backward by 1 step
    fn backward(&mut self) {
        if self.last_steps.is_empty() {
            return;
        }
        self.pos -= 1;
-        loop {
+        let last_step = self.last_steps.pop().unwrap();
-            self.backward_unchecked();
-            // Skip Empty delimiter
-            if self.last_steps.is_empty() || !self.is_empty_delimiter() {
-                break;
-            }
-        }
-        // Move forward if it is empty delimiter
+        self.cursor = match self.cursor {
-        if self.last_steps.is_empty() {
+            WalkCursor::Token(idx, _) => self.walk_token(idx, last_step, true),
-            while self.is_empty_delimiter() {
+            WalkCursor::Eof => {
-                self.forward_unchecked();
+                let len = self.top().len();
+                self.walk_token(len, last_step, true)
            }
        }
    }
-    /// Move cursor backward by 1 step without empty check
+    /// Move cursor forward by 1 step        
-    ///
-    /// Depends on the current state of cursor:
-    ///
-    /// * Delimiter Begin => Pop the stack, goto last walking token  (`walk_token`)
-    /// * Token => Goto prev token  (`walk_token`)
-    /// * Delimiter End => Goto the last child token (`walk_token`)
-    /// * Eof => push the root subtree, and set it as Delimiter End
-    fn backward_unchecked(&mut self) {
-        if self.last_steps.is_empty() {
-            return;
-        }
-        let last_step = self.last_steps.pop().unwrap();
-        let do_walk_token = match self.cursor {
-            WalkCursor::DelimiterBegin(_) => None,
-            WalkCursor::Token(u, _) => Some(u),
-            WalkCursor::DelimiterEnd(_) => {
-                let (top, _) = self.stack.last().unwrap();
-                Some(top.token_trees.len())
-            }
-            WalkCursor::Eof => None,
-        };
-        self.cursor = match do_walk_token {
-            Some(u) => self.walk_token(u, last_step, true),
-            None => match self.cursor {
-                WalkCursor::Eof => {
-                    self.stack.push((self.subtree, None));
-                    WalkCursor::DelimiterEnd(convert_delim(
-                        self.stack.last().unwrap().0.delimiter,
-                        true,
-                    ))
-                }
-                _ => {
-                    let (_, last_top_cursor) = self.stack.pop().unwrap();
-                    assert!(!self.stack.is_empty());
-                    self.walk_token(last_top_cursor.unwrap(), last_step, true)
-                }
-            },
-        };
-    }
-    /// Move cursor forward by 1 step with empty checking
    fn forward(&mut self) {
        if self.is_eof() {
            return;
        }
        self.pos += 1;
-        loop {
-            self.forward_unchecked();
-            if !self.is_empty_delimiter() {
-                break;
-            }
-        }
-    }
-    /// Move cursor forward by 1 step without empty checking
-    ///
-    /// Depends on the current state of cursor:
-    ///
-    /// * Delimiter Begin => Goto the first child token (`walk_token`)
-    /// * Token => Goto next token  (`walk_token`)
-    /// * Delimiter End => Pop the stack, goto last walking token  (`walk_token`)
-    ///   
-    fn forward_unchecked(&mut self) {
-        if self.is_eof() {
-            return;
-        }
        let step = self.current().map(|x| x.n_tokens).unwrap_or(1);
        self.last_steps.push(step);
-        let do_walk_token = match self.cursor {
+        if let WalkCursor::Token(u, _) = self.cursor {
-            WalkCursor::DelimiterBegin(_) => Some((0, 0)),
+            self.cursor = self.walk_token(u, step, false)
-            WalkCursor::Token(u, _) => Some((u, step)),
+        }
-            WalkCursor::DelimiterEnd(_) => None,
-            _ => unreachable!(),
-        };
-        self.cursor = match do_walk_token {
-            Some((u, step)) => self.walk_token(u, step, false),
-            None => {
-                let (_, last_top_idx) = self.stack.pop().unwrap();
-                match self.stack.last() {
-                    Some(_) => self.walk_token(last_top_idx.unwrap(), 1, false),
-                    None => WalkCursor::Eof,
-                }
-            }
-        };
    }
    /// Traversal child token
-    /// Depends on the new position, it returns:
-    ///
-    /// * new position < 0 => DelimiterBegin
-    /// * new position > token_tree.len() => DelimiterEnd
-    /// * if new position is a subtree, depends on traversal direction:
-    /// ** backward => DelimiterEnd
-    /// ** forward => DelimiterBegin
-    /// * if new psoition is a leaf, return walk_leaf()
    fn walk_token(&mut self, pos: usize, offset: usize, backward: bool) -> WalkCursor {
-        let (top, _) = self.stack.last().unwrap();
+        let top = self.stack.last().map(|(t, _)| t).unwrap_or(&self.ts);
        if backward && pos < offset {
-            return WalkCursor::DelimiterBegin(convert_delim(
+            let (_, last_idx) = self.stack.pop().unwrap();
-                self.stack.last().unwrap().0.delimiter,
+            return self.walk_token(last_idx, offset, backward);
-                false,
-            ));
-        }
-        if !backward && pos + offset >= top.token_trees.len() {
-            return WalkCursor::DelimiterEnd(convert_delim(
-                self.stack.last().unwrap().0.delimiter,
-                true,
-            ));
        }
        let pos = if backward { pos - offset } else { pos + offset };
-        match &top.token_trees[pos] {
+        match top.get(pos) {
-            tt::TokenTree::Subtree(subtree) => {
+            DelimToken::Token(token) => match token {
-                self.stack.push((subtree, Some(pos)));
+                tt::TokenTree::Subtree(subtree) => {
-                let delim = convert_delim(self.stack.last().unwrap().0.delimiter, backward);
+                    let ts = TokenSeq::from(subtree);
-                if backward {
+                    let new_idx = if backward { ts.len() - 1 } else { 0 };
-                    WalkCursor::DelimiterEnd(delim)
+                    self.stack.push((ts, pos));
-                } else {
+                    WalkCursor::Token(new_idx, convert_delim(subtree.delimiter, backward))
-                    WalkCursor::DelimiterBegin(delim)
+                }
+                tt::TokenTree::Leaf(leaf) => {
+                    let next_tokens = top.child_slice();
+                    WalkCursor::Token(pos, convert_leaf(&next_tokens[pos..], leaf))
                }
+            },
+            DelimToken::Delim(delim, is_end) => {
+                WalkCursor::Token(pos, convert_delim(*delim, is_end))
            }
-            tt::TokenTree::Leaf(leaf) => WalkCursor::Token(pos, Some(self.walk_leaf(leaf, pos))),
+            DelimToken::End => {
-        }
+                // it is the top level
-    }
+                if let Some((_, last_idx)) = self.stack.pop() {
+                    assert!(!backward);
-    fn walk_leaf(&mut self, leaf: &tt::Leaf, pos: usize) -> TtToken {
+                    self.walk_token(last_idx, offset, backward)
-        match leaf {
+                } else {
-            tt::Leaf::Literal(l) => convert_literal(l),
+                    WalkCursor::Eof
-            tt::Leaf::Ident(ident) => convert_ident(ident),
+                }
-            tt::Leaf::Punct(punct) => {
-                let (top, _) = self.stack.last().unwrap();
-                convert_punct(punct, top, pos)
            }
        }
    }
@@ -263,27 +216,20 @@ pub(crate) trait Querier {
 #[derive(Debug)]
 pub(crate) struct WalkerOwner<'a> {
    walker: RefCell<SubTreeWalker<'a>>,
-    offset: usize,
 }
 impl<'a> WalkerOwner<'a> {
-    fn new(subtree: &'a tt::Subtree) -> Self {
+    fn new<I: Into<TokenSeq<'a>>>(ts: I) -> Self {
-        WalkerOwner { walker: RefCell::new(SubTreeWalker::new(subtree)), offset: 0 }
+        WalkerOwner { walker: RefCell::new(SubTreeWalker::new(ts.into())) }
    }
    fn get<'b>(&self, pos: usize) -> Option<TtToken> {
-        self.set_walker_pos(pos);
+        self.set_pos(pos);
        let walker = self.walker.borrow();
        walker.current().cloned()
    }
-    fn start_from_nth(&mut self, pos: usize) {
+    fn set_pos(&self, pos: usize) {
-        self.offset = pos;
-        self.walker.borrow_mut().start_from_nth(pos);
-    }
-    fn set_walker_pos(&self, mut pos: usize) {
-        pos += self.offset;
        let mut walker = self.walker.borrow_mut();
        while pos > walker.pos && !walker.is_eof() {
            walker.forward();
@@ -294,19 +240,26 @@ impl<'a> WalkerOwner<'a> {
    }
    fn collect_token_trees(&mut self, n: usize) -> Vec<&tt::TokenTree> {
-        self.start_from_nth(self.offset);
        let mut res = vec![];
        let mut walker = self.walker.borrow_mut();
+        walker.reset();
-        while walker.pos - self.offset < n {
+        while walker.pos < n {
            if let WalkCursor::Token(u, tt) = &walker.cursor {
-                if walker.stack.len() == 1 {
+                // We only collect the topmost child
-                    // We only collect the topmost child
+                if walker.stack.len() == 0 {
-                    res.push(&walker.stack[0].0.token_trees[*u]);
+                    for i in 0..tt.n_tokens {
-                    if let Some(tt) = tt {
+                        if let DelimToken::Token(token) = walker.ts.get(u + i) {
-                        for i in 0..tt.n_tokens - 1 {
+                            res.push(token);
-                            res.push(&walker.stack[0].0.token_trees[u + i]);
+                        }
+                    }
+                } else if walker.stack.len() == 1 {
+                    if let DelimToken::Delim(_, is_end) = walker.ts.get(*u) {
+                        if !is_end {
+                            let (_, last_idx) = &walker.stack[0];
+                            if let DelimToken::Token(token) = walker.ts.get(*last_idx) {
+                                res.push(token);
+                            }
                        }
                    }
                }
@@ -331,12 +284,8 @@ pub(crate) struct SubtreeTokenSource<'a> {
 }
 impl<'a> SubtreeTokenSource<'a> {
-    pub fn new(subtree: &tt::Subtree) -> SubtreeTokenSource {
+    pub fn new<I: Into<TokenSeq<'a>>>(ts: I) -> SubtreeTokenSource<'a> {
-        SubtreeTokenSource { walker: WalkerOwner::new(subtree) }
+        SubtreeTokenSource { walker: WalkerOwner::new(ts) }
-    }
-    pub fn start_from_nth(&mut self, n: usize) {
-        self.walker.start_from_nth(n);
    }
    pub fn querier<'b>(&'a self) -> &'b WalkerOwner<'a>
@@ -467,18 +416,18 @@ where
    None
 }
-fn convert_delim(d: tt::Delimiter, closing: bool) -> Option<TtToken> {
+fn convert_delim(d: tt::Delimiter, closing: bool) -> TtToken {
    let (kinds, texts) = match d {
        tt::Delimiter::Parenthesis => ([L_PAREN, R_PAREN], "()"),
        tt::Delimiter::Brace => ([L_CURLY, R_CURLY], "{}"),
        tt::Delimiter::Bracket => ([L_BRACK, R_BRACK], "[]"),
-        tt::Delimiter::None => return None,
+        tt::Delimiter::None => ([L_DOLLAR, R_DOLLAR], ""),
    };
    let idx = closing as usize;
    let kind = kinds[idx];
-    let text = &texts[idx..texts.len() - (1 - idx)];
+    let text = if texts.len() > 0 { &texts[idx..texts.len() - (1 - idx)] } else { "" };
-    Some(TtToken { kind, is_joint_to_next: false, text: SmolStr::new(text), n_tokens: 1 })
+    TtToken { kind, is_joint_to_next: false, text: SmolStr::new(text), n_tokens: 1 }
 }
 fn convert_literal(l: &tt::Literal) -> TtToken {
@@ -495,8 +444,9 @@ fn convert_ident(ident: &tt::Ident) -> TtToken {
    TtToken { kind, is_joint_to_next: false, text: ident.text.clone(), n_tokens: 1 }
 }
-fn convert_punct(p: &tt::Punct, parent: &tt::Subtree, next: usize) -> TtToken {
+fn convert_punct(p: &tt::Punct, next_tokens: &[tt::TokenTree]) -> TtToken {
-    let iter = parent.token_trees[next + 1..].iter();
+    let mut iter = next_tokens.iter();
+    iter.next();
    let mut peek = TokenPeek::new(iter);
    if let Some((kind, is_joint_to_next, text, size)) = convert_multi_char_punct(p, &mut peek) {
@@ -519,3 +469,11 @@ fn convert_punct(p: &tt::Punct, parent: &tt::Subtree, next: usize) -> TtToken {
        TtToken { kind, is_joint_to_next: p.spacing == tt::Spacing::Joint, text, n_tokens: 1 }
    }
 }
+fn convert_leaf(tokens: &[tt::TokenTree], leaf: &tt::Leaf) -> TtToken {
+    match leaf {
+        tt::Leaf::Literal(l) => convert_literal(l),
+        tt::Leaf::Ident(ident) => convert_ident(ident),
+        tt::Leaf::Punct(punct) => convert_punct(punct, tokens),
+    }
+}

diff --git a/crates/ra_mbe/src/subtree_source.rs b/crates/ra_mbe/src/subtree_source.rs index 4b37c2bda..6aa20057e 100644 --- a/crates/ra_mbe/src/subtree_source.rs +++ b/crates/ra_mbe/src/subtree_source.rs
@@ -2,6 +2,64 @@ use ra_parser::{TokenSource};
2	use ra_syntax::{classify_literal, SmolStr, SyntaxKind, SyntaxKind::*};	2	use ra_syntax::{classify_literal, SmolStr, SyntaxKind, SyntaxKind::*};
3	use std::cell::{RefCell};	3	use std::cell::{RefCell};
4		4
		5	// A Sequece of Token,
		6	#[derive(Debug, Clone, Eq, PartialEq)]
		7	pub(super) enum TokenSeq<'a> {
		8	Subtree(&'a tt::Subtree),
		9	Seq(&'a [tt::TokenTree]),
		10	}
		11
		12	impl<'a> From<&'a tt::Subtree> for TokenSeq<'a> {
		13	fn from(s: &'a tt::Subtree) -> TokenSeq<'a> {
		14	TokenSeq::Subtree(s)
		15	}
		16	}
		17
		18	impl<'a> From<&'a [tt::TokenTree]> for TokenSeq<'a> {
		19	fn from(s: &'a [tt::TokenTree]) -> TokenSeq<'a> {
		20	TokenSeq::Seq(s)
		21	}
		22	}
		23
		24	enum DelimToken<'a> {
		25	Delim(&'a tt::Delimiter, bool),
		26	Token(&'a tt::TokenTree),
		27	End,
		28	}
		29
		30	impl<'a> TokenSeq<'a> {
		31	fn get(&self, pos: usize) -> DelimToken<'a> {
		32	match self {
		33	TokenSeq::Subtree(subtree) => {
		34	let len = subtree.token_trees.len() + 2;
		35	match pos {
		36	p if p >= len => DelimToken::End,
		37	p if p == len - 1 => DelimToken::Delim(&subtree.delimiter, true),
		38	0 => DelimToken::Delim(&subtree.delimiter, false),
		39	p => DelimToken::Token(&subtree.token_trees[p - 1]),
		40	}
		41	}
		42	TokenSeq::Seq(tokens) => {
		43	tokens.get(pos).map(DelimToken::Token).unwrap_or(DelimToken::End)
		44	}
		45	}
		46	}
		47
		48	fn len(&self) -> usize {
		49	match self {
		50	TokenSeq::Subtree(subtree) => subtree.token_trees.len() + 2,
		51	TokenSeq::Seq(tokens) => tokens.len(),
		52	}
		53	}
		54
		55	fn child_slice(&self) -> &[tt::TokenTree] {
		56	match self {
		57	TokenSeq::Subtree(subtree) => &subtree.token_trees,
		58	TokenSeq::Seq(tokens) => &tokens,
		59	}
		60	}
		61	}
		62
5	#[derive(Debug, Clone, Eq, PartialEq)]	63	#[derive(Debug, Clone, Eq, PartialEq)]
6	struct TtToken {	64	struct TtToken {
7	pub kind: SyntaxKind,	65	pub kind: SyntaxKind,
@@ -12,29 +70,27 @@ struct TtToken {
12		70
13	#[derive(Debug, Clone, Eq, PartialEq)]	71	#[derive(Debug, Clone, Eq, PartialEq)]
14	enum WalkCursor {	72	enum WalkCursor {
15	DelimiterBegin(Option<TtToken>),	73	Token(usize, TtToken),
16	Token(usize, Option<TtToken>),
17	DelimiterEnd(Option<TtToken>),
18	Eof,	74	Eof,
19	}	75	}
20		76
21	#[derive(Debug)]	77	#[derive(Debug)]
22	struct SubTreeWalker<'a> {	78	struct SubTreeWalker<'a> {
23	pos: usize,	79	pos: usize,
24	stack: Vec<(&'a tt::Subtree, Option<usize>)>,	80	stack: Vec<(TokenSeq<'a>, usize)>,
25	cursor: WalkCursor,	81	cursor: WalkCursor,
26	last_steps: Vec<usize>,	82	last_steps: Vec<usize>,
27	subtree: &'a tt::Subtree,	83	ts: TokenSeq<'a>,
28	}	84	}
29		85
30	impl<'a> SubTreeWalker<'a> {	86	impl<'a> SubTreeWalker<'a> {
31	fn new(subtree: &tt::Subtree) -> SubTreeWalker {	87	fn new(ts: TokenSeq<'a>) -> SubTreeWalker {
32	let mut res = SubTreeWalker {	88	let mut res = SubTreeWalker {
33	pos: 0,	89	pos: 0,
34	stack: vec![],	90	stack: vec![],
35	cursor: WalkCursor::Eof,	91	cursor: WalkCursor::Eof,
36	last_steps: vec![],	92	last_steps: vec![],
37	subtree,	93	ts,
38	};	94	};
39		95
40	res.reset();	96	res.reset();
@@ -47,209 +103,106 @@ impl<'a> SubTreeWalker<'a> {
47		103
48	fn reset(&mut self) {	104	fn reset(&mut self) {
49	self.pos = 0;	105	self.pos = 0;
50	self.stack = vec![(self.subtree, None)];	106	self.stack = vec![];
51	self.cursor = WalkCursor::DelimiterBegin(convert_delim(self.subtree.delimiter, false));
52	self.last_steps = vec![];	107	self.last_steps = vec![];
53		108
54	while self.is_empty_delimiter() {	109	self.cursor = match self.ts.get(0) {
55	self.forward_unchecked();	110	DelimToken::Token(token) => match token {
56	}	111	tt::TokenTree::Subtree(subtree) => {
57	}	112	WalkCursor::Token(0, convert_delim(subtree.delimiter, false))
58		113	}
59	// This funciton will fast forward the cursor,	114	tt::TokenTree::Leaf(leaf) => {
60	// Such that backward will stop at `start_pos` point	115	let next_tokens = self.ts.child_slice();
61	fn start_from_nth(&mut self, start_pos: usize) {	116	WalkCursor::Token(0, convert_leaf(&next_tokens, leaf))
62	self.reset();	117	}
63	self.pos = start_pos;	118	},
64	self.cursor = self.walk_token(start_pos, 0, false);	119	DelimToken::Delim(delim, is_end) => {
65		120	assert!(!is_end);
66	while self.is_empty_delimiter() {	121	WalkCursor::Token(0, convert_delim(*delim, false))
67	self.forward_unchecked();	122	}
		123	DelimToken::End => WalkCursor::Eof,
68	}	124	}
69	}	125	}
70		126
71	fn current(&self) -> Option<&TtToken> {	127	fn current(&self) -> Option<&TtToken> {
72	match &self.cursor {	128	match &self.cursor {
73	WalkCursor::DelimiterBegin(t) => t.as_ref(),	129	WalkCursor::Token(_, t) => Some(t),
74	WalkCursor::Token(_, t) => t.as_ref(),
75	WalkCursor::DelimiterEnd(t) => t.as_ref(),
76	WalkCursor::Eof => None,	130	WalkCursor::Eof => None,
77	}	131	}
78	}	132	}
79		133
80	fn is_empty_delimiter(&self) -> bool {	134	fn top(&self) -> &TokenSeq {
81	match &self.cursor {	135	self.stack.last().map(\|(t, _)\| t).unwrap_or(&self.ts)
82	WalkCursor::DelimiterBegin(None) => true,
83	WalkCursor::DelimiterEnd(None) => true,
84	_ => false,
85	}
86	}	136	}
87		137
88	/// Move cursor backward by 1 step with empty checking	138	/// Move cursor backward by 1 step
89	fn backward(&mut self) {	139	fn backward(&mut self) {
90	if self.last_steps.is_empty() {	140	if self.last_steps.is_empty() {
91	return;	141	return;
92	}	142	}
		143
93	self.pos -= 1;	144	self.pos -= 1;
94	loop {	145	let last_step = self.last_steps.pop().unwrap();
95	self.backward_unchecked();
96	// Skip Empty delimiter
97	if self.last_steps.is_empty() \|\| !self.is_empty_delimiter() {
98	break;
99	}
100	}
101		146
102	// Move forward if it is empty delimiter	147	self.cursor = match self.cursor {
103	if self.last_steps.is_empty() {	148	WalkCursor::Token(idx, _) => self.walk_token(idx, last_step, true),
104	while self.is_empty_delimiter() {	149	WalkCursor::Eof => {
105	self.forward_unchecked();	150	let len = self.top().len();
		151	self.walk_token(len, last_step, true)
106	}	152	}
107	}	153	}
108	}	154	}
109		155
110	/// Move cursor backward by 1 step without empty check	156	/// Move cursor forward by 1 step
111	///
112	/// Depends on the current state of cursor:
113	///
114	/// * Delimiter Begin => Pop the stack, goto last walking token (`walk_token`)
115	/// * Token => Goto prev token (`walk_token`)
116	/// * Delimiter End => Goto the last child token (`walk_token`)
117	/// * Eof => push the root subtree, and set it as Delimiter End
118	fn backward_unchecked(&mut self) {
119	if self.last_steps.is_empty() {
120	return;
121	}
122
123	let last_step = self.last_steps.pop().unwrap();
124	let do_walk_token = match self.cursor {
125	WalkCursor::DelimiterBegin(_) => None,
126	WalkCursor::Token(u, _) => Some(u),
127	WalkCursor::DelimiterEnd(_) => {
128	let (top, _) = self.stack.last().unwrap();
129	Some(top.token_trees.len())
130	}
131	WalkCursor::Eof => None,
132	};
133
134	self.cursor = match do_walk_token {
135	Some(u) => self.walk_token(u, last_step, true),
136	None => match self.cursor {
137	WalkCursor::Eof => {
138	self.stack.push((self.subtree, None));
139	WalkCursor::DelimiterEnd(convert_delim(
140	self.stack.last().unwrap().0.delimiter,
141	true,
142	))
143	}
144	_ => {
145	let (_, last_top_cursor) = self.stack.pop().unwrap();
146	assert!(!self.stack.is_empty());
147
148	self.walk_token(last_top_cursor.unwrap(), last_step, true)
149	}
150	},
151	};
152	}
153
154	/// Move cursor forward by 1 step with empty checking
155	fn forward(&mut self) {	157	fn forward(&mut self) {
156	if self.is_eof() {	158	if self.is_eof() {
157	return;	159	return;
158	}	160	}
159
160	self.pos += 1;	161	self.pos += 1;
161	loop {
162	self.forward_unchecked();
163	if !self.is_empty_delimiter() {
164	break;
165	}
166	}
167	}
168
169	/// Move cursor forward by 1 step without empty checking
170	///
171	/// Depends on the current state of cursor:
172	///
173	/// * Delimiter Begin => Goto the first child token (`walk_token`)
174	/// * Token => Goto next token (`walk_token`)
175	/// * Delimiter End => Pop the stack, goto last walking token (`walk_token`)
176	///
177	fn forward_unchecked(&mut self) {
178	if self.is_eof() {
179	return;
180	}
181		162
182	let step = self.current().map(\|x\| x.n_tokens).unwrap_or(1);	163	let step = self.current().map(\|x\| x.n_tokens).unwrap_or(1);
183	self.last_steps.push(step);	164	self.last_steps.push(step);
184		165
185	let do_walk_token = match self.cursor {	166	if let WalkCursor::Token(u, _) = self.cursor {
186	WalkCursor::DelimiterBegin(_) => Some((0, 0)),	167	self.cursor = self.walk_token(u, step, false)
187	WalkCursor::Token(u, _) => Some((u, step)),	168	}
188	WalkCursor::DelimiterEnd(_) => None,
189	_ => unreachable!(),
190	};
191
192	self.cursor = match do_walk_token {
193	Some((u, step)) => self.walk_token(u, step, false),
194	None => {
195	let (_, last_top_idx) = self.stack.pop().unwrap();
196	match self.stack.last() {
197	Some(_) => self.walk_token(last_top_idx.unwrap(), 1, false),
198	None => WalkCursor::Eof,
199	}
200	}
201	};
202	}	169	}
203		170
204	/// Traversal child token	171	/// Traversal child token
205	/// Depends on the new position, it returns:
206	///
207	/// * new position < 0 => DelimiterBegin
208	/// * new position > token_tree.len() => DelimiterEnd
209	/// * if new position is a subtree, depends on traversal direction:
210	/// ** backward => DelimiterEnd
211	/// ** forward => DelimiterBegin
212	/// * if new psoition is a leaf, return walk_leaf()
213	fn walk_token(&mut self, pos: usize, offset: usize, backward: bool) -> WalkCursor {	172	fn walk_token(&mut self, pos: usize, offset: usize, backward: bool) -> WalkCursor {
214	let (top, _) = self.stack.last().unwrap();	173	let top = self.stack.last().map(\|(t, _)\| t).unwrap_or(&self.ts);
215		174
216	if backward && pos < offset {	175	if backward && pos < offset {
217	return WalkCursor::DelimiterBegin(convert_delim(	176	let (_, last_idx) = self.stack.pop().unwrap();
218	self.stack.last().unwrap().0.delimiter,	177	return self.walk_token(last_idx, offset, backward);
219	false,
220	));
221	}
222
223	if !backward && pos + offset >= top.token_trees.len() {
224	return WalkCursor::DelimiterEnd(convert_delim(
225	self.stack.last().unwrap().0.delimiter,
226	true,
227	));
228	}	178	}
229		179
230	let pos = if backward { pos - offset } else { pos + offset };	180	let pos = if backward { pos - offset } else { pos + offset };
231		181
232	match &top.token_trees[pos] {	182	match top.get(pos) {
233	tt::TokenTree::Subtree(subtree) => {	183	DelimToken::Token(token) => match token {
234	self.stack.push((subtree, Some(pos)));	184	tt::TokenTree::Subtree(subtree) => {
235	let delim = convert_delim(self.stack.last().unwrap().0.delimiter, backward);	185	let ts = TokenSeq::from(subtree);
236	if backward {	186	let new_idx = if backward { ts.len() - 1 } else { 0 };
237	WalkCursor::DelimiterEnd(delim)	187	self.stack.push((ts, pos));
238	} else {	188	WalkCursor::Token(new_idx, convert_delim(subtree.delimiter, backward))
239	WalkCursor::DelimiterBegin(delim)	189	}
		190	tt::TokenTree::Leaf(leaf) => {
		191	let next_tokens = top.child_slice();
		192	WalkCursor::Token(pos, convert_leaf(&next_tokens[pos..], leaf))
240	}	193	}
		194	},
		195	DelimToken::Delim(delim, is_end) => {
		196	WalkCursor::Token(pos, convert_delim(*delim, is_end))
241	}	197	}
242	tt::TokenTree::Leaf(leaf) => WalkCursor::Token(pos, Some(self.walk_leaf(leaf, pos))),	198	DelimToken::End => {
243	}	199	// it is the top level
244	}	200	if let Some((_, last_idx)) = self.stack.pop() {
245		201	assert!(!backward);
246	fn walk_leaf(&mut self, leaf: &tt::Leaf, pos: usize) -> TtToken {	202	self.walk_token(last_idx, offset, backward)
247	match leaf {	203	} else {
248	tt::Leaf::Literal(l) => convert_literal(l),	204	WalkCursor::Eof
249	tt::Leaf::Ident(ident) => convert_ident(ident),	205	}
250	tt::Leaf::Punct(punct) => {
251	let (top, _) = self.stack.last().unwrap();
252	convert_punct(punct, top, pos)
253	}	206	}
254	}	207	}
255	}	208	}
@@ -263,27 +216,20 @@ pub(crate) trait Querier {
263	#[derive(Debug)]	216	#[derive(Debug)]
264	pub(crate) struct WalkerOwner<'a> {	217	pub(crate) struct WalkerOwner<'a> {
265	walker: RefCell<SubTreeWalker<'a>>,	218	walker: RefCell<SubTreeWalker<'a>>,
266	offset: usize,
267	}	219	}
268		220
269	impl<'a> WalkerOwner<'a> {	221	impl<'a> WalkerOwner<'a> {
270	fn new(subtree: &'a tt::Subtree) -> Self {	222	fn new<I: Into<TokenSeq<'a>>>(ts: I) -> Self {
271	WalkerOwner { walker: RefCell::new(SubTreeWalker::new(subtree)), offset: 0 }	223	WalkerOwner { walker: RefCell::new(SubTreeWalker::new(ts.into())) }
272	}	224	}
273		225
274	fn get<'b>(&self, pos: usize) -> Option<TtToken> {	226	fn get<'b>(&self, pos: usize) -> Option<TtToken> {
275	self.set_walker_pos(pos);	227	self.set_pos(pos);
276	let walker = self.walker.borrow();	228	let walker = self.walker.borrow();
277	walker.current().cloned()	229	walker.current().cloned()
278	}	230	}
279		231
280	fn start_from_nth(&mut self, pos: usize) {	232	fn set_pos(&self, pos: usize) {
281	self.offset = pos;
282	self.walker.borrow_mut().start_from_nth(pos);
283	}
284
285	fn set_walker_pos(&self, mut pos: usize) {
286	pos += self.offset;
287	let mut walker = self.walker.borrow_mut();	233	let mut walker = self.walker.borrow_mut();
288	while pos > walker.pos && !walker.is_eof() {	234	while pos > walker.pos && !walker.is_eof() {
289	walker.forward();	235	walker.forward();
@@ -294,19 +240,26 @@ impl<'a> WalkerOwner<'a> {
294	}	240	}
295		241
296	fn collect_token_trees(&mut self, n: usize) -> Vec<&tt::TokenTree> {	242	fn collect_token_trees(&mut self, n: usize) -> Vec<&tt::TokenTree> {
297	self.start_from_nth(self.offset);
298
299	let mut res = vec![];	243	let mut res = vec![];
300	let mut walker = self.walker.borrow_mut();	244	let mut walker = self.walker.borrow_mut();
		245	walker.reset();
301		246
302	while walker.pos - self.offset < n {	247	while walker.pos < n {
303	if let WalkCursor::Token(u, tt) = &walker.cursor {	248	if let WalkCursor::Token(u, tt) = &walker.cursor {
304	if walker.stack.len() == 1 {	249	// We only collect the topmost child
305	// We only collect the topmost child	250	if walker.stack.len() == 0 {
306	res.push(&walker.stack[0].0.token_trees[*u]);	251	for i in 0..tt.n_tokens {
307	if let Some(tt) = tt {	252	if let DelimToken::Token(token) = walker.ts.get(u + i) {
308	for i in 0..tt.n_tokens - 1 {	253	res.push(token);
309	res.push(&walker.stack[0].0.token_trees[u + i]);	254	}
		255	}
		256	} else if walker.stack.len() == 1 {
		257	if let DelimToken::Delim(_, is_end) = walker.ts.get(*u) {
		258	if !is_end {
		259	let (_, last_idx) = &walker.stack[0];
		260	if let DelimToken::Token(token) = walker.ts.get(*last_idx) {
		261	res.push(token);
		262	}
310	}	263	}
311	}	264	}
312	}	265	}
@@ -331,12 +284,8 @@ pub(crate) struct SubtreeTokenSource<'a> {
331	}	284	}
332		285
333	impl<'a> SubtreeTokenSource<'a> {	286	impl<'a> SubtreeTokenSource<'a> {
334	pub fn new(subtree: &tt::Subtree) -> SubtreeTokenSource {	287	pub fn new<I: Into<TokenSeq<'a>>>(ts: I) -> SubtreeTokenSource<'a> {
335	SubtreeTokenSource { walker: WalkerOwner::new(subtree) }	288	SubtreeTokenSource { walker: WalkerOwner::new(ts) }
336	}
337
338	pub fn start_from_nth(&mut self, n: usize) {
339	self.walker.start_from_nth(n);
340	}	289	}
341		290
342	pub fn querier<'b>(&'a self) -> &'b WalkerOwner<'a>	291	pub fn querier<'b>(&'a self) -> &'b WalkerOwner<'a>
@@ -467,18 +416,18 @@ where
467	None	416	None
468	}	417	}
469		418
470	fn convert_delim(d: tt::Delimiter, closing: bool) -> Option<TtToken> {	419	fn convert_delim(d: tt::Delimiter, closing: bool) -> TtToken {
471	let (kinds, texts) = match d {	420	let (kinds, texts) = match d {
472	tt::Delimiter::Parenthesis => ([L_PAREN, R_PAREN], "()"),	421	tt::Delimiter::Parenthesis => ([L_PAREN, R_PAREN], "()"),
473	tt::Delimiter::Brace => ([L_CURLY, R_CURLY], "{}"),	422	tt::Delimiter::Brace => ([L_CURLY, R_CURLY], "{}"),
474	tt::Delimiter::Bracket => ([L_BRACK, R_BRACK], "[]"),	423	tt::Delimiter::Bracket => ([L_BRACK, R_BRACK], "[]"),
475	tt::Delimiter::None => return None,	424	tt::Delimiter::None => ([L_DOLLAR, R_DOLLAR], ""),
476	};	425	};
477		426
478	let idx = closing as usize;	427	let idx = closing as usize;
479	let kind = kinds[idx];	428	let kind = kinds[idx];
480	let text = &texts[idx..texts.len() - (1 - idx)];	429	let text = if texts.len() > 0 { &texts[idx..texts.len() - (1 - idx)] } else { "" };
481	Some(TtToken { kind, is_joint_to_next: false, text: SmolStr::new(text), n_tokens: 1 })	430	TtToken { kind, is_joint_to_next: false, text: SmolStr::new(text), n_tokens: 1 }
482	}	431	}
483		432
484	fn convert_literal(l: &tt::Literal) -> TtToken {	433	fn convert_literal(l: &tt::Literal) -> TtToken {
@@ -495,8 +444,9 @@ fn convert_ident(ident: &tt::Ident) -> TtToken {
495	TtToken { kind, is_joint_to_next: false, text: ident.text.clone(), n_tokens: 1 }	444	TtToken { kind, is_joint_to_next: false, text: ident.text.clone(), n_tokens: 1 }
496	}	445	}
497		446
498	fn convert_punct(p: &tt::Punct, parent: &tt::Subtree, next: usize) -> TtToken {	447	fn convert_punct(p: &tt::Punct, next_tokens: &[tt::TokenTree]) -> TtToken {
499	let iter = parent.token_trees[next + 1..].iter();	448	let mut iter = next_tokens.iter();
		449	iter.next();
500	let mut peek = TokenPeek::new(iter);	450	let mut peek = TokenPeek::new(iter);
501		451
502	if let Some((kind, is_joint_to_next, text, size)) = convert_multi_char_punct(p, &mut peek) {	452	if let Some((kind, is_joint_to_next, text, size)) = convert_multi_char_punct(p, &mut peek) {
@@ -519,3 +469,11 @@ fn convert_punct(p: &tt::Punct, parent: &tt::Subtree, next: usize) -> TtToken {
519	TtToken { kind, is_joint_to_next: p.spacing == tt::Spacing::Joint, text, n_tokens: 1 }	469	TtToken { kind, is_joint_to_next: p.spacing == tt::Spacing::Joint, text, n_tokens: 1 }
520	}	470	}
521	}	471	}
		472
		473	fn convert_leaf(tokens: &[tt::TokenTree], leaf: &tt::Leaf) -> TtToken {
		474	match leaf {
		475	tt::Leaf::Literal(l) => convert_literal(l),
		476	tt::Leaf::Ident(ident) => convert_ident(ident),
		477	tt::Leaf::Punct(punct) => convert_punct(punct, tokens),
		478	}
		479	}