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|
//! When typing the opening character of one of the possible pairs defined below,
//! this module provides the functionality to insert the paired closing character.
use crate::{
graphemes, movement::Direction, Range, Rope, RopeGraphemes, Selection, Tendril, Transaction,
};
use log::debug;
use smallvec::SmallVec;
// Heavily based on https://github.com/codemirror/closebrackets/
pub const PAIRS: &[(char, char)] = &[
('(', ')'),
('{', '}'),
('[', ']'),
('\'', '\''),
('"', '"'),
('`', '`'),
];
// [TODO] build this dynamically in language config. see #992
const OPEN_BEFORE: &str = "([{'\":;,> \n\r\u{000B}\u{000C}\u{0085}\u{2028}\u{2029}";
const CLOSE_BEFORE: &str = ")]}'\":;,> \n\r\u{000B}\u{000C}\u{0085}\u{2028}\u{2029}"; // includes space and newlines
// insert hook:
// Fn(doc, selection, char) => Option<Transaction>
// problem is, we want to do this per range, so we can call default handler for some ranges
// so maybe ret Vec<Option<Change>>
// but we also need to be able to return transactions...
//
// to simplify, maybe return Option<Transaction> and just reimplement the default
// [TODO]
// * delete implementation where it erases the whole bracket (|) -> |
// * change to multi character pairs to handle cases like placing the cursor in the
// middle of triple quotes, and more exotic pairs like Jinja's {% %}
#[must_use]
pub fn hook(doc: &Rope, selection: &Selection, ch: char) -> Option<Transaction> {
debug!("autopairs hook selection: {:#?}", selection);
for &(open, close) in PAIRS {
if open == ch {
if open == close {
return Some(handle_same(doc, selection, open, CLOSE_BEFORE, OPEN_BEFORE));
} else {
return Some(handle_open(doc, selection, open, close, CLOSE_BEFORE));
}
}
if close == ch {
// && char_at pos == close
return Some(handle_close(doc, selection, open, close));
}
}
None
}
fn prev_char(doc: &Rope, pos: usize) -> Option<char> {
if pos == 0 {
return None;
}
doc.get_char(pos - 1)
}
fn is_single_grapheme(doc: &Rope, range: &Range) -> bool {
let mut graphemes = RopeGraphemes::new(doc.slice(range.from()..range.to()));
let first = graphemes.next();
let second = graphemes.next();
debug!("first: {:#?}, second: {:#?}", first, second);
first.is_some() && second.is_none()
}
/// calculate what the resulting range should be for an auto pair insertion
fn get_next_range(
doc: &Rope,
start_range: &Range,
offset: usize,
typed_char: char,
len_inserted: usize,
) -> Range {
// When the character under the cursor changes due to complete pair
// insertion, we must look backward a grapheme and then add the length
// of the insertion to put the resulting cursor in the right place, e.g.
//
// foo[\r\n] - anchor: 3, head: 5
// foo([)]\r\n - anchor: 4, head: 5
//
// foo[\r\n] - anchor: 3, head: 5
// foo'[\r\n] - anchor: 4, head: 6
//
// foo([)]\r\n - anchor: 4, head: 5
// foo()[\r\n] - anchor: 5, head: 7
//
// [foo]\r\n - anchor: 0, head: 3
// [foo(])\r\n - anchor: 0, head: 5
// inserting at the very end of the document after the last newline
if start_range.head == doc.len_chars() && start_range.anchor == doc.len_chars() {
return Range::new(
start_range.anchor + offset + typed_char.len_utf8(),
start_range.head + offset + typed_char.len_utf8(),
);
}
let single_grapheme = is_single_grapheme(doc, start_range);
let doc_slice = doc.slice(..);
// just skip over graphemes
if len_inserted == 0 {
let end_anchor = if single_grapheme {
graphemes::next_grapheme_boundary(doc_slice, start_range.anchor) + offset
// even for backward inserts with multiple grapheme selections,
// we want the anchor to stay where it is so that the relative
// selection does not change, e.g.:
//
// foo([) wor]d -> insert ) -> foo()[ wor]d
} else {
start_range.anchor + offset
};
return Range::new(
end_anchor,
graphemes::next_grapheme_boundary(doc_slice, start_range.head) + offset,
);
}
// trivial case: only inserted a single-char opener, just move the selection
if len_inserted == 1 {
let end_anchor = if single_grapheme || start_range.direction() == Direction::Backward {
start_range.anchor + offset + typed_char.len_utf8()
} else {
start_range.anchor + offset
};
return Range::new(
end_anchor,
start_range.head + offset + typed_char.len_utf8(),
);
}
// If the head = 0, then we must be in insert mode with a backward
// cursor, which implies the head will just move
let end_head = if start_range.head == 0 || start_range.direction() == Direction::Backward {
start_range.head + offset + typed_char.len_utf8()
} else {
// We must have a forward cursor, which means we must move to the
// other end of the grapheme to get to where the new characters
// are inserted, then move the head to where it should be
let prev_bound = graphemes::prev_grapheme_boundary(doc_slice, start_range.head);
debug!(
"prev_bound: {}, offset: {}, len_inserted: {}",
prev_bound, offset, len_inserted
);
prev_bound + offset + len_inserted
};
let end_anchor = match (start_range.len(), start_range.direction()) {
// if we have a zero width cursor, it shifts to the same number
(0, _) => end_head,
// If we are inserting for a regular one-width cursor, the anchor
// moves with the head. This is the fast path for ASCII.
(1, Direction::Forward) => end_head - 1,
(1, Direction::Backward) => end_head + 1,
(_, Direction::Forward) => {
if single_grapheme {
graphemes::prev_grapheme_boundary(doc.slice(..), start_range.head)
+ typed_char.len_utf8()
// if we are appending, the anchor stays where it is; only offset
// for multiple range insertions
} else {
start_range.anchor + offset
}
}
(_, Direction::Backward) => {
if single_grapheme {
// if we're backward, then the head is at the first char
// of the typed char, so we need to add the length of
// the closing char
graphemes::prev_grapheme_boundary(doc.slice(..), start_range.anchor) + len_inserted
} else {
// when we are inserting in front of a selection, we need to move
// the anchor over by however many characters were inserted overall
start_range.anchor + offset + len_inserted
}
}
};
Range::new(end_anchor, end_head)
}
fn handle_open(
doc: &Rope,
selection: &Selection,
open: char,
close: char,
close_before: &str,
) -> Transaction {
let mut end_ranges = SmallVec::with_capacity(selection.len());
let mut offs = 0;
let transaction = Transaction::change_by_selection(doc, selection, |start_range| {
let cursor = start_range.cursor(doc.slice(..));
let next_char = doc.get_char(cursor);
let len_inserted;
let change = match next_char {
Some(ch) if !close_before.contains(ch) => {
len_inserted = open.len_utf8();
(cursor, cursor, Some(Tendril::from_char(open)))
}
// None | Some(ch) if close_before.contains(ch) => {}
_ => {
// insert open & close
let pair = Tendril::from_iter([open, close]);
len_inserted = open.len_utf8() + close.len_utf8();
(cursor, cursor, Some(pair))
}
};
let next_range = get_next_range(doc, start_range, offs, open, len_inserted);
end_ranges.push(next_range);
offs += len_inserted;
change
});
let t = transaction.with_selection(Selection::new(end_ranges, selection.primary_index()));
debug!("auto pair transaction: {:#?}", t);
t
}
fn handle_close(doc: &Rope, selection: &Selection, _open: char, close: char) -> Transaction {
let mut end_ranges = SmallVec::with_capacity(selection.len());
let mut offs = 0;
let transaction = Transaction::change_by_selection(doc, selection, |start_range| {
let cursor = start_range.cursor(doc.slice(..));
let next_char = doc.get_char(cursor);
let mut len_inserted = 0;
let change = if next_char == Some(close) {
// return transaction that moves past close
(cursor, cursor, None) // no-op
} else {
len_inserted += close.len_utf8();
(cursor, cursor, Some(Tendril::from_char(close)))
};
let next_range = get_next_range(doc, start_range, offs, close, len_inserted);
end_ranges.push(next_range);
offs += len_inserted;
change
});
let t = transaction.with_selection(Selection::new(end_ranges, selection.primary_index()));
debug!("auto pair transaction: {:#?}", t);
t
}
/// handle cases where open and close is the same, or in triples ("""docstring""")
fn handle_same(
doc: &Rope,
selection: &Selection,
token: char,
close_before: &str,
open_before: &str,
) -> Transaction {
let mut end_ranges = SmallVec::with_capacity(selection.len());
let mut offs = 0;
let transaction = Transaction::change_by_selection(doc, selection, |start_range| {
let cursor = start_range.cursor(doc.slice(..));
let mut len_inserted = 0;
let next_char = doc.get_char(cursor);
let prev_char = prev_char(doc, cursor);
let change = if next_char == Some(token) {
// return transaction that moves past close
(cursor, cursor, None) // no-op
} else {
let mut pair = Tendril::with_capacity(2 * token.len_utf8() as u32);
pair.push_char(token);
// for equal pairs, don't insert both open and close if either
// side has a non-pair char
if (next_char.is_none() || close_before.contains(next_char.unwrap()))
&& (prev_char.is_none() || open_before.contains(prev_char.unwrap()))
{
pair.push_char(token);
}
len_inserted += pair.len();
(cursor, cursor, Some(pair))
};
let next_range = get_next_range(doc, start_range, offs, token, len_inserted);
end_ranges.push(next_range);
offs += len_inserted;
change
});
let t = transaction.with_selection(Selection::new(end_ranges, selection.primary_index()));
debug!("auto pair transaction: {:#?}", t);
t
}
#[cfg(test)]
mod test {
use super::*;
use smallvec::smallvec;
const LINE_END: &str = crate::DEFAULT_LINE_ENDING.as_str();
fn differing_pairs() -> impl Iterator<Item = &'static (char, char)> {
PAIRS.iter().filter(|(open, close)| open != close)
}
fn matching_pairs() -> impl Iterator<Item = &'static (char, char)> {
PAIRS.iter().filter(|(open, close)| open == close)
}
fn test_hooks(
in_doc: &Rope,
in_sel: &Selection,
ch: char,
expected_doc: &Rope,
expected_sel: &Selection,
) {
let trans = hook(in_doc, in_sel, ch).unwrap();
let mut actual_doc = in_doc.clone();
assert!(trans.apply(&mut actual_doc));
assert_eq!(expected_doc, &actual_doc);
assert_eq!(expected_sel, trans.selection().unwrap());
}
fn test_hooks_with_pairs<I, F, R>(
in_doc: &Rope,
in_sel: &Selection,
pairs: I,
get_expected_doc: F,
actual_sel: &Selection,
) where
I: IntoIterator<Item = &'static (char, char)>,
F: Fn(char, char) -> R,
R: Into<Rope>,
Rope: From<R>,
{
pairs.into_iter().for_each(|(open, close)| {
test_hooks(
in_doc,
in_sel,
*open,
&Rope::from(get_expected_doc(*open, *close)),
actual_sel,
)
});
}
// [] indicates range
/// [] -> insert ( -> ([])
#[test]
fn test_insert_blank() {
test_hooks_with_pairs(
&Rope::from(LINE_END),
&Selection::single(1, 0),
PAIRS,
|open, close| format!("{}{}{}", open, close, LINE_END),
&Selection::single(2, 1),
);
let empty_doc = Rope::from(format!("{line_end}{line_end}", line_end = LINE_END));
test_hooks_with_pairs(
&empty_doc,
&Selection::single(empty_doc.len_chars(), LINE_END.len()),
PAIRS,
|open, close| {
format!(
"{line_end}{open}{close}{line_end}",
open = open,
close = close,
line_end = LINE_END
)
},
&Selection::single(LINE_END.len() + 2, LINE_END.len() + 1),
);
}
#[test]
fn test_insert_before_multi_code_point_graphemes() {
test_hooks_with_pairs(
&Rope::from(format!("hello 👨👩👧👦 goodbye{}", LINE_END)),
&Selection::single(13, 6),
PAIRS,
|open, _| format!("hello {}👨👩👧👦 goodbye{}", open, LINE_END),
&Selection::single(14, 7),
);
}
#[test]
fn test_insert_at_end_of_document() {
test_hooks_with_pairs(
&Rope::from(LINE_END),
&Selection::single(LINE_END.len(), LINE_END.len()),
PAIRS,
|open, close| format!("{}{}{}", LINE_END, open, close),
&Selection::single(LINE_END.len() + 1, LINE_END.len() + 1),
);
test_hooks_with_pairs(
&Rope::from(format!("foo{}", LINE_END)),
&Selection::single(3 + LINE_END.len(), 3 + LINE_END.len()),
PAIRS,
|open, close| format!("foo{}{}{}", LINE_END, open, close),
&Selection::single(LINE_END.len() + 4, LINE_END.len() + 4),
);
}
/// [] -> append ( -> ([])
#[test]
fn test_append_blank() {
test_hooks_with_pairs(
// this is what happens when you have a totally blank document and then append
&Rope::from(format!("{line_end}{line_end}", line_end = LINE_END)),
// before inserting the pair, the cursor covers all of both empty lines
&Selection::single(0, LINE_END.len() * 2),
PAIRS,
|open, close| {
format!(
"{line_end}{open}{close}{line_end}",
line_end = LINE_END,
open = open,
close = close
)
},
// after inserting pair, the cursor covers the first new line and the open char
&Selection::single(0, LINE_END.len() + 2),
);
}
/// [] ([])
/// [] -> insert -> ([])
/// [] ([])
#[test]
fn test_insert_blank_multi_cursor() {
test_hooks_with_pairs(
&Rope::from("\n\n\n"),
&Selection::new(
smallvec!(Range::new(1, 0), Range::new(2, 1), Range::new(3, 2),),
0,
),
PAIRS,
|open, close| {
format!(
"{open}{close}\n{open}{close}\n{open}{close}\n",
open = open,
close = close
)
},
&Selection::new(
smallvec!(Range::new(2, 1), Range::new(5, 4), Range::new(8, 7),),
0,
),
);
}
/// fo[o] -> append ( -> fo[o(])
#[test]
fn test_append() {
test_hooks_with_pairs(
&Rope::from("foo\n"),
&Selection::single(2, 4),
differing_pairs(),
|open, close| format!("foo{}{}\n", open, close),
&Selection::single(2, 5),
);
}
/// foo[] -> append to end of line ( -> foo([])
#[test]
fn test_append_single_cursor() {
test_hooks_with_pairs(
&Rope::from(format!("foo{}", LINE_END)),
&Selection::single(3, 3 + LINE_END.len()),
differing_pairs(),
|open, close| format!("foo{}{}{}", open, close, LINE_END),
&Selection::single(4, 5),
);
}
/// fo[o] fo[o(])
/// fo[o] -> append ( -> fo[o(])
/// fo[o] fo[o(])
#[test]
fn test_append_multi() {
test_hooks_with_pairs(
&Rope::from("foo\nfoo\nfoo\n"),
&Selection::new(
smallvec!(Range::new(2, 4), Range::new(6, 8), Range::new(10, 12)),
0,
),
differing_pairs(),
|open, close| {
format!(
"foo{open}{close}\nfoo{open}{close}\nfoo{open}{close}\n",
open = open,
close = close
)
},
&Selection::new(
smallvec!(Range::new(2, 5), Range::new(8, 11), Range::new(14, 17)),
0,
),
);
}
/// ([)] -> insert ) -> ()[]
#[test]
fn test_insert_close_inside_pair() {
for (open, close) in PAIRS {
let doc = Rope::from(format!("{}{}{}", open, close, LINE_END));
test_hooks(
&doc,
&Selection::single(2, 1),
*close,
&doc,
&Selection::single(2 + LINE_END.len(), 2),
);
}
}
/// [(]) -> append ) -> [()]
#[test]
fn test_append_close_inside_pair() {
for (open, close) in PAIRS {
let doc = Rope::from(format!("{}{}{}", open, close, LINE_END));
test_hooks(
&doc,
&Selection::single(0, 2),
*close,
&doc,
&Selection::single(0, 2 + LINE_END.len()),
);
}
}
/// ([]) ()[]
/// ([]) -> insert ) -> ()[]
/// ([]) ()[]
#[test]
fn test_insert_close_inside_pair_multi_cursor() {
let sel = Selection::new(
smallvec!(Range::new(2, 1), Range::new(5, 4), Range::new(8, 7),),
0,
);
let expected_sel = Selection::new(
smallvec!(Range::new(3, 2), Range::new(6, 5), Range::new(9, 8),),
0,
);
for (open, close) in PAIRS {
let doc = Rope::from(format!(
"{open}{close}\n{open}{close}\n{open}{close}\n",
open = open,
close = close
));
test_hooks(&doc, &sel, *close, &doc, &expected_sel);
}
}
/// [(]) [()]
/// [(]) -> append ) -> [()]
/// [(]) [()]
#[test]
fn test_append_close_inside_pair_multi_cursor() {
let sel = Selection::new(
smallvec!(Range::new(0, 2), Range::new(3, 5), Range::new(6, 8),),
0,
);
let expected_sel = Selection::new(
smallvec!(Range::new(0, 3), Range::new(3, 6), Range::new(6, 9),),
0,
);
for (open, close) in PAIRS {
let doc = Rope::from(format!(
"{open}{close}\n{open}{close}\n{open}{close}\n",
open = open,
close = close
));
test_hooks(&doc, &sel, *close, &doc, &expected_sel);
}
}
/// ([]) -> insert ( -> (([]))
#[test]
fn test_insert_open_inside_pair() {
let sel = Selection::single(2, 1);
let expected_sel = Selection::single(3, 2);
for (open, close) in differing_pairs() {
let doc = Rope::from(format!("{}{}", open, close));
let expected_doc = Rope::from(format!(
"{open}{open}{close}{close}",
open = open,
close = close
));
test_hooks(&doc, &sel, *open, &expected_doc, &expected_sel);
}
}
/// [word(]) -> append ( -> [word((]))
#[test]
fn test_append_open_inside_pair() {
let sel = Selection::single(0, 6);
let expected_sel = Selection::single(0, 7);
for (open, close) in differing_pairs() {
let doc = Rope::from(format!("word{}{}", open, close));
let expected_doc = Rope::from(format!(
"word{open}{open}{close}{close}",
open = open,
close = close
));
test_hooks(&doc, &sel, *open, &expected_doc, &expected_sel);
}
}
/// ([]) -> insert " -> ("[]")
#[test]
fn test_insert_nested_open_inside_pair() {
let sel = Selection::single(2, 1);
let expected_sel = Selection::single(3, 2);
for (outer_open, outer_close) in differing_pairs() {
let doc = Rope::from(format!("{}{}", outer_open, outer_close,));
for (inner_open, inner_close) in matching_pairs() {
let expected_doc = Rope::from(format!(
"{}{}{}{}",
outer_open, inner_open, inner_close, outer_close
));
test_hooks(&doc, &sel, *inner_open, &expected_doc, &expected_sel);
}
}
}
/// [(]) -> append " -> [("]")
#[test]
fn test_append_nested_open_inside_pair() {
let sel = Selection::single(0, 2);
let expected_sel = Selection::single(0, 3);
for (outer_open, outer_close) in differing_pairs() {
let doc = Rope::from(format!("{}{}", outer_open, outer_close,));
for (inner_open, inner_close) in matching_pairs() {
let expected_doc = Rope::from(format!(
"{}{}{}{}",
outer_open, inner_open, inner_close, outer_close
));
test_hooks(&doc, &sel, *inner_open, &expected_doc, &expected_sel);
}
}
}
/// []word -> insert ( -> ([]word
#[test]
fn test_insert_open_before_non_pair() {
test_hooks_with_pairs(
&Rope::from("word"),
&Selection::single(1, 0),
PAIRS,
|open, _| format!("{}word", open),
&Selection::single(2, 1),
)
}
/// [wor]d -> insert ( -> ([wor]d
#[test]
fn test_insert_open_with_selection() {
test_hooks_with_pairs(
&Rope::from("word"),
&Selection::single(3, 0),
PAIRS,
|open, _| format!("{}word", open),
&Selection::single(4, 1),
)
}
/// [wor]d -> append ) -> [wor)]d
#[test]
fn test_append_close_inside_non_pair_with_selection() {
let sel = Selection::single(0, 4);
let expected_sel = Selection::single(0, 5);
for (_, close) in PAIRS {
let doc = Rope::from("word");
let expected_doc = Rope::from(format!("wor{}d", close));
test_hooks(&doc, &sel, *close, &expected_doc, &expected_sel);
}
}
/// foo[ wor]d -> insert ( -> foo([) wor]d
#[test]
fn test_insert_open_trailing_word_with_selection() {
test_hooks_with_pairs(
&Rope::from("foo word"),
&Selection::single(7, 3),
differing_pairs(),
|open, close| format!("foo{}{} word", open, close),
&Selection::single(9, 4),
)
}
/// foo([) wor]d -> insert ) -> foo()[ wor]d
#[test]
fn test_insert_close_inside_pair_trailing_word_with_selection() {
for (open, close) in differing_pairs() {
test_hooks(
&Rope::from(format!("foo{}{} word{}", open, close, LINE_END)),
&Selection::single(9, 4),
*close,
&Rope::from(format!("foo{}{} word{}", open, close, LINE_END)),
&Selection::single(9, 5),
)
}
}
/// we want pairs that are *not* the same char to be inserted after
/// a non-pair char, for cases like functions, but for pairs that are
/// the same char, we want to *not* insert a pair to handle cases like "I'm"
///
/// word[] -> insert ( -> word([])
/// word[] -> insert ' -> word'[]
#[test]
fn test_insert_open_after_non_pair() {
let doc = Rope::from(format!("word{}", LINE_END));
let sel = Selection::single(5, 4);
let expected_sel = Selection::single(6, 5);
test_hooks_with_pairs(
&doc,
&sel,
differing_pairs(),
|open, close| format!("word{}{}{}", open, close, LINE_END),
&expected_sel,
);
test_hooks_with_pairs(
&doc,
&sel,
matching_pairs(),
|open, _| format!("word{}{}", open, LINE_END),
&expected_sel,
);
}
}
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