@ -39,13 +39,101 @@ pub fn find_nth_pairs_pos(
n : usize ,
n : usize ,
) -> Option < ( usize , usize ) > {
) -> Option < ( usize , usize ) > {
let ( open , close ) = get_pair ( ch ) ;
let ( open , close ) = get_pair ( ch ) ;
let ( open_pos , close_pos ) = if open = = close {
// find_nth* do not consider current character; +1/-1 to include them
// find_nth* do not consider current character; +1/-1 to include them
let open_pos = search ::find_nth_prev ( text , open , pos + 1 , n , true ) ? ;
(
let close_pos = search ::find_nth_next ( text , close , pos - 1 , n , true ) ? ;
search ::find_nth_prev ( text , open , pos + 1 , n , true ) ? ,
search ::find_nth_next ( text , close , pos - 1 , n , true ) ? ,
)
} else {
(
find_nth_open_pair ( text , open , close , pos , n ) ? ,
find_nth_close_pair ( text , open , close , pos , n ) ? ,
)
} ;
Some ( ( open_pos , close_pos ) )
Some ( ( open_pos , close_pos ) )
}
}
fn find_nth_open_pair (
text : RopeSlice ,
open : char ,
close : char ,
mut pos : usize ,
n : usize ,
) -> Option < usize > {
let mut chars = text . chars_at ( pos + 1 ) ;
// Adjusts pos for the first iteration, and handles the case of the
// cursor being *on* the close character which will get falsely stepped over
// if not skipped here
if chars . prev ( ) ? = = open {
return Some ( pos ) ;
}
for _ in 0 .. n {
let mut step_over : usize = 0 ;
loop {
let c = chars . prev ( ) ? ;
pos = pos . saturating_sub ( 1 ) ;
// ignore other surround pairs that are enclosed *within* our search scope
if c = = close {
step_over + = 1 ;
} else if c = = open {
if step_over = = 0 {
break ;
}
step_over = step_over . saturating_sub ( 1 ) ;
}
}
}
Some ( pos )
}
fn find_nth_close_pair (
text : RopeSlice ,
open : char ,
close : char ,
mut pos : usize ,
n : usize ,
) -> Option < usize > {
if pos > = text . len_chars ( ) {
return None ;
}
let mut chars = text . chars_at ( pos ) ;
if chars . next ( ) ? = = close {
return Some ( pos ) ;
}
for _ in 0 .. n {
let mut step_over : usize = 0 ;
loop {
let c = chars . next ( ) ? ;
pos + = 1 ;
if c = = open {
step_over + = 1 ;
} else if c = = close {
if step_over = = 0 {
break ;
}
step_over = step_over . saturating_sub ( 1 ) ;
}
}
}
Some ( pos )
}
/// Find position of surround characters around every cursor. Returns None
/// Find position of surround characters around every cursor. Returns None
/// if any positions overlap. Note that the positions are in a flat Vec.
/// if any positions overlap. Note that the positions are in a flat Vec.
/// Use get_surround_pos().chunks(2) to get matching pairs of surround positions.
/// Use get_surround_pos().chunks(2) to get matching pairs of surround positions.
@ -101,6 +189,27 @@ mod test {
assert_eq! ( find_nth_pairs_pos ( slice , '(' , 13 , 3 ) , Some ( ( 0 , 27 ) ) ) ;
assert_eq! ( find_nth_pairs_pos ( slice , '(' , 13 , 3 ) , Some ( ( 0 , 27 ) ) ) ;
}
}
#[ test ]
fn test_find_nth_pairs_pos_same ( ) {
let doc = Rope ::from ( "'so 'many 'good' text' here'" ) ;
let slice = doc . slice ( .. ) ;
// cursor on go[o]d
assert_eq! ( find_nth_pairs_pos ( slice , '\'' , 13 , 1 ) , Some ( ( 10 , 15 ) ) ) ;
assert_eq! ( find_nth_pairs_pos ( slice , '\'' , 13 , 2 ) , Some ( ( 4 , 21 ) ) ) ;
assert_eq! ( find_nth_pairs_pos ( slice , '\'' , 13 , 3 ) , Some ( ( 0 , 27 ) ) ) ;
}
#[ test ]
fn test_find_nth_pairs_pos_step ( ) {
let doc = Rope ::from ( "((so)((many) good (text))(here))" ) ;
let slice = doc . slice ( .. ) ;
// cursor on go[o]d
assert_eq! ( find_nth_pairs_pos ( slice , '(' , 15 , 1 ) , Some ( ( 5 , 24 ) ) ) ;
assert_eq! ( find_nth_pairs_pos ( slice , '(' , 15 , 2 ) , Some ( ( 0 , 31 ) ) ) ;
}
#[ test ]
#[ test ]
fn test_find_nth_pairs_pos_mixed ( ) {
fn test_find_nth_pairs_pos_mixed ( ) {
let doc = Rope ::from ( "(so [many {good} text] here)" ) ;
let doc = Rope ::from ( "(so [many {good} text] here)" ) ;