@ -1,3 +1,4 @@
use std ::cmp ;
use std ::fmt ::Display ;
use std ::fmt ::Display ;
use ropey ::RopeSlice ;
use ropey ::RopeSlice ;
@ -5,7 +6,8 @@ use tree_sitter::{Node, QueryCursor};
use crate ::chars ::{ categorize_char , char_is_whitespace , CharCategory } ;
use crate ::chars ::{ categorize_char , char_is_whitespace , CharCategory } ;
use crate ::graphemes ::{ next_grapheme_boundary , prev_grapheme_boundary } ;
use crate ::graphemes ::{ next_grapheme_boundary , prev_grapheme_boundary } ;
use crate ::line_ending ::rope_is_line_ending ;
use crate ::indent ::indent_level_for_line ;
use crate ::line_ending ::{ get_line_ending , rope_is_line_ending } ;
use crate ::movement ::Direction ;
use crate ::movement ::Direction ;
use crate ::syntax ::LanguageConfiguration ;
use crate ::syntax ::LanguageConfiguration ;
use crate ::Range ;
use crate ::Range ;
@ -198,6 +200,92 @@ pub fn textobject_paragraph(
Range ::new ( anchor , head )
Range ::new ( anchor , head )
}
}
pub fn textobject_indentation_level (
slice : RopeSlice ,
range : Range ,
textobject : TextObject ,
count : usize ,
indent_width : usize ,
tab_width : usize ,
) -> Range {
let ( mut line_start , mut line_end ) = range . line_range ( slice ) ;
let mut min_indent : Option < usize > = None ;
// Find the innermost indent represented by the current selection range.
// Range could be only on one line, so we need an inclusive range in the
// loop definition.
for i in line_start ..= line_end {
let line = slice . line ( i ) ;
// Including empty lines leads to pathological behaviour, where having
// an empty line in a multi-line selection causes the entire buffer to
// be selected, which is not intuitively what we want.
if ! rope_is_line_ending ( line ) {
let indent_level = indent_level_for_line ( line , tab_width , indent_width ) ;
min_indent = if let Some ( prev_min_indent ) = min_indent {
Some ( cmp ::min ( indent_level , prev_min_indent ) )
} else {
Some ( indent_level )
}
}
}
// It can happen that the selection consists of an empty line, so min_indent
// will be untouched, in which case we can skip the rest of the function
// and no-op.
if min_indent . is_none ( ) {
return range ;
}
let min_indent = min_indent . unwrap ( ) + 1 - count ;
// Traverse backwards until there are no more lines indented the same or
// greater, and extend the start of the range to it.
if line_start > 0 {
for line in slice . lines_at ( line_start ) . reversed ( ) {
let indent_level = indent_level_for_line ( line , tab_width , indent_width ) ;
let empty_line = rope_is_line_ending ( line ) ;
if ( min_indent > 0 & & indent_level > = min_indent )
| | ( min_indent = = 0 & & ! empty_line )
| | ( textobject = = TextObject ::Around & & empty_line )
{
line_start - = 1 ;
} else {
break ;
}
}
}
// Traverse forwards until there are no more lines indented the same or
// greater, and extend the end of the range to it.
if line_end < slice . len_lines ( ) {
for line in slice . lines_at ( line_end + 1 ) {
let indent_level = indent_level_for_line ( line , tab_width , indent_width ) ;
let empty_line = rope_is_line_ending ( line ) ;
if ( min_indent > 0 & & indent_level > = min_indent )
| | ( min_indent = = 0 & & ! empty_line )
| | ( textobject = = TextObject ::Around & & empty_line )
{
line_end + = 1 ;
} else {
break ;
}
}
}
let new_char_start = slice . line_to_char ( line_start ) ;
let new_line_end_slice = slice . line ( line_end ) ;
let mut new_char_end = new_line_end_slice . chars ( ) . count ( ) + slice . line_to_char ( line_end ) ;
// Unless the end of the new range is to the end of the buffer, we want to
// trim the final line ending from the selection.
if let Some ( line_ending ) = get_line_ending ( & new_line_end_slice ) {
new_char_end = new_char_end . saturating_sub ( line_ending . len_chars ( ) ) ;
}
Range ::new ( new_char_start , new_char_end ) . with_direction ( range . direction ( ) )
}
pub fn textobject_pair_surround (
pub fn textobject_pair_surround (
syntax : Option < & Syntax > ,
syntax : Option < & Syntax > ,
slice : RopeSlice ,
slice : RopeSlice ,
@ -498,6 +586,160 @@ mod test {
}
}
}
}
#[ test ]
fn test_textobject_indentation_level_inside ( ) {
let tests = [
( "#[|]#" , "#[|]#" , 1 ) ,
(
"unindented\n\t#[i|]#ndented once" ,
"unindented\n#[\tindented once|]#" ,
1 ,
) ,
(
"unindented\n\t#[i|]#ndented once\n" ,
"unindented\n#[\tindented once|]#\n" ,
1 ,
) ,
(
"unindented\n\t#[|in]#dented once\n" ,
"unindented\n#[|\tindented once]#\n" ,
1 ,
) ,
(
"#[u|]#nindented\n\tindented once\n" ,
"#[unindented\n\tindented once|]#\n" ,
1 ,
) ,
(
"unindented\n\n\t#[i|]#ndented once and separated\n" ,
"unindented\n\n#[\tindented once and separated|]#\n" ,
1 ,
) ,
(
"#[u|]#nindented\n\n\tindented once and separated\n" ,
"#[unindented|]#\n\n\tindented once and separated\n" ,
1 ,
) ,
(
"unindented\n\nunindented again\n\tindented #[once|]#\nunindented one more time" ,
"unindented\n\nunindented again\n#[\tindented once|]#\nunindented one more time" ,
1 ,
) ,
(
"unindented\n\nunindented #[again\n\tindented|]# once\nunindented one more time\n" ,
"unindented\n\n#[unindented again\n\tindented once\nunindented one more time|]#\n" ,
1 ,
) ,
(
"unindented\n\tindented #[once\n\n\tindented once|]# and separated\n\tindented once again\nunindented one more time\n" ,
"unindented\n#[\tindented once\n\n\tindented once and separated\n\tindented once again|]#\nunindented one more time\n" ,
1 ,
) ,
(
"unindented\n\tindented once\n#[\n|]#\tindented once and separated\n\tindented once again\nunindented one more time\n" ,
"unindented\n\tindented once\n#[\n|]#\tindented once and separated\n\tindented once again\nunindented one more time\n" ,
1 ,
) ,
(
"unindented\n\tindented once\n\t\tindented #[twice|]#\n\tindented once again\nunindented\n" ,
"unindented\n#[\tindented once\n\t\tindented twice\n\tindented once again|]#\nunindented\n" ,
2 ,
) ,
(
"unindented\n\tindented once\n\t\tindented #[twice|]#\n\tindented once again\nunindented\n" ,
"#[unindented\n\tindented once\n\t\tindented twice\n\tindented once again\nunindented|]#\n" ,
3 ,
) ,
] ;
for ( before , expected , count ) in tests {
let ( s , selection ) = crate ::test ::print ( before ) ;
let text = Rope ::from ( s . as_str ( ) ) ;
let selection = selection . transform ( | r | {
textobject_indentation_level ( text . slice ( .. ) , r , TextObject ::Inside , count , 4 , 4 )
} ) ;
let actual = crate ::test ::plain ( s . as_ref ( ) , & selection ) ;
assert_eq! ( actual , expected , "\nbefore: `{:?}`" , before ) ;
}
}
#[ test ]
fn test_textobject_indentation_level_around ( ) {
let tests = [
( "#[|]#" , "#[|]#" , 1 ) ,
(
"unindented\n\t#[i|]#ndented once" ,
"unindented\n#[\tindented once|]#" ,
1 ,
) ,
(
"unindented\n\t#[i|]#ndented once\n" ,
"unindented\n#[\tindented once\n|]#" ,
1 ,
) ,
(
"unindented\n\t#[|in]#dented once\n" ,
"unindented\n#[|\tindented once\n]#" ,
1 ,
) ,
(
"#[u|]#nindented\n\tindented once\n" ,
"#[unindented\n\tindented once\n|]#" ,
1 ,
) ,
(
"unindented\n\n\t#[i|]#ndented once and separated\n" ,
"unindented\n#[\n\tindented once and separated\n|]#" ,
1 ,
) ,
(
"#[u|]#nindented\n\n\tindented once and separated\n" ,
"#[unindented\n\n\tindented once and separated\n|]#" ,
1 ,
) ,
(
"unindented\n\nunindented again\n\tindented #[once|]#\nunindented one more time" ,
"unindented\n\nunindented again\n#[\tindented once|]#\nunindented one more time" ,
1 ,
) ,
(
"unindented\n\nunindented #[again\n\tindented|]# once\nunindented one more time\n" ,
"#[unindented\n\nunindented again\n\tindented once\nunindented one more time\n|]#" ,
1 ,
) ,
(
"unindented\n\tindented #[once\n\n\tindented once|]# and separated\n\tindented once again\nunindented one more time\n" ,
"unindented\n#[\tindented once\n\n\tindented once and separated\n\tindented once again|]#\nunindented one more time\n" ,
1 ,
) ,
(
"unindented\n\tindented once\n#[\n|]#\tindented once and separated\n\tindented once again\nunindented one more time\n" ,
"unindented\n\tindented once\n#[\n|]#\tindented once and separated\n\tindented once again\nunindented one more time\n" ,
1 ,
) ,
(
"unindented\n\tindented once\n\t\tindented #[twice|]#\n\tindented once again\nunindented\n" ,
"unindented\n#[\tindented once\n\t\tindented twice\n\tindented once again|]#\nunindented\n" ,
2 ,
) ,
(
"unindented\n\tindented once\n\t\tindented #[twice|]#\n\tindented once again\nunindented\n" ,
"#[unindented\n\tindented once\n\t\tindented twice\n\tindented once again\nunindented\n|]#" ,
3 ,
) ,
] ;
for ( before , expected , count ) in tests {
let ( s , selection ) = crate ::test ::print ( before ) ;
let text = Rope ::from ( s . as_str ( ) ) ;
let selection = selection . transform ( | r | {
textobject_indentation_level ( text . slice ( .. ) , r , TextObject ::Around , count , 4 , 4 )
} ) ;
let actual = crate ::test ::plain ( s . as_ref ( ) , & selection ) ;
assert_eq! ( actual , expected , "\nbefore: `{:?}`" , before ) ;
}
}
#[ test ]
#[ test ]
fn test_textobject_surround ( ) {
fn test_textobject_surround ( ) {
// (text, [(cursor position, textobject, final range, surround char, count), ...])
// (text, [(cursor position, textobject, final range, surround char, count), ...])