@ -10,9 +10,12 @@ use tui::widgets::Row;
pub use typed ::* ; pub use typed ::* ;
use helix_core ::{ use helix_core ::{
char_idx_at_visual_offset , comment , char_idx_at_visual_offset ,
chars ::char_is_word ,
comment ,
doc_formatter ::TextFormat , doc_formatter ::TextFormat ,
encoding , find_workspace , graphemes , encoding , find_workspace ,
graphemes ::{ self , next_grapheme_boundary , RevRopeGraphemes } ,
history ::UndoKind , history ::UndoKind ,
increment , indent , increment , indent ,
indent ::IndentStyle , indent ::IndentStyle ,
@ -24,7 +27,7 @@ use helix_core::{
search ::{ self , CharMatcher } , search ::{ self , CharMatcher } ,
selection , shellwords , surround , selection , shellwords , surround ,
syntax ::{ BlockCommentToken , LanguageServerFeature } , syntax ::{ BlockCommentToken , LanguageServerFeature } ,
text_annotations ::TextAnnotations , text_annotations ::{ Overlay , TextAnnotations } ,
textobject , textobject ,
unicode ::width ::UnicodeWidthChar , unicode ::width ::UnicodeWidthChar ,
visual_offset_from_block , Deletion , LineEnding , Position , Range , Rope , RopeGraphemes , visual_offset_from_block , Deletion , LineEnding , Position , Range , Rope , RopeGraphemes ,
@ -502,6 +505,8 @@ impl MappableCommand {
record_macro , "Record macro" , record_macro , "Record macro" ,
replay_macro , "Replay macro" , replay_macro , "Replay macro" ,
command_palette , "Open command palette" , command_palette , "Open command palette" ,
goto_word , "Jump to a two-character label" ,
extend_to_word , "Extend to a two-character label" ,
) ; ) ;
} }
@ -5814,3 +5819,182 @@ fn replay_macro(cx: &mut Context) {
cx . editor . macro_replaying . pop ( ) ; cx . editor . macro_replaying . pop ( ) ;
} ) ) ; } ) ) ;
} }
fn goto_word ( cx : & mut Context ) {
jump_to_word ( cx , Movement ::Move )
}
fn extend_to_word ( cx : & mut Context ) {
jump_to_word ( cx , Movement ::Extend )
}
fn jump_to_label ( cx : & mut Context , labels : Vec < Range > , behaviour : Movement ) {
let doc = doc ! ( cx . editor ) ;
let alphabet = & cx . editor . config ( ) . jump_label_alphabet ;
if labels . is_empty ( ) {
return ;
}
let alphabet_char = | i | {
let mut res = Tendril ::new ( ) ;
res . push ( alphabet [ i ] ) ;
res
} ;
// Add label for each jump candidate to the View as virtual text.
let text = doc . text ( ) . slice ( .. ) ;
let mut overlays : Vec < _ > = labels
. iter ( )
. enumerate ( )
. flat_map ( | ( i , range ) | {
[
Overlay ::new ( range . from ( ) , alphabet_char ( i / alphabet . len ( ) ) ) ,
Overlay ::new (
graphemes ::next_grapheme_boundary ( text , range . from ( ) ) ,
alphabet_char ( i % alphabet . len ( ) ) ,
) ,
]
} )
. collect ( ) ;
overlays . sort_unstable_by_key ( | overlay | overlay . char_idx ) ;
let ( view , doc ) = current ! ( cx . editor ) ;
doc . set_jump_labels ( view . id , overlays ) ;
// Accept two characters matching a visible label. Jump to the candidate
// for that label if it exists.
let primary_selection = doc . selection ( view . id ) . primary ( ) ;
let view = view . id ;
let doc = doc . id ( ) ;
cx . on_next_key ( move | cx , event | {
let alphabet = & cx . editor . config ( ) . jump_label_alphabet ;
let Some ( i ) = event . char ( ) . and_then ( | ch | alphabet . iter ( ) . position ( | & it | it = = ch ) ) else {
doc_mut ! ( cx . editor , & doc ) . remove_jump_labels ( view ) ;
return ;
} ;
let outer = i * alphabet . len ( ) ;
// Bail if the given character cannot be a jump label.
if outer > labels . len ( ) {
doc_mut ! ( cx . editor , & doc ) . remove_jump_labels ( view ) ;
return ;
}
cx . on_next_key ( move | cx , event | {
doc_mut ! ( cx . editor , & doc ) . remove_jump_labels ( view ) ;
let alphabet = & cx . editor . config ( ) . jump_label_alphabet ;
let Some ( inner ) = event . char ( ) . and_then ( | ch | alphabet . iter ( ) . position ( | & it | it = = ch ) ) else {
return ;
} ;
if let Some ( mut range ) = labels . get ( outer + inner ) . copied ( ) {
range = if behaviour = = Movement ::Extend {
let anchor = if range . anchor < range . head {
let from = primary_selection . from ( ) ;
if range . anchor < from {
range . anchor
} else {
from
}
} else {
let to = primary_selection . to ( ) ;
if range . anchor > to {
range . anchor
} else {
to
}
} ;
Range ::new ( anchor , range . head )
} else {
range . with_direction ( Direction ::Forward )
} ;
doc_mut ! ( cx . editor , & doc ) . set_selection ( view , range . into ( ) ) ;
}
} ) ;
} ) ;
}
fn jump_to_word ( cx : & mut Context , behaviour : Movement ) {
// Calculate the jump candidates: ranges for any visible words with two or
// more characters.
let alphabet = & cx . editor . config ( ) . jump_label_alphabet ;
let jump_label_limit = alphabet . len ( ) * alphabet . len ( ) ;
let mut words = Vec ::with_capacity ( jump_label_limit ) ;
let ( view , doc ) = current_ref ! ( cx . editor ) ;
let text = doc . text ( ) . slice ( .. ) ;
// This is not necessarily exact if there is virtual text like soft wrap.
// It's ok though because the extra jump labels will not be rendered.
let start = text . line_to_char ( text . char_to_line ( view . offset . anchor ) ) ;
let end = text . line_to_char ( view . estimate_last_doc_line ( doc ) + 1 ) ;
let primary_selection = doc . selection ( view . id ) . primary ( ) ;
let cursor = primary_selection . cursor ( text ) ;
let mut cursor_fwd = Range ::point ( cursor ) ;
let mut cursor_rev = Range ::point ( cursor ) ;
if text . get_char ( cursor ) . is_some_and ( | c | ! c . is_whitespace ( ) ) {
let cursor_word_end = movement ::move_next_word_end ( text , cursor_fwd , 1 ) ;
// single grapheme words need a specical case
if cursor_word_end . anchor = = cursor {
cursor_fwd = cursor_word_end ;
}
let cursor_word_start = movement ::move_prev_word_start ( text , cursor_rev , 1 ) ;
if cursor_word_start . anchor = = next_grapheme_boundary ( text , cursor ) {
cursor_rev = cursor_word_start ;
}
}
' outer : loop {
let mut changed = false ;
while cursor_fwd . head < end {
cursor_fwd = movement ::move_next_word_end ( text , cursor_fwd , 1 ) ;
// The cursor is on a word that is atleast two graphemes long and
// madeup of word characters. The latter condition is needed because
// move_next_word_end simply treats a sequence of characters from
// the same char class as a word so `=<` would also count as a word.
let add_label = RevRopeGraphemes ::new ( text . slice ( .. cursor_fwd . head ) )
. take ( 2 )
. take_while ( | g | g . chars ( ) . all ( char_is_word ) )
. count ( )
= = 2 ;
if ! add_label {
continue ;
}
changed = true ;
// skip any leading whitespace
cursor_fwd . anchor + = text
. chars_at ( cursor_fwd . anchor )
. take_while ( | & c | ! char_is_word ( c ) )
. count ( ) ;
words . push ( cursor_fwd ) ;
if words . len ( ) = = jump_label_limit {
break 'outer ;
}
break ;
}
while cursor_rev . head > start {
cursor_rev = movement ::move_prev_word_start ( text , cursor_rev , 1 ) ;
// The cursor is on a word that is atleast two graphemes long and
// madeup of word characters. The latter condition is needed because
// move_prev_word_start simply treats a sequence of characters from
// the same char class as a word so `=<` would also count as a word.
let add_label = RopeGraphemes ::new ( text . slice ( cursor_rev . head .. ) )
. take ( 2 )
. take_while ( | g | g . chars ( ) . all ( char_is_word ) )
. count ( )
= = 2 ;
if ! add_label {
continue ;
}
changed = true ;
cursor_rev . anchor - = text
. chars_at ( cursor_rev . anchor )
. reversed ( )
. take_while ( | & c | ! char_is_word ( c ) )
. count ( ) ;
words . push ( cursor_rev ) ;
if words . len ( ) = = jump_label_limit {
break 'outer ;
}
break ;
}
if ! changed {
break ;
}
}
jump_to_label ( cx , words , behaviour )
}
Pascal Kuthe
1 year ago
committed by
Blaž Hrastnik