package inquire
An OCaml library to create beautiful interactive CLIs
Install
Dune Dependency
Authors
Maintainers
Sources
inquire-0.2.1.tbz
sha256=0b88d89e24d4cbc0560a7c8d8ec51388990e1b27f24685029997afa52a7c720f
sha512=8b62860a8d15e41528a404a6f1b9968c3d79755607b5ea319af2e3e45516e672a785361d278279910928db4054e1800e87bcee0210ff3eabfb330713b368c827
doc/src/inquire.lambda-term/lTerm_vi.ml.html
Source file lTerm_vi.ml
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2622 2623 2624 2625 2626 2627 2628 2629 2630 2631 2632 2633 2634 2635 2636 2637 2638 2639 2640 2641 2642 2643 2644 2645 2646 2647 2648 2649 2650 2651 2652 2653 2654 2655 2656 2657 2658 2659 2660 2661 2662(* * lTerm_vi.ml * ------------ * Copyright : (c) 2020, ZAN DoYe <zandoye@gmail.com> * Licence : BSD3 * * This file is a part of Lambda-Term. *) module Concurrent = struct module Thread= struct include Lwt let run= Lwt_unix.run [@@ocaml.warning "-3"] let sleep= Lwt_unix.sleep end module MsgBox= struct include Lwt_mvar let get= Lwt_mvar.take let create= Lwt_mvar.create_empty end end module Query = struct (* (* left right *) | Left of int (* h *) | Right of int (* l *) | Right_nl of int (* l, including newline *) | Line_FirstChar of int (* 0 *) | Line_FirstNonBlank of int (* ^ *) | Line_LastChar of int (* $ *) | Line_LastChar_nl of int (* $ *) | Line_LastNonBlank of int (* g_ *) | Line_LastNonBlank_nl of int (* g_ *) (* up down *) | Upward of int (* k *) | Downward of int (* j *) | GotoLine of int (* gg or G *) | GotoLine_first (* gg *) | GotoLine_last (* G *) (* word *) | Word of int (* w *) | WORD of int (* W *) | Word_end of int (* e *) | WORD_end of int (* E *) | Word_back of int (* b *) | WORD_back of int (* B *) | Word_back_end of int (* ge *) | WORD_back_end of int (* gE *) (* line *) | Line (* occurrence *) | Occurrence_inline of string | Occurrence_inline_back of string | Occurrence_inline_till of string | Occurrence_inline_till_back of string (* text object *) | Sentence_backword of int (* ( *) | Sentence_forward of int (* ) *) | Paragraph_backward of int (* { *) | Paragraph_forward of int (* } *) (* text object selection *) | Word_include of int (* aw *) | Word_inner of int (* iw *) | WORD_include of int (* aW *) | WORD_inner of int (* iW *) | Sentence_include of int (* as *) | Sentence_inner of int (* is *) | Paragraph_include of int (* ap *) | Paragraph_inner of int (* ip *) | Parenthesis_include of int (* a( a) *) | Parenthesis_inner of int (* i( i) *) | Bracket_include of int (* a[ a] *) | Bracket_inner of int (* i[ i] *) | AngleBracket_include of int (* a< a> *) | AngleBracket_inner of int (* i< i> *) | Brace_include of int (* a{ a} *) | Brace_inner of int (* i{ i} *) | Quote_include of (string * int) | Quote_inner of (string * int) (* match *) | Match *) let left n ctx= (* h *) let n= max 0 n in let edit= Zed_edit.edit ctx in let lines= Zed_edit.lines edit and line_idx= Zed_edit.line ctx in let line_len= Zed_lines.line_length lines line_idx in let column= Zed_edit.column ctx in let dest= (column - n) |> max 0 |> min line_len in let positon= Zed_edit.position ctx in let delta= column - dest in (positon - delta, delta) let right ?(newline=false) n ctx= (* l *) let n= max 0 n in let edit= Zed_edit.edit ctx in let lines= Zed_edit.lines edit and line_idx= Zed_edit.line ctx in let line_len= max 0 @@ let len= Zed_lines.line_length lines line_idx in if newline then len else len - 1 in let column= Zed_edit.column ctx in let dest= (column + n) |> max 0 |> min line_len in let positon= Zed_edit.position ctx in let delta= dest - column in (positon + delta, delta) let line_FirstChar _n ctx= (* 0 *) let edit= Zed_edit.edit ctx in let lines= Zed_edit.lines edit and line_idx= Zed_edit.line ctx in let start= Zed_lines.line_start lines line_idx in let column= Zed_edit.column ctx in (start, column - start) let line_LastChar ?(newline=false) n ctx= (* ^ *) let edit= Zed_edit.edit ctx in let lines= Zed_edit.lines edit and line_idx= Zed_edit.line ctx in let count= Zed_lines.count lines in let line_idx= if n > 1 then min count @@ line_idx + (n - 1) else line_idx in let stop= Zed_lines.line_stop lines line_idx in if newline then stop else max 0 (stop - 1) let get_category ?(nl_as_sp=false) uchar= if uchar = Zed_utf8.extract "\n" 0 && nl_as_sp then `Zs else Uucp.Gc.general_category uchar let get_boundary multi_line ctx= let edit= Zed_edit.edit ctx in if multi_line then (0, Zed_rope.length (Zed_edit.text edit)) else let lines= Zed_edit.lines edit and line_idx= Zed_edit.line ctx in (Zed_lines.line_start lines line_idx , Zed_lines.line_stop lines line_idx) let is_space= function | `Cc | `Zs | `Zl | `Zp | `Mn -> true | _-> false let is_not_space c= not (is_space c) let category_equal c1 c2= match c1, c2 with | `Ll, `Lu | `Lu, `Ll-> true | _-> c1 = c2 let category_equal_blank c1 c2= let b1= is_space c1 and b2= is_space c2 in b1 = b2 let next_category ?(nl_as_sp=true) ?(is_equal=category_equal) ~pos ~stop text = let start_category= let zchar= Zed_rope.get text pos in let core= Zed_char.core zchar in get_category ~nl_as_sp core in let zip= Zed_rope.Zip.make_f text pos in let rec skip_curr zip pos= if pos < stop then let zchar, zip= Zed_rope.Zip.next zip in let category= get_category ~nl_as_sp (Zed_char.core zchar) in if is_equal category start_category then skip_curr zip (pos + 1) else pos else pos in skip_curr zip pos let prev_category ?(nl_as_sp=true) ?(is_equal=category_equal) ~pos ~start text = let start_category= let zchar= Zed_rope.get text pos in let core= Zed_char.core zchar in get_category ~nl_as_sp core in let zip= Zed_rope.Zip.make_f text pos in let rec skip_curr zip pos= if pos > start then let zchar, zip= Zed_rope.Zip.prev zip in let category= get_category ~nl_as_sp (Zed_char.core zchar) in if is_equal category start_category then skip_curr zip (pos - 1) else pos else pos in (skip_curr zip pos) - 1 let goto_line ctx index= let edit= Zed_edit.edit ctx in let lines= Zed_edit.lines edit in let index= min index (Zed_lines.count lines) in Zed_lines.line_start lines index let next_line ctx delta= let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let lines= Zed_edit.lines edit in let index = Zed_edit.line ctx in let cursor= Zed_edit.cursor ctx in let count= Zed_lines.count lines in if index = Zed_lines.count lines then Zed_rope.length text - 1 else begin let stop = if index + delta >= count then Zed_rope.length text else Zed_lines.line_start lines (index + delta + 1) - 1 in let wanted_idx= Zed_lines.get_idx_by_width lines (min count (index + delta)) (Zed_cursor.get_wanted_column cursor) in max (Zed_lines.line_start lines (index + delta)) (min wanted_idx (stop-1)) end let prev_line ctx delta= let edit= Zed_edit.edit ctx in let lines= Zed_edit.lines edit in let cursor= Zed_edit.cursor ctx in let index = Zed_cursor.get_line cursor in if index - delta < 0 then 0 else let stop = Zed_lines.line_start lines (index-delta+1) - 1 in let wanted_idx= Zed_lines.get_idx_by_width lines (index - delta) (Zed_cursor.get_wanted_column cursor) in max (Zed_lines.line_start lines (index - delta)) (min wanted_idx (stop-1)) let next_word' ?(multi_line=true) ~next_category ~pos ~stop text= let nl_as_sp= multi_line in let start_category= let zchar= Zed_rope.get text pos in let core= Zed_char.core zchar in get_category ~nl_as_sp core in let next= next_category ~nl_as_sp ~pos ~stop text in if is_space start_category then next (* currently at a space, just skip spaces *) else if next < stop then (* skip potential subsequent spaces after skip current word*) let zchar= Zed_rope.get text next in let core= Zed_char.core zchar in if is_space (get_category ~nl_as_sp core) then (* skip subsequent spaces *) next_category ~nl_as_sp ~pos:next ~stop text else next else stop let next_word ?multi_line ~pos ~stop text= let next_category ~nl_as_sp= next_category ~nl_as_sp ~is_equal:category_equal in next_word' ?multi_line ~next_category ~pos ~stop text let next_WORD ?multi_line ~pos ~stop text= let next_category ~nl_as_sp= next_category ~nl_as_sp ~is_equal:category_equal_blank in next_word' ?multi_line ~next_category ~pos ~stop text let line_FirstNonBlank _n ctx= (* ^ *) let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let lines= Zed_edit.lines edit and line_idx= Zed_edit.line ctx in let line_len= Zed_lines.line_length lines line_idx in let start, stop= get_boundary false ctx in if line_len > 0 then if is_space (get_category (Zed_char.core (Zed_rope.get text start))) then min (stop-1) (next_word ~multi_line:false ~pos:start ~stop text) else start else 0 let prev_word' ?(multi_line=true) ~prev_category ~pos ~start text= if pos <= start then start else let nl_as_sp= multi_line in let start_category= let zchar= Zed_rope.get text pos in let core= Zed_char.core zchar in get_category ~nl_as_sp core and before_start= let zchar= Zed_rope.get text (pos - 1) in let core= Zed_char.core zchar in get_category ~nl_as_sp core in let prev= prev_category ~nl_as_sp ~pos ~start text in 1 + if category_equal start_category before_start then if is_space start_category then prev_category ~nl_as_sp ~pos:prev ~start text else prev else if is_space before_start then let prev= prev_category ~nl_as_sp ~pos:prev ~start text in if prev <= start then prev else prev_category ~nl_as_sp ~pos:prev ~start text else prev_category ~nl_as_sp ~pos:prev ~start text let prev_word ?multi_line ~pos ~start text= let prev_category ~nl_as_sp= prev_category ~nl_as_sp ~is_equal:category_equal in prev_word' ?multi_line ~prev_category ~pos ~start text let prev_WORD ?multi_line ~pos ~start text= let prev_category ~nl_as_sp= prev_category ~nl_as_sp ~is_equal:category_equal_blank in prev_word' ?multi_line ~prev_category ~pos ~start text let next_word_end' ?(multi_line=true) ~next_category ~pos ~stop text= let pos= if pos >= (stop-1) then stop else let nl_as_sp= multi_line in let start_category= let zchar= Zed_rope.get text pos in let core= Zed_char.core zchar in get_category ~nl_as_sp core and after_start= let zchar= Zed_rope.get text (pos + 1) in let core= Zed_char.core zchar in get_category ~nl_as_sp core in let next= next_category ~nl_as_sp ~pos ~stop text in if next >= stop then stop else if category_equal start_category after_start && is_not_space start_category then next else let next= next_category ~nl_as_sp ~pos:next ~stop text in if next >= stop then stop else if is_space start_category || is_not_space after_start then next else next_category ~nl_as_sp ~pos:next ~stop text in max 0 @@ pos - 1 let next_word_end ?multi_line ~pos ~stop text= let next_category ~nl_as_sp= next_category ~nl_as_sp ~is_equal:category_equal in next_word_end' ?multi_line ~next_category ~pos ~stop text let next_WORD_end ?multi_line ~pos ~stop text= let next_category ~nl_as_sp= next_category ~nl_as_sp ~is_equal:category_equal_blank in next_word_end' ?multi_line ~next_category ~pos ~stop text let prev_word_end' ?(multi_line=true) ~prev_category ~pos ~start text= if pos <= start then start else let nl_as_sp= multi_line in let start_category= let zchar= Zed_rope.get text pos in let core= Zed_char.core zchar in get_category ~nl_as_sp core in let prev= prev_category ~nl_as_sp ~pos ~start text in if prev <= start then start else if is_space start_category then prev else let before_category= let zchar= Zed_rope.get text prev in let core= Zed_char.core zchar in get_category ~nl_as_sp core in if is_space before_category then prev_category ~nl_as_sp ~pos:prev ~start text else prev let prev_word_end ?multi_line ~pos ~start text= let prev_category ~nl_as_sp= prev_category ~nl_as_sp ~is_equal:category_equal in prev_word_end' ?multi_line ~prev_category ~pos ~start text let prev_WORD_end ?multi_line ~pos ~start text= let prev_category ~nl_as_sp= prev_category ~nl_as_sp ~is_equal:category_equal_blank in prev_word_end' ?multi_line ~prev_category ~pos ~start text let occurrence_char ~pos ~stop chr text= try let zip= Zed_rope.Zip.make_f text pos in let next= Zed_rope.Zip.find_f (fun c-> Zed_char.compare chr c = 0) zip in let next_pos= Zed_rope.Zip.offset next in if next_pos < stop then Some next_pos else None with _-> None let occurrence_char_back ~pos ~start chr text= try let zip= Zed_rope.Zip.make_f text pos in let prev= Zed_rope.Zip.find_b (fun c-> Zed_char.compare chr c = 0) zip in let prev_pos= Zed_rope.Zip.offset prev in if prev_pos > start then Some (prev_pos - 1) else None with _-> None let occurrence ~pos ~stop ~cmp text= try let zip= Zed_rope.Zip.make_f text pos in let next= Zed_rope.Zip.find_f cmp zip in let next_pos= Zed_rope.Zip.offset next in if next_pos < stop then Some (next_pos, Zed_rope.get text next_pos) else None with _-> None let occurrence_back ~pos ~start ~cmp text= try let zip= Zed_rope.Zip.make_f text pos in let prev= Zed_rope.Zip.find_b cmp zip in let prev_pos= Zed_rope.Zip.offset prev in if prev_pos > start then Some (prev_pos - 1, Zed_rope.get text (prev_pos - 1)) else None with _-> None let occurrence_pare_raw ~pos ~level ~start ~stop pair text= let left, right= pair in let rec find_left level pos= if pos >= start then if level > 0 then match occurrence_char_back ~pos ~start left text with | Some pos-> find_left (level-1) (pos - 1) | None-> None else Some (pos+1) else None in let rec find_right level pos= if pos < stop then if level > 0 then match occurrence_char ~pos ~stop right text with | Some pos-> find_right (level-1) (pos - 1) | None-> None else Some (pos-1) else None in if level > 0 then match find_left level (pos+1) with | Some left-> (match find_right level pos with | Some right-> Some (left, right) | None-> None) | None-> None else None let occurrence_pare ~pos ~level ~start ~stop pair text= let left, right= pair in let equal a b= Zed_char.compare a b = 0 in let cmp c= equal c left || equal c right in let rec find_left level pos= if level > 0 then if pos >= start then match occurrence_back ~pos ~start ~cmp text with | Some (pos, c)-> if equal c left then find_left (level-1) (pos - 1) else find_left (level+1) (pos - 1) | None-> None else None else Some (pos+1) in let rec find_right level pos= if level > 0 then if pos < stop then match occurrence ~pos ~stop ~cmp text with | Some (pos, c)-> if equal c right then find_right (level-1) (pos + 1) else find_right (level+1) (pos + 1) | None-> None else None else Some (pos-1) in if level > 0 && pos >= start && pos < stop then let init_pos= if equal (Zed_rope.get text pos) left then pos+1 else if equal (Zed_rope.get text pos) right then pos else pos+1 in match find_left level init_pos with | Some left-> (match find_right 1 (left+1) with | Some right-> Some (left, right) | None-> None) | None-> None else None let item_match ~start ~stop pos text= match Zed_rope.get text pos |> Zed_char.to_utf8 with | "("-> (match occurrence_pare ~pos ~level:1 ~start ~stop (Zed_char.of_utf8 "(", Zed_char.of_utf8 ")") text with | Some (_, right)-> Some right | None-> None) | ")"-> (match occurrence_pare ~pos ~level:1 ~start ~stop (Zed_char.of_utf8 "(", Zed_char.of_utf8 ")") text with | Some (left, _)-> Some left | None-> None) | "["-> (match occurrence_pare ~pos ~level:1 ~start ~stop (Zed_char.of_utf8 "[", Zed_char.of_utf8 "]") text with | Some (_, right)-> Some right | None-> None) | "]"-> (match occurrence_pare ~pos ~level:1 ~start ~stop (Zed_char.of_utf8 "[", Zed_char.of_utf8 "]") text with | Some (left, _)-> Some left | None-> None) | "<"-> (match occurrence_pare ~pos ~level:1 ~start ~stop (Zed_char.of_utf8 "<", Zed_char.of_utf8 ">") text with | Some (_, right)-> Some right | None-> None) | ">"-> (match occurrence_pare ~pos ~level:1 ~start ~stop (Zed_char.of_utf8 "<", Zed_char.of_utf8 ">") text with | Some (left, _)-> Some left | None-> None) | "{"-> (match occurrence_pare ~pos ~level:1 ~start ~stop (Zed_char.of_utf8 "{", Zed_char.of_utf8 "}") text with | Some (_, right)-> Some right | None-> None) | "}"-> (match occurrence_pare ~pos ~level:1 ~start ~stop (Zed_char.of_utf8 "{", Zed_char.of_utf8 "}") text with | Some (left, _)-> Some left | None-> None) | _-> None let include_word' ?(multi_line=true) ~next_category ~pos ~stop text= if Zed_rope.length text = 0 then None else if pos >= stop then None else let nl_as_sp= multi_line in let start_category= let zchar= Zed_rope.get text pos in let core= Zed_char.core zchar in get_category ~nl_as_sp core in let pos_begin= if is_space start_category then let next= next_category ~nl_as_sp ~pos ~stop text in if next < stop then Some next else None else let prev= prev_category ~nl_as_sp ~pos ~start:0 text in if prev >= pos - 1 then Some pos else Some (prev + 1) in match pos_begin with | Some pos_begin-> let pos_end= next_word' ~multi_line ~next_category ~pos:pos_begin ~stop text - 1 in Some (pos_begin, pos_end) | None-> None let include_word ?multi_line ~pos ~stop text= let next_category ~nl_as_sp= next_category ~nl_as_sp ~is_equal:category_equal in include_word' ?multi_line ~next_category ~pos ~stop text let include_WORD ?multi_line ~pos ~stop text= let next_category ~nl_as_sp= next_category ~nl_as_sp ~is_equal:category_equal_blank in include_word' ?multi_line ~next_category ~pos ~stop text let inner_word' ?(multi_line=true) ~prev_category ~next_category ~pos ~stop text = if Zed_rope.length text = 0 then None else let nl_as_sp= multi_line in let pos_begin= if pos = 0 then 0 else prev_category ~nl_as_sp ~pos ~start:0 text + 1 and pos_end= next_category ~nl_as_sp ~pos ~stop text - 1 in Some (pos_begin, pos_end) let inner_word ?multi_line ~pos ~stop text= let prev_category ~nl_as_sp= prev_category ~nl_as_sp ~is_equal:category_equal and next_category ~nl_as_sp= next_category ~nl_as_sp ~is_equal:category_equal in inner_word' ?multi_line ~prev_category ~next_category ~pos ~stop text let inner_WORD ?multi_line ~pos ~stop text= let prev_category ~nl_as_sp= prev_category ~nl_as_sp ~is_equal:category_equal_blank and next_category ~nl_as_sp= next_category ~nl_as_sp ~is_equal:category_equal_blank in inner_word' ?multi_line ~prev_category ~next_category ~pos ~stop text end module Vi = Mew_vi.Core.Make (Concurrent) include Vi let of_lterm_code : LTerm_key.code -> Mew_vi.Key.code= function | Char chr-> Char (Zed_utf8.escaped_char chr) | Enter -> Enter | Escape -> Escape | Tab -> Tab | Up -> Up | Down -> Down | Left -> Left | Right -> Right | F1 -> F1 | F2 -> F2 | F3 -> F3 | F4 -> F4 | F5 -> F5 | F6 -> F6 | F7 -> F7 | F8 -> F8 | F9 -> F9 | F10 -> F10 | F11 -> F11 | F12 -> F12 | Next_page -> Next_page | Prev_page -> Prev_page | Home -> Home | End -> End | Insert -> Insert | Delete -> Delete | Backspace -> Backspace let of_vi_code : Mew_vi.Key.code -> LTerm_key.code= function | Char bin -> Char (Zed_utf8.extract bin 0) | Enter -> Enter | Escape -> Escape | Tab -> Tab | Up -> Up | Down -> Down | Left -> Left | Right -> Right | F1 -> F1 | F2 -> F2 | F3 -> F3 | F4 -> F4 | F5 -> F5 | F6 -> F6 | F7 -> F7 | F8 -> F8 | F9 -> F9 | F10 -> F10 | F11 -> F11 | F12 -> F12 | Next_page -> Next_page | Prev_page -> Prev_page | Home -> Home | End -> End | Insert -> Insert | Delete -> Delete | Backspace -> Backspace let of_lterm_key lterm_key= { Mew_vi.Key.control= lterm_key.LTerm_key.control; meta= lterm_key.meta; shift= lterm_key.shift; code= of_lterm_code lterm_key.code; } let of_vi_key vi_key= { LTerm_key.control= vi_key.Mew_vi.Key.control; meta= vi_key.meta; shift= vi_key.shift; code= of_vi_code vi_key.code; } open LTerm_read_line_base open Lwt let perform vi_edit ctx exec action= let list_make elm n= let rec create acc n= if n > 0 then create (elm::acc) (n-1) else acc in create [] n in let list_dup elm n= let rec create acc n= if n > 0 then create (elm::acc) (n-1) else acc in create [] n |> List.concat in let delete ~register ?(line=false) ?boundary start len= let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let eot= Zed_rope.length text in let lines= Zed_edit.lines edit in let boundary_start, boundary_end= match boundary with | Some (b, e)-> b, e | None-> 0, eot in let _ori_start, _ori_len, _ori_stop= start, len, start+len in let start, len, stop= let start= max boundary_start _ori_start in let stop= min boundary_end _ori_stop in let len= stop - start in start, len, stop in if len > 0 then let end_pos= if stop >= eot then let end_pos= max 0 @@ start - 1 in if eot > 0 then if (=) (Zed_char.core (Zed_rope.get text end_pos)) (Zed_utf8.extract "\n" 0) then max 0 @@ end_pos - 1 else end_pos else end_pos else if (=) (Zed_char.core (Zed_rope.get text stop)) (Zed_utf8.extract "\n" 0) then max (start - 1) Zed_lines.(line_start lines (line_index lines start)) else start in let content= let str= Zed_rope.sub text start len |> Zed_rope.to_string |> Zed_string.to_utf8 in if line then Vi.Interpret.Register.Line str else Vi.Interpret.Register.Seq str in vi_edit#set_register register content; vi_edit#set_register "\"" content; let del_len= if line && stop < eot then len + 1 else len in exec [ Edit (Zed (Zed_edit.Goto start)); Edit (Zed (Zed_edit.Kill_next_chars del_len)); Edit (Zed (Zed_edit.Goto end_pos)) ] else return (ContinueLoop []) in let change ~register ?(line=false) ?boundary start len= let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let eot= Zed_rope.length text in let boundary_start, boundary_end= match boundary with | Some (b, e)-> b, e | None-> 0, eot in let _ori_start, _ori_len, _ori_stop= start, len, start+len in let start, len, _stop= let start= max boundary_start _ori_start in let stop= min boundary_end _ori_stop in let len= stop - start in start, len, stop in if len > 0 then let content= let str= Zed_rope.sub text start len |> Zed_rope.to_string |> Zed_string.to_utf8 in if line then Vi.Interpret.Register.Line str else Vi.Interpret.Register.Seq str in vi_edit#set_register register content; vi_edit#set_register "\"" content; exec [ Edit (Zed (Zed_edit.Goto start)); Edit (Zed (Zed_edit.Kill_next_chars len)); Edit (Zed (Zed_edit.Goto start)) ] else return (ContinueLoop []) in let yank ~register ?(line=false) start len= let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let content= let str= Zed_rope.sub text start len |> Zed_rope.to_string |> Zed_string.to_utf8 in if line then Vi.Interpret.Register.Line str else Vi.Interpret.Register.Seq str in vi_edit#set_register register content; vi_edit#set_register "\"" content; Zed_edit.copy_sequence ctx start len; return (ContinueLoop []) in let setup_pos ()= let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let text_len= Zed_rope.length text in (if text_len > 0 then let step= if pos >= text_len then pos - 1 else pos in let step= if (=) (Zed_char.core (Zed_rope.get text step)) (Zed_utf8.extract "\n" 0) then max 0 @@ step - 1 else step in exec [Edit (Zed (Zed_edit.Goto step))] else exec [Edit (Zed (Zed_edit.Goto_bol))]) in let pare_include pair level action= let text= Zed_edit.text (Zed_edit.edit ctx) in let pos= Zed_edit.position ctx in let start= 0 and stop= Zed_rope.length text in (match Query.occurrence_pare ~pos ~level ~start ~stop pair text with | Some (left, right)-> action left (right+1 - left) | None-> return (ContinueLoop [])) in let pare_inner pair level action= let text= Zed_edit.text (Zed_edit.edit ctx) in let pos= Zed_edit.position ctx in let start= 0 and stop= Zed_rope.length text in (match Query.occurrence_pare ~pos ~level ~start ~stop pair text with | Some (left, right)-> action (left+1) (right - (left+1)) | None-> return (ContinueLoop [])) in match action with | Vi_action.Insert (insert, count)-> (match insert with | Newline_below _s-> exec @@ (Edit (Zed (Zed_edit.Goto_eol))):: (list_make (Edit (Zed (Zed_edit.Newline))) count) | Newline_above _s-> exec @@ list_dup [ Edit (Zed (Zed_edit.Goto_bol)); Edit (Zed (Zed_edit.Newline)); Edit (Zed (Zed_edit.Prev_line)); ] count | _-> return (ContinueLoop [])) | Motion (motion, count)-> (match motion with | Left-> let rec left n= if n > 0 then let pos, _delta= Query.left n ctx in exec (list_make (Edit (Zed (Zed_edit.Goto pos))) 1) >>= (function | Result _ as r-> return r | ContinueLoop _-> left (n-1)) else return (ContinueLoop []) in left count | Right-> let rec right n= if n > 0 then let pos, _delta= Query.right n ctx in exec (list_make (Edit (Zed (Zed_edit.Goto pos))) 1) >>= (function | Result _ as r-> return r | ContinueLoop _-> right (n-1)) else return (ContinueLoop []) in right count | Right_nl-> let newline= true in let rec right n= if n > 0 then let pos, _delta= Query.right ~newline n ctx in exec (list_make (Edit (Zed (Zed_edit.Goto pos))) 1) >>= (function | Result _ as r-> return r | ContinueLoop _-> right (n-1)) else return (ContinueLoop []) in right count | Upward-> let pos= Query.prev_line ctx count in exec [Edit (Zed (Zed_edit.Set_pos pos))] | Downward-> let pos= Query.next_line ctx count in exec [Edit (Zed (Zed_edit.Set_pos pos))] | Word-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let _start, stop= Query.get_boundary true ctx in let rec next_word n= let pos= Zed_edit.position ctx in if n > 0 && pos < stop then let next= min (stop - 1) (Query.next_word ~pos ~stop text) in exec [Edit (Zed (Zed_edit.Goto next))] >>= (function | Result _ as r-> return r | ContinueLoop _-> next_word (n-1)) else return (ContinueLoop []) in next_word count | WORD-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let _start, stop= Query.get_boundary true ctx in let rec next_word n= let pos= Zed_edit.position ctx in if n > 0 && pos < stop then let next= min (stop - 1) (Query.next_WORD ~pos ~stop text) in exec [Edit (Zed (Zed_edit.Goto next))] >>= (function | Result _ as r-> return r | ContinueLoop _-> next_word (n-1)) else return (ContinueLoop []) in next_word count | Word_back-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let start, stop= Query.get_boundary true ctx in let rec prev_word n= let pos= min (stop - 1) (Zed_edit.position ctx) in if n > 0 && pos > start then let prev= max start (Query.prev_word ~pos ~start text) in exec (list_make (Edit (Zed (Zed_edit.Goto prev))) 1) >>= (function | Result _ as r-> return r | ContinueLoop _-> prev_word (n-1)) else return (ContinueLoop []) in prev_word count | WORD_back-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let start, stop= Query.get_boundary true ctx in let rec prev_word n= let pos= min (stop - 1) (Zed_edit.position ctx) in if n > 0 && pos > start then let prev= max start (Query.prev_WORD ~pos ~start text) in exec [Edit (Zed (Zed_edit.Goto prev))] >>= (function | Result _ as r-> return r | ContinueLoop _-> prev_word (n-1)) else return (ContinueLoop []) in prev_word count | Word_end-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let _start, stop= Query.get_boundary true ctx in let rec next_word n= let pos= Zed_edit.position ctx in if n > 0 && pos < stop then let next= min (stop - 1) (Query.next_word_end ~pos ~stop text) in exec [Edit (Zed (Zed_edit.Goto next))] >>= (function | Result _ as r-> return r | ContinueLoop _-> next_word (n-1)) else return (ContinueLoop []) in next_word count | WORD_end-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let _start, stop= Query.get_boundary true ctx in let rec next_word n= let pos= Zed_edit.position ctx in if n > 0 && pos < stop then let next= min (stop - 1) (Query.next_WORD_end ~pos ~stop text) in exec [Edit (Zed (Zed_edit.Goto next))] >>= (function | Result _ as r-> return r | ContinueLoop _-> next_word (n-1)) else return (ContinueLoop []) in next_word count | Word_back_end-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let start, stop= Query.get_boundary true ctx in let rec prev_word n= let pos= min (stop - 1) (Zed_edit.position ctx) in if n > 0 && pos > start then let prev= max start (Query.prev_word_end ~pos ~start text) in exec [Edit (Zed (Zed_edit.Goto prev))] >>= (function | Result _ as r-> return r | ContinueLoop _-> prev_word (n-1)) else return (ContinueLoop []) in prev_word count | WORD_back_end-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let start, stop= Query.get_boundary true ctx in let rec prev_word n= let pos= min (stop - 1) (Zed_edit.position ctx) in if n > 0 && pos > start then let prev= max start (Query.prev_WORD_end ~pos ~start text) in exec [Edit (Zed (Zed_edit.Goto prev))] >>= (function | Result _ as r-> return r | ContinueLoop _-> prev_word (n-1)) else return (ContinueLoop []) in prev_word count | Line_FirstChar-> exec (list_make (Edit (Zed Zed_edit.Goto_bol)) count) | Line_FirstNonBlank-> let nonblank= Query.line_FirstNonBlank 1 ctx in exec [Edit (Zed (Zed_edit.Goto nonblank))] | Line_LastChar-> let rec lastChar n= if n > 0 then let pos= Query.line_LastChar n ctx in exec [Edit (Zed (Zed_edit.Goto pos))] >>= (function | Result _ as r-> return r | ContinueLoop _-> lastChar (n-1)) else return (ContinueLoop []) in lastChar count | Line_LastChar_nl-> let newline= true in let rec lastChar n= if n > 0 then let pos= Query.line_LastChar ~newline n ctx in exec [Edit (Zed (Zed_edit.Goto pos))] >>= (function | Result _ as r-> return r | ContinueLoop _-> lastChar (n-1)) else return (ContinueLoop []) in lastChar count | GotoLine-> let pos= Query.goto_line ctx count in exec [Edit (Zed (Zed_edit.Set_pos pos))] | GotoLine_first-> exec [Edit (Zed (Zed_edit.Goto_bot))] | GotoLine_last-> exec [ Edit (Zed (Zed_edit.Goto_eot)); Edit (Zed (Zed_edit.Prev_char)) ] | Occurrence_inline chr-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx + 1 in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let stop= Zed_lines.line_stop lines line in let rec query_n chr pos n= if n < 1 then None else let next= Query.occurrence_char ~pos ~stop chr text in if n = 1 then next else match next with | Some next-> query_n chr (next+1) (n-1) | None-> None in (match query_n (Zed_char.of_utf8 chr) pos count with | Some pos-> exec [ Edit (Zed (Zed_edit.Goto pos)) ] | None-> return (ContinueLoop [])) | Occurrence_inline_back chr-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx + 1 in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let start= Zed_lines.line_start lines line in let rec query_n chr pos n= if n < 1 then None else let prev= Query.occurrence_char_back ~pos ~start chr text in if n = 1 then prev else match prev with | Some prev-> query_n chr prev (n-1) | None-> None in (match query_n (Zed_char.of_utf8 chr) (pos-1) count with | Some pos-> exec [ Edit (Zed (Zed_edit.Goto pos)) ] | None-> return (ContinueLoop [])) | Occurrence_inline_till chr-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx + 1 in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let stop= Zed_lines.line_stop lines line in let rec query_n chr pos n= if n < 1 then None else let next= Query.occurrence_char ~pos ~stop chr text in if n = 1 then next else match next with | Some next-> query_n chr (next+1) (n-1) | None-> None in (match query_n (Zed_char.of_utf8 chr) pos count with | Some pos-> exec [ Edit (Zed (Zed_edit.Goto (pos-1))) ] | None-> return (ContinueLoop [])) | Occurrence_inline_till_back chr-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx + 1 in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let start= Zed_lines.line_start lines line in let rec query_n chr pos n= if n < 1 then None else let prev= Query.occurrence_char_back ~pos ~start chr text in if n = 1 then prev else match prev with | Some prev-> query_n chr prev (n-1) | None-> None in (match query_n (Zed_char.of_utf8 chr) (pos-1) count with | Some pos-> exec [ Edit (Zed (Zed_edit.Goto (pos+1))) ] | None-> return (ContinueLoop [])) | Match-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let stop= Zed_rope.length text in (match Query.item_match ~start:0 ~stop pos text with | Some pos-> exec [ Edit (Zed (Zed_edit.Goto pos)) ] | None-> return (ContinueLoop [])) | _-> return (ContinueLoop [])) | Delete (register, motion, count)-> let delete= delete ~register in (match motion with | Left-> let pos, delta= Query.left count ctx in delete pos delta | Right-> let newline=true in let pos, delta= Query.right ~newline count ctx in let pos= pos - delta in delete pos delta | Right_nl-> let newline= true in let pos, delta= Query.right ~newline count ctx in let pos= pos - delta in exec [ Edit (Zed (Zed_edit.Goto pos)); Edit (Zed (Zed_edit.Kill_next_chars delta)); ] | Upward-> let edit= Zed_edit.edit ctx in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let dest= max 0 (line - count) in let line_delta = line - dest in if line_delta > 0 then let pos_start= Zed_lines.line_start lines dest and pos_end= Zed_lines.line_stop lines line in let pos_delta= pos_end - pos_start in delete ~line:true pos_start pos_delta else return (ContinueLoop []) | Downward-> let edit= Zed_edit.edit ctx in let lines= Zed_edit.lines edit in let line_count= Zed_lines.count lines in let line= Zed_edit.line ctx in let dest= min line_count (line + count) in let line_delta = dest - line in if line_delta > 0 then let pos_start= Zed_lines.line_start lines line and pos_end= Zed_lines.line_stop lines dest in let pos_end= if dest < line_count then pos_end + 1 else pos_end in let pos_delta= pos_end - pos_start in delete ~line:true pos_start pos_delta else return (ContinueLoop []) | Line-> let edit= Zed_edit.edit ctx in let lines= Zed_edit.lines edit in let line_count= Zed_lines.count lines in let line= Zed_edit.line ctx in let dest= min line_count (line + count - 1) in let pos_start= Zed_lines.line_start lines line and pos_end= Zed_lines.line_stop lines dest in let pos_delta= pos_end - pos_start in delete ~line:true pos_start pos_delta | Word-> let pos= Zed_edit.position ctx in let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let _start, stop= if count > 1 then Query.get_boundary true ctx else Query.get_boundary false ctx in let rec next_word pos n= if n > 0 && pos < stop then let next= (Query.next_word ~pos ~stop text) in next_word next (n-1) else pos in let next_pos = next_word pos count in let delta= next_pos - pos in delete pos delta | WORD-> let pos= Zed_edit.position ctx in let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let _start, stop= if count > 1 then Query.get_boundary true ctx else Query.get_boundary false ctx in let rec next_word pos n= if n > 0 && pos < stop then let next= (Query.next_WORD ~pos ~stop text) in next_word next (n-1) else pos in let next_pos = next_word pos count in let delta= next_pos - pos in delete pos delta | Word_back-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let start, stop= Query.get_boundary true ctx in let pos= min (stop - 1) (Zed_edit.position ctx) in let rec prev_word pos n= if n > 0 && pos > start then let prev= max start (Query.prev_word ~pos ~start text) in prev_word prev (n-1) else pos in let prev_pos= prev_word pos count in let delta= pos - prev_pos in delete prev_pos delta | WORD_back-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let start, stop= Query.get_boundary true ctx in let pos= min (stop - 1) (Zed_edit.position ctx) in let rec prev_word pos n= if n > 0 && pos > start then let prev= max start (Query.prev_WORD ~pos ~start text) in prev_word prev (n-1) else pos in let prev_pos= prev_word pos count in let delta= pos - prev_pos in delete prev_pos delta | Word_end-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let _start, stop= Query.get_boundary true ctx in let pos= Zed_edit.position ctx in let rec next_word pos n= if n > 0 && pos < stop then let next= (Query.next_word_end ~pos ~stop text) in next_word next (n-1) else pos in let next_pos= next_word pos count in let delta= next_pos + 1 - pos in delete pos delta | WORD_end-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let _start, stop= Query.get_boundary true ctx in let pos= Zed_edit.position ctx in let rec next_word pos n= if n > 0 && pos < stop then let next= (Query.next_WORD_end ~pos ~stop text) in next_word next (n-1) else pos in let next_pos= next_word pos count in let delta= next_pos + 1 - pos in delete pos delta | Word_back_end-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in if Zed_rope.length text <= 0 then return (ContinueLoop []) else let start, stop= Query.get_boundary true ctx in let pos= min (stop - 1) (Zed_edit.position ctx) in let rec prev_word pos n= if n > 0 && pos > start then let prev= (Query.prev_word_end ~pos ~start text) in prev_word prev (n-1) else pos in let dest= prev_word pos count in let delta= pos - dest + 1 in delete dest delta | WORD_back_end-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in if Zed_rope.length text <= 0 then return (ContinueLoop []) else let start, stop= Query.get_boundary true ctx in let pos= min (stop - 1) (Zed_edit.position ctx) in let rec prev_word pos n= if n > 0 && pos > start then let prev= (Query.prev_WORD_end ~pos ~start text) in prev_word prev (n-1) else pos in let dest= prev_word pos count in let delta= pos - dest + 1 in delete dest delta | Line_FirstChar-> let edit= Zed_edit.edit ctx in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let pos= Zed_edit.position ctx in let start= Zed_lines.line_start lines line in delete start (pos - start) | Line_FirstNonBlank-> let pos= Zed_edit.position ctx in let nonblank= Query.line_FirstNonBlank 1 ctx in (if nonblank < pos then delete nonblank (pos - nonblank) else delete pos (nonblank - pos)) | Line_LastChar-> let pos= Zed_edit.position ctx in let next= Query.line_LastChar count ctx in delete pos (next+1 - pos) | Line_LastChar_nl-> let newline= true in let pos= Zed_edit.position ctx in let next= Query.line_LastChar ~newline count ctx in delete pos (next+1 - pos) | Parenthesis_include-> pare_include Zed_char.(of_utf8 "(", of_utf8 ")") count delete | Parenthesis_inner-> pare_inner Zed_char.(of_utf8 "(", of_utf8 ")") count delete | Bracket_include-> pare_include Zed_char.(of_utf8 "[", of_utf8 "]") count delete | Bracket_inner-> pare_inner Zed_char.(of_utf8 "[", of_utf8 "]") count delete | AngleBracket_include-> pare_include Zed_char.(of_utf8 "<", of_utf8 ">") count delete | AngleBracket_inner-> pare_inner Zed_char.(of_utf8 "<", of_utf8 ">") count delete | Brace_include-> pare_include Zed_char.(of_utf8 "{", of_utf8 "}") count delete | Brace_inner-> pare_inner Zed_char.(of_utf8 "{", of_utf8 "}") count delete | Occurrence_inline chr-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx + 1 in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let stop= Zed_lines.line_stop lines line in let rec query_n chr pos n= if n < 1 then None else let next= Query.occurrence_char ~pos ~stop chr text in if n = 1 then next else match next with | Some next-> query_n chr (next+1) (n-1) | None-> None in (match query_n (Zed_char.of_utf8 chr) pos count with | Some pos-> let start= Zed_edit.position ctx in let delta= pos+1 - start in delete start delta | None-> return (ContinueLoop [])) | Occurrence_inline_back chr-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx + 1 in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let start= Zed_lines.line_start lines line in let rec query_n chr pos n= if n < 1 then None else let prev= Query.occurrence_char_back ~pos ~start chr text in if n = 1 then prev else match prev with | Some prev-> query_n chr prev (n-1) | None-> None in (match query_n (Zed_char.of_utf8 chr) (pos-1) count with | Some pos-> let stop= Zed_edit.position ctx in let delta= stop - pos in delete pos delta | None-> return (ContinueLoop [])) | Occurrence_inline_till chr-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let stop= Zed_lines.line_stop lines line in let rec query_n chr pos n= if n < 1 then None else let next= Query.occurrence_char ~pos ~stop chr text in if n = 1 then next else match next with | Some next-> query_n chr (next+1) (n-1) | None-> None in (match query_n (Zed_char.of_utf8 chr) (pos+1) count with | Some dest-> delete pos (dest - pos) | None-> return (ContinueLoop [])) | Occurrence_inline_till_back chr-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let start= Zed_lines.line_start lines line in let rec query_n chr pos n= if n < 1 then None else let prev= Query.occurrence_char_back ~pos ~start chr text in if n = 1 then prev else match prev with | Some prev-> query_n chr prev (n-1) | None-> None in (match query_n (Zed_char.of_utf8 chr) pos count with | Some dest-> delete (dest+1) (pos-1 - dest) | None-> return (ContinueLoop [])) | Match-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let stop= Zed_rope.length text in (match Query.item_match ~start:0 ~stop pos text with | Some dest-> (if dest > pos then delete pos (dest+1 - pos) else delete dest (pos+1 - dest)) | None-> return (ContinueLoop [])) | Word_include-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let _start, stop= if count > 1 then Query.get_boundary true ctx else Query.get_boundary false ctx in let move_n pos n= let rec move_n pos n= if n >= 1 then match Query.include_word ~stop ~pos text with | Some (_word_begin, word_end)-> move_n (word_end+1) (n-1) | None-> pos-1 else pos-1 in if n >= 1 then match Query.include_word ~stop ~pos text with | Some (word_begin, word_end)-> let word_end= move_n (word_end+1) (n - 1) in Some (word_begin, word_end) | None-> None else None in (match move_n pos count with | Some (word_begin, word_end)-> delete word_begin (word_end+1 - word_begin) | None-> return (ContinueLoop [])) | WORD_include-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let _start, stop= if count > 1 then Query.get_boundary true ctx else Query.get_boundary false ctx in let move_n pos n= let rec move_n pos n= if n >= 1 then match Query.include_WORD ~stop ~pos text with | Some (_word_begin, word_end)-> move_n (word_end+1) (n-1) | None-> pos else pos-1 in if n >= 1 then match Query.include_WORD ~stop ~pos text with | Some (word_begin, word_end)-> let word_end= move_n (word_end+1) (n - 1) in Some (word_begin, word_end) | None-> None else None in (match move_n pos count with | Some (word_begin, word_end)-> delete word_begin (word_end+1 - word_begin) | None-> return (ContinueLoop [])) | Word_inner-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let stop= Zed_rope.length text in (match Query.inner_word ~pos ~stop text with | Some (word_begin, word_end)-> delete word_begin (word_end+1 - word_begin) | None-> return (ContinueLoop [])) | WORD_inner-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let stop= Zed_rope.length text in (match Query.inner_WORD ~pos ~stop text with | Some (word_begin, word_end)-> delete word_begin (word_end+1 - word_begin) | None-> return (ContinueLoop [])) | Quote_inner chr-> let quote= Zed_char.of_utf8 chr in pare_inner (quote, quote) 1 delete | Quote_include chr-> let quote= Zed_char.of_utf8 chr in pare_include (quote, quote) count delete | _-> return (ContinueLoop [])) | Change (register, motion, count)-> let change= change ~register in (match motion with | Left-> let pos, delta= Query.left count ctx in change pos delta | Right-> let newline= true in let pos, delta= Query.right ~newline count ctx in let pos= pos - delta in change pos delta | Right_nl-> let newline= true in let pos, delta= Query.right ~newline count ctx in let pos= pos - delta in exec [ Edit (Zed (Zed_edit.Goto pos)); Edit (Zed (Zed_edit.Kill_next_chars delta)); ] | Upward-> let edit= Zed_edit.edit ctx in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let dest= max 0 (line - count) in let line_delta = line - dest in if line_delta > 0 then let pos_start= Zed_lines.line_start lines dest and pos_end= Zed_lines.line_stop lines line in let pos_delta= pos_end - pos_start in change ~line:true pos_start pos_delta else return (ContinueLoop []) | Downward-> let edit= Zed_edit.edit ctx in let lines= Zed_edit.lines edit in let line_count= Zed_lines.count lines in let line= Zed_edit.line ctx in let dest= min line_count (line + count) in let line_delta = dest - line in if line_delta > 0 then let pos_start= Zed_lines.line_start lines line and pos_end= Zed_lines.line_stop lines dest in let pos_end= if dest < line_count then pos_end + 1 else pos_end in let pos_delta= pos_end - pos_start in change ~line:true pos_start pos_delta else return (ContinueLoop []) | Word-> let pos= Zed_edit.position ctx in let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let _start, stop= if count > 1 then Query.get_boundary true ctx else Query.get_boundary false ctx in let rec next_word pos n= if n > 0 && pos < stop then let next= (Query.next_word ~pos ~stop text) in next_word next (n-1) else pos in let next_pos = next_word pos count in let delta= next_pos - pos in change pos delta | WORD-> let pos= Zed_edit.position ctx in let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let _start, stop= if count > 1 then Query.get_boundary true ctx else Query.get_boundary false ctx in let rec next_word pos n= if n > 0 && pos < stop then let next= (Query.next_WORD ~pos ~stop text) in next_word next (n-1) else pos in let next_pos = next_word pos count in let delta= next_pos - pos in change pos delta | Word_back-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let start, stop= Query.get_boundary true ctx in let pos= min (stop - 1) (Zed_edit.position ctx) in let rec prev_word pos n= if n > 0 && pos > start then let prev= max start (Query.prev_word ~pos ~start text) in prev_word prev (n-1) else pos in let prev_pos= prev_word pos count in let delta= pos - prev_pos in change prev_pos delta | WORD_back-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let start, stop= Query.get_boundary true ctx in let pos= min (stop - 1) (Zed_edit.position ctx) in let rec prev_word pos n= if n > 0 && pos > start then let prev= max start (Query.prev_WORD ~pos ~start text) in prev_word prev (n-1) else pos in let prev_pos= prev_word pos count in let delta= pos - prev_pos in change prev_pos delta | Word_end-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let _start, stop= Query.get_boundary true ctx in let pos= Zed_edit.position ctx in let rec next_word pos n= if n > 0 && pos < stop then let next= (Query.next_word_end ~pos ~stop text) in next_word next (n-1) else pos in let next_pos= next_word pos count in let delta= next_pos + 1 - pos in change pos delta | WORD_end-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let _start, stop= Query.get_boundary true ctx in let pos= Zed_edit.position ctx in let rec next_word pos n= if n > 0 && pos < stop then let next= (Query.next_WORD_end ~pos ~stop text) in next_word next (n-1) else pos in let next_pos= next_word pos count in let delta= next_pos + 1 - pos in change pos delta | Word_back_end-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in if Zed_rope.length text <= 0 then return (ContinueLoop []) else let start, stop= Query.get_boundary true ctx in let pos= min (stop - 1) (Zed_edit.position ctx) in let rec prev_word pos n= if n > 0 && pos > start then let prev= (Query.prev_word_end ~pos ~start text) in prev_word prev (n-1) else pos in let dest= prev_word pos count in let delta= pos - dest + 1 in change dest delta | WORD_back_end-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in if Zed_rope.length text <= 0 then return (ContinueLoop []) else let start, stop= Query.get_boundary true ctx in let pos= min (stop - 1) (Zed_edit.position ctx) in let rec prev_word pos n= if n > 0 && pos > start then let prev= (Query.prev_WORD_end ~pos ~start text) in prev_word prev (n-1) else pos in let dest= prev_word pos count in let delta= pos - dest + 1 in change dest delta | Line_FirstChar-> let edit= Zed_edit.edit ctx in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let pos= Zed_edit.position ctx in let start= Zed_lines.line_start lines line in change start (pos - start) | Line_FirstNonBlank-> let pos= Zed_edit.position ctx in let nonblank= Query.line_FirstNonBlank 1 ctx in (if nonblank < pos then change nonblank (pos - nonblank) else change pos (nonblank - pos)) | Line_LastChar-> let pos= Zed_edit.position ctx in let next= Query.line_LastChar count ctx in change pos (next+1 - pos) | Line_LastChar_nl-> let newline= true in let pos= Zed_edit.position ctx in let next= Query.line_LastChar ~newline count ctx in change pos (next+1 - pos) | Parenthesis_include-> pare_include Zed_char.(of_utf8 "(", of_utf8 ")") count change | Parenthesis_inner-> pare_inner Zed_char.(of_utf8 "(", of_utf8 ")") count change | Bracket_include-> pare_include Zed_char.(of_utf8 "[", of_utf8 "]") count change | Bracket_inner-> pare_inner Zed_char.(of_utf8 "[", of_utf8 "]") count change | AngleBracket_include-> pare_include Zed_char.(of_utf8 "<", of_utf8 ">") count change | AngleBracket_inner-> pare_inner Zed_char.(of_utf8 "<", of_utf8 ">") count change | Brace_include-> pare_include Zed_char.(of_utf8 "{", of_utf8 "}") count change | Brace_inner-> pare_inner Zed_char.(of_utf8 "{", of_utf8 "}") count change | Occurrence_inline chr-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx + 1 in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let stop= Zed_lines.line_stop lines line in let rec query_n chr pos n= if n < 1 then None else let next= Query.occurrence_char ~pos ~stop chr text in if n = 1 then next else match next with | Some next-> query_n chr (next+1) (n-1) | None-> None in (match query_n (Zed_char.of_utf8 chr) pos count with | Some pos-> let start= Zed_edit.position ctx in let delta= pos+1 - start in change start delta | None-> return (ContinueLoop [])) | Occurrence_inline_back chr-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx + 1 in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let start= Zed_lines.line_start lines line in let rec query_n chr pos n= if n < 1 then None else let prev= Query.occurrence_char_back ~pos ~start chr text in if n = 1 then prev else match prev with | Some prev-> query_n chr prev (n-1) | None-> None in (match query_n (Zed_char.of_utf8 chr) (pos-1) count with | Some pos-> let stop= Zed_edit.position ctx in let delta= stop - pos in change pos delta | None-> return (ContinueLoop [])) | Occurrence_inline_till chr-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let stop= Zed_lines.line_stop lines line in let rec query_n chr pos n= if n < 1 then None else let next= Query.occurrence_char ~pos ~stop chr text in if n = 1 then next else match next with | Some next-> query_n chr (next+1) (n-1) | None-> None in (match query_n (Zed_char.of_utf8 chr) (pos+1) count with | Some dest-> change pos (dest - pos) | None-> return (ContinueLoop [])) | Occurrence_inline_till_back chr-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let start= Zed_lines.line_start lines line in let rec query_n chr pos n= if n < 1 then None else let prev= Query.occurrence_char_back ~pos ~start chr text in if n = 1 then prev else match prev with | Some prev-> query_n chr prev (n-1) | None-> None in (match query_n (Zed_char.of_utf8 chr) pos count with | Some dest-> change (dest+1) (pos-1 - dest) | None-> return (ContinueLoop [])) | Match-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let stop= Zed_rope.length text in (match Query.item_match ~start:0 ~stop pos text with | Some dest-> (if dest > pos then change pos (dest+1 - pos) else change dest (pos+1 - dest)) | None-> return (ContinueLoop [])) | Word_include-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let _start, stop= if count > 1 then Query.get_boundary true ctx else Query.get_boundary false ctx in let move_n pos n= let rec move_n pos n= if n >= 1 then match Query.include_word ~stop ~pos text with | Some (_word_begin, word_end)-> move_n (word_end+1) (n-1) | None-> pos-1 else pos-1 in if n >= 1 then match Query.include_word ~stop ~pos text with | Some (word_begin, word_end)-> let word_end= move_n (word_end+1) (n - 1) in Some (word_begin, word_end) | None-> None else None in (match move_n pos count with | Some (word_begin, word_end)-> change word_begin (word_end+1 - word_begin) | None-> return (ContinueLoop [])) | WORD_include-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let _start, stop= if count > 1 then Query.get_boundary true ctx else Query.get_boundary false ctx in let move_n pos n= let rec move_n pos n= if n >= 1 then match Query.include_WORD ~stop ~pos text with | Some (_word_begin, word_end)-> move_n (word_end+1) (n-1) | None-> pos else pos-1 in if n >= 1 then match Query.include_WORD ~stop ~pos text with | Some (word_begin, word_end)-> let word_end= move_n (word_end+1) (n - 1) in Some (word_begin, word_end) | None-> None else None in (match move_n pos count with | Some (word_begin, word_end)-> change word_begin (word_end+1 - word_begin) | None-> return (ContinueLoop [])) | Word_inner-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let stop= Zed_rope.length text in (match Query.inner_word ~pos ~stop text with | Some (word_begin, word_end)-> change word_begin (word_end+1 - word_begin) | None-> return (ContinueLoop [])) | WORD_inner-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let stop= Zed_rope.length text in (match Query.inner_WORD ~pos ~stop text with | Some (word_begin, word_end)-> change word_begin (word_end+1 - word_begin) | None-> return (ContinueLoop [])) | Quote_inner chr-> let quote= Zed_char.of_utf8 chr in pare_inner (quote, quote) 1 change | Quote_include chr-> let quote= Zed_char.of_utf8 chr in pare_include (quote, quote) count change | _-> return (ContinueLoop [])) | Yank (register, motion, count)-> let yank= yank ~register in (match motion with | Left-> let pos, delta= Query.left count ctx in yank pos delta | Right-> let newline=true in let pos, delta= Query.right ~newline count ctx in let pos= pos - delta in yank pos delta | Right_nl-> let newline= true in let pos, delta= Query.right ~newline count ctx in let pos= pos - delta in yank pos delta | Upward-> let edit= Zed_edit.edit ctx in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let dest= max 0 (line - count) in let line_delta = line - dest in if line_delta > 0 then let pos_start= Zed_lines.line_start lines dest and pos_end= Zed_lines.line_stop lines line in let pos_delta= pos_end - pos_start in yank ~line:true pos_start pos_delta else return (ContinueLoop []) | Downward-> let edit= Zed_edit.edit ctx in let lines= Zed_edit.lines edit in let line_count= Zed_lines.count lines in let line= Zed_edit.line ctx in let dest= min line_count (line + count) in let line_delta = dest - line in if line_delta > 0 then let pos_start= Zed_lines.line_start lines line and pos_end= Zed_lines.line_stop lines dest in let pos_end= if dest < line_count then pos_end + 1 else pos_end in let pos_delta= pos_end - pos_start in yank ~line:true pos_start pos_delta else return (ContinueLoop []) | Line-> let edit= Zed_edit.edit ctx in let lines= Zed_edit.lines edit in let line_count= Zed_lines.count lines in let line= Zed_edit.line ctx in let dest= min line_count (line + count - 1) in let pos_start= Zed_lines.line_start lines line and pos_end= Zed_lines.line_stop lines dest in let pos_delta= pos_end - pos_start in yank ~line:true pos_start pos_delta | Word-> let pos= Zed_edit.position ctx in let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let _start, stop= if count > 1 then Query.get_boundary true ctx else Query.get_boundary false ctx in let rec next_word pos n= if n > 0 && pos < stop then let next= (Query.next_word ~pos ~stop text) in next_word next (n-1) else pos in let next_pos = next_word pos count in let delta= next_pos - pos in yank pos delta | WORD-> let pos= Zed_edit.position ctx in let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let _start, stop= if count > 1 then Query.get_boundary true ctx else Query.get_boundary false ctx in let rec next_word pos n= if n > 0 && pos < stop then let next= (Query.next_WORD ~pos ~stop text) in next_word next (n-1) else pos in let next_pos = next_word pos count in let delta= next_pos - pos in yank pos delta | Word_back-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let start, stop= Query.get_boundary true ctx in let pos= min (stop - 1) (Zed_edit.position ctx) in let rec prev_word pos n= if n > 0 && pos > start then let prev= max start (Query.prev_word ~pos ~start text) in prev_word prev (n-1) else pos in let prev_pos= prev_word pos count in let delta= pos - prev_pos in yank prev_pos delta | WORD_back-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let start, stop= Query.get_boundary true ctx in let pos= min (stop - 1) (Zed_edit.position ctx) in let rec prev_word pos n= if n > 0 && pos > start then let prev= max start (Query.prev_WORD ~pos ~start text) in prev_word prev (n-1) else pos in let prev_pos= prev_word pos count in let delta= pos - prev_pos in yank prev_pos delta | Word_end-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let _start, stop= Query.get_boundary true ctx in let pos= Zed_edit.position ctx in let rec next_word pos n= if n > 0 && pos < stop then let next= (Query.next_word_end ~pos ~stop text) in next_word next (n-1) else pos in let next_pos= next_word pos count in let delta= next_pos + 1 - pos in yank pos delta | WORD_end-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let _start, stop= Query.get_boundary true ctx in let pos= Zed_edit.position ctx in let rec next_word pos n= if n > 0 && pos < stop then let next= (Query.next_WORD_end ~pos ~stop text) in next_word next (n-1) else pos in let next_pos= next_word pos count in let delta= next_pos + 1 - pos in yank pos delta | Word_back_end-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in if Zed_rope.length text <= 0 then return (ContinueLoop []) else let start, stop= Query.get_boundary true ctx in let pos= min (stop - 1) (Zed_edit.position ctx) in let rec prev_word pos n= if n > 0 && pos > start then let prev= (Query.prev_word_end ~pos ~start text) in prev_word prev (n-1) else pos in let dest= prev_word pos count in let delta= pos - dest + 1 in yank dest delta | WORD_back_end-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in if Zed_rope.length text <= 0 then return (ContinueLoop []) else let start, stop= Query.get_boundary true ctx in let pos= min (stop - 1) (Zed_edit.position ctx) in let rec prev_word pos n= if n > 0 && pos > start then let prev= (Query.prev_WORD_end ~pos ~start text) in prev_word prev (n-1) else pos in let dest= prev_word pos count in let delta= pos - dest + 1 in yank dest delta | Line_FirstChar-> let edit= Zed_edit.edit ctx in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let pos= Zed_edit.position ctx in let start= Zed_lines.line_start lines line in yank start (pos - start) | Line_FirstNonBlank-> let pos= Zed_edit.position ctx in let nonblank= Query.line_FirstNonBlank 1 ctx in if nonblank < pos then yank nonblank (pos - nonblank) else yank nonblank (pos - nonblank) | Line_LastChar-> let pos= Zed_edit.position ctx in let next= Query.line_LastChar count ctx in yank pos (next+1 - pos) | Line_LastChar_nl-> let newline= true in let pos= Zed_edit.position ctx in let next= Query.line_LastChar ~newline count ctx in yank pos (next+1 - pos) | Parenthesis_include-> pare_include Zed_char.(of_utf8 "(", of_utf8 ")") count yank | Parenthesis_inner-> pare_inner Zed_char.(of_utf8 "(", of_utf8 ")") count yank | Bracket_include-> pare_include Zed_char.(of_utf8 "[", of_utf8 "]") count yank | Bracket_inner-> pare_inner Zed_char.(of_utf8 "[", of_utf8 "]") count yank | AngleBracket_include-> pare_include Zed_char.(of_utf8 "<", of_utf8 ">") count yank | AngleBracket_inner-> pare_inner Zed_char.(of_utf8 "<", of_utf8 ">") count yank | Brace_include-> pare_include Zed_char.(of_utf8 "{", of_utf8 "}") count yank | Brace_inner-> pare_inner Zed_char.(of_utf8 "{", of_utf8 "}") count yank | Occurrence_inline chr-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx + 1 in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let stop= Zed_lines.line_stop lines line in let rec query_n chr pos n= if n < 1 then None else let next= Query.occurrence_char ~pos ~stop chr text in if n = 1 then next else match next with | Some next-> query_n chr (next+1) (n-1) | None-> None in (match query_n (Zed_char.of_utf8 chr) pos count with | Some pos-> let start= Zed_edit.position ctx in let delta= pos+1 - start in yank start delta | None-> return (ContinueLoop [])) | Occurrence_inline_back chr-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx + 1 in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let start= Zed_lines.line_start lines line in let rec query_n chr pos n= if n < 1 then None else let prev= Query.occurrence_char_back ~pos ~start chr text in if n = 1 then prev else match prev with | Some prev-> query_n chr prev (n-1) | None-> None in (match query_n (Zed_char.of_utf8 chr) (pos-1) count with | Some pos-> let stop= Zed_edit.position ctx in let delta= stop - pos in yank pos delta | None-> return (ContinueLoop [])) | Occurrence_inline_till chr-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let stop= Zed_lines.line_stop lines line in let rec query_n chr pos n= if n < 1 then None else let next= Query.occurrence_char ~pos ~stop chr text in if n = 1 then next else match next with | Some next-> query_n chr (next+1) (n-1) | None-> None in (match query_n (Zed_char.of_utf8 chr) (pos+1) count with | Some dest-> yank pos (dest - pos) | None-> return (ContinueLoop [])) | Occurrence_inline_till_back chr-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let lines= Zed_edit.lines edit in let line= Zed_edit.line ctx in let start= Zed_lines.line_start lines line in let rec query_n chr pos n= if n < 1 then None else let prev= Query.occurrence_char_back ~pos ~start chr text in if n = 1 then prev else match prev with | Some prev-> query_n chr prev (n-1) | None-> None in (match query_n (Zed_char.of_utf8 chr) pos count with | Some dest-> yank (dest+1) (pos-1 - dest) | None-> return (ContinueLoop [])) | Match-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let stop= Zed_rope.length text in (match Query.item_match ~start:0 ~stop pos text with | Some dest-> if dest > pos then yank pos (dest+1 - pos) else yank dest (pos+1 - dest) | None-> return (ContinueLoop [])) | Word_include-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let stop= Zed_rope.length text in let move_n pos n= let rec move_n pos n= if n >= 1 then match Query.include_word ~stop ~pos text with | Some (_word_begin, word_end)-> move_n (word_end+1) (n-1) | None-> pos-1 else pos-1 in if n >= 1 then match Query.include_word ~stop ~pos text with | Some (word_begin, word_end)-> let word_end= move_n (word_end+1) (n - 1) in Some (word_begin, word_end) | None-> None else None in (match move_n pos count with | Some (word_begin, word_end)-> Zed_edit.copy_sequence ctx word_begin (word_end+1 - word_begin); return (ContinueLoop []) | None-> return (ContinueLoop [])) | WORD_include-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let stop= Zed_rope.length text in let move_n pos n= let rec move_n pos n= if n >= 1 then match Query.include_WORD ~stop ~pos text with | Some (_word_begin, word_end)-> move_n (word_end+1) (n-1) | None-> pos else pos-1 in if n >= 1 then match Query.include_WORD ~stop ~pos text with | Some (word_begin, word_end)-> let word_end= move_n (word_end+1) (n - 1) in Some (word_begin, word_end) | None-> None else None in (match move_n pos count with | Some (word_begin, word_end)-> yank word_begin (word_end+1 - word_begin) | None-> return (ContinueLoop [])) | Word_inner-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let stop= Zed_rope.length text in (match Query.inner_word ~pos ~stop text with | Some (word_begin, word_end)-> yank word_begin (word_end+1 - word_begin) | None-> return (ContinueLoop [])) | WORD_inner-> let edit= Zed_edit.edit ctx in let text= Zed_edit.text edit in let pos= Zed_edit.position ctx in let stop= Zed_rope.length text in (match Query.inner_WORD ~pos ~stop text with | Some (word_begin, word_end)-> yank word_begin (word_end+1 - word_begin) | None-> return (ContinueLoop [])) | Quote_inner chr-> let quote= Zed_char.of_utf8 chr in pare_inner (quote, quote) 1 yank | Quote_include chr-> let quote= Zed_char.of_utf8 chr in pare_include (quote, quote) count yank | _-> return (ContinueLoop [])) | Undo count-> exec @@ list_dup [ Edit (Zed (Zed_edit.Undo)); ] count >>= (fun r-> setup_pos () >>= fun _-> return r) | Paste_before (register, count)-> let action_paste= let open Vi.Interpret.Register in match vi_edit#get_register register with | Some (Seq str)-> [ Edit (Zed (Zed_edit.Insert_str (Zed_string.of_utf8 str))); Edit (Zed (Zed_edit.Prev_char)); ] | Some (Line str)-> [ Edit (Zed (Zed_edit.Goto_bol)); Edit (Zed (Zed_edit.Insert_str (Zed_string.of_utf8 (str ^ "\n")))); Edit (Zed (Zed_edit.Prev_line)); Edit (Zed (Zed_edit.Goto_eol)); Edit (Zed (Zed_edit.Prev_char)); ] | None-> [] in exec @@ list_dup action_paste count | Paste_after (register, count)-> let action_paste= let open Vi.Interpret.Register in match vi_edit#get_register register with | Some (Seq str)-> let actions= [ Edit (Zed (Zed_edit.Insert_str (Zed_string.of_utf8 str))); Edit (Zed (Zed_edit.Prev_char)); ] in if Zed_edit.at_eol ctx then actions else Edit (Zed (Zed_edit.Next_char)) :: actions | Some (Line str)-> [ Edit (Zed (Zed_edit.Goto_eol)); Edit (Zed (Zed_edit.Insert_str (Zed_string.of_utf8 ("\n" ^ (String.sub str 0 (String.length str)))))); Edit (Zed (Zed_edit.Goto_eol)); Edit (Zed (Zed_edit.Prev_char)); ] | None-> [] in exec @@ list_dup action_paste count | Join count-> exec @@ (list_make (Edit (Zed (Zed_edit.Join_line))) count) | DeleteSelected register-> let delete= delete ~register in let edit= Zed_edit.edit ctx in if Zed_edit.get_selection edit then let a = Zed_edit.position ctx and b = Zed_cursor.get_position (Zed_edit.mark edit) in let a = min a b and b = max a b in delete a (b+1 - a) else return (ContinueLoop []) | YankSelected register-> let yank= yank ~register in let edit= Zed_edit.edit ctx in if Zed_edit.get_selection edit then let a = Zed_edit.position ctx and b = Zed_cursor.get_position (Zed_edit.mark edit) in let a = min a b and b = max a b in yank a (b+1 - a) else return (ContinueLoop []) | ChangeMode mode-> let edit= Zed_edit.edit ctx in (match mode with | Insert-> Zed_edit.set_selection edit false | Normal-> Zed_edit.set_selection edit false | Visual-> Zed_edit.set_mark ctx | Commandline-> Zed_edit.set_selection edit false); return (ContinueLoop [])