avy-autoloads.el (8897B)
1 ;;; avy-autoloads.el --- automatically extracted autoloads (do not edit) -*- lexical-binding: t -*- 2 ;; Generated by the `loaddefs-generate' function. 3 4 ;; This file is part of GNU Emacs. 5 6 ;;; Code: 7 8 (add-to-list 'load-path (or (and load-file-name (directory-file-name (file-name-directory load-file-name))) (car load-path))) 9 10 11 12 ;;; Generated autoloads from avy.el 13 14 (autoload 'avy-process "avy" "\ 15 Select one of CANDIDATES using `avy-read'. 16 Use OVERLAY-FN to visualize the decision overlay. 17 CLEANUP-FN should take no arguments and remove the effects of 18 multiple OVERLAY-FN invocations. 19 20 (fn CANDIDATES &optional OVERLAY-FN CLEANUP-FN)") 21 (autoload 'avy-goto-char "avy" "\ 22 Jump to the currently visible CHAR. 23 The window scope is determined by `avy-all-windows' (ARG negates it). 24 25 (fn CHAR &optional ARG)" t) 26 (autoload 'avy-goto-char-in-line "avy" "\ 27 Jump to the currently visible CHAR in the current line. 28 29 (fn CHAR)" t) 30 (autoload 'avy-goto-char-2 "avy" "\ 31 Jump to the currently visible CHAR1 followed by CHAR2. 32 The window scope is determined by `avy-all-windows'. 33 When ARG is non-nil, do the opposite of `avy-all-windows'. 34 BEG and END narrow the scope where candidates are searched. 35 36 (fn CHAR1 CHAR2 &optional ARG BEG END)" t) 37 (autoload 'avy-goto-char-2-above "avy" "\ 38 Jump to the currently visible CHAR1 followed by CHAR2. 39 This is a scoped version of `avy-goto-char-2', where the scope is 40 the visible part of the current buffer up to point. 41 The window scope is determined by `avy-all-windows'. 42 When ARG is non-nil, do the opposite of `avy-all-windows'. 43 44 (fn CHAR1 CHAR2 &optional ARG)" t) 45 (autoload 'avy-goto-char-2-below "avy" "\ 46 Jump to the currently visible CHAR1 followed by CHAR2. 47 This is a scoped version of `avy-goto-char-2', where the scope is 48 the visible part of the current buffer following point. 49 The window scope is determined by `avy-all-windows'. 50 When ARG is non-nil, do the opposite of `avy-all-windows'. 51 52 (fn CHAR1 CHAR2 &optional ARG)" t) 53 (autoload 'avy-isearch "avy" "\ 54 Jump to one of the current isearch candidates." t) 55 (autoload 'avy-goto-word-0 "avy" "\ 56 Jump to a word start. 57 The window scope is determined by `avy-all-windows'. 58 When ARG is non-nil, do the opposite of `avy-all-windows'. 59 BEG and END narrow the scope where candidates are searched. 60 61 (fn ARG &optional BEG END)" t) 62 (autoload 'avy-goto-whitespace-end "avy" "\ 63 Jump to the end of a whitespace sequence. 64 The window scope is determined by `avy-all-windows'. 65 When ARG is non-nil, do the opposite of `avy-all-windows'. 66 BEG and END narrow the scope where candidates are searched. 67 68 (fn ARG &optional BEG END)" t) 69 (autoload 'avy-goto-word-1 "avy" "\ 70 Jump to the currently visible CHAR at a word start. 71 The window scope is determined by `avy-all-windows'. 72 When ARG is non-nil, do the opposite of `avy-all-windows'. 73 BEG and END narrow the scope where candidates are searched. 74 When SYMBOL is non-nil, jump to symbol start instead of word start. 75 76 (fn CHAR &optional ARG BEG END SYMBOL)" t) 77 (autoload 'avy-goto-word-1-above "avy" "\ 78 Jump to the currently visible CHAR at a word start. 79 This is a scoped version of `avy-goto-word-1', where the scope is 80 the visible part of the current buffer up to point. 81 The window scope is determined by `avy-all-windows'. 82 When ARG is non-nil, do the opposite of `avy-all-windows'. 83 84 (fn CHAR &optional ARG)" t) 85 (autoload 'avy-goto-word-1-below "avy" "\ 86 Jump to the currently visible CHAR at a word start. 87 This is a scoped version of `avy-goto-word-1', where the scope is 88 the visible part of the current buffer following point. 89 The window scope is determined by `avy-all-windows'. 90 When ARG is non-nil, do the opposite of `avy-all-windows'. 91 92 (fn CHAR &optional ARG)" t) 93 (autoload 'avy-goto-symbol-1 "avy" "\ 94 Jump to the currently visible CHAR at a symbol start. 95 The window scope is determined by `avy-all-windows'. 96 When ARG is non-nil, do the opposite of `avy-all-windows'. 97 98 (fn CHAR &optional ARG)" t) 99 (autoload 'avy-goto-symbol-1-above "avy" "\ 100 Jump to the currently visible CHAR at a symbol start. 101 This is a scoped version of `avy-goto-symbol-1', where the scope is 102 the visible part of the current buffer up to point. 103 The window scope is determined by `avy-all-windows'. 104 When ARG is non-nil, do the opposite of `avy-all-windows'. 105 106 (fn CHAR &optional ARG)" t) 107 (autoload 'avy-goto-symbol-1-below "avy" "\ 108 Jump to the currently visible CHAR at a symbol start. 109 This is a scoped version of `avy-goto-symbol-1', where the scope is 110 the visible part of the current buffer following point. 111 The window scope is determined by `avy-all-windows'. 112 When ARG is non-nil, do the opposite of `avy-all-windows'. 113 114 (fn CHAR &optional ARG)" t) 115 (autoload 'avy-goto-subword-0 "avy" "\ 116 Jump to a word or subword start. 117 The window scope is determined by `avy-all-windows' (ARG negates it). 118 119 When PREDICATE is non-nil it's a function of zero parameters that 120 should return true. 121 122 BEG and END narrow the scope where candidates are searched. 123 124 (fn &optional ARG PREDICATE BEG END)" t) 125 (autoload 'avy-goto-subword-1 "avy" "\ 126 Jump to the currently visible CHAR at a subword start. 127 The window scope is determined by `avy-all-windows' (ARG negates it). 128 The case of CHAR is ignored. 129 130 (fn CHAR &optional ARG)" t) 131 (autoload 'avy-goto-word-or-subword-1 "avy" "\ 132 Forward to `avy-goto-subword-1' or `avy-goto-word-1'. 133 Which one depends on variable `subword-mode'." t) 134 (autoload 'avy-goto-line "avy" "\ 135 Jump to a line start in current buffer. 136 137 When ARG is 1, jump to lines currently visible, with the option 138 to cancel to `goto-line' by entering a number. 139 140 When ARG is 4, negate the window scope determined by 141 `avy-all-windows'. 142 143 Otherwise, forward to `goto-line' with ARG. 144 145 (fn &optional ARG)" t) 146 (autoload 'avy-goto-line-above "avy" "\ 147 Goto visible line above the cursor. 148 OFFSET changes the distance between the closest key to the cursor and 149 the cursor 150 When BOTTOM-UP is non-nil, display avy candidates from top to bottom 151 152 (fn &optional OFFSET BOTTOM-UP)" t) 153 (autoload 'avy-goto-line-below "avy" "\ 154 Goto visible line below the cursor. 155 OFFSET changes the distance between the closest key to the cursor and 156 the cursor 157 When BOTTOM-UP is non-nil, display avy candidates from top to bottom 158 159 (fn &optional OFFSET BOTTOM-UP)" t) 160 (autoload 'avy-goto-end-of-line "avy" "\ 161 Call `avy-goto-line' and move to the end of the line. 162 163 (fn &optional ARG)" t) 164 (autoload 'avy-copy-line "avy" "\ 165 Copy a selected line above the current line. 166 ARG lines can be used. 167 168 (fn ARG)" t) 169 (autoload 'avy-move-line "avy" "\ 170 Move a selected line above the current line. 171 ARG lines can be used. 172 173 (fn ARG)" t) 174 (autoload 'avy-copy-region "avy" "\ 175 Select two lines and copy the text between them to point. 176 177 The window scope is determined by `avy-all-windows' or 178 `avy-all-windows-alt' when ARG is non-nil. 179 180 (fn ARG)" t) 181 (autoload 'avy-move-region "avy" "\ 182 Select two lines and move the text between them above the current line." t) 183 (autoload 'avy-kill-region "avy" "\ 184 Select two lines and kill the region between them. 185 186 The window scope is determined by `avy-all-windows' or 187 `avy-all-windows-alt' when ARG is non-nil. 188 189 (fn ARG)" t) 190 (autoload 'avy-kill-ring-save-region "avy" "\ 191 Select two lines and save the region between them to the kill ring. 192 The window scope is determined by `avy-all-windows'. 193 When ARG is non-nil, do the opposite of `avy-all-windows'. 194 195 (fn ARG)" t) 196 (autoload 'avy-kill-whole-line "avy" "\ 197 Select line and kill the whole selected line. 198 199 With a numerical prefix ARG, kill ARG line(s) starting from the 200 selected line. If ARG is negative, kill backward. 201 202 If ARG is zero, kill the selected line but exclude the trailing 203 newline. 204 205 \\[universal-argument] 3 \\[avy-kil-whole-line] kill three lines 206 starting from the selected line. \\[universal-argument] -3 207 208 \\[avy-kill-whole-line] kill three lines backward including the 209 selected line. 210 211 (fn ARG)" t) 212 (autoload 'avy-kill-ring-save-whole-line "avy" "\ 213 Select line and save the whole selected line as if killed, but don’t kill it. 214 215 This command is similar to `avy-kill-whole-line', except that it 216 saves the line(s) as if killed, but does not kill it(them). 217 218 With a numerical prefix ARG, kill ARG line(s) starting from the 219 selected line. If ARG is negative, kill backward. 220 221 If ARG is zero, kill the selected line but exclude the trailing 222 newline. 223 224 (fn ARG)" t) 225 (autoload 'avy-setup-default "avy" "\ 226 Setup the default shortcuts.") 227 (autoload 'avy-goto-char-timer "avy" "\ 228 Read one or many consecutive chars and jump to the first one. 229 The window scope is determined by `avy-all-windows' (ARG negates it). 230 231 (fn &optional ARG)" t) 232 (autoload 'avy-transpose-lines-in-region "avy" "\ 233 Transpose lines in the active region." t) 234 (register-definition-prefixes "avy" '("avy-")) 235 236 ;;; End of scraped data 237 238 (provide 'avy-autoloads) 239 240 ;; Local Variables: 241 ;; version-control: never 242 ;; no-byte-compile: t 243 ;; no-update-autoloads: t 244 ;; no-native-compile: t 245 ;; coding: utf-8-emacs-unix 246 ;; End: 247 248 ;;; avy-autoloads.el ends here