Info file elisp, produced by Makeinfo, -*- Text -*- from input file elisp.texi. This file documents GNU Emacs Lisp. This is edition 1.03 of the GNU Emacs Lisp Reference Manual, for Emacs Version 18. Published by the Free Software Foundation, 675 Massachusetts Avenue, Cambridge, MA 02139 USA Copyright (C) 1990 Free Software Foundation, Inc. Permission is granted to make and distribute verbatim copies of this manual provided the copyright notice and this permission notice are preserved on all copies. Permission is granted to copy and distribute modified versions of this manual under the conditions for verbatim copying, provided that the entire resulting derived work is distributed under the terms of a permission notice identical to this one. Permission is granted to copy and distribute translations of this manual into another language, under the above conditions for modified versions, except that this permission notice may be stated in a translation approved by the Foundation.  File: elisp, Node: Word Motion, Next: Buffer End Motion, Prev: Character Motion, Up: Motion Motion by Words --------------- These functions for parsing words use the syntax table to decide whether a given character is part of a word. *Note Syntax Tables::. * Command: forward-word COUNT This function moves point forward COUNT words (or backward if COUNT is negative). Normally it returns `t'. If this motion encounters the beginning or end of the buffer, or the limits of the accessible portion when narrowing is in effect, point stops there and the value is `nil'. In an interactive call, COUNT is set to the numeric prefix argument. * Command: backward-word COUNT This function just like `forward-word', except that it moves backward until encountering the front of a word, rather than forward. In an interactive call, COUNT is set to the numeric prefix argument. This function is rarely used in programs, as it is more efficient to call `forward-word' with negative argument.  File: elisp, Node: Buffer End Motion, Next: Text Lines, Prev: Word Motion, Up: Motion Motion to an End of the Buffer ------------------------------ To move point to the beginning of the buffer, write: (goto-char (point-min)) Likewise, to move to the end of the buffer, use: (goto-char (point-max)) Here are two commands which users use to do these things. They are documented here to warn you not to use them in Lisp programs, because they set the mark and display messages in the echo area. * Command: beginning-of-buffer &optional N This function moves point to the beginning of the buffer (or the limits of the accessible portion, when narrowing is in effect), setting the mark at the previous position. If N is non-`nil', then it puts point N tenths of the way from the beginning of the buffer. In an interactive call, N is the numeric prefix argument, if provided; otherwise N defaults to `nil'. Don't use this function in Lisp programs! * Command: end-of-buffer &optional N This function moves point to the end of the buffer (or the limits of the accessible portion, when narrowing is in effect), setting the mark at the previous position. If N is non-`nil', then it puts point N tenths of the way from the end. In an interactive call, N is the numeric prefix argument, if provided; otherwise N defaults to `nil'. Don't use this function in Lisp programs!  File: elisp, Node: Text Lines, Next: Screen Lines, Prev: Buffer End Motion, Up: Motion Motion by Text Lines -------------------- Text lines are portions of the buffer delimited by newline characters, which are regarded as part of the previous line. The first text line begins at the beginning of the buffer, and the last text line ends at the end of the buffer whether or not the last character is a newline. The division of the buffer into text lines is not affected by the width of the window, or by how tabs and control characters are displayed. * Command: goto-line LINE This function moves point to the front of the LINEth line, counting from line 1 at beginning of buffer. If LINE is less than 1, then point is set to the beginning of the buffer. If LINE is greater than the number of lines in the buffer, then point is set to the *end of the last line* of the buffer. If narrowing is in effect, then LINE still counts from the beginning of the buffer, but point cannot go outside the accessible portion. So point is set at the beginning or end of the accessible portion of the text if the line number specifies a position that is inaccessible. The return value of `goto-line' is the difference between LINE and the line number of the line to which point actually was able move (before taking account of any narrowing). Thus, the value is positive if the scan encounters the end of the buffer. In an interactive call, LINE is the numeric prefix argument if one has been provided. Otherwise LINE is read in the minibuffer. * Command: beginning-of-line &optional COUNT This function moves point to the beginning of the current line. With an argument COUNT not `nil' or 1, it moves forward COUNT-1 lines and then to the beginning of the line. If this function reaches the end of the buffer (or of the accessible portion, if narrowing is in effect), it positions point at the beginning of the last line. No error is signaled. * Command: end-of-line &optional COUNT This function moves point to the end of the current line. With an argument COUNT not `nil' or 1, it moves forward COUNT-1 lines and then to the end of the line. If this function reaches the end of the buffer (or of the accessible portion, if narrowing is in effect), it positions point at the end of the last line. No error is signaled. * Command: forward-line &optional COUNT This function moves point forward COUNT lines, to the beginning of the line. If COUNT is negative, it moves point -COUNT lines backward, to the beginning of the line. If the beginning or end of the buffer (or of the accessible portion) is encountered before that many lines are found, then point stops at the beginning or end. No error is signaled. `forward-line' returns the difference between COUNT and the number of lines actually moved. If you attempt to move down five lines from the beginning of a buffer that has only three lines, point will positioned at the end of the last line, and the value will be 2. In an interactive call, COUNT is the numeric prefix argument. * Function: count-lines START END This function returns the number of lines between the positions START and END in the current buffer. If START and END are equal, then it returns 0. Otherwise it returns at least 1, even if START and END are on the same line. This is because the text between them, considered in isolation, must contain at least one line unless it is empty. Here is an example of using `count-lines': (defun current-line () "Return the vertical position of point in the selected window. Top line is 0. Counts each text line only once, even if it wraps." (+ (count-lines (window-start) (point)) (if (= (current-column) 0) 1 0) -1)) Also see the functions `bolp' and `eolp' in *Note Near Point::. These functions do not move point, but test whether it is already at the beginning or end of a line.  File: elisp, Node: Screen Lines, Next: Vertical Motion, Prev: Text Lines, Up: Motion Motion by Screen Lines ---------------------- The line functions in the previous section count text lines, delimited only by newline characters. By contrast, these functions count screen lines, which are defined by the way the text appears on the screen. A text line is a single screen line if it is short enough to fit the width of the selected window, but otherwise it may occupy several screen lines. In some cases, text lines are truncated on the screen rather than continued onto additional screen lines. Then `vertical-motion' moves point just like `forward-line'. *Note Truncation::. Because the width of a given string depends on the flags which control the appearance of certain characters, `vertical-motion' will behave differently on a given piece of text found in different buffers. It will even act differently in different windows showing the same buffer, because the width may differ and so may the truncation flag. *Note Control Char Display::. * Function: vertical-motion COUNT This function moves point to the start of the screen line COUNT screen lines down from the screen line containing point. If COUNT is negative, it moves up instead. This function returns the number of lines moved. The value may be less in absolute value than COUNT if the beginning or end of the buffer was reached. * Command: move-to-window-line COUNT This function moves point with respect to the text currently displayed in the selected window. Point is moved to the beginning of the screen line COUNT screen lines from the top of the window. If COUNT is negative, point moves either to the beginning of the line -COUNT lines from the bottom or else to the last line of the buffer if the buffer ends above the specified screen position. If COUNT is `nil', then point moves to the beginning of the line in the middle of the window. If the absolute value of COUNT is greater than the size of the window, then point moves to the place which would appear on that screen line if the window were tall enough. This will probably cause the next redisplay to scroll to bring that location onto the screen. In an interactive call, COUNT is the numeric prefix argument. The value returned is the window line number, with the top line in the window numbered 0.  File: elisp, Node: Vertical Motion, Next: List Motion, Prev: Screen Lines, Up: Motion The User-Level Vertical Motion Commands --------------------------------------- A goal column is useful if you want to edit text such as a table in which you want to move point to a certain column on each line. The goal column affects the vertical text line motion commands, `next-line' and `previous-line'. *Note : (emacs)Basic. * User Option: goal-column This variable holds an explicitly specified goal column for vertical line motion commands. If it is an integer, it specifies a column, and these commands try to move to that column on each line. If it is `nil', then the commands set their own goal columns. Any other value is invalid. * Variable: temporary-goal-column This variable holds the temporary goal column during a sequence of consecutive vertical line motion commands. It is overridden by `goal-column' if that is non-`nil'. It is set each time a vertical motion command is invoked, unless the previous command was also a vertical motion command. * User Option: track-eol This variable controls how the vertical line motion commands operate when starting at the end of a line. If `track-eol' is non-`nil', then vertical motion starting at the end of a line will keep to the ends of lines. This means moving to the end of each line moved onto. The value of `track-eol' has no effect if point is not at the end of a line when the first vertical motion command is given. `track-eol' has its effect by causing `temporary-goal-column' to be set to 9999 instead of to the current column. * Command: set-goal-column UNSET This command sets the variable `goal-column' to specify a permanent goal column for the vertical line motion commands. If UNSET is `nil', then `goal-column' is set to the current column of point. If UNSET is non-`nil', then `goal-column' is set to `nil'. This function is intended for interactive use; and in an interactive call, UNSET is the raw prefix argument.  File: elisp, Node: List Motion, Next: Skipping Characters, Prev: Vertical Motion, Up: Motion Moving over Lists and Other Balanced Expressions ------------------------------------------------ Here are several functions concerned with balanced-parenthesis expressions (also called "sexps" in connection with moving across them in Emacs). The syntax table controls how these functions interpret various characters; see *Note Syntax Tables::. *Note Parsing Expressions::, for lower-level primitives for scanning sexps or parts of sexps. For user-level commands, see *Note : (emacs)Lists and Sexps. * Command: forward-list ARG Move forward across ARG balanced groups of parentheses. (Other syntatic entities such as words or paired string quotes are ignored.) * Command: backward-list ARG Move backward across ARG balanced groups of parentheses. (Other syntatic entities such as words or paired string quotes are ignored.) * Command: up-list ARG Move forward out of ARG levels of parentheses. A negative argument means move backward but still to a less deep spot. * Command: down-list ARG Move forward down ARG levels of parentheses. A negative argument means move backward but still go down ARG level. * Command: forward-sexp ARG Move forward across ARG balanced expressions. Balanced expressions include both those delimited by parentheses and other kinds, such as words and string constants. For example, ---------- Buffer: foo ---------- (concat-!- "foo " (car x) y z) ---------- Buffer: foo ---------- (forward-sexp 3) => nil ---------- Buffer: foo ---------- (concat "foo " (car x) y-!- z) ---------- Buffer: foo ---------- * Command: backward-sexp ARG Move backward across ARG balanced expressions.  File: elisp, Node: Skipping Characters, Prev: List Motion, Up: Motion Skipping Characters ------------------- The following two functions move point over a specified set of characters. For example, they are often used to skip whitespace. * Function: skip-chars-forward CHARACTER-SET &optional LIMIT This function moves point in the current buffer forward, skipping over a given set of characters. Emacs first examines the character following point; if it matches CHARACTER-SET, then point is advanced and the next character is examined. This continues until a character is found that does not match. The function returns `nil'. The argument CHARACTER-SET is like the inside of a `[...]' in a regular expression except that `]' is never special and `\' quotes `^', `-' or `\'. Thus, `"a-zA-Z"' skips over all letters, stopping before the first nonletter, and `"^a-zA-Z'" skips nonletters stopping before the first letter. *Note Regular Expressions::. If LIMIT is supplied (it must be a number or a marker), it specifies the maximum position in the buffer that point can be skipped to. Point will stop at or before LIMIT. In the following example, point is initially located directly before the `T'. After the form is evaluated, point is located at the end of that line (between the `t' of `hat' and the newline). The function skips all letters and spaces, but not newlines. ---------- Buffer: foo ---------- I read "-!-The cat in the hat comes back" twice. ---------- Buffer: foo ---------- (skip-chars-forward "a-zA-Z ") => nil ---------- Buffer: foo ---------- I read "The cat in the hat-!- comes back" twice. ---------- Buffer: foo ---------- * Function: skip-chars-backward CHARACTER-SET &optional LIMIT This function moves point backward, skipping characters that match CHARACTER-SET. It just like `skip-chars-forward' except for the direction of motion.  File: elisp, Node: Excursions, Next: Narrowing, Prev: Motion, Up: Positions Excursions ========== It is often useful to move point "temporarily" within a localized portion of the program, or to switch buffers temporarily. This is called an "excursion", and it is done with the `save-excursion' special form. This construct saves the current buffer and its values of point and the mark so they can be restored after the completion of the excursion. The forms for saving and restoring the configuration of windows are described elsewhere (*note Window Configurations::.). * Special Form: save-excursion FORMS... The `save-excursion' special form saves the identity of the current buffer and the values of point and the mark in it, evaluates FORMS, and finally restores the buffer and its saved values of point and the mark. All three saved values are restored even in case of an abnormal exit via throw or error (*note Nonlocal Exits::.). The `save-excursion' special form is the standard way to switch buffers or move point within one part of a program and avoid affecting the rest of the program. It is used more than 500 times in the Lisp sources of Emacs. The values of point and the mark for other buffers are not saved by `save-excursion', so any changes made to point and the mark in the other buffers will remain in effect after `save-excursion' exits. Likewise, `save-excursion' does not restore window-buffer correspondences altered by functions such as `switch-to-buffer'. One way to restore these correspondences, and the selected window, is to use `save-window-excursion' inside `save-excursion' (*note Window Configurations::.). The value returned by `save-excursion' is the result of the last of FORMS, or `nil' if no FORMS are given. (save-excursion FORMS) == (let ((old-buf (current-buffer)) (old-pnt (point-marker)) (old-mark (copy-marker (mark-marker)))) (unwind-protect (progn FORMS) (set-buffer old-buf) (goto-char old-pnt) (set-marker (mark-marker) old-mark)))  File: elisp, Node: Narrowing, Prev: Excursions, Up: Positions Narrowing ========= "Narrowing" means limiting the text addressable by Emacs editing commands to a limited range of characters in a buffer. The text that remains addressable is called the "accessible portion" of the buffer. Narrowing is specified with two buffer positions which become the beginning and end of the accessible portion. For most editing commands these positions replace the values of the beginning and end of the buffer. While narrowing is in effect, no text outside the accessible portion is displayed, and point cannot move outside the accessible portion. Values such as positions or line numbers which usually count from the beginning of the buffer continue to do so, but the functions which use them will refuse to operate on text that is inaccessible. The commands for saving buffers are unaffected by narrowing; the entire buffer is saved regardless of the any narrowing. * Command: narrow-to-region START END This function sets the accessible portion of the current buffer to start at START and end at END. Both arguments should be character positions. In an interactive call, START and END are set to the bounds of the current region (point and the mark, with the smallest first). * Command: narrow-to-page MOVE-COUNT This function sets the accessible portion of the current buffer to include just the current page. An optional first argument MOVE-COUNT non-`nil' means to move forward or backward by MOVE-COUNT pages and then narrow. In an interactive call, MOVE-COUNT is set to the numeric prefix argument. * Command: widen This function cancels any narrowing in the current buffer, so that the entire contents are accessible. This is called "widening". It is equivalent to the following expression: (narrow-to-region 1 (1+ (buffer-size))) * Special Form: save-restriction FORMS... This special form saves the current bounds of the accessible portion, evaluates FORMS, and finally restores the saved bounds, thus restoring the same state of narrowing (or absence thereof) formerly in effect. The state of narrowing is restored even in the event of an abnormal exit via throw or error (*note Nonlocal Exits::.). Therefore, this construct is a clean way to narrow a buffer temporarily. The value returned by `save-restriction' is that returned by the last of FORMS, or `nil' if no forms were given. *Note:* it is easy to make a mistake when using `save-restriction'. Read the entire description here before you try it. Point and the mark are *not* restored by this special form; use `save-excursion' for that. If you use both `save-restriction' and `save-excursion' together, `save-excursion' should come first (on the outside). Otherwise, the old point value would be restored with temporary narrowing still in effect. If the old point value were outside the limits of the temporary narrowing, this would fail to restore it accurately. The `save-restriction' special form records the values of the beginning and end of the accessible portion as distances from the beginning and end of the buffer. In other words, it records the amount of inaccessible text before and after the accessible portion. This technique yields correct results if the body of the form does further narrowing. However, `save-restriction' can become confused if the body widens and then makes changes outside the area of the saved narrowing. When this is what you want to do, `save-restriction' is not the right tool for the job. Here is what you must do instead: (let ((beg (point-min-marker)) (end (point-max-marker))) (unwind-protect (progn BODY) (narrow-to-region beg end))) Here is a simple example of correct use of `save-restriction': ---------- Buffer: foo ---------- This is the contents of foo This is the contents of foo This is the contents of foo-!- ---------- Buffer: foo ---------- (save-excursion (save-restriction (goto-char 1) (forward-line 2) (narrow-to-region 1 (point)) (goto-char (point-min)) (replace-string "foo" "bar"))) ---------- Buffer: foo ---------- This is the contents of bar This is the contents of bar This is the contents of foo-!- ---------- Buffer: foo ----------  File: elisp, Node: Markers, Next: Text, Prev: Positions, Up: Top Markers ******* A "marker" is a Lisp object used to specify a position in a buffer relative to the surrounding text. A marker changes its offset from the beginning of the buffer automatically whenever text is inserted or deleted, so that it stays with the two characters on either side of it. * Menu: * Overview of Markers:: The components of a marker, and how it relocates. * Predicates on Markers:: Testing whether an object is a marker. * Creating Markers:: Making empty markers or markers at certain places. * Information from Markers:: Finding the marker's buffer or character position. * Changing Markers:: Moving the marker to a new buffer or position. * The Mark:: How "the mark" is implemented with a marker. * The Region:: How to access "the region".  File: elisp, Node: Overview of Markers, Next: Predicates on Markers, Prev: Markers, Up: Markers Overview of Markers =================== A marker specifies a buffer and a position in that buffer. The marker can be used to represent a position in the functions that require one, just as an integer could be used. *Note Positions::, for a complete description of positions. A marker has two attributes: the marker position, and the marker buffer. The marker position is an integer which is equivalent (at the moment) to the marker as a position in that buffer; however, as text is inserted or deleted in the buffer, the marker is relocated, so that its integer equivalent changes. The idea is that a marker positioned between two characters in a buffer will remain between those two characters despite any changes made to the contents of the buffer; thus, a marker's offset from the beginning of a buffer may change often during the life of the marker. If the text around a marker is deleted, the marker is repositioned between the characters immediately before and after the deleted text. If text is inserted at the position of a marker, the marker remains in front of the new text unless it is inserted with `insert-before-markers' (*note Insertion::.). When text is inserted or deleted somewhere before the marker position (not next to the marker), the marker moves back and forth with the two neighboring characters. When a buffer is modified, all of its markers must be checked so that they can be relocated if necessary. This slows processing in a buffer with a large number of markers. For this reason, it is a good idea to make a marker point nowhere if you are sure you don't need it any more. Unreferenced markers will eventually be garbage collected, but until then will continue to be updated if they do point somewhere. Because it is quite common to perform arithmetic operations on a marker position, most of the arithmetic operations (including `+' and `-') accept markers as arguments. In such cases, the current position of the marker is used. Here are examples of creating markers, setting markers, and moving point to markers: ;; Make a new marker that initially does not point anywhere: (setq m1 (make-marker)) => # ;; Set `m1' to point between the 100th and 101st characters. ;; in the current buffer: (set-marker m1 100) => # ;; Now insert one character at the beginning of the buffer: (goto-char (point-min)) => 1 (insert "Q") => nil ;; `m1' is updated appropriately. m1 => # ;; Two markers that point to the same position ;; are not `eq', but they are `equal'. (setq m2 (copy-marker m1)) => # (eq m1 m2) => nil (equal m1 m2) => t ;; When you are finished using a marker, make it point nowhere. (set-marker m1 nil) => #  File: elisp, Node: Predicates on Markers, Next: Creating Markers, Prev: Overview of Markers, Up: Markers Predicates on Markers ===================== You can test an object to see whether it is a marker, or whether it is either an integer or a marker. The latter test is useful when you are using the arithmetic functions that work with both markers and integers. * Function: markerp OBJECT This function returns `t' if OBJECT is a marker, `nil' otherwise. In particular, integers are not markers, even though many functions will accept either a marker or an integer. * Function: integer-or-marker-p OBJECT This function returns `t' if OBJECT is an integer or a marker, `nil' otherwise.  File: elisp, Node: Creating Markers, Next: Information from Markers, Prev: Predicates on Markers, Up: Markers Functions That Create Markers ============================= When you create a new marker, you can make it point nowhere, or point to the present position of point, or to the beginning or end of the accessible portion of the buffer, or to the same place as another given marker. * Function: make-marker This functions returns a newly allocated marker that does not point anywhere. (make-marker) => # * Function: point-marker This function returns a new marker that points to the present position of point in the current buffer. *Note Point::. For an example, see `copy-marker', below. * Function: point-min-marker This function returns a new marker that points to the beginning of the accessible portion of the buffer. This will be the beginning of the buffer unless narrowing is in effect. *Note Narrowing::. * Function: point-max-marker This function returns a new marker that points to the end of the accessible portion of the buffer. This will be the end of the buffer unless narrowing is in effect. *Note Narrowing::. Here are examples of this function and `point-min-marker', shown in a buffer containing a version of the source file for the text of this chapter. (point-min-marker) => # (point-max-marker) => # (narrow-to-region 100 200) => nil (point-min-marker) => # (point-max-marker) => # * Function: copy-marker MARKER-OR-INTEGER If passed a marker as its argument, `copy-marker' returns a new marker that points to the same place and the same buffer as does MARKER-OR-INTEGER. If passed an integer as its argument, `copy-marker' returns a new marker that points to position MARKER-OR-INTEGER in the current buffer. If passed an argument that is an integer whose value is less than 1, `copy-marker' returns a new marker that points to the beginning of the current buffer. If passed an argument that is an integer whose value is greater than the length of the buffer, then `copy-marker' returns a new marker that points to the end of the buffer. An error is signaled if MARKER is neither a marker nor an integer. (setq p (point-marker)) => # (setq q (copy-marker p)) => # (eq p q) => nil (equal p q) => t (copy-marker 0) => # (copy-marker 20000) => #  File: elisp, Node: Information from Markers, Next: Changing Markers, Prev: Creating Markers, Up: Markers Information from Markers ======================== This section describes the functions for accessing the components of a marker object. * Function: marker-position MARKER This function returns the position that MARKER points to, or `nil' if it points nowhere. * Function: marker-buffer MARKER This function returns the buffer that MARKER points into, or `nil' if it points nowhere. (setq m (make-marker)) => # (marker-position m) => nil (marker-buffer m) => nil (set-marker m 3770 (current-buffer)) => # (marker-buffer m) => # (marker-position m) => 3770 Two distinct markers will be found `equal' (even though not `eq') to each other if they have the same position and buffer, or if they both point nowhere.  File: elisp, Node: Changing Markers, Next: The Mark, Prev: Information from Markers, Up: Markers Changing Markers ================ This section describes how to change the position of an existing marker. When you do this, be sure you know whether the marker is used outside of your program, and, if so, what effects will result from moving it--otherwise, confusing things may happen in other parts of Emacs. * Function: set-marker MARKER POSITION &optional BUFFER This function moves MARKER to POSITION in BUFFER. If BUFFER is not provided, it defaults to the current buffer. If POSITION is less than 1, `set-marker' moves marker to the beginning of the buffer. If the value of POSITION is greater than the size of the buffer, `set-marker' moves marker to the end of the buffer. If POSITION is `nil' or a marker that points nowhere, then MARKER is set to point nowhere. The value returned is MARKER. (setq m (point-marker)) => # (set-marker m 55) => # (setq b (get-buffer "foo")) => # (set-marker m 0 b) => # * Function: move-marker MARKER POSITION &optional BUFFER This is another name for `set-marker'.  File: elisp, Node: The Mark, Next: The Region, Prev: Changing Markers, Up: Markers The Mark ======== A special marker in each buffer is designated "the mark". It records a position for the user for the sake of commands such as `C-w' and `C-x TAB'. Lisp programs should set the mark only to values that have a potential use to the user, and never for their own internal purposes. For example, the `replace-regexp' command sets the mark to the value of point before doing any replacements, because this enables the user to move back there conveniently after the replace is finished. Many commands are designed so that when called interactively they operate on the text between point and the mark. If you are writing such a command, don't examine the mark directly; instead, use `interactive' with the `r' specification. This will provide the values of point and the mark as arguments to the command in an interactive call, but will permit other Lisp programs to specify arguments explicitly. *Note Interactive Codes::. Each buffer has its own value of the mark that is independent of the value of the mark in other buffers. When a buffer is created, the mark exists but does not point anywhere. We consider this state as "the absence of a mark in that buffer". In addition to the mark, each buffer has a "mark ring" which is a list of markers that are the previous values of the mark. When editing commands change the mark, they should normally save the old value of the mark on the mark ring. The mark ring may contain no more than the maximum number of entries specified by the variable `mark-ring-max'; excess entries are discarded on a first-in-first-out basis. * Function: mark This function returns the position of the current buffer's mark as an integer. `nil' is returned if the mark is not yet set for this buffer. * Function: mark-marker This function returns the current buffer's mark. This the very marker which records the mark location inside Emacs, not a copy. Therefore, changing this marker's position will directly affect the position of the mark. Don't do it unless that is the effect you want. (setq m (mark-marker)) => # (set-marker m 100) => # (mark-marker) => # Like any marker, this marker can be set to point at any buffer you like. We don't recommend that you make it point at any buffer other than the one of which it is the mark. If you do, it will yield perfectly consistent, if rather odd, results. * Command: set-mark-command JUMP If JUMP is `nil', this command sets the mark to the value of point and pushes the previous value of the mark on the mark ring. The message `Mark set' is also displayed in the echo area. If JUMP is not `nil', this command sets point to the value of the mark, and sets the mark to the previous saved mark value, which is popped off the mark ring. This function is *only* intended for interactive use. * Function: set-mark POSITION This function sets the mark to POSITION. The old value of the mark is *not* pushed onto the mark ring. *Note:* use this function only if you want the user to see that the mark has moved, and you want the previous mark position to be lost. Normally, when a new mark is set, the old one should go on the `mark-ring', which is why most applications should use `push-mark' and `pop-mark', not `set-mark'. Novice Emacs Lisp programmers often try to use the mark for the wrong purposes. The mark saves a location for the user's convenience. An editing command should not alter the mark unless altering the mark is part of the user-level functionality of the command. (And, in that case, this effect should be documented.) To remember a location for internal use in the Lisp program, store it in a Lisp variable. For example: (let ((beg (point))) (forward-line 1) (delete-region beg (point))). * Variable: mark-ring The value of this buffer-local variable is the list of saved former marks of the current buffer, most recent first. mark-ring => (# # ...) * User Option: mark-ring-max The value of this variable is the maximum size of `mark-ring'. If more marks than this are pushed onto the `mark-ring', it discards marks on a first-in, first-out basis. * Function: push-mark &optional POSITION NOMSG This function sets the current buffer's mark to POSITION, and pushes a copy of the previous mark onto `mark-ring'. If POSITION is `nil', then the value of point is used. `push-mark' returns `nil'. A `Mark set' message is displayed unless NOMSG is non-`nil'. * Function: pop-mark This function pops off the top element of `mark-ring' and makes that mark become the buffer's actual mark. This does not change the buffer's point and does nothing if `mark-ring' is empty. The return value is not useful.  File: elisp, Node: The Region, Prev: The Mark, Up: Markers The Region ========== The text between point and the mark is known as "the region". Various functions operate on text delimited by point and the mark, but only those functions specifically related to the region itself are described here. * Function: region-beginning This function returns the position of the beginning of the region (as an integer). This is the position of either point or the mark, whichever is smaller. If the mark does not point anywhere, an error is signaled. * Function: region-end This function returns the position of the end of the region (as an integer). This is the position of either point or the mark, whichever is larger. If the mark does not point anywhere, an error is signaled. Few programs need to use the `region-beginning' and `region-end' functions. A command designed to operate on a region should instead use `interactive' with the `r' specification, so that the same function can be called with explicit bounds arguments from programs. (*Note Interactive Codes::.)  File: elisp, Node: Text, Next: Searching and Matching, Prev: Markers, Up: Top Text **** This chapter describes the functions that deal with the text in a buffer. Most examine, insert or delete text in the current buffer, often in the vicinity of point. Many are interactive. All the functions that change the text provide for undoing the changes (*note Undo::.). Many text-related functions operate on a region of text defined by two buffer positions passed in arguments named START and END. These arguments should be either markers (*note Markers::.) or or numeric character positions (*note Positions::.). The order of these arguments does not matter; it is all right for START to be the end of the region and END the beginning. For example, `(delete-region 1 10)' and `(delete-region 10 1)' perform identically. An `args-out-of-range' error is signaled if either START or END is outside the accessible portion of the buffer. In an interactive call, point and the mark are used for these arguments. Throughout this chapter, "text" refers to the characters in the buffer. * Menu: * Near Point:: Examining text in the vicinity of point. * Buffer Contents:: Examining text in a general fashion. * Insertion:: Adding new text to a buffer. * Commands for Insertion:: User-level commands to insert text. * Deletion:: Removing text from a buffer. * User-Level Deletion:: User-level commands to delete text. * The Kill Ring:: Where removed text sometimes is saved for later use. * Undo:: Undoing changes to the text of a buffer. * Auto Filling:: How auto-fill mode is implemented to break lines. * Filling:: Functions for explicit filling. * Sorting:: Functions for sorting parts of the buffer. * Indentation:: Functions to insert or adjust indentation. * Columns:: Computing horizontal positions, and using them. * Case Changes:: Case conversion of parts of the buffer. * Substitution:: Replacing a given character wherever it appears. * Underlining:: Inserting or deleting underlining-by-overstrike. * Registers:: How registers are implemented. Accessing the text or position stored in a register.  File: elisp, Node: Near Point, Next: Buffer Contents, Prev: Text, Up: Text Examining Text Near Point ========================= Many functions are provided to look at the characters around point. Several simple functions are described here. See also `looking-at' in *Note Searching and Matching::. * Function: char-after POSITION This function returns the character in the current buffer at (i.e., immediately after) position POSITION. If POSITION is out of range for this purpose, either before the beginning of the buffer, or at or beyond the end, than the value is `nil'. Remember that point is always between characters, and the terminal cursor normally appears over the character following point. Therefore, the character returned by `char-after' is the character the cursor is over. In the following example, assume that the first character in the buffer is `@': (char-to-string (char-after 1)) => "@" * Function: following-char This function returns the character following point in the current buffer. This is similar to `(char-after (point))'. However, point is at the end of the buffer, then the result of `following-char' is 0. In this example, point is between the `a' and the `c'. ---------- Buffer: foo ---------- Gentlemen may cry ``Pea-!-ce! Peace!,'' but there is no peace. ---------- Buffer: foo ---------- (char-to-string (preceding-char)) => "a" (char-to-string (following-char)) => "c" * Function: preceding-char This function returns the character preceding point in the current buffer. See above, under `following-char', for an example. If point is at the beginning of the buffer, then the result of `preceding-char' is 0. * Function: bobp This function returns `t' if point is at the beginning of the buffer. If narrowing is in effect, this means the beginning of the accessible portion of the text. See also `point-min' in *Note Point::. * Function: eobp This function returns `t' if point is at the end of the buffer. If narrowing is in effect, this means the end of accessible portion of the text. See also `point-max' in *Note Point::. * Function: bolp This function returns `t' if point is at the beginning of a line. *Note Text Lines::. * Function: eolp This function returns `t' if point is at the end of a line. The end of the buffer is always considered the end of a line.  File: elisp, Node: Buffer Contents, Next: Insertion, Prev: Near Point, Up: Text Examining Buffer Contents ========================= This section describes two functions that allow a Lisp program to convert any portion of the text in the buffer into a string. * Function: buffer-substring START END This function returns a string containing a copy of the text of the region defined by positions START and END in the current buffer. If the arguments are not positions in the accessible portion of the buffer, Emacs signals an `args-out-of-range' error. It is not necessary for START to be less than END; the arguments can be given in either order. But most often the smaller argument is written first. ---------- Buffer: foo ---------- This is the contents of buffer foo ---------- Buffer: foo ---------- (buffer-substring 1 10) => "This is t" (buffer-substring (point-max) 10) => "he contents of buffer foo " * Function: buffer-string This function returns the contents of the accessible portion of the current buffer as a string. This is the portion between `(point-min)' and `(point-max)' (*note Narrowing::.). ---------- Buffer: foo ---------- This is the contents of buffer foo ---------- Buffer: foo ---------- (buffer-string) => "This is the contents of buffer foo "  File: elisp, Node: Insertion, Next: Commands for Insertion, Prev: Buffer Contents, Up: Text Insertion ========= Insertion takes place at point. Markers pointing at positions after the insertion point are relocated with the surrounding text (*note Markers::.). When a marker points at the place of insertion, it is normally not relocated, so that it points to the beginning of the inserted text; however, when `insert-before-markers' is used, all such markers are relocated to point after the inserted text. Point may end up either before or after inserted text, depending on the function used. If point is left after the inserted text, we speak of insertion "before point". Each of these functions signals an error if the current buffer is read-only. * Function: insert &rest ARGS This function inserts the strings and/or characters ARGS into the current buffer, at point, moving point forward. An error is signaled unless all ARGS are either strings or characters. The value is `nil'. * Function: insert-before-markers &rest ARGS This function inserts the strings and/or characters ARGS into the current buffer, at point, moving point forward. An error is signaled unless all ARGS are either strings or characters. The value is `nil'. This function is unlike the other insertion functions in that a marker whose position initially equals point is relocated to come after the newly inserted text. * Function: insert-char CHARACTER COUNT This function inserts COUNT instances of CHARACTER into the current buffer before point. COUNT must be a number, and CHARACTER must be a character. The value is `nil'. * Function: insert-buffer-substring FROM-BUFFER-OR-NAME START END This function inserts a substring of the contents of buffer FROM-BUFFER-OR-NAME (which must already exist) into the current buffer before point. The text inserted consists of the characters in the region defined by START and END. The value is `nil'. In this example, the form is executed with buffer `bar' as the current buffer. We assume that buffer `bar' is initially empty. ---------- Buffer: foo ---------- We hold these truths to be self-evident, that all ---------- Buffer: foo ---------- (insert-buffer-substring "foo" 1 20) => nil ---------- Buffer: bar ---------- We hold these truth ---------- Buffer: bar ----------