Difference between revisions of "Emacs Lisp Cookbook"

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Line 449: Line 449:
 
Use the function `format-time-string' which is a build in function in both Emacsen and works like `strftime':
 
Use the function `format-time-string' which is a build in function in both Emacsen and works like `strftime':
  
 +
<syntaxhighlight lang="lisp">
 
     ;; Year-Month-Day:
 
     ;; Year-Month-Day:
 
     (insert (format-time-string "%Y-%m-%d"))
 
     (insert (format-time-string "%Y-%m-%d"))
 
     ;; Hour:Minutes:Seconds
 
     ;; Hour:Minutes:Seconds
 
     (insert (format-time-string "%H-%M-%S"))
 
     (insert (format-time-string "%H-%M-%S"))
 +
</syntaxhighlight>   
  
 
=== Conversions ===
 
=== Conversions ===
Line 458: Line 460:
 
Read a date from a string.
 
Read a date from a string.
  
 +
<syntaxhighlight lang="lisp">
 
   (let ((time (date-to-time "Tue, 27-Sep-83 12:35:59 EST")))
 
   (let ((time (date-to-time "Tue, 27-Sep-83 12:35:59 EST")))
 
     (set-time-zone-rule t) ;; Use Universal time.
 
     (set-time-zone-rule t) ;; Use Universal time.
Line 463: Line 466:
 
       (set-time-zone-rule nil))) ;; Reset to default time zone.
 
       (set-time-zone-rule nil))) ;; Reset to default time zone.
 
   ==> "1983-09-27 17:35:59 UTC"
 
   ==> "1983-09-27 17:35:59 UTC"
 +
</syntaxhighlight> 
  
 
Decode a time object.
 
Decode a time object.
  
 +
<syntaxhighlight lang="lisp">
 
   (decode-time (date-to-time "Tue, 27-Sep-83 12:35:59 EST"))
 
   (decode-time (date-to-time "Tue, 27-Sep-83 12:35:59 EST"))
 
   ==> (59 35 13 27 9 1983 2 t -14400)
 
   ==> (59 35 13 27 9 1983 2 t -14400)
 +
</syntaxhighlight> 
  
 
Get the seconds from the unix epoch.
 
Get the seconds from the unix epoch.
  
 +
<syntaxhighlight lang="lisp">
 
   (let ((time (date-to-time "13 Feb 2009 23:31:30 UTC")))
 
   (let ((time (date-to-time "13 Feb 2009 23:31:30 UTC")))
 
     (float-time time))
 
     (float-time time))
 
   ==> 1234585890.0
 
   ==> 1234585890.0
 +
</syntaxhighlight> 
  
 
Find the date for seconds from the unix epoch.
 
Find the date for seconds from the unix epoch.
  
 +
<syntaxhighlight lang="lisp">
 
   (format-time-string "%Y-%m-%d %T UTC" (seconds-to-time 1234585890))
 
   (format-time-string "%Y-%m-%d %T UTC" (seconds-to-time 1234585890))
 
   ==> "2009-02-13 23:31:30 UTC"
 
   ==> "2009-02-13 23:31:30 UTC"
 +
</syntaxhighlight> 
  
 
Find the date 30 seconds in the future.
 
Find the date 30 seconds in the future.
  
 +
<syntaxhighlight lang="lisp">
 
   (format-time-string "%Y-%m-%d %T UTC" (time-add (current-time)
 
   (format-time-string "%Y-%m-%d %T UTC" (time-add (current-time)
 
                                                   (seconds-to-time 30)))
 
                                                   (seconds-to-time 30)))
 
   ==> "2012-02-13 10:07:11 UTC"
 
   ==> "2012-02-13 10:07:11 UTC"
 +
</syntaxhighlight> 
  
 
Formatting elapsed time in years, days, hours, minutes and seconds.
 
Formatting elapsed time in years, days, hours, minutes and seconds.
  
 +
<syntaxhighlight lang="lisp">
 
   (format-seconds "%Y %D %h:%m:%s" (1- (* 367 24 3600)))
 
   (format-seconds "%Y %D %h:%m:%s" (1- (* 367 24 3600)))
 
   ==> "1 year 1 day 23:59:59"
 
   ==> "1 year 1 day 23:59:59"
 +
</syntaxhighlight> 
  
 
Find the days between two dates.
 
Find the days between two dates.
  
 +
<syntaxhighlight lang="lisp">
 
   (let ((days1 (time-to-days (date-to-time "Tue, 27-Sep-83 12:35:59 EST")))
 
   (let ((days1 (time-to-days (date-to-time "Tue, 27-Sep-83 12:35:59 EST")))
 
         (days2 (time-to-days (date-to-time "2009-02-13 23:31:30 UTC"))))
 
         (days2 (time-to-days (date-to-time "2009-02-13 23:31:30 UTC"))))
 
     (- days2 days1))
 
     (- days2 days1))
 
   ==> 9271
 
   ==> 9271
 +
</syntaxhighlight> 
  
 
Getting the day in the year.
 
Getting the day in the year.
  
 +
<syntaxhighlight lang="lisp">
 
   (time-to-day-in-year (current-time))
 
   (time-to-day-in-year (current-time))
 
   ==> 44
 
   ==> 44
 +
</syntaxhighlight> 
  
 
Build a date based on the day of the year.
 
Build a date based on the day of the year.
  
 +
<syntaxhighlight lang="lisp">
 
   (format-time-string "%j"
 
   (format-time-string "%j"
 
                       (encode-time 0 0 0 44 1 2012))
 
                       (encode-time 0 0 0 44 1 2012))
 
   ==> "044"
 
   ==> "044"
 +
</syntaxhighlight> 
  
 
=== Timers ===
 
=== Timers ===
  
See IdleTimers
+
TODO
  
 
== Pattern matching ==
 
== Pattern matching ==
Line 521: Line 541:
 
=== Finding ===
 
=== Finding ===
  
 +
<syntaxhighlight lang="lisp">
 
     (string-match "foo*" "Fight foo for food!")
 
     (string-match "foo*" "Fight foo for food!")
 
     ==> 6
 
     ==> 6
 +
</syntaxhighlight>   
  
 
Buffers:
 
Buffers:
  
 +
<syntaxhighlight lang="lisp">
 
     (with-temp-buffer
 
     (with-temp-buffer
 
       (insert "Fight foo for food!")
 
       (insert "Fight foo for food!")
Line 532: Line 555:
 
       (point))
 
       (point))
 
     ==> 10
 
     ==> 10
 +
</syntaxhighlight>   
  
 
Alternative without regular expressions: `search-forward'.
 
Alternative without regular expressions: `search-forward'.
Line 542: Line 566:
 
Move to the beginning of the current comment:
 
Move to the beginning of the current comment:
  
 +
<syntaxhighlight lang="lisp">
 
     (require 'newcomment)
 
     (require 'newcomment)
 
     (comment-beginning)
 
     (comment-beginning)
 +
</syntaxhighlight>   
  
 
Move to the text after a comment:
 
Move to the text after a comment:
  
 +
<syntaxhighlight lang="lisp">
 
     (comment-search-forward (line-end-position) t)
 
     (comment-search-forward (line-end-position) t)
 +
</syntaxhighlight>   
  
 
See also EndOfLineNoComments.
 
See also EndOfLineNoComments.
Line 553: Line 581:
 
=== Search and replace ===
 
=== Search and replace ===
  
 +
<syntaxhighlight lang="lisp">
 
     (replace-regexp-in-string "foo*" "fu" "Fight foo for food!")
 
     (replace-regexp-in-string "foo*" "fu" "Fight foo for food!")
 
     ==> "Fight fu fur fud!"
 
     ==> "Fight fu fur fud!"
 +
</syntaxhighlight>   
  
 
Buffers:
 
Buffers:
  
 +
<syntaxhighlight lang="lisp">
 
     (with-temp-buffer
 
     (with-temp-buffer
 
       (insert "Fight foo for food!")
 
       (insert "Fight foo for food!")
Line 565: Line 596:
 
       (buffer-string))
 
       (buffer-string))
 
     ==> "Fight fu fur fud!"
 
     ==> "Fight fu fur fud!"
 +
</syntaxhighlight>   
  
 
Alternative without regular expressions: `search-forward'.
 
Alternative without regular expressions: `search-forward'.
Line 574: Line 606:
 
Sometimes you just want to check whether you're at the right place:
 
Sometimes you just want to check whether you're at the right place:
  
 +
<syntaxhighlight lang="lisp">
 
     (with-temp-buffer
 
     (with-temp-buffer
 
       (insert "Fight foo for food!")
 
       (insert "Fight foo for food!")
Line 579: Line 612:
 
       (looking-at "fight"))
 
       (looking-at "fight"))
 
     ==> t
 
     ==> t
 +
</syntaxhighlight>   
  
 
== Sequences ==
 
== Sequences ==

Revision as of 14:01, 3 April 2012

This page contains snippets of code that demonstrate basic Emacs Lisp programming operations in the spirit of the O'Reilly Cookbook series of books. For every task addressed, a worked-out solution is presented as a short, focused, directly usable piece of code.

All this stuff can be found elsewhere, but it is scattered about in libraries, manuals, etc. It would be helpful to have here in one spot.

These recipes should be pastable into the *scratch* buffer so that users can hit C-j and evaluate them step by step.

Strings

The empty string (zero-length string, null string, ...):

(zerop (string-match "" "")) ;; O(n)
==> t

(string-equal "" "") ;; O(n)?
==> t

(equal "" "") ;; O(n)?
==> t

(zerop (length "")) ;; O(1)
==> t

(eq "" "") ;; O(1)
==> t

As a space and performance optimization, Emacs keeps an intern-ed copy of the empty string as a single object

(eq "" (purecopy ""))
==> t

(eq "" (propertize "" 'face 'italic))
==> t

Strings vs buffer content

While it is quite common in other programming languages to work on strings contained in variables in Emacs it is even more idiomatic to work on strings in buffers. That's why the following contains examples of both.

Substrings

(substring "abcdefg" 0 3)
==> "abc"
(substring "abcdefg" -3 -1)
==> "ef"

The TO argument is optional:

(substring "abcdefg" -3)
==> "efg"

Buffers:

(with-temp-buffer
  (insert "abcdefg")
  (buffer-substring 2 4))
==> "bc"

Processing characters

Reversing a string:

(string-to-list "foo")
==> (102 111 111)
(reverse (string-to-list "foo"))
==> (111 111 102)
(apply 'string (reverse (string-to-list "foo")))
==> "oof"

See CharacterProcessing and StringModification. See tr for an example of you sometimes need to mix strings and characters.

Looking at characters in buffers:

(with-temp-buffer
  (insert "abcdefg")
  (goto-char (point-min))
  (while (not (= (char-after) ?b))
    (forward-char))
  (point))
==> 2

Trim whitespace

Trim whitespace from the end of a string:

(setq test-str "abcdefg  ")
(when (string-match "[ \t]*$" test-str)
  (message (concat "[" (replace-match "" nil nil test-str) "]")))
<syntaxhighlight>

Trim whitespace from a string with a Perl-like chomp function:

<syntaxhighlight lang="lisp">
(defun chomp (str)
  "Chomp leading and tailing whitespace from STR."
  (while (string-match "\\`\n+\\|^\\s-+\\|\\s-+$\\|\n+\\'"
                       str)
    (setq str (replace-match "" t t str)))
  str)

Splitting strings

TODO

Joining strings

Use `mapconcat' to join a list into a string using a separator ("glue") between elements in the string.

Example:

(mapconcat 'identity '("" "home" "alex " "elisp" "erc") "/")
==> "/home/alex /elisp/erc"

Serialization

The basic idea is to convert forms to strings with `prin1-to-string' and convert it back from a string with `read'.

(length (read (prin1-to-string (make-list 1000000 '(x)))))
  ==> 1000000

(read (prin1-to-string "Hello World!"))
  ==> "Hello World!"
<syntaxhighlight>

This only works in the simplest cases.  Unfortunately, this doesn't work for all Emacs data types for programming or the editor.

<syntaxhighlight lang="lisp">
(read (prin1-to-string (make-hash-table))) ;; Error before Emacs 23.
  ==> #s(hash-table size 65 test eql rehash-size 1.5 [...] data ())

(read (prin1-to-string (current-buffer)))
  ==> Lisp error: (invalid-read-syntax "#")

Formatting

Killing text

As the ElispManual says, "Most of the kill commands are primarily for interactive use [...] When you need to delete text for internal purposes within a Lisp function, you should normally use deletion functions, so as not to disturb the kill ring contents."

The following mimic the `kill-' commands but without disturbing the kill ring.

Delete region

The Lisp equivalent of `kill-region' (`C-w') but without kill ring side effects::

  (delete-region (region-beginning)
                 (region-end))

According to the ElispManual, "Few programs need to use the `region-beginning' and `region-end' functions." This is because Lisp code should not rely on nor "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)))

Delete line

The equivalent of `kill-line' (`C-k') but without kill ring side effects:

 (let ((beg (point)))
   (forward-line 1)
   (forward-char -1)
   (delete-region beg (point)))

Alternatively, replacing the `let' with `save-excursion'.

  (delete-region (point)
                 (save-excursion
                   (forward-line 1)
                   (forward-char -1)
                   (point)))

Or simplest of all,

   (delete-region (point) (line-end-position))

The examples with `forward-line' are shown because the paradigm is used later, see below.

Delete line backwards

The equivalent of killing the line backwards (`C-0 C-k') but without kill ring side effects:

 (let ((beg (point)))
   (forward-line 0)
   (delete-region (point) beg))

Alternatively, replacing the `let' with `save-excursion'.

  (delete-region (save-excursion
                   (forward-line 0)
                   (point))
                 (point))

Or simplest of all,

   (delete-region (line-beginning-position) (point))


Delete line to next line

The equivalent of killing the line and the newline (`C-1 C-k') but without kill ring side effects:

 (let ((beg (point)))
   (forward-line 1)
   (delete-region beg (point)))

Alternatively, replacing the `let' with `save-excursion'.

  (delete-region (point)
                 (save-excursion
                   (forward-line 1)
                   (point)))

Delete whole line

The equivalent of `kill-whole-line' (`C-S-DEL') but without kill ring side effects:

 (let ((beg (progn (forward-line 0)
                   (point))))
   (forward-line 1)
   (delete-region beg (point)))

Alternatively, replacing the `let' with `save-excursion'.

  (delete-region (save-excursion
                   (forward-line 0)
                   (point))
                 (save-excursion
                   (forward-line 1)
                   (point)))

Or simplest of all,

   (delete-region (line-beginning-position) (line-end-position))

Delete word

The equivalent of `kill-word' (`M-d') but without kill ring side effects:

 (let ((beg (point)))
   (forward-word 1)
   (delete-region beg (point)))

Alternatively, replacing the `let' with `save-excursion'.

  (delete-region (point)
                 (save-excursion
                   (forward-word 1)
                   (point)))

Delete sentence

The equivalent of `kill-sentence' (`M-k') but without kill ring side effects:

 (let ((beg (point)))
   (forward-sentence 1)
   (delete-region beg (point)))

Alternatively, replacing the `let' with `save-excursion'.

  (delete-region (point)
                 (save-excursion
                   (forward-sentence 1)
                   (point)))

Numbers

String a number?

 (defun string-integer-p (string)
   (if (string-match "\\`[-+]?[0-9]+\\'" string)
       t
     nil))

 (string-integer-p "1234")
   ==> t

 (string-integer-p "x1234")
   ==> nil

 (string-integer-p "3.141592653589793")
   ==> nil

 (defun string-float-p (string)
   (if (string-match "\\`[-+]?[0-9]+\\.[0-9]*\\'" string)
       t
     nil))

 (string-float-p "1234")
   ==> nil

 (string-float-p "3.141592653589793")
   ==> t

 (string-float-p ".1")
   ==> nil

 (string-float-p "1.")
   ==> t

String to number

  (defun decimal-number (string)
    (let ((n (string-to-number string)))
      (if (and (zerop n)
               (not (string-match "\\`\\s-*0+\\.?0*\\s-*\\'" string)))
          nil
        n)))
  
  (decimal-number "536870911")
  536870911
  
  (decimal-number "536870912")
  536870912.0
  
  (decimal-number "3.141592653589793")
  3.141592653589793
  
  (decimal-number "042")
  42
  
  (decimal-number " 0 ")
  0
  
  (decimal-number "000")
  0
  
  (decimal-number "0.0")
  0.0

Random numbers

  (random 2)  ;coin toss (0 or 1)
  (+ (random 6) 1)  ;dice

Put commas in numbers

  (defun group-number (num &optional size char)
    "Format NUM as string grouped to SIZE with CHAR."
    ;; Based on code for `math-group-float' in calc-ext.el
    (let* ((size (or size 3))
           (char (or char ","))
           (str (if (stringp num)
                    num
                  (number-to-string num)))
           (pt (or (string-match "[^0-9a-zA-Z]" str) (length str))))
      (while (> pt size)
        (setq str (concat (substring str 0 (- pt size))
                          char
                          (substring str (- pt size)))
              pt (- pt size)))
      str))

  (group-number 299792458)
  ==> "299,792,458"
  (group-number "149597870691" 4 " ")
  ==> "1495 9787 0691"

Incrementing numbers

TODO

Dates and times

Get today's date

TODO

Formatting dates

Use the function `format-time-string' which is a build in function in both Emacsen and works like `strftime':

    ;; Year-Month-Day:
    (insert (format-time-string "%Y-%m-%d"))
    ;; Hour:Minutes:Seconds
    (insert (format-time-string "%H-%M-%S"))

Conversions

Read a date from a string.

  (let ((time (date-to-time "Tue, 27-Sep-83 12:35:59 EST")))
    (set-time-zone-rule t) ;; Use Universal time.
    (prog1 (format-time-string "%Y-%m-%d %T UTC" time)
      (set-time-zone-rule nil))) ;; Reset to default time zone.
  ==> "1983-09-27 17:35:59 UTC"

Decode a time object.

  (decode-time (date-to-time "Tue, 27-Sep-83 12:35:59 EST"))
  ==> (59 35 13 27 9 1983 2 t -14400)

Get the seconds from the unix epoch.

  (let ((time (date-to-time "13 Feb 2009 23:31:30 UTC")))
    (float-time time))
  ==> 1234585890.0

Find the date for seconds from the unix epoch.

  (format-time-string "%Y-%m-%d %T UTC" (seconds-to-time 1234585890))
  ==> "2009-02-13 23:31:30 UTC"

Find the date 30 seconds in the future.

  (format-time-string "%Y-%m-%d %T UTC" (time-add (current-time)
                                                  (seconds-to-time 30)))
  ==> "2012-02-13 10:07:11 UTC"

Formatting elapsed time in years, days, hours, minutes and seconds.

  (format-seconds "%Y %D %h:%m:%s" (1- (* 367 24 3600)))
  ==> "1 year 1 day 23:59:59"

Find the days between two dates.

  (let ((days1 (time-to-days (date-to-time "Tue, 27-Sep-83 12:35:59 EST")))
        (days2 (time-to-days (date-to-time "2009-02-13 23:31:30 UTC"))))
    (- days2 days1))
  ==> 9271

Getting the day in the year.

  (time-to-day-in-year (current-time))
  ==> 44

Build a date based on the day of the year.

  (format-time-string "%j"
                      (encode-time 0 0 0 44 1 2012))
  ==> "044"

Timers

TODO

Pattern matching

"Patterns" refers to RegularExpression""s.

There's a set of functions that work in strings, and a set that work in buffers.

Finding

    (string-match "foo*" "Fight foo for food!")
    ==> 6

Buffers:

    (with-temp-buffer
      (insert "Fight foo for food!")
      (goto-char (point-min))
      (re-search-forward "foo*")
      (point))
    ==> 10

Alternative without regular expressions: `search-forward'.

Note that the functions working on buffers move point to the end of the occurrence found and return it. That's why the result is 10 instead of 6!

Comments

Move to the beginning of the current comment:

    (require 'newcomment)
    (comment-beginning)

Move to the text after a comment:

    (comment-search-forward (line-end-position) t)

See also EndOfLineNoComments.

Search and replace

    (replace-regexp-in-string "foo*" "fu" "Fight foo for food!")
    ==> "Fight fu fur fud!"

Buffers:

    (with-temp-buffer
       (insert "Fight foo for food!")
       (goto-char (point-min))
       (while (re-search-forward "foo*" nil t)
         (replace-match "fu"))
       (buffer-string))
    ==> "Fight fu fur fud!"

Alternative without regular expressions: `search-forward'.

See also StringSearchAndReplace.

Verifying

Sometimes you just want to check whether you're at the right place:

    (with-temp-buffer
      (insert "Fight foo for food!")
      (goto-char (point-min))
      (looking-at "fight"))
    ==> t

Sequences

Datatypes used to represent sequences of things:

    _____________________________________________
   |                                             |
   |          Sequence                           |
   |  ______   ________________________________  |
   | |      | |                                | |
   | | List | |             Array              | |
   | |      | |    ________       ________     | |
   | |______| |   |        |     |        |    | |
   |          |   | Vector |     | String |    | |
   |          |   |________|     |________|    | |
   |          |  ____________   _____________  | |
   |          | |            | |             | | |
   |          | | Char-table | | Bool-vector | | |
   |          | |____________| |_____________| | |
   |          |________________________________| |
   |_____________________________________________|


Lists

List basics are explained on ListStructure. Lists can shrink and grow, but access to elements towards the end of the list is slow if the list is long.

Use `cons' to append a new element to the front of a list. Use `nth' to access an element of the list.

   (let ((words '("fight" "foo" "for" "food!")))
     (when (string= "foo" (nth 1 words))
       (setq words (cons "bar" words)))
     words)
   ==> ("bar" "fight" "foo" "for" "food!")

See ListModification for more ways of changing a list.

Iteration:

   (let ((result))
     (dolist (word '("fight" "foo" "for" "food!"))
       (when (string-match "o" word)
         (setq result (cons word result))))
     (nreverse result))
   ==> ("foo" "for" "food!")

Note how `cons' adds an element to the front of the list, so that usually the list has to be reversed after the loop. `nreverse' is particularly efficient because it does this destructively by swiveling pointers around. See DestructiveOperations for more about this.

Copying:

Use `copy-sequence' to make a copy of a list that won't change the elements of the original.

   (let* ((orig '((1 2) (3 4)))
          (copy (copy-sequence orig)))
     (setcdr copy '((5 6)))
     (list orig copy))
   ==> (((1 2) (3 4)) ((1 2) (5 6)))

However, the elements in the copy are still from the original.

   (let* ((orig '((1 2) (3 4)))
          (copy (copy-sequence orig)))
     (setcdr (cadr copy) '(0))
     (list orig copy))
   ==> (((1 2) (3 0)) ((1 2) (3 0)))

The function `copy-tree' is the recursive version of `copy-sequence'.

   (let* ((orig '((1 2) (3 4)))
          (copy (copy-tree orig)))
     (setcdr (cadr copy) '(0))
     (list orig copy))
   ==> (((1 2) (3 4)) ((1 2) (3 0)))

Filtering:

Emacs Lisp doesn't come with a `filter' function to keep elements that satisfy a conditional and excise the elements that do not satisfy it. One can use `mapcar' to iterate over a list with a conditional, and then use `delq' to remove the `nil' values.

 (defun my-filter (condp lst)
   (delq nil
         (mapcar (lambda (x) (and (funcall condp x) x)) lst)))

Therefore,

 (my-filter 'identity my-list)

is equivalent to

 (delq nil my-list)

For example:

 (let ((num-list '(1 'a 2 "nil" 3 nil 4)))
   (my-filter 'numberp num-list))
 ==> (1 2 3 4)

Actually the package cl-seq contains the functions `remove-if' and `remove-if-not'. The latter can be used instead of `my-filter'.

 (let ((num-list '(1 'a 2 "nil" 3 nil 4)))
   (remove-if-not 'numberp num-list))
 ==> (1 2 3 4)
 (let ((num-list '(1 'a 2 "nil" 3 nil 4)))
   (remove-if 'numberp num-list))
 ==> ((quote a) "nil" nil)

As an example here is the quick sort algorithm:

 (defun quicksort (lst)
   "Implement the quicksort algorithm."
   (if (null lst) nil
     (let* ((spl (car lst))
            (rst (cdr lst))
            (smalp (lambda (x)
                  (< x spl))))
       (append (quicksort (remove-if-not smalp rst))
               (list spl)
               (quicksort (remove-if smalp rst))))))
 (quicksort '(5 7 1 3 -9 8 7 -4 0))
 ==> (-9 -4 0 1 3 5 7 7 8)

Tranposing:

Convert multiple lists into a list

((lambda (&rest args)
   (mapcar (lambda (n)
             (delq nil (mapcar (lambda (arg) (nth n arg)) args)))
           (number-sequence 0 (1- (apply 'max (mapcar 'length args))))))
 '(1 2 3) '(a b c) '(A B C))
 ==> ((1 a A) (2 b B) (3 c C))

A more concise version is possible with the the higher-arity version of mapcar available with the `cl' library.

 ((lambda (&rest args)
    (apply (function mapcar*) (function list) args))
  '(1 2 3) '(a b c) '(A B C))
 ==> ((1 a A) (2 b B) (3 c C))

Searching:

Simply checking for existence of a value in a list can be done with `member' or `memq'.

 (let ((words '("fight" "foo" "for" "food!")))
   (car (member "for" words)))
 ==> "for"
 (let ((re "\\wo\\b")
       (words '("fight" "foo" "for" "food!")))
   (consp (memq t
            (mapcar (lambda (s) (numberp (string-match re s))) words))))
 ==> t

In the latter, a more efficient algorithm would use a loop (a non-local exit).

Association lists

The ElispManual has examples of finding and deleting values in an association list. Here are cases when the car values are strings.

 (assoc "2" '(("2" . 2) ("1" . 1) ("2") ("3" . 3)))
 ==> ("2" . 2)

Deleting:

 (let ((alist '(("a" . 1) ("b" . 2))))
   (delq (assoc "a" alist) alist))
 ==> (("b" . 2))

Matches with a test function other than `equal':

 (let ((alist '(("ab" . 1) ("bc" . 2) ("cd" . 3))))
   (assoc-default "c" alist (lambda (x y) (string-match y x))))
 ==> 2

Vectors

Vectors are fixed in size but elements can be accessed in constant time.

   (let ((words ["fight" "foo" "for" "food!"]))
     (when (string= "foo" (aref words 1))
       (aset words 1 "bar"))
     words)
   ==> ["fight" "bar" "for" "food!"]

Hashes

Hashes map keys to values. In a way they are similar to alists, except they are more efficient for a large number of keys.

More info is available on the HashMap page.

Storing and retrieving keys and values

By default, hash tables use `eql' to compare keys. This is not appropriate for strings: ##(eql "alex" "alex")## ==> nil. Thus, use `equal' in these cases:

   (let ((nick-table (make-hash-table :test 'equal)))
     (puthash "kensanata" "Alex Schroeder" nick-table)
     (gethash "kensanata" nick-table))
   ==> "Alex Schroeder"

Iterate:

   (let ((nick-table (make-hash-table :test 'equal))
         nicks)
     (puthash "kensanata" "Alex Schroeder" nick-table)
     (puthash "e1f" "Luis Fernandes" nick-table)
     (puthash "pjb" "Pascal J. Bourguignon" nick-table)
     (maphash (lambda (nick real-name)
                (setq nicks (cons nick nicks)))
              nick-table)
     nicks)
     ==> ("pjb" "e1f" "kensanata")

Sorting keys

Use `maphash' to build up a list of keys, sort it, and then loop through the list:

   (let ((nick-table (make-hash-table :test 'equal))
         nicks)
     (puthash "kensanata" "Alex Schroeder" nick-table)
     (puthash "e1f" "Luis Fernandes" nick-table)
     (puthash "pjb" "Pascal J. Bourguignon" nick-table)
     (maphash (lambda (nick real-name)
                (setq nicks (cons nick nicks)))
              nick-table)
     (mapcar (lambda (nick)
               (concat nick " => " (gethash nick nick-table)))
             (sort nicks 'string<)))
     ==> ("e1f => Luis Fernandes"
          "kensanata => Alex Schroeder"
          "pjb => Pascal J. Bourguignon")

Files

Read

Processing a file is usually done with a temporary buffer:

(defun process-file (file)
  "Read the contents of a file into a temp buffer and then do
something there."
  (when (file-readable-p file)
    (with-temp-buffer
      (insert-file-contents file)
      (goto-char (point-min))
      (while (not (eobp))
      ;; do something here with buffer content
        (forward-line)))))

On the chance that a buffer may already be actively visiting the file, consider using `find-file-noselect'

 (defun file-string (file)
   "Read the contents of a file and return as a string."
   (with-current-buffer (find-file-noselect file)
     (buffer-string)))

Write

To write something to a file you can create a temporary buffer, insert the things to write there and write the buffer contents to a file. The following example read a string and a filename (with completion, but doesn't need to exist, see InteractiveCodeChar F) and write the string to that file.

(defun write-string-to-file (string file)
  (interactive "sEnter the string: \nFFile to save to: ")
  (with-temp-buffer
    (insert string)
    (when (file-writable-p file)
      (write-region (point-min)
                    (point-max)
                    file))))

Input and output (I/O)

This is a nice and simple way to edit a file with Emacs Lisp, especially when there's a chance the file might be already be visited in Emacs and its ok to edit the existing buffer.

 (with-current-buffer (find-file-noselect "~/logfile")
   (goto-char (point-max))
   (insert (format "Hash of last line: %s"
            (md5
             (save-excursion
               (forward-line -1)
               (buffer-substring-no-properties (point)
                                               (line-end-position))))))
   (newline)
   (with-temp-message "Writing file..."
     (save-buffer))
   (message "Writing file...done"))

Searching

If you don't have grep, then you may need to write some Lisp which can find a match in a file.

 ;; Visit file unless its already open.
 (with-current-buffer (find-file-noselect "~/.emacs")
   (save-excursion ;; Don't change location of point.
     (goto-char (point-min)) ;; From the beginning...
     (if (re-search-forward ".*load-path.*" nil t 1)
         (match-string-no-properties 0)
       (error "Search failed"))))
 ==> "(add-to-list 'load-path \"/usr/share/emacs/site-lisp/\")"

Filter

Locking

Stat

An interface to the kernel's stat(2) is provided by the function file-attributes. The way times are represented may be a bit unexpected, though.

Deleting

 (if (file-exists-p filename)
     (delete-file filename))

Copy, move and rename

Directories

Traversing

   (defun walk-path (dir action)
      "walk DIR executing ACTION with (dir file)"
      (cond ((file-directory-p dir)
             (or (char-equal ?/ (aref dir(1- (length dir))))
                 (setq dir (file-name-as-directory dir)))
             (let ((lst (directory-files dir nil nil t))
                    fullname file)
               (while lst
                 (setq file (car lst))
                 (setq lst (cdr lst))
                 (cond ((member file '("." "..")))
                       (t
                        (and (funcall action dir file)
                             (setq fullname (concat dir file))
                             (file-directory-p fullname)
                             (walk-path fullname action)))))))
            (t
             (funcall action
                      (file-name-directory dir)
                      (file-name-nondirectory dir)))))
   (defun walk-path-visitor (dir file)
      "Called by walk-path for each file found"
      (message (concat  dir file)))
   (walk-path "~/" 'walk-path-visitor)

Path splitting

Splitting the path can be done with `split-string' and with the slash. Previously, Emacs would determine the character separating directory names with `directory-sep-char'. However, the variable is obselete with Emacs 21.1.

 (split-string default-directory "/")
 ==> ("" "usr" "share" "emacs" "22.2" "lisp" "")

For splitting a path variable, Emacs already has the `parse-colon-path' function.

 (parse-colon-path (getenv "PATH"))
 ==> ("/usr/lib/qt-3.3/bin/" "/usr/kerberos/bin/" "/usr/local/bin/" "/usr/bin/" "/bin/" "/usr/local/sbin/" "/usr/sbin/" "/sbin/")

Processes

Running a program

Run a command without caring about its output.

 (async-shell-command "emacs")

Run a command and put its output in the current buffer.

 (shell-command "seq 8 12 | sort" t)
 10
 11
 12
 8
 9

Run a command and put its output in a new buffer.

 (shell-command "seq 8 12 | sort"
                (get-buffer-create "*Standard output*"))

Run a command return its output as a string.

 (shell-command-to-string "seq 8 12 | sort")

XEmacs also comes with `exec-to-string'.

Handling signals

Sockets

Tcp client

Tcp server

Perhaps EmacsEchoServer and EmacsDaytimeServer can be useful here.

Keyboard events

  • Call function bound to key
 (funcall (key-binding (kbd "M-TAB")))

or

 (call-interactively (key-binding (kbd "M-TAB")))

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