Often you type the same long phrases over and over in a file. vi and ex have a number of different ways of saving long sequences of commands, both in command mode and in insert mode. When you call up one of these saved sequences to execute it, all you do is type a few characters (or even only one), and the entire sequence is executed as if you had entered the whole sequence of commands one by one.
abbr is an abbreviation for the specified phrase. The sequence of characters that make up the abbreviation will be expanded in insert mode only if you type it as a full word; abbr will not be expanded within a word.
Suppose in the file practice you want to enter text that contains a frequently recurring phrase such as a difficult product or company name. The command:
abbreviates International Materials Research Center to the initials imrc. Now whenever you type imrc in insert mode, imrc expands to the full text.:ab imrc International Materials Research Center
Abbreviations expand as soon as you press a non-alphanumeric character (e.g., punctuation), a space, a carriage return, or [ESC] (returning to command mode). When you are choosing abbreviations, choose combinations of characters that don't ordinarily occur while you are typing text. If you create an abbreviation that ends up expanding in places where you don't want it to, you can disable the abbreviation by typing:
To list your currently defined abbreviations, type:
The characters that compose your abbreviation cannot also appear at the end of your phrase. For example, if you issue the command:
:ab PG This movie is rated PG
you'll get the message "No tail recursion," and the abbreviation won't be set. The message means that you have tried to define something that will expand itself repeatedly, creating an infinite loop. If you issue the command:
:ab PG the PG rating system
you may or may not produce an infinite loop, but in either case you won't get a warning message. For example, when the above command was tested on a System V version of UNIX, the expansion worked. Circa 1990 on a Berkeley version, the abbreviation expanded repeatedly, like this:
the the the the the ...
until a memory error occurred and vi quit.
When tested, we obtained the following results on these vi versions:
We recommend that you avoid repeating your abbreviation as part of the defined phrase.
While you're editing, you may find that you are using a command sequence
frequently, or you may occasionally use a very complex command
To save yourself keystrokes, or the time that it takes
to remember the sequence, you can assign the sequence to an unused key
by using the
map command acts a lot like
except that you define a macro for vi's command
mode instead of for insert mode.
Define character x as a sequence of editing commands.
Disable the sequence defined for x.
List the characters that are currently mapped.
Before you can start creating your own maps, you need to know the keys not used in command mode that are available for user-defined commands:
g K q V v
^A ^K ^O ^W ^X
_ * \ =
=is used by vi if Lisp mode is set, and to do text formatting by several of the clones. In many modern versions of vi, the
_is equivalent to the
^command, and elvis and vim have a "visual mode" that uses the
^Vkeys. The moral is to test your version carefully.
Depending on your terminal, you may also be able to associate map sequences with special function keys.
you can the scroll page
the sequence to put the after
scroll would be
dw; move to the end of next word,
e; move one space to the right,
put the deleted word there,
p. Saving this sequence:
:map v dwelp
enables you to reverse the order of two words at any time in the editing
session with the single keystroke
Note that when defining a map, you cannot simply type certain keys,
as part of the command to be mapped, because
these keys already have meaning within ex.
If you want to include one of these keys as part of the command
sequence, you must escape the normal meaning
by preceding the key with [CTRL-V].
^V appears in the map as the ^ character.
Characters following the
do not appear as you expect.
For example, a carriage return appears as
^M, escape as
^[, backspace as
^H, and so on.
On the other hand, if you want to use a control character as the
character to be mapped,
in most cases all you have to do is hold down the
key and press the letter key at the same time.
So, for example, all you need to do in order to map
^A is to type:
There are, however, three control characters that must be
escaped with a
^V. They are
So, for example, if you want to map
^T, you must type:
:map [CTRL-V] [CTRL-T]
The use of [CTRL-V] applies to any ex command, not just a map command. This means that you can type a carriage return in an abbreviation or a substitution command. For example, the abbreviation:
:ab 123 one^Mtwo^Mthree
expands to this:
one two three
(Here we show the sequence
^M, the way it would appear on your screen.)
You can also globally add lines at certain locations. The command:
:g/^Section/s//As you recall, in^M&/
inserts, before all lines beginning with the word Section,
a phrase on a separate line. The
& restores the search pattern.
one character always has special meaning in ex commands,
even if you try to quote it with
Recall that the vertical bar (
has special meaning as a separator of multiple ex commands.
You cannot use a vertical bar in insert mode maps.
Now that you've seen how to use [CTRL-V] to protect certain keys inside ex commands, you're ready to define some powerful map sequences.
map - an ex command which allows you to associate a complex command sequence with a single key.
You would like to convert this glossary list to troff format, so that it looks like this:
.IP "map" 10 n An ex command...
The best way to define a complex map is to do the edit once manually, writing down each keystroke that you have to type. Then recreate these keystrokes as a map. You want to:
Insert the MS macro for an indented paragraph at the beginning of the line.
Insert the first quotation mark as well (
Press [ESC] to terminate insert mode.
Move to the end of the first word (
e) and add a second
followed by a space and the size of the indent (
Press [RETURN] to insert a new line.
Press [ESC] to terminate insert mode.
Remove the hyphen and two surrounding spaces (
3x) and capitalize the next word (~).
That will be quite an editing chore if you have to repeat it more than just a few times.
:map you can save the entire sequence so that it
can be re-executed with a single keystroke:
:map g I.IP "^[ea" 10n^M^[3x~
Note that you have to "quote" both the
^[ is the sequence that appears when you type
^M is the sequence shown when you type
Now, simply typing
g will perform the entire series of edits.
At a slow baud rate you can actually see the edits happening individually.
At a fast baud rate it will seem to happen by magic.
Don't be discouraged if your first attempt at key mapping fails.
A small error in defining the map can give very different results
from the ones you expect.
u to undo the edit, and try again.
Add text whenever you move to the end of a word:
:map e ea
Most of the time, the only reason you want to move to the end of
a word is to add text. This map sequence puts you in insert mode
Note that the mapped key,
e, has meaning in vi.
You're allowed to map a key that is already used by vi,
but the key's normal function will be unavailable as long
as the map is in effect. This isn't so bad in this case, since
E command is often identical to
:map K dwElp
We discussed this sequence earlier in the chapter, but now
you need to use
(assume here, and in the remaining examples,
e command is mapped to
Remember that the cursor begins on the first of the two words.
Unfortunately, because of the
l command, this sequence
(and the earlier version)
doesn't work if the two words are at the end of a line:
during the sequence, the cursor ends up at the end of the line,
l cannot move further right.
Here's a better solution:
:map K dwwP
You could also use
W instead of
:map q :w^M:n^M
Notice that you can map keys to ex commands, but be sure
to finish each ex command with a carriage return.
This sequence makes it easy to move from one file to the next
and is useful when you've opened many short files with one vi
command. Mapping the letter
q helps you
remember that the sequence is similar to a "quit."
:map v i\fB^[e\fP^[
This sequence assumes that the cursor is at the beginning of the
word. First, you enter insert mode, then you type the code for the
bold font. In map commands, you don't need to type two backslashes to
produce one backslash. Next, you return to command mode
by typing a "quoted"
Finally, you append the closing troff code at the
end of the word, and you return to command mode.
Notice that when we appended to the end of the word,
we didn't need to use
ea, since this sequence is itself
mapped to the single letter
This shows you that map sequences are allowed to contain
other mapped commands. (The ability to use nested map sequences is
controlled by vi's
remap option, which is normally
Put troff emboldening codes around a word, even when the cursor is not at the beginning of the word:
:map V lbi\fB^[e\fP^[
This sequence is the same as the previous one, except that it
handle the additional task of positioning the cursor at the
beginning of the word. The cursor might be in the middle of the
word, so you want to move to the beginning with the
command. But if the cursor were already at the beginning of the
b command would move the cursor to the previous
word instead. To guard against that case,
l before moving back with
b, so that
the cursor never starts on the first letter of the word.
You can define variations of this sequence by replacing the
B and the
In all cases, though, the
l command prevents this sequence
from working if the cursor is at the end of a line.
(You could append a space to get around this.)
Repeatedly find and remove parentheses from around a word or phrase: 
 From the article by Walter Zintz, in UNIX World, April 1990.
:map = xf)xn
This sequence assumes that you first
found an open parenthesis, by typing
/( followed by
If you choose to remove the parentheses, then use the map command:
delete the open parenthesis with
x, find the
closing one with
f), delete it with
then repeat your search for an open parenthesis with
If you don't want to remove the parentheses (for example,
if they're being used correctly), then don't use the map command:
n instead to find the next open parenthesis.
You could also modify the map sequence above to handle matching pairs of quotes.
:map g I/* ^[A */^[
This sequence inserts
/* at the line's beginning
*/ at the line's end.
You could also map a substitute command to do the same thing:
:map g :s;.*;/* & */;^M
Here, you match the entire line (with
.*), and when you
replay it (with
&), you surround the line with the
comment symbols. Note the use of semicolon delimiters, to avoid
having to escape the
in the comment.
:map ^J :set wm=0^M.:set wm=10^M
We mentioned in Chapter 2, Simple Editing, that
vi occasionally has difficulty repeating long insertions
of text when
wrapmargin is set.
This map command is a useful workaround. It temporarily turns off
the wrapmargin (by setting it to 0), gives the repeat command, and
then restores the wrapmargin.
Note that a map sequence can combine ex and vi commands.
In the previous example,
^J is a vi command (it moves the cursor
down a line), this key is safe to map because
it's really the same as the
There are many keys that either perform the same tasks as other
keys or that are rarely used. However, you should be familiar
with the vi commands before you boldly disable
their normal use by using them in map definitions.
Normally, maps apply only to command mode -- after all, in insert mode,
keys stand for themselves and shouldn't be mapped as commands.
However, by adding an exclamation mark (
!) to the
you can force it to override the ordinary meaning of a key and produce
the map in insert mode. This feature is useful when you find
yourself in insert mode but need to escape briefly to command
mode, run a command, and then return to insert mode.
For example, suppose you just typed a word but forgot to italicize it (or place quotes around it, etc.). You can define this map:
:map! + ^[bi<I>^[ea</I>
Now, when you type a
+ at the end of a word, you will surround
the word with HTML italicization codes. The
+ won't show up
in the text.
The sequence above escapes to command mode (
backs up to insert the first code (
escapes again (
^[), and moves ahead to append the
second code (
Since the map sequence
begins and ends in insert mode, you can continue entering text after
marking the word.
Here's another example. Suppose that you've been typing your text, and you realize that the previous line should have ended with a colon. You can correct that by defining this map sequence:
 From an article by Walter Zintz, in UNIX World, April 1990.
:map! % ^[kA:^[jA
Now, if you type a
% anywhere along your current line,
you'll append a colon to the end of the previous line.
This command escapes to command mode, moves up a line, and
appends the colon (
^[kA:). The command then
moves down to the line you were on,
and leaves you in insert mode (
Note that we wanted to use uncommon characters (
+) for the previous map commands.
When a character is mapped for insert mode, you
can no longer type that character as text.
To reinstate a character for normal typing, use the command:
where x is the character that was previously mapped for insert mode. (Although vi will expand x on the command line as you type it, making it look like you are unmapping the expanded text, it will correctly unmap the character.)
Insert-mode mapping is often more appropriate for tying character strings to special keys that you wouldn't otherwise use. It is especially useful with programmable function keys.
Many terminals have programmable function keys (which are faithfully emulated by today's terminal emulators on bitmapped workstations). You can usually set up these keys to print whatever character or characters you want using a special setup mode on the terminal. However, keys programmed using a terminal's setup mode only work on that terminal; they may also limit the action of programs that want to set up those function keys themselves.
ex allows you to map function keys by number, using the syntax:
for function key number 1, and so on. (It can do this because the editor has access to the entry for that terminal found in either the terminfo or termcap database and knows the escape sequence normally put out by the function key.)
As with other keys, maps apply by default to command mode, but by
map! commands as well, you can define two separate
values for a function key -- one to be used in command mode, the other in
For example, if you are an HTML user, you might
want to put font-switch codes on function keys.
:map #1 i<I>^[ :map! #1 <I>
If you are in command mode, the first function key will enter insert
mode, type in the three characters
<I>, and return to command mode.
If you are already in insert mode,
the key will simply type the
three-character HTML code.
NOTE: If function keys have been redefined in the terminal's setup mode, the
nsyntax might not work since the function keys no longer put out the expected control or escape sequence as described in its terminal database entry. You will need to examine the terminfo source (or termcap entry) for your terminal and check the definitions for the function keys. In addition, there are some terminals whose function keys perform only local actions and don't actually send any characters to the computer. Such function keys can't be mapped.
The terminal capabilities
k0 describe the first ten function keys.
l0 describe the remaining function keys.
Using your terminal's setup mode, you can change the control
or escape sequence output by the function key to correspond with
the terminfo or termcap entry.
(For more information, see termcap & terminfo,
published by O'Reilly & Associates.)
If the sequence contains
^M, which is a carriage return,
For instance, in order to have function key 1 available for
mapping, the terminal database entry for your terminal must
have a definition of
k1, such as:
In turn, the definition:
must be what is output when you press that key.
To see what the function key puts out, use the od (octal dump)
command with the
-c option (show each character).
You will need to press
after the function key, and then
to get od to print the information.
od -c ^[[[A ^D0000000 033 [ [ A \n 0000005
Here, the function key sent Escape, two left brackets, and an A.
Many keyboards have special keys, such as
that duplicate commands in vi.
If the terminal's terminfo or termcap description is
vi will be able to recognize these keys.
But if it isn't, you can use the
map command to make them
available to vi.
These keys generally send an escape sequence to the computer -- an
escape character followed by a string of one or more other characters.
In order to trap the escape, you should press
pressing the special key in the map.
For example, to map the
key on the keyboard of an IBM PC to a reasonable vi equivalent,
you might define the following map:
:map [CTRL-V] [HOME] 1G
This appears on your screen as:
:map ^[[H 1G
Similar map commands display as follows:
:map [CTRL-V] [END] G displays :map ^[[Y G :map [CTRL-V] [PAGE UP] ^F displays :map ^[[V ^F :map [CTRL-V] [PAGE DOWN] ^B displays :map ^[[U ^B
You'll probably want to place these maps in your .exrc file.
Note that if a special key generates a long escape sequence
(containing multiple non-printing characters),
^V quotes only the initial escape
character, and the map doesn't work.
You will have to find the entire escape sequence (perhaps
from the terminal manual) and type it in manually, quoting at the
appropriate points, rather than simply pressing
^V and then the key.
Mapping multiple key strokes is not restricted just to function keys. You can also map sequences of regular keystrokes. This can help make it easier to enter certain kinds of text, such as SGML or HTML.
Here are some
:map commands, thanks to Jerry Peek,
co-author of O'Reilly's
Learning the UNIX Operating System,
which make it easier to enter SGML markup. (The lines beginning
with a double quote are comments. This is discussed below in
Section 7.4.4, "Comments in ex Scripts ".)
" ADR: need this :set noremap " bold: map! =b </emphasis>^[F<i<emphasis role=bold> map =B i<emphasis role=bold>^[ map =b a</emphasis>^[ " Move to end of next tag: map! =e ^[f>a map =e f> " footnote (tacks opening tag directly after cursor in text-input mode): map! =f <footnote>^M<para>^M</para>^M</footnote>^[kO " Italics ("emphasis"): map! =i </emphasis>^[F<i<emphasis> map =I i<emphasis>^[ map =i a</emphasis>^[ " paragraphs: map! =p ^[jo<para>^M</para>^[O map =P O<para>^[ map =p o</para>^[ " less-than: map! *l < ...
Using these commands, to enter a footnote you would enter insert mode,
=f. vi would then insert the opening
and closing tags, and leave you in insert mode between them:
All the world's a stage.<footnote> <para> _ </para> </footnote>
Needless to say, these macros proved quite useful during the development of this book.
If you type a command line in your text (either a vi sequence
or an ex command preceded by a colon), then delete it
into a named buffer, you can execute the contents of that buffer with
For example, open a new line and enter:
This will appear as:
on your screen.
again to exit insert mode, then delete the line
g by typing
Now whenever you place the cursor at the beginning of a word and
@g, that word in your text will be changed to
@ is interpreted as a vi command,
a dot (.) will repeat the entire sequence, even if the buffer
contains an ex command.
@@ repeats the last
be used to undo the effect of
This is a simple example. @-functions are useful because they can be adapted to very specific commands. They are especially useful when you are editing between files, because you can store the commands in their named buffers and access them from any file you edit. @-functions are also useful in combination with the global replacement commands discussed in Chapter 6, Global Replacement.
You can also execute text saved in a buffer from ex mode.
In this case, you would enter an ex command, delete
it into a named buffer, and then use the
@ command from
the ex colon prompt. For example, enter the following text:
ORA publishes great books. ORA is my favorite publisher. 1,$s/ORA/O'Reilly \& Associates/g
With your cursor on the last line, delete the command into the
Move your cursor to the first line:
Then execute the buffer from the colon command line:
Your screen should now look like this:
O'Reilly & Associates publishes great books. O'Reilly & Associates is my favorite publisher.
Some versions treat
* identically to
@ when used from the ex command line.
In addition, if the buffer character supplied after the
the command will be taken from the default (unnamed) buffer.