2.9BSD/usr/man/cat5/termcap.5
TERMCAP(5) UNIX Programmer's Manual TERMCAP(5)
NAME
termcap - terminal capability data base
SYNOPSIS
/etc/termcap
DESCRIPTION
_�T_�e_�r_�m_�c_�a_�p is a data base describing terminals, used, _�e._�g., by
_�v_�i(1) and _�c_�u_�r_�s_�e_�s(3X). Terminals are described in _�t_�e_�r_�m_�c_�a_�p by
giving a set of capabilities which they have, and by
describing how operations are performed. Padding require-
ments and initialization sequences are included in _�t_�e_�r_�m_�c_�a_�p.
Entries in _�t_�e_�r_�m_�c_�a_�p consist of a number of `:' separated
fields. The first entry for each terminal gives the names
which are known for the terminal, separated by `|' charac-
ters. The first name is always 2 characters long and is
used by older version 6 systems which store the terminal
type in a 16 bit word in a systemwide data base. The second
name given is the most common abbreviation for the terminal,
and the last name given should be a long name fully identi-
fying the terminal. The second name should contain no
blanks; the last name may well contain blanks for readabil-
ity.
CAPABILITIES
(P) indicates padding may be specified
(P*) indicates that padding may be based on no. lines affected
Name Type Pad? Description
ae str (P) End alternate character set
al str (P*) Add new blank line
am bool Terminal has automatic margins
as str (P) Start alternate character set
bc str Backspace if not ^H
bs bool Terminal can backspace with ^H
bt str (P) Back tab
bw bool Backspace wraps from column 0 to last column
CC str Command character in prototype if terminal settable
cd str
(P*) Clear to end of display
ce str (P) Clear to end of line
ch str (P) Like cm but horizontal motion only, line stays same
cl str (P*) Clear screen
cm str (P) Cursor motion
co num Number of columns in a line
cr str (P*) Carriage return, (default ^M)
cs str (P) Change scrolling region (vt100), like cm
cv str (P) Like ch but vertical only.
da bool Display may be retained above
dB num Number of millisec of bs delay needed
db bool Display may be retained below
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dC num Number of millisec of cr delay needed
dc str (P*) Delete character
dF num Number of millisec of ff delay needed
dl str (P*) Delete line
dm str Delete mode (enter)
dN num Number of millisec of nl delay needed
do str Down one line
dT num Number of millisec of tab delay needed
ed str End delete mode
ei str End insert mode; give :ei=: if ic
eo str Can erase overstrikes with a blank
ff str (P*) Hardcopy terminal page eject (default ^L)
hc bool Hardcopy terminal
hd str Half-line down (forward 1/2 linefeed)
ho str Home cursor (if no cm)
hu str Half-line up (reverse 1/2 linefeed)
hz str Hazeltine; can't print ~'s
ic str (P) Insert character
if str Name of file containing is
im bool Insert mode (enter); give :im=: if ic
in bool Insert mode distinguishes nulls on display
ip str (P*) Insert pad after character inserted
is str Terminal initialization string
k0-k9 str Sent by other function keys 0-9
kb str Sent by backspace key
kd str Sent by terminal down arrow key
ke str Out of keypad transmit mode
kh str Sent by home key
kl str Sent by terminal left arrow key
kn num Number of other keys
ko str Termcap entries for other non-function keys
kr str Sent by terminal right arrow key
ks str Put terminal in keypad transmit mode
ku str Sent by terminal up arrow key
l0-l9 str Labels on other function keys
li num Number of lines on screen or page
ll str Last line, first column (if no cm)
ma str Arrow key map, used by vi version 2 only
mi bool Safe to move while in insert mode
ml str Memory lock on above cursor.
ms bool Safe to move while in standout and underline mode
mu str Memory unlock (turn off memory lock).
nc bool No correctly working carriage return (DM2500,H2000)
nd str Non-destructive space (cursor right)
nl str (P*) Newline character (default \n)
ns bool Terminal is a CRT but doesn't scroll.
os bool Terminal overstrikes
pc str Pad character (rather than null)
pt bool Has hardware tabs (may need to be set with is)
se str End stand out mode
sf str (P) Scroll forwards
sg num Number of blank chars left by so or se
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TERMCAP(5) UNIX Programmer's Manual TERMCAP(5)
so str Begin stand out mode
sr str (P) Scroll reverse (backwards)
ta str (P) Tab (other than ^I or with padding)
tc str Entry of similar terminal - must be last
te str String to end programs that use cm
ti str String to begin programs that use cm
uc str Underscore one char and move past it
ue str End underscore mode
ug num Number of blank chars left by us or ue
ul bool Terminal underlines even though it doesn't overstrike
up str Upline (cursor up)
us str Start underscore mode
vb str Visible bell (may not move cursor)
ve str Sequence to end open/visual mode
vs str Sequence to start open/visual mode
xb bool Beehive (f1=escape, f2=ctrl C)
xn bool A newline is ignored after a wrap (Concept)
xr bool Return acts like ce \r \n (Delta Data)
xs bool Standout not erased by writing over it (HP 264?)
xt bool Tabs are destructive, magic so char (Teleray 1061)
A Sample Entry
The following entry, which describes the Concept-100, is
among the more complex entries in the _�t_�e_�r_�m_�c_�a_�p file as of
this writing. (This particular concept entry is outdated,
and is used as an example only.)
c1|c100|concept100:is=\EU\Ef\E7\E5\E8\El\ENH\EK\E\200\Eo&\200:\
:al=3*\E^R:am:bs:cd=16*\E^C:ce=16\E^S:cl=2*^L:cm=\Ea%+ %+ :co#80:\
:dc=16\E^A:dl=3*\E^B:ei=\E\200:eo:im=\E^P:in:ip=16*:li#24:mi:nd=\E=:\
:se=\Ed\Ee:so=\ED\EE:ta=8\t:ul:up=\E;:vb=\Ek\EK:xn:
Entries may continue onto multiple lines by giving a \ as
the last character of a line, and that empty fields may be
included for readability (here between the last field on a
line and the first field on the next). Capabilities in
_�t_�e_�r_�m_�c_�a_�p are of three types: Boolean capabilities which indi-
cate that the terminal has some particular feature, numeric
capabilities giving the size of the terminal or the size of
particular delays, and string capabilities, which give a
sequence which can be used to perform particular terminal
operations.
Types of Capabilities
All capabilities have two letter codes. For instance, the
fact that the Concept has automatic margins (i.e. an
automatic return and linefeed when the end of a line is
reached) is indicated by the capability am. Hence the
description of the Concept includes am. Numeric capabili-
ties are followed by the character `#' and then the value.
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Thus co which indicates the number of columns the terminal
has gives the value `80' for the Concept.
Finally, string valued capabilities, such as ce (clear to
end of line sequence) are given by the two character code,
an `=', and then a string ending at the next following `:'.
A delay in milliseconds may appear after the `=' in such a
capability, and padding characters are supplied by the edi-
tor after the remainder of the string is sent to provide
this delay. The delay can be either a integer, e.g. `20',
or an integer followed by an `*', i.e. `3*'. A `*' indi-
cates that the padding required is proportional to the
number of lines affected by the operation, and the amount
given is the per-affected-unit padding required. When a `*'
is specified, it is sometimes useful to give a delay of the
form `3.5' specify a delay per unit to tenths of mil-
liseconds.
A number of escape sequences are provided in the string
valued capabilities for easy encoding of characters there.
A \E maps to an ESCAPE character, ^x maps to a control-x for
any appropriate x, and the sequences \n \r \t \b \f give a
newline, return, tab, backspace and formfeed. Finally,
characters may be given as three octal digits after a \, and
the characters ^ and \ may be given as \^ and \\. If it is
necessary to place a : in a capability it must be escaped in
octal as \072. If it is necessary to place a null character
in a string capability it must be encoded as \200. The rou-
tines which deal with _�t_�e_�r_�m_�c_�a_�p use C strings, and strip the
high bits of the output very late so that a \200 comes out
as a \000 would.
Preparing Descriptions
We now outline how to prepare descriptions of terminals.
The most effective way to prepare a terminal description is
by imitating the description of a similar terminal in
_�t_�e_�r_�m_�c_�a_�p and to build up a description gradually, using par-
tial descriptions with _�e_�x to check that they are correct.
Be aware that a very unusual terminal may expose deficien-
cies in the ability of the _�t_�e_�r_�m_�c_�a_�p file to describe it or
bugs in _�e_�x. To easily test a new terminal description you
can set the environment variable TERMCAP to a pathname of a
file containing the description you are working on and the
editor will look there rather than in /_�e_�t_�c/_�t_�e_�r_�m_�c_�a_�p. TERMCAP
can also be set to the termcap entry itself to avoid reading
the file when starting up the editor. (This only works on
version 7 systems.)
Basic capabilities
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TERMCAP(5) UNIX Programmer's Manual TERMCAP(5)
The number of columns on each line for the terminal is given
by the co numeric capability. If the terminal is a CRT,
then the number of lines on the screen is given by the li
capability. If the terminal wraps around to the beginning
of the next line when it reaches the right margin, then it
should have the am capability. If the terminal can clear
its screen, then this is given by the cl string capability.
If the terminal can backspace, then it should have the bs
capability, unless a backspace is accomplished by a charac-
ter other than ^H (ugh) in which case you should give this
character as the bc string capability. If it overstrikes
(rather than clearing a position when a character is struck
over) then it should have the os capability.
A very important point here is that the local cursor motions
encoded in _�t_�e_�r_�m_�c_�a_�p are undefined at the left and top edges
of a CRT terminal. The editor will never attempt to back-
space around the left edge, nor will it attempt to go up
locally off the top. The editor assumes that feeding off
the bottom of the screen will cause the screen to scroll up,
and the am capability tells whether the cursor sticks at the
right edge of the screen. If the terminal has switch
selectable automatic margins, the _�t_�e_�r_�m_�c_�a_�p file usually
assumes that this is on, i.e. am.
These capabilities suffice to describe hardcopy and glass-
tty terminals. Thus the model 33 teletype is described as
t3|33|tty33:co#72:os
while the Lear Siegler ADM-3 is described as
cl|adm3|3|lsi adm3:am:bs:cl=^Z:li#24:co#80
Cursor addressing
Cursor addressing in the terminal is described by a cm
string capability, with _�p_�r_�i_�n_�t_�f(3S) like escapes %x in it.
These substitute to encodings of the current line or column
position, while other characters are passed through
unchanged. If the cm string is thought of as being a func-
tion, then its arguments are the line and then the column to
which motion is desired, and the % encodings have the fol-
lowing meanings:
%d as in _�p_�r_�i_�n_�t_�f, 0 origin
%2 like %2d
%3 like %3d
%. like %c
%+x adds _�x to value, then %.
%>xy if value > x adds y, no output.
%r reverses order of line and column, no output
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TERMCAP(5) UNIX Programmer's Manual TERMCAP(5)
%i increments line/column (for 1 origin)
%% gives a single %
%n exclusive or row and column with 0140 (DM2500)
%B BCD (16*(x/10)) + (x%10), no output.
%D Reverse coding (x-2*(x%16)), no output. (Delta Data).
Consider the HP2645, which, to get to row 3 and column 12,
needs to be sent \E&a12c03Y padded for 6 milliseconds. Note
that the order of the rows and columns is inverted here, and
that the row and column are printed as two digits. Thus its
cm capability is cm=6\E&%r%2c%2Y. The Microterm ACT-IV
needs the current row and column sent preceded by a ^T, with
the row and column simply encoded in binary, cm=^T%.%..
Terminals which use %. need to be able to backspace the cur-
sor (bs or bc), and to move the cursor up one line on the
screen (up introduced below). This is necessary because it
is not always safe to transmit \t, \n ^D and \r, as the sys-
tem may change or discard them.
A final example is the LSI ADM-3a, which uses row and column
offset by a blank character, thus cm=\E=%+ %+ .
Cursor motions
If the terminal can move the cursor one position to the
right, leaving the character at the current position
unchanged, then this sequence should be given as nd (non-
destructive space). If it can move the cursor up a line on
the screen in the same column, this should be given as up.
If the terminal has no cursor addressing capability, but can
home the cursor (to very upper left corner of screen) then
this can be given as ho; similarly a fast way of getting to
the lower left hand corner can be given as ll; this may
involve going up with up from the home position, but the
editor will never do this itself (unless ll does) because it
makes no assumption about the effect of moving up from the
home position.
Area clears
If the terminal can clear from the current position to the
end of the line, leaving the cursor where it is, this should
be given as ce. If the terminal can clear from the current
position to the end of the display, then this should be
given as cd. The editor only uses cd from the first column
of a line.
Insert/delete line
If the terminal can open a new blank line before the line
where the cursor is, this should be given as al; this is
done only from the first position of a line. The cursor
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must then appear on the newly blank line. If the terminal
can delete the line which the cursor is on, then this should
be given as dl; this is done only from the first position on
the line to be deleted. If the terminal can scroll the
screen backwards, then this can be given as sb, but just al
suffices. If the terminal can retain display memory above
then the da capability should be given; if display memory
can be retained below then db should be given. These let
the editor understand that deleting a line on the screen may
bring non-blank lines up from below or that scrolling back
with sb may bring down non-blank lines.
Insert/delete character
There are two basic kinds of intelligent terminals with
respect to insert/delete character which can be described
using _�t_�e_�r_�m_�c_�a_�p. The most common insert/delete character
operations affect only the characters on the current line
and shift characters off the end of the line rigidly. Other
terminals, such as the Concept 100 and the Perkin Elmer Owl,
make a distinction between typed and untyped blanks on the
screen, shifting upon an insert or delete only to an untyped
blank on the screen which is either eliminated, or expanded
to two untyped blanks. You can find out which kind of ter-
minal you have by clearing the screen and then typing text
separated by cursor motions. Type abc def using local
cursor motions (not spaces) between the abc and the def.
Then position the cursor before the abc and put the terminal
in insert mode. If typing characters causes the rest of the
line to shift rigidly and characters to fall off the end,
then your terminal does not distinguish between blanks and
untyped positions. If the abc shifts over to the def which
then move together around the end of the current line and
onto the next as you insert, you have the second type of
terminal, and should give the capability in, which stands
for insert null. If your terminal does something different
and unusual then you may have to modify the editor to get it
to use the insert mode your terminal defines. We have seen
no terminals which have an insert mode not not falling into
one of these two classes.
The editor can handle both terminals which have an insert
mode, and terminals which send a simple sequence to open a
blank position on the current line. Give as im the sequence
to get into insert mode, or give it an empty value if your
terminal uses a sequence to insert a blank position. Give
as ei the sequence to leave insert mode (give this, with an
empty value also if you gave im so). Now give as ic any
sequence needed to be sent just before sending the character
to be inserted. Most terminals with a true insert mode will
not give ic, terminals which send a sequence to open a
screen position should give it here. (Insert mode is
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TERMCAP(5) UNIX Programmer's Manual TERMCAP(5)
preferable to the sequence to open a position on the screen
if your terminal has both.) If post insert padding is
needed, give this as a number of milliseconds in ip (a
string option). Any other sequence which may need to be
sent after an insert of a single character may also be given
in ip.
It is occasionally necessary to move around while in insert
mode to delete characters on the same line (e.g. if there is
a tab after the insertion position). If your terminal
allows motion while in insert mode you can give the capabil-
ity mi to speed up inserting in this case. Omitting mi will
affect only speed. Some terminals (notably Datamedia's)
must not have mi because of the way their insert mode works.
Finally, you can specify delete mode by giving dm and ed to
enter and exit delete mode, and dc to delete a single char-
acter while in delete mode.
Highlighting, underlining, and visible bells
If your terminal has sequences to enter and exit standout
mode these can be given as so and se respectively. If there
are several flavors of standout mode (such as inverse video,
blinking, or underlining - half bright is not usually an
acceptable standout mode unless the terminal is in inverse
video mode constantly) the preferred mode is inverse video
by itself. If the code to change into or out of standout
mode leaves one or even two blank spaces on the screen, as
the TVI 912 and Teleray 1061 do, then ug should be given to
tell how many spaces are left.
Codes to begin underlining and end underlining can be given
as us and ue respectively. If the terminal has a code to
underline the current character and move the cursor one
space to the right, such as the Microterm Mime, this can be
given as uc. (If the underline code does not move the cur-
sor to the right, give the code followed by a nondestructive
space.)
Many terminals, such as the HP 2621, automatically leave
standout mode when they move to a new line or the cursor is
addressed. Programs using standout mode should exit stan-
dout mode before moving the cursor or sending a newline.
If the terminal has a way of flashing the screen to indicate
an error quietly (a bell replacement) then this can be given
as vb; it must not move the cursor. If the terminal should
be placed in a different mode during open and visual modes
of _�e_�x, this can be given as vs and ve, sent at the start and
end of these modes respectively. These can be used to
change, e.g., from a underline to a block cursor and back.
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If the terminal needs to be in a special mode when running a
program that addresses the cursor, the codes to enter and
exit this mode can be given as ti and te. This arises, for
example, from terminals like the Concept with more than one
page of memory. If the terminal has only memory relative
cursor addressing and not screen relative cursor addressing,
a one screen-sized window must be fixed into the terminal
for cursor addressing to work properly.
If your terminal correctly generates underlined characters
(with no special codes needed) even though it does not over-
strike, then you should give the capability ul. If over-
strikes are erasable with a blank, then this should be indi-
cated by giving eo.
Keypad
If the terminal has a keypad that transmits codes when the
keys are pressed, this information can be given. Note that
it is not possible to handle terminals where the keypad only
works in local (this applies, for example, to the unshifted
HP 2621 keys). If the keypad can be set to transmit or not
transmit, give these codes as ks and ke. Otherwise the
keypad is assumed to always transmit. The codes sent by the
left arrow, right arrow, up arrow, down arrow, and home keys
can be given as kl, kr, ku, kd, and kh respectively. If
there are function keys such as f0, f1, ..., f9, the codes
they send can be given as k0, k1, ..., k9. If these keys
have labels other than the default f0 through f9, the labels
can be given as l0, l1, ..., l9. If there are other keys
that transmit the same code as the terminal expects for the
corresponding function, such as clear screen, the _�t_�e_�r_�m_�c_�a_�p 2
letter codes can be given in the ko capability, for example,
:ko=cl,ll,sf,sb:, which says that the terminal has clear,
home down, scroll down, and scroll up keys that transmit the
same thing as the cl, ll, sf, and sb entries.
The ma entry is also used to indicate arrow keys on termi-
nals which have single character arrow keys. It is obsolete
but still in use in version 2 of vi, which must be run on
some minicomputers due to memory limitations. This field is
redundant with kl, kr, ku, kd, and kh. It consists of
groups of two characters. In each group, the first charac-
ter is what an arrow key sends, the second character is the
corresponding vi command. These commands are h for kl, j
for kd, k for ku, l for kr, and H for kh. For example, the
mime would be :ma=^Kj^Zk^Xl: indicating arrow keys left
(^H), down (^K), up (^Z), and right (^X). (There is no home
key on the mime.)
Miscellaneous
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If the terminal requires other than a null (zero) character
as a pad, then this can be given as pc.
If tabs on the terminal require padding, or if the terminal
uses a character other than ^I to tab, then this can be
given as ta.
Hazeltine terminals, which don't allow `~' characters to be
printed should indicate hz. Datamedia terminals, which echo
carriage-return linefeed for carriage return and then ignore
a following linefeed should indicate nc. Early Concept ter-
minals, which ignore a linefeed immediately after an am
wrap, should indicate xn. If an erase-eol is required to
get rid of standout (instead of merely writing on top of
it), xs should be given. Teleray terminals, where tabs turn
all characters moved over to blanks, should indicate xt.
Other specific terminal problems may be corrected by adding
more capabilities of the form x_�x.
Other capabilities include is, an initialization string for
the terminal, and if, the name of a file containing long
initialization strings. These strings are expected to prop-
erly clear and then set the tabs on the terminal, if the
terminal has settable tabs. If both are given, is will be
printed before if. This is useful where if is
/_�u_�s_�r/_�l_�i_�b/_�t_�a_�b_�s_�e_�t/_�s_�t_�d but is clears the tabs first.
Similar Terminals
If there are two very similar terminals, one can be defined
as being just like the other with certain exceptions. The
string capability tc can be given with the name of the simi-
lar terminal. This capability must be _�l_�a_�s_�t and the combined
length of the two entries must not exceed 1024. Since
_�t_�e_�r_�m_�c_�a_�p routines search the entry from left to right, and
since the tc capability is replaced by the corresponding
entry, the capabilities given at the left override the ones
in the similar terminal. A capability can be cancelled with
xx@ where xx is the capability. For example, the entry
hn|2621nl:ks@:ke@:tc=2621:
defines a 2621nl that does not have the ks or ke capabili-
ties, and hence does not turn on the function key labels
when in visual mode. This is useful for different modes for
a terminal, or for different user preferences.
FILES
/etc/termcap file containing terminal descriptions
SEE ALSO
ex(1), more(1), tset(1), ul(1), vi(1), curses(3X),
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termcap(3X)
AUTHOR
William Joy
Mark Horton added underlining and keypad support
BUGS
_�E_�x allows only 256 characters for string capabilities, and
the routines in _�t_�e_�r_�m_�c_�a_�p(_�3_�X) do not check for overflow of
this buffer. The total length of a single entry (excluding
only escaped newlines) may not exceed 1024.
The ma, vs, and ve entries are specific to the _�v_�i program.
Not all programs support all entries. There are entries
that are not supported by any program.
Printed 5/26/83 11