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|
'\" t
.\" DO NOT EDIT THIS FILE BY HAND!
.\" It is generated from terminfo.head, Caps, and terminfo.tail.
.\"
.\" Note: this must be run through tbl before nroff.
.\" The magic cookie on the first line triggers this under some man programs.
.\"***************************************************************************
.\" Copyright (c) 1998 Free Software Foundation, Inc. *
.\" *
.\" Permission is hereby granted, free of charge, to any person obtaining a *
.\" copy of this software and associated documentation files (the *
.\" "Software"), to deal in the Software without restriction, including *
.\" without limitation the rights to use, copy, modify, merge, publish, *
.\" distribute, distribute with modifications, sublicense, and/or sell *
.\" copies of the Software, and to permit persons to whom the Software is *
.\" furnished to do so, subject to the following conditions: *
.\" *
.\" The above copyright notice and this permission notice shall be included *
.\" in all copies or substantial portions of the Software. *
.\" *
.\" THE SOFTWARE IS PROVIDED "AS IS", WITHOUT WARRANTY OF ANY KIND, EXPRESS *
.\" OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF *
.\" MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. *
.\" IN NO EVENT SHALL THE ABOVE COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, *
.\" DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR *
.\" OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR *
.\" THE USE OR OTHER DEALINGS IN THE SOFTWARE. *
.\" *
.\" Except as contained in this notice, the name(s) of the above copyright *
.\" holders shall not be used in advertising or otherwise to promote the *
.\" sale, use or other dealings in this Software without prior written *
.\" authorization. *
.\"***************************************************************************
.\"
.\" $From: terminfo.head,v 1.9 2000/08/13 01:56:40 tom Exp $
.\" $OpenBSD: terminfo.5tbl,v 1.11 2000/10/22 18:27:19 millert Exp $
.TH TERMINFO 5 "" "" "File Formats"
.ds n 5
.ds d /usr/share/terminfo
.SH NAME
terminfo \- terminal capability data base
.SH SYNOPSIS
\*d.db
.br
\*d/*/*
.SH DESCRIPTION
.I Terminfo
is a data base describing terminals, used by screen-oriented programs such as
\fBvi\fR(1),
\fBrogue\fR(1)
and libraries such as
\fBcurses\fR(3).
.I Terminfo
describes terminals by giving a set of capabilities which they
have, by specifying how to perform screen operations, and by
specifying padding requirements and initialization sequences.
.PP
Entries in
.I terminfo
consist of a sequence of `,' separated fields (embedded commas may be
escaped with a backslash or notated as \e072).
White space after the `,' separator is ignored.
The first entry for each terminal gives the names which are known for the
terminal, separated by `|' characters.
The first name given is the most common abbreviation for the terminal,
the last name given should be a long name fully identifying the terminal,
and all others are understood as synonyms for the terminal name.
All names but the last should be in lower case and contain no blanks;
the last name may well contain upper case and blanks for readability.
.PP
Terminal names (except for the last, verbose entry) should
be chosen using the following conventions.
The particular piece of hardware making up the terminal should
have a root name, thus ``hp2621''.
This name should not contain hyphens.
Modes that the hardware can be in, or user preferences, should
be indicated by appending a hyphen and a mode suffix.
Thus, a vt100 in 132 column mode would be vt100-w.
The following suffixes should be used where possible:
.PP
.TS
center ;
l c l
l l l.
\fBSuffix Meaning Example\fP
-\fInn\fP Number of lines on the screen aaa-60
-\fIn\fPp Number of pages of memory c100-4p
-am With automargins (usually the default) vt100-am
-m Mono mode; suppress color ansi-m
-mc Magic cookie; spaces when highlighting wy30-mc
-na No arrow keys (leave them in local) c100-na
-nam Without automatic margins vt100-nam
-nl No status line att4415-nl
-ns No status line hp2626-ns
-rv Reverse video c100-rv
-s Enable status line vt100-s
-vb Use visible bell instead of beep wy370-vb
-w Wide mode (> 80 columns, usually 132) vt100-w
.TE
.PP
For more on terminal naming conventions, see the \fBterm(7)\fR manual page.
.SS Capabilities
.\" Head of terminfo man page ends here
.ps -1
The following is a complete table of the capabilities included in a
terminfo description block and available to terminfo-using code. In each
line of the table,
The \fBvariable\fR is the name by which the programmer (at the terminfo level)
accesses the capability.
The \fBcapname\fR is the short name used in the text of the database,
and is used by a person updating the database.
Whenever possible, capnames are chosen to be the same as or similar to
the ANSI X3.64-1979 standard (now superseded by ECMA-48, which uses
identical or very similar names). Semantics are also intended to match
those of the specification.
The termcap code is the old
.B termcap
capability name (some capabilities are new, and have names which termcap
did not originate).
.P
Capability names have no hard length limit, but an informal limit of 5
characters has been adopted to keep them short and to allow the tabs in
the source file
.B Caps
to line up nicely.
Finally, the description field attempts to convey the semantics of the
capability. You may find some codes in the description field:
.TP
(P)
indicates that padding may be specified
.TP
#[1-9]
in the description field indicates that the string is passed through tparm with
parms as given (#\fIi\fP).
.TP
(P*)
indicates that padding may vary in proportion to the number of
lines affected
.TP
(#\d\fIi\fP\u)
indicates the \fIi\fP\uth\d parameter.
.PP
These are the boolean capabilities:
.na
.TS H
center expand;
c l l c
c l l c
lw25 lw6 lw2 lw20.
\fBVariable Cap- TCap Description\fR
\fBBooleans name Code\fR
auto_left_margin bw bw T{
cub1 wraps from column 0 to last column
T}
auto_right_margin am am T{
terminal has automatic margins
T}
back_color_erase bce ut T{
screen erased with background color
T}
can_change ccc cc T{
terminal can re-define existing colors
T}
ceol_standout_glitch xhp xs T{
standout not erased by overwriting (hp)
T}
col_addr_glitch xhpa YA T{
only positive motion for hpa/mhpa caps
T}
cpi_changes_res cpix YF T{
changing character pitch changes resolution
T}
cr_cancels_micro_mode crxm YB T{
using cr turns off micro mode
T}
dest_tabs_magic_smso xt xt T{
tabs destructive, magic so char (t1061)
T}
eat_newline_glitch xenl xn T{
newline ignored after 80 cols (concept)
T}
erase_overstrike eo eo T{
can erase overstrikes with a blank
T}
generic_type gn gn T{
generic line type
T}
hard_copy hc hc T{
hardcopy terminal
T}
hard_cursor chts HC T{
cursor is hard to see
T}
has_meta_key km km T{
Has a meta key (shift, sets parity bit)
T}
has_print_wheel daisy YC T{
printer needs operator to change character set
T}
has_status_line hs hs T{
has extra status line
T}
hue_lightness_saturation hls hl T{
terminal uses only HLS color notation (Tektronix)
T}
insert_null_glitch in in T{
insert mode distinguishes nulls
T}
lpi_changes_res lpix YG T{
changing line pitch changes resolution
T}
memory_above da da T{
display may be retained above the screen
T}
memory_below db db T{
display may be retained below the screen
T}
move_insert_mode mir mi T{
safe to move while in insert mode
T}
move_standout_mode msgr ms T{
safe to move while in standout mode
T}
needs_xon_xoff nxon nx T{
padding won't work, xon/xoff required
T}
no_esc_ctlc xsb xb T{
beehive (f1=escape, f2=ctrl C)
T}
no_pad_char npc NP T{
pad character does not exist
T}
non_dest_scroll_region ndscr ND T{
scrolling region is non-destructive
T}
non_rev_rmcup nrrmc NR T{
smcup does not reverse rmcup
T}
over_strike os os T{
terminal can overstrike
T}
prtr_silent mc5i 5i T{
printer won't echo on screen
T}
row_addr_glitch xvpa YD T{
only positive motion for vpa/mvpa caps
T}
semi_auto_right_margin sam YE T{
printing in last column causes cr
T}
status_line_esc_ok eslok es T{
escape can be used on the status line
T}
tilde_glitch hz hz T{
can't print ~'s (hazeltine)
T}
transparent_underline ul ul T{
underline character overstrikes
T}
xon_xoff xon xo T{
terminal uses xon/xoff handshaking
T}
.TE
.ad
These are the numeric capabilities:
.na
.TS H
center expand;
c l l c
c l l c
lw25 lw6 lw2 lw20.
\fBVariable Cap- TCap Description\fR
\fBNumeric name Code\fR
columns cols co T{
number of columns in a line
T}
init_tabs it it T{
tabs initially every # spaces
T}
label_height lh lh T{
rows in each label
T}
label_width lw lw T{
columns in each label
T}
lines lines li T{
number of lines on screen or page
T}
lines_of_memory lm lm T{
lines of memory if > line. 0 means varies
T}
magic_cookie_glitch xmc sg T{
number of blank characters left by smso or rmso
T}
max_attributes ma ma T{
maximum combined attributes terminal can handle
T}
max_colors colors Co T{
maximum number of colors on screen
T}
max_pairs pairs pa T{
maximum number of color-pairs on the screen
T}
maximum_windows wnum MW T{
maximum number of defineable windows
T}
no_color_video ncv NC T{
video attributes that can't be used with colors
T}
num_labels nlab Nl T{
number of labels on screen
T}
padding_baud_rate pb pb T{
lowest baud rate where padding needed
T}
virtual_terminal vt vt T{
virtual terminal number (CB/unix)
T}
width_status_line wsl ws T{
number of columns in status line
T}
.TE
.ad
The following numeric capabilities are present in the SVr4.0 term structure,
but are not yet documented in the man page. They came in with SVr4's
printer support.
.na
.TS H
center expand;
c l l c
c l l c
lw25 lw6 lw2 lw20.
\fBVariable Cap- TCap Description\fR
\fBNumeric name Code\fR
bit_image_entwining bitwin Yo T{
number of passes for each bit-image row
T}
bit_image_type bitype Yp T{
type of bit-image device
T}
buffer_capacity bufsz Ya T{
numbers of bytes buffered before printing
T}
buttons btns BT T{
number of buttons on mouse
T}
dot_horz_spacing spinh Yc T{
spacing of dots horizontally in dots per inch
T}
dot_vert_spacing spinv Yb T{
spacing of pins vertically in pins per inch
T}
max_micro_address maddr Yd T{
maximum value in micro_..._address
T}
max_micro_jump mjump Ye T{
maximum value in parm_..._micro
T}
micro_col_size mcs Yf T{
character step size when in micro mode
T}
micro_line_size mls Yg T{
line step size when in micro mode
T}
number_of_pins npins Yh T{
numbers of pins in print-head
T}
output_res_char orc Yi T{
horizontal resolution in units per line
T}
output_res_horz_inch orhi Yk T{
horizontal resolution in units per inch
T}
output_res_line orl Yj T{
vertical resolution in units per line
T}
output_res_vert_inch orvi Yl T{
vertical resolution in units per inch
T}
print_rate cps Ym T{
print rate in characters per second
T}
wide_char_size widcs Yn T{
character step size when in double wide mode
T}
.TE
.ad
These are the string capabilities:
.na
.TS H
center expand;
c l l c
c l l c
lw25 lw6 lw2 lw20.
\fBVariable Cap- TCap Description\fR
\fBString name Code\fR
acs_chars acsc ac T{
graphics charset pairs, based on vt100
T}
back_tab cbt bt T{
back tab (P)
T}
bell bel bl T{
audible signal (bell) (P)
T}
carriage_return cr cr T{
carriage return (P*) (P*)
T}
change_char_pitch cpi ZA T{
Change number of characters per inch
T}
change_line_pitch lpi ZB T{
Change number of lines per inch
T}
change_res_horz chr ZC T{
Change horizontal resolution
T}
change_res_vert cvr ZD T{
Change vertical resolution
T}
change_scroll_region csr cs T{
change region to line #1 to line #2 (P)
T}
char_padding rmp rP T{
like ip but when in insert mode
T}
clear_all_tabs tbc ct T{
clear all tab stops (P)
T}
clear_margins mgc MC T{
clear right and left soft margins
T}
clear_screen clear cl T{
clear screen and home cursor (P*)
T}
clr_bol el1 cb T{
Clear to beginning of line
T}
clr_eol el ce T{
clear to end of line (P)
T}
clr_eos ed cd T{
clear to end of screen (P*)
T}
column_address hpa ch T{
horizontal position #1, absolute (P)
T}
command_character cmdch CC T{
terminal settable cmd character in prototype !?
T}
create_window cwin CW T{
define a window #1 from #2,#3 to #4,#5
T}
cursor_address cup cm T{
move to row #1 columns #2
T}
cursor_down cud1 do T{
down one line
T}
cursor_home home ho T{
home cursor (if no cup)
T}
cursor_invisible civis vi T{
make cursor invisible
T}
cursor_left cub1 le T{
move left one space
T}
cursor_mem_address mrcup CM T{
memory relative cursor addressing
T}
cursor_normal cnorm ve T{
make cursor appear normal (undo civis/cvvis)
T}
cursor_right cuf1 nd T{
non-destructive space (move right one space)
T}
cursor_to_ll ll ll T{
last line, first column (if no cup)
T}
cursor_up cuu1 up T{
up one line
T}
cursor_visible cvvis vs T{
make cursor very visible
T}
define_char defc ZE T{
Define a character
T}
delete_character dch1 dc T{
delete character (P*)
T}
delete_line dl1 dl T{
delete line (P*)
T}
dial_phone dial DI T{
dial number #1
T}
dis_status_line dsl ds T{
disable status line
T}
display_clock dclk DK T{
display clock at (#1,#2)
T}
down_half_line hd hd T{
half a line down
T}
ena_acs enacs eA T{
enable alternate char set
T}
enter_alt_charset_mode smacs as T{
start alternate character set (P)
T}
enter_am_mode smam SA T{
turn on automatic margins
T}
enter_blink_mode blink mb T{
turn on blinking
T}
enter_bold_mode bold md T{
turn on bold (extra bright) mode
T}
enter_ca_mode smcup ti T{
string to start programs using cup
T}
enter_delete_mode smdc dm T{
enter delete mode
T}
enter_dim_mode dim mh T{
turn on half-bright mode
T}
enter_doublewide_mode swidm ZF T{
Enter double-wide mode
T}
enter_draft_quality sdrfq ZG T{
Enter draft-quality mode
T}
enter_insert_mode smir im T{
enter insert mode
T}
enter_italics_mode sitm ZH T{
Enter italic mode
T}
enter_leftward_mode slm ZI T{
Start leftward carriage motion
T}
enter_micro_mode smicm ZJ T{
Start micro-motion mode
T}
enter_near_letter_quality snlq ZK T{
Enter NLQ mode
T}
enter_normal_quality snrmq ZL T{
Enter normal-quality mode
T}
enter_protected_mode prot mp T{
turn on protected mode
T}
enter_reverse_mode rev mr T{
turn on reverse video mode
T}
enter_secure_mode invis mk T{
turn on blank mode (characters invisible)
T}
enter_shadow_mode sshm ZM T{
Enter shadow-print mode
T}
enter_standout_mode smso so T{
begin standout mode
T}
enter_subscript_mode ssubm ZN T{
Enter subscript mode
T}
enter_superscript_mode ssupm ZO T{
Enter superscript mode
T}
enter_underline_mode smul us T{
begin underline mode
T}
enter_upward_mode sum ZP T{
Start upward carriage motion
T}
enter_xon_mode smxon SX T{
turn on xon/xoff handshaking
T}
erase_chars ech ec T{
erase #1 characters (P)
T}
exit_alt_charset_mode rmacs ae T{
end alternate character set (P)
T}
exit_am_mode rmam RA T{
turn off automatic margins
T}
exit_attribute_mode sgr0 me T{
turn off all attributes
T}
exit_ca_mode rmcup te T{
strings to end programs using cup
T}
exit_delete_mode rmdc ed T{
end delete mode
T}
exit_doublewide_mode rwidm ZQ T{
End double-wide mode
T}
exit_insert_mode rmir ei T{
exit insert mode
T}
exit_italics_mode ritm ZR T{
End italic mode
T}
exit_leftward_mode rlm ZS T{
End left-motion mode
T}
exit_micro_mode rmicm ZT T{
End micro-motion mode
T}
exit_shadow_mode rshm ZU T{
End shadow-print mode
T}
exit_standout_mode rmso se T{
exit standout mode
T}
exit_subscript_mode rsubm ZV T{
End subscript mode
T}
exit_superscript_mode rsupm ZW T{
End superscript mode
T}
exit_underline_mode rmul ue T{
exit underline mode
T}
exit_upward_mode rum ZX T{
End reverse character motion
T}
exit_xon_mode rmxon RX T{
turn off xon/xoff handshaking
T}
fixed_pause pause PA T{
pause for 2-3 seconds
T}
flash_hook hook fh T{
flash switch hook
T}
flash_screen flash vb T{
visible bell (may not move cursor)
T}
form_feed ff ff T{
hardcopy terminal page eject (P*)
T}
from_status_line fsl fs T{
return from status line
T}
goto_window wingo WG T{
go to window #1
T}
hangup hup HU T{
hang-up phone
T}
init_1string is1 i1 T{
initialization string
T}
init_2string is2 is T{
initialization string
T}
init_3string is3 i3 T{
initialization string
T}
init_file if if T{
name of initialization file
T}
init_prog iprog iP T{
path name of program for initialization
T}
initialize_color initc Ic T{
initialize color #1 to (#2,#3,#4)
T}
initialize_pair initp Ip T{
Initialize color pair #1 to fg=(#2,#3,#4), bg=(#5,#6,#7)
T}
insert_character ich1 ic T{
insert character (P)
T}
insert_line il1 al T{
insert line (P*)
T}
insert_padding ip ip T{
insert padding after inserted character
T}
key_a1 ka1 K1 T{
upper left of keypad
T}
key_a3 ka3 K3 T{
upper right of keypad
T}
key_b2 kb2 K2 T{
center of keypad
T}
key_backspace kbs kb T{
backspace key
T}
key_beg kbeg @1 T{
begin key
T}
key_btab kcbt kB T{
back-tab key
T}
key_c1 kc1 K4 T{
lower left of keypad
T}
key_c3 kc3 K5 T{
lower right of keypad
T}
key_cancel kcan @2 T{
cancel key
T}
key_catab ktbc ka T{
clear-all-tabs key
T}
key_clear kclr kC T{
clear-screen or erase key
T}
key_close kclo @3 T{
close key
T}
key_command kcmd @4 T{
command key
T}
key_copy kcpy @5 T{
copy key
T}
key_create kcrt @6 T{
create key
T}
key_ctab kctab kt T{
clear-tab key
T}
key_dc kdch1 kD T{
delete-character key
T}
key_dl kdl1 kL T{
delete-line key
T}
key_down kcud1 kd T{
down-arrow key
T}
key_eic krmir kM T{
sent by rmir or smir in insert mode
T}
key_end kend @7 T{
end key
T}
key_enter kent @8 T{
enter/send key
T}
key_eol kel kE T{
clear-to-end-of-line key
T}
key_eos ked kS T{
clear-to-end-of-screen key
T}
key_exit kext @9 T{
exit key
T}
key_f0 kf0 k0 T{
F0 function key
T}
key_f1 kf1 k1 T{
F1 function key
T}
key_f10 kf10 k; T{
F10 function key
T}
key_f11 kf11 F1 T{
F11 function key
T}
key_f12 kf12 F2 T{
F12 function key
T}
key_f13 kf13 F3 T{
F13 function key
T}
key_f14 kf14 F4 T{
F14 function key
T}
key_f15 kf15 F5 T{
F15 function key
T}
key_f16 kf16 F6 T{
F16 function key
T}
key_f17 kf17 F7 T{
F17 function key
T}
key_f18 kf18 F8 T{
F18 function key
T}
key_f19 kf19 F9 T{
F19 function key
T}
key_f2 kf2 k2 T{
F2 function key
T}
key_f20 kf20 FA T{
F20 function key
T}
key_f21 kf21 FB T{
F21 function key
T}
key_f22 kf22 FC T{
F22 function key
T}
key_f23 kf23 FD T{
F23 function key
T}
key_f24 kf24 FE T{
F24 function key
T}
key_f25 kf25 FF T{
F25 function key
T}
key_f26 kf26 FG T{
F26 function key
T}
key_f27 kf27 FH T{
F27 function key
T}
key_f28 kf28 FI T{
F28 function key
T}
key_f29 kf29 FJ T{
F29 function key
T}
key_f3 kf3 k3 T{
F3 function key
T}
key_f30 kf30 FK T{
F30 function key
T}
key_f31 kf31 FL T{
F31 function key
T}
key_f32 kf32 FM T{
F32 function key
T}
key_f33 kf33 FN T{
F33 function key
T}
key_f34 kf34 FO T{
F34 function key
T}
key_f35 kf35 FP T{
F35 function key
T}
key_f36 kf36 FQ T{
F36 function key
T}
key_f37 kf37 FR T{
F37 function key
T}
key_f38 kf38 FS T{
F38 function key
T}
key_f39 kf39 FT T{
F39 function key
T}
key_f4 kf4 k4 T{
F4 function key
T}
key_f40 kf40 FU T{
F40 function key
T}
key_f41 kf41 FV T{
F41 function key
T}
key_f42 kf42 FW T{
F42 function key
T}
key_f43 kf43 FX T{
F43 function key
T}
key_f44 kf44 FY T{
F44 function key
T}
key_f45 kf45 FZ T{
F45 function key
T}
key_f46 kf46 Fa T{
F46 function key
T}
key_f47 kf47 Fb T{
F47 function key
T}
key_f48 kf48 Fc T{
F48 function key
T}
key_f49 kf49 Fd T{
F49 function key
T}
key_f5 kf5 k5 T{
F5 function key
T}
key_f50 kf50 Fe T{
F50 function key
T}
key_f51 kf51 Ff T{
F51 function key
T}
key_f52 kf52 Fg T{
F52 function key
T}
key_f53 kf53 Fh T{
F53 function key
T}
key_f54 kf54 Fi T{
F54 function key
T}
key_f55 kf55 Fj T{
F55 function key
T}
key_f56 kf56 Fk T{
F56 function key
T}
key_f57 kf57 Fl T{
F57 function key
T}
key_f58 kf58 Fm T{
F58 function key
T}
key_f59 kf59 Fn T{
F59 function key
T}
key_f6 kf6 k6 T{
F6 function key
T}
key_f60 kf60 Fo T{
F60 function key
T}
key_f61 kf61 Fp T{
F61 function key
T}
key_f62 kf62 Fq T{
F62 function key
T}
key_f63 kf63 Fr T{
F63 function key
T}
key_f7 kf7 k7 T{
F7 function key
T}
key_f8 kf8 k8 T{
F8 function key
T}
key_f9 kf9 k9 T{
F9 function key
T}
key_find kfnd @0 T{
find key
T}
key_help khlp %1 T{
help key
T}
key_home khome kh T{
home key
T}
key_ic kich1 kI T{
insert-character key
T}
key_il kil1 kA T{
insert-line key
T}
key_left kcub1 kl T{
left-arrow key
T}
key_ll kll kH T{
lower-left key (home down)
T}
key_mark kmrk %2 T{
mark key
T}
key_message kmsg %3 T{
message key
T}
key_move kmov %4 T{
move key
T}
key_next knxt %5 T{
next key
T}
key_npage knp kN T{
next-page key
T}
key_open kopn %6 T{
open key
T}
key_options kopt %7 T{
options key
T}
key_ppage kpp kP T{
previous-page key
T}
key_previous kprv %8 T{
previous key
T}
key_print kprt %9 T{
print key
T}
key_redo krdo %0 T{
redo key
T}
key_reference kref &1 T{
reference key
T}
key_refresh krfr &2 T{
refresh key
T}
key_replace krpl &3 T{
replace key
T}
key_restart krst &4 T{
restart key
T}
key_resume kres &5 T{
resume key
T}
key_right kcuf1 kr T{
right-arrow key
T}
key_save ksav &6 T{
save key
T}
key_sbeg kBEG &9 T{
shifted begin key
T}
key_scancel kCAN &0 T{
shifted cancel key
T}
key_scommand kCMD *1 T{
shifted command key
T}
key_scopy kCPY *2 T{
shifted copy key
T}
key_screate kCRT *3 T{
shifted create key
T}
key_sdc kDC *4 T{
shifted delete-character key
T}
key_sdl kDL *5 T{
shifted delete-line key
T}
key_select kslt *6 T{
select key
T}
key_send kEND *7 T{
shifted end key
T}
key_seol kEOL *8 T{
shifted clear-to-end-of-line key
T}
key_sexit kEXT *9 T{
shifted exit key
T}
key_sf kind kF T{
scroll-forward key
T}
key_sfind kFND *0 T{
shifted find key
T}
key_shelp kHLP #1 T{
shifted help key
T}
key_shome kHOM #2 T{
shifted home key
T}
key_sic kIC #3 T{
shifted insert-character key
T}
key_sleft kLFT #4 T{
shifted left-arrow key
T}
key_smessage kMSG %a T{
shifted message key
T}
key_smove kMOV %b T{
shifted move key
T}
key_snext kNXT %c T{
shifted next key
T}
key_soptions kOPT %d T{
shifted options key
T}
key_sprevious kPRV %e T{
shifted previous key
T}
key_sprint kPRT %f T{
shifted print key
T}
key_sr kri kR T{
scroll-backward key
T}
key_sredo kRDO %g T{
shifted redo key
T}
key_sreplace kRPL %h T{
shifted replace key
T}
key_sright kRIT %i T{
shifted right-arrow key
T}
key_srsume kRES %j T{
shifted resume key
T}
key_ssave kSAV !1 T{
shifted save key
T}
key_ssuspend kSPD !2 T{
shifted suspend key
T}
key_stab khts kT T{
set-tab key
T}
key_sundo kUND !3 T{
shifted undo key
T}
key_suspend kspd &7 T{
suspend key
T}
key_undo kund &8 T{
undo key
T}
key_up kcuu1 ku T{
up-arrow key
T}
keypad_local rmkx ke T{
leave 'keyboard_transmit' mode
T}
keypad_xmit smkx ks T{
enter 'keyboard_transmit' mode
T}
lab_f0 lf0 l0 T{
label on function key f0 if not f0
T}
lab_f1 lf1 l1 T{
label on function key f1 if not f1
T}
lab_f10 lf10 la T{
label on function key f10 if not f10
T}
lab_f2 lf2 l2 T{
label on function key f2 if not f2
T}
lab_f3 lf3 l3 T{
label on function key f3 if not f3
T}
lab_f4 lf4 l4 T{
label on function key f4 if not f4
T}
lab_f5 lf5 l5 T{
label on function key f5 if not f5
T}
lab_f6 lf6 l6 T{
label on function key f6 if not f6
T}
lab_f7 lf7 l7 T{
label on function key f7 if not f7
T}
lab_f8 lf8 l8 T{
label on function key f8 if not f8
T}
lab_f9 lf9 l9 T{
label on function key f9 if not f9
T}
label_format fln Lf T{
label format
T}
label_off rmln LF T{
turn off soft labels
T}
label_on smln LO T{
turn on soft labels
T}
meta_off rmm mo T{
turn off meta mode
T}
meta_on smm mm T{
turn on meta mode (8th-bit on)
T}
micro_column_address mhpa ZY T{
Like column_address in micro mode
T}
micro_down mcud1 ZZ T{
Like cursor_down in micro mode
T}
micro_left mcub1 Za T{
Like cursor_left in micro mode
T}
micro_right mcuf1 Zb T{
Like cursor_right in micro mode
T}
micro_row_address mvpa Zc T{
Like row_address in micro mode
T}
micro_up mcuu1 Zd T{
Like cursor_up in micro mode
T}
newline nel nw T{
newline (behave like cr followed by lf)
T}
order_of_pins porder Ze T{
Match software bits to print-head pins
T}
orig_colors oc oc T{
Set all color pairs to the original ones
T}
orig_pair op op T{
Set default pair to its original value
T}
pad_char pad pc T{
padding char (instead of null)
T}
parm_dch dch DC T{
delete #1 characters (P*)
T}
parm_delete_line dl DL T{
delete #1 lines (P*)
T}
parm_down_cursor cud DO T{
down #1 lines (P*)
T}
parm_down_micro mcud Zf T{
Like parm_down_cursor in micro mode
T}
parm_ich ich IC T{
insert #1 characters (P*)
T}
parm_index indn SF T{
scroll forward #1 lines (P)
T}
parm_insert_line il AL T{
insert #1 lines (P*)
T}
parm_left_cursor cub LE T{
move #1 characters to the left (P)
T}
parm_left_micro mcub Zg T{
Like parm_left_cursor in micro mode
T}
parm_right_cursor cuf RI T{
move #1 characters to the right (P*)
T}
parm_right_micro mcuf Zh T{
Like parm_right_cursor in micro mode
T}
parm_rindex rin SR T{
scroll back #1 lines (P)
T}
parm_up_cursor cuu UP T{
up #1 lines (P*)
T}
parm_up_micro mcuu Zi T{
Like parm_up_cursor in micro mode
T}
pkey_key pfkey pk T{
program function key #1 to type string #2
T}
pkey_local pfloc pl T{
program function key #1 to execute string #2
T}
pkey_xmit pfx px T{
program function key #1 to transmit string #2
T}
plab_norm pln pn T{
program label #1 to show string #2
T}
print_screen mc0 ps T{
print contents of screen
T}
prtr_non mc5p pO T{
turn on printer for #1 bytes
T}
prtr_off mc4 pf T{
turn off printer
T}
prtr_on mc5 po T{
turn on printer
T}
pulse pulse PU T{
select pulse dialing
T}
quick_dial qdial QD T{
dial number #1 without checking
T}
remove_clock rmclk RC T{
remove clock
T}
repeat_char rep rp T{
repeat char #1 #2 times (P*)
T}
req_for_input rfi RF T{
send next input char (for ptys)
T}
reset_1string rs1 r1 T{
reset string
T}
reset_2string rs2 r2 T{
reset string
T}
reset_3string rs3 r3 T{
reset string
T}
reset_file rf rf T{
name of reset file
T}
restore_cursor rc rc T{
restore cursor to position of last save_cursor
T}
row_address vpa cv T{
vertical position #1 absolute (P)
T}
save_cursor sc sc T{
save current cursor position (P)
T}
scroll_forward ind sf T{
scroll text up (P)
T}
scroll_reverse ri sr T{
scroll text down (P)
T}
select_char_set scs Zj T{
Select character set
T}
set_attributes sgr sa T{
define video attributes #1-#9 (PG9)
T}
set_background setb Sb T{
Set background color #1
T}
set_bottom_margin smgb Zk T{
Set bottom margin at current line
T}
set_bottom_margin_parm smgbp Zl T{
Set bottom margin at line #1 or #2 lines from bottom
T}
set_clock sclk SC T{
set clock, #1 hrs #2 mins #3 secs
T}
set_color_pair scp sp T{
Set current color pair to #1
T}
set_foreground setf Sf T{
Set foreground color #1
T}
set_left_margin smgl ML T{
set left soft margin at current column
T}
set_left_margin_parm smglp Zm T{
Set left (right) margin at column #1 (#2)
T}
set_right_margin smgr MR T{
set right soft margin at current column
T}
set_right_margin_parm smgrp Zn T{
Set right margin at column #1
T}
set_tab hts st T{
set a tab in every row, current columns
T}
set_top_margin smgt Zo T{
Set top margin at current line
T}
set_top_margin_parm smgtp Zp T{
Set top (bottom) margin at row #1 (#2)
T}
set_window wind wi T{
current window is lines #1-#2 cols #3-#4
T}
start_bit_image sbim Zq T{
Start printing bit image graphics
T}
start_char_set_def scsd Zr T{
Start character set definition
T}
stop_bit_image rbim Zs T{
Stop printing bit image graphics
T}
stop_char_set_def rcsd Zt T{
End definition of character set
T}
subscript_characters subcs Zu T{
List of subscriptable characters
T}
superscript_characters supcs Zv T{
List of superscriptable characters
T}
tab ht ta T{
tab to next 8-space hardware tab stop
T}
these_cause_cr docr Zw T{
Printing any of these characters causes CR
T}
to_status_line tsl ts T{
move to status line
T}
tone tone TO T{
select touch tone dialing
T}
underline_char uc uc T{
underline char and move past it
T}
up_half_line hu hu T{
half a line up
T}
user0 u0 u0 T{
User string #0
T}
user1 u1 u1 T{
User string #1
T}
user2 u2 u2 T{
User string #2
T}
user3 u3 u3 T{
User string #3
T}
user4 u4 u4 T{
User string #4
T}
user5 u5 u5 T{
User string #5
T}
user6 u6 u6 T{
User string #6
T}
user7 u7 u7 T{
User string #7
T}
user8 u8 u8 T{
User string #8
T}
user9 u9 u9 T{
User string #9
T}
wait_tone wait WA T{
wait for dial-tone
T}
xoff_character xoffc XF T{
XOFF character
T}
xon_character xonc XN T{
XON character
T}
zero_motion zerom Zx T{
No motion for subsequent character
T}
.TE
.ad
The following string capabilities are present in the SVr4.0 term structure,
but were originally not documented in the man page.
.na
.TS H
center expand;
c l l c
c l l c
lw25 lw6 lw2 lw18.
\fBVariable Cap- TCap Description\fR
\fBString name Code\fR
alt_scancode_esc scesa S8 T{
Alternate escape for scancode emulation
T}
bit_image_carriage_return bicr Yv T{
Move to beginning of same row
T}
bit_image_newline binel Zz T{
Move to next row of the bit image
T}
bit_image_repeat birep Xy T{
Repeat bit image cell #1 #2 times
T}
char_set_names csnm Zy T{
List of character set names
T}
code_set_init csin ci T{
Init sequence for multiple codesets
T}
color_names colornm Yw T{
Give name for color #1
T}
define_bit_image_region defbi Yx T{
Define rectangualar bit image region
T}
device_type devt dv T{
Indicate language/codeset support
T}
display_pc_char dispc S1 T{
Display PC character
T}
end_bit_image_region endbi Yy T{
End a bit-image region
T}
enter_pc_charset_mode smpch S2 T{
Enter PC character display mode
T}
enter_scancode_mode smsc S4 T{
Enter PC scancode mode
T}
exit_pc_charset_mode rmpch S3 T{
Exit PC character display mode
T}
exit_scancode_mode rmsc S5 T{
Exit PC scancode mode
T}
get_mouse getm Gm T{
Curses should get button events
T}
key_mouse kmous Km T{
Mouse event has occurred
T}
mouse_info minfo Mi T{
Mouse status information
T}
pc_term_options pctrm S6 T{
PC terminal options
T}
pkey_plab pfxl xl T{
Program function key #1 to type string #2 and show string #3
T}
req_mouse_pos reqmp RQ T{
Request mouse position
T}
scancode_escape scesc S7 T{
Escape for scancode emulation
T}
set0_des_seq s0ds s0 T{
Shift to code set 0 (EUC set 0, ASCII)
T}
set1_des_seq s1ds s1 T{
Shift to code set 1
T}
set2_des_seq s2ds s2 T{
Shift to code set 2
T}
set3_des_seq s3ds s3 T{
Shift to code set 3
T}
set_a_background setab AB T{
Set background color using ANSI escape
T}
set_a_foreground setaf AF T{
Set foreground color using ANSI escape
T}
set_color_band setcolor Yz T{
Change to ribbon color #1
T}
set_lr_margin smglr ML T{
Set both left and right margins to #1, #2
T}
set_page_length slines YZ T{
Set page length to #1 lines
T}
set_tb_margin smgtb MT T{
Sets both top and bottom margins to #1, #2
T}
.TE
.ad
.in .8i
The XSI Curses standard added these. They are some post-4.1
versions of System V curses, e.g., Solaris 2.5 and IRIX 6.x.
The \fBncurses\fR termcap names for them are invented; according to the
XSI Curses standard, they have no termcap names. If your compiled terminfo
entries use these, they may not be binary-compatible with System V terminfo
entries after SVr4.1; beware!
.na
.TS H
center expand;
c l l c
c l l c
lw25 lw6 lw2 lw20.
\fBVariable Cap- TCap Description\fR
\fBString name Code\fR
enter_horizontal_hl_mode ehhlm Xh T{
Enter horizontal highlight mode
T}
enter_left_hl_mode elhlm Xl T{
Enter left highlight mode
T}
enter_low_hl_mode elohlm Xo T{
Enter low highlight mode
T}
enter_right_hl_mode erhlm Xr T{
Enter right highlight mode
T}
enter_top_hl_mode ethlm Xt T{
Enter top highlight mode
T}
enter_vertical_hl_mode evhlm Xv T{
Enter vertical highlight mode
T}
set_a_attributes sgr1 sA T{
Define second set of video attributes #1-#6
T}
set_pglen_inch slength sL T{
YI Set page length to #1 hundredth of an inch
T}
.TE
.ad
.\" $From: terminfo.tail,v 1.33 2000/10/14 14:06:50 tom Exp $
.\" Beginning of terminfo.tail file
.ps +1
.PP
.SS A Sample Entry
.PP
The following entry, describing an ANSI-standard terminal, is representative
of what a \fBterminfo\fR entry for a modern terminal typically looks like.
.PP
.nf
.in -2
.ta .3i
.ft CW
\s-2ansi|ansi/pc-term compatible with color,
mc5i,
colors#8, ncv#3, pairs#64,
cub=\\E[%p1%dD, cud=\\E[%p1%dB, cuf=\\E[%p1%dC,
cuu=\\E[%p1%dA, dch=\\E[%p1%dP, dl=\\E[%p1%dM,
ech=\\E[%p1%dX, el1=\\E[1K, hpa=\\E[%p1%dG, ht=\\E[I,
ich=\\E[%p1%d@, il=\\E[%p1%dL, indn=\\E[%p1%dS, .indn=\\E[%p1%dT,
kbs=^H, kcbt=\\E[Z, kcub1=\\E[D, kcud1=\\E[B,
kcuf1=\\E[C, kcuu1=\\E[A, kf1=\\E[M, kf10=\\E[V,
kf11=\\E[W, kf12=\\E[X, kf2=\\E[N, kf3=\\E[O, kf4=\\E[P,
kf5=\\E[Q, kf6=\\E[R, kf7=\\E[S, kf8=\\E[T, kf9=\\E[U,
kich1=\\E[L, mc4=\\E[4i, mc5=\\E[5i, nel=\\r\\E[S,
op=\\E[37;40m, rep=%p1%c\\E[%p2%{1}%-%db,
rin=\\E[%p1%dT, s0ds=\\E(B, s1ds=\\E)B, s2ds=\\E*B,
s3ds=\\E+B, setab=\\E[4%p1%dm, setaf=\\E[3%p1%dm,
setb=\\E[4%?%p1%{1}%=%t4%e%p1%{3}%=%t6%e%p1%{4}%=%t1%e%p1%{6}%=%t3%e%p1%d%;m,
setf=\\E[3%?%p1%{1}%=%t4%e%p1%{3}%=%t6%e%p1%{4}%=%t1%e%p1%{6}%=%t3%e%p1%d%;m,
sgr=\\E[0;10%?%p1%t;7%;%?%p2%t;4%;%?%p3%t;7%;%?%p4%t;5%;%?%p6%t;1%;%?%p7%t;8%;%?%p8%t;11%;%?%p9%t;12%;m,
sgr0=\\E[0;10m, tbc=\\E[2g, u6=\\E[%d;%dR, u7=\\E[6n,
u8=\\E[?%[;0123456789]c, u9=\\E[c, vpa=\\E[%p1%dd,\s+2
.in +2
.fi
.ft R
.PP
Entries may continue onto multiple lines by placing white space at
the beginning of each line except the first.
Comments may be included on lines beginning with ``#''.
Capabilities in
.I terminfo
are of three types:
Boolean capabilities which indicate 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.
.PP
.SS Types of Capabilities
.PP
All capabilities have names. For instance, the fact that
ANSI-standard terminals have
.I "automatic margins"
(i.e., an automatic return and line-feed
when the end of a line is reached) is indicated by the capability \fBam\fR.
Hence the description of ansi includes \fBam\fR.
Numeric capabilities are followed by the character `#' and then a positive value.
Thus \fBcols\fR, which indicates the number of columns the terminal has,
gives the value `80' for ansi.
Values for numeric capabilities may be specified in decimal, octal or hexadecimal,
using the C programming language conventions (e.g., 255, 0377 and 0xff or 0xFF).
.PP
Finally, string valued capabilities, such as \fBel\fR (clear to end of line
sequence) are given by the two-character code, an `=', and then a string
ending at the next following `,'.
.PP
A number of escape sequences are provided in the string valued capabilities
for easy encoding of characters there. Both \fB\eE\fR and \fB\ee\fR
map to an \s-1ESCAPE\s0 character,
\fB^x\fR maps to a control-x for any appropriate x, and the sequences
\fB\en \el \er \et \eb \ef \es\fR give
a newline, line-feed, return, tab, backspace, form-feed, and space.
Other escapes include \fB\e^\fR for \fB^\fR,
\fB\e\e\fR for \fB\e\fR,
\fB\e\fR, for comma,
\fB\e:\fR for \fB:\fR,
and \fB\e0\fR for null.
(\fB\e0\fR will produce \e200, which does not terminate a string but behaves
as a null character on most terminals, providing CS7 is specified. See stty(1).)
Finally, characters may be given as three octal digits after a \fB\e\fR.
.PP
A delay in milliseconds may appear anywhere in a string capability, enclosed in
$<..> brackets, as in \fBel\fP=\eEK$<5>, and padding characters are supplied by
.I tputs
to provide this delay. The delay must be a number with at most one decimal
place of precision; it may be followed by suffixes `*' or '/' or both. A `*'
indicates 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. (In the case of insert character, the factor is still the
number of
.IR lines
affected.) Normally, padding is advisory if the device has the \fBxon\fR
capability; it is used for cost computation but does not trigger delays. A `/'
suffix indicates that the padding is mandatory and forces a delay of the given
number of milliseconds even on devices for which \fBxon\fR is present to
indicate flow control.
.PP
Sometimes individual capabilities must be commented out.
To do this, put a period before the capability name.
For example, see the second
.B ind
in the example above.
.br
.ne 5
.PP
.SS Fetching Compiled Descriptions
.PP
If the environment variable TERMINFO is set, it is interpreted as the pathname
of a directory containing the compiled description you are working on. Only
that directory is searched.
.PP
If TERMINFO is not set, the \fBncurses\fR version of the terminfo reader code
will instead look in the directory \fB$HOME/.terminfo\fR
for a compiled description.
If it fails to find one there, and the environment variable TERMINFO_DIRS is
set, it will interpret the contents of that variable as a list of colon-
separated directories to be searched (an empty entry is interpreted as a
command to search \fI\*d\fR). If no description is found in any of the
TERMINFO_DIRS directories, the fetch fails.
.PP
If neither TERMINFO nor TERMINFO_DIRS is set, the last place tried will be the
system terminfo directory, \fI\*d\fR.
.PP
(Neither the \fB$HOME/.terminfo\fR lookups nor TERMINFO_DIRS extensions are
supported under stock System V terminfo/curses.)
.PP
.SS Preparing Descriptions
.PP
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
.I terminfo
and to build up a description gradually, using partial descriptions
with
.I vi
or some other screen-oriented program to check that they are correct.
Be aware that a very unusual terminal may expose deficiencies in
the ability of the
.I terminfo
file to describe it
or bugs in the screen-handling code of the test program.
.PP
To get the padding for insert line right (if the terminal manufacturer
did not document it) a severe test is to edit a large file at 9600 baud,
delete 16 or so lines from the middle of the screen, then hit the `u'
key several times quickly.
If the terminal messes up, more padding is usually needed.
A similar test can be used for insert character.
.PP
.SS Basic Capabilities
.PP
The number of columns on each line for the terminal is given by the
\fBcols\fR numeric capability. If the terminal is a \s-1CRT\s0, then the
number of lines on the screen is given by the \fBlines\fR capability.
If the terminal wraps around to the beginning of the next line when
it reaches the right margin, then it should have the \fBam\fR capability.
If the terminal can clear its screen, leaving the cursor in the home
position, then this is given by the \fBclear\fR string capability.
If the terminal overstrikes
(rather than clearing a position when a character is struck over)
then it should have the \fBos\fR capability.
If the terminal is a printing terminal, with no soft copy unit,
give it both
.B hc
and
.BR os .
.RB ( os
applies to storage scope terminals, such as \s-1TEKTRONIX\s+1 4010
series, as well as hard copy and APL terminals.)
If there is a code to move the cursor to the left edge of the current
row, give this as
.BR cr .
(Normally this will be carriage return, control M.)
If there is a code to produce an audible signal (bell, beep, etc)
give this as
.BR bel .
.PP
If there is a code to move the cursor one position to the left
(such as backspace) that capability should be given as
.BR cub1 .
Similarly, codes to move to the right, up, and down should be
given as
.BR cuf1 ,
.BR cuu1 ,
and
.BR cud1 .
These local cursor motions should not alter the text they pass over,
for example, you would not normally use `\fBcuf1\fP=\ ' because the
space would erase the character moved over.
.PP
A very important point here is that the local cursor motions encoded
in
.I terminfo
are undefined at the left and top edges of a \s-1CRT\s0 terminal.
Programs should never attempt to backspace around the left edge,
unless
.B bw
is given,
and never attempt to go up locally off the top.
In order to scroll text up, a program will go to the bottom left corner
of the screen and send the
.B ind
(index) string.
.PP
To scroll text down, a program goes to the top left corner
of the screen and sends the
.B ri
(reverse index) string.
The strings
.B ind
and
.B ri
are undefined when not on their respective corners of the screen.
.PP
Parameterized versions of the scrolling sequences are
.B indn
and
.B rin
which have the same semantics as
.B ind
and
.B ri
except that they take one parameter, and scroll that many lines.
They are also undefined except at the appropriate edge of the screen.
.PP
The \fBam\fR capability tells whether the cursor sticks at the right
edge of the screen when text is output, but this does not necessarily
apply to a
.B cuf1
from the last column.
The only local motion which is defined from the left edge is if
.B bw
is given, then a
.B cub1
from the left edge will move to the right edge of the previous row.
If
.B bw
is not given, the effect is undefined.
This is useful for drawing a box around the edge of the screen, for example.
If the terminal has switch selectable automatic margins,
the
.I terminfo
file usually assumes that this is on; i.e., \fBam\fR.
If the terminal has a command which moves to the first column of the next
line, that command can be given as
.B nel
(newline).
It does not matter if the command clears the remainder of the current line,
so if the terminal has no
.B cr
and
.B lf
it may still be possible to craft a working
.B nel
out of one or both of them.
.PP
These capabilities suffice to describe hard-copy and \*(lqglass-tty\*(rq terminals.
Thus the model 33 teletype is described as
.PP
.DT
.nf
.ft CW
.in -7
\s-133\||\|tty33\||\|tty\||\|model 33 teletype,
bel=^G, cols#72, cr=^M, cud1=^J, hc, ind=^J, os,\s+1
.in +7
.ft R
.PP
while the Lear Siegler \s-1ADM\-3\s0 is described as
.PP
.DT
.nf
.ft CW
.in -7
\s-1adm3\||\|3\||\|lsi adm3,
am, bel=^G, clear=^Z, cols#80, cr=^M, cub1=^H, cud1=^J,
ind=^J, lines#24,\s+1
.in +7
.ft R
.fi
.PP
.SS Parameterized Strings
.PP
Cursor addressing and other strings requiring parameters
in the terminal are described by a
parameterized string capability, with
.IR printf (3
like escapes \fB%x\fR in it.
For example, to address the cursor, the
.B cup
capability is given, using two parameters:
the row and column to address to.
(Rows and columns are numbered from zero and refer to the
physical screen visible to the user, not to any unseen memory.)
If the terminal has memory relative cursor addressing,
that can be indicated by
.BR mrcup .
.PP
The parameter mechanism uses a stack and special \fB%\fP codes
to manipulate it. Typically a sequence will push one of the
parameters onto the stack and then print it in some format.
Often more complex operations are necessary.
.PP
The \fB%\fR encodings have the following meanings:
.PP
.DT
.nf
.ta .5i 1.5i
\s-1%% outputs `%'
%\fI[[\fP:\fI]flags][width[.precision]][\fPdoxXs\fI]\fP
as in \fBprintf\fP, flags are [-+#] and space
%c print pop() like %c in printf()
%s print pop() like %s in printf()
%p[1-9] push \fIi\fP'th parm
%P[a-z] set dynamic variable [a-z] to pop()
%g[a-z] get dynamic variable [a-z] and push it
%P[A-Z] set static variable [a-z] to pop()
%g[A-Z] get static variable [a-z] and push it
%'\fIc\fP' char constant \fIc\fP
%{\fInn\fP} integer constant \fInn\fP
%l push strlen(pop)
%+ %- %* %/ %m
arithmetic (%m is mod): push(pop() op pop())
%& %| %^ bit operations: push(pop() op pop())
%= %> %< logical operations: push(pop() op pop())
%A, %O logical and & or operations (for conditionals)
%! %~ unary operations push(op pop())
%i add 1 to first two parameters (for ANSI terminals)
%? expr %t thenpart %e elsepart %;
if-then-else, %e elsepart is optional.
else-if's are possible a la Algol 68:
%? c\d1\u %t b\d1\u %e c\d2\u %t b\d2\u %e c\d3\u %t b\d3\u %e c\d4\u %t b\d4\u %e %;
\s+1 c\di\u are conditions, b\di\u are bodies.
.fi
.PP
Binary operations are in postfix form with the operands in the usual order.
That is, to get x-5 one would use "%gx%{5}%-". %P and %g variables are
persistent across escape-string evaluations.
.PP
Consider the HP2645, which, to get to row 3 and column 12, needs
to be sent \eE&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 \fBcup\fR capability is \*(lqcup=6\eE&%p2%2dc%p1%2dY\*(rq.
.PP
The Microterm \s-1ACT-IV\s0 needs the current row and column sent
preceded by a \fB^T\fR, with the row and column simply encoded in binary,
\*(lqcup=^T%p1%c%p2%c\*(rq.
Terminals which use \*(lq%c\*(rq need to be able to
backspace the cursor (\fBcub1\fR),
and to move the cursor up one line on the screen (\fBcuu1\fR).
This is necessary because it is not always safe to transmit \fB\en\fR
\fB^D\fR and \fB\er\fR, as the system may change or discard them.
(The library routines dealing with terminfo set tty modes so that
tabs are never expanded, so \et is safe to send.
This turns out to be essential for the Ann Arbor 4080.)
.PP
A final example is the \s-1LSI ADM\s0-3a, which uses row and column
offset by a blank character, thus \*(lqcup=\eE=%p1%' '%+%c%p2%' '%+%c\*(rq.
After sending `\eE=', this pushes the first parameter, pushes the
ASCII value for a space (32), adds them (pushing the sum on the stack
in place of the two previous values) and outputs that value as a character.
Then the same is done for the second parameter.
More complex arithmetic is possible using the stack.
.PP
.SS Cursor Motions
.PP
If the terminal has a fast way to home the cursor
(to very upper left corner of screen) then this can be given as
\fBhome\fR; similarly a fast way of getting to the lower left-hand corner
can be given as \fBll\fR; this may involve going up with \fBcuu1\fR
from the home position,
but a program should never do this itself (unless \fBll\fR does) because it
can make no assumption about the effect of moving up from the home position.
Note that the home position is the same as addressing to (0,0):
to the top left corner of the screen, not of memory.
(Thus, the \eEH sequence on HP terminals cannot be used for
.BR home .)
.PP
If the terminal has row or column absolute cursor addressing,
these can be given as single parameter capabilities
.B hpa
(horizontal position absolute)
and
.B vpa
(vertical position absolute).
Sometimes these are shorter than the more general two parameter
sequence (as with the hp2645) and can be used in preference to
.BR cup .
If there are parameterized local motions (e.g., move
.I n
spaces to the right) these can be given as
.BR cud ,
.BR cub ,
.BR cuf ,
and
.BR cuu
with a single parameter indicating how many spaces to move.
These are primarily useful if the terminal does not have
.BR cup ,
such as the \s-1TEKTRONIX\s+1 4025.
.PP
If the terminal needs to be in a special mode when running
a program that uses these capabilities,
the codes to enter and exit this mode can be given as \fBsmcup\fR and \fBrmcup\fR.
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.
This is also used for the \s-1TEKTRONIX\s+1 4025,
where
.B smcup
sets the command character to be the one used by terminfo.
If the \fBsmcup\fP sequence will not restore the screen after an
\fBrmcup\fP sequence is output (to the state prior to outputting
\fBrmcup\fP), specify \fBnrrmc\fP.
.PP
.SS Area Clears
.PP
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 \fBel\fR.
If the terminal can clear from the beginning of the line to the current
position inclusive, leaving
the cursor where it is, this should be given as \fBel1\fP.
If the terminal can clear from the current position to the end of the
display, then this should be given as \fBed\fR.
\fBEd\fR is only defined from the first column of a line.
(Thus, it can be simulated by a request to delete a large number of lines,
if a true
.B ed
is not available.)
.PP
.SS Insert/delete line and vertical motions
.PP
If the terminal can open a new blank line before the line where the cursor
is, this should be given as \fBil1\fR; this is done only from the first
position of a line. The cursor 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 \fBdl1\fR; this is done only from the first position on
the line to be deleted.
Versions of
.B il1
and
.B dl1
which take a single parameter and insert or delete that many lines can
be given as
.B il
and
.BR dl .
.PP
If the terminal has a settable scrolling region (like the vt100)
the command to set this can be described with the
.B csr
capability, which takes two parameters:
the top and bottom lines of the scrolling region.
The cursor position is, alas, undefined after using this command.
.PP
It is possible to get the effect of insert or delete line using
.B csr
on a properly chosen region; the
.B sc
and
.B rc
(save and restore cursor) commands may be useful for ensuring that
your synthesized insert/delete string does not move the cursor.
(Note that the \fBncurses\fR(3) library does this synthesis
automatically, so you need not compose insert/delete strings for
an entry with \fBcsr\fR).
.PP
Yet another way to construct insert and delete might be to use a combination of
index with the memory-lock feature found on some terminals (like the HP-700/90
series, which however also has insert/delete).
.PP
Inserting lines at the top or bottom of the screen can also be
done using
.B ri
or
.B ind
on many terminals without a true insert/delete line,
and is often faster even on terminals with those features.
.PP
The boolean \fBnon_dest_scroll_region\fR should be set if each scrolling
window is effectively a view port on a screen-sized canvas. To test for
this capability, create a scrolling region in the middle of the screen,
write something to the bottom line, move the cursor to the top of the region,
and do \fBri\fR followed by \fBdl1\fR or \fBind\fR. If the data scrolled
off the bottom of the region by the \fBri\fR re-appears, then scrolling
is non-destructive. System V and XSI Curses expect that \fBind\fR, \fBri\fR,
\fBindn\fR, and \fBrin\fR will simulate destructive scrolling; their
documentation cautions you not to define \fBcsr\fR unless this is true.
This \fBcurses\fR implementation is more liberal and will do explicit erases
after scrolling if \fBndstr\fR is defined.
.PP
If the terminal has the ability to define a window as part of
memory, which all commands affect,
it should be given as the parameterized string
.BR wind .
The four parameters are the starting and ending lines in memory
and the starting and ending columns in memory, in that order.
.PP
If the terminal can retain display memory above, then the
\fBda\fR capability should be given; if display memory can be retained
below, then \fBdb\fR should be given. These indicate
that deleting a line or scrolling may bring non-blank lines up from below
or that scrolling back with \fBri\fR may bring down non-blank lines.
.PP
.SS Insert/Delete Character
.PP
There are two basic kinds of intelligent terminals with respect to
insert/delete character which can be described using
.I terminfo.
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 determine the
kind of terminal you have by clearing the screen and then typing
text separated by cursor motions. Type \*(lqabc\ \ \ \ def\*(rq using local
cursor motions (not spaces) between the \*(lqabc\*(rq and the \*(lqdef\*(rq.
Then position the cursor before the \*(lqabc\*(rq 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 \*(lqabc\*(rq
shifts over to the \*(lqdef\*(rq 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 \fBin\fR, which stands for
\*(lqinsert null\*(rq.
While these are two logically separate attributes (one line vs. multi-line
insert mode, and special treatment of untyped spaces) we have seen no
terminals whose insert mode cannot be described with the single attribute.
.PP
Terminfo can describe 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 \fBsmir\fR the sequence to get into insert mode.
Give as \fBrmir\fR the sequence to leave insert mode.
Now give as \fBich1\fR any sequence needed to be sent just before sending
the character to be inserted. Most terminals with a true insert mode
will not give \fBich1\fR; terminals which send a sequence to open a screen
position should give it here.
.PP
If your terminal has both, insert mode is usually preferable to \fBich1\fR.
Technically, you should not give both unless the terminal actually requires
both to be used in combination. Accordingly, some non-curses applications get
confused if both are present; the symptom is doubled characters in an update
using insert. This requirement is now rare; most \fBich\fR sequences do not
require previous smir, and most smir insert modes do not require \fBich1\fR
before each character. Therefore, the new \fBcurses\fR actually assumes this
is the case and uses either \fBrmir\fR/\fBsmir\fR or \fBich\fR/\fBich1\fR as
appropriate (but not both). If you have to write an entry to be used under
new curses for a terminal old enough to need both, include the
\fBrmir\fR/\fBsmir\fR sequences in \fBich1\fR.
.PP
If post insert padding is needed, give this as a number of milliseconds
in \fBip\fR (a string option). Any other sequence which may need to be
sent after an insert of a single character may also be given in \fBip\fR.
If your terminal needs both to be placed into an `insert mode' and
a special code to precede each inserted character, then both
.BR smir / rmir
and
.B ich1
can be given, and both will be used.
The
.B ich
capability, with one parameter,
.IR n ,
will repeat the effects of
.B ich1
.I n
times.
.PP
If padding is necessary between characters typed while not
in insert mode, give this as a number of milliseconds padding in \fBrmp\fP.
.PP
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 capability \fBmir\fR to speed up inserting
in this case. Omitting \fBmir\fR will affect only speed. Some terminals
(notably Datamedia's) must not have \fBmir\fR because of the way their
insert mode works.
.PP
Finally, you can specify
.B dch1
to delete a single character,
.B dch
with one parameter,
.IR n ,
to delete
.I n characters,
and delete mode by giving \fBsmdc\fR and \fBrmdc\fR
to enter and exit delete mode (any mode the terminal needs to be placed
in for
.B dch1
to work).
.PP
A command to erase
.I n
characters (equivalent to outputting
.I n
blanks without moving the cursor)
can be given as
.B ech
with one parameter.
.PP
.SS "Highlighting, Underlining, and Visible Bells"
.PP
If your terminal has one or more kinds of display attributes,
these can be represented in a number of different ways.
You should choose one display form as
\f2standout mode\fR,
representing a good, high contrast, easy-on-the-eyes,
format for highlighting error messages and other attention getters.
(If you have a choice, reverse video plus half-bright is good,
or reverse video alone.)
The sequences to enter and exit standout mode
are given as \fBsmso\fR and \fBrmso\fR, respectively.
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 \fBxmc\fR should be given to tell how many spaces are left.
.PP
Codes to begin underlining and end underlining can be given as \fBsmul\fR
and \fBrmul\fR 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 \fBuc\fR.
.PP
Other capabilities to enter various highlighting modes include
.B blink
(blinking)
.B bold
(bold or extra bright)
.B dim
(dim or half-bright)
.B invis
(blanking or invisible text)
.B prot
(protected)
.B rev
(reverse video)
.B sgr0
(turn off
.I all
attribute modes)
.B smacs
(enter alternate character set mode)
and
.B rmacs
(exit alternate character set mode).
Turning on any of these modes singly may or may not turn off other modes.
.PP
If there is a sequence to set arbitrary combinations of modes,
this should be given as
.B sgr
(set attributes),
taking 9 parameters.
Each parameter is either 0 or nonzero, as the corresponding attribute is on or off.
The 9 parameters are, in order:
standout, underline, reverse, blink, dim, bold, blank, protect, alternate
character set.
Not all modes need be supported by
.BR sgr ,
only those for which corresponding separate attribute commands exist.
.PP
For example, the DEC vt220 supports most of the modes:
.PP
.TS
center;
l c c
l c c
lw28 lw6 lw2 lw20.
\fBtparm parameter attribute escape sequence\fP
none none \\E[0m
p1 standout \\E[0;1;7m
p2 underline \\E[0;4m
p3 reverse \\E[0;7m
p4 blink \\E[0;5m
p5 dim not available
p6 bold \\E[0;1m
p7 invis \\E[0;8m
p8 protect not used
p9 altcharset ^O (off) ^N (on)
.TE
.PP
We begin each escape sequence by turning off any existing modes, since
there is no quick way to determine whether they are active.
Standout is set up to be the combination of reverse and bold.
The vt220 terminal has a protect mode,
though it is not commonly used in sgr
because it protects characters on the screen from the host's erasures.
The altcharset mode also is different in that it is either ^O or ^N,
depending on whether it is off or on.
If all modes are turned on, the resulting sequence is \\E[0;1;4;5;7;8m^N.
.PP
Some sequences are common to different modes.
For example, ;7 is output when either p1 or p3 is true, that is, if
either standout or reverse modes are turned on.
.PP
Writing out the above sequences, along with their dependencies yields
.PP
.TS
center;
l c c
l c c
lw28 lw6 lw2 lw20.
\fBsequence when to output terminfo translation\fP
\\E[0 always \\E[0
;1 if p1 or p6 %?%p1%p6%|%t;1%;
;4 if p2 %?%p2%|%t;4%;
;5 if p4 %?%p4%|%t;5%;
;7 if p1 or p3 %?%p1%p3%|%t;7%;
;8 if p7 %?%p7%|%t;8%;
m always m
^N or ^O if p9 ^N, else ^O %?%p9%t^N%e^O%;
.TE
.PP
Putting this all together into the sgr sequence gives:
.PP
.nf
sgr=\\E[0%?%p1%p6%|%t;1%;%?%p2%t;4%;%?%p1%p3%|%t;7%;
%?%p4%t;5%;%?%p7%t;8%;m%?%p9%t\\016%e\\017%;,
.fi
.PP
Remember that if you specify sgr, you must also specify sgr0.
.PP
Terminals with the ``magic cookie'' glitch
.RB ( xmc )
deposit special ``cookies'' when they receive mode-setting sequences,
which affect the display algorithm rather than having extra bits for
each character.
Some 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 standout mode before
moving the cursor or sending a newline,
unless the
.B msgr
capability, asserting that it is safe to move in standout mode, is present.
.PP
If the terminal has
a way of flashing the screen to indicate an error quietly (a bell replacement)
then this can be given as \fBflash\fR; it must not move the cursor.
.PP
If the cursor needs to be made more visible than normal when it is
not on the bottom line (to make, for example, a non-blinking underline into an
easier to find block or blinking underline)
give this sequence as
.BR cvvis .
If there is a way to make the cursor completely invisible, give that as
.BR civis .
The capability
.BR cnorm
should be given which undoes the effects of both of these modes.
.PP
If your terminal correctly generates underlined characters
(with no special codes needed)
even though it does not overstrike,
then you should give the capability \fBul\fR.
If a character overstriking another leaves both characters on the screen,
specify the capability \fBos\fP.
If overstrikes are erasable with a blank,
then this should be indicated by giving \fBeo\fR.
.PP
.SS Keypad and Function Keys
.PP
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 \fBsmkx\fR and \fBrmkx\fR.
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
\fBkcub1, kcuf1, kcuu1, kcud1, \fRand\fB khome\fR respectively.
If there are function keys such as f0, f1, ..., f10, the codes they send
can be given as \fBkf0, kf1, ..., kf10\fR.
If these keys have labels other than the default f0 through f10, the labels
can be given as \fBlf0, lf1, ..., lf10\fR.
The codes transmitted by certain other special keys can be given:
.B kll
(home down),
.B kbs
(backspace),
.B ktbc
(clear all tabs),
.B kctab
(clear the tab stop in this column),
.B kclr
(clear screen or erase key),
.B kdch1
(delete character),
.B kdl1
(delete line),
.B krmir
(exit insert mode),
.B kel
(clear to end of line),
.B ked
(clear to end of screen),
.B kich1
(insert character or enter insert mode),
.B kil1
(insert line),
.B knp
(next page),
.B kpp
(previous page),
.B kind
(scroll forward/down),
.B kri
(scroll backward/up),
.B khts
(set a tab stop in this column).
In addition, if the keypad has a 3 by 3 array of keys including the four
arrow keys, the other five keys can be given as
.BR ka1 ,
.BR ka3 ,
.BR kb2 ,
.BR kc1 ,
and
.BR kc3 .
These keys are useful when the effects of a 3 by 3 directional pad are needed.
.PP
Strings to program function keys can be given as
.BR pfkey ,
.BR pfloc ,
and
.BR pfx .
A string to program screen labels should be specified as \fBpln\fP.
Each of these strings takes two parameters: the function key number to
program (from 0 to 10) and the string to program it with.
Function key numbers out of this range may program undefined keys in
a terminal dependent manner.
The difference between the capabilities is that
.B pfkey
causes pressing the given key to be the same as the user typing the
given string;
.B pfloc
causes the string to be executed by the terminal in local; and
.B pfx
causes the string to be transmitted to the computer.
.PP
The capabilities \fBnlab\fP, \fBlw\fP and \fBlh\fP
define the number of programmable
screen labels and their width and height.
If there are commands to turn the labels on and off,
give them in \fBsmln\fP and \fBrmln\fP.
\fBsmln\fP is normally output after one or more pln
sequences to make sure that the change becomes visible.
.PP
.SS Tabs and Initialization
.PP
If the terminal has hardware tabs, the command to advance to the next
tab stop can be given as
.B ht
(usually control I).
A ``back-tab'' command which moves leftward to the preceding tab stop can
be given as
.BR cbt .
By convention, if the teletype modes indicate that tabs are being
expanded by the computer rather than being sent to the terminal,
programs should not use
.B ht
or
.B cbt
even if they are present, since the user may not have the tab stops
properly set.
If the terminal has hardware tabs which are initially set every
.I n
spaces when the terminal is powered up,
the numeric parameter
.B it
is given, showing the number of spaces the tabs are set to.
This is normally used by the
.IR tset
command to determine whether to set the mode for hardware tab expansion,
and whether to set the tab stops.
If the terminal has tab stops that can be saved in non-volatile memory,
the terminfo description can assume that they are properly set.
.PP
Other capabilities
include
.BR is1 ,
.BR is2 ,
and
.BR is3 ,
initialization strings for the terminal,
.BR iprog ,
the path name of a program to be run to initialize the terminal,
and \fBif\fR, the name of a file containing long initialization strings.
These strings are expected to set the terminal into modes consistent
with the rest of the terminfo description.
They are normally sent to the terminal, by the
.I init
option of the
.IR tput
program, each time the user logs in.
They will be printed in the following order:
run the program
.BR iprog ;
output
.BR is1 ;
.BR is2 ;
set the margins using
.BR mgc ,
.BR smgl
and
.BR smgr ;
set tabs using
.B tbc
and
.BR hts ;
print the file
.BR if ;
and finally
output
.BR is3 .
.PP
Most initialization is done with
.BR is2 .
Special terminal modes can be set up without duplicating strings
by putting the common sequences in
.B is2
and special cases in
.B is1
and
.BR is3 .
A pair of sequences that does a harder reset from a totally unknown state
can be analogously given as
.BR rs1 ,
.BR rs2 ,
.BR rf ,
and
.BR rs3 ,
analogous to
.B is2
and
.BR if .
These strings are output by the
.IR reset
program, which is used when the terminal gets into a wedged state.
Commands are normally placed in
.BR rs1 ,
.BR rs2
.B rs3
and
.B rf
only if they produce annoying effects on the screen and are not
necessary when logging in.
For example, the command to set the vt100 into 80-column mode would
normally be part of
.BR is2 ,
but it causes an annoying glitch of the screen and is not normally
needed since the terminal is usually already in 80 column mode.
.PP
If there are commands to set and clear tab stops, they can be given as
.B tbc
(clear all tab stops)
and
.B hts
(set a tab stop in the current column of every row).
If a more complex sequence is needed to set the tabs than can be
described by this, the sequence can be placed in
.B is2
or
.BR if .
.SS Delays and Padding
.PP
Many older and slower terminals don't support either XON/XOFF or DTR
handshaking, including hard copy terminals and some very archaic CRTs
(including, for example, DEC VT100s). These may require padding characters
after certain cursor motions and screen changes.
.PP
If the terminal uses xon/xoff handshaking for flow control (that is,
it automatically emits ^S back to the host when its input buffers are
close to full), set
.BR xon .
This capability suppresses the emission of padding. You can also set it
for memory-mapped console devices effectively that don't have a speed limit.
Padding information should still be included so that routines can
make better decisions about relative costs, but actual pad characters will
not be transmitted.
.PP
If \fBpb\fR (padding baud rate) is given, padding is suppressed at baud rates
below the value of \fBpb\fR. If the entry has no padding baud rate, then
whether padding is emitted or not is completely controlled by \fBxon\fR.
.PP
If the terminal requires other than a null (zero) character as a pad,
then this can be given as \fBpad\fR.
Only the first character of the
.B pad
string is used.
.PP
.SS Status Lines
Some terminals have an extra `status line' which is not normally used by
software (and thus not counted in the terminal's \fBlines\fR capability).
.PP
The simplest case is a status line which is cursor-addressable but not
part of the main scrolling region on the screen; the Heathkit H19 has
a status line of this kind, as would a 24-line VT100 with a 23-line
scrolling region set up on initialization. This situation is indicated
by the \fBhs\fR capability.
.PP
Some terminals with status lines need special sequences to access the
status line. These may be expressed as a string with single parameter
\fBtsl\fR which takes the cursor to a given zero-origin column on the
status line. The capability \fBfsl\fR must return to the main-screen
cursor positions before the last \fBtsl\fR. You may need to embed the
string values of \fBsc\fR (save cursor) and \fBrc\fR (restore cursor)
in \fBtsl\fR and \fBfsl\fR to accomplish this.
.PP
The status line is normally assumed to be the same width as the width
of the terminal. If this is untrue, you can specify it with the numeric
capability \fBwsl\fR.
.PP
A command to erase or blank the status line may be specified as \fBdsl\fR.
.PP
The boolean capability \fBeslok\fR specifies that escape sequences, tabs,
etc. work ordinarily in the status line.
.PP
The \fBncurses\fR implementation does not yet use any of these capabilities.
They are documented here in case they ever become important.
.PP
.SS Line Graphics
.PP
Many terminals have alternate character sets useful for forms-drawing.
Terminfo and \fBcurses\fR build in support for the drawing characters
supported by the VT100, with some characters from the AT&T 4410v1 added.
This alternate character set may be specified by the \fBacsc\fR capability.
.PP
.TS H
center expand;
c l l c
c l l c
lw28 lw6 lw2 lw20.
.\".TH
\fBGlyph ACS Ascii VT100\fR
\fBName Name Default Name\fR
UK pound sign ACS_STERLING f }
arrow pointing down ACS_DARROW v .
arrow pointing left ACS_LARROW < ,
arrow pointing right ACS_RARROW > +
arrow pointing up ACS_UARROW ^ -
board of squares ACS_BOARD # h
bullet ACS_BULLET o ~
checker board (stipple) ACS_CKBOARD : a
degree symbol ACS_DEGREE \e f
diamond ACS_DIAMOND + `
greater-than-or-equal-to ACS_GEQUAL > z
greek pi ACS_PI * {
horizontal line ACS_HLINE - q
lantern symbol ACS_LANTERN # i
large plus or crossover ACS_PLUS + n
less-than-or-equal-to ACS_LEQUAL < y
lower left corner ACS_LLCORNER + m
lower right corner ACS_LRCORNER + j
not-equal ACS_NEQUAL ! |
plus/minus ACS_PLMINUS # g
scan line 1 ACS_S1 ~ o
scan line 3 ACS_S3 - p
scan line 7 ACS_S7 - r
scan line 9 ACS_S9 \&_ s
solid square block ACS_BLOCK # 0
tee pointing down ACS_TTEE + w
tee pointing left ACS_RTEE + u
tee pointing right ACS_LTEE + t
tee pointing up ACS_BTEE + v
upper left corner ACS_ULCORNER + l
upper right corner ACS_URCORNER + k
vertical line ACS_VLINE | x
.TE
.PP
The best way to define a new device's graphics set is to add a column
to a copy of this table for your terminal, giving the character which
(when emitted between \fBsmacs\fR/\fBrmacs\fR switches) will be rendered
as the corresponding graphic. Then read off the VT100/your terminal
character pairs right to left in sequence; these become the ACSC string.
.PP
.SS Color Handling
.PP
Most color terminals are either `Tektronix-like' or `HP-like'. Tektronix-like
terminals have a predefined set of N colors (where N usually 8), and can set
character-cell foreground and background characters independently, mixing them
into N * N color-pairs. On HP-like terminals, the use must set each color
pair up separately (foreground and background are not independently settable).
Up to M color-pairs may be set up from 2*M different colors. ANSI-compatible
terminals are Tektronix-like.
.PP
Some basic color capabilities are independent of the color method. The numeric
capabilities \fBcolors\fR and \fBpairs\fR specify the maximum numbers of colors
and color-pairs that can be displayed simultaneously. The \fBop\fR (original
pair) string resets foreground and background colors to their default values
for the terminal. The \fBoc\fR string resets all colors or color-pairs to
their default values for the terminal. Some terminals (including many PC
terminal emulators) erase screen areas with the current background color rather
than the power-up default background; these should have the boolean capability
\fBbce\fR.
.PP
To change the current foreground or background color on a Tektronix-type
terminal, use \fBsetaf\fR (set ANSI foreground) and \fBsetab\fR (set ANSI
background) or \fBsetf\fR (set foreground) and \fBsetb\fR (set background).
These take one parameter, the color number. The SVr4 documentation describes
only \fBsetaf\fR/\fBsetab\fR; the XPG4 draft says that "If the terminal
supports ANSI escape sequences to set background and foreground, they should
be coded as \fBsetaf\fR and \fBsetab\fR, respectively. If the terminal
supports other escape sequences to set background and foreground, they should
be coded as \fBsetf\fR and \fBsetb\fR, respectively. The \fIvidputs()\fR
function and the refresh functions use \fBsetaf\fR and \fBsetab\fR if they are
defined."
.PP
The \fBsetaf\fR/\fBsetab\fR and \fBsetf\fR/\fBsetb\fR capabilities take a
single numeric argument each. Argument values 0-7 are portably defined as
follows (the middle column is the symbolic #define available in the header for
the \fBcurses\fR or \fBncurses\fR libraries). The terminal hardware is free to
map these as it likes, but the RGB values indicate normal locations in color
space.
.PP
.TS H
center;
l c c c
l l n l.
\fBColor #define Value RGB\fR
black \fBCOLOR_BLACK\fR 0 0, 0, 0
red \fBCOLOR_RED\ \fR 1 max,0,0
green \fBCOLOR_GREEN\fR 2 0,max,0
yellow \fBCOLOR_YELLOW\fR 3 max,max,0
blue \fBCOLOR_BLUE\fR 4 0,0,max
magenta \fBCOLOR_MAGENTA\fR 5 max,0,max
cyan \fBCOLOR_CYAN\fR 6 0,max,max
white \fBCOLOR_WHITE\fR 7 max,max,max
.TE
.PP
On an HP-like terminal, use \fBscp\fR with a color-pair number parameter to set
which color pair is current.
.PP
On a Tektronix-like terminal, the capability \fBccc\fR may be present to
indicate that colors can be modified. If so, the \fBinitc\fR capability will
take a color number (0 to \fBcolors\fR - 1)and three more parameters which
describe the color. These three parameters default to being interpreted as RGB
(Red, Green, Blue) values. If the boolean capability \fBhls\fR is present,
they are instead as HLS (Hue, Lightness, Saturation) indices. The ranges are
terminal-dependent.
.PP
On an HP-like terminal, \fBinitp\fR may give a capability for changing a
color-pair value. It will take seven parameters; a color-pair number (0 to
\fBmax_pairs\fR - 1), and two triples describing first background and then
foreground colors. These parameters must be (Red, Green, Blue) or
(Hue, Lightness, Saturation) depending on \fBhls\fR.
.PP
On some color terminals, colors collide with highlights. You can register
these collisions with the \fBncv\fR capability. This is a bit-mask of
attributes not to be used when colors are enabled. The correspondence with the
attributes understood by \fBcurses\fR is as follows:
.PP
.TS
center;
l c c
lw25 lw2 lw10.
\fBAttribute Bit Decimal\fR
A_STANDOUT 0 1
A_UNDERLINE 1 2
A_REVERSE 2 4
A_BLINK 3 8
A_DIM 4 16
A_BOLD 5 32
A_INVIS 6 64
A_PROTECT 7 128
A_ALTCHARSET 8 256
.TE
.PP
For example, on many IBM PC consoles, the underline attribute collides with the
foreground color blue and is not available in color mode. These should have
an \fBncv\fR capability of 2.
.PP
SVr4 curses does nothing with \fBncv\fR, ncurses recognizes it and optimizes
the output in favor of colors.
.PP
.SS Miscellaneous
If the terminal requires other than a null (zero) character as a pad, then this
can be given as pad.
Only the first character of the pad string is used.
If the terminal does not have a pad character, specify npc.
Note that ncurses implements the termcap-compatible \fBPC\fR variable;
though the application may set this value to something other than
a null, ncurses will test \fBnpc\fR first and use napms if the terminal
has no pad character.
.PP
If the terminal can move up or down half a line,
this can be indicated with
.B hu
(half-line up)
and
.B hd
(half-line down).
This is primarily useful for superscripts and subscripts on hard-copy terminals.
If a hard-copy terminal can eject to the next page (form feed), give this as
.B ff
(usually control L).
.PP
If there is a command to repeat a given character a given number of
times (to save time transmitting a large number of identical characters)
this can be indicated with the parameterized string
.BR rep .
The first parameter is the character to be repeated and the second
is the number of times to repeat it.
Thus, tparm(repeat_char, 'x', 10) is the same as `xxxxxxxxxx'.
.PP
If the terminal has a settable command character, such as the \s-1TEKTRONIX\s+1 4025,
this can be indicated with
.BR cmdch .
A prototype command character is chosen which is used in all capabilities.
This character is given in the
.B cmdch
capability to identify it.
The following convention is supported on some UNIX systems:
The environment is to be searched for a
.B CC
variable, and if found, all
occurrences of the prototype character are replaced with the character
in the environment variable.
.PP
Terminal descriptions that do not represent a specific kind of known
terminal, such as
.IR switch ,
.IR dialup ,
.IR patch ,
and
.IR network ,
should include the
.B gn
(generic) capability so that programs can complain that they do not know
how to talk to the terminal.
(This capability does not apply to
.I virtual
terminal descriptions for which the escape sequences are known.)
.PP
If the terminal has a ``meta key'' which acts as a shift key,
setting the 8th bit of any character transmitted, this fact can
be indicated with
.BR km .
Otherwise, software will assume that the 8th bit is parity and it
will usually be cleared.
If strings exist to turn this ``meta mode'' on and off, they
can be given as
.B smm
and
.BR rmm .
.PP
If the terminal has more lines of memory than will fit on the screen
at once, the number of lines of memory can be indicated with
.BR lm .
A value of
.BR lm #0
indicates that the number of lines is not fixed,
but that there is still more memory than fits on the screen.
.PP
If the terminal is one of those supported by the \s-1UNIX\s+1 virtual
terminal protocol, the terminal number can be given as
.BR vt .
.PP
Media copy
strings which control an auxiliary printer connected to the terminal
can be given as
.BR mc0 :
print the contents of the screen,
.BR mc4 :
turn off the printer, and
.BR mc5 :
turn on the printer.
When the printer is on, all text sent to the terminal will be sent
to the printer.
It is undefined whether the text is also displayed on the terminal screen
when the printer is on.
A variation
.B mc5p
takes one parameter, and leaves the printer on for as many characters
as the value of the parameter, then turns the printer off.
The parameter should not exceed 255.
All text, including
.BR mc4 ,
is transparently passed to the printer while an
.B mc5p
is in effect.
.PP
.SS Glitches and Braindamage
.PP
Hazeltine terminals, which do not allow `~' characters to be displayed should
indicate \fBhz\fR.
.PP
Terminals which ignore a line-feed immediately after an \fBam\fR wrap,
such as the Concept and vt100,
should indicate \fBxenl\fR.
.PP
If
.B el
is required to get rid of standout
(instead of merely writing normal text on top of it),
\fBxhp\fP should be given.
.PP
Teleray terminals, where tabs turn all characters moved over to blanks,
should indicate \fBxt\fR (destructive tabs).
Note: the variable indicating this is now `dest_tabs_magic_smso'; in
older versions, it was teleray_glitch.
This glitch is also taken to mean that it is not possible to position
the cursor on top of a ``magic cookie'',
that to erase standout mode it is instead necessary to use
delete and insert line. The ncurses implementation ignores this glitch.
.PP
The Beehive Superbee, which is unable to correctly transmit the escape
or control C characters, has
.BR xsb ,
indicating that the f1 key is used for escape and f2 for control C.
(Only certain Superbees have this problem, depending on the ROM.)
Note that in older terminfo versions, this capability was called
`beehive_glitch'; it is now `no_esc_ctl_c'.
.PP
Other specific terminal problems may be corrected by adding more
capabilities of the form \fBx\fR\fIx\fR.
.PP
.SS Similar Terminals
.PP
If there are two very similar terminals, one (the variant) can be defined as
being just like the other (the base) with certain exceptions. In the
definition of the variant, the string capability \fBuse\fR can be given with
the name of the base terminal. The capabilities given before
.B use
override those in the base type named by
.BR use .
If there are multiple \fBuse\fR capabilities, they are merged in reverse order.
That is, the rightmost \fBuse\fR reference is processed first, then the one to
its left, and so forth. Capabilities given explicitly in the entry override
those brought in by \fBuse\fR references.
.PP
A capability can be canceled by placing \fBxx@\fR to the left of the
use reference that imports it, where \fIxx\fP is the capability.
For example, the entry
.PP
2621-nl, smkx@, rmkx@, use=2621,
.PP
defines a 2621-nl that does not have the \fBsmkx\fR or \fBrmkx\fR capabilities,
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.
.PP
.SS Pitfalls of Long Entries
.PP
Long terminfo entries are unlikely to be a problem; to date, no entry has even
approached terminfo's 4K string-table maximum. Unfortunately, the termcap
translations are much more strictly limited (to 1K), thus termcap translations
of long terminfo entries can cause problems.
.PP
The man pages for 4.3BSD and older versions of tgetent() instruct the user to
allocate a 1K buffer for the termcap entry. The entry gets null-terminated by
the termcap library, so that makes the maximum safe length for a termcap entry
1k-1 (1023) bytes. Depending on what the application and the termcap library
being used does, and where in the termcap file the terminal type that tgetent()
is searching for is, several bad things can happen.
.PP
Some termcap libraries print a warning message or exit if they find an
entry that's longer than 1023 bytes; others don't; others truncate the
entries to 1023 bytes. Some application programs allocate more than
the recommended 1K for the termcap entry; others don't.
.PP
Each termcap entry has two important sizes associated with it: before
"tc" expansion, and after "tc" expansion. "tc" is the capability that
tacks on another termcap entry to the end of the current one, to add
on its capabilities. If a termcap entry doesn't use the "tc"
capability, then of course the two lengths are the same.
.PP
The "before tc expansion" length is the most important one, because it
affects more than just users of that particular terminal. This is the
length of the entry as it exists in /etc/termcap, minus the
backslash-newline pairs, which tgetent() strips out while reading it.
Some termcap libraries strip off the final newline, too (GNU termcap does not).
Now suppose:
.TP 5
*
a termcap entry before expansion is more than 1023 bytes long,
.TP 5
*
and the application has only allocated a 1k buffer,
.TP 5
*
and the termcap library (like the one in BSD/OS 1.1 and GNU) reads
the whole entry into the buffer, no matter what its length, to see
if it's the entry it wants,
.TP 5
*
and tgetent() is searching for a terminal type that either is the
long entry, appears in the termcap file after the long entry, or
doesn't appear in the file at all (so that tgetent() has to search
the whole termcap file).
.PP
Then tgetent() will overwrite memory, perhaps its stack, and probably core dump
the program. Programs like telnet are particularly vulnerable; modern telnets
pass along values like the terminal type automatically. The results are almost
as undesirable with a termcap library, like SunOS 4.1.3 and Ultrix 4.4, that
prints warning messages when it reads an overly long termcap entry. If a
termcap library truncates long entries, like OSF/1 3.0, it is immune to dying
here but will return incorrect data for the terminal.
.PP
The "after tc expansion" length will have a similar effect to the
above, but only for people who actually set TERM to that terminal
type, since tgetent() only does "tc" expansion once it's found the
terminal type it was looking for, not while searching.
.PP
In summary, a termcap entry that is longer than 1023 bytes can cause,
on various combinations of termcap libraries and applications, a core
dump, warnings, or incorrect operation. If it's too long even before
"tc" expansion, it will have this effect even for users of some other
terminal types and users whose TERM variable does not have a termcap
entry.
.PP
When in -C (translate to termcap) mode, the \fBncurses\fR implementation of
\fBtic\fR(1) issues warning messages when the pre-tc length of a termcap
translation is too long. The -c (check) option also checks resolved (after tc
expansion) lengths.
.SS Binary Compatibility
It is not wise to count on portability of binary terminfo entries between
commercial UNIX versions. The problem is that there are at least two versions
of terminfo (under HP-UX and AIX) which diverged from System V terminfo after
SVr1, and have added extension capabilities to the string table that (in the
binary format) collide with System V and XSI Curses extensions.
.SH EXTENSIONS
Some SVr4 \fBcurses\fR implementations, and all previous to SVr4, don't
interpret the %A and %O operators in parameter strings.
.PP
SVr4/XPG4 do not specify whether \fBmsgr\fR licenses movement while in
an alternate-character-set mode (such modes may, among other things, map
CR and NL to characters that don't trigger local motions).
The \fBncurses\fR implementation ignores \fBmsgr\fR in \fBALTCHARSET\fR
mode. This raises the possibility that an XPG4
implementation making the opposite interpretation may need terminfo
entries made for \fBncurses\fR to have \fBmsgr\fR turned off.
.PP
The \fBncurses\fR library handles insert-character and insert-character modes
in a slightly non-standard way in order to get better update efficiency. See
the \fBInsert/Delete Character\fR subsection above.
.PP
The parameter substitutions for \fBset_clock\fR and \fBdisplay_clock\fR are
not documented in SVr4 or the XSI Curses standard. They are deduced from the
documentation for the AT&T 505 terminal.
.PP
Be careful assigning the \fBkmous\fR capability. The \fBncurses\fR wants to
interpret it as \fBKEY_MOUSE\fR, for use by terminals and emulators like xterm
that can return mouse-tracking information in the keyboard-input stream.
.PP
Different commercial ports of terminfo and curses support different subsets of
the XSI Curses standard and (in some cases) different extension sets. Here
is a summary, accurate as of October 1995:
.PP
\fBSVR4, Solaris, ncurses\fR --
These support all SVr4 capabilities.
.PP
\fBSGI\fR --
Supports the SVr4 set, adds one undocumented extended string
capability (\fBset_pglen\fR).
.PP
\fBSVr1, Ultrix\fR --
These support a restricted subset of terminfo capabilities. The booleans
end with \fBxon_xoff\fR; the numerics with \fBwidth_status_line\fR; and the
strings with \fBprtr_non\fR.
.PP
\fBHP/UX\fR --
Supports the SVr1 subset, plus the SVr[234] numerics \fBnum_labels\fR,
\fBlabel_height\fR, \fBlabel_width\fR, plus function keys 11 through 63, plus
\fBplab_norm\fR, \fBlabel_on\fR, and \fBlabel_off\fR, plus some incompatible
extensions in the string table.
.PP
\fBAIX\fR --
Supports the SVr1 subset, plus function keys 11 through 63, plus a number
of incompatible string table extensions.
.PP
\fBOSF\fR --
Supports both the SVr4 set and the AIX extensions.
.SH FILES
.TP 25
\*d.db
file containing terminal descriptions on OpenBSD
.TP 25
\*d/?/*
files containing terminal descriptions on other systems
.SH "SEE ALSO"
\fBcap_mkdb(1)\fR, \fBtic\fR(1M), \fBcurses\fR(3), \fBprintf\fR(3), \fBterm\fR(\*n).
.SH AUTHORS
Zeyd M. Ben-Halim, Eric S. Raymond, Thomas E. Dickey.
Based on pcurses by Pavel Curtis.
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