DOC HOME SITE MAP MAN PAGES GNU INFO SEARCH PRINT BOOK
 

terminfo(M)


terminfo -- terminal capability database

Syntax

/usr/lib/terminfo/?/*

Description

terminfo is a compiled database (see tic(C)) describing the capabilities of terminals. Terminals are described in terminfo source descriptions by giving a set of capabilities which they have, by describing how operations are performed, by describing padding requirements, and by specifying initialization sequences. This database is used, for example, by vi(C) and curses(S), so they can work with a variety of terminals without changes to the programs. To obtain the source description for a terminal, use the -I option of infocmp(ADM). When doing an infocmp for the terminal you are on, there is no difference between infocmp and infocmp -I.

Entries in terminfo source files consist of a number of fields separated by commas. White space after each comma is ignored. The first line of each terminal description in the terminfo database gives the name by which terminfo knows the terminal, separated by bar (|) characters. The first name given is the most common abbreviation for the terminal (this is the one to use to set the environment variable TERM in $HOME .profile; see profile(M)); 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 contain no blanks and must be unique in the first 14 characters; the last name may contain blanks for readability.

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 chosen, for example, for the AT&T 4425 terminal, att4425. Modes that the hardware can be in, or user preferences, should be indicated by appending a hyphen and an indicator of the mode. See term(M) for examples and more information on choosing names and synonyms.

Part 1: Terminal capabilities

Capabilities in terminfo are of three types: boolean capabilities (which show that the terminal has some particular feature), numeric capabilities (which specify the size of the terminal or particular features), and string capabilities (which provide a sequence that can be used to perform particular terminal operations).

In the following tables, a ``Variable'' is the name by which a C programmer accesses a capability (at the terminfo level). A ``Capname'' is the short name for a capability used in the source description. It is used by a person updating the database and by the tput(C) command when asking what the value of the capability is for a particular terminal. A ``Termcap Code'' is a two-letter code that corresponds to the old termcap capability name.

Capability names have no hard length limit, but an informal limit of five characters has been adopted to keep them short. Whenever possible, names are chosen to be the same as or similar to those specified by the ANSI X3.64-1979 standard. Semantics are also intended to match those of the ANSI standard.

All string capabilities listed below may have padding specified, with the exception of those used for input. Input capabilities, listed under the ``Strings'' section in the following table, have names beginning with key_. The following indicators may appear at the end of the ``Description'' for a variable.


(G)
indicates that the string is passed through tparm() with parameters (parms) as given (#[i])

(*)
indicates that padding may be based on the number of lines affected

(#[i])
indicates the i[th] parameter

(**)
not present in all versions of termcap

Booleans ordered by variable name

Variable Cap- Termcap Description
name code  
auto_left_margin bw bw cub1 wraps from column 0 to last column
auto_right_margin am am Terminal has automatic margins
back_color_erase bce be Screen erased with background color
can_change ccc cc Terminal can re-define existing color
ceol_standout_glitch xhp xs Standout not erased by overwriting (hp)
col_addr_glitch xhpa YA Only positive motion for hpa/mhpa caps
cpi_changes_res cpix YF Changing character pitch changes
resolution
cr_cancels_micro_mode crxm YB Using cr turns off micro mode
eat_newline_glitch xenl xn Newline ignored after 80 columns
(Concept)
erase_overstrike eo eo Can erase overstrikes with a blank
generic_type gn gn Generic line type (for example, dialup,
switch)
hard_copy hc hc Hardcopy terminal
hard_cursor chts HC Cursor is hard to see
has_meta_key km km Has a meta key (shift, sets parity bit)
has_print_wheel daisy YC Printer needs operator to change character set
has_status_line hs hs Has extra ``status line''
hue_lightness_saturation hls hl
color notation (Tektronix)
insert_null_glitch in in Insert mode distinguishes nulls
lpi_changes_res lpix YG Changing line pitch changes resolution
memory_above da da Display may be retained above the screen
memory_below db db Display may be retained below the screen
move_insert_mode mir mi Safe to move while in insert mode
move_standout_mode msgr ms Safe to move in standout modes
needs_xon_xoff nxon nx Padding won't work, xon/xoff required
no_esc_ctlc xsb xb Beehive (f1=escape, f2=ctrl C)
no_pad_char npc NP Pad character doesn't exist
non_dest_scroll_region ndscr ND Scrolling region is non-destructive
non_rev_rmcup nrrmc NR smcup does not reverse rmcup
over_strike os os Terminal overstrikes on hard-copy terminal
prtr_silent mc5i    
row_addr_glitch xvpa YD Only positive motion for vpa/mvpa caps
semi_auto_right_margin sam YE Printing in last column causes cr
status_line_esc_ok eslok es Escape can be used on the status line
dest_tabs_magic_smso xt xt Destructive tabs, magic smso char (t1061)
tilde_glitch hz hz Hazeltine; cannot print tilde (~)
transparent_underline ul ul Underline character overstrikes
xon_xoff xon xo Terminal uses xon/xoff handshaking

 Variable                   Cap-    Termcap   Description
                            name    code
 auto_left_margin           bw      bw        cub1 wraps from column 0 to last column
 auto_right_margin          am      am        Terminal has automatic margins
 back_color_erase           bce     be        Screen erased with background color
 can_change                 ccc     cc        Terminal can re-define existing color
 ceol_standout_glitch       xhp     xs        Standout not erased by overwriting (hp)
 col_addr_glitch            xhpa    YA        Only positive motion for hpa/mhpa caps
 cpi_changes_res            cpix    YF        Changing character pitch changes
                                              resolution
 cr_cancels_micro_mode      crxm    YB        Using cr turns off micro mode
 eat_newline_glitch         xenl    xn        Newline ignored after 80 columns
                                              (Concept)
 erase_overstrike           eo      eo        Can erase overstrikes with a blank
 generic_type               gn      gn        Generic line type (for example, dialup,
                                              switch)
 hard_copy                  hc      hc        Hardcopy terminal
 hard_cursor                chts    HC        Cursor is hard to see
 has_meta_key               km      km        Has a meta key (shift, sets parity bit)
 has_print_wheel            daisy   YC        Printer needs operator to change character set
 has_status_line            hs      hs        Has extra ``status line''
 hue_lightness_saturation   hls     hl        color notation (Tektronix)
 insert_null_glitch         in      in        Insert mode distinguishes nulls
 lpi_changes_res            lpix    YG        Changing line pitch changes resolution
 memory_above               da      da        Display may be retained above the screen
 memory_below               db      db        Display may be retained below the screen
 move_insert_mode           mir     mi        Safe to move while in insert mode
 move_standout_mode         msgr    ms        Safe to move in standout modes
 needs_xon_xoff             nxon    nx        Padding won't work, xon/xoff required
 no_esc_ctlc                xsb     xb        Beehive (f1=escape, f2=ctrl C)
 no_pad_char                npc     NP        Pad character doesn't exist
 non_dest_scroll_region     ndscr   ND        Scrolling region is non-destructive
 non_rev_rmcup              nrrmc   NR        smcup does not reverse rmcup
 over_strike                os      os        Terminal overstrikes on hard-copy terminal
 prtr_silent                mc5i
 row_addr_glitch            xvpa    YD        Only positive motion for vpa/mvpa caps
 semi_auto_right_margin     sam     YE        Printing in last column causes cr
 status_line_esc_ok         eslok   es        Escape can be used on the status line
 dest_tabs_magic_smso       xt      xt        Destructive tabs, magic smso char (t1061)
 tilde_glitch               hz      hz        Hazeltine; cannot print tilde (~)
 transparent_underline      ul      ul        Underline character overstrikes
 xon_xoff                   xon     xo        Terminal uses xon/xoff handshaking
Numbers ordered by variable name

Variable Cap- Termcap Description
name code  
buffer_capacity bufsz Ya Number of bytes buffered before printing
columns cols co Number of columns in a line
dot_vert_spacing spinv Yb Spacing of pins vertically in pins per inch
dot_horz_spacing spinh Yc Spacing of dots horizontally in dots per inch
init_tabs it it Tabs initially every # spaces
label_height lh lh Number of rows in each label
label_width lw lw Number of columns in each label
lines lines li Number of lines on a screen or a page
lines_of_memory lm lm Lines of memory if > lines; 0 means varies
magic_cookie_glitch xmc sg Number of blank characters left by smso or rmso
max_attributes ma ma Maximum combined video attributes
terminal can display
max_colors colors Co Maximum number of colors on the screen
max_micro_address maddr Yd Maximum value in micro_..._address
max_micro_jump mjump Ye Maximum value in parm_..._micro
max_pairs pairs pa Maximum number of color-pairs on the screen
maximum_windows wnum MW Maximum number of definable windows
micro_col_size mcs Yf Character step size when in micro mode
micro_line_size mls Yg Line step size when in micro mode
no_color_video ncv NC Video attributes that can't be used with colors
number_of_pins npins Yh Number of pins in print-head
num_labels nlab Nl Number of labels on screen (start at 1)
output_res_char orc Yi Horizontal resolution in units per character
output_res_line orl Yj Vertical resolution in units per line
output_res_horz_inch orhi Yk Horizontal resolution in units per inch
output_res_vert_inch orvi Yl Vertical resolution in units per inch
padding_baud_rate pb pb Lowest baud rate where padding needed
print_rate cps Ym Print rate in characters per second
virtual_terminal vt vt Virtual terminal number (UNIX system)
wide_char_size widcs Yn Character step size when in double wide mode
width_status_line wsl ws Number of columns in status line

 Variable               Cap-     Termcap   Description
                        name     code
 buffer_capacity        bufsz    Ya        Number of bytes buffered before printing
 columns                cols     co        Number of columns in a line
 dot_vert_spacing       spinv    Yb        Spacing of pins vertically in pins per inch
 dot_horz_spacing       spinh    Yc        Spacing of dots horizontally in dots per inch
 init_tabs              it       it        Tabs initially every # spaces
 label_height           lh       lh        Number of rows in each label
 label_width            lw       lw        Number of columns in each label
 lines                  lines    li        Number of lines on a screen or a page
 lines_of_memory        lm       lm        Lines of memory if > lines; 0 means varies
 magic_cookie_glitch    xmc      sg        Number of blank characters left by smso or rmso
 max_attributes         ma       ma        Maximum combined video attributes
                                           terminal can display
 max_colors             colors   Co        Maximum number of colors on the screen
 max_micro_address      maddr    Yd        Maximum value in micro_..._address
 max_micro_jump         mjump    Ye        Maximum value in parm_..._micro
 max_pairs              pairs    pa        Maximum number of color-pairs on the screen
 maximum_windows        wnum     MW        Maximum number of definable windows
 micro_col_size         mcs      Yf        Character step size when in micro mode
 micro_line_size        mls      Yg        Line step size when in micro mode
 no_color_video         ncv      NC        Video attributes that can't be used with colors
 number_of_pins         npins    Yh        Number of pins in print-head
 num_labels             nlab     Nl        Number of labels on screen (start at 1)
 output_res_char        orc      Yi        Horizontal resolution in units per character
 output_res_line        orl      Yj        Vertical resolution in units per line
 output_res_horz_inch   orhi     Yk        Horizontal resolution in units per inch
 output_res_vert_inch   orvi     Yl        Vertical resolution in units per inch
 padding_baud_rate      pb       pb        Lowest baud rate where padding needed
 print_rate             cps      Ym        Print rate in characters per second
 virtual_terminal       vt       vt        Virtual terminal number (UNIX system)
 wide_char_size         widcs    Yn        Character step size when in double wide mode
 width_status_line      wsl      ws        Number of columns in status line
Strings ordered by variable name

Variable Cap- Termcap Description
name code  
acs_chars acsc ac Graphic charset pairs aAbBcC - def=vt100
back_tab cbt bt Back tab
bell bel bl Audible signal (bell)
carriage_return cr cr Carriage return (*)
change_char_pitch cpi ZA Change number of characters per inch(**)
change_line_pitch lpi ZB Change number of lines per inch(**)
change_res_horz chr ZC Change horizontal resolution(**)
change_res_vert cvr ZD Change vertical resolution(**)
change_scroll_region csr cs Change to lines #1 through #2 (vt100) (G)
char_padding rmp rP Like ip but when in replace mode
char_set_names csnm Zy List of character set names
clear_all_tabs tbc ct Clear all tab stops
clear_margins mgc MC Clear all margins (top, bottom, and sides)
clear_screen clear cl Clear screen and home cursor (*)
clr_bol el1 cb Clear to beginning of line, inclusive
clr_eol el ce Clear to end of line
clr_eos ed cd Clear to end of display (*)
column_address hpa ch Horizontal position absolute (G)
command_character cmdch CC Terminal settable cmd character in prototype
create_window cwin CW Define win #1 to go from #2,#3 to #4,#5
cursor_address cup cm Move to row #1 col #2 (G)
cursor_down cud1 do Down one line
cursor_home home ho Home cursor (if no cup)
cursor_invisible civis vi Make cursor invisible
cursor_left cub1 le Move left one space
cursor_mem_address mrcup CM Memory relative cursor addressing (G)
cursor_normal cnorm ve Make cursor appear normal (undo vs/vi)
cursor_right cuf1 nd Non-destructive space
(cursor or carriage right)
cursor_to_ll ll ll Last line, first column (if no cup)
cursor_up cuu1 up Upline (cursor up)
cursor_visible cvvis vs Make cursor very visible
define_char defc ZE Define a character in a character set (**)
delete_character dch1 dc Delete character (*)
delete_line dl1 dl Delete line (*)
delete_phone dial DI Dial phone number #1
dis_status_line dsl ds Disable status line
display_clock dclk DK Display time-of-day clock
display_pc_char dispc S1 Displays PC character
down_half_line hd hd Half-line down (forward 1/2 linefeed)
ena_acs enacs eA Enable alternate character set
enter_alt_charset_mode smacs as Start alternate character set
enter_am_mode smam SA Turn on automatic margins
enter_blink_mode blink mb Turn on blinking
enter_bold_mode bold md Turn on bold (extra bright) mode
enter_ca_mode smcup ti String to begin programs that use cup
enter_delete_mode smdc dm Delete mode (enter)
enter_dim_mode dim mh Turn on half-bright mode
enter_doublewide_mode swidm ZF Enable double wide printing
enter_draft_quality sdrfq ZG Set draft quality print
enter_insert_mode smir im Insert mode (enter)
enter_italics_mode sitm ZH Enable italics
enter_leftward_mode slm ZI Enable leftward carriage motion
enter_micro_mode smicm ZJ Enable micro motion capabilities
enter_near_letter_quality snlq ZK Set near-letter quality print
enter_normal_quality snrmq ZL Set normal quality print
enter_pc_charset_mode smsc S4 Enables PC-scancode mode
enter_protected_mode prot mp Turn on protected mode
enter_reverse_mode rev mr Turn on reverse video mode
enter_secure_mode invis mk Turn on blank mode (characters invisible)
enter_shadow_mode sshm ZM Enable shadow printing
enter_standout_mode smso so Begin standout mode
enter_subscript_mode ssubm ZN Enable subscript printing
enter_superscript_mode ssupm ZO Enable superscript printing
enter_underline_mode smul us Start underscore mode
enter_upward_mode sum ZP Enable upward carriage motion
enter_xon_mode smxon SX Turn on xon/xoff handshaking
erase_chars ech ec Erase #1 characters (G)
exit_alt_charset_mode rmacs ae End alternate character set
exit_am_mode rmam RA Turn off automatic margins
exit_attribute_mode sgr0 me Turn off all attributes
exit_ca_mode rmcup te String to end programs that use cup
exit_delete_mode rmdc ed End delete mode
exit_doublewide_mode rwidm ZQ Disable double wide printing
exit_insert_mode rmir ei End insert mode
exit_italics_mode ritm ZR Disable italics
exit_leftward_mode rlm ZS Enable rightward (normal) carriage motion
exit_micro_mode rmicm ZT Disable micro motion capabilities
exit_pc_charset_mode rmsc S5 Disables PC-scancode mode
exit_shadow_mode rshm ZU Disable shadow printing
exit_standout_mode rmso se End standout mode
exit_subscript_mode rsubm ZV Disable subscript printing
exit_superscript_mode rsupm ZW Disable superscript printing
exit_underline_mode rmul ue End underscore mode
exit_upward_mode rum ZX Enable downward (normal) carriage motion
exit_xon_mode rmxon RX Turn off xon/xoff handshaking
fixed_pause pause PA Pause for 2-3 seconds
flash_hook hook fh Flash the switch hook
flash_screen flash vb Visible bell (may not move cursor)
form_feed ff ff Hardcopy terminal page eject (*)
from_status_line fsl fs Return from status line
goto_window wingo WG Got to window #1
hangup hup HU Hang-up phone
init_1string is1 i1 Terminal or printer initialization string
init_2string is2 is Terminal or printer initialization string
init_3string is3 i3 Terminal or printer initialization string
init_file if if Name of initialization file
init_prog iprog iP Path name of program for initialization
initialize_color initc Ic Initialize the definition of color
initialize_pair initp Ip Initialize color-pair
insert_character ich1 ic Insert character
insert_line il1 al Add new blank line (*)
insert_padding ip ip Insert pad after character inserted (*)
key_a1 ka1 K1 KEY_A1, 0534, upper left of keypad
key_a3 ka3 K3 KEY_A3, 0535, upper right of keypad
key_b2 kb2 K2 KEY_B2, 0536, center of keypad
key_backspace kbs kb KEY_BACKSPACE, 0407,
sent by backspace key
key_beg kbeg @1 KEY_BEG, 0542, sent by beg(inning) key
key_btab kcbt kB KEY_BTAB, 0541, sent by back-tab key
key_c1 kc1 K4 KEY_C1, 0537, lower left of keypad
key_c3 kc3 K5 KEY_C3, 0540, lower right of keypad
key_cancel kcan @2 KEY_CANCEL, 0543, sent by cancel key
key_catab ktbc ka KEY_CATAB, 0526, sent by clear-all-tabs key
key_clear kclr kC KEY_CLEAR, 0515, sent by clear-screen
or erase key
key_close kclo @3 KEY_CLOSE, 0544, sent by close key
key_command kcmd @4 KEY_COMMAND, 0545,
sent by cmd (command) key
key_copy kcpy @5 KEY_COPY, 0546, sent by copy key
key_create kcrt @6 KEY_CREATE, 0547, sent by create key
key_ctab kctab kt KEY_CTAB, 0525, sent by clear-tab key
key_dc kdch1 kD KEY_DC, 0512, sent by delete-character key
key_dl kdl1 kL KEY_DL, 0510, sent by delete-line key
key_down kcud1 kd KEY_DOWN, 0402, sent by terminal
down-arrow key
key_eic krmir kM KEY_EIC, 0514, sent by rmir
or smir in insert mode
key_end kend @7 KEY_END, 0550, sent by end key
key_enter kent @8 KEY_ENTER, 0527, sent by enter/send key
key_eol kel kE KEY_EOL, 0517, sent by clear-to-end-of-line key
key_eos ked kS KEY_EOS, 0516, sent by
clear-to-end-of-screen key
key_exit kext @9 KEY_EXIT, 0551, sent by exit key
key_f0 kf0 k0 KEY_F(0), 0410, sent by function key f0
key_f1 kf1 k1 KEY_F(1), 0411, sent by function key f1
key_f2 kf2 k2 KEY_F(2), 0412, sent by function key f2
key_f3 kf3 k3 KEY_F(3), 0413, sent by function key f3
key_f4 kf4 k4 KEY_F(4), 0414, sent by function key f4
key_f5 kf5 k5 KEY_F(5), 0415, sent by function key f5
key_f6 kf6 k6 KEY_F(6), 0416, sent by function key f6
key_f7 kf7 k7 KEY_F(7), 0417, sent by function key f7
key_f8 kf8 k8 KEY_F(8), 0420, sent by function key f8
key_f9 kf9 k9 KEY_F(9), 0421, sent by function key f9
key_f10 kf10 k; KEY_F(10), 0422, sent by function key f10
key_f11 kf11 F1 KEY_F(11), 0423, sent by function key f11
key_f12 kf12 F2 KEY_F(12), 0424, sent by function key f12
key_f13 kf13 F3 KEY_F(13), 0425, sent by function key f13
key_f14 kf14 F4 KEY_F(14), 0426, sent by function key f14
key_f15 kf15 F5 KEY_F(15), 0427, sent by function key f15
key_f16 kf16 F6 KEY_F(16), 0430, sent by function key f16
key_f17 kf17 F7 KEY_F(17), 0431, sent by function key f17
key_f18 kf18 F8 KEY_F(18), 0432, sent by function key f18
key_f19 kf19 F9 KEY_F(19), 0433, sent by function key f19
key_f20 kf20 FA KEY_F(20), 0434, sent by function key f20
key_f21 kf21 FB KEY_F(21), 0435, sent by function key f21
key_f22 kf22 FC KEY_F(22), 0436, sent by function key f22
key_f23 kf23 FD KEY_F(23), 0437, sent by function key f23
key_f24 kf24 FE KEY_F(24), 0440, sent by function key f24
key_f25 kf25 FF KEY_F(25), 0441, sent by function key f25
key_f26 kf26 FG KEY_F(26), 0442, sent by function key f26
key_f27 kf27 FH KEY_F(27), 0443, sent by function key f27
key_f28 kf28 FI KEY_F(28), 0444, sent by function key f28
key_f29 kf29 FJ KEY_F(29), 0445, sent by function key f29
key_f30 kf30 FK KEY_F(30), 0446, sent by function key f30
key_f31 kf31 FL KEY_F(31), 0447, sent by function key f31
key_f32 kf32 FM KEY_F(32), 0450, sent by function key f32
key_f33 kf33 FN KEY_F(33), 0451, sent by function key f13
key_f34 kf34 FO KEY_F(34), 0452, sent by function key f34
key_f35 kf35 FP KEY_F(35), 0453, sent by function key f35
key_f36 kf36 FQ KEY_F(36), 0454, sent by function key f36
key_f37 kf37 FR KEY_F(37), 0455, sent by function key f37
key_f38 kf38 FS KEY_F(38), 0456, sent by function key f38
key_f39 kf39 FT KEY_F(39), 0457, sent by function key f39
key_f40 kf40 FU KEY_F(40), 0460, sent by function key f40
key_f41 kf41 FV KEY_F(41), 0461, sent by function key f41
key_f42 kf42 FW KEY_F(42), 0462, sent by function key f42
key_f43 kf43 FX KEY_F(43), 0463, sent by function key f43

 Variable                    Cap-    Termcap   Description
                             name    code
 acs_chars                   acsc    ac        Graphic charset pairs aAbBcC - def=vt100
 back_tab                    cbt     bt        Back tab
 bell                        bel     bl        Audible signal (bell)
 carriage_return             cr      cr        Carriage return (*)
 change_char_pitch           cpi     ZA        Change number of characters per inch(**)
 change_line_pitch           lpi     ZB        Change number of lines per inch(**)
 change_res_horz             chr     ZC        Change horizontal resolution(**)
 change_res_vert             cvr     ZD        Change vertical resolution(**)
 change_scroll_region        csr     cs        Change to lines #1 through #2 (vt100) (G)
 char_padding                rmp     rP        Like ip but when in replace mode
 char_set_names              csnm    Zy        List of character set names
 clear_all_tabs              tbc     ct        Clear all tab stops
 clear_margins               mgc     MC        Clear all margins (top, bottom, and sides)
 clear_screen                clear   cl        Clear screen and home cursor (*)
 clr_bol                     el1     cb        Clear to beginning of line, inclusive
 clr_eol                     el      ce        Clear to end of line
 clr_eos                     ed      cd        Clear to end of display (*)
 column_address              hpa     ch        Horizontal position absolute (G)
 command_character           cmdch   CC        Terminal settable cmd character in prototype
 create_window               cwin    CW        Define win #1 to go from #2,#3 to #4,#5
 cursor_address              cup     cm        Move to row #1 col #2 (G)
 cursor_down                 cud1    do        Down one line
 cursor_home                 home    ho        Home cursor (if no cup)
 cursor_invisible            civis   vi        Make cursor invisible
 cursor_left                 cub1    le        Move left one space
 cursor_mem_address          mrcup   CM        Memory relative cursor addressing (G)
 cursor_normal               cnorm   ve        Make cursor appear normal (undo vs/vi)
 cursor_right                cuf1    nd        Non-destructive space
                                               (cursor or carriage right)
 cursor_to_ll                ll      ll        Last line, first column (if no cup)
 cursor_up                   cuu1    up        Upline (cursor up)
 cursor_visible              cvvis   vs        Make cursor very visible
 define_char                 defc    ZE        Define a character in a character set (**)
 delete_character            dch1    dc        Delete character (*)
 delete_line                 dl1     dl        Delete line (*)
 delete_phone                dial    DI        Dial phone number #1
 dis_status_line             dsl     ds        Disable status line
 display_clock               dclk    DK        Display time-of-day clock
 display_pc_char             dispc   S1        Displays PC character
 down_half_line              hd      hd        Half-line down (forward 1/2 linefeed)
 ena_acs                     enacs   eA        Enable alternate character set
 enter_alt_charset_mode      smacs   as        Start alternate character set
 enter_am_mode               smam    SA        Turn on automatic margins
 enter_blink_mode            blink   mb        Turn on blinking
 enter_bold_mode             bold    md        Turn on bold (extra bright) mode
 enter_ca_mode               smcup   ti        String to begin programs that use cup
 enter_delete_mode           smdc    dm        Delete mode (enter)
 enter_dim_mode              dim     mh        Turn on half-bright mode
 enter_doublewide_mode       swidm   ZF        Enable double wide printing
 enter_draft_quality         sdrfq   ZG        Set draft quality print
 enter_insert_mode           smir    im        Insert mode (enter)
 enter_italics_mode          sitm    ZH        Enable italics
 enter_leftward_mode         slm     ZI        Enable leftward carriage motion
 enter_micro_mode            smicm   ZJ        Enable micro motion capabilities
 enter_near_letter_quality   snlq    ZK        Set near-letter quality print
 enter_normal_quality        snrmq   ZL        Set normal quality print
 enter_pc_charset_mode       smsc    S4        Enables PC-scancode mode
 enter_protected_mode        prot    mp        Turn on protected mode
 enter_reverse_mode          rev     mr        Turn on reverse video mode
 enter_secure_mode           invis   mk        Turn on blank mode (characters invisible)
 enter_shadow_mode           sshm    ZM        Enable shadow printing
 enter_standout_mode         smso    so        Begin standout mode
 enter_subscript_mode        ssubm   ZN        Enable subscript printing
 enter_superscript_mode      ssupm   ZO        Enable superscript printing
 enter_underline_mode        smul    us        Start underscore mode
 enter_upward_mode           sum     ZP        Enable upward carriage motion
 enter_xon_mode              smxon   SX        Turn on xon/xoff handshaking
 erase_chars                 ech     ec        Erase #1 characters (G)
 exit_alt_charset_mode       rmacs   ae        End alternate character set
 exit_am_mode                rmam    RA        Turn off automatic margins
 exit_attribute_mode         sgr0    me        Turn off all attributes
 exit_ca_mode                rmcup   te        String to end programs that use cup
 exit_delete_mode            rmdc    ed        End delete mode
 exit_doublewide_mode        rwidm   ZQ        Disable double wide printing
 exit_insert_mode            rmir    ei        End insert mode
 exit_italics_mode           ritm    ZR        Disable italics
 exit_leftward_mode          rlm     ZS        Enable rightward (normal) carriage motion
 exit_micro_mode             rmicm   ZT        Disable micro motion capabilities
 exit_pc_charset_mode        rmsc    S5        Disables PC-scancode mode
 exit_shadow_mode            rshm    ZU        Disable shadow printing
 exit_standout_mode          rmso    se        End standout mode
 exit_subscript_mode         rsubm   ZV        Disable subscript printing
 exit_superscript_mode       rsupm   ZW        Disable superscript printing
 exit_underline_mode         rmul    ue        End underscore mode
 exit_upward_mode            rum     ZX        Enable downward (normal) carriage motion
 exit_xon_mode               rmxon   RX        Turn off xon/xoff handshaking
 fixed_pause                 pause   PA        Pause for 2-3 seconds
 flash_hook                  hook    fh        Flash the switch hook
 flash_screen                flash   vb        Visible bell (may not move cursor)
 form_feed                   ff      ff        Hardcopy terminal page eject (*)
 from_status_line            fsl     fs        Return from status line
 goto_window                 wingo   WG        Got to window #1
 hangup                      hup     HU        Hang-up phone
 init_1string                is1     i1        Terminal or printer initialization string
 init_2string                is2     is        Terminal or printer initialization string
 init_3string                is3     i3        Terminal or printer initialization string
 init_file                   if      if        Name of initialization file
 init_prog                   iprog   iP        Path name of program for initialization
 initialize_color            initc   Ic        Initialize the definition of color
 initialize_pair             initp   Ip        Initialize color-pair
 insert_character            ich1    ic        Insert character
 insert_line                 il1     al        Add new blank line (*)
 insert_padding              ip      ip        Insert pad after character inserted (*)
 key_a1                      ka1     K1        KEY_A1, 0534, upper left of keypad
 key_a3                      ka3     K3        KEY_A3, 0535, upper right of keypad
 key_b2                      kb2     K2        KEY_B2, 0536, center of keypad
 key_backspace               kbs     kb        KEY_BACKSPACE, 0407,
                                               sent by backspace key
 key_beg                     kbeg    @1        KEY_BEG, 0542, sent by beg(inning) key
 key_btab                    kcbt    kB        KEY_BTAB, 0541, sent by back-tab key
 key_c1                      kc1     K4        KEY_C1, 0537, lower left of keypad
 key_c3                      kc3     K5        KEY_C3, 0540, lower right of keypad
 key_cancel                  kcan    @2        KEY_CANCEL, 0543, sent by cancel key
 key_catab                   ktbc    ka        KEY_CATAB, 0526, sent by clear-all-tabs key
 key_clear                   kclr    kC        KEY_CLEAR, 0515, sent by clear-screen
                                               or erase key
 key_close                   kclo    @3        KEY_CLOSE, 0544, sent by close key
 key_command                 kcmd    @4        KEY_COMMAND, 0545,
                                               sent by cmd (command) key
 key_copy                    kcpy    @5        KEY_COPY, 0546, sent by copy key
 key_create                  kcrt    @6        KEY_CREATE, 0547, sent by create key
 key_ctab                    kctab   kt        KEY_CTAB, 0525, sent by clear-tab key
 key_dc                      kdch1   kD        KEY_DC, 0512, sent by delete-character key
 key_dl                      kdl1    kL        KEY_DL, 0510, sent by delete-line key
 key_down                    kcud1   kd        KEY_DOWN, 0402, sent by terminal
                                               down-arrow key
 key_eic                     krmir   kM        KEY_EIC, 0514, sent by rmir
                                               or smir in insert mode
 key_end                     kend    @7        KEY_END, 0550, sent by end key
 key_enter                   kent    @8        KEY_ENTER, 0527, sent by enter/send key
 key_eol                     kel     kE        KEY_EOL, 0517, sent by clear-to-end-of-line key
 key_eos                     ked     kS        KEY_EOS, 0516, sent by
                                               clear-to-end-of-screen key
 key_exit                    kext    @9        KEY_EXIT, 0551, sent by exit key
 key_f0                      kf0     k0        KEY_F(0), 0410, sent by function key f0
 key_f1                      kf1     k1        KEY_F(1), 0411, sent by function key f1
 key_f2                      kf2     k2        KEY_F(2), 0412, sent by function key f2
 key_f3                      kf3     k3        KEY_F(3), 0413, sent by function key f3
 key_f4                      kf4     k4        KEY_F(4), 0414, sent by function key f4
 key_f5                      kf5     k5        KEY_F(5), 0415, sent by function key f5
 key_f6                      kf6     k6        KEY_F(6), 0416, sent by function key f6
 key_f7                      kf7     k7        KEY_F(7), 0417, sent by function key f7
 key_f8                      kf8     k8        KEY_F(8), 0420, sent by function key f8
 key_f9                      kf9     k9        KEY_F(9), 0421, sent by function key f9
 key_f10                     kf10    k;        KEY_F(10), 0422, sent by function key f10
 key_f11                     kf11    F1        KEY_F(11), 0423, sent by function key f11
 key_f12                     kf12    F2        KEY_F(12), 0424, sent by function key f12
 key_f13                     kf13    F3        KEY_F(13), 0425, sent by function key f13
 key_f14                     kf14    F4        KEY_F(14), 0426, sent by function key f14
 key_f15                     kf15    F5        KEY_F(15), 0427, sent by function key f15
 key_f16                     kf16    F6        KEY_F(16), 0430, sent by function key f16
 key_f17                     kf17    F7        KEY_F(17), 0431, sent by function key f17
 key_f18                     kf18    F8        KEY_F(18), 0432, sent by function key f18
 key_f19                     kf19    F9        KEY_F(19), 0433, sent by function key f19
 key_f20                     kf20    FA        KEY_F(20), 0434, sent by function key f20
 key_f21                     kf21    FB        KEY_F(21), 0435, sent by function key f21
 key_f22                     kf22    FC        KEY_F(22), 0436, sent by function key f22
 key_f23                     kf23    FD        KEY_F(23), 0437, sent by function key f23
 key_f24                     kf24    FE        KEY_F(24), 0440, sent by function key f24
 key_f25                     kf25    FF        KEY_F(25), 0441, sent by function key f25
 key_f26                     kf26    FG        KEY_F(26), 0442, sent by function key f26
 key_f27                     kf27    FH        KEY_F(27), 0443, sent by function key f27
 key_f28                     kf28    FI        KEY_F(28), 0444, sent by function key f28
 key_f29                     kf29    FJ        KEY_F(29), 0445, sent by function key f29
 key_f30                     kf30    FK        KEY_F(30), 0446, sent by function key f30
 key_f31                     kf31    FL        KEY_F(31), 0447, sent by function key f31
 key_f32                     kf32    FM        KEY_F(32), 0450, sent by function key f32
 key_f33                     kf33    FN        KEY_F(33), 0451, sent by function key f13
 key_f34                     kf34    FO        KEY_F(34), 0452, sent by function key f34
 key_f35                     kf35    FP        KEY_F(35), 0453, sent by function key f35
 key_f36                     kf36    FQ        KEY_F(36), 0454, sent by function key f36
 key_f37                     kf37    FR        KEY_F(37), 0455, sent by function key f37
 key_f38                     kf38    FS        KEY_F(38), 0456, sent by function key f38
 key_f39                     kf39    FT        KEY_F(39), 0457, sent by function key f39
 key_f40                     kf40    FU        KEY_F(40), 0460, sent by function key f40
 key_f41                     kf41    FV        KEY_F(41), 0461, sent by function key f41
 key_f42                     kf42    FW        KEY_F(42), 0462, sent by function key f42
 key_f43                     kf43    FX        KEY_F(43), 0463, sent by function key f43

key_f44 kf44 FY KEY_F(44), 0464, sent by function key f44
key_f45 kf45 FZ KEY_F(45), 0465, sent by function key f45
key_f46 kf46 Fa KEY_F(46), 0466, sent by function key f46
key_f47 kf47 Fb KEY_F(47), 0467, sent by function key f47
key_f48 kf48 Fc KEY_F(48), 0470, sent by function key f48
key_f49 kf49 Fd KEY_F(49), 0471, sent by function key f49
key_f50 kf50 Fe KEY_F(50), 0472, sent by function key f50
key_f51 kf51 Ff KEY_F(51), 0473, sent by function key f51
key_f52 kf52 Fg KEY_F(52), 0474, sent by function key f52
key_f53 kf53 Fh KEY_F(53), 0475, sent by function key f53
key_f54 kf54 Fi KEY_F(54), 0476, sent by function key f54
key_f55 kf55 Fj KEY_F(55), 0477, sent by function key f55
key_f56 kf56 Fk KEY_F(56), 0500, sent by function key f56
key_f57 kf57 Fl KEY_F(57), 0501, sent by function key f57
key_f58 kf58 Fm KEY_F(58), 0502, sent by function key f58
key_f59 kf59 Fn KEY_F(59), 0503, sent by function key f59
key_f60 kf60 Fo KEY_F(60), 0504, sent by function key f60
key_f61 kf61 Fp KEY_F(61), 0505, sent by function key f61
key_f62 kf62 Fq KEY_F(62), 0506, sent by function key f62
key_f63 kf63 Fr KEY_F(63), 0507, sent by function key f63
key_find kfnd @0 KEY_FIND, 0552, sent by find key
key_help khlp %1 KEY_HELP, 0553, sent by help key
key_home khome kh KEY_HOME, 0406, sent by home key
key_ic kich1 kI KEY_IC, 0513, sent by ins-char/enter
ins-mode key
key_il kil1 kA KEY_IL, 0511, sent by insert-line key
key_left kcub1 kl KEY_LEFT, 0404, sent by terminal
left-arrow key
key_ll kll kH KEY_LL, 0533, sent by home-down key
key_mark kmrk %2 KEY_MARK, 0554, sent by mark key
key_message kmsg %3 KEY_MESSAGE, 0555, sent by message key
key_move kmov %4 KEY_MOVE, 0556, sent by move key
key_next knxt %5 KEY_NEXT, 0557, sent by next key
key_npage knp kN KEY_NPAGE, 0522, sent by next-page key
key_open kopn %6 KEY_OPEN, 0560, sent by open key
key_options kopt %7 KEY_OPTIONS, 0561, sent by options key
key_ppage kpp kP KEY_PPAGE, 0523, sent by previous-page key
key_previous kprv %8 KEY_PREVIOUS, 0562, sent by
previous-object key
key_print kprt %9 KEY_PRINT, 0532, sent by print or copy key
key_redo krdo 0 KEY_REDO, 0563, sent by redo key
key_reference kref &1 KEY_REFERENCE, 0564, sent by ref(erence) key
key_refresh krfr &2 KEY_REFRESH, 0565, sent by refresh key
key_replace krpl &3 KEY_REPLACE, 0566, sent by replace key
key_restart krst &4 KEY_RESTART, 0567, sent by restart key
key_resume kres &5 KEY_RESUME, 0570, sent by resume key
key_right kcuf1 kr KEY_RIGHT, 0405, sent by terminal right-arrow key
key_save ksav &6 KEY_SAVE, 0571, sent by save key
key_sbeg kBEG &9 KEY_SBEG, 0572, sent by shifted beginning key
key_scancel kCAN &0 KEY_SCANCEL, 0573, sent by shifted cancel key
key_scommand kCMD *1 KEY_SCOMMAND, 0574, sent by shifted
command key
key_scopy kCPY *2 KEY_SCOPY, 0575, sent by shifted copy key
key_screate kCRT *3 KEY_SCREATE, 0576, sent by shifted create key
key_sdc kDC *4 KEY_SDC, 0577, sent by shifted delete-char key
key_sdl kDL *5 KEY_SDL, 0600, sent by shifted delete-line key
key_select kslt *6 KEY_SELECT, 0601, sent by select key
key_send kEND *7 KEY_SEND, 0602, sent by shifted end key
key_seol kEOL *8 KEY_SEOL, 0603, sent by shifted clear-line key
key_sexit kEXT *9 KEY_SEXIT, 0604, sent by shifted exit key
key_sf kind kF KEY_SF, 0520, sent by scroll-forward/down key
key_sfind kFND *0 KEY_SFIND, 0605, sent by shifted find key
key_shelp kHLP #1 KEY_SHELP, 0606, sent by shifted help key
key_shome kHOM #2 KEY_SHOME, 0607, sent by shifted home key
key_sic kIC #3 KEY_SIC, 0610, sent by shifted input key
key_sleft kLFT #4 KEY_SLEFT, 0611, sent by shifted left-arrow key
key_smessage kMSG %a KEY_SMESSAGE, 0612, sent by shifted message key
key_smove kMOV %b KEY_SMOVE, 0613, sent by shifted move key
key_snext kNXT %c KEY_SNEXT, 0614, sent by shifted next key
key_soptions kOPT %d KEY_SOPTIONS, 0615, sent by shifted options key
key_sprevious kPRV %e KEY_SPREVIOUS, 0616, sent by shifted prev key
key_sprint kPRT %f KEY_SPRINT, 0617, sent by shifted print key
key_sr kri kR KEY_SR, 0521, sent by scroll-backward/up key
key_sredo kRDO %g KEY_SREDO, 0620, sent by shifted redo key
key_sreplace kRPL %h KEY_SREPLACE, 0621, sent by shifted replace key
key_sright kRIT %i KEY_SRIGHT, 0622, sent by shifted right-arrow key
key_srsume kRES %j KEY_SRSUME, 0623, sent by shifted resume key
key_ssave kSAV !1 KEY_SSAVE, 0624, sent by shifted save key
key_ssuspend kSPD !2 KEY_SSUSPEND, 0625,
sent by shifted suspend key
key_stab khts kT KEY_STAB, 0524, sent by set-tab key
key_sundo kUND !3 KEY_SUNDO, 0626, sent by shifted undo key
key_suspend kspd &7 KEY_SUSPEND, 0627, sent by suspend key
key_undo kund &8 KEY_UNDO, 0630, sent by undo key
key_up kcuu1 ku KEY_UP, 0403, sent by terminal up-arrow key
keypad_local rmkx ke Out of ``keypad-transmit'' mode
keypad_xmit smkx ks Put terminal in ``keypad-transmit'' mode
lab_f0 lf0 l0 Labels on function key f0 if not f0
lab_f1 lf1 l1 Labels on function key f1 if not f1
lab_f2 lf2 l2 Labels on function key f2 if not f2
lab_f3 lf3 l3 Labels on function key f3 if not f3
lab_f4 lf4 l4 Labels on function key f4 if not f4
lab_f5 lf5 l5 Labels on function key f5 if not f5
lab_f6 lf6 l6 Labels on function key f6 if not f6
lab_f7 lf7 l7 Labels on function key f7 if not f7
lab_f8 lf8 l8 Labels on function key f8 if not f8
lab_f9 lf9 l9 Labels on function key f9 if not f9
lab_f10 lf10 la Labels on function key f10 if not f10
label_format fln Lf Label format
label_off rmln LF Turn off soft labels
label_on smln LO Turn on soft labels
meta_off rmm mo Turn off ``meta mode''
meta_on smm mm Turn on ``meta mode'' (8th bit)
micro_column_address mhpa ZY Like column_address for
micro adjustment**
micro_down mcud1 ZZ Like cursor_down for micro adjustment
micro_left mcub1 Za Like cursor_left for micro adjustment
micro_right mcuf1 Zb Like cursor_right for micro adjustment
micro_row_address mvpa Zc Like row_address for micro adjustment**
micro_up mcuu1 Zd Like cursor_up for micro adjustment
newline nel nw Newline (behaves like cr followed by lf)
order_of_pins porder Ze Matches software bits to print-head pins
orig_colors oc oc Set all color(-pair)s to the original ones
orig_pair op op Set default color-pair to the original one
pad_char pad pc Pad character (rather than null)
parm_dch dch DC Delete #1 chars (G*)
parm_delete_line dl DL Delete #1 lines (G*)
parm_down_cursor cud DO Move down #1 lines. (G*)

 key_f44                kf44     FY   KEY_F(44), 0464, sent by function key f44
 key_f45                kf45     FZ   KEY_F(45), 0465, sent by function key f45
 key_f46                kf46     Fa   KEY_F(46), 0466, sent by function key f46
 key_f47                kf47     Fb   KEY_F(47), 0467, sent by function key f47
 key_f48                kf48     Fc   KEY_F(48), 0470, sent by function key f48
 key_f49                kf49     Fd   KEY_F(49), 0471, sent by function key f49
 key_f50                kf50     Fe   KEY_F(50), 0472, sent by function key f50
 key_f51                kf51     Ff   KEY_F(51), 0473, sent by function key f51
 key_f52                kf52     Fg   KEY_F(52), 0474, sent by function key f52
 key_f53                kf53     Fh   KEY_F(53), 0475, sent by function key f53
 key_f54                kf54     Fi   KEY_F(54), 0476, sent by function key f54
 key_f55                kf55     Fj   KEY_F(55), 0477, sent by function key f55
 key_f56                kf56     Fk   KEY_F(56), 0500, sent by function key f56
 key_f57                kf57     Fl   KEY_F(57), 0501, sent by function key f57
 key_f58                kf58     Fm   KEY_F(58), 0502, sent by function key f58
 key_f59                kf59     Fn   KEY_F(59), 0503, sent by function key f59
 key_f60                kf60     Fo   KEY_F(60), 0504, sent by function key f60
 key_f61                kf61     Fp   KEY_F(61), 0505, sent by function key f61
 key_f62                kf62     Fq   KEY_F(62), 0506, sent by function key f62
 key_f63                kf63     Fr   KEY_F(63), 0507, sent by function key f63
 key_find               kfnd     @0   KEY_FIND, 0552, sent by find key
 key_help               khlp     %1   KEY_HELP, 0553, sent by help key
 key_home               khome    kh   KEY_HOME, 0406, sent by home key
 key_ic                 kich1    kI   KEY_IC, 0513, sent by ins-char/enter
                                      ins-mode key
 key_il                 kil1     kA   KEY_IL, 0511, sent by insert-line key
 key_left               kcub1    kl   KEY_LEFT, 0404, sent by terminal
                                      left-arrow key
 key_ll                 kll      kH   KEY_LL, 0533, sent by home-down key
 key_mark               kmrk     %2   KEY_MARK, 0554, sent by mark key
 key_message            kmsg     %3   KEY_MESSAGE, 0555, sent by message key
 key_move               kmov     %4   KEY_MOVE, 0556, sent by move key
 key_next               knxt     %5   KEY_NEXT, 0557, sent by next key
 key_npage              knp      kN   KEY_NPAGE, 0522, sent by next-page key
 key_open               kopn     %6   KEY_OPEN, 0560, sent by open key
 key_options            kopt     %7   KEY_OPTIONS, 0561, sent by options key
 key_ppage              kpp      kP   KEY_PPAGE, 0523, sent by previous-page key
 key_previous           kprv     %8   KEY_PREVIOUS, 0562, sent by
                                      previous-object key
 key_print              kprt     %9   KEY_PRINT, 0532, sent by print or copy key
 key_redo               krdo     0    KEY_REDO, 0563, sent by redo key
 key_reference          kref     &1   KEY_REFERENCE, 0564, sent by ref(erence) key
 key_refresh            krfr     &2   KEY_REFRESH, 0565, sent by refresh key
 key_replace            krpl     &3   KEY_REPLACE, 0566, sent by replace key
 key_restart            krst     &4   KEY_RESTART, 0567, sent by restart key
 key_resume             kres     &5   KEY_RESUME, 0570, sent by resume key
 key_right              kcuf1    kr   KEY_RIGHT, 0405, sent by terminal right-arrow key
 key_save               ksav     &6   KEY_SAVE, 0571, sent by save key
 key_sbeg               kBEG     &9   KEY_SBEG, 0572, sent by shifted beginning key
 key_scancel            kCAN     &0   KEY_SCANCEL, 0573, sent by shifted cancel key
 key_scommand           kCMD     *1   KEY_SCOMMAND, 0574, sent by shifted
                                      command key
 key_scopy              kCPY     *2   KEY_SCOPY, 0575, sent by shifted copy key
 key_screate            kCRT     *3   KEY_SCREATE, 0576, sent by shifted create key
 key_sdc                kDC      *4   KEY_SDC, 0577, sent by shifted delete-char key
 key_sdl                kDL      *5   KEY_SDL, 0600, sent by shifted delete-line key
 key_select             kslt     *6   KEY_SELECT, 0601, sent by select key
 key_send               kEND     *7   KEY_SEND, 0602, sent by shifted end key
 key_seol               kEOL     *8   KEY_SEOL, 0603, sent by shifted clear-line key
 key_sexit              kEXT     *9   KEY_SEXIT, 0604, sent by shifted exit key
 key_sf                 kind     kF   KEY_SF, 0520, sent by scroll-forward/down key
 key_sfind              kFND     *0   KEY_SFIND, 0605, sent by shifted find key
 key_shelp              kHLP     #1   KEY_SHELP, 0606, sent by shifted help key
 key_shome              kHOM     #2   KEY_SHOME, 0607, sent by shifted home key
 key_sic                kIC      #3   KEY_SIC, 0610, sent by shifted input key
 key_sleft              kLFT     #4   KEY_SLEFT, 0611, sent by shifted left-arrow key
 key_smessage           kMSG     %a   KEY_SMESSAGE, 0612, sent by shifted message key
 key_smove              kMOV     %b   KEY_SMOVE, 0613, sent by shifted move key
 key_snext              kNXT     %c   KEY_SNEXT, 0614, sent by shifted next key
 key_soptions           kOPT     %d   KEY_SOPTIONS, 0615, sent by shifted options key
 key_sprevious          kPRV     %e   KEY_SPREVIOUS, 0616, sent by shifted prev key
 key_sprint             kPRT     %f   KEY_SPRINT, 0617, sent by shifted print key
 key_sr                 kri      kR   KEY_SR, 0521, sent by scroll-backward/up key
 key_sredo              kRDO     %g   KEY_SREDO, 0620, sent by shifted redo key
 key_sreplace           kRPL     %h   KEY_SREPLACE, 0621, sent by shifted replace key
 key_sright             kRIT     %i   KEY_SRIGHT, 0622, sent by shifted right-arrow key
 key_srsume             kRES     %j   KEY_SRSUME, 0623, sent by shifted resume key
 key_ssave              kSAV     !1   KEY_SSAVE, 0624, sent by shifted save key
 key_ssuspend           kSPD     !2   KEY_SSUSPEND, 0625,
                                      sent by shifted suspend key
 key_stab               khts     kT   KEY_STAB, 0524, sent by set-tab key
 key_sundo              kUND     !3   KEY_SUNDO, 0626, sent by shifted undo key
 key_suspend            kspd     &7   KEY_SUSPEND, 0627, sent by suspend key
 key_undo               kund     &8   KEY_UNDO, 0630, sent by undo key
 key_up                 kcuu1    ku   KEY_UP, 0403, sent by terminal up-arrow key
 keypad_local           rmkx     ke   Out of ``keypad-transmit'' mode
 keypad_xmit            smkx     ks   Put terminal in ``keypad-transmit'' mode
 lab_f0                 lf0      l0   Labels on function key f0 if not f0
 lab_f1                 lf1      l1   Labels on function key f1 if not f1
 lab_f2                 lf2      l2   Labels on function key f2 if not f2
 lab_f3                 lf3      l3   Labels on function key f3 if not f3
 lab_f4                 lf4      l4   Labels on function key f4 if not f4
 lab_f5                 lf5      l5   Labels on function key f5 if not f5
 lab_f6                 lf6      l6   Labels on function key f6 if not f6
 lab_f7                 lf7      l7   Labels on function key f7 if not f7
 lab_f8                 lf8      l8   Labels on function key f8 if not f8
 lab_f9                 lf9      l9   Labels on function key f9 if not f9
 lab_f10                lf10     la   Labels on function key f10 if not f10
 label_format           fln      Lf   Label format
 label_off              rmln     LF   Turn off soft labels
 label_on               smln     LO   Turn on soft labels
 meta_off               rmm      mo   Turn off ``meta mode''
 meta_on                smm      mm   Turn on ``meta mode'' (8th bit)
 micro_column_address   mhpa     ZY   Like column_address for
                                      micro adjustment**
 micro_down             mcud1    ZZ   Like cursor_down for micro adjustment
 micro_left             mcub1    Za   Like cursor_left for micro adjustment
 micro_right            mcuf1    Zb   Like cursor_right for micro adjustment
 micro_row_address      mvpa     Zc   Like row_address for micro adjustment**
 micro_up               mcuu1    Zd   Like cursor_up for micro adjustment
 newline                nel      nw   Newline (behaves like cr followed by lf)
 order_of_pins          porder   Ze   Matches software bits to print-head pins
 orig_colors            oc       oc   Set all color(-pair)s to the original ones
 orig_pair              op       op   Set default color-pair to the original one
 pad_char               pad      pc   Pad character (rather than null)
 parm_dch               dch      DC   Delete #1 chars (G*)
 parm_delete_line       dl       DL   Delete #1 lines (G*)
 parm_down_cursor       cud      DO   Move down #1 lines. (G*)

parm_down_micro mcud Zf Like parm_down_cursor for
micro adjust. (G*)
parm_ich ich IC Insert #1 blank chars (G*)
parm_index indn SF Scroll forward #1 lines. (G)
parm_insert_line il AL Add #1 new blank lines (G*)
parm_left_cursor cub LE Move cursor left #1 spaces (G)
parm_left_micro mcub Zg Like parm_left_cursor for micro adjust. (**)
parm_right_cursor cuf RI Move right #1 spaces. (G*)
parm_right_micro mcuf Zh Like parm_right_cursor for micro adjust. (**)
parm_rindex rin SR Scroll backward #1 lines. (G)
parm_up_cursor cuu UP Move cursor up #1 lines. (G*)
parm_up_micro mcuu Zi Like parm_up_cursor for micro adjust. (**)
pkey_key pfkey pk Prog funct key #1 to type string #2
pkey_local pfloc pl Prog funct key #1 to execute string #2
pkey_xmit pfx px Prog funct key #1 to xmit string #2
plab_norm pln pn Prog label #1 to show string #2
print_screen mc0 ps Print contents of the screen
prtr_non mc5p pO Turn on the printer for #1 bytes
prtr_off mc4 pf Turn off the printer
prtr_on mc5 po Turn on the printer
pulse pulse PU Select pulse dialing
quick_dial qdial QD Dial phone number #1, without
progress detection
remove_clock rmclk RC Remove time-of-day clock
repeat_char rep rp Repeat char #1 #2 times (G*)
req_for_input rfi RF Send next input char (for ptys)
reset_1string rs1 r1 Reset terminal completely to sane modes
reset_2string rs2 r2 Reset terminal completely to sane modes
reset_3string rs3 r3 Reset terminal completely to sane modes
reset_file rf rf Name of file containing reset string
restore_cursor rc rc Restore cursor to position of last sc
row_address vpa cv Vertical position absolute (G)
save_cursor sc sc Save cursor position
scroll_forward ind sf Scroll text up
scroll_reverse ri sr Scroll text down
select_char_set scs Zj Select character set (**)
set_attributes sgr sa Define the video attributes (G) #1-#9
set_background setb Sb Set current background color
set_bottom_margin smgb Zk Set bottom margin at current line
set_bottom_margin_parm smgbp Zl Set bottom margin at line #1 (**)
set_clock sclk SC Set time-of-day clock
set_color_pair scp sp Set current color-pair
set_foreground setf Sf Set current foreground color1
set_left_margin smgl ML Set left margin at current line
set_left_margin_parm smglp Zm Set left margin at column #1 (**)
set_right_margin smgr MR Set right margin at current column
set_right_margin_parm smgrp Zn Set right margin at column #1 (**)
set_tab hts st Set a tab in all rows, current column
set_top_margin smgt Zo Set top margin at current line
set_top_margin_parm smgtp Zp Set top margin at line #1 (**)
set_window wind wi Current window is lines #1-#2 cols #3-#4 (G)
start_bit_image sbim Zq Start printing bit image graphics (**)
start_char_set_def scsd Zr Start definition of a character set (**)
stop_bit_image rbim Zs End printing bit image graphics
stop_char_set_def rcsd Zt End definition of a character set
subscript_characters subcs Zu List of ``subscript-able'' characters
superscript_characters supcs Zv List of ``superscript-able'' characters
tab ht ta Tab to next 8-space hardware tab stop
these_cause_cr docr Zw Printing any of these chars causes cr
to_status_line tsl ts Go to status line, col #1 (G)
tone tone TO Select touch tone dialing
underline_char uc uc Underscore one char and move past it
up_half_line hu hu Half-line up (reverse 1/2 linefeed)
user0 u0 u0 User string 0
user1 u1 u1 User string 1
user2 u2 u2 User string 4
user3 u3 u3 User string 3
user4 u4 u4 User string 4
user5 u5 u5 User string 5
user6 u6 u6 User string 6
user7 u7 u7 User string 7
user8 u8 u8 User string 8
user9 u9 u9 User string 9
wait_tone wait WA Wait for dial tone
xoff_character xoffc XF X-off character
xon_character xonc XN X-on character
xon_character xonc XN Alternate XON character (scancode mode)
xoff_character xoffc XF Alternate XOFF character (scancode mode)
zero_motion zerom Zx No motion for the subsequent character

 parm_down_micro          mcud    Zf   Like parm_down_cursor for
                                       micro adjust. (G*)
 parm_ich                 ich     IC   Insert #1 blank chars (G*)
 parm_index               indn    SF   Scroll forward #1 lines. (G)
 parm_insert_line         il      AL   Add #1 new blank lines (G*)
 parm_left_cursor         cub     LE   Move cursor left #1 spaces (G)
 parm_left_micro          mcub    Zg   Like parm_left_cursor for micro adjust. (**)
 parm_right_cursor        cuf     RI   Move right #1 spaces. (G*)
 parm_right_micro         mcuf    Zh   Like parm_right_cursor for micro adjust. (**)
 parm_rindex              rin     SR   Scroll backward #1 lines. (G)
 parm_up_cursor           cuu     UP   Move cursor up #1 lines. (G*)
 parm_up_micro            mcuu    Zi   Like parm_up_cursor for micro adjust. (**)
 pkey_key                 pfkey   pk   Prog funct key #1 to type string #2
 pkey_local               pfloc   pl   Prog funct key #1 to execute string #2
 pkey_xmit                pfx     px   Prog funct key #1 to xmit string #2
 plab_norm                pln     pn   Prog label #1 to show string #2
 print_screen             mc0     ps   Print contents of the screen
 prtr_non                 mc5p    pO   Turn on the printer for #1 bytes
 prtr_off                 mc4     pf   Turn off the printer
 prtr_on                  mc5     po   Turn on the printer
 pulse                    pulse   PU   Select pulse dialing
 quick_dial               qdial   QD   Dial phone number #1, without
                                       progress detection
 remove_clock             rmclk   RC   Remove time-of-day clock
 repeat_char              rep     rp   Repeat char #1 #2 times (G*)
 req_for_input            rfi     RF   Send next input char (for ptys)
 reset_1string            rs1     r1   Reset terminal completely to sane modes
 reset_2string            rs2     r2   Reset terminal completely to sane modes
 reset_3string            rs3     r3   Reset terminal completely to sane modes
 reset_file               rf      rf   Name of file containing reset string
 restore_cursor           rc      rc   Restore cursor to position of last sc
 row_address              vpa     cv   Vertical position absolute (G)
 save_cursor              sc      sc   Save cursor position
 scroll_forward           ind     sf   Scroll text up
 scroll_reverse           ri      sr   Scroll text down
 select_char_set          scs     Zj   Select character set (**)
 set_attributes           sgr     sa   Define the video attributes (G) #1-#9
 set_background           setb    Sb   Set current background color
 set_bottom_margin        smgb    Zk   Set bottom margin at current line
 set_bottom_margin_parm   smgbp   Zl   Set bottom margin at line #1 (**)
 set_clock                sclk    SC   Set time-of-day clock
 set_color_pair           scp     sp   Set current color-pair
 set_foreground           setf    Sf   Set current foreground color1
 set_left_margin          smgl    ML   Set left margin at current line
 set_left_margin_parm     smglp   Zm   Set left margin at column #1 (**)
 set_right_margin         smgr    MR   Set right margin at current column
 set_right_margin_parm    smgrp   Zn   Set right margin at column #1 (**)
 set_tab                  hts     st   Set a tab in all rows, current column
 set_top_margin           smgt    Zo   Set top margin at current line
 set_top_margin_parm      smgtp   Zp   Set top margin at line #1 (**)
 set_window               wind    wi   Current window is lines #1-#2 cols #3-#4 (G)
 start_bit_image          sbim    Zq   Start printing bit image graphics (**)
 start_char_set_def       scsd    Zr   Start definition of a character set (**)
 stop_bit_image           rbim    Zs   End printing bit image graphics
 stop_char_set_def        rcsd    Zt   End definition of a character set
 subscript_characters     subcs   Zu   List of ``subscript-able'' characters
 superscript_characters   supcs   Zv   List of ``superscript-able'' characters
 tab                      ht      ta   Tab to next 8-space hardware tab stop
 these_cause_cr           docr    Zw   Printing any of these chars causes cr
 to_status_line           tsl     ts   Go to status line, col #1 (G)
 tone                     tone    TO   Select touch tone dialing
 underline_char           uc      uc   Underscore one char and move past it
 up_half_line             hu      hu   Half-line up (reverse 1/2 linefeed)
 user0                    u0      u0   User string 0
 user1                    u1      u1   User string 1
 user2                    u2      u2   User string 4
 user3                    u3      u3   User string 3
 user4                    u4      u4   User string 4
 user5                    u5      u5   User string 5
 user6                    u6      u6   User string 6
 user7                    u7      u7   User string 7
 user8                    u8      u8   User string 8
 user9                    u9      u9   User string 9
 wait_tone                wait    WA   Wait for dial tone
 xoff_character           xoffc   XF   X-off character
 xon_character            xonc    XN   X-on character
 xon_character            xonc    XN   Alternate XON character (scancode mode)
 xoff_character           xoffc   XF   Alternate XOFF character (scancode mode)
 zero_motion              zerom   Zx   No motion for the subsequent character
Booleans ordered by capname

Cap- Variable Termcap Description
name code  
am auto_right_margin am Terminal has automatic margins
bw auto_left_margin bw cub1 wraps from column 0 to last column
ccc can_change cc Terminal can re-define existing color
chts hard_cursor HC Cursor is hard to see
cpix cpi_changes_res YF Changing character pitch changes resolution
cps print_rate Ym Print rate in characters per second
crxm cr_cancels_micro_modem YB Using cr turns off micro mode
cwin create_window CW Define win #1 to go from #2,#3 to #4,#5
da memory_above da Display may be retained above the screen
daisy has_print_wheel YC Printer needs operator to change character set
dclk display_clock DK Display time-of-day clock
db memory_below db Display may be retained below the screen
dial dial_phone DI Dial phone number #1
eo erase_overstrike eo Can erase overstrikes with a blank
eslok status_line_esc_ok es Escape can be used on the status line
gn generic_type gn Generic line type (e.g., dialup, switch)
hc hard_copy hc Hardcopy terminal
hls hue_lightness_saturation hl Terminal uses only HLS
color notation (Tektronix)
hs has_status_line hs Has extra ``status line''
hz tilde_glitch hz Hazeltine; can't print tilde (~)
in insert_null_glitch in Insert mode distinguishes nulls
km has_meta_key km Has a meta key (shift, sets parity bit)
lpix lpi_changes_res YG Changing line pitch changes resolution
mc5i prtr_silent    
mir move_insert_mode mi Safe to move while in insert mode
msgr move_standout_mode ms Safe to move in standout modes
npc no_pad_char NP Pad character doesn't exist
nrrmc non_rev_rmcup NR smcup does not reverse rmcup
nxon needs_xon_xoff nx Padding won't work, xon/xoff required
os over_strike os Terminal overstrikes on hard-copy terminal
sam semi_auto_right_margin YE Printing in last column causes cr
ul transparent_underline ul Underline character overstrikes
xenl eat_newline_glitch xn Newline ignored after 80 columns (Concept)
xhp ceol_standout_glitch xs Standout not erased by overwriting (hp)
xhpa col_addr_glitch YA Only positive motion for hpa/mhpa caps
xon xon_xoff xo Terminal uses xon/xoff handshaking
xsb no_esc_ctlc xb Beehive (f1=escape, f2=ctrl C)
xt dest_tabs_magic_smso xt Destructive tabs, magic smso char (t1061)
xvpa row_addr_glitch YD Only positive motion for vpa/mvpa caps

 Cap-    Variable                   Termcap   Description
 name                               code
 am      auto_right_margin          am        Terminal has automatic margins
 bw      auto_left_margin           bw        cub1 wraps from column 0 to last column
 ccc     can_change                 cc        Terminal can re-define existing color
 chts    hard_cursor                HC        Cursor is hard to see
 cpix    cpi_changes_res            YF        Changing character pitch changes resolution
 cps     print_rate                 Ym        Print rate in characters per second
 crxm    cr_cancels_micro_modem     YB        Using cr turns off micro mode
 cwin    create_window              CW        Define win #1 to go from #2,#3 to #4,#5
 da      memory_above               da        Display may be retained above the screen
 daisy   has_print_wheel            YC        Printer needs operator to change character set
 dclk    display_clock              DK        Display time-of-day clock
 db      memory_below               db        Display may be retained below the screen
 dial    dial_phone                 DI        Dial phone number #1
 eo      erase_overstrike           eo        Can erase overstrikes with a blank
 eslok   status_line_esc_ok         es        Escape can be used on the status line
 gn      generic_type               gn        Generic line type (e.g., dialup, switch)
 hc      hard_copy                  hc        Hardcopy terminal
 hls     hue_lightness_saturation   hl        Terminal uses only HLS
                                              color notation (Tektronix)
 hs      has_status_line            hs        Has extra ``status line''
 hz      tilde_glitch               hz        Hazeltine; can't print tilde (~)
 in      insert_null_glitch         in        Insert mode distinguishes nulls
 km      has_meta_key               km        Has a meta key (shift, sets parity bit)
 lpix    lpi_changes_res            YG        Changing line pitch changes resolution
 mc5i    prtr_silent
 mir     move_insert_mode           mi        Safe to move while in insert mode
 msgr    move_standout_mode         ms        Safe to move in standout modes
 npc     no_pad_char                NP        Pad character doesn't exist
 nrrmc   non_rev_rmcup              NR        smcup does not reverse rmcup
 nxon    needs_xon_xoff             nx        Padding won't work, xon/xoff required
 os      over_strike                os        Terminal overstrikes on hard-copy terminal
 sam     semi_auto_right_margin     YE        Printing in last column causes cr
 ul      transparent_underline      ul        Underline character overstrikes
 xenl    eat_newline_glitch         xn        Newline ignored after 80 columns (Concept)
 xhp     ceol_standout_glitch       xs        Standout not erased by overwriting (hp)
 xhpa    col_addr_glitch            YA        Only positive motion for hpa/mhpa caps
 xon     xon_xoff                   xo        Terminal uses xon/xoff handshaking
 xsb     no_esc_ctlc                xb        Beehive (f1=escape, f2=ctrl C)
 xt      dest_tabs_magic_smso       xt        Destructive tabs, magic smso char (t1061)
 xvpa    row_addr_glitch            YD        Only positive motion for vpa/mvpa caps
Numbers ordered by variable name

Cap- Variable Termcap Description
name code  
bufsz buffer_capacity Ya Number of bytes buffered before printing
colors max_colors Co Maximum number of colors on the screen
cols columns co Number of columns in a line
cps print_rate Ym Average print rate in characters per second
it init_tabs it Tabs initially every # spaces
lh label_height lh Number of rows in each label
lines lines li Number of lines on a screen or a page
lm lines_of_memory lm Lines of memory if > lines; 0 means varies
lw label_width lw Number of columns in each label
maddr max_micro_address Yd Maximum value in micro_..._address
mcs micro_col_size Yf Character step size when in micro mode
mjump max_micro_jump Ye Maximum value in parm_..._micro
mls micro_line_size Yg Line step size when in micro mode
ncv no_color_video NC Video attributes that can't be used with colors
nlab num_labels Nl Number of labels on screen (start at 1)
npins number_of_pins Yh Number of pins in print-head
orc output_res_char Yi Horizontal resolution in units per character
orhi output_res_horz_inch Yk Horizontal resolution in units per inch
orl output_res_line Yj Vertical resolution in units per line
orvi output_res_vert_inch Yl Vertical resolution in units per inch
pairs max_pairs pa Maximum number of color-pairs on the screen
pb padding_baud_rate pb Lowest baud rate where padding needed
spinh dot_horz_spacing Yc Spacing of dots horizontally in dots per inch
spinv dot_vert_spacing Yb Spacing of pins vertically in pins per inch
vt virtual_terminal vt Virtual terminal number (UNIX system)
widcs wide_char_size Yn Character step size when in double wide mode
wsl width_status_line ws Number of columns in status line
xmc magic_cookie_glitch sg Number of blank characters left
by smso or rmso

 Cap-     Variable               Termcap   Description
 name                            code
 bufsz    buffer_capacity        Ya        Number of bytes buffered before printing
 colors   max_colors             Co        Maximum number of colors on the screen
 cols     columns                co        Number of columns in a line
 cps      print_rate             Ym        Average print rate in characters per second
 it       init_tabs              it        Tabs initially every # spaces
 lh       label_height           lh        Number of rows in each label
 lines    lines                  li        Number of lines on a screen or a page
 lm       lines_of_memory        lm        Lines of memory if > lines; 0 means varies
 lw       label_width            lw        Number of columns in each label
 maddr    max_micro_address      Yd        Maximum value in micro_..._address
 mcs      micro_col_size         Yf        Character step size when in micro mode
 mjump    max_micro_jump         Ye        Maximum value in parm_..._micro
 mls      micro_line_size        Yg        Line step size when in micro mode
 ncv      no_color_video         NC        Video attributes that can't be used with colors
 nlab     num_labels             Nl        Number of labels on screen (start at 1)
 npins    number_of_pins         Yh        Number of pins in print-head
 orc      output_res_char        Yi        Horizontal resolution in units per character
 orhi     output_res_horz_inch   Yk        Horizontal resolution in units per inch
 orl      output_res_line        Yj        Vertical resolution in units per line
 orvi     output_res_vert_inch   Yl        Vertical resolution in units per inch
 pairs    max_pairs              pa        Maximum number of color-pairs on the screen
 pb       padding_baud_rate      pb        Lowest baud rate where padding needed
 spinh    dot_horz_spacing       Yc        Spacing of dots horizontally in dots per inch
 spinv    dot_vert_spacing       Yb        Spacing of pins vertically in pins per inch
 vt       virtual_terminal       vt        Virtual terminal number (UNIX system)
 widcs    wide_char_size         Yn        Character step size when in double wide mode
 wsl      width_status_line      ws        Number of columns in status line
 xmc      magic_cookie_glitch    sg        Number of blank characters left
                                           by smso or rmso
Strings ordered by variable name

Cap- Variable Termcap Description
name code  
acsc acs_chars ac Graphic charset pairs aAbBcC - def=vt100
bel bell bl Audible signal (bell)
blink enter_blink_mode mb Turn on blinking
bold enter_bold_mode md Turn on bold (extra bright) mode
cbt back_tab bt Back tab
chr change_res_horz ZC Change horizontal resolution (**)
civis cursor_invisible vi Make cursor invisible
clear clear_screen cl Clear screen and home cursor (*)
cmdch command_character CC Terminal settable cmd character in prototype
cnorm cursor_normal ve Make cursor appear normal (undo vs/vi)
cpi change_char_pitch ZA Change number of characters per inch (**)
cr carriage_return cr Carriage return (*)
csnm char_set_names Zy List of character set names
csr change_scroll_region cs Change to lines #1 through #2 (vt100) (G)
cub parm_left_cursor LE Move cursor left #1 spaces (G)
cub1 cursor_left le Move left one space.
cud parm_down_cursor DO Move down #1 lines. (G*)
cuf parm_right_cursor RI Move right #1 spaces. (G*)
cuf1 cursor_right nd Non-destructive space (cursor or carriage right)
cup cursor_address cm Move to row #1 col #2 (G)
cuu parm_up_cursor UP Move cursor up #1 lines. (G*)
cvr change_res_vert ZD Change vertical resolution (**)
cvvis cursor_visible vs Make cursor very visible
dch parm_dch DC Delete #1 chars (G*)
dch1 delete_character dc Delete character (*)
defc define_char ZE Define a character in a character set
dim enter_dim_mode mh Turn on half-bright mode
dl delete_line dl1 Delete line (*)
dl parm_delete_line DL Delete #1 lines (G*)
do cursor_down do Down one line
docr these_cause_cr Zw Printing any of these chars causes cr
dsl dis_status_line ds Disable status line
ech erase_chars ec Erase #1 characters (G)
ed clr_eos cd Clear to end of display (*)
el clr_eol ce Clear to end of line
el1 clr_bol cb Clear to beginning of line, inclusive
enacs ena_acs eA Enable alternate character set
ff form_feed ff Hardcopy terminal page eject (*)
flash flash_screen vb Visible bell (may not move cursor)
fln label_format Lf Label format
fsl from_status_line fs Return from status line

 Cap-    Variable               Termcap   Description
 name                           code
 acsc    acs_chars              ac        Graphic charset pairs aAbBcC - def=vt100
 bel     bell                   bl        Audible signal (bell)
 blink   enter_blink_mode       mb        Turn on blinking
 bold    enter_bold_mode        md        Turn on bold (extra bright) mode
 cbt     back_tab               bt        Back tab
 chr     change_res_horz        ZC        Change horizontal resolution (**)
 civis   cursor_invisible       vi        Make cursor invisible
 clear   clear_screen           cl        Clear screen and home cursor (*)
 cmdch   command_character      CC        Terminal settable cmd character in prototype
 cnorm   cursor_normal          ve        Make cursor appear normal (undo vs/vi)
 cpi     change_char_pitch      ZA        Change number of characters per inch (**)
 cr      carriage_return        cr        Carriage return (*)
 csnm    char_set_names         Zy        List of character set names
 csr     change_scroll_region   cs        Change to lines #1 through #2 (vt100) (G)
 cub     parm_left_cursor       LE        Move cursor left #1 spaces (G)
 cub1    cursor_left            le        Move left one space.
 cud     parm_down_cursor       DO        Move down #1 lines. (G*)
 cuf     parm_right_cursor      RI        Move right #1 spaces. (G*)
 cuf1    cursor_right           nd        Non-destructive space (cursor or carriage right)
 cup     cursor_address         cm        Move to row #1 col #2 (G)
 cuu     parm_up_cursor         UP        Move cursor up #1 lines. (G*)
 cvr     change_res_vert        ZD        Change vertical resolution (**)
 cvvis   cursor_visible         vs        Make cursor very visible
 dch     parm_dch               DC        Delete #1 chars (G*)
 dch1    delete_character       dc        Delete character (*)
 defc    define_char            ZE        Define a character in a character set
 dim     enter_dim_mode         mh        Turn on half-bright mode
 dl      delete_line            dl1       Delete line (*)
 dl      parm_delete_line       DL        Delete #1 lines (G*)
 do      cursor_down            do        Down one line
 docr    these_cause_cr         Zw        Printing any of these chars causes cr
 dsl     dis_status_line        ds        Disable status line
 ech     erase_chars            ec        Erase #1 characters (G)
 ed      clr_eos                cd        Clear to end of display (*)
 el      clr_eol                ce        Clear to end of line
 el1     clr_bol                cb        Clear to beginning of line, inclusive
 enacs   ena_acs                eA        Enable alternate character set
 ff      form_feed              ff        Hardcopy terminal page eject (*)
 flash   flash_screen           vb        Visible bell (may not move cursor)
 fln     label_format           Lf        Label format
 fsl     from_status_line       fs        Return from status line

hd down_half_line hd Half-line down (forward 1/2 linefeed)
home cursor_home ho Home cursor (if no cup)
hook flash_hook fh Flash the switch hook
hpa column_address ch Horizontal position absolute (G)
ht tab ta Tab to next 8-space hardware tab stop
hts set_tab st Set a tab in all rows, current column
hu up_half_line hu Half-line up (reverse 1/2 linefeed)
hup hangup HU Hang-up phone
ich parm_ich IC Insert #1 blank chars (G*)
ich1 insert_character ic Insert character
if init_file if Name of initialization file
il parm_insert_line AL Add #1 new blank lines (G*)
il1 insert_line al Add new blank line (*)
ind scroll_forward sf Scroll text up
indn parm_index SF Scroll forward #1 lines. (G)
initc initialize_color Ic Initialize the definition of color
initp initialize_pair Ip Initialize color-pair
invis enter_secure_mode mk Turn on blank mode (characters invisible)
ip insert_padding ip Insert pad after character inserted (*)
iprog init_prog iP Path name of program for initialization
is1 init_1string i1 Terminal or printer initialization string
is2 init_2string is Terminal or printer initialization string
is3 init_3string i3 Terminal or printer initialization string
kBEG key_sbeg &9 KEY_SBEG, 0572, sent by shifted beginning key
kCAN key_scancel &0 KEY_SCANCEL, 0573, sent by shifted cancel key
kCMD key_scommand *1 KEY_SCOMMAND, 0574, sent by
shifted command key
kCPY key_scopy *2 KEY_SCOPY, 0575, sent by shifted copy key
kCRT key_screate *3 KEY_SCREATE, 0576, sent by shifted create key
kDC key_sdc *4 KEY_SDC, 0577, sent by shifted delete-char key
kDL key_sdl *5 KEY_SDL, 0600, sent by shifted delete-line key
kEND key_send *7 KEY_SEND, 0602, sent by shifted end key
kEOL key_seol *8 KEY_SEOL, 0603, sent by shifted clear-line key
kEXT key_sexit *9 KEY_SEXIT, 0604, sent by shifted exit key
kFND key_sfind *0 KEY_SFIND, 0605, sent by shifted find key
kHLP key_shelp #1 KEY_SHELP, 0606, sent by shifted help key
kHOM key_shome #2 KEY_SHOME, 0607, sent by shifted home key
kIC key_sic #3 KEY_SIC, 0610, sent by shifted input key
kLFT key_sleft #4 KEY_SLEFT, 0611, sent by shifted left-arrow key
kMOV key_smove b KEY_SMOVE, 0613, sent by shifted move key
kMSG key_smessage %a KEY_SMESSAGE, 0612, sent by
shifted message key
kNXT key_snext %c KEY_SNEXT, 0614, sent by shifted next key
kOPT key_soptions %d KEY_SOPTIONS, 0615, sent by
shifted options key
kPRT key_sprint %f KEY_SPRINT, 0617, sent by shifted print key
kPRV key_sprevious %e KEY_SPREVIOUS, 0616, sent by shifted prev key
kRDO key_sredo %g KEY_SREDO, 0620, sent by shifted redo key
kRES key_srsume %j KEY_SRSUME, 0623, sent by shifted resume key
kRIT key_sright %i KEY_SRIGHT, 0622, sent by shifted right-arrow key
kRPL key_sreplace %h KEY_SREPLACE, 0621, sent by shifted replace key
kSAV key_ssave !1 KEY_SSAVE, 0624, sent by shifted save key
kSPD key_ssuspend !2 KEY_SSUSPEND, 0625, sent by shifted suspend key
kUND key_sundo !3 KEY_SUNDO, 0626, sent by shifted undo key
ka1 key_a1 K1 KEY_A1, 0534, upper left of keypad
ka3 key_a3 K3 KEY_A3, 0535, upper right of keypad
kb2 key_b2 K2 KEY_B2, 0536, center of keypad
kbeg key_beg @1 KEY_BEG, 0542, sent by beg(inning) key
kbs key_backspace kb KEY_BACKSPACE, 0407, sent by backspace key
kc1 key_c1 K4 KEY_C1, 0537, lower left of keypad
kc3 key_c3 K5 KEY_C3, 0540, lower right of keypad
kcan key_cancel @2 KEY_CANCEL, 0543, sent by cancel key
kcbt key_btab kB KEY_BTAB, 0541, sent by back-tab key
kclo key_close @3 KEY_CLOSE, 0544, sent by close key
kclr key_clear kC KEY_CLEAR, 0515, sent by clear-screen or erase key
kcmd key_command @4 KEY_COMMAND, 0545, sent by cmd
(command) key
kcpy key_copy @5 KEY_COPY, 0546, sent by copy key
kcrt key_create @6 KEY_CREATE, 0547, sent by create key
kctab key_ctab kt KEY_CTAB, 0525, sent by clear-tab key
kcub1 key_left kl KEY_LEFT, 0404, sent by terminal left-arrow key
kcud1 key_down kd KEY_DOWN, 0402, sent by terminal
down-arrow key
kcuf1 key_right kr KEY_RIGHT, 0405, sent by terminal right-arrow key
kcuu1 key_up ku KEY_UP, 0403, sent by terminal up-arrow key
kdch1 key_dc kD KEY_DC, 0512, sent by delete-character key
kdl1 key_dl kL KEY_DL, 0510, sent by delete-line key
ked key_eos ked KEY_EOS, 0516, sent by clear-to-end-of-screen key
kel key_eol kE KEY_EOL, 0517, sent by clear-to-end-of-line key
kend key_end @7 KEY_END, 0550, sent by end key
kent key_enter @8 KEY_ENTER, 0527, sent by enter/send key
kext key_exit @9 KEY_EXIT, 0551, sent by exit key
kf0 key_f0 k0 KEY_F(0), 0410, sent by function key f0
kf1 key_f1 k1 KEY_F(C), 0411, sent by function key f1
kf10 key_f10 k; KEY_F(ADM), 0422, sent by function key f10
kf11 key_f11 F1 KEY_F(ADM), 0423, sent by function key f11
kf12 key_f12 F2 KEY_F(ADM), 0424, sent by function key f12
kf13 key_f13 F3 KEY_F(ADM), 0425, sent by function key f13
kf14 key_f14 F4 KEY_F(ADM), 0426, sent by function key f14
kf15 key_f15 F5 KEY_F(ADM), 0427, sent by function key f15
kf16 key_f16 F6 KEY_F(ADM), 0430, sent by function key f16
kf17 key_f17 F7 KEY_F(ADM), 0431, sent by function key f17
kf18 key_f18 F8 KEY_F(ADM), 0432, sent by function key f18
kf19 key_f19 F9 KEY_F(ADM), 0433, sent by function key f19
kf2 key_f2 k2 KEY_F(S), 0412, sent by function key f2
kf20 key_f20 FA KEY_F(20), 0434, sent by function key f20
kf21 key_f21 FB KEY_F(21), 0435, sent by function key f21
kf22 key_f22 FC KEY_F(22), 0436, sent by function key f22
kf23 key_f23 FD KEY_F(23), 0437, sent by function key f23
kf24 key_f24 FE KEY_F(24), 0440, sent by function key f24
kf25 key_f25 FF KEY_F(25), 0441, sent by function key f25
kf26 key_f26 FG KEY_F(26), 0442, sent by function key f26
kf27 key_f27 FH KEY_F(27), 0443, sent by function key f27
kf28 key_f28 FI KEY_F(28), 0444, sent by function key f28
kf29 key_f29 FJ KEY_F(29), 0445, sent by function key f29
kf3 key_f3 k3 KEY_F(S), 0413, sent by function key f3
kf30 key_f30 FK KEY_F(S), 0446, sent by function key f30
kf31 key_f31 FL KEY_F(S), 0447, sent by function key f31
kf32 key_f32 FM KEY_F(S), 0450, sent by function key f32
kf33 key_f33 FN KEY_F(ADM), 0451, sent by function key f33
kf34 key_f34 FO KEY_F(S), 0452, sent by function key f34
kf35 key_f35 FP KEY_F(S), 0453, sent by function key f35
kf36 key_f36 FQ KEY_F(S), 0454, sent by function key f36
kf37 key_f37 FR KEY_F(S), 0455, sent by function key f37
kf38 key_f38 FS KEY_F(S), 0456, sent by function key f38
kf39 key_f39 FT KEY_F(S), 0457, sent by function key f39
kf4 key_f4 k4 KEY_F(F), 0414, sent by function key f4
kf40 key_f40 FU KEY_F(40), 0460, sent by function key f40
kf41 key_f41 FV KEY_F(41), 0461, sent by function key f41
kf42 key_f42 FW KEY_F(42), 0462, sent by function key f42
kf43 key_f43 FX KEY_F(43), 0463, sent by function key f43
kf44 key_f44 FY KEY_F(44), 0464, sent by function key f44
kf45 key_f45 FZ KEY_F(45), 0465, sent by function key f45
kf46 key_f46 Fa KEY_F(46), 0466, sent by function key f46
kf47 key_f47 Fb KEY_F(47), 0467, sent by function key f47
kf48 key_f48 Fc KEY_F(48), 0470, sent by function key f48
kf5 key_f5 k5 KEY_F(M), 0415, sent by function key f5
kf50 key_f50 Fe KEY_F(50), 0472, sent by function key f50

 hd      down_half_line      hd    Half-line down (forward 1/2 linefeed)
 home    cursor_home         ho    Home cursor (if no cup)
 hook    flash_hook          fh    Flash the switch hook
 hpa     column_address      ch    Horizontal position absolute (G)
 ht      tab                 ta    Tab to next 8-space hardware tab stop
 hts     set_tab             st    Set a tab in all rows, current column
 hu      up_half_line        hu    Half-line up (reverse 1/2 linefeed)
 hup     hangup              HU    Hang-up phone
 ich     parm_ich            IC    Insert #1 blank chars (G*)
 ich1    insert_character    ic    Insert character
 if      init_file           if    Name of initialization file
 il      parm_insert_line    AL    Add #1 new blank lines (G*)
 il1     insert_line         al    Add new blank line (*)
 ind     scroll_forward      sf    Scroll text up
 indn    parm_index          SF    Scroll forward #1 lines. (G)
 initc   initialize_color    Ic    Initialize the definition of color
 initp   initialize_pair     Ip    Initialize color-pair
 invis   enter_secure_mode   mk    Turn on blank mode (characters invisible)
 ip      insert_padding      ip    Insert pad after character inserted (*)
 iprog   init_prog           iP    Path name of program for initialization
 is1     init_1string        i1    Terminal or printer initialization string
 is2     init_2string        is    Terminal or printer initialization string
 is3     init_3string        i3    Terminal or printer initialization string
 kBEG    key_sbeg            &9    KEY_SBEG, 0572, sent by shifted beginning key
 kCAN    key_scancel         &0    KEY_SCANCEL, 0573, sent by shifted cancel key
 kCMD    key_scommand        *1    KEY_SCOMMAND, 0574, sent by
                                   shifted command key
 kCPY    key_scopy           *2    KEY_SCOPY, 0575, sent by shifted copy key
 kCRT    key_screate         *3    KEY_SCREATE, 0576, sent by shifted create key
 kDC     key_sdc             *4    KEY_SDC, 0577, sent by shifted delete-char key
 kDL     key_sdl             *5    KEY_SDL, 0600, sent by shifted delete-line key
 kEND    key_send            *7    KEY_SEND, 0602, sent by shifted end key
 kEOL    key_seol            *8    KEY_SEOL, 0603, sent by shifted clear-line key
 kEXT    key_sexit           *9    KEY_SEXIT, 0604, sent by shifted exit key
 kFND    key_sfind           *0    KEY_SFIND, 0605, sent by shifted find key
 kHLP    key_shelp           #1    KEY_SHELP, 0606, sent by shifted help key
 kHOM    key_shome           #2    KEY_SHOME, 0607, sent by shifted home key
 kIC     key_sic             #3    KEY_SIC, 0610, sent by shifted input key
 kLFT    key_sleft           #4    KEY_SLEFT, 0611, sent by shifted left-arrow key
 kMOV    key_smove           b     KEY_SMOVE, 0613, sent by shifted move key
 kMSG    key_smessage        %a    KEY_SMESSAGE, 0612, sent by
                                   shifted message key
 kNXT    key_snext           %c    KEY_SNEXT, 0614, sent by shifted next key
 kOPT    key_soptions        %d    KEY_SOPTIONS, 0615, sent by
                                   shifted options key
 kPRT    key_sprint          %f    KEY_SPRINT, 0617, sent by shifted print key
 kPRV    key_sprevious       %e    KEY_SPREVIOUS, 0616, sent by shifted prev key
 kRDO    key_sredo           %g    KEY_SREDO, 0620, sent by shifted redo key
 kRES    key_srsume          %j    KEY_SRSUME, 0623, sent by shifted resume key
 kRIT    key_sright          %i    KEY_SRIGHT, 0622, sent by shifted right-arrow key
 kRPL    key_sreplace        %h    KEY_SREPLACE, 0621, sent by shifted replace key
 kSAV    key_ssave           !1    KEY_SSAVE, 0624, sent by shifted save key
 kSPD    key_ssuspend        !2    KEY_SSUSPEND, 0625, sent by shifted suspend key
 kUND    key_sundo           !3    KEY_SUNDO, 0626, sent by shifted undo key
 ka1     key_a1              K1    KEY_A1, 0534, upper left of keypad
 ka3     key_a3              K3    KEY_A3, 0535, upper right of keypad
 kb2     key_b2              K2    KEY_B2, 0536, center of keypad
 kbeg    key_beg             @1    KEY_BEG, 0542, sent by beg(inning) key
 kbs     key_backspace       kb    KEY_BACKSPACE, 0407, sent by backspace key
 kc1     key_c1              K4    KEY_C1, 0537, lower left of keypad
 kc3     key_c3              K5    KEY_C3, 0540, lower right of keypad
 kcan    key_cancel          @2    KEY_CANCEL, 0543, sent by cancel key
 kcbt    key_btab            kB    KEY_BTAB, 0541, sent by back-tab key
 kclo    key_close           @3    KEY_CLOSE, 0544, sent by close key
 kclr    key_clear           kC    KEY_CLEAR, 0515, sent by clear-screen or erase key
 kcmd    key_command         @4    KEY_COMMAND, 0545, sent by cmd
                                   (command) key
 kcpy    key_copy            @5    KEY_COPY, 0546, sent by copy key
 kcrt    key_create          @6    KEY_CREATE, 0547, sent by create key
 kctab   key_ctab            kt    KEY_CTAB, 0525, sent by clear-tab key
 kcub1   key_left            kl    KEY_LEFT, 0404, sent by terminal left-arrow key
 kcud1   key_down            kd    KEY_DOWN, 0402, sent by terminal
                                   down-arrow key
 kcuf1   key_right           kr    KEY_RIGHT, 0405, sent by terminal right-arrow key
 kcuu1   key_up              ku    KEY_UP, 0403, sent by terminal up-arrow key
 kdch1   key_dc              kD    KEY_DC, 0512, sent by delete-character key
 kdl1    key_dl              kL    KEY_DL, 0510, sent by delete-line key
 ked     key_eos             ked   KEY_EOS, 0516, sent by clear-to-end-of-screen key
 kel     key_eol             kE    KEY_EOL, 0517, sent by clear-to-end-of-line key
 kend    key_end             @7    KEY_END, 0550, sent by end key
 kent    key_enter           @8    KEY_ENTER, 0527, sent by enter/send key
 kext    key_exit            @9    KEY_EXIT, 0551, sent by exit key
 kf0     key_f0              k0    KEY_F(0), 0410, sent by function key f0
 kf1     key_f1              k1    KEY_F(C), 0411, sent by function key f1
 kf10    key_f10             k;    KEY_F(ADM), 0422, sent by function key f10
 kf11    key_f11             F1    KEY_F(ADM), 0423, sent by function key f11
 kf12    key_f12             F2    KEY_F(ADM), 0424, sent by function key f12
 kf13    key_f13             F3    KEY_F(ADM), 0425, sent by function key f13
 kf14    key_f14             F4    KEY_F(ADM), 0426, sent by function key f14
 kf15    key_f15             F5    KEY_F(ADM), 0427, sent by function key f15
 kf16    key_f16             F6    KEY_F(ADM), 0430, sent by function key f16
 kf17    key_f17             F7    KEY_F(ADM), 0431, sent by function key f17
 kf18    key_f18             F8    KEY_F(ADM), 0432, sent by function key f18
 kf19    key_f19             F9    KEY_F(ADM), 0433, sent by function key f19
 kf2     key_f2              k2    KEY_F(S), 0412, sent by function key f2
 kf20    key_f20             FA    KEY_F(20), 0434, sent by function key f20
 kf21    key_f21             FB    KEY_F(21), 0435, sent by function key f21
 kf22    key_f22             FC    KEY_F(22), 0436, sent by function key f22
 kf23    key_f23             FD    KEY_F(23), 0437, sent by function key f23
 kf24    key_f24             FE    KEY_F(24), 0440, sent by function key f24
 kf25    key_f25             FF    KEY_F(25), 0441, sent by function key f25
 kf26    key_f26             FG    KEY_F(26), 0442, sent by function key f26
 kf27    key_f27             FH    KEY_F(27), 0443, sent by function key f27
 kf28    key_f28             FI    KEY_F(28), 0444, sent by function key f28
 kf29    key_f29             FJ    KEY_F(29), 0445, sent by function key f29
 kf3     key_f3              k3    KEY_F(S), 0413, sent by function key f3
 kf30    key_f30             FK    KEY_F(S), 0446, sent by function key f30
 kf31    key_f31             FL    KEY_F(S), 0447, sent by function key f31
 kf32    key_f32             FM    KEY_F(S), 0450, sent by function key f32
 kf33    key_f33             FN    KEY_F(ADM), 0451, sent by function key f33
 kf34    key_f34             FO    KEY_F(S), 0452, sent by function key f34
 kf35    key_f35             FP    KEY_F(S), 0453, sent by function key f35
 kf36    key_f36             FQ    KEY_F(S), 0454, sent by function key f36
 kf37    key_f37             FR    KEY_F(S), 0455, sent by function key f37
 kf38    key_f38             FS    KEY_F(S), 0456, sent by function key f38
 kf39    key_f39             FT    KEY_F(S), 0457, sent by function key f39
 kf4     key_f4              k4    KEY_F(F), 0414, sent by function key f4
 kf40    key_f40             FU    KEY_F(40), 0460, sent by function key f40
 kf41    key_f41             FV    KEY_F(41), 0461, sent by function key f41
 kf42    key_f42             FW    KEY_F(42), 0462, sent by function key f42
 kf43    key_f43             FX    KEY_F(43), 0463, sent by function key f43
 kf44    key_f44             FY    KEY_F(44), 0464, sent by function key f44
 kf45    key_f45             FZ    KEY_F(45), 0465, sent by function key f45
 kf46    key_f46             Fa    KEY_F(46), 0466, sent by function key f46
 kf47    key_f47             Fb    KEY_F(47), 0467, sent by function key f47
 kf48    key_f48             Fc    KEY_F(48), 0470, sent by function key f48
 kf5     key_f5              k5    KEY_F(M), 0415, sent by function key f5
 kf50    key_f50             Fe    KEY_F(50), 0472, sent by function key f50

kf51 key_f51 Ff KEY_F(51), 0473, sent by function key f51
kf52 key_f52 Fg KEY_F(52), 0474, sent by function key f52
kf53 key_f53 Fh KEY_F(53), 0475, sent by function key f53
kf54 key_f54 Fi KEY_F(54), 0476, sent by function key f54
kf55 key_f55 Fj KEY_F(55), 0477, sent by function key f55
kf56 key_f56 Fk KEY_F(56), 0500, sent by function key f56
kf57 key_f57 Fl KEY_F(57), 0501, sent by function key f57
kf58 key_f58 Fm KEY_F(58), 0502, sent by function key f58
kf59 key_f59 Fn KEY_F(59), 0503, sent by function key f59
kf6 key_f6 k6 KEY_F(6), 0416, sent by function key f6
kf60 key_f60 Fo KEY_F(60), 0504, sent by function key f60
kf61 key_f61 Fp KEY_F(61), 0505, sent by function key f61
kf62 key_f62 Fq KEY_F(62), 0506, sent by function key f62
kf63 key_f63 Fr KEY_F(63), 0507, sent by function key f63
kf7 key_f7 k7 KEY_F(7), 0417, sent by function key f7
Kf8 key_f8 k8 KEY_F(8), 0420, sent by function key f8
kf9 key_f9 k9 KEY_F(9), 0421, sent by function key f9
kfnd key_find @0 KEY_FIND, 0552, sent by find key
khlp key_help %1 KEY_HELP, 0553, sent by help key
khome key_home kh KEY_HOME, 0406, sent by home key
khts key_stab kT KEY_STAB, 0524, sent by set-tab key
kich1 key_ic kI KEY_IC, 0513, sent by ins-char/enter ins-mode key
kil1 key_il kA KEY_IL, 0511, sent by insert-line key
kind key_sf kF KEY_SF, 0520, sent by scroll-forward/down key
kll key_ll kH KEY_LL, 0533, sent by home-down key
kmov key_move %4 KEY_MOVE, 0556, sent by move key
kmrk key_mark %2 KEY_MARK, 0554, sent by mark key
kmsg key_message %3 KEY_MESSAGE, 0555, sent by message key
knp key_npage kN KEY_NPAGE, 0522, sent by next-page key
knxt key_next %5 KEY_NEXT, 0557, sent by next-object key
kopn key_open %6 KEY_OPEN, 0560, sent by open key
kopt key_options %7 KEY_OPTIONS, 0561, sent by options key
kpp key_ppage kP KEY_PPAGE, 0523, sent by previous-page key
kprt key_print %9 KEY_PRINT, 0532, sent by print or copy key
kprv key_previous %8 KEY_PREVIOUS, 0562, sent by previous-object key
krdo key_redo %0 KEY_REDO, 0563, sent by redo key
kref key_reference &1 KEY_REFERENCE, 0564, sent by ref(erence) key
kres key_resume &5 KEY_RESUME, 0570, sent by resume key
krfr key_refresh &2 KEY_REFRESH, 0565, sent by refresh key
kri key_sr kR KEY_SR, 0521, sent by scroll-backward/up key
krmir key_eic kM KEY_EIC, 0514, sent by rmir or smir in insert mode
krpl key_replace &3 KEY_REPLACE, 0566, sent by replace key
krst key_restart &4 KEY_RESTART, 0567, sent by restart key
ksav key_save &6 KEY_SAVE, 0571, sent by save key
kslt key_select *6 KEY_SELECT, 0601, sent by select key
kspd key_suspend &7 KEY_SUSPEND, 0627, sent by suspend key
ktbc key_catab ka KEY_CATAB, 0526, sent by clear-all-tabs key
kund key_undo &8 KEY_UNDO, 0630, sent by undo key
lf0 lab_f0 l0 Labels on function key f0 if not f0
lf1 lab_f1 l1 Labels on function key f1 if not f1
lf10 lab_f10 la Labels on function key f10 if not f10
lf2 lab_f2 l2 Labels on function key f2 if not f2
lf3 lab_f3 l3 Labels on function key f3 if not f3
lf4 lab_f4 l4 Labels on function key f4 if not f4
lf5 lab_f5 l5 Labels on function key f5 if not f5
lf6 lab_f6 l6 Labels on function key f6 if not f6
lf7 lab_f7 l7 Labels on function key f7 if not f7
lf8 lab_f8 l8 Labels on function key f8 if not f8
lf9 lab_f9 l9 Labels on function key f9 if not f9
ll cursor_to_ll ll Last line, first column (if no cup)
lpi change_line_pitch ZB Change number of lines per inch**
ma max_attributes ma Maximum combined video attributes
terminal can display
mc0 print_screen ps Print contents of the screen
mc4 prtr_off pf Turn off the printer
mc5 prtr_on po Turn on the printer
mc5p prtr_non pO Turn on the printer for #1 bytes
mcub parm_left_micro Zg Like parm_left_cursor for micro adjust.**
mcub1 micro_left Za Like cursor_left for micro adjustment
mcud parm_down_micro Zf Like parm_down_cursor for micro adjust. (G*)
mcud1 micro_down ZZ Like cursor_down for micro adjustment
mcuf parm_right_micro Zh Like parm_right_cursor for micro adjust.**
mcuf1 micro_right Zb Like cursor_right for micro adjustment
mcuu parm_up_micro Zi Like parm_up_cursor for micro adjust.**
mcuu1 micro_up Zd Like cursor_up for micro adjustment
mgc clear_margins MC Clear all margins (top, bottom, and sides)
mhpa micro_column_address ZY Like column_address for micro adjustment**
mrcup cursor_mem_address CM Memory relative cursor addressing (G)
mvpa micro_row_address Zc Like row_address for micro adjustment**
ndscr non_dest_scroll_region ND Scrolling region is non-destructive
nel newline nw Newline (behaves like cr followed by lf)
oc orig_colors oc Set all color(-pair)s to the original ones
op orig_pair op Set default color-pair to the original one
pad pad_char pc Pad character (rather than null)
pause fixed_pause PA Pause for 2-3 seconds
pfkey pkey_key pk Prog funct key #1 to type string #2
pfloc pkey_local pl Prog funct key #1 to execute string #2
pfx pkey_xmit px Prog funct key #1 to xmit string #2
pln plab_norm pn Prog label #1 to show string #2
porder order_of_pins Ze Matches software bits to print-head pins
prot enter_protected_mode mp Turn on protected mode
pulse pulse PU Select pulse dialing
qdial quick_dial QD Dial phone number #1, without progress detection
rbim stop_bit_image Zs End printing bit image graphics
rc restore_cursor rc Restore cursor to position of last sc
rcsd stop_char_set_def Zt End definition of a character set
rep repeat_char rp Repeat char #1 #2 times (G*)
rev enter_reverse_mode mr Turn on reverse video mode
rf reset_file rf Name of file containing reset string
rfi req_for_input RF Send next input char (for ptys)
ri scroll_reverse sr Scroll text down
rin parm_rindex SR Scroll backward #1 lines. (G)
ritm exit_italics_mode ZR Disable italics
rlm exit_leftward_mode ZS Enable rightward (normal) carriage motion
rmacs exit_alt_charset_mode ae End alternate character set
rmam exit_am_mode RA Turn off automatic margins
rmclk remove_clock RC Remove time-of-day clock
rmcup exit_ca_mode te String to end programs that use cup
rmdc exit_delete_mode ed End delete mode
rmicm exit_micro_mode ZT Disable micro motion capabilities
rmir exit_insert_mode ei End insert mode
rmkx keypad_local ke Out of ``keypad-transmit'' mode
rmln label_off LF Turn off soft labels
rmm meta_off mo Turn off "meta mode"
rmp char_padding rP Like ip but when in replace mode
rmso exit_standout_mode se End standout mode
rmul exit_underline_mode ue End underscore mode
rmxon exit_xon_mode RX Turn off xon/xoff handshaking
rs1 reset_1string r1 Reset terminal completely to sane modes
rs2 reset_2string r2 Reset terminal completely to sane modes
rs3 reset_3string r3 Reset terminal completely to sane modes
rshm exit_shadow_mode ZU Disable shadow printing
rsubm exit_subscript_mode ZV Disable subscript printing
rsupm exit_superscript_mode ZW Disable superscript printing
rum exit_upward_mode ZX Enable downward (normal) carriage motion
rwidm exit_doublewide_mode ZQ Disable double wide printing
sbim start_bit_image Zq Start printing bit image graphics**
sc save_cursor sc Save cursor position
sclk set_clock SC Set time-of-day clock
scp set_color_pair sp Set current color-pair
scs select_char_set Zj Select character set**
scsd start_char_set_def Zr Start definition of a character set**
sdrfq enter_draft_quality ZG Set draft quality print
setb set_background Sb Set current background color
setf set_foreground Sf Set current foreground color
sgr set_attributes sa Define the video attributes #1-#9 (G)
sgr0 exit_attribute_mode me Turn off all attributes
sitm enter_italics_mode ZH Enable italics
slm enter_leftward_mode ZI Enable leftward carriage motion
smacs enter_alt_charset_mode as Start alternate character set
smam enter_am_mode SA Turn on automatic margins
smcup enter_ca_mode ti String to begin programs that use cup
smdc enter_delete_mode dm Delete mode (enter)
smgb set_bottom_margin Zk Set bottom margin at current line
smgbp set_bottom_margin_parm Zl Set bottom margin at line #1**
smgl set_left_margin ML Set left margin at current line
smglp set_left_margin_parm Zm Set left margin at column #1**
smgr set_right_margin MR Set right margin at current column
smgrp set_right_margin_parm Zn Set right margin at column #1**
smgt set_top_margin Zo Set top margin at current line
smgtp set_top_margin_parm Zp Set top margin at line #1**
smicm enter_micro_mode ZJ Enable micro motion capabilities
smir enter_insert_mode im Insert mode (enter)
smkx keypad_xmit ks Put terminal in ``keypad-transmit'' mode
smln label_on LO Turn on soft labels
smm meta_on mm Turn on ``meta mode'' (8th bit)
smso enter_standout_mode so Begin standout mode
smxon enter_xon_mode SX Turn on xon/xoff handshaking
snlq enter_near_letter_quality ZK Set near-letter quality print
snrmq enter_normal_quality ZL Set normal quality print
sshm enter_shadow_mode ZM Enable shadow printing
ssubm enter_subscript_mode ZN Enable subscript printing
ssupm enter_superscript_mode ZO Enable superscript printing
subcs subscript_characters Zu List of ``subscript-able'' characters
sum enter_upward_mode ZP Enable upward carriage motion
supcs superscript_characters Zv List of ``superscript-able'' characters
swidm enter_doublewide_mode ZF Enable double wide printing
tbc clear_all_tabs ct Clear all tab stops
tone tone TO Select touch tone dialing
tsl to_status_line ts Go to status line, col #1 (G)
u0 user0 u0 User string 0
u1 user1 u1 User string 1
u2 user2 u2 User string 2
u3 user3 u3 User string 3
u4 user4 u4 User string 4
u5 user5 u5 User string 5
u6 user6 u6 User string 6
u7 user7 u7 User string 7
u8 user8 u8 User string 8
u9 user9 u9 User string 9
uc underline_char uc Underscore one char and move past it
up cursor_up cuu1 Upline (cursor up)
vpa row_address cv Vertical position absolute (G)
wait wait_tone WA Wait for dial tone
wind set_window wi Current window is lines #1-#2 cols #3-#4 (G)
wingo goto_window WG Got to window #1
wnum maximum_windows MW Maximum number of definable windows
xoffc xoff_character XF X-off character
xonc xon_character XN X-on character
zerom zero_motion Zx No motion for the subsequent character

 kf51     key_f51                     Ff     KEY_F(51), 0473, sent by function key f51
 kf52     key_f52                     Fg     KEY_F(52), 0474, sent by function key f52
 kf53     key_f53                     Fh     KEY_F(53), 0475, sent by function key f53
 kf54     key_f54                     Fi     KEY_F(54), 0476, sent by function key f54
 kf55     key_f55                     Fj     KEY_F(55), 0477, sent by function key f55
 kf56     key_f56                     Fk     KEY_F(56), 0500, sent by function key f56
 kf57     key_f57                     Fl     KEY_F(57), 0501, sent by function key f57
 kf58     key_f58                     Fm     KEY_F(58), 0502, sent by function key f58
 kf59     key_f59                     Fn     KEY_F(59), 0503, sent by function key f59
 kf6      key_f6                      k6     KEY_F(6), 0416, sent by function key f6
 kf60     key_f60                     Fo     KEY_F(60), 0504, sent by function key f60
 kf61     key_f61                     Fp     KEY_F(61), 0505, sent by function key f61
 kf62     key_f62                     Fq     KEY_F(62), 0506, sent by function key f62
 kf63     key_f63                     Fr     KEY_F(63), 0507, sent by function key f63
 kf7      key_f7                      k7     KEY_F(7), 0417, sent by function key f7
 Kf8      key_f8                      k8     KEY_F(8), 0420, sent by function key f8
 kf9      key_f9                      k9     KEY_F(9), 0421, sent by function key f9
 kfnd     key_find                    @0     KEY_FIND, 0552, sent by find key
 khlp     key_help                    %1     KEY_HELP, 0553, sent by help key
 khome    key_home                    kh     KEY_HOME, 0406, sent by home key
 khts     key_stab                    kT     KEY_STAB, 0524, sent by set-tab key
 kich1    key_ic                      kI     KEY_IC, 0513, sent by ins-char/enter ins-mode key
 kil1     key_il                      kA     KEY_IL, 0511, sent by insert-line key
 kind     key_sf                      kF     KEY_SF, 0520, sent by scroll-forward/down key
 kll      key_ll                      kH     KEY_LL, 0533, sent by home-down key
 kmov     key_move                    %4     KEY_MOVE, 0556, sent by move key
 kmrk     key_mark                    %2     KEY_MARK, 0554, sent by mark key
 kmsg     key_message                 %3     KEY_MESSAGE, 0555, sent by message key
 knp      key_npage                   kN     KEY_NPAGE, 0522, sent by next-page key
 knxt     key_next                    %5     KEY_NEXT, 0557, sent by next-object key
 kopn     key_open                    %6     KEY_OPEN, 0560, sent by open key
 kopt     key_options                 %7     KEY_OPTIONS, 0561, sent by options key
 kpp      key_ppage                   kP     KEY_PPAGE, 0523, sent by previous-page key
 kprt     key_print                   %9     KEY_PRINT, 0532, sent by print or copy key
 kprv     key_previous                %8     KEY_PREVIOUS, 0562, sent by previous-object key
 krdo     key_redo                    %0     KEY_REDO, 0563, sent by redo key
 kref     key_reference               &1     KEY_REFERENCE, 0564, sent by ref(erence) key
 kres     key_resume                  &5     KEY_RESUME, 0570, sent by resume key
 krfr     key_refresh                 &2     KEY_REFRESH, 0565, sent by refresh key
 kri      key_sr                      kR     KEY_SR, 0521, sent by scroll-backward/up key
 krmir    key_eic                     kM     KEY_EIC, 0514, sent by rmir or smir in insert mode
 krpl     key_replace                 &3     KEY_REPLACE, 0566, sent by replace key
 krst     key_restart                 &4     KEY_RESTART, 0567, sent by restart key
 ksav     key_save                    &6     KEY_SAVE, 0571, sent by save key
 kslt     key_select                  *6     KEY_SELECT, 0601, sent by select key
 kspd     key_suspend                 &7     KEY_SUSPEND, 0627, sent by suspend key
 ktbc     key_catab                   ka     KEY_CATAB, 0526, sent by clear-all-tabs key
 kund     key_undo                    &8     KEY_UNDO, 0630, sent by undo key
 lf0      lab_f0                      l0     Labels on function key f0 if not f0
 lf1      lab_f1                      l1     Labels on function key f1 if not f1
 lf10     lab_f10                     la     Labels on function key f10 if not f10
 lf2      lab_f2                      l2     Labels on function key f2 if not f2
 lf3      lab_f3                      l3     Labels on function key f3 if not f3
 lf4      lab_f4                      l4     Labels on function key f4 if not f4
 lf5      lab_f5                      l5     Labels on function key f5 if not f5
 lf6      lab_f6                      l6     Labels on function key f6 if not f6
 lf7      lab_f7                      l7     Labels on function key f7 if not f7
 lf8      lab_f8                      l8     Labels on function key f8 if not f8
 lf9      lab_f9                      l9     Labels on function key f9 if not f9
 ll       cursor_to_ll                ll     Last line, first column (if no cup)
 lpi      change_line_pitch           ZB     Change number of lines per inch**
 ma       max_attributes              ma     Maximum combined video attributes
                                             terminal can display
 mc0      print_screen                ps     Print contents of the screen
 mc4      prtr_off                    pf     Turn off the printer
 mc5      prtr_on                     po     Turn on the printer
 mc5p     prtr_non                    pO     Turn on the printer for #1 bytes
 mcub     parm_left_micro             Zg     Like parm_left_cursor for micro adjust.**
 mcub1    micro_left                  Za     Like cursor_left for micro adjustment
 mcud     parm_down_micro             Zf     Like parm_down_cursor for micro adjust. (G*)
 mcud1    micro_down                  ZZ     Like cursor_down for micro adjustment
 mcuf     parm_right_micro            Zh     Like parm_right_cursor for micro adjust.**
 mcuf1    micro_right                 Zb     Like cursor_right for micro adjustment
 mcuu     parm_up_micro               Zi     Like parm_up_cursor for micro adjust.**
 mcuu1    micro_up                    Zd     Like cursor_up for micro adjustment
 mgc      clear_margins               MC     Clear all margins (top, bottom, and sides)
 mhpa     micro_column_address        ZY     Like column_address for micro adjustment**
 mrcup    cursor_mem_address          CM     Memory relative cursor addressing (G)
 mvpa     micro_row_address           Zc     Like row_address for micro adjustment**
 ndscr    non_dest_scroll_region      ND     Scrolling region is non-destructive
 nel      newline                     nw     Newline (behaves like cr followed by lf)
 oc       orig_colors                 oc     Set all color(-pair)s to the original ones
 op       orig_pair                   op     Set default color-pair to the original one
 pad      pad_char                    pc     Pad character (rather than null)
 pause    fixed_pause                 PA     Pause for 2-3 seconds
 pfkey    pkey_key                    pk     Prog funct key #1 to type string #2
 pfloc    pkey_local                  pl     Prog funct key #1 to execute string #2
 pfx      pkey_xmit                   px     Prog funct key #1 to xmit string #2
 pln      plab_norm                   pn     Prog label #1 to show string #2
 porder   order_of_pins               Ze     Matches software bits to print-head pins
 prot     enter_protected_mode        mp     Turn on protected mode
 pulse    pulse                       PU     Select pulse dialing
 qdial    quick_dial                  QD     Dial phone number #1, without progress detection
 rbim     stop_bit_image              Zs     End printing bit image graphics
 rc       restore_cursor              rc     Restore cursor to position of last sc
 rcsd     stop_char_set_def           Zt     End definition of a character set
 rep      repeat_char                 rp     Repeat char #1 #2 times (G*)
 rev      enter_reverse_mode          mr     Turn on reverse video mode
 rf       reset_file                  rf     Name of file containing reset string
 rfi      req_for_input               RF     Send next input char (for ptys)
 ri       scroll_reverse              sr     Scroll text down
 rin      parm_rindex                 SR     Scroll backward #1 lines. (G)
 ritm     exit_italics_mode           ZR     Disable italics
 rlm      exit_leftward_mode          ZS     Enable rightward (normal) carriage motion
 rmacs    exit_alt_charset_mode       ae     End alternate character set
 rmam     exit_am_mode                RA     Turn off automatic margins
 rmclk    remove_clock                RC     Remove time-of-day clock
 rmcup    exit_ca_mode                te     String to end programs that use cup
 rmdc     exit_delete_mode            ed     End delete mode
 rmicm    exit_micro_mode             ZT     Disable micro motion capabilities
 rmir     exit_insert_mode            ei     End insert mode
 rmkx     keypad_local                ke     Out of ``keypad-transmit'' mode
 rmln     label_off                   LF     Turn off soft labels
 rmm      meta_off                    mo     Turn off "meta mode"
 rmp      char_padding                rP     Like ip but when in replace mode
 rmso     exit_standout_mode          se     End standout mode
 rmul     exit_underline_mode         ue     End underscore mode
 rmxon    exit_xon_mode               RX     Turn off xon/xoff handshaking
 rs1      reset_1string               r1     Reset terminal completely to sane modes
 rs2      reset_2string               r2     Reset terminal completely to sane modes
 rs3      reset_3string               r3     Reset terminal completely to sane modes
 rshm     exit_shadow_mode            ZU     Disable shadow printing
 rsubm    exit_subscript_mode         ZV     Disable subscript printing
 rsupm    exit_superscript_mode       ZW     Disable superscript printing
 rum      exit_upward_mode            ZX     Enable downward (normal) carriage motion
 rwidm    exit_doublewide_mode        ZQ     Disable double wide printing
 sbim     start_bit_image             Zq     Start printing bit image graphics**
 sc       save_cursor                 sc     Save cursor position
 sclk     set_clock                   SC     Set time-of-day clock
 scp      set_color_pair              sp     Set current color-pair
 scs      select_char_set             Zj     Select character set**
 scsd     start_char_set_def          Zr     Start definition of a character set**
 sdrfq    enter_draft_quality         ZG     Set draft quality print
 setb     set_background              Sb     Set current background color
 setf     set_foreground              Sf     Set current foreground color
 sgr      set_attributes              sa     Define the video attributes #1-#9 (G)
 sgr0     exit_attribute_mode         me     Turn off all attributes
 sitm     enter_italics_mode          ZH     Enable italics
 slm      enter_leftward_mode         ZI     Enable leftward carriage motion
 smacs    enter_alt_charset_mode      as     Start alternate character set
 smam     enter_am_mode               SA     Turn on automatic margins
 smcup    enter_ca_mode               ti     String to begin programs that use cup
 smdc     enter_delete_mode           dm     Delete mode (enter)
 smgb     set_bottom_margin           Zk     Set bottom margin at current line
 smgbp    set_bottom_margin_parm      Zl     Set bottom margin at line #1**
 smgl     set_left_margin             ML     Set left margin at current line
 smglp    set_left_margin_parm        Zm     Set left margin at column #1**
 smgr     set_right_margin            MR     Set right margin at current column
 smgrp    set_right_margin_parm       Zn     Set right margin at column #1**
 smgt     set_top_margin              Zo     Set top margin at current line
 smgtp    set_top_margin_parm         Zp     Set top margin at line #1**
 smicm    enter_micro_mode            ZJ     Enable micro motion capabilities
 smir     enter_insert_mode           im     Insert mode (enter)
 smkx     keypad_xmit                 ks     Put terminal in ``keypad-transmit'' mode
 smln     label_on                    LO     Turn on soft labels
 smm      meta_on                     mm     Turn on ``meta mode'' (8th bit)
 smso     enter_standout_mode         so     Begin standout mode
 smxon    enter_xon_mode              SX     Turn on xon/xoff handshaking
 snlq     enter_near_letter_quality   ZK     Set near-letter quality print
 snrmq    enter_normal_quality        ZL     Set normal quality print
 sshm     enter_shadow_mode           ZM     Enable shadow printing
 ssubm    enter_subscript_mode        ZN     Enable subscript printing
 ssupm    enter_superscript_mode      ZO     Enable superscript printing
 subcs    subscript_characters        Zu     List of ``subscript-able'' characters
 sum      enter_upward_mode           ZP     Enable upward carriage motion
 supcs    superscript_characters      Zv     List of ``superscript-able'' characters
 swidm    enter_doublewide_mode       ZF     Enable double wide printing
 tbc      clear_all_tabs              ct     Clear all tab stops
 tone     tone                        TO     Select touch tone dialing
 tsl      to_status_line              ts     Go to status line, col #1 (G)
 u0       user0                       u0     User string 0
 u1       user1                       u1     User string 1
 u2       user2                       u2     User string 2
 u3       user3                       u3     User string 3
 u4       user4                       u4     User string 4
 u5       user5                       u5     User string 5
 u6       user6                       u6     User string 6
 u7       user7                       u7     User string 7
 u8       user8                       u8     User string 8
 u9       user9                       u9     User string 9
 uc       underline_char              uc     Underscore one char and move past it
 up       cursor_up                   cuu1   Upline (cursor up)
 vpa      row_address                 cv     Vertical position absolute (G)
 wait     wait_tone                   WA     Wait for dial tone
 wind     set_window                  wi     Current window is lines #1-#2 cols #3-#4 (G)
 wingo    goto_window                 WG     Got to window #1
 wnum     maximum_windows             MW     Maximum number of definable windows
 xoffc    xoff_character              XF     X-off character
 xonc     xon_character               XN     X-on character
 zerom    zero_motion                 Zx     No motion for the subsequent character

Sample entry

The following entry for the AT&T 610 terminal is among the more complex entries in the terminfo file.

610 | 610bct | ATT610 | att610 | AT&T 610; 80 column; 98key keyboard
	am, eslok, hs, mir, msgr, xenl, xon,
	cols#80, it#8, lh#2, lines#24, lw#8, nlab#8, wsl#80,
	acsc=``aaffggjjkkllmmnnooppqqrrssttuuvvwwxxyyzz{{ | | }}~~,
	bel=^G, blink=\E[5m, bold=\E[1m, cbt=\E[Z,
	civis=\E[?25l, clear=\E[H\E[J, cnorm=\E[?25h\E[?12l,
	cr=\r, csr=\E[%i%p1%d;%p2%dr, cub=\E[%p1%dD, cub1=\b,
	cud=\E[%p1%dB, cud1=\E[B, cuf=\E[%p1%dC, cuf1=\E[C,
	cup=\E[%i%p1%d;%p2%dH, cuu=\E[%p1%dA, cuu1=\E[A,
	cvvis=\E[?12;25h, dch=\E[%p1%dP, dch1=\E[P, dim=\E[2m,
	dl=\E[%p1%dM, dl1=\E[M, ed=\E[J, el=\E[K, el1=\E[1K,
	flash=\E[?5h$<200>\E[?5l, fsl=\E8, home=\E[H, ht=\t,
	ich=\E[%p1%d@, il=\E[%p1%dL, il1=\E[L, ind=\ED,
	invis=\E[8m,
	is1=\E[8;0 | \E[?3;4;5;13;15l\E[13;20l\E[?7h\E[12h\E(B\E)0,
	is2=\E[0m^O, is3=\E(B\E)0, kLFT=\E[\s@, kRIT=\E[\sA,
	kbs=\b, kcbt=\E[Z, kclr=\E[2J, kcub1=\E[D, kcud1=\E[B,
	kcuf1=\E[C, kcuu1=\E[A, kf1=\EOc, kf10=\ENp,
	kf11=\ENq, kf12=\ENr, kf13=\ENs, kf14=\ENt, kf2=\EOd,
	kf3=\EOe, kf4=\EOf, kf5=\EOg, kf6=\EOh, kf7=\EOi,
	kf8=\EOj, kf9=\ENo, khome=\E[H, kind=\E[S, kri=\E[T,
	ll=\E[24H, mc4=\E[?4i, mc5=\E[?5i, nel=\EE,
	pfx=\E[%p1%d;%p2%l%02dq\s\s\sF%p1%1d\s\s\s\s\s
\s\s\s\s\s\s%p2%s,
	pln=\E[%p1%d;0;0;0q%p2%:-16.16s, rc=\E8, rev=\E[7m,
	ri=\EM, rmacs=^O, rmir=\E[4l, rmln=\E[2p, rmso=\E[m,
	rmul=\E[m, rs2=\Ec\E[?3l, sc=\E7,
	sgr=\E[0%?%p6%t;1%;%?%p5%t;2%;%?%p2%t;4%;%?%p4%t;5%;
%?%p3%p1% | %t;7%;%?%p7%t;8%;m%?%p9%t^N%e^O%;,
	sgr0=\E[m^O, smacs=^N, smir=\E[4h, smln=\E[p,
	smso=\E[7m, smul=\E[4m, tsl=\E7\E[25;%i%p1%dx,

Types of capabilities in the sample entry

The sample entry shows the formats for the three types of terminfo capabilities listed: Boolean, Numeric, and String. The names of Boolean capabilities are often listed as abbreviations or acronyms, such as am (short for ``automatic margins'') in the sample entry. (``Automatic margins'' is a short description of an automatic return and linefeed when the end of a line is reached.)

Numeric capabilities are followed by the character ``#'' and then the value. Thus, in the sample, cols (which shows the number of columns available on a terminal) gives the value 80 for the AT&T 610. (Values for numeric capabilities may be specified in decimal, octal or hexadecimal, using normal C conventions.)

Finally, string-valued capabilities such as el (clear to end-of-line sequence) are listed by a two- to five-character capname, an ``='', and a string ended by the next occurrence of a comma. A delay in milliseconds may appear anywhere in such a capability, enclosed in $<..> brackets, as in el=\EK$<3>. Padding characters are supplied by tputs(). The delay can be any of the following: a number (5), a number followed by a ``*'' (5*), a number followed by a ``/'' (5/), or a number followed by both (5*/). A ``*'' shows 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 characters, the factor is still the number of lines affected. This is always 1 unless the terminal has in and the software uses it.) When a ``*'' is specified, it is sometimes useful to give a delay of the form 3.5 to specify a delay per unit to tenths of milliseconds. (Only one decimal place is allowed.)

A ``/'' indicates that the padding is mandatory. Absence of a ``/'' is not shown, if the terminal has xon defined. Padding information is advisory and will be used only for cost estimates or when the terminal is in raw mode. Mandatory padding will be transmitted regardless of the setting of xon.

A number of escape sequences are provided in the string valued capabilities for easy encoding of characters there. Both \E and \e map to an ESCAPE character, ^x maps to a control-x for any appropriate x, and the sequences \n, \l, \r, \t, \b, \f, and \s give a newline, linefeed, return, tab, backspace, formfeed, and space, respectively. Other escapes include: \^ for caret (^); \\ for backslash (\); \, for comma (,); \: for colon (:); and \0 for null. (\0 will actually produce \200, which does not terminate a string but behaves as a null character on most terminals.) Finally, characters may be given as three octal digits after a backslash (for example, \123).

Sometimes individual capabilities must be commented out. To do this, put a period before the capability name. For example, see the second ind in the example above. Note that capabilities are defined in a left-to-right order and, therefore, a prior definition will override a later definition.

Preparing descriptions

The most effective way to prepare a terminal description is by imitating the description of a similar terminal in terminfo and building up a description gradually, using partial descriptions with vi to check that they are correct. Be aware that a very unusual terminal may expose deficiencies in the ability of the terminfo file to describe it or the inability of vi to work with that terminal. To test a new terminal description, set the environment variable TERMINFO to a pathname of a directory containing the compiled description you are working on: programs will then look there rather than in /usr/lib/terminfo. To get the padding for insert-line correct (if the terminal manufacturer did not document it) a severe test is to comment out xon, edit a large file at 9600 baud with vi, delete 16 or so lines from the middle of the screen, then hit the ``u'' key several times quickly. If the display is corrupted, more padding is usually needed. A similar test can be used for insert-character.

Basic capabilities

The number of columns on each line for the terminal is given by the cols numeric capability. If the terminal has a screen, then the number of lines on the screen is given by the lines capability. If the terminal can clear its screen, leaving the cursor in the home position, then this is given by the clear string capability. If the terminal overstrikes (rather than clearing a position when a character is struck over) then it should have the os capability. If the terminal is a printing terminal, with no soft copy unit, give it both hc and os. (os applies to storage scope terminals, such as the Tektronix 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 cr. (Normally this will be carriage return, control M.) If there is a code to produce an audible signal (such as a bell or a beep), specify it as bel. If the terminal uses the xon-xoff flow-control protocol, like most terminals, specify xon.

If there is a code to move the cursor one position to the left (such as backspace), that capability should be given as cub1. Similarly, codes to move to the right, up, and down should be given as cuf1, cuu1, and cud1. These local cursor motions should not alter the text they pass over; for example, you would not normally use ``cuf1=\s'' because the space would erase the character moved over.

A very important point here is that the local cursor motions encoded in terminfo are undefined at the left and top edges of a screen terminal. Programs should never attempt to backspace around the left edge, unless bw is given, and should 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 ind (index) string.

To scroll text down, a program goes to the top left corner of the screen and sends the ri (reverse index) string. The strings ind and ri are undefined when not on their respective corners of the screen.

Parameterized versions of the scrolling sequences are indn and rin which have the same semantics as ind and ri except that they take one parameter, and scroll that many lines. They are also undefined except at the appropriate edge of the screen.

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. The am 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 cuf1 from the last column. The only local motion which is defined from the left edge is if bw is given: then a cub1 from the left edge will move to the right edge of the previous row. If 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 terminfo file usually assumes that this is on; that is, am. If the terminal has a command which moves to the first column of the next line, that command can be given as nel (newline). It does not matter if the command clears the remainder of the current line, so if the terminal has no cr and lf it may still be possible to craft a working nel out of one or both of them.

These capabilities suffice to describe hardcopy and screen terminals. Thus the model 33 teleprinter is described as:

   hc, os, xon
      cols#72,
      bel=^G, cr=\r, cud1=\n, ind=\n,
while the Lear Siegler ADM-3 is described as:
      adm3|lsi adm3,
      am, bel=^G, clear=^Z, cols#80, cr=^M, cub1=^H,
      cud1=^J, ind=^J, lines#24,

Parameterized strings

Cursor addressing and other strings requiring parameters in the terminal are described by a parameterized string capability, with printf(S) -like escapes (%x) in it. For example, to address the cursor, the 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 mrcup.

The parameter mechanism uses a stack and special % codes to manipulate it in the manner of a Reverse Polish Notation (postfix) calculator. 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. Binary operations are in postfix form with the operands in the usual order. That is, to get x-5 one would use %gx%{5}%-.

The % encodings have the following meanings:


%% outputs `%'
%[[:]flags][width[.precision]][doxXs]
as in printf, flags are [-+#] and space
%c print pop() gives %c

%p[1-9] push i[th] parm
%P[a-z] set variable [a-z] to pop()
%g[a-z] get variable [a-z] and push it
%'c' push char constant c
%{nn} push decimal constant nn
%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 operations: and, or
%! %~ unary operations: push(op pop())
%i (for ANSI terminals)
add 1 to first parm, if one parm present,
or first two parms, if more than one parm present

%? expr %t thenpart %e elsepart %;
if-then-else, %e elsepart is optional;
else-if's are possible ala Algol 68:
%? c[1] %t b[1] %e c[2] %t b[2] %e c[3] %t b[3] %e c[4] %t b[4] %e b[5]%;

c[i] are conditions, b[i] are bodies.

If the ``-'' flag is used with ``%[doxXs]'', then a colon (:) must be placed between the ``%'' and the ``-'' to differentiate the flag from the binary ``%-'' operator, for example, ``%:-16.16s''.

Consider the Hewlett-Packard 2645, 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 zero-padded as two digits. Thus its cup capability is ``cup=\E&a%p2%2.2dc%p1%2.2dY$<6>''.

The Micro-Term ACT-IV needs the current row and column sent preceded by a ^T, with the row and column simply encoded in binary, ``cup=^T%p1%c%p2%c''. Terminals which use ``%c'' need to be able to backspace the cursor (cub1), and to move the cursor up one line on the screen (cuu1). This is necessary because it is not always safe to transmit \n, ^D, and \r, as the system may change or discard them. (The library routines dealing with terminfo set tty modes so that tabs are never expanded, so \t is safe to send. This turns out to be essential for the Ann Arbor 4080.)

A final example is the LSI ADM-3a, which uses row and column offset by a blank character, thus ``cup=\E=%p1%'\s'%+%c%p2%'\s'%+%c''. After sending ``\E='', this pushes the first parameter, pushes the ASCII value for a space (S), 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.

Cursor motions

If the terminal has a fast way to home the cursor (to very upper left corner of screen) then this can be given as home; similarly a fast way of getting to the lower left-hand corner can be given as ll; this may involve going up with cuu1 from the home position, but a program should never do this itself (unless ll 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 \EH sequence on Hewlett-Packard terminals cannot be used for home without losing some of the other features on the terminal.)

If the terminal has row or column absolute-cursor addressing, these can be given as single parameter capabilities hpa (horizontal position absolute) and vpa (vertical position absolute). Sometimes these are shorter than the more general two-parameter sequence (as with the Hewlett-Packard 2645) and can be used in preference to cup. If there are parameterized local motions (for example, move n spaces to the right) these can be given as cud, cub, cuf, and cuu with a single parameter indicating how many spaces to move. These are primarily useful if the terminal does not have cup, such as the Tektronix 4025.

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 el. 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 el1. If the terminal can clear from the current position to the end of the display, then this should be given as ed. ed 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 ed is not available.)

Insert/delete line

If the terminal can open a new blank line before the line where the cursor is, this should be given as il1; 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 dl1; this is done only from the first position on the line to be deleted. Versions of il1 and dl1 which take a single parameter and insert or delete that many lines can be given as il and dl.

If the terminal has a settable destructive scrolling region (like the VT100) the command to set this can be described with the csr capability, which takes two parameters: the top and bottom lines of the scrolling region. The cursor position is, unfortunately, undefined after using this command. It is possible to get the effect of insert or delete line using this command -- the sc and rc (save and restore cursor) commands are also useful. Inserting lines at the top or bottom of the screen can also be done using ri or ind on many terminals without a true insert/delete line, and is often faster even on terminals with those features.

To determine whether a terminal has destructive scrolling regions or non-destructive scrolling regions, create a scrolling region in the middle of the screen, place data on the bottom line of the scrolling region, move the cursor to the top line of the scrolling region, and do a reverse index (ri) followed by a delete line (dl1) or index (ind). If the data that was originally on the bottom line of the scrolling region was restored into the scrolling region by the dl1 or ind, then the terminal has non-destructive scrolling regions. Otherwise, it has destructive scrolling regions. Do not specify csr if the terminal has non-destructive scrolling regions, unless ind, ri, indn, rin, dl, and dl1 all simulate destructive scrolling.

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 wind. The four parameters are the starting and ending lines in memory and the starting and ending columns in memory, in that order.

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 indicate that deleting a line or scrolling a full screen may bring non-blank lines up from below or that scrolling back with ri may bring down non-blank lines.

Insert/delete character

There are two basic kinds of intelligent terminals with respect to insert/delete character operations which can be described using 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 ``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''. While these are two logically separate attributes (one line versus multiline insert mode, and special treatment of untyped spaces) no terminals whose insert mode cannot be described with the single attribute have been seen.

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 smir the sequence to get into insert mode. Give as rmir the sequence to leave insert mode. Now give as ich1 any sequence needed to be sent just before sending the character to be inserted. Most terminals with a true insert mode will not give ich1; terminals which send a sequence to open a screen position should give it here. (If your terminal has both, insert mode is usually preferable to ich1. Do not give both unless the terminal actually requires both to be used in combination.) If post-insert padding is needed, give this as a number of milliseconds padding 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. If your terminal needs both to be placed into an `insert mode' and a special code to precede each inserted character, then both smir/rmir and ich1 can be given, and both will be used. The ich capability, with one parameter, n, will insert n blanks.

If padding is necessary between characters typed while not in insert mode, give this as a number of milliseconds padding in rmp.

It is occasionally necessary to move around while in insert mode to delete characters on the same line (for example, if there is a tab after the insertion position). If your terminal allows motion while in insert mode you can give the capability mir to speed up inserting in this case. Omitting mir will affect only speed. Some terminals (notably Datamedia's) must not have mir because of the way their insert mode works.

Finally, you can specify dch1 to delete a single character, dch with one parameter, n, to delete n characters, and delete mode by giving smdc and rmdc to enter and exit delete mode (any mode the terminal needs to be placed in for dch1 to work).

A command to erase n characters (equivalent to outputting n blanks without moving the cursor) can be given as ech with one parameter.

Highlighting, underlining, and visible bells

Your terminal may have one or more kinds of display attributes that allow you to highlight selected characters when they appear on the screen. The following display modes (shown with the names by which they are set) may be available: a blinking screen (blink), bold or extra-bright characters (bold), dim or half-bright characters (dim), blanking or invisible text (invis), protected text (prot), a reverse-video screen (rev), and an alternate character set (smacs to enter this mode and rmacs to exit it). (If a command is necessary before you can enter alternate character set mode, give the sequence in enacs or ``enable alternate-character-set'' mode.) Turning on any of these modes singly may or may not turn off other modes.

If you set any display attributes for highlighting, you will also want to provide the capability for turning them off. To do so, set sgr0.

You should choose one display method as standout mode (see curses(S)) and use it to highlight error messages and other kinds of text to which you want to draw attention. Choose a form of display that provides strong contrast but that is easy on the eyes. (We recommend reverse-video plus half-bright or reverse-video alone.) The sequences to enter and exit standout mode are given as smso and rmso, 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 xmc should be given to tell how many spaces are left.

Codes to begin underlining and end underlining can be given as smul and rmul, respectively. If the terminal has a code to underline the current character and move the cursor one space to the right, such as the Micro-Term MIME, this can be given as uc.

For historical reasons, some programs interpret rmso, rmul to mean ``turn off all attributes'', not just standout and underline, respectively.

If there is a sequence to set arbitrary combinations of modes, this should be given as sgr (set attributes), taking nine parameters. Each parameter is either 0 or non-zero, as the corresponding attribute is on or off. The nine parameters are, in order: standout, underline, reverse, blink, dim, bold, blank, protect, alternate character set. Not all modes need to be supported by sgr; only those for which corresponding separate attribute commands exist should be supported. (See the example at the end of this section.)

Terminals with the ``magic cookie'' glitch (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 Hewlett-Packard 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 msgr capability, asserting that it is safe to move in standout mode, is present.

If the terminal has a way of flashing the screen to indicate an error quietly (a bell replacement), then this can be given as flash; it must not move the cursor. A good flash can be done by changing the screen into reverse video, pad for 200 ms, then return the screen to normal video.

If the cursor needs to be made more visible than normal when it is not on the bottom line (for example, to make a non-blinking underline into an easier-to-find block or blinking underline) give this sequence as cvvis. The boolean chts should also be given. If there is a way to make the cursor completely invisible, give that as civis. The capability cnorm should be given which undoes the effects of either of these modes.

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 smcup and rmcup. This arises, for example, from terminals, such as 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 Tektronix 4025, where smcup sets the command character to be the one used by terminfo. If the smcup sequence will not restore the screen after a rmcup sequence is output (to the state prior to outputting rmcup), specify nrrmc.

If your terminal generates underlined characters by using the underline character (with no special codes needed) even though it does not otherwise overstrike characters, then you should give the capability ul. For terminals where a character overstriking another leaves both characters on the screen, give the capability os. If overstrikes are erasable with a blank, then this should be indicated by giving eo.

Example of highlighting: assume that the terminal under question needs the following escape sequences to turn on various modes.

Tparm Attribute Escape sequence    
parameter        
  none \E[0m    
p1 standout \E[0;4;7m    
p2 underline \E[0;3m    
p3 reverse \E[0;4m    
p4 blink \E[0;5m    
p5 dim \E[0;7m    
p6 bold \E[0;3;4m    
p7 invis \E[0;8m    
  protect not available    
p9 altcharset ^O (off) ^N(on)    

 +-----------+--------------+------------------+---+---------------+
 |Tparm      |  Attribute   |  Escape sequence |   |               |
 +-----------+--------------+------------------+---+---------------+
 |parameter  |              |                  |   |               |
 +-----------+--------------+------------------+---+---------------+
 |           |  none        |  \E[0m           |   |               |
 +-----------+--------------+------------------+---+---------------+
 |   p1      |  standout    |  \E[0;4;7m       |   |               |
 +-----------+--------------+------------------+---+---------------+
 |   p2      |  underline   |  \E[0;3m         |   |               |
 +-----------+--------------+------------------+---+---------------+
 |   p3      |  reverse     |  \E[0;4m         |   |               |
 +-----------+--------------+------------------+---+---------------+
 |   p4      |  blink       |  \E[0;5m         |   |               |
 +-----------+--------------+------------------+---+---------------+
 |   p5      |  dim         |  \E[0;7m         |   |               |
 +-----------+--------------+------------------+---+---------------+
 |   p6      |  bold        |  \E[0;3;4m       |   |               |
 +-----------+--------------+------------------+---+---------------+
 |   p7      |  invis       |  \E[0;8m         |   |               |
 +-----------+--------------+------------------+---+---------------+
 |           |  protect     |  not available   |   |               |
 +-----------+--------------+------------------+---+---------------+
 |   p9      |  altcharset  |  ^O (off) ^N(on) |   |               |
 +-----------+--------------+------------------+---+---------------+
Note that each escape sequence requires a 0 to turn off other modes before turning on its own mode. Also note that, as suggested above, standout is set up to be the combination of reverse and dim. Also, because this terminal has no bold mode, bold is set up as the combination of reverse and underline. In addition, to allow combinations, such as underline+blink, the sequence to use would be \E[0;3;5m. The terminal does not have protect mode, either, but that cannot be simulated in any way, so is ignored. The altcharset mode is different in that it is either ^O or ^N, depending on whether it is off or on. If all modes were to be turned on, the sequence would be \E[0;3;4;5;7;8m^N.

Now look at when different sequences are output. For example, ;3 is output when either p2 or p6 is true; that is, if either underline or bold modes are turned on. Writing out the above sequences, along with their dependencies, gives the following:

Sequence When to output Terminfo translation
\E[0 always \E[0
;3 if p2 or p6 %?%p2%p6%|%t;3%;
;4 if p1 or p3 or p6 %?%p1%p3%|%p6%|%t;4%;
;5 if p4 %?%p4%t;5%;
;7 if p1 or p5 %?%p1%p5%|%t;7%;
;8 if p7 %?%p7%t;8%;
m always m
^N or ^O if p9 ^N, else ^O %?%p9%t^N%e^O%;

 +-------------+--------------------------+--------------------------+
 |Sequence     |    When to output        |    Terminfo translation  |
 +-------------+--------------------------+--------------------------+
 |\E[0         |    always                |    \E[0                  |
 +-------------+--------------------------+--------------------------+
 |;3           |    if p2 or p6           |    %?%p2%p6%|%t;3%;      |
 +-------------+--------------------------+--------------------------+
 |;4           |    if p1 or p3 or p6     |    %?%p1%p3%|%p6%|%t;4%; |
 +-------------+--------------------------+--------------------------+
 |;5           |    if p4                 |    %?%p4%t;5%;           |
 +-------------+--------------------------+--------------------------+
 |;7           |    if p1 or p5           |    %?%p1%p5%|%t;7%;      |
 +-------------+--------------------------+--------------------------+
 |;8           |    if p7                 |    %?%p7%t;8%;           |
 +-------------+--------------------------+--------------------------+
 |m            |    always                |    m                     |
 +-------------+--------------------------+--------------------------+
 |^N or ^O     |    if p9 ^N, else ^O     |    %?%p9%t^N%e^O%;       |
 +-------------+--------------------------+--------------------------+
Putting this all together into the sgr sequence gives:

sgr=\E[0%?%p2%p6%|%t;3%;%?%p1%p3%|%p6%|%t;4%;%?%p5%t;5%;

%?%p1%p5%|%t;7%;%?%p7%t;8%;m%?%p9%t^N%e^O%;,

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 Hewlett-Packard 2621 keys). If the keypad can be set to transmit or not transmit, give these codes as smkx and rmkx. Otherwise the keypad is assumed to transmit.

The codes sent by the left arrow, right arrow, up arrow, down arrow, and home keys can be given as kcub1, kcuf1, kcuu1, kcud1, and khome respectively. If there are function keys such as f0, f1, ..., f63, the codes they send can be given as kf0, kf1, ..., kf63. If the first 11 keys have labels other than the default f0 through f10, the labels can be given as lf0, lf1, ..., lf10. The codes transmitted by certain other special keys can be given: kll (home down), kbs (backspace), ktbc (clear all tabs), kctab (clear the tab stop in this column), kclr (clear screen or erase key), kdch1 (delete character), kdl1 (delete line), krmir (exit insert mode), kel (clear to end of line), ked (clear to end of screen), kich1 (insert character or enter insert mode), kil1 (insert line), knp (next page), kpp (previous page), kind (scroll forward/down), kri (scroll backward/up), 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 ka1, ka3, kb2, kc1, and kc3. These keys are useful when the effects of a 3 by 3 directional pad are needed. Further keys are defined above in the capabilities list.

Strings to program function keys can be given as pfkey, pfloc, and pfx. A string to program their soft-screen labels can be given as pln. 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 pfkey causes pressing the given key to give the same result as the user typing the given string; pfloc causes the string to be executed by the terminal in local mode; and pfx causes the string to be transmitted to the computer. The capabilities nlab, lw, and lh define how many soft labels there are and their width and height. If there are commands to turn the labels on and off, give them in smln and rmln. smln is normally output after one or more pln sequences to make sure that the change becomes visible.

Tabs and initialization

If the terminal has hardware tabs, the command to advance to the next tab stop can be given as ht (usually control I). A ``backtab'' command which moves left to the next tab stop can be given as 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 ht or 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 n spaces when the terminal is powered up, the numeric parameter it is given, showing the number of spaces the tabs are set to. This is normally used by tput init (see tput(C)) 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 nonvolatile memory, the terminfo description can assume that they are properly set. If there are commands to set and clear tab stops, they can be given as tbc (clear all tab stops) and hts (set a tab stop in the current column of every row).

Other capabilities include: is1, is2, and is3, initialization strings for the terminal; iprog, the path name of a program to be run to initialize the terminal; and if, 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 must be sent to the terminal each time the user logs in and be output in the following order: run the program iprog; output is1; output is2; set the margins using mgc, smgl, and smgr; set the tabs using tbc and hts; print the file if; and finally output is3. This is usually done using the init option of tput; see profile(M).

Most initialization is done with is2. Special terminal modes can be set up without duplicating strings by putting the common sequences in is2 and special cases in is1 and is3. Sequences that do a harder reset from a totally unknown state can be given as rs1, rs2, rf, and rs3, analogous to is1, is2, is3, and if. (The method using files, if and rf, is used for a few terminals, from /usr/lib/tabset/*; however, the recommended method is to use the initialization and reset strings.) These strings are output by tput reset, which is used when the terminal gets into a wedged state. Commands are normally placed in rs1, rs2, rs3, and rf only if they produce annoying effects on the screen and are not necessary when logging in.

For example, the command to set a terminal into 80-column mode would normally be part of is2, but on some terminals it causes an annoying glitch on the screen and is not normally needed since the terminal is usually already in 80-column mode.

If a more complex sequence is needed to set the tabs than can be described by using tbc and hts, the sequence can be placed in is2 or if.

Any margin can be cleared with mgc. (For instructions on how to specify commands to set and clear margins, see ``Margins'' under ``Part 2: Printer capabilities'').

Delays

Certain capabilities control padding in the tty(7) driver. These are primarily needed by hard-copy terminals, and are used by tput init to set tty modes appropriately. Delays embedded in the capabilities cr, ind, cub1, ff, and tab can be used to set the appropriate delay bits to be set in the tty driver. If pb (padding baud rate) is given, these values can be ignored at baud rates below the value of pb.

Status lines

If the terminal has an extra ``status line'' that is not normally used by software, this fact can be indicated. If the status line is viewed as an extra line below the bottom line, into which one can cursor address normally (such as the Heathkit h19's 25th line, or the 24th line of a VT100 which is set to a 23-line scrolling region), the capability hs should be given. Special strings that go to a given column of the status line and return from the status line can be given as tsl and fsl. (fsl must leave the cursor position in the same place it was before tsl. If necessary, the sc and rc strings can be included in tsl and fsl to get this effect.) The capability tsl takes one parameter, which is the column number of the status line the cursor is to be moved to.

If escape sequences and other special commands, such as tab, work while in the status line, the flag eslok can be given. A string which turns off the status line (or otherwise erases its contents) should be given as dsl. If the terminal has commands to save and restore the position of the cursor, give them as sc and rc. The status line is normally assumed to be the same width as the rest of the screen, for example, cols. If the status line is a different width (possibly because the terminal does not allow an entire line to be loaded) the width, in columns, can be indicated with the numeric parameter wsl.

Line graphics

If the terminal has a line drawing alternate character set, the mapping of glyph to character would be given in acsc. The definition of this string is based on the alternate character set used in the DEC VT100 terminal, extended slightly with some characters from the AT&T 4410v1 terminal.

Glyph name vt100+
character
arrow pointing right +
arrow pointing left ,
arrow pointing down .
solid square block 0
lantern symbol I
arrow pointing up -
diamond `
checker board (stipple) a
degree symbol f
plus/minus g
board of squares h
lower right corner j
upper right corner k
upper left corner l
lower left corner m
plus n
scan line 1 o
horizontal line q
scan line 9 s
left tee (|-) t
right tee (-|) u
bottom tee (RIGHT FLOOR) v
top tee (LEFT CEILING) w
vertical line x
bullet ~

 +------------------------+-----------+
 |Glyph name              | vt100+    |
 +------------------------+-----------+
 |                        | character |
 +------------------------+-----------+
 |arrow pointing right    | +         |
 +------------------------+-----------+
 |arrow pointing left     | ,         |
 +------------------------+-----------+
 |arrow pointing down     | .         |
 +------------------------+-----------+
 |solid square block      | 0         |
 +------------------------+-----------+
 |lantern symbol          | I         |
 +------------------------+-----------+
 |arrow pointing up       | -         |
 +------------------------+-----------+
 |diamond                 | `         |
 +------------------------+-----------+
 |checker board (stipple) | a         |
 +------------------------+-----------+
 |degree symbol           | f         |
 +------------------------+-----------+
 |plus/minus              | g         |
 +------------------------+-----------+
 |board of squares        | h         |
 +------------------------+-----------+
 |lower right corner      | j         |
 +------------------------+-----------+
 |upper right corner      | k         |
 +------------------------+-----------+
 |upper left corner       | l         |
 +------------------------+-----------+
 |lower left corner       | m         |
 +------------------------+-----------+
 |plus                    | n         |
 +------------------------+-----------+
 |scan line 1             | o         |
 +------------------------+-----------+
 |horizontal line         | q         |
 +------------------------+-----------+
 |scan line 9             | s         |
 +------------------------+-----------+
 |left tee (|-)           | t         |
 +------------------------+-----------+
 |right tee (-|)          | u         |
 +------------------------+-----------+
 |bottom tee (|)          | v         |
 +------------------------+-----------+
 |top tee (|)             | w         |
 +------------------------+-----------+
 |vertical line           | x         |
 +------------------------+-----------+
 |bullet                  | ~         |
 +------------------------+-----------+

The best way to describe a new terminal's line graphics set is to add a third column to the above table with the characters for the new terminal that produce the appropriate glyph when the terminal is in the alternate character set mode. For example,

Glyph name vt100+ new tty
character character
upper left corner l R
lower left corner m F
upper right corner k T
lower right corner j G
horizontal line q ,
vertical line x .

 +-------------------+-----------+-----------+
 |Glyph name         | vt100+    | new tty   |
 +-------------------+-----------+-----------+
 |                   | character | character |
 +-------------------+-----------+-----------+
 |upper left corner  | l         | R         |
 +-------------------+-----------+-----------+
 |lower left corner  | m         | F         |
 +-------------------+-----------+-----------+
 |upper right corner | k         | T         |
 +-------------------+-----------+-----------+
 |lower right corner | j         | G         |
 +-------------------+-----------+-----------+
 |horizontal line    | q         | ,         |
 +-------------------+-----------+-----------+
 |vertical line      | x         | .         |
 +-------------------+-----------+-----------+
Now write down the characters left to right, as in ``acsc=lRmFkTjGq\,x.''.

In addition, terminfo allows you to define multiple character sets. See ``Alternate character sets'' for details.

Color manipulation

There are two methods of color manipulation: the HP method and the Tektronix method. Most existing color terminals belong to one of these two classes.

The Tektronix method uses a set of N predefined colors (usually 8) from which a user can select ``current'' foreground and background colors. Thus the terminal can support up to N colors mixed into N*N color-pairs to be displayed on the screen at the same time.

The HP method restricts the user from defining the foreground independently of the background, or vice-versa. Instead, the user must define an entire color-pair at once. Up to M color-pairs, made from 2*M different colors, can be defined this way.

The numeric variables colors and pairs define the number of colors and color-pairs that can be displayed on the screen at the same time. If a terminal can change the definition of a color (for example, the Tektronix 4100 and 4200 series terminals can do this), this should be specified with ccc (can change color). To change the definition of a color (Tektronix method), use initc (initialize color). It requires four arguments: color number (ranging from 0 to colors-1) and three RGB (red, green, and blue) values (ranging from 0 to 1,000).

Tektronix 4100 series terminals use a type of color notation called HLS (Hue Lightness Saturation) instead of RGB color notation. For such terminals one must define a boolean variable hls. The last three arguments to the initc string would then be HLS values: H, ranging from 0 to 360; and L and S, ranging from 0 to 100.

If a terminal can change the definitions of colors, but uses a color notation different from RGB and HLS, a mapping to either RGB or HLS must be developed.

To set current foreground or background to a given color, use setf (set foreground) and setb (set background). They require one parameter: the number of the color. To initialize a color-pair (HP method), use initp (initialize pair). It requires seven parameters: the number of a color-pair (range = 0 to pairs-1), and six RGB values: three for the foreground followed by three for the background. (Each of these groups of three should be in the order RGB.) When initc or initp are used, RGB or HLS arguments should be in the order ``red, green, blue'' or ``hue, lightness, saturation''), respectively. To make a color-pair current, use scp (set color-pair). It takes one parameter, the number of a color-pair.

Some terminals (for example, most color terminal emulators for PCs) erase areas of the screen with current background color. In such cases, bce (background color erase) should be defined. The variable op (original pair) contains a sequence for setting the foreground and the background colors to what they were at the terminal start-up time. Similarly, oc (original colors) contains a control sequence for setting all colors (for the Tektronix method) or color-pairs (for the HP method) to the values they had at the terminal start-up time.

Some color terminals substitute color for video attributes. Such video attributes should not be combined with colors. Information about these video attributes should be packed into the ncv (no color video) variable. There is a one-to-one correspondence between the nine least significant bits of that variable and the video attributes. The following table depicts this correspondence.

Attribute NCV Bit
number
A_STANDOUT 0
A_UNDERLINE 1
A_REVERSE 2
A_BLINK 3
A_DIM 4
A_BOLD 5
A_INVIS 6
A_PROTECT 7
A_ALTCHARSET 8

 +-------------+---------+
 |Attribute    | NCV Bit |
 +-------------+---------+
 |             | number  |
 +-------------+---------+
 |A_STANDOUT   | 0       |
 +-------------+---------+
 |A_UNDERLINE  | 1       |
 +-------------+---------+
 |A_REVERSE    | 2       |
 +-------------+---------+
 |A_BLINK      | 3       |
 +-------------+---------+
 |A_DIM        | 4       |
 +-------------+---------+
 |A_BOLD       | 5       |
 +-------------+---------+
 |A_INVIS      | 6       |
 +-------------+---------+
 |A_PROTECT    | 7       |
 +-------------+---------+
 |A_ALTCHARSET | 8       |
 +-------------+---------+
When a particular video attribute should not be used with colors, the corresponding ncv bit should be set to 1; otherwise it should be set to zero. For example, if the terminal uses colors to simulate reverse video and bold, bits 2 and 5 should be set to 1. The resulting values for ncv will be 22.

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.

If the terminal can move up or down half a line, this can be indicated with hu (half-line up) and hd (half-line down). This is primarily useful for superscripts and subscripts on hardcopy terminals. If a hardcopy terminal can eject to the next page (form feed), give this as ff (usually control L).

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 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.

If the terminal has a settable command character, such as the Tektronix 4025, this can be indicated with cmdch. A prototype command character is chosen which is used in all capabilities. This character is given in the cmdch capability to identify it. The following convention is supported on some UNIX systems: If the environment variable CC exists, all occurrences of the prototype character are replaced with the character in CC.

Terminal descriptions that do not represent a specific kind of known terminal, such as switch, dialup, patch, and network, should include the 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 virtual terminal descriptions for which the escape sequences are known.) If the terminal is one of those supported by the UNIX system virtual terminal protocol, the terminal number can be given as vt. A line-turn-around sequence to be transmitted before doing reads should be specified in rfi.

If the terminal uses xon/xoff handshaking for flow control, give xon. Padding information should still be included so that routines can make better decisions about costs, but actual pad characters will not be transmitted. Sequences to turn on and off xon/xoff handshaking may be given in smxon and rmxon. If the characters used for handshaking are not ^S and ^Q, they may be specified with xonc and xoffc.

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 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 smm and rmm.

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 lm. A value of lm#0 indicates that the number of lines is not fixed, but that there is still more memory than fits on the screen.

Media copy strings which control an auxiliary printer connected to the terminal can be given as mc0: print the contents of the screen, mc4: turn off the printer, and mc5: turn on the printer. When the printer is on, all text sent to the terminal will be sent to the printer. A variation, 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. If the text is not displayed on the terminal screen when the printer is on, specify mc5i (silent printer). All text, including mc4, is transparently passed to the printer while an mc5p is in effect.

Special cases

The working model used by terminfo fits most terminals reasonably well. However, some terminals do not completely match that model, requiring special support by terminfo. These are not to be construed as deficiencies in the terminals; they are just differences between the working model and the actual hardware. They may be unusual devices or, for some reason, do not have all the features of the terminfo model implemented.

Terminals which can not display tilde (~) characters, such as certain Hazeltine terminals, should indicate hz.

Terminals which ignore a linefeed immediately after an am wrap, such as the Concept 100, should indicate xenl. Those terminals whose cursor remains on the right-most column until another character has been received, rather than wrapping immediately upon receiving the right-most character, such as the VT100, should also indicate xenl.

If el is required to get rid of standout (instead of writing normal text on top of it), xhp should be given.

Those Teleray terminals whose tabs turn all characters moved over to blanks, should indicate xt (destructive tabs). This capability is also taken to mean that it is not possible to position the cursor on top of a ``magic cookie'' therefore, to erase standout mode, it is instead necessary to use delete and insert line.

Those Beehive Superbee terminals which do not transmit the escape or control-C characters, should specify xsb, indicating that the <F1> key is to be used for escape and the <F2> key for <Ctrl>c.

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 use can be given with the name of the similar terminal. The capabilities given before use override those in the terminal type invoked by use. A capability can be canceled by placing xx@ to the left of the capability definition, where xx is the capability. For example, the entry
att4424-2|Teletype 4424 in display function group ii,
rev@, sgr@, smul@, use=att4424,
defines an AT&T 4424 terminal that does not have the rev, sgr, and smul capabilities, and hence cannot do highlighting. This is useful for different modes for a terminal, or for different user preferences. More than one use capability may be given.

Part 2: Printer capabilities

The terminfo database allows you to define capabilities of printers as well as terminals. To find out what capabilities are available for printers as well as for terminals, see the two lists under ``Part 1: Terminal capabilities'' that list capabilities by variable and by capability name.

Rounding values

Because parameterized string capabilities work only with integer values, we recommend that terminfo designers create strings that expect numeric values that have been rounded. Application designers should note this and should always round values to the nearest integer before using them with a parameterized string capability.

Printer resolution

A printer's resolution is defined to be the smallest spacing of characters it can achieve. In general printers have independent resolution horizontally and vertically. Thus the vertical resolution of a printer can be determined by measuring the smallest achievable distance between consecutive printing baselines, while the horizontal resolution can be determined by measuring the smallest achievable distance between the left-most edges of consecutive printed, identical, characters.

All printers are assumed to be capable of printing with a uniform horizontal and vertical resolution. The view of printing that the terminfo currently presents is one of printing inside a uniform matrix: All characters are printed at fixed positions relative to each ``cell'' in the matrix; furthermore, each cell has the same size given by the smallest horizontal and vertical step sizes dictated by the resolution. (The cell size can be changed as will be seen later.)

Many printers are capable of ``proportional printing'', where the horizontal spacing depends on the size of the character last printed. The terminfo does not make use of this capability, although it does provide enough capability definitions to allow an application to simulate proportional printing.

A printer must not only be able to print characters as close together as the horizontal and vertical resolutions suggest, but also of ``moving'' to a position an integral multiple of the smallest distance away from a previous position. Thus printed characters can be spaced apart a distance that is an integral multiple of the smallest distance, up to the length or width of a single page.

Some printers can have different resolutions depending on different ``modes''. In ``normal mode'', the existing terminfo capabilities are assumed to work on columns and lines, just like a video terminal. Thus the old lines capability would give the length of a page in lines, and the cols capability would give the width of a page in columns. In ``micro mode'', many terminfo capabilities work on increments of lines and columns. With some printers the micro mode may be concomitant with normal mode, so that all the capabilities work at the same time.

Specifying printer resolution

The printing resolution of a printer is given in several ways. Each specifies the resolution as the number of smallest steps per distance:

Specification of printer resolution

Characteristic Number of smallest steps
orhi Steps per inch horizontally
orvi Steps per inch vertically
orc Steps per column
orl Steps per line

 +---------------+-----------------------------+
 |Characteristic | Number of smallest steps    |
 +---------------+-----------------------------+
 |orhi           | Steps per inch horizontally |
 +---------------+-----------------------------+
 |orvi           | Steps per inch vertically   |
 +---------------+-----------------------------+
 |orc            | Steps per column            |
 +---------------+-----------------------------+
 |orl            | Steps per line              |
 +---------------+-----------------------------+

When printing in normal mode, each character printed causes movement to the next column, except in special cases described later; the distance moved is the same as the per-column resolution. Some printers cause an automatic movement to the next line when a character is printed in the rightmost position; the distance moved vertically is the same as the per-line resolution. When printing in micro mode, these distances can be different, and may be zero for some printers.

Specification of printer resolution

Automatic motion after printing
Normal Mode:.  
orc Steps moved horizontally
orl Steps moved vertically
Micro Mode:  
mcs Steps moved horizontally
mls Steps moved vertically

 +-----------------------------------------+
 |Automatic motion after printing          |
 +--------------+--------------------------+
 |Normal Mode:. |                          |
 +--------------+--------------------------+
 |orc           | Steps moved horizontally |
 +--------------+--------------------------+
 |orl           | Steps moved vertically   |
 +--------------+--------------------------+
 |Micro Mode:   |                          |
 +--------------+--------------------------+
 |mcs           | Steps moved horizontally |
 +--------------+--------------------------+
 |mls           | Steps moved vertically   |
 +--------------+--------------------------+
Some printers are capable of printing wide characters. The distance moved when a wide character is printed in normal mode may be different from when a regular width character is printed. The distance moved when a wide character is printed in micro mode may also be different from when a regular character is printed in micro mode, but the differences are assumed to be related: If the distance moved for a regular character is the same whether in normal mode or micro mode (mcs=orc), then the distance moved for a wide character is also the same whether in normal mode or micro mode. This doesn't mean the normal character distance is necessarily the same as the wide character distance, just that the distances do not change with a change in normal to micro mode. However, if the distance moved for a regular character is different in micro mode from the distance moved in normal mode\5 (mcs<orc), the micro mode distance is assumed to be the same for a wide character printed in micro mode, as the table below shows.

Specification of printer resolution

Automatic motion after printing wide character
Normal Mode or Micro Mode (mcs = orc):
widcs Steps moved horizontally
Micro Mode (mcs < orc):  
mcs Steps moved horizontally

 +---------------------------------------------------+
 |Automatic motion after printing wide character     |
 +---------------------------------------------------+
 |Normal Mode or Micro Mode (mcs = orc):             |
 +------------------------+--------------------------+
 |widcs                   | Steps moved horizontally |
 +------------------------+--------------------------+
 |Micro Mode (mcs < orc): |                          |
 +------------------------+--------------------------+
 |mcs                     | Steps moved horizontally |
 +------------------------+--------------------------+

There may be control sequences to change the number of columns per inch (the character pitch) and to change the number of lines per inch (the line pitch). If these are used, the resolution of the printer changes, but the type of change depends on the printer:

Specification of printer resolution

Changing the character/line pitches
cpi Change character pitch
cpix If set, cpi changes orhi, otherwise changes orc
lpi Change line pitch
lpix If set, lpi changes orvi, otherwise changes orl
chr Change steps per column
cvr Change steps per line

 +-------------------------------------------------------+
 |Changing the character/line pitches                    |
 +-----+-------------------------------------------------+
 |cpi  | Change character pitch                          |
 +-----+-------------------------------------------------+
 |cpix | If set, cpi changes orhi, otherwise changes orc |
 +-----+-------------------------------------------------+
 |lpi  | Change line pitch                               |
 +-----+-------------------------------------------------+
 |lpix | If set, lpi changes orvi, otherwise changes orl |
 +-----+-------------------------------------------------+
 |chr  | Change steps per column                         |
 +-----+-------------------------------------------------+
 |cvr  | Change steps per line                           |
 +-----+-------------------------------------------------+

The cpi and lpi string capabilities are each used with a single argument, the pitch in columns (or characters) and lines per inch, respectively. The chr and cvr string capabilities are each used with a single argument, the number of steps per column and line, respectively.

Using any of the control sequences in these strings will imply a change in some of the values of orc, orhi, orl, and orvi. Also, the distance moved when a wide character is printed, widcs, changes in relation to orc. The distance moved when a character is printed in micro mode, mcs, changes similarly, with one exception: if the distance is 0 or 1, then no change is assumed (see item marked with ** in the following table).

Programs that use cpi, lpi, chr, or cvr should recalculate the printer resolution (and should recalculate other values -- see ``Effect of changing printing resolution'').

Specification of printer resolution

Effects of changing the character/line pitches
Before After
Using cpi with cpix clear:  
orhi' orhi
orc' orc = orhi / Vcpi
Using cpi with cpix set:
orhi' orhi = orc * Vcpi
orc' orc
Using lpi with lpix clear:
orvi' orvi
orl' orl = orvi / Vlpi
Using lpi with lpix set:
orvi' orvi = orl * Vlpi
orl' orl
Using chr:
orhi' orhi
orc' Vchr
Using cvr:
orvi' orvi
orl' Vcvr
Using cpi or chr:
widcs' widcs = widcs' * orc / orc'
mcs'** mcs = mcs' * orc / orc'

 +---------------------------------------------------------+
 |Effects of changing the character/line pitches           |
 +---------------------------+-----------------------------+
 |Before                     | After                       |
 +---------------------------+-----------------------------+
 |Using cpi with cpix clear: |                             |
 +---------------------------+-----------------------------+
 |orhi'                      | orhi                        |
 +---------------------------+-----------------------------+
 |orc'                       | orc = orhi / Vcpi           |
 +---------------------------+-----------------------------+
 |Using cpi with cpix set:                                 |
 +---------------------------+-----------------------------+
 |orhi'                      | orhi = orc * Vcpi           |
 +---------------------------+-----------------------------+
 |orc'                       | orc                         |
 +---------------------------+-----------------------------+
 |Using lpi with lpix clear:                               |
 +---------------------------+-----------------------------+
 |orvi'                      | orvi                        |
 +---------------------------+-----------------------------+
 |orl'                       | orl = orvi / Vlpi           |
 +---------------------------+-----------------------------+
 |Using lpi with lpix set:                                 |
 +---------------------------+-----------------------------+
 |orvi'                      | orvi = orl * Vlpi           |
 +---------------------------+-----------------------------+
 |orl'                       | orl                         |
 +---------------------------+-----------------------------+
 |Using chr:                                               |
 +---------------------------+-----------------------------+
 |orhi'                      | orhi                        |
 +---------------------------+-----------------------------+
 |orc'                       | Vchr                        |
 +---------------------------+-----------------------------+
 |Using cvr:                                               |
 +---------------------------+-----------------------------+
 |orvi'                      | orvi                        |
 +---------------------------+-----------------------------+
 |orl'                       | Vcvr                        |
 +---------------------------+-----------------------------+
 |Using cpi or chr:                                        |
 +---------------------------+-----------------------------+
 |widcs'                     | widcs = widcs' * orc / orc' |
 +---------------------------+-----------------------------+
 |mcs'**                     | mcs = mcs' * orc / orc'     |
 +---------------------------+-----------------------------+

Vcpi, Vlpi, Vchr, and Vcvr are the arguments used with cpi, lpi, chr, and cvr respectively. The ** mark indicates the old value.

Capabilities that cause movement

In the following descriptions, ``movement'' refers to the motion of the ``current position''. With video terminals this would be the cursor; with some printers this is the carriage position. Other printers have different equivalents. In general, the current position is where a character would be displayed if printed.

terminfo has string capabilities for control sequences that cause movement a number of full columns or lines. It also has equivalent string capabilities for control sequences that cause movement a number of smallest steps.

String capabilities for motion
mcub1 Move 1 step left
mcuf1 Move 1 step right
mcuu1 Move 1 step up
mcud1 Move 1 step down
mcub Move N steps left
mcuf Move N steps right
mcuu Move N steps up
mcud Move N steps down
mhpa Move N steps from the left
mvpa Move N steps from the top

 +-----------------------------------+
 |String capabilities for motion     |
 +------+----------------------------+
 |mcub1 | Move 1 step left           |
 +------+----------------------------+
 |mcuf1 | Move 1 step right          |
 +------+----------------------------+
 |mcuu1 | Move 1 step up             |
 +------+----------------------------+
 |mcud1 | Move 1 step down           |
 +------+----------------------------+
 |mcub  | Move N steps left          |
 +------+----------------------------+
 |mcuf  | Move N steps right         |
 +------+----------------------------+
 |mcuu  | Move N steps up            |
 +------+----------------------------+
 |mcud  | Move N steps down          |
 +------+----------------------------+
 |mhpa  | Move N steps from the left |
 +------+----------------------------+
 |mvpa  | Move N steps from the top  |
 +------+----------------------------+
The latter six strings are each used with a single argument, N.

Sometimes the motion is limited to less than the width or length of a page. Also, some printers do not accept absolute motion to the left of the current position. terminfo has capabilities for specifying these limits.

Limits to motion
mjump Limit on use of mcub1, mcuf1, mcuu1, mcud1
maddr Limit on use of mhpa, mvpa
xhpa If set, hpa and mhpa can't move left
xvpa If set, vpa and mvpa can't move up

 +---------------------------------------------------+
 |Limits to motion                                   |
 +------+--------------------------------------------+
 |mjump | Limit on use of mcub1, mcuf1, mcuu1, mcud1 |
 +------+--------------------------------------------+
 |maddr | Limit on use of mhpa, mvpa                 |
 +------+--------------------------------------------+
 |xhpa  | If set, hpa and mhpa can't move left       |
 +------+--------------------------------------------+
 |xvpa  | If set, vpa and mvpa can't move up         |
 +------+--------------------------------------------+
If a printer needs to be in a ``micro mode'' for the motion capabilities described above to work, there are string capabilities defined to contain the control sequence to enter and exit this mode. A boolean is available for those printers where using a carriage return causes an automatic return to normal mode.

Entering/Exiting micro mode
smicm Enter micro mode
rmicm Exit micro mode
crxm Using cr exits micro mode

 +----------------------------------+
 |Entering/Exiting micro mode       |
 +------+---------------------------+
 |smicm | Enter micro mode          |
 +------+---------------------------+
 |rmicm | Exit micro mode           |
 +------+---------------------------+
 |crxm  | Using cr exits micro mode |
 +------+---------------------------+
The movement made when a character is printed in the rightmost position varies among printers. Some make no movement, some move to the beginning of the next line, others move to the beginning of the same line. terminfo has boolean capabilities for describing all three cases.

What happens after character printed in rightmost position
sam Automatic move to beginning of same line

 +-----------------------------------------------------------+
 |What happens after character printed in rightmost position |
 +----------+------------------------------------------------+
 |sam       | Automatic move to beginning of same line       |
 +----------+------------------------------------------------+

Some printers can be put in a mode where the normal direction of motion is reversed. This mode can be especially useful when no capabilities exist for leftward or upward motion, because those capabilities can be built from the motion reversal capability and the rightward or downward motion capabilities. It is best to leave it up to an application to build the leftward or upward capabilities, though, and not enter them in the terminfo database. This allows several reverse motions to be strung together without intervening wasted steps that leave and reenter reverse mode.

Entering/Exiting reverse modes
slm Reverse sense of horizontal motions
rlm Restore sense of horizontal motions
sum Reverse sense of vertical motions
rum Restore sense of vertical motions
While sense of horizontal motions reversed:
mcub1 Move 1 step right
mcuf1 Move 1 step left
mcub Move N steps right
mcuf Move N steps left
cub1 Move 1 column right
cuf1 Move 1 column left
cub Move N columns right
cuf Move N columns left
While sense of vertical motions reversed:
mcuu1 Move 1 step down
mcud1 Move 1 step up
mcuu Move N steps down
mcud Move N steps up
cuu1 Move 1 line down
cud1 Move 1 line up
cuu Move N lines down
cud Move N lines up

 +--------------------------------------------+
 |Entering/Exiting reverse modes              |
 +------+-------------------------------------+
 |slm   | Reverse sense of horizontal motions |
 +------+-------------------------------------+
 |rlm   | Restore sense of horizontal motions |
 +------+-------------------------------------+
 |sum   | Reverse sense of vertical motions   |
 +------+-------------------------------------+
 |rum   | Restore sense of vertical motions   |
 +------+-------------------------------------+
 |While sense of horizontal motions reversed: |
 +------+-------------------------------------+
 |mcub1 | Move 1 step right                   |
 +------+-------------------------------------+
 |mcuf1 | Move 1 step left                    |
 +------+-------------------------------------+
 |mcub  | Move N steps right                  |
 +------+-------------------------------------+
 |mcuf  | Move N steps left                   |
 +------+-------------------------------------+
 |cub1  | Move 1 column right                 |
 +------+-------------------------------------+
 |cuf1  | Move 1 column left                  |
 +------+-------------------------------------+
 |cub   | Move N columns right                |
 +------+-------------------------------------+
 |cuf   | Move N columns left                 |
 +------+-------------------------------------+
 |While sense of vertical motions reversed:   |
 +------+-------------------------------------+
 |mcuu1 | Move 1 step down                    |
 +------+-------------------------------------+
 |mcud1 | Move 1 step up                      |
 +------+-------------------------------------+
 |mcuu  | Move N steps down                   |
 +------+-------------------------------------+
 |mcud  | Move N steps up                     |
 +------+-------------------------------------+
 |cuu1  | Move 1 line down                    |
 +------+-------------------------------------+
 |cud1  | Move 1 line up                      |
 +------+-------------------------------------+
 |cuu   | Move N lines down                   |
 +------+-------------------------------------+
 |cud   | Move N lines up                     |
 +------+-------------------------------------+
The reverse motion modes should not affect the mvpa and mhpa absolute motion capabilities. The reverse vertical motion mode should, however, also reverse the action of the line ``wrapping'' that occurs when a character is printed in the right most position. Thus printers that have the standard terminfo capability am defined should experience motion to the beginning of the previous line when a character is printed in the right-most position under reverse vertical motion mode.

The action when any other motion capabilities are used in reverse motion modes is not defined; thus, programs must exit reverse motion modes before using other motion capabilities.

Two miscellaneous capabilities complete the list of new motion capabilities. One of these is needed for printers that move the current position to the beginning of a line when certain control characters, like ``line-feed'' or ``form-feed'', are used. The other is used for the capability of suspending the motion that normally occurs after printing a character.

Miscellaneous motion strings
docr List of control characters causing cr
zerom Prevent auto motion after printing next single
  character

 +-------------------------------------------------------+
 |Miscellaneous motion strings                           |
 +------+------------------------------------------------+
 |docr  | List of control characters causing cr          |
 +------+------------------------------------------------+
 |zerom | Prevent auto motion after printing next single |
 +------+------------------------------------------------+
 |      | character                                      |
 +------+------------------------------------------------+

Margins

terminfo provides two strings for setting margins on terminals: one for the left and one for the right margin. Printers, however, have two additional margins, for the top and bottom margins of each page. Furthermore, some printers do not require using motion strings to move the current position to a margin and fixing the margin there, as with the existing capabilities, but require the specification of where a margin should be regardless of the current position. Therefore terminfo offers six additional strings for defining margins with printers.

Setting Margins
smgl Set left margin at current column
smgr Set right margin at current column
smgb Set soft bottom margin at current line
smgt Set soft top margin at current line
smgbp Set soft bottom margin at line N
smglp Set soft left margin at column N
smgrp Set soft right margin at column N
smgtp Set soft top margin at line N

 +--------+----------------------------------------+
 |Setting | Margins                                |
 +--------+----------------------------------------+
 |smgl    | Set left margin at current column      |
 +--------+----------------------------------------+
 |smgr    | Set right margin at current column     |
 +--------+----------------------------------------+
 |smgb    | Set soft bottom margin at current line |
 +--------+----------------------------------------+
 |smgt    | Set soft top margin at current line    |
 +--------+----------------------------------------+
 |smgbp   | Set soft bottom margin at line N       |
 +--------+----------------------------------------+
 |smglp   | Set soft left margin at column N       |
 +--------+----------------------------------------+
 |smgrp   | Set soft right margin at column N      |
 +--------+----------------------------------------+
 |smgtp   | Set soft top margin at line N          |
 +--------+----------------------------------------+
The last four strings are used with a single argument, N, that gives the line or column number, where line 0 is the top line and column 0 is the leftmost column.

Note that not all printers use 0 for the top line or the leftmost column.

All margins can be cleared with mgc.

Shadows, italics, wide characters, superscripts, subscripts

Five new sets of strings are used to describe the capabilities printers have of enhancing printed text.

Enhanced printing
sshm Enter shadow-printing mode
rshm Exit shadow-printing mode
sitm Enter italicizing mode
ritm Exit italicizing mode
swidm Enter wide character mode
rwidm Exit wide character mode
ssupm Enter superscript mode
rsupm Exit superscript mode
supcs List of characters available as superscripts
ssubm Enter subscript mode
rsubm Exit subscript mode
subcs List of characters available as subscripts

 +-----------------------------------------------------+
 |Enhanced printing                                    |
 +------+----------------------------------------------+
 |sshm  | Enter shadow-printing mode                   |
 +------+----------------------------------------------+
 |rshm  | Exit shadow-printing mode                    |
 +------+----------------------------------------------+
 |sitm  | Enter italicizing mode                       |
 +------+----------------------------------------------+
 |ritm  | Exit italicizing mode                        |
 +------+----------------------------------------------+
 |swidm | Enter wide character mode                    |
 +------+----------------------------------------------+
 |rwidm | Exit wide character mode                     |
 +------+----------------------------------------------+
 |ssupm | Enter superscript mode                       |
 +------+----------------------------------------------+
 |rsupm | Exit superscript mode                        |
 +------+----------------------------------------------+
 |supcs | List of characters available as superscripts |
 +------+----------------------------------------------+
 |ssubm | Enter subscript mode                         |
 +------+----------------------------------------------+
 |rsubm | Exit subscript mode                          |
 +------+----------------------------------------------+
 |subcs | List of characters available as subscripts   |
 +------+----------------------------------------------+
If a printer requires the sshm control sequence before every character to be shadow-printed, the rshm string is left blank. Thus programs that find a control sequence in sshm but none in rshm should use the sshm control sequence before every character to be shadow-printed; otherwise, the sshm control sequence should be used once before the set of characters to be shadow-printed, followed by rshm. The same is also true of each of the sitm/ritm, swidm/rwidm, ssupm/rsupm, and ssubm/rsubm pairs.

Note that terminfo also has a capability for printing emboldened text (bold). While shadow printing and emboldened printing are similar in that they ``darken'' the text, many printers produce these two types of print in slightly different ways. Generally, emboldened printing is done by overstriking the same character one or more times. Shadow printing likewise usually involves overstriking, but with a slight movement up and/or to the side so that the character is ``fatter''.

It is assumed that enhanced printing modes are independent modes, so that it would be possible, for instance, to shadow print italicized subscripts.

As mentioned earlier, the amount of motion automatically made after printing a wide character should be given in widcs.

If only a subset of the printable ASCII characters can be printed as superscripts or subscripts, they should be listed in supcs or subcs strings, respectively. If the ssupm or ssubm strings contain control sequences, but the corresponding supcs or subcs strings are empty, it is assumed that all printable ASCII characters are available as superscripts or subscripts.

Automatic motion made after printing a superscript or subscript is assumed to be the same as for regular characters. Thus, for example, printing any of the following three examples will result in equivalent motion:

Bi B[i] B[i]

Note that the existing msgr boolean capability describes whether motion control sequences can be used while in ``standout mode''. This capability is extended to cover the enhanced printing modes added here. msgr should be set for those printers that accept any motion control sequences without affecting shadow, italicized, widened, superscript, or subscript printing. Conversely, if msgr is not set, a program should end these modes before attempting any motion.

Alternate character sets

In addition to allowing you to define line graphics (described in ``Line graphics''), terminfo also lets you define alternate character sets. The following capabilities cover printers and terminals with multiple selectable or definable character sets.

Alternate character sets
scs Select character set N
scsd Start definition of character set N, M characters
defc Define character A, B dots wide, descender D
rcsd End definition of character set N
csnm List of character set names
daisy Printer has manually changed print-wheels

 +----------------------------------------------------------+
 |Alternate character sets                                  |
 +------+---------------------------------------------------+
 |scs   | Select character set N                            |
 +------+---------------------------------------------------+
 |scsd  | Start definition of character set N, M characters |
 +------+---------------------------------------------------+
 |defc  | Define character A, B dots wide, descender D      |
 +------+---------------------------------------------------+
 |rcsd  | End definition of character set N                 |
 +------+---------------------------------------------------+
 |csnm  | List of character set names                       |
 +------+---------------------------------------------------+
 |daisy | Printer has manually changed print-wheels         |
 +------+---------------------------------------------------+
The scs, rcsd, and csnm strings are used with a single argument, N, a number from 0 to 63 that identifies the character set. The scsd string is also used with the argument N and another, M, that gives the number of characters in the set. The defc string is used with three arguments: A gives the ASCII code representation for the character, B gives the width of the character in dots, and D is zero or one depending on whether the character is a ``descender'' or not. The defc string is also followed by a string of ``image-data'' bytes that describe how the character looks (see below).

Character set 0 is the default character set present after the printer has been initialized. Not every printer has 64 character sets, of course; using scs with an argument that does not select an available character set should cause a null result from tparm().

If a character set has to be defined before it can be used, the scsd control sequence is to be used before defining the character set, and the rcsd is to be used after. They should also cause a null result from tparm() when used with an argument N that doesn't apply. If a character set still has to be selected after being defined, the scs control sequence should follow the rcsd control sequence. By examining the results of using each of the scs, scsd, and rcsd strings with a character set number in a call to tparm(), a program can determine which of the three are needed.

Between use of the scsd and rcsd strings, the defc string should be used to define each character. To print any character on printers covered by terminfo, the ASCII code is sent to the printer. This is true for characters in an alternate set as well as ``normal'' characters. Thus the definition of a character includes the ASCII code that represents it. In addition, the width of the character in dots is given, along with an indication of whether the character should descend below the print line (like the lower case letter ``g'' in most character sets). The width of the character in dots also indicates the number of image-data bytes that will follow the defc string. These image-data bytes indicate where in a dot-matrix pattern ink should be applied to ``draw'' the character; the number of these bytes and their form are defined below under ``Dot-matrix graphics''.

It is easiest for the creator of terminfo entries to refer to each character set by number; however, these numbers will be meaningless to the application developer. The csnm string alleviates this problem by providing names for each number.

When used with a character set number in a call to tparm(), the csnm string will produce the equivalent name. These names should be used as a reference only. No naming convention is implied, although anyone who creates a terminfo entry for a printer should use names consistent with the names found in user documents for the printer. Application developers should allow a user to specify a character set by number (leaving it up to the user to examine the csnm string to determine the correct number), or by name, where the application examines the csnm string to determine the corresponding character set number.

These capabilities are likely to be used only with dot-matrix printers. If they are not available, the strings should not be defined. For printers that have manually changed print-wheels or font cartridges, the boolean daisy is set.

Dot-matrix graphics

Dot-matrix printers typically have the capability of reproducing ``raster-graphics'' images. Three new numeric capabilities and three new string capabilities can help a program draw raster-graphics images independent of the type of dot-matrix printer or the number of pins or dots the printer can handle at one time.

Dot-matrix graphics
npins Number of pins, N, in print-head
spinv Spacing of pins vertically in pins per inch
spinh Spacing of dots horizontally in dots per inch
porder Matches software bits to print-head pins
sbim Start printing bit image graphics, B bits wide
rbim End printing bit image graphics

 +--------------------------------------------------------+
 |Dot-matrix graphics                                     |
 +-------+------------------------------------------------+
 |npins  | Number of pins, N, in print-head               |
 +-------+------------------------------------------------+
 |spinv  | Spacing of pins vertically in pins per inch    |
 +-------+------------------------------------------------+
 |spinh  | Spacing of dots horizontally in dots per inch  |
 +-------+------------------------------------------------+
 |porder | Matches software bits to print-head pins       |
 +-------+------------------------------------------------+
 |sbim   | Start printing bit image graphics, B bits wide |
 +-------+------------------------------------------------+
 |rbim   | End printing bit image graphics                |
 +-------+------------------------------------------------+
The sbim string is used with a single argument, B, the width of the image in dots.

The model of dot-matrix or raster-graphics that the terminfo presents is similar to the technique used for most dot-matrix printers: each pass of the printer's print-head is assumed to produce a dot-matrix that is N dots high and B dots wide. This is typically a wide, squat, rectangle of dots. The height of this rectangle in dots will vary from one printer to the next; this is given in the npins numeric capability. The size of the rectangle in fractions of an inch will also vary; it can be deduced from the spinv and spinh numeric capabilities. With these three values an application can divide a complete raster-graphics image into several horizontal strips, perhaps interpolating to account for different dot spacing vertically and horizontally.

The sbim and rbim strings are used to start and end a dot-matrix image, respectively. The sbim string is used with a single argument that gives the width of the dot-matrix in dots. A sequence of ``image-data bytes'' are sent to the printer after the sbim string and before the rbim string. The number of bytes is an integral multiple of the width of the dot-matrix; the multiple and the form of each byte is determined by the porder string as described below.

The porder string is a comma separated list of pin numbers; the position of each pin number in the list corresponds to a bit in a data byte. The pins are numbered consecutively from 1 to npins, with 1 being the top pin. Note that the term ``pin'' is used loosely here; ``ink-jet'' dot-matrix printers do not have pins, but can be considered to have an equivalent method of applying a single dot of ink to paper. The bit positions in porder are in groups of 8, with the first position in each group the most significant bit and the last position the least significant bit.

The ``image-data bytes'' are to be computed from the dot-matrix image, mapping vertical dot positions in each print-head pass into eight-bit bytes, using a 1 bit where ink should be applied and 0 where no ink should be applied. If a position is skipped in porder, a 0 bit is used. There must be a multiple of 8 bit positions used or skipped in porder; if not, 0 bits are used to fill the last byte in the least significant bits.

Effect of changing printing resolution

If the control sequences to change the character pitch or the line pitch are used, the pin or dot spacing may change:

Dot-matrix graphics
Changing the character/line pitches
cpi Change character pitch
cpix If set, cpi changes spinh
lpi Change line pitch
lpix If set, lpi changes spinv

 +------------------------------------+
 |Dot-matrix graphics                 |
 +------------------------------------+
 |Changing the character/line pitches |
 +-------+----------------------------+
 |cpi    |Change character pitch      |
 +-------+----------------------------+
 |cpix   |If set, cpi changes spinh   |
 +-------+----------------------------+
 |lpi    |Change line pitch           |
 +-------+----------------------------+
 |lpix   |If set, lpi changes spinv   |
 +-------+----------------------------+

Programs that use cpi or lpi should recalculate the dot spacing:

Dot-matrix graphics
Effects of changing the character/line pitches
Before After
Using cpi with cpix clear:
spinh' spinh
Using cpi with cpix set:
spinh' spinh = spinh' * orhi / orhi'
Using lpi with lpix clear:
spinv' spinv
Using lpi with lpix set:
spinv' spinv = spinv' * orhi / orhi'

 
Using chr:
spinh' spinh
Using cvr:
spinv' spinv

 +-----------------------------------------------+
 |Dot-matrix graphics                            |
 +-----------------------------------------------+
 |Effects of changing the character/line pitches |
 +-----------+-----------------------------------+
 |Before     | After                             |
 +-----------+-----------------------------------+
 |Using cpi with cpix clear:                     |
 +-----------+-----------------------------------+
 |spinh'     | spinh                             |
 +-----------+-----------------------------------+
 |Using cpi with cpix set:                       |
 +-----------+-----------------------------------+
 |spinh'     | spinh = spinh' * orhi / orhi'     |
 +-----------+-----------------------------------+
 |Using lpi with lpix clear:                     |
 +-----------+-----------------------------------+
 |spinv'     | spinv                             |
 +-----------+-----------------------------------+
 |Using lpi with lpix set:                       |
 +-----------+-----------------------------------+
 |spinv'     | spinv = spinv' * orhi / orhi'     |
 +-----------+-----------------------------------+
 |Using chr:                                     |
 +-----------+-----------------------------------+
 |spinh'     | spinh                             |
 +-----------+-----------------------------------+
 |Using cvr:                                     |
 +-----------+-----------------------------------+
 |spinv'     | spinv                             |
 +-----------+-----------------------------------+
orhi' and orhi are the values of the horizontal resolution in steps per inch, before using cpi and after using cpi, respectively. Likewise, orvi' and orvi are the values of the vertical resolution in steps per inch, before using lpi and after using lpi, respectively. Thus, the changes in the dots per inch for dot-matrix graphics follow the changes in steps per inch for printer resolution.

Print quality

Many dot-matrix printers can alter the dot spacing of printed text to produce near ``letter quality'' printing or ``draft quality'' printing. Usually, it is important to be able to choose one or the other because the rate of printing generally falls off as the quality improves. There are three new strings used to describe these capabilities.

Print quality
snlq Set near-letter quality print
snrmq Set normal quality print
sdrfq Set draft quality print

 +--------------------------------------+
 |Print quality                         |
 +------+-------------------------------+
 |snlq  | Set near-letter quality print |
 +------+-------------------------------+
 |snrmq | Set normal quality print      |
 +------+-------------------------------+
 |sdrfq | Set draft quality print       |
 +------+-------------------------------+
The capabilities are listed in decreasing levels of quality. If a printer does not have all three levels, one or two of the strings should be left blank as appropriate.

Printing rate and buffer size

Because there is no standard protocol that can be used to keep a program synchronized with a printer, and because modern printers can buffer data before printing it, a program generally cannot determine at any time what has been printed. Two new numeric capabilities can help a program estimate what has been printed.

Print rate/buffer size
cps Nominal print rate in characters per second
bufsz Buffer capacity in characters

 Print rate/buffer size
 cps     Nominal print rate in characters per second
 bufsz   Buffer capacity in characters
cps is the nominal or average rate at which the printer prints characters; if this value is not given, the rate should be estimated at one-tenth the prevailing baud rate. bufsz is the maximum number of subsequent characters buffered before the guaranteed printing of an earlier character, assuming proper flow control has been used. If this value is not given it is assumed that the printer does not buffer characters, but prints them as they are received.

As an example, if a printer has a 1000-character buffer, then sending the letter ``a'' followed by 1000 additional characters is guaranteed to cause the letter ``a'' to print. If the same printer prints at the rate of 100 characters per second, then it should take 10 seconds to print all the characters in the buffer, less if the buffer is not full. By keeping track of the characters sent to a printer, and knowing the print rate and buffer size, a program can synchronize itself with the printer.

Note that most printer manufacturers advertise the maximum print rate, not the nominal print rate. A good way to get a value to put in for cps is to generate a few pages of text, count the number of printable characters, then see how long it takes to print the text.

Applications that use these values should recognize the variability in the print rate. Straight text, in short lines, with no embedded control sequences will probably print at close to the advertised print rate and probably faster than the rate in cps. Graphics data with a lot of control sequences, or very long lines of text, will print at well below the advertised rate and below the rate in cps. If the application is using cps to decide how long it should take a printer to print a block of text, the application should pad the estimate. If the application is using cps to decide how much text has already been printed, it should shrink the estimate. The application will thus err in favor of the user, who wants, above all, to see all the output in its correct place.

Warning

As described in the ``Tabs and initialization'' section above, a terminal's initialization strings, is1, is2, and is3, if defined, must be output before a curses program is run. An available mechanism for outputting such strings is tput init (see tput(C) and profile(M)).

If a null character (\0) is encountered in a string, the null and all characters after it are lost. Therefore it is not possible to code a null character (\0) and send it to a device (either terminal or printer). The suggestion of sending a \0200, where a \0 (null) is needed can succeed only if the device (terminal or printer) ignores the eighth bit. For example, because all eight bits are used in the standard international ASCII character set, devices that adhere to this standard will treat \0200 differently from \0.

Tampering with entries in /usr/lib/.COREterm/?/* or /usr/lib/terminfo/?/* (for example, changing or removing an entry) can affect programs such as vi that expect the entry to be present and correct. In particular, removing the description for the ``dumb'' terminal will cause unexpected problems.

Files


/usr/lib/terminfo/?/*
compiled terminal description database

/usr/lib/.COREterm/?/*
subset of compiled terminal description database

/usr/lib/tabset/*
tab settings for some terminals, in a format appropriate to be output to the terminal (escape sequences that set margins and tabs)

See also

captoinfo(ADM), curses(S), infocmp(ADM), printf(S), profile(M), term(M),
terminfo(F), tic(C), tput(C), vi(C)
© 2003 Caldera International, Inc. All rights reserved.
SCO OpenServer Release 5.0.7 -- 11 February 2003