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term(5)				 File formats			       term(5)

NAME
       term - compiled terminfo	terminal description

SYNOPSIS
       term

DESCRIPTION
   Storage Location
       Compiled	 terminfo descriptions are placed under	the directory /usr/lo-
       cal/share/terminfo.  Two	configurations are  supported  (when  building
       the ncurses libraries):

       directory tree
	    A two-level	scheme is used to avoid	a linear search	of a huge Unix
	    system  directory:	/usr/local/share/terminfo/c/name where name is
	    the	name of	the terminal, and c is the first  character  of	 name.
	    Thus,   act4  can  be  found  in  the  file	 /usr/local/share/ter-
	    minfo/a/act4.  Synonyms for	the same terminal are  implemented  by
	    multiple links to the same compiled	file.

       hashed database
	    Using Berkeley database, two types of records are stored: the ter-
	    minfo  data	 in the	same format as stored in a directory tree with
	    the	terminfo's primary name	as a key, and records containing  only
	    aliases pointing to	the primary name.

	    If	built  to  write hashed	databases, ncurses can still read ter-
	    minfo databases organized as a directory tree,  but	 cannot	 write
	    entries  into  the	directory tree.	 It can	write (or rewrite) en-
	    tries in the hashed	database.

	    ncurses  distinguishes  the	 two  cases  in	  the	TERMINFO   and
	    TERMINFO_DIRS  environment	variable  by assuming a	directory tree
	    for	entries	that correspond	to an existing directory,  and	hashed
	    database otherwise.

   Legacy Storage Format
       The format has been chosen so that it will be the same on all hardware.
       An  8 or	more bit byte is assumed, but no assumptions about byte	order-
       ing or sign extension are made.

       The compiled file is created with the tic program, and read by the rou-
       tine setupterm(3X).  The	file is	divided	into six parts:

	    a) header,

	    b) terminal	names,

	    c) Boolean flags,

	    d) numbers,

	    e) strings,	and

	    f) string table.

       The header section begins the file.  This section  contains  six	 short
       integers	in the format described	below.	These integers are

	    (1)	the magic number (octal	0432);

	    (2)	the size, in bytes, of the terminal names section;

	    (3)	the number of bytes in the Boolean flags section;

	    (4)	the number of short integers in	the numbers section;

	    (5)	the number of offsets (short integers) in the strings section;

	    (6)	the size, in bytes, of the string table.

       The  capabilities  in  the Boolean flags, numbers, and strings sections
       are in the same order as	the file <term.h>.

       Short integers are signed, in the range	-32768	to  32767.   They  are
       stored  as two 8-bit bytes.  The	first byte contains the	least signifi-
       cant 8 bits of the value, and the second	byte contains the most signif-
       icant 8 bits.  (Thus, the value represented is 256*second+first.)  This
       format corresponds to the hardware of the VAX and PDP-11	(that is, lit-
       tle-endian machines).  Machines where this does not correspond  to  the
       hardware	must read the integers as two bytes and	compute	the little-en-
       dian value.

       Numbers in a terminal description, whether they are entries in the num-
       bers  or	 strings  table,  are  positive	 integers.   Boolean flags are
       treated as positive one-byte integers.  In each	case,  those  positive
       integers	 represent  a  terminal	capability.  The terminal compiler tic
       uses negative integers to handle	the cases where	a  capability  is  not
       available:

          If  a  capability  is absent	from this terminal, tic	stores a -1 in
	   the corresponding table.

	   The integer value -1	is represented by two bytes 0377, 0377.
	   Absent Boolean values are represented by the	byte 0 (false).

          If a	capability has been canceled from this terminal, tic stores  a
	   -2 in the corresponding table.

	   The integer value -2	is represented by two bytes 0377, 0376.
	   The Boolean value -2	is represented by the byte 0376.

          Other negative values are illegal.

       The  terminal  names  section  comes after the header.  It contains the
       first line of the terminfo description, listing the various  names  for
       the  terminal, separated	by the "|" character.  The terminal names sec-
       tion is terminated with an ASCII	NUL character.

       The Boolean flags section has one byte for each flag.  Boolean capabil-
       ities are either	1 or 0 (true or	false) according to whether the	termi-
       nal supports the	given capability or not.

       Between the Boolean flags section and the number	section, a  null  byte
       will  be	 inserted, if necessary, to ensure that	the number section be-
       gins on an even byte This is a relic of the PDP-11's word-addressed ar-
       chitecture, originally designed to avoid	traps induced by addressing  a
       word  on	 an  odd  byte	boundary.  All short integers are aligned on a
       short word boundary.

       The numbers section is similar to the Boolean flags section.  Each  ca-
       pability	takes up two bytes, and	is stored as a little-endian short in-
       teger.

       The  strings  section  is also similar.	Each capability	is stored as a
       short integer.  The capability value is an index	into the string	table.

       The string table	is the last section.  It contains all of the values of
       string capabilities referenced in the strings section.  Each string  is
       null-terminated.	 Special characters in ^X or \c	notation are stored in
       their  interpreted  form, not the printing representation.  Padding in-
       formation $<nn> and parameter information %x are	stored intact in unin-
       terpreted form.

   Extended Storage Format
       The previous section describes the conventional terminfo	binary format.
       With some minor variations of the offsets (see PORTABILITY),  the  same
       binary  format  is used in all modern Unix systems.  Each system	uses a
       predefined set of Boolean, number or string capabilities.

       The ncurses libraries and applications support extended terminfo	binary
       format, allowing	users to define	capabilities which are loaded at  run-
       time.  This extension is	made possible by using the fact	that the other
       implementations	stop  reading the terminfo data	when they have reached
       the end of the size given in the	header.	 ncurses checks	the size,  and
       if  it  exceeds that due	to the predefined data,	continues to parse ac-
       cording to its own scheme.

       First, it reads the extended header (5 short integers):

	    (1)	 count of extended Boolean capabilities

	    (2)	 count of extended numeric capabilities

	    (3)	 count of extended string capabilities

	    (4)	 count of the items in extended	string table

	    (5)	 size of the extended string table in bytes

       The count- and size-values for the extended string  table  include  the
       extended	capability names as well as extended capability	values.

       Using the counts	and sizes, ncurses allocates arrays and	reads data for
       the extended capabilities in the	same order as the header information.

       The extended string table contains values for string capabilities.  Af-
       ter  the	end of these values, it	contains the names for each of the ex-
       tended capabilities in order, e.g., Booleans, then numbers and  finally
       strings.

       By  storing  terminal descriptions in this way, ncurses is able to pro-
       vide a database useful with legacy applications,	as well	 as  providing
       data for	applications which need	more than the predefined capabilities.
       See  user_caps(5) for an	overview of the	way ncurses uses this extended
       information.

       Applications which manipulate terminal data can use the definitions de-
       scribed in term_variables(3X) which associate the long capability names
       with members of a TERMTYPE structure.

   Extended Number Format
       On occasion, 16-bit signed integers are not large enough.  With ncurses
       6.1, a new format was introduced	by making a few	changes	to the	legacy
       format:

          a different magic number (octal 01036)

          changing  the type for the number array from	signed 16-bit integers
	   to signed 32-bit integers.

       To maintain compatibility, the library presents the  same  data	struc-
       tures to	direct users of	the TERMTYPE structure as in previous formats.
       However,	 that  cannot  provide callers with the	extended numbers.  The
       library uses a similar but hidden data structure	TERMTYPE2  to  provide
       data for	the terminfo functions.

FILES
       /usr/local/share/terminfo
	      compiled terminal	description database

PORTABILITY
   setupterm
       Note that it is possible	for setupterm to expect	a different set	of ca-
       pabilities  than	are actually present in	the file.  Either the database
       may have	been updated since setupterm was recompiled (resulting in  ex-
       tra  unrecognized entries in the	file) or the program may have been re-
       compiled	more recently than the	database  was  updated	(resulting  in
       missing entries).  The routine setupterm	must be	prepared for both pos-
       sibilities - this is why	the numbers and	sizes are included.  Also, new
       capabilities  must  always be added at the end of the lists of Boolean,
       number, and string capabilities.

   Binary Format
       X/Open Curses does not specify a	 format	 for  the  terminfo  database.
       System V	curses used a directory-tree of	binary files, one per terminal
       description.

       Despite	the consistent use of little-endian for	numbers	and the	other-
       wise self-describing format, it is not wise to count on portability  of
       binary  terminfo	entries	between	commercial Unix	versions.  The problem
       is that there are at least three	versions  of  terminfo	(under	HP-UX,
       AIX,  and  OSF/1) which diverged	from System V terminfo after SVr1, and
       have added extension capabilities to the	string table that (in the  bi-
       nary  format)  collide with System V and	X/Open Curses extensions.  See
       terminfo(5) for detailed	discussion of  terminfo	 source	 compatibility
       issues.

       This  implementation  is	by default compatible with the binary terminfo
       format used by Solaris curses, except in	a few less-used	details	 where
       it  was	found that the latter did not match X/Open Curses.  The	format
       used by the other Unix versions can be matched by building ncurses with
       different configuration options.

   Magic Codes
       The magic number	in a binary terminfo file is the  first	 16-bits  (two
       bytes).	 Besides making	it more	reliable for the library to check that
       a file is terminfo, utilities such as file(1) also  use	that  to  tell
       what  the file-format is.  System V defined more	than one magic number,
       with 0433, 0435 as screen-dumps (see scr_dump(5)).  This	implementation
       uses 01036 as a continuation of that sequence,  but  with  a  different
       high-order byte to avoid	confusion.

   The TERMTYPE	Structure
       Direct access to	the TERMTYPE structure is provided for legacy applica-
       tions.	Portable  applications	should	use  the tigetflag and related
       functions described in curs_terminfo(3X)	for reading terminal capabili-
       ties.

   Mixed-case Terminal Names
       A small number of terminal descriptions	use  uppercase	characters  in
       their  names.   If the underlying filesystem ignores the	difference be-
       tween uppercase and lowercase, ncurses represents the "first character"
       of the terminal name used as the	intermediate level of a	directory tree
       in (two-character) hexadecimal form.

   Limits
       ncurses stores compiled terminal	descriptions in	three related formats,
       described in the	sections

          LEGACY STORAGE FORMAT, and

          EXTENDED STORAGE FORMAT, and

          EXTENDED NUMBER FORMAT.

       The legacy storage format and the extended number format	differ by  the
       types  of  numeric capability which they	can store (i.e., 16-bit	versus
       32-bit integers).  The extended storage format  introduced  by  ncurses
       5.0 adds	data to	either of these	formats.

       Some limitations	apply:

          total  compiled entries cannot exceed 4096 bytes in the legacy for-
	   mat.

          total compiled entries cannot exceed	32768 bytes  in	 the  extended
	   format.

          the name field cannot exceed	128 bytes.

       Compiled	 entries  are  limited to 32768	bytes because offsets into the
       strings table use two-byte integers.  The legacy	format could have sup-
       ported 32768-byte entries, but was limited to a virtual	memory	page's
       4096 bytes.

EXAMPLES
       As an example, here is a	description for	the Lear-Siegler ADM-3,	a pop-
       ular though rather stupid early terminal:

       adm3a|lsi adm3a,
	       am,
	       cols#80,	lines#24,
	       bel=^G, clear=\032$<1>, cr=^M, cub1=^H, cud1=^J,
	       cuf1=^L,	cup=\E=%p1%{32}%+%c%p2%{32}%+%c, cuu1=^K,
	       home=^^,	ind=^J,

       and a hexadecimal dump of the compiled terminal description:

       0000  1a	01 10 00 02 00 03 00  82 00 31 00 61 64	6d 33  ........	..1.adm3
       0010  61	7c 6c 73 69 20 61 64  6d 33 61 00 00 01	50 00  a|lsi ad	m3a...P.
       0020  ff	ff 18 00 ff ff 00 00  02 00 ff ff ff ff	04 00  ........	........
       0030  ff	ff ff ff ff ff ff ff  0a 00 25 00 27 00	ff ff  ........	..%.'...
       0040  29	00 ff ff ff ff 2b 00  ff ff 2d 00 ff ff	ff ff  ).....+.	..-.....
       0050  ff	ff ff ff ff ff ff ff  ff ff ff ff ff ff	ff ff  ........	........
       0060  ff	ff ff ff ff ff ff ff  ff ff ff ff ff ff	ff ff  ........	........
       0070  ff	ff ff ff ff ff ff ff  ff ff ff ff ff ff	ff ff  ........	........
       0080  ff	ff ff ff ff ff ff ff  ff ff ff ff ff ff	ff ff  ........	........
       0090  ff	ff ff ff ff ff ff ff  ff ff ff ff ff ff	ff ff  ........	........
       00a0  ff	ff ff ff ff ff ff ff  ff ff ff ff ff ff	ff ff  ........	........
       00b0  ff	ff ff ff ff ff ff ff  ff ff ff ff ff ff	ff ff  ........	........
       00c0  ff	ff ff ff ff ff ff ff  ff ff ff ff ff ff	ff ff  ........	........
       00d0  ff	ff ff ff ff ff ff ff  ff ff ff ff ff ff	ff ff  ........	........
       00e0  ff	ff ff ff ff ff ff ff  ff ff ff ff ff ff	ff ff  ........	........
       00f0  ff	ff ff ff ff ff ff ff  ff ff ff ff ff ff	ff ff  ........	........
       0100  ff	ff ff ff ff ff ff ff  ff ff ff ff ff ff	ff ff  ........	........
       0110  ff	ff ff ff ff ff ff ff  ff ff ff ff ff ff	ff ff  ........	........
       0120  ff	ff ff ff ff ff 2f 00  07 00 0d 00 1a 24	3c 31  ....../.	.....$<1
       0130  3e	00 1b 3d 25 70 31 25  7b 33 32 7d 25 2b	25 63  >..=%p1%	{32}%+%c
       0140  25	70 32 25 7b 33 32 7d  25 2b 25 63 00 0a	00 1e  %p2%{32}	%+%c....
       0150  00	08 00 0c 00 0b 00 0a  00		       ........	.

AUTHORS
       Thomas E. Dickey
       extended	terminfo format	for ncurses 5.0
       hashed database support for ncurses 5.6
       extended	number support for ncurses 6.1

       Eric S. Raymond
       documented legacy terminfo format, e.g.,	from pcurses.

SEE ALSO
       curses(3X), curs_terminfo(3X), terminfo(5), user_caps(5)

ncurses	6.5			  2024-04-20			       term(5)

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