-S

retrieves more than one capability per invocation of tput. The capabilities must be passed to tput from the standard input stream instead of from the command line (see section EXAMPLES below). Only one cap-code is allowed per line. The -S option changes the meanings of the 0 and 1 exit statuses (see section EXIT STATUS below).

Some capabilities use string parameters rather than numeric ones. tput employs a built-in table and the presence of parameters in its input to decide how to interpret them, and whether to use tparm(3NCURSES).

-T type

indicates the terminal's type. Normally this option is unnecessary, because a default is taken from the TERM environment variable. If specified, the environment variables LINES and COLUMNS are also ignored.

-V

reports the version of ncurses associated with tput, and exits with a successful status.

-x

prevents tput clear from attempting to clear the scrollback buffer.

Normally, one should interpret tput's exit statuses as follows.

When the -S option is used, some statuses change meanings.

tput command reads one environment variable.

TERM

denotes the terminal type. Each terminal type is distinct, though many are similar. The -T option overrides its value.

/usr/share/tabset

tab stop initialization database

/etc/terminfo

compiled terminal description database

Over time ncurses tput has differed from that of System V in two important respects, one now mostly historical.

• tput cap-code writes to the standard output, which need not be a terminal device. However, the operands that manipulate terminal modes might not use the standard output.

  System V tput's init and reset operands use logic from 4.1cBSD tset, manipulating terminal modes. It checks the same file descriptors (and /dev/tty) for association with a terminal device as ncurses now does, and if none are, finally assumes a 1200 baud terminal. When updating terminal modes, it ignores errors.

  Until ncurses 6.1 (see section HISTORY below), tput did not modify terminal modes. It now employs a scheme similar to System V, using functions shared with tset (and ultimately based on 4.4BSD tset). If it is not able to open a terminal (for instance, when run by cron(1)), tput exits with an error status.

• System V tput assumes that the type of a cap-code operand is numeric if all the characters of its value are decimal numbers; if they are not, it treats cap-code as a string capability.

  Most implementations that provide support for cap-code operands use the tparm(3NCURSES) function to expand its parameters. That function expects a mixture of numeric and string parameters, requiring tput to know which type to use.

  ncurses tput uses a table to determine the parameter types for the standard cap-code operands, and an internal function to analyze nonstandard cap-code operands.

  While more reliable than System V's utility, a portability problem is introduced by this analysis. An OpenBSD developer adapted the internal library function from ncurses to port NetBSD's termcap-based tput to terminfo, and modified it to interpret multiple cap-codes (and parameters) on the command line. Portable applications should not rely upon this feature; ncurses offers it to support applications written specifically for OpenBSD.

This implementation, unlike others, accepts both termcap and terminfo cap-codes if termcap support is compiled in. In that case, however, the predefined termcap and terminfo codes have two ambiguities; ncurses assumes the terminfo code.

• The cap-code dl means delete_line to termcap but parm_delete_line to terminfo. termcap uses the code DL for parm_delete_line. terminfo uses the code dch1 for delete_line.

• The cap-code ed means exit_delete_mode to termcap but clr_eos to terminfo. termcap uses the code cd for clr_eos. terminfo uses the code rmdc for exit_delete_mode.

The longname operand, -S option, and the parameter-substitution features used in the cup example below, were not supported in AT&T/USL curses before SVr4 (1989). Later, 4.3BSD-Reno (1990) added support for longname, and in 1994, NetBSD added support for the parameter-substitution features.

IEEE Std 1003.1/The Open Group Base Specifications Issue 7 (POSIX.1-2008) documents only the clear, init, and reset operands. A few observations of interest arise from that selection.

• ncurses supports clear as it does any other standard cap-code. The others (init and longname) do not correspond to terminal capabilities.

• The tput on SVr4-based systems such as Solaris, IRIX64, and HP-UX, as well as others such as AIX and Tru64, also support standard cap-code operands.

• A few platforms such as FreeBSD recognize termcap names rather than terminfo capability names in their respective tput commands. Since 2010, NetBSD's tput uses terminfo names. Before that, it (like FreeBSD) recognized termcap names.

  Beginning in 2021, FreeBSD uses ncurses tput, configured for both terminfo (tested first) and termcap (as a fallback).

Because (apparently) all certified Unix systems support the full set of capability codes, the reason for documenting only a few may not be apparent.

• X/Open Curses Issue 7 documents tput differently, with cap-code and the other features used in this implementation.

• That is, there are two standards for tput: POSIX (a subset) and X/Open Curses (the full implementation). POSIX documents a subset to avoid the complication of including X/Open Curses and the terminal capability database.

• While it is certainly possible to write a tput program without using curses, no system with a curses implementation provides a tput utility that does not also support standard cap-codes.

X/Open Curses Issue 7 (2009) is the first version to document utilities. However that part of X/Open Curses does not follow existing practice (that is, System V curses behavior).

• It assigns exit status 4 to invalid operand, which may have the same meaning as unknown capability. For instance, the source code for Solaris xcurses uses the term invalid in this case.

• It assigns exit status 255 to a numeric variable that is not specified in the terminfo database. That likely is a documentation error, mistaking the -1 written to the standard output to indicate an absent or cancelled numeric capability for an (unsigned) exit status.

The various System V implementations (AIX, HP-UX, Solaris) use the same exit statuses as ncurses.

NetBSD curses documents exit statuses that correspond to neither ncurses nor X/Open Curses.

Bill Joy wrote a tput command during development of 4BSD in October 1980. This initial version only cleared the screen, and did not ship with official distributions.

System V developed a different tput command.

• SVr2 (1984) provided a rudimentary tput that checked the parameter against each predefined capability and returned the corresponding value. This version of tput did not use tparm(3NCURSES) for parameterized capabilities.

• SVr3 (1987) replaced that with a more extensive program whose support for init and reset operands (more than half the program) incorporated the reset feature of BSD tset written by Eric Allman.

• SVr4 (1989) added color initialization by using the orig_colors (oc) and orig_pair (op) capabilities in its init logic.

Keith Bostic refactored BSD tput for shipment in 4.3BSD-Tahoe (1988), then replaced it the next year with a new implementation based on System V tput. Bostic's version similarly accepted some parameters named for terminfo (pseudo-)capabilities: clear, init, longname, and reset. However, because he had only termcap available, it accepted termcap names for other capabilities. Also, Bostic's BSD tput did not modify the terminal modes as the earlier BSD tset had done.

At the same time, Bostic added a shell script named clear that used tput to clear the screen. Both of these appeared in 4.4BSD, becoming the modern BSD implementation of tput.

The origin of ncurses tput lies outside both System V and BSD, in Ross Ridge's mytinfo package, published on comp.sources.unix in December 1992. Ridge's program made more sophisticated use of the terminal capabilities than the BSD program. Eric Raymond used that tput program (and other parts of mytinfo) in ncurses in June 1995. Incorporating the portions dealing with terminal capabilities almost without change, Raymond made improvements to the way command-line parameters were handled.

Before ncurses 6.1 (2018), its tset and tput utilities differed.

• tset was more effective, resetting the terminal modes and special characters.

• On the other hand, tset's repertoire of terminal capabilities for resetting the terminal was more limited; it had only equivalents of reset_1string (rs1), reset_2string (rs2), and reset_file (rf), and not the tab stop and margin update features of tput.

The reset program is traditionally an alias for tset due to its ability to reset terminal modes and special characters.

As of ncurses 6.1, the reset features of the two programs are (mostly) the same. Two minor differences remain.

• The tset program waits one second when resetting, in case the terminal happens to be a hardware device.

• The two programs write the terminal initialization strings to different streams; that is, standard error for tset and standard output for tput.