tcell
Tcell is a work in progress (Gamma).
Please use with caution; interfaces may change in before final release.
That said, our confidence in Tcell's stability is increasing. If you
would like to use it in your own application, it is recommended that
you drop a message to garrett@damore.org before commitment.
Package tcell provides a cell based view for text terminals, like xterm.
It was inspired by termbox, but differs from termbox in some important
ways. It also adds substantial functionality beyond termbox.
Examples
- proxima5 - space shooter (video)
- govisor - service management UI (screenshot)
- mouse demo - screenshot - included mouse test
- gomatrix - converted from Termbox
- micro - lightweight text editor with syntax-highlighting and themes
- godu - simple golang utility helping to discover large files/folders.
Pure Go Terminfo Database
First, it includes a full parser and expander for terminfo capability strings,
so that it can avoid hard coding escape strings for formatting. It also favors
portability, and includes support for all POSIX systems, at the slight expense
of needing cgo support for terminal initializations. (This may be corrected
when Go provides standard support for terminal handling via termio ioctls on
all POSIX platforms.) The database itself, while built using CGO, as well
as the parser for it, is implemented in Pure Go.
The database is also flexible & extensible, and can modified by either running a
program to build the database, or hand editing of simple JSON files.
More Portable
Tcell is portable to a wider variety of systems. It relies on standard
POSIX supported function calls (on POSIX platforms) for setting terminal
modes, which leads to improved support for a broader array of platforms.
This does come at the cost of requiring your code to be able to use CGO, but
we believe that the vastly improved portability justifies this
requirement. Note that the functions called are part of the standard C
library, so there shouldn't be any additional external requirements beyond
that required for every POSIX program.
No async IO
Tcell is able to operate without requiring SIGIO signals (unlike Termbox),
or asynchronous I/O, and can instead use standard Go file
objects and Go routines. This means it should be safe, especially for
use with programs that use exec, or otherwise need to manipulate the
tty streams. This model is also much closer to idiomatic Go, leading
to fewer surprises.
Richer Unicode & non-Unicode support
Tcell includes enhanced support for Unicode, include wide characters and
combining characters, provided your terminal can support them. Note that
Windows terminals generally don't support the full Unicode repertoire.
It will also convert to and from Unicode locales, so that the program
can work with UTF-8 internally, and get reasonable output in other locales.
We try hard to convert to native characters on both input and output, and
on output Tcell even makes use of the alternate character set to facilitate
drawing certain characters.
More Function Keys
It also has richer support for a larger number of
special keys that some terminals can send.
Better color handling
Tcell will respect your terminal's color space as specified within your terminfo
entries, so that for example attempts to emit color sequences on VT100 terminals
won't result in unintended consequences.
In Windows mode, Tcell supports 16 colors, bold, dim, and reverse,
instead of just termbox's 8 colors with reverse. (Note that there is some
conflation with bold/dim and colors.)
Tcell maps 16 colors down to 8, for Terminals that need it. (The upper
8 colors are just brighter versions of the lower 8.)
Better mouse support
Tcell supports enhanced mouse tracking mode, so your application can receive
regular mouse motion events, and wheel events, if your terminal supports it.
Why not just patch termbox-go?
I started this project originally by submitting patches to the author of
go-termbox, but due to some fundamental differences of opinion, I thought
it might be simpler just to start from scratch. At this point, Tcell has
far exceeded the capabilities of termbox.
Termbox compatibility
A compatibility layer for termbox is provided in the compat
directory. To use it, try importing "github.com/gdamore/tcell/termbox"
instead. Most termbox-go programs will probably work without further
modification.
Working With Unicode
Internally Tcell uses UTF-8, just like Go. However, Tcell understands how to
convert to and from other character sets, using the capabilities of
the golang.org/x/text/encoding packages. Your application must supply
them, as the full set of the most common ones bloats the program by about
2MB. If you're lazy, and want them all anyway, see the encoding
sub-directory.
Wide & Combining Characters
The SetContent() API takes a primary rune, and an optional list of combining
runes. If any of the runes is a wide (East Asian) rune occupying two cells,
then the library will skip output from the following cell, but care must be
taken in the application to avoid explicitly attempting to set content in the
next cell, otherwise the results are undefined. (Normally wide character
is displayed, and the other character is not; do not depend on that behavior.)
Experience has shown that the vanilla Windows 8 console application does not
support any of these characters properly, but at least some options like
ConEmu do support Wide characters at least.
Colors
Tcell assumes the ANSI/XTerm color model, including the 256 color map that
XTerm uses when it supports 256 colors. The terminfo guidance will be
honored, with respect to the number of colors supported. Also, only
terminals which expose ANSI style setaf and setab will support color;
if you have a color terminal that only has setf and setb, please let me
know; it wouldn't be hard to add that if there is need.
24-bit Color
Tcell supports true color! (That is, if your terminal can support it,
Tcell can accurately display 24-bit color.)
To use 24-bit color, you need to use a terminal that supports it. Modern
xterm and similar teminal emulators can support this. As terminfo lacks any
way to describe this capability, we fabricate the capability for
terminals with names ending in *-truecolor. The stock distribution ships
with a database that defines xterm-truecolor. To try it out, set your
TERM variable to xterm-truecolor.
When using TrueColor, programs will display the colors that the programmer
intended, overriding any "themes" you may have set in your terminal
emulator. (For some cases, accurate color fidelity is more important
than respecting themes. For other cases, such as typical text apps that
only use a few colors, its more desirable to respect the themes that
the user has established.)
If you find this undesirable, you can either use a TERM variable
that lacks the TRUECOLOR setting, or set TCELL_TRUECOLOR=disable in your
environment.
Performance
Reasonable attempts have been made to minimize sending data to terminals,
avoiding repeated sequences or drawing the same cell on refresh updates.
Terminfo
(Not relevent for Windows users.)
The Terminfo implementation operates with two forms of database. The first
is the database.go file, which contains a number of real database entries
that are compiled into the program directly. This should minimize calling
out to database file searches.
The second is a JSON file, that contains the same information, which can
be located either by the $TCELLDB environment file, $HOME/.tcelldb, or is
located in the Go source directory as database.json.
These files (both the Go database.go and the database.json) file can be
generated using the mkinfo.go program. If you need to regnerate the
entire set for some reason, run the mkdatabase.sh file. The generation
uses the terminfo routines on the system to populate the data files.
The mkinfo.go program can also be used to generate specific database entries
for named terminals, in case your favorite terminal is missing. (If you
find that this is the case, please let me know and I'll try to add it!)
Tcell requires that the terminal support the 'cup' mode of cursor addressing.
Terminals without absolute cursor addressability are not supported.
This is unlikely to be a problem; such terminals have not been mass produced
since the early 1970s.
Mouse Support
Mouse support is detected via the "kmous" terminfo variable, however,
enablement/disablement and decoding mouse events is done using hard coded
sequences based on the XTerm X11 model. As of this writing all popular
terminals with mouse tracking support this model. (Full terminfo support
is not possible as terminfo sequences are not defined.)
On Windows, the mouse works normally.
Mouse wheel buttons on various terminals are known to work, but the support
in terminal emulators, as well as support for various buttons and
live mouse tracking, varies widely. As a particular datum, MacOS X Terminal
does not support Mouse events at all (as of MacOS 10.10, aka Yosemite.) The
excellent iTerm application is fully supported, as is vanilla XTerm.
Mouse tracking with live tracking also varies widely. Current XTerm
implementations, as well as current Screen and iTerm2, and Windows
consoles, all support this quite nicely. On other platforms you might
find that only mouse click and release events are reported, with
no intervening motion events. It really depends on your terminal.
Testablity
There is a SimulationScreen, that can be used to simulate a real screen
for automated testing. The supplied tests do this. The simulation contains
event delivery, screen resizing support, and capabilities to inject events
and examine "physical" screen contents.
Platforms
Systems (Linux, FreeBSD, MacOS, Solaris, etc.)
On POSIX systems, a POSIX termios implementation with /dev/tty is required.
On a small subset of these platforms (such as Solaris/illumos), we require
cgo to run, in order to access termios. (Note that Linux and BSD systems
do not require CGO for most purposes.)
(Note: CGO support is required if you wish to rebuild the terminal database
from the system's native terminfo binary files. This is because we use the
system's native libterminfo to access that binary data. We probably could
eliminate that in the future by using a terminfo decompiler such as infocmp.)
Windows
Windows console mode applications are supported. Unfortunately mintty
and other cygwin style applications are not supported.
Modern console applications like ConEmu support all the good features
(resize, mouse tracking, etc.)
I haven't figured out how to cleanly resolve the dichotomy between cygwin
style termios and the Windows Console API; it seems that perhaps nobody else
has either. If anyone has suggestions, let me know! Really, if you're
using a Windows application, you should use the native Windows console or a
fully compatible console implementation. Hopefully the Windows 10 console
is more functional in this regard.
Plan9 and Native Client (Nacl)
The nacl and plan9 platforms won't work, but compilation stubs are supplied
for folks that want to include parts of this in software targetting those
platforms. The Simulation screen works, but as Tcell doesn't know how to
allocate a real screen object on those platforms, NewScreen() will fail.