libsixel
What is this?
This package provides encoder/decoder implementation for DEC SIXEL graphics, and some converter programs.
SIXEL is one of image formats for printer and terminal imaging introduced by Digital Equipment Corp. (DEC). Its data scheme is represented as a terminal-friendly escape sequence. So if you want to view a SIXEL image file, all you have to do is “cat” it to your terminal.
SIXEL Animation
img2sixel(1)
can decode GIF animation.
Related projects
Video streaming
Now Youtube video streaming is available over SIXEL protocol by FFmpeg-SIXEL project.
Above demo only uses 16 color registers.
SDL integration: Gaming, Virtualization, …etc.
SDL1.2-SIXEL project makes enable you to operate various GUI applications on the terminal.
You can play “The Battle for Wesnoth
” over SIXEL protocol.
You can run QEMU on SIXEL terminals.
SDL1.2-SIXEL can collaborate with XSDL-SIXEL.
Furthermore some information of SIXEL-ready SDL applications are reported.
Langage Bindings
libsixel-python
converter.py example depends on it.
mruby-sixel
Used by mruby-webcam.
libsixel-p6
A perl6 bindings for libsixel
sixel-sys
Rust FFI bindings for libsixel
sixel-rs
A safe Rust wrapper for libsixel
W3M integration
img2sixel(1)
can be integrated with Debian’s w3m(maintained by Tatsuya Kinoshita) that includes patches for -sixel option derived from Arakiken’s w3m fork(remoteimg branch).
@uobikiemukot’s sdump project selected another approach. He wrote a w3mimgdisplay compatible program yaimg-sixel. It also works with ranger.
X11 on SIXEL terminals
Xsixel is a kdrive server implementation for SIXEL terminals.
GNU Screen integration
Arakiken’s GNU Screen fork(sixel branch) works with SIXEL-supported applications including above products. This project is now in progress. GUI flavored SIXEL applications will integrated with existing terminal applications on it.
See also on youtube.
Twitter client integration
Some NetBSD/OpenBSD users are doing amazing challenges.
arakiken’s mikutterm(mikutterm-sixel)
Now mikutter + mikutterm works with libsixel inline-image extension.
SIXEL works with old powerless machines such as
NetBSD/luna68k (here is OMRON LUNA-II):
NetBSD/hp300 (here is HP9000/425e):
arakiken’s tw(tw-sixel)
arakiken’s tw(tw-sixel) works with libsixel inline-image extension.
SIXEL works with old powerless machines such as OpenBSD/luna88k (here is OMRON LUNA-88K2 MC88100@33MHz):
sayaka-chan
sayaka-chan(PHP version) works with libsixel inline-image extension.
SIXEL works with old powerless machines such as NetBSD/x68k (here is SHARP X68030 with 060turbo):
SIXEL works even in-kernel console. @isaki68k wrote a patch for ite(4).
Other
sixelSPAD
Includes 2 commands fricas2sixel and latex2sixel.
Neofetch
Now sixel
backend is implemented.
See https://github.com/dylanaraps/neofetch/wiki/Image-Backends#sixel
termplay
Depends on sixel-sys, --converter=sixel
option is supported.
sixelPreviewer
Simple scripts and development environment for realtime edit-previewing for dot, svg, markdown, …etc.
sdump
A sixel image dumper, provides pdf previewer.
Highlighted features
Improved compression
Former sixel encoders(such as ppmtosixel) are mainly designed for dot-matrix printers. They minimize the amount of printer-head movement distance. But nowadays this method did not represent the best performance for displaying sixel data on terminal emulators. SIXEL data for terminals were found in 80’s Usenet, but the technology of how to create them seems to be lost. kmiya’s sixel introduces the encoding method which is re-designed for terminal emulators to optimize the overhead of transporting SIXEL with keeping compatibility with former SIXEL terminal. Now libsixel and ImageMagick’s sixel coder follow it.
@arakiken, known as the maintainer of mlterm, describes about the way to generate high quality SIXEL, which is adopted by libsixel (http://mlterm.sourceforge.net/libsixel.pdf, in Japanese).
High quality quantization
img2sixel(1)
supports color image quantization. It works well even if few number of colors are allowed.
-
ppmtosixel
(netpbm
)$ jpegtopnm images/snake.jpg pnmquant 16 ppmtosixel -
ppmtosixel
with Floyd–Steinberg dithering (netpbm
)$ jpegtopnm images/snake.jpg pnmquant 16 -floyd ppmtosixel -
kmiya’s
sixel
$ sixel -p16 images/snake.jpg
-
PySixel (
sixelconv
command)$ sixelconv -n16 images/snake.jpg
-
libsixel (
img2sixel
command)$ img2sixel -p16 images/snake.jpg
Terminal requirements
If you want to view a SIXEL image, you have to get a terminal which support sixel graphics.
Now SIXEL feature is supported by the following terminals.
-
DEC VT series, VT240/VT241/VT330/VT340/VT282/VT284/VT286/VT382
-
DECterm(dxterm)
-
Kermit
-
ZSTEM 340
-
WRQ Reflection
-
RLogin (Japanese terminal emulator)
-
mlterm
http://mlterm.sourceforge.net/
Works on each of X, WIN32 GDI, framebuffer, Android, Cocoa version.
-
XTerm (compiled with
--enable-sixel-graphics
option)http://invisible-island.net/xterm/
You should launch xterm with “
-ti vt340
” option. The SIXEL palette is limited to a maximum of 16 colors. To avoid this limitation, Try
$ echo "XTerm*decTerminalID: vt340" >> $HOME/.Xresources
$ echo "XTerm*numColorRegisters: 256" >> $HOME/.Xresources
$ xrdb $HOME/.Xresources
$ xterm
or
$ xterm -xrm "XTerm*decTerminalID: vt340" -xrm "XTerm*numColorRegisters: 256"
-
yaft
-
recterm (ttyrec to GIF converter)
-
seq2gif (ttyrec to GIF converter)
-
Mintty (>= 2.6.0)
Install
Using package managers
You can install libsixel via the following package systems.
- FreeBSD ports
- DPorts
- pkgsrc
- Homebrew tap
- yacp
- Debian
- AUR
- Portage
- Ubuntu
- NixOS
- OpenBSD Ports
- Fedora Copr
Build from source package
$ ./configure
$ make
# make install
Build with optional packages
You can configure with the following options
--with-libcurl build with libcurl (default: auto)
--with-gd build with libgd (default: no)
--with-gdk-pixbuf2 build with gdk-pixbuf2 (default: no)
--with-jpeg build with libjpeg (default: auto)
--with-png build with libpng (default: auto)
--with-pkgconfigdir specify pkgconfig dir (default is libdir/pkgconfig)
--with-bashcompletiondir specify bashcompletion.d
--with-zshcompletiondir specify zshcompletion.d
--enable-python Python interface (default: yes)
--enable-debug Use debug macro and specific CFLAGS
--enable-gcov Use gcov
--enable-tests Build tests
For more information, see “./configure –help”.
Cross compiling with MinGW
You can build a windows binary in cross-build environment.
$ CC=i686-w64-mingw32-gcc cross_compile=yes ./configure --host=i686-w64-mingw32
$ make
Usage of command line tools
img2sixel
Usage: img2sixel [Options] imagefiles
img2sixel [Options] < imagefile
Options:
-o, --outfile specify output file name.
(default:stdout)
-7, --7bit-mode generate a sixel image for 7bit
terminals or printers (default)
-8, --8bit-mode generate a sixel image for 8bit
terminals or printers
-R, --gri-limit limit arguments of DECGRI('!') to 255
-p COLORS, --colors=COLORS specify number of colors to reduce
the image to (default=256)
-m FILE, --mapfile=FILE transform image colors to match this
set of colorsspecify map
-e, --monochrome output monochrome sixel image
this option assumes the terminal
background color is black
-k, --insecure allow to connect to SSL sites without
certs(enabled only when configured
with --with-libcurl)
-i, --invert assume the terminal background color
is white, make sense only when -e
option is given
-I, --high-color output 15bpp sixel image
-u, --use-macro use DECDMAC and DEVINVM sequences to
optimize GIF animation rendering
-n MACRONO, --macro-number=MACRONO
specify an number argument for
DECDMAC and make terminal memorize
SIXEL image. No image is shown if
this option is specified
-C COMPLEXIONSCORE, --complexion-score=COMPLEXIONSCORE
specify an number argument for the
score of complexion correction.
COMPLEXIONSCORE must be 1 or more.
-g, --ignore-delay render GIF animation without delay
-S, --static render animated GIF as a static image
-d DIFFUSIONTYPE, --diffusion=DIFFUSIONTYPE
choose diffusion method which used
with -p option (color reduction)
DIFFUSIONTYPE is one of them:
auto -> choose diffusion type
automatically (default)
none -> do not diffuse
fs -> Floyd-Steinberg method
atkinson -> Bill Atkinson's method
jajuni -> Jarvis, Judice & Ninke
stucki -> Stucki's method
burkes -> Burkes' method
a_dither -> positionally stable
arithmetic dither
x_dither -> positionally stable
arithmetic xor based dither
-f FINDTYPE, --find-largest=FINDTYPE
choose method for finding the largest
dimension of median cut boxes for
splitting, make sense only when -p
option (color reduction) is
specified
FINDTYPE is one of them:
auto -> choose finding method
automatically (default)
norm -> simply comparing the
range in RGB space
lum -> transforming into
luminosities before the
comparison
-s SELECTTYPE, --select-color=SELECTTYPE
choose the method for selecting
representative color from each
median-cut box, make sense only
when -p option (color reduction) is
specified
SELECTTYPE is one of them:
auto -> choose selecting
method automatically
(default)
center -> choose the center of
the box
average -> calculate the color
average into the box
histogram -> similar with average
but considers color
histogram
-c REGION, --crop=REGION crop source image to fit the
specified geometry. REGION should
be formatted as '%dx%d+%d+%d'
-w WIDTH, --width=WIDTH resize image to specified width
WIDTH is represented by the
following syntax
auto -> preserving aspect
ratio (default)
<number>% -> scale width with
given percentage
<number> -> scale width with
pixel counts
<number>px -> scale width with
pixel counts
-h HEIGHT, --height=HEIGHT resize image to specified height
HEIGHT is represented by the
following syntax
auto -> preserving aspect
ratio (default)
<number>% -> scale height with
given percentage
<number> -> scale height with
pixel counts
<number>px -> scale height with
pixel counts
-r RESAMPLINGTYPE, --resampling=RESAMPLINGTYPE
choose resampling filter used
with -w or -h option (scaling)
RESAMPLINGTYPE is one of them:
nearest -> Nearest-Neighbor
method
gaussian -> Gaussian filter
hanning -> Hanning filter
hamming -> Hamming filter
bilinear -> Bilinear filter
(default)
welsh -> Welsh filter
bicubic -> Bicubic filter
lanczos2 -> Lanczos-2 filter
lanczos3 -> Lanczos-3 filter
lanczos4 -> Lanczos-4 filter
-q QUALITYMODE, --quality=QUALITYMODE
select quality of color
quanlization.
auto -> decide quality mode
automatically (default)
low -> low quality and high
speed mode
high -> high quality and low
speed mode
full -> full quality and careful
speed mode
-l LOOPMODE, --loop-control=LOOPMODE
select loop control mode for GIF
animation.
auto -> honor the setting of
GIF header (default)
force -> always enable loop
disable -> always disable loop
-t PALETTETYPE, --palette-type=PALETTETYPE
select palette color space type
auto -> choose palette type
automatically (default)
hls -> use HLS color space
rgb -> use RGB color space
-b BUILTINPALETTE, --builtin-palette=BUILTINPALETTE
select built-in palette type
xterm16 -> X default 16 color map
xterm256 -> X default 256 color map
vt340mono -> VT340 monochrome map
vt340color -> VT340 color map
gray1 -> 1bit grayscale map
gray2 -> 2bit grayscale map
gray4 -> 4bit grayscale map
gray8 -> 8bit grayscale map
-E ENCODEPOLICY, --encode-policy=ENCODEPOLICY
select encoding policy
auto -> choose encoding policy
automatically (default)
fast -> encode as fast as possible
size -> encode to as small sixel
sequence as possible
-B BGCOLOR, --bgcolor=BGCOLOR
specify background color
BGCOLOR is represented by the
following syntax
#rgb
#rrggbb
#rrrgggbbb
#rrrrggggbbbb
rgb:r/g/b
rgb:rr/gg/bb
rgb:rrr/ggg/bbb
rgb:rrrr/gggg/bbbb
-P, --penetrate penetrate GNU Screen using DCS
pass-through sequence
-D, --pipe-mode read source images from stdin
continuously (deprecated)
-v, --verbose show debugging info
-V, --version show version and license info
-H, --help show this help
Environment variables:
SIXEL_BGCOLOR specify background color.
overrided by -B(--bgcolor) option.
represented by the following
syntax:
#rgb
#rrggbb
#rrrgggbbb
#rrrrggggbbbb
rgb:r/g/b
rgb:rr/gg/bb
rgb:rrr/ggg/bbb
rgb:rrrr/gggg/bbbb
Convert a jpeg image file into a sixel file
$ img2sixel < images/egret.jpg > egret.sixel
Reduce colors to 16:
$ img2sixel -p 16 < images/egret.jpg > egret.sixel
Reduce colors with fixed palette:
$ img2sixel -m images/map16.png < images/egret.jpg > egret.sixel
sixel2png
Usage: sixel2png -i input.sixel -o output.png
sixel2png < input.sixel > output.png
Options:
-i, --input specify input file
-o, --output specify output file
-V, --version show version and license information
-H, --help show this help
Convert a sixel file into a png image file
$ sixel2png < egret.sixel > egret.png
The high-level conversion API
The high-livel API provides File-to-File conversion features.
Encoder
The sixel encoder object and related functions provides almost same features as img2sixel
.
/* create encoder object */
SIXELAPI SIXELSTATUS
sixel_encoder_new(
sixel_encoder_t /* out */ **ppencoder, /* encoder object to be created */
sixel_allocator_t /* in */ *allocator); /* allocator, null if you use
default allocator */
/* increase reference count of encoder object (thread-unsafe) */
SIXELAPI void
sixel_encoder_ref(sixel_encoder_t /* in */ *encoder);
/* decrease reference count of encoder object (thread-unsafe) */
SIXELAPI void
sixel_encoder_unref(sixel_encoder_t /* in */ *encoder);
/* set cancel state flag to encoder object */
SIXELAPI SIXELSTATUS
sixel_encoder_set_cancel_flag(
sixel_encoder_t /* in */ *encoder,
int /* in */ *cancel_flag);
/* set an option flag to encoder object */
SIXELAPI SIXELSTATUS
sixel_encoder_setopt(
sixel_encoder_t /* in */ *encoder,
int /* in */ arg,
char const /* in */ *optarg);
/* load source data from specified file and encode it to SIXEL format */
SIXELAPI SIXELSTATUS
sixel_encoder_encode(
sixel_encoder_t /* in */ *encoder,
char const /* in */ *filename);
Decoder
The sixel decoder object and related functions provides almost same features as sixel2png
.
/* create decoder object */
SIXELAPI SIXELSTATUS
sixel_decoder_new(
sixel_decoder_t /* out */ **ppdecoder, /* decoder object to be created */
sixel_allocator_t /* in */ *allocator); /* allocator, null if you use
default allocator */
/* increase reference count of decoder object (thread-unsafe) */
SIXELAPI void
sixel_decoder_ref(sixel_decoder_t *decoder);
/* decrease reference count of decoder object (thread-unsafe) */
SIXELAPI void
sixel_decoder_unref(sixel_decoder_t *decoder);
/* set an option flag to decoder object */
SIXELAPI SIXELSTATUS
sixel_decoder_setopt(
sixel_decoder_t /* in */ *decoder, /* decoder object */
int /* in */ arg, /* one of SIXEL_OPTFLAG_*** */
char const /* in */ *optarg); /* null or an argument of optflag */
/* load source data from stdin or the file specified with
SIXEL_OPTFLAG_INPUT flag, and decode it */
SIXELAPI SIXELSTATUS
sixel_decoder_decode(
sixel_decoder_t /* in */ *decoder);
The low-level conversion API
The low-livel API provides Bytes-to-Bytes conversion features.
The Whole API is described here.
Examples
OpenGL
OpenGL example suggests how to port your OpenGL application to SIXEL terminal.
Drawing
Drawing example suggests how to implement the interaction among SIXEL terminals and pointer devices.
Python
Python example suggests how to convert PIL images into SIXEL using libsixel python interface.
Bitmap to SIXEL
sixel_encode
function converts bitmap array into SIXEL format.
/* convert pixels into sixel format and write it to output context */
SIXELAPI SIXELSTATUS
sixel_encode(
unsigned char /* in */ *pixels, /* pixel bytes */
int /* in */ width, /* image width */
int /* in */ height, /* image height */
int /* in */ depth, /* color depth: now unused */
sixel_dither_t /* in */ *dither, /* dither context */
sixel_output_t /* in */ *context); /* output context */
To use this function, you have to initialize two objects,
-
sixel_dither_t
(dithering context object) -
sixel_output_t
(output context object)
Dithering context
Here is a part of APIs for dithering context manipulation.
/* create dither context object */
SIXELAPI SIXELSTATUS
sixel_dither_new(
sixel_dither_t /* out */ **ppdither, /* dither object to be created */
int /* in */ ncolors, /* required colors */
sixel_allocator_t /* in */ *allocator); /* allocator, null if you use
default allocator */
/* get built-in dither context object */
SIXELAPI sixel_dither_t *
sixel_dither_get(int builtin_dither); /* ID of built-in dither object */
/* destroy dither context object */
SIXELAPI void
sixel_dither_destroy(sixel_dither_t *dither); /* dither context object */
/* increase reference count of dither context object (thread-unsafe) */
SIXELAPI void
sixel_dither_ref(sixel_dither_t *dither); /* dither context object */
/* decrease reference count of dither context object (thread-unsafe) */
SIXELAPI void
sixel_dither_unref(sixel_dither_t *dither); /* dither context object */
/* initialize internal palette from specified pixel buffer */
SIXELAPI SIXELSTATUS
sixel_dither_initialize(
sixel_dither_t *dither, /* dither context object */
unsigned char /* in */ *data, /* sample image */
int /* in */ width, /* image width */
int /* in */ height, /* image height */
int /* in */ pixelformat, /* one of enum pixelFormat */
int /* in */ method_for_largest, /* method for finding the largest dimension */
int /* in */ method_for_rep, /* method for choosing a color from the box */
int /* in */ quality_mode); /* quality of histogram processing */
/* set diffusion type, choose from enum methodForDiffuse */
SIXELAPI void
sixel_dither_set_diffusion_type(
sixel_dither_t /* in */ *dither, /* dither context object */
int /* in */ method_for_diffuse); /* one of enum methodForDiffuse */
/* get number of palette colors */
SIXELAPI int
sixel_dither_get_num_of_palette_colors(
sixel_dither_t /* in */ *dither); /* dither context object */
/* get number of histogram colors */
SIXELAPI int
sixel_dither_get_num_of_histogram_colors(
sixel_dither_t /* in */ *dither); /* dither context object */
/* get palette */
SIXELAPI unsigned char *
sixel_dither_get_palette(
sixel_dither_t /* in */ *dither); /* dither context object */
/* set palette */
SIXELAPI void
sixel_dither_set_palette(
sixel_dither_t /* in */ *dither, /* dither context object */
unsigned char /* in */ *palette);
SIXELAPI void
sixel_dither_set_complexion_score(
sixel_dither_t /* in */ *dither, /* dither context object */
int /* in */ score); /* complexion score (>= 1) */
SIXELAPI void
sixel_dither_set_body_only(
sixel_dither_t /* in */ *dither, /* dither context object */
int /* in */ bodyonly); /* 0: output palette section(default)
1: do not output palette section */
SIXELAPI void
sixel_dither_set_optimize_palette(
sixel_dither_t /* in */ *dither, /* dither context object */
int /* in */ do_opt); /* 0: optimize palette size
1: don't optimize palette size */
/* set pixelformat */
SIXELAPI void
sixel_dither_set_pixelformat(
sixel_dither_t /* in */ *dither, /* dither context object */
int /* in */ pixelformat); /* one of enum pixelFormat */
/* set transparent */
SIXELAPI void
sixel_dither_set_transparent(
sixel_dither_t /* in */ *dither, /* dither context object */
int /* in */ transparent); /* transparent color index */
Output context
Here is a part of APIs for output context manipulation.
/* create output context object */
SIXELAPI SIXELSTATUS
sixel_output_new(
sixel_output_t /* out */ **output, /* output object to be created */
sixel_write_function /* in */ fn_write, /* callback for output sixel */
void /* in */ *priv, /* private data given as
3rd argument of fn_write */
sixel_allocator_t /* in */ *allocator); /* allocator, null if you use
default allocator */
/* destroy output context object */
SIXELAPI void
sixel_output_destroy(sixel_output_t /* in */ *output); /* output context */
/* increase reference count of output context object (thread-unsafe) */
SIXELAPI void
sixel_output_ref(sixel_output_t /* in */ *output); /* output context */
/* decrease reference count of output context object (thread-unsafe) */
SIXELAPI void
sixel_output_unref(sixel_output_t /* in */ *output); /* output context */
/* set 8bit output mode which indicates whether it uses C1 control characters */
SIXELAPI int
sixel_output_get_8bit_availability(
sixel_output_t /* in */ *output); /* output context */
/* get 8bit output mode state */
SIXELAPI void
sixel_output_set_8bit_availability(
sixel_output_t /* in */ *output, /* output context */
int /* in */ availability); /* 0: do not use 8bit characters
1: use 8bit characters */
/* set GNU Screen penetration feature enable or disable */
SIXELAPI void
sixel_output_set_penetrate_multiplexer(
sixel_output_t /* in */ *output, /* output context */
int /* in */ penetrate); /* 0: penetrate GNU Screen
1: do not penetrate GNU Screen */
/* set whether we skip DCS envelope */
SIXELAPI void
sixel_output_set_skip_dcs_envelope(
sixel_output_t /* in */ *output, /* output context */
int /* in */ skip); /* 0: output DCS envelope
1: do not output DCS envelope */
SIXELAPI void
sixel_output_set_palette_type(
sixel_output_t /* in */ *output, /* output context */
int /* in */ palettetype); /* PALETTETYPE_RGB: RGB palette
PALETTETYPE_HLS: HLS palette */
SIXELAPI void
sixel_output_set_encode_policy(
sixel_output_t /* in */ *output, /* output context */
int /* in */ encode_policy);
SIXEL to indexed bitmap
sixel_decode
function converts SIXEL into indexed bitmap bytes with its palette.
/* convert sixel data into indexed pixel bytes and palette data */
SIXELAPI SIXELSTATUS
sixel_decode_raw(
unsigned char /* in */ *p, /* sixel bytes */
int /* in */ len, /* size of sixel bytes */
unsigned char /* out */ **pixels, /* decoded pixels */
int /* out */ *pwidth, /* image width */
int /* out */ *pheight, /* image height */
unsigned char /* out */ **palette, /* ARGB palette */
int /* out */ *ncolors, /* palette size (<= 256) */
sixel_allocator_t /* in */ *allocator); /* allocator object */
Perl interface
This package includes a perl module Image::Sixel
.
Build and install Perl interface
$ cd perl
$ perl Build.PL
$ ./Build test
$ ./Build install
Python interface
This package includes a Python module libsixel
.
Build and install Python interface
Install into the python prefixed with ‘/usr/local’
$ git clone https://github.com/saitoha/libsixel.git
$ cd libsixel
$ git checkout develop # now available only develop branch
$ ./configure --enable-python --prefix=/usr/local
$ make install
Install into only current active python
$ git clone https://github.com/saitoha/libsixel.git
$ cd libsixel
$ git checkout develop # now available only develop branch
$ ./configure --disable-python
$ make install # install libsixel
$ cd python
$ python setup.py install # install python module
or
$ easy_install libsixel-python
PHP interface
This package includes a PHP module sixel
.
Build and install PHP interface
$ cd php/sixel
$ phpize
$ ./configure
$ make install
Ruby interface
Build and install Ruby interface
$ gem install libsixel-ruby
or
$ git submodule update --init
$ rake compile
$ rake build install
Support
This software is provided “as is” without express or implied warranty. The main support channel for this software is the github issue tracker:
https://github.com/saitoha/libsixel/issues
Please post your issue if you have any problems, questions or suggestions.
License
The MIT License (MIT)
Copyright (c) 2014 Hayaki Saito
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the “Software”), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED “AS IS”, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
Contributers and Reviewers
- @arakiken
- @elfring
- @fd00
- @hattya
- @isaki68k
- @knok
- @mattn
- @msmhrt
- @obache
- @tsutsui
- @ttdoda
- @turenar
- @uobikiemukot
- @vrtsds
- @waywardmonkeys
- @yoshikaw
- @turenar
- @mame
- @hodefoting
Contributing
- Fork it ( https://github.com/saitoha/libsixel/fork/ )
- Create your feature branch (git checkout -b my-new-feature)
- Commit your changes (git commit -am ‘Add some feature’)
- Push to the branch (git push origin my-new-feature)
- Create a new Pull Request
Acknowledgment
This software derives from the following implementations.
sixel 2014-3-2
src/tosixel.c, src/fromsixel.c, and some part of converters/loader.c are derived from kmiya’s “sixel” original version (2014-3-2)
Package: http://nanno.dip.jp/softlib/man/rlogin/sixel.tar.gz
Unofficial repo: https://github.com/saitoha/sixel
This work is written by kmiya@ culti. He distributes it under very permissive license.
The original license text(in Japanese) is:
このプログラム及びソースコードの使用について個人・商用を問わず
ご自由に使用していただいで結構です。
また、配布・転載・紹介もご連絡の必要もありません。
ソースの改変による配布も自由ですが、どのバージョンの改変かを
明記されることを希望します。
バージョン情報が無い場合は、配布物の年月日を明記されることを
希望します。
2014/10/05 kmiya
The unofficial translation:
Anyone is free to use this program for any purpose,
commercial or non-commercial, without any restriction.
Anyone is free to distribute, copy, publish, or
advertise this software, without any contact.
Anyone is free to distribute with modification of the
source code, but I "hope" that its based version or
date will be written clearly.
2014/10/05 kmiya
kmiya also said this is compatible with MIT/BSD/GPL.
stbi-2.12
This software includes stb-image-v2.12
(stb_image.h),
public domain JPEG/PNG reader.
https://github.com/nothings/stb
LICENSE
This software is in the public domain. Where that dedication is not recognized, you are granted a perpetual, irrevocable license to copy, distribute, and modify this file as you see fit.
stbiw-1.02
This software includes stb-image-write-v1.02
(stb_image_write.h),
public domain PNG/BMP/TGA writer.
https://github.com/nothings/stb
LICENSE
This software is in the public domain. Where that dedication is not recognized, you are granted a perpetual, irrevocable license to copy, distribute, and modify this file as you see fit.
pnmquant.c (netpbm library)
The implementation of median cut algorithm for color quantization in quant.c
is imported from pnmcolormap
included in netpbm library
.
http://netpbm.sourceforge.net/
pnmcolormap
was derived from ppmquant
, originally written by Jef Poskanzer.
Copyright (C) 1989, 1991 by Jef Poskanzer. Copyright (C) 2001 by Bryan Henderson.
Permission to use, copy, modify, and distribute this software and its documentation for any purpose and without fee is hereby granted, provided that the above copyright notice appear in all copies and that both that copyright notice and this permission notice appear in supporting documentation. This software is provided “as is” without express or implied warranty.
loader.h (@uobikiemukot’s sdump)
Some parts of converters/loader.c are imported from @uobikiemukot’s sdump project
The MIT License (MIT)
Copyright (c) 2014 haru
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the “Software”), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED “AS IS”, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE AUTHORS OR COPYRIGHT HOLDERS BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
ax_gcc_var_attribute / ax_gcc_func_attribute
These are useful m4 macros for detecting some GCC attributes.
http://www.gnu.org/software/autoconf-archive/ax_gcc_var_attribute.html http://www.gnu.org/software/autoconf-archive/ax_gcc_func_attribute.html
Copyright (c) 2013 Gabriele Svelto gabriele.svelto@gmail.com
Copying and distribution of this file, with or without modification, are permitted in any medium without royalty provided the copyright notice and this notice are preserved. This file is offered as-is, without any warranty.
graphics.c (from Xterm pl#310)
The helper function hls2rgb
in src/fromsixel.c
is imported from
graphics.c
in Xterm pl#310,
originally written by Ross Combs.
Copyright 2013,2014 by Ross Combs
All Rights Reserved
Permission is hereby granted, free of charge, to any person obtaining a copy of this software and associated documentation files (the “Software”), to deal in the Software without restriction, including without limitation the rights to use, copy, modify, merge, publish, distribute, sublicense, and/or sell copies of the Software, and to permit persons to whom the Software is furnished to do so, subject to the following conditions:
The above copyright notice and this permission notice shall be included in all copies or substantial portions of the Software.
THE SOFTWARE IS PROVIDED “AS IS”, WITHOUT WARRANTY OF ANY KIND, EXPRESS OR IMPLIED, INCLUDING BUT NOT LIMITED TO THE WARRANTIES OF MERCHANTABILITY, FITNESS FOR A PARTICULAR PURPOSE AND NONINFRINGEMENT. IN NO EVENT SHALL THE ABOVE LISTED COPYRIGHT HOLDER(S) BE LIABLE FOR ANY CLAIM, DAMAGES OR OTHER LIABILITY, WHETHER IN AN ACTION OF CONTRACT, TORT OR OTHERWISE, ARISING FROM, OUT OF OR IN CONNECTION WITH THE SOFTWARE OR THE USE OR OTHER DEALINGS IN THE SOFTWARE.
Except as contained in this notice, the name(s) of the above copyright holders shall not be used in advertising or otherwise to promote the sale, use or other dealings in this Software without prior written authorization.
test images
http://public-domain-photos.com/
The following test images in “image/” directory came from PUBLIC-DOMAIN-PHOTOS.com.
-
images/egret.jpg
author: Jon Sullivan url: http://public-domain-photos.com/animals/egret-4.htm
-
images/snake.jpg
author: Jon Sullivan url: http://public-domain-photos.com/animals/snake-4.htm
These are in the public domain.
vimperator3.png (mascot of vimperator)
images/vimperator3.png is in the public domain.
author: @k_wizard
url: http://quadrantem.com/~k_wizard/vimprtan/
PngSuite
Images under the directory images/pngsuite/ are imported from PngSuite created by Willem van Schaik.
Permission to use, copy, modify and distribute these images for any purpose and without fee is hereby granted.
(c) Willem van Schaik, 1996, 2011
References
ImageMagick
We are greatly inspired by the quality of ImageMagick and added some resampling filters to
img2sixel
in reference to the line-up of filters of MagickCore’s resize.c.
http://www.imagemagick.org/api/MagickCore/resize_8c_source.html
Similar software
-
You can get SIXEL graphics using ppmtosixel or pbmtoln03.
-
libgd based SIXEL converter
-
Python implementation of SIXEL converter
-
Now SIXEL coder is available in svn trunk and V6 branch.
-
A monochrome SIXEL converter
-
sixelv in sayaka-chan Vala version
sayaka-chan(Vala version) also includes SIXEL converter.
-
A SIXEL encoder written in rust.
-
A SIXEL encoder written in forth.
-
An utility to convert farbfeld images to Sixels.
-
terminal/commandline image viewer
-
xpr(1) can convert a xwd(X window dump) format image into a sixel image with ‘-device ln03’ or ‘-device la100’ option. But now it is not maintained. It looks broken.
Other software supporting SIXEL
-
Recent version of GNUPLOT supports new terminal driver “sixeltek(sixel)” / “sixelgd”.
-
You can emit SIXEL images with LN03 / LN50 / LA75 driver.
example:
$ gs -q -r100x -dBATCH -dNOPAUSE -sDEVICE=ln03 -sOutputFile=- tiger.eps
-
Recent version of ImageMagick provides SIXEL coder. It’s also available over commandline tools.
-
Like “ls”, but for images. Shows thumbnails in terminal using sixel graphics.
-
Sixel support for p9p devdraw
-
A ZX81 emulator producing Sixel Image Files
-
QR code generator for terminals (ASCII Art, Sixel)
-
SIXEL encoder/decoder and command line tools writtern in golang.
-
SIXEL format is supported by -sixel2, -sixel16 or -sixel256 option.
-
Freestanding slideviewer using sixel graphics. Currently runs on QEMU(i386), without any filesystem or network.
cf. http://www.slideshare.net/syuu1228/presentation-on-your-terminal
-
It can import SIXEL images.
-
This web page can decode SIXEL images (written in javascript).
-
A mandelbrot program for (colour) sixel-supporting terminals, written by Chris Baird
-
SixelGraphics.jl(written in Julia)
A module for Julia implementing simple Sixel graphics.
-
thin-wrapper for pysixel and matplotlib