DOjS is a JavaScript programming environment for systems running MS-DOS, FreeDOS or any DOS based Windows (like 95, 98, ME). It features an integrated editor, graphics & sound output, mouse/keyboard/joystick input and more (see below). It was inspired by Processing which is described on Wikipedia as:
Processing is an open-source graphical library and integrated development environment (IDE) / playground built for the electronic arts, new media art, and visual design communities with the purpose of teaching non-programmers the fundamentals of computer programming in a visual context.
It also has a p5js compatibility mode where some of the functions of p5js are available and scripts can have a similar structure to Processing sketches.
You can type in a script with the builtin or your favorite text editor and then run it on a DOS command prompt.
DOjS is pronounces like doge, but ending with an "s".
DOjS was only possible due to the work of these people/projects:
- MuJS JavaScript interpreter
- The Allegro library and Allegro XC
- DJGPP from DJ Delorie and the Linux compile scripts by jwt27.
- The people that contributed to p5js.
- The Glide source cleanup of Ozkan Sezer.
- AllegroPNG PNG loader for Allegro
- DZCOMM COM port library
- libcpuid for cpuid module
- curl and OpenSSL for curl module
- cylindrix for IPX module
- nanosvg for SVG loading
- noise for perlin noise generation
- genann for neural network engine
- SQLite for sqlite module
- Watt32 for TCP/IP networking
- zip for ZIP file access
- zlib for compression
- stb_image.h for JPEG loading
- AnimatedGIF for rendering GIF animations.
- PL_MPEG for mpeg1 decoding
- pdfgen for PDF rendering.
- micromod for MOD playback.
- ibxm for MOD, S3M and XM playback.
- ini for INI file reading.
- Mesa for OpenGL
- libwebp for WebP decoding/encoding
You can find me on Mastodon or in the DOjS Discord if you want...
You can find binary releases on the GitHub release page. Just extract the contents of the archive and run DOjS.exe
.
DOjS runs in Dosbox and on real hardware or a virtual machine with MS-DOS, FreeDOS or any DOS based Windows like Windows 95/98/ME. To use 3Dfx/Glide support you need a Voodoo card or DOSBox-X (see below).
If you run it on real hardware you need at least a 80386 with 4MB. I recommend a Pentium class machine (>= 100MHz) with at least 32MB RAM. The example files run fine on an Athlon 1GHz and with 256MB RAM.
The following hardware/functions are available:
- 8/16/24 and 32 bit 2D graphics. On 24/32bit display modes alpha channel transparency is available.
- BMP, PCX, TGA, QOI and PNG image reading and writing, JPEG and SVG loading
- GRX font loading and rendering
- Keyboard input
- Mouse input
- Joystick/Joyport input
- File IO
- MIDI output
- WAV output
- Audio input/sampling
- Allegro 3D rendering (software)
- 3dfx/Glide3 3D rendering output (hardware)
- Mesa/OpenGL wrapper with 3dfx based hardware acceleration
- p5js compatibility
- direct io-port access (inb, outb, etc)
- LPT or parallel port access (bi-directional)
- COM or serial port access
- IPX and TCP/IP networking
- ZIP file access
- GIF-Animation, FLC/FLI, MPEG1 or OggVorbis playback
- HTTPS support through libcurl and mbedTLS
- PDF generation
See DOStodon for an complex examples. It is a full Mastodon client implemented using DOjS.
You can find the following example in examples/exampl.js
:
/*
** This function is called once when the script is started.
*/
function Setup() {
pink = new Color(241, 66, 244, 255); // define the color pink
}
/*
** This function is called repeatedly until ESC is pressed or Stop() is called.
*/
function Loop() {
ClearScreen(EGA.BLACK);
TextXY(SizeX() / 2, SizeY() / 2, "Hello World!", pink, NO_COLOR);
TextXY(10, 10, "rate=" + GetFramerate(), EGA.BLACK, EGA.LIGHT_BLUE);
}
/*
** This function is called on any input.
*/
function Input(event) {
str = JSON.stringify(event);
}
Open this script with DOjS.EXE examples\exampl.js
or use DOjS.EXE -r examples\exampl.js
to run it without starting the integrated editor first. If the script does not exist the editor loads the template for a new script.
If you want to write scripts using the syntax of p5js you need to use Include('p5');
as first line of your script. You can find the following example in examples/examplp5.js
:
Include('p5');
/*
** This function is called once when the script is started.
*/
function setup() {
pink = color(241, 66, 244); // define the color pink
}
/*
** This function is called repeatedly until ESC is pressed or Stop() is called.
*/
function draw() {
background(EGA.BLACK);
stroke(pink);
fill(pink);
text("Hello p5js World!", width / 2, height / 2);
stroke(EGA.LIGHT_BLUE);
fill(EGA.LIGHT_BLUE);
text("rate=" + getFrameRate(), 10, 10);
}
More info can be found at the end of this README in the section Usage and in the API documentation. Take a look at the examples/
as well.
DOjS has a very simple integrated package manager (DPM). It can be started with DPM.BAT
.
A working packet driver is needed to connect to the package index and download packages using HTTPS.
Packages (and the package index) are fetched from the DOjS/jSH package repository.
Downloaded packages are put into JSBOOT.ZIP
in the PACKAGE/
directory.
Feel free to submit any packages you want to include in that repository using a pull request.
DPM commands:
- installed - list installed packages.
- remove - remove package.
- fetch - fetch package index from server.
- install - install a package (and its dependencies) from package index.
- list - list available packages in index.
- setindex - set index URL (HTTP or HTTPS).
- help - this help.;
- quit - exit dpm.
DOjS supports most of the Glide3 API that was used with 3dfx accelerator cards. The following hardware is supported:
- Voodoo 1 [tested]
- Voodoo 2 [tested]
- Voodoo 3 [tested]
- Voodoo 4 [tested by tunguska]
- Voodoo 5 [tested by tunguska]
- Voodoo Rush (all versions) [tested]
- Voodoo Banshee (PCI and AGP) [tested]
Additionally you can use DOSBox-X which emulates a Voodoo 1 card. Glide functions can be found in the 3dfx-module in the documentation, Javascript support functions have a "FX" prefix, all native functions are prefixed with "fx". Detailed Glide3-API documentation can be found on the internet, e.g. on FalconFly Central. Make sure you grab the Glide3 SDK and not Glide2!
You can use the included DOS version of TEXUS.EXE
to convert bitmaps to 3df
texture files that can be loaded as textures.
!!! Attention !!!
3dfx/Glide3 support ONLY works in plain DOS, NOT in the DOS/command window of Windows 9x! Be sure to always boot into a pure DOS prompt before trying to use any of the fx-functions!
Before using 3dfx/Glide3 support you need to copy the appropriate GLIDE3X.DXE
into the same directory as DOJS.EXE
. You can do so by using the V_XXX.BAT
scripts in the distribution ZIP archive.
- DutchTux has created a GUI toolkit for DOjS: https://github.com/dutchtux3000/jiyuai
- I created a Mastodon client for MS-DOS using DOjS: https://github.com/SuperIlu/DOStodon
- I made a text adventure with DOjS: https://superilu.itch.io/spacebutton
- And also a match-numbers-game: https://superilu.itch.io/numgam
You can compile DOjS on any modern Linux (the instructions below are for Debian based distributions) or on Windows 10 using Windows Subsystem for Linux (WSL). Setup Windows Subsystem for Linux (WSL) according to this guide (I used Ubuntu 18.04 LTS).
Build and install DJGPP 12.2.0 according to this guide. Install NVM. I used the following command lines to update/install my dependencies:
sudo apt-get update
sudo apt-get dist-upgrade
sudo apt-get install bison flex curl gcc g++ make texinfo zlib1g-dev g++ unzip htop screen git bash-completion build-essential zip dos2unix python3
nvm install node
npm install -g jsdoc
npm install -g better-docs
And the following commands to build and install DJGPP to /home/ilu/cross
.:
git clone https://github.com/jwt27/build-djgpp.git
cd build-djgpp
./build-djgpp.sh --target=i586-pc-msdosdjgpp --prefix=/home/ilu/cross all
Open a shell/command line in the directory where you want the source to reside.
Checkout DOjS from Github:
git clone https://github.com/SuperIlu/DOjS.git
Make sure DJGPP is in your PATH and DJDIR is set (e.g. I have these lines in my ~/.profile):
# DJGPP
export PATH=/home/ilu/djgpp/bin/:/home/ilu/djgpp/i586-pc-msdosdjgpp/bin/:$PATH
export DJDIR=/home/ilu/djgpp/
If you used Windows-Tools to check out DOjS from git you may need to fix the newlines of the shell scripts by using make fixnewlines
.
Now you are ready to compile DOjS with make clean all
. This might take some time as the dependencies are quite large.
make distclean
will clean dependencies as well. make zip
will create the distribution ZIP and make doc
will re-create the HTML help.
There is an experimental Linux version of DOjS. It only supports a subset of the DOS version and should be considered ALPHA! See this file for more information.
In order to compile DOjS you need Glide3 includes and binaries. The ones included with the DOjS sources were created using my glide repository on GitHub.
DOjS comes pre-bundled with all fonts included with GRX (files ending with ".FNT"). If you want/need additional fonts you can find a very simple tool to convert TTF/BDF fonts to GRX format here. Results may vary...
A minimal version capable of converting BDF fonts to FNT is included with DOjS (FONTCONV.EXE
).
You can find information on how to convert a TTF to BDF here.
If you run DOjS on a computer with network interface and a matching packet driver you can (sort of) live code using the VSCode extension in vscode\livedojs-0.0.4.vsix
. You need to start DOjS -r examples/websvr.js
and then set the IP address in VSCode using the command DOjS: Set hostname
. Live coding sketches must look like below to work:
// livedojs
exports.Setup = function () {
}
exports.Loop = function () {
ClearScreen(EGA.BLACK);
FilledBox(10, 10, 70, 20, EGA.GREEN);
}
- The first line must be exactly
// livedojs
- The file must end with
.js
- Only
Setup()
andLoop()
are available,Input()
does not work. - p5js compatibility does not work, you must code using DOjS native API
- If the hostname is set the sketch will be automatically be uploaded on save
- The sketch can be uploaded using
DOjS: Upload sketch
manually - you can access the JSLOG.TXT of the running server by using
DOjS: get logfile
See the changelog for the projects history.
- Stack trace selector in the editor
- TCP/IP remote logging/debugging.
- add FFT module
- add webp decoder (https://github.com/webmproject/libwebp/blob/main/doc/api.md)
- Add ZIP file functions (e.g. https://libzip.org/users/ or https://github.com/kuba--/zip).
- Implement 3df file loading from ZIP
- add/implement some more math functions
- Fix bugs!
- Anything fun...
See LICENSE file for all licenses.
All code from me is released under MIT license.
MuJS is released under ISC license. See COPYING in the MuJS folder for details.
Allegro 4 is released under the Giftware license (https://liballeg.org/license.html).
The GRX fonts are under MIT and other licenses. See copying.grx in LICENSE
for details.
The converted fonts from the Linux Font Project are in the public domain.
This code is taken from the game Cylindrix by Hotwarez LLC, Goldtree Enterprises. It was released under GPLv2.
CWSDPMI DPMI host is licensed under GPL. The documentation states:
The files in this binary distribution may be redistributed under the GPL (with source) or without the source code provided.
The code is licensed under "3DFX GLIDE Source Code General Public License". Source code is available at https://github.com/SuperIlu/glide
DZComm serial library is release as gift-ware. See readme.txt in the dzcomm folder for details.
The DOjS logo dog was downloaded from Pexels and kindly provided by Iago Garcia Garcia.
The logo font is Comic relief by Jeff Davis provided under SIL OPEN FONT LICENSE Version 1.1.
All WAV files were downloaded from BigSoundBank and are licensed under WTFPL
- https://bigsoundbank.com/detail-0283-song-of-rooster.html
- https://bigsoundbank.com/detail-1102-bell-bike-5.html
- https://bigsoundbank.com/detail-1023-explosion-far-away.html
The MIDI files were downloaded from the FreeDOOM project and are licensed under this license.
p5js is is released under LGPL.
The examples are licensed under a Creative Commons Attribution-NonCommercial-ShareAlike 4.0 International License.
zlib is released under zlib license.
Copyright (c) 2006 Michal Molhanec
This software is provided 'as-is', without any express or implied warranty. In no event will the authors be held liable for any damages arising from the use of this software.
Permission is granted to anyone to use this software for any purpose, including commercial applications, and to alter it and redistribute it freely, subject to the following restrictions:
-
The origin of this software must not be misrepresented; you must not claim that you wrote the original software. If you use this software in a product, an acknowledgment in the product documentation would be appreciated but is not required.
-
Altered source versions must be plainly marked as such, and must not be misrepresented as being the original software.
-
This notice may not be removed or altered from any source distribution.
See UNLICENSE in zip directory.
See manual.txt in watt32 directory.
The OpenSSL toolkit stays under a double license, i.e. both the conditions of the OpenSSL License and the original SSLeay license apply to the toolkit.
See COPYING in curl directory.
See LICENSE in neural.dxelib.
See LICENSE.md in sqlite.dxelib.
See COPYING in cpuid.dxelib.
See LICENSE.txt in nanosvg.dxelib.
See LICENSE.md in noise.dxelib.
See nanojpeg.c in jpeg.dxelib.
See LICENSE in gifanim.dxelib.
Usage: DOjS.EXE [<flags>] <script> [script parameters]
-r : Do not invoke the editor, just run the script.
-l : Use 50-line mode in the editor.
-w <width> : Screen width: 320 or 640, Default: 640.
-b <bpp> : Bit per pixel:8, 16, 24, 32. Default: 32.
-s : No wave sound.
-f : No FM sound.
-a : Disable alpha (speeds up rendering).
-x : Allow raw disk write (CAUTION!)
-t : Disable TCP-stack
-n : Disable JSLOG.TXT.
-j <file> : Redirect JSLOG.TXT to <file>.
All command line options can also be provided in dojs.ini
(which is read at startup from the current directory). See the included example for details.
F1 : Open/Close help
SHIFT-F1 : Function context help
F3 : Save script
F4 : Run script
F7 : Find text
F9 : Show/Close logfile
F10 : Quit
Shift-F4 : Truncate logfile and run script
Shift-F7 : Find again
CTRL-D : Delete current line
SHIFT+Movement : Select text, releasing SHIFT deselects
CTRL-C : Copy selection
CTRL-X : Cut selection
CTRL-V : Paste
CTRL-LEFT : Previous word
CTRL-RIGHT : Next word
CTRL/PAGE-UP : One page up
CTRL/PAGE-DOWN : One page down
HOME : Go to start of line
END : Go to end of line
CTRL-HOME : Go to start of line
CTRL-END : Go to end of line
TAB : Insert spaces until next TAB-stop at cursor
SHIFT-TAB : Reduce indentation of line
TAB size is 4.
The help viewer will remember the current position.
The logfile can be truncated by pressing DEL in the log viewer.
Scripts, as well as resources can either be stored in the file system or in ZIP files. To load data from a zip file the format is <ZIP filename>=<ZIP entry name>
(e.g. data.zip=mypic.bmp
). DOjS can be started with a script, a script in a ZIP file or no parameters. If the script was loaded from a ZIP file the running script can obtain resources from the same ZIP file by using ZipPrefix()
to obtain paths refering to that ZIP. If the script was not started from a ZIP ZipPrefix()
just passes through the file name (thus loading the file from HDD). If no arameters are supplied DOjS will first try to load <name of the EXE>.ZIP=MAIN.JS
and then JSBOOT.ZIP=MAIN.JS
.
Examples:
DOJS.EXE -r script.js
will startscript.js
from the HDD,ZipPrefix("pic.bmp")
will yieldpic.bmp
.DOJS.EXE -r data.zip=script.js
will startscript.js
from the ZIP filedata.zip
,ZipPrefix("pic.bmp")
will yielddata.zip=pic.bmp
.HURTZ.EXE
DOjS was renamed toHURTZ.EXE
. It will startMAIN.JS
from the ZIP fileHURTZ.ZIP
,ZipPrefix("pic.bmp")
will yieldHURTZ.ZIP=pic.bmp
.DOJS.EXE
The script was added toJSBOOT.ZIP
. DOjS will startMAIN.JS
from the ZIP fileJSBOOT.ZIP
,ZipPrefix("pic.bmp")
will yieldJSBOOT.ZIP=pic.bmp
.
You can find the full API doc in the doc/html/ directory. Go to the p5.js hompage for p5.js reference.
Scripts need to provide three functions: Setup()
, Loop()
and Input()
. Scripts are loaded and executed top-own. After that Setup()
is called once and then Loop()
repeatedly. Input()
is called whenever mouse of keyboard input happens.
This function is called once at startup. It can initialize variables, setup hardware, etc.
This function is called after setup repeatedly until Stop()
is called. After calling Stop()
the program ends when Loop()
exits.
This function is called whenever mouse/keyboard input happens.
DOjS supports IPX networking. Node addresses are arrays of 6 numbers between 0-255. Default socket number and broadcast address definitions can be found in jsboot/ipx.js
.
See API doc for details.
Add Include('p5');
as first line to your script. After that you have (limited) p5.js compatibility.
Things that don't work:
- Anything 3D (objects, lights camera, etc)
- Key release events work different for Allegro and are simulated for p5js.
- Only simple vertices are supported.
- no DOM
All output via Print()
and Println()
is sent to the file JSLOG.TXT
. You can use Debug()
instead and output is only generated when you set the global variable DEBUG=true
.
This feature allows you to debug a running script via IPX networking and a second machine. To use remote logging do the following:
- Put both machines on the same network.
- Run
DOJS.EXE -r JSBOOT\LOGVIEW.JS
on one machine. - Enable debugging by setting
DEBUG=true
and enable remote debugging byREMOTE_DEBUG=true
. You can either modifyJSBOOT\FUNC.JS
or change the variables at the very beginning of your script.
This works fine with two instances of DOSBox as well. Please note that if the log messages are transmitted to fast the receiving instance of DOJS might skip some of these when displaying.