Troop is a real-time collaborative tool that enables group live coding within the same document across multiple computers. Hypothetically Troop can talk to any interpreter that can take input as a string from the command line but it is already configured to work with live coding languages FoxDot, TidalCycles, and SuperCollider.
Troop is not a language for live coding but a tool for connecting multiple live coders over a network - so you'll need to install your language of choice before you get started. By default Troop runs with the Python based language, FoxDot, but it can also be used with TidalCycles and SuperCollider. Click the links to find out more about installing. Both TidalCycles and FoxDot require SuperCollider to work, so it's a good bet you'll need it.
Troop runs using Python 3, which can be downloaded from here (see troubleshooting below for more help on installing Python) but make sure that you use the same version of Python that use to run FoxDot when doing so.
Linux users may need to install python-tk
if you have not done so already:
apt-get install python-tk
As of 01/01/20, Troop will no longer support Python 2. Users may find that their experience using Troop with Python 2 is less than desirable so please do consider upgrading your version of Python as it is no longer officially supported by the Python foundation.
This is free software developed by one person in their free time so please understand that there may be bugs and it might not work perfectly for every OS and every live coding language - both of these change over time and it is often difficult to keep up. Please don't be pedantic and please don't expect the same quality of software from a company that employs hundreds of professional programmers. I made this as a fun tool as part of a University project to play with friends and have been maintaining it but the expectations and attitudes of many people have put me off continuing to do so. Thank you.
- v0.10.1 - There are some new ways of configuring Troop to run with different installations of your live coding languages, particularly Tidal Cycles. Please read the CONFIG.md file for more information.
- v0.10.2 - The "keep-alive" functionality has been moved into a command line argument. If you have connection issues and users aren't being kicked from session when the client crashes then try starting the server with the
--keepalive
flag. This will send a 'ping' message to clients who then return it. Any clients that don't return the ping in 30 seconds are forcefully disconnected.
There are two ways of using Troop; one is to download the latest release and run it as you would any other program on your computer, and the other is two run the files using Python. The first option does not require Python to be installed on your machine, but you do need to have correctly configured your live coding language of choice first e.g. FoxDot, which uses Python to run.
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Download the latest version for your appropriate operating system from this page.
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Double-click the program to get started. Enter server connection details then press OK to open the interface.
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You can still run Troop from the command line with extra arguments as you would the Python files. Run the following command to find out more (changing the executable name for the version you have downloaded):
Troop-Windows-0.9.1-client.exe -h
See "Running the Troop client" below for more details.
Download the files from this repository as a .zip file and extract the contents to a suitable folder. Alternatively, if you are familiar with Git you can clone the repository yourself using:
git clone https://github.com/Qirky/Troop.git
and keep up to date with the project by using git pull -a
, which automatically update your files with any changes.
Troop is a client-server application, which means that you need to run a Troop server on a machine that other people on the network using the client (interface) can connect to. Only one person needs to run the server, so decide who will do the "hosting" before getting started.
Start the Troop Server by running the run-server.py
Python file. Depending on your O/S and Python installation you can either double click the file or run it from the command prompt. To run from the command prompt you'll need to make sure you're in correct directory: use the 'cd' command followed by the path to where you've extracted Troop. For example if Troop is saved in C:\Users\Guest\Troop
then type the following into the command prompt:
cd C:\Users\Guest\Troop
Then to run the server application, type in the following and press return:
python run-server.py
If you don't have Python installed and you have downloaded the executable, simply type the name of the executable and press return (or double clicking on it):
Troop-Windows-0.9.1-server.exe
You will be asked to enter a password. You can leave this blank if you wish - but make sure you are on a secure network if you do. Connecting clients will be required to enter the same password when connecting to the server. By default the server will run on port 57890 but this isn't always the case. Make a note of the address and port number so that Troop clients can connect to the server and you're up and running! To stop the server, either close the terminal window it's running in or use the keyboard shorcut Ctrl+C
to kill the process.
Warning: Code executed by one client is executed on every client, so be careful when using public networks as you will then be susceptible to having malicious code run on your machine. Avoid using public networks and only give your server password to people you trust.
Once you've opened the Troop client you'll be able to enter the IP address and port number of the Troop server instance running on your network. Enter the name you want to display and the password for the server and select the interpreter you want to use (requires installation and setup - see below). Press OK to open the editor. You can also change the interpreter to use with Troop after you've opened the editor by going to Code -> Choose Language
and selecting the language of choice.
Alternatively you can start Troop in a different "mode" so that it is interpreting another language at startup. To do this, run the following from the command line depending on your desired startup language:
python run-client.py --mode TidalCycles
python run-client.py --mode SuperCollider
To use the SuperCollider language from Troop you will need to install the Troop Quark but opening SuperCollider and running the following line of code. This will create a class that listens for messages from Troop containing SuperCollider code.
Quarks.install("http://github.com/Qirky/TroopQuark.git")
Once this is done you'll need to make SuperCollider listen for Troop messages by evaluating the following line of code in SuperCollider:
Troop.start
python run-client.py --mode SonicPi
Requires Sonic-Pi to be open on your computer.
Other
python run-client.py --mode path/to/interpreter
If you've connected successfully then you'll greeted with an interface with three boxes. The largest of the boxes is used to input code and the others to display console responses and some stats about character usages. To evaluate a line of code make sure your text cursor is placed in the line you want and press Ctrl+Return
. If there are any other users connected you should see coloured markers in the text displaying their names. You can even execute code they've written and vice versa.
If you are and your fellow live coders are in the same room using Troop, it's often most convenient for only one laptop to produce sound (the master). When one user logs in using an interpreter, such as TidalCycles, all others can log in using the "No Interpreter" option or --mode none
flag. When the "master" laptop receives text in the console, it is sent to all of the other users so you can see exactly what your code is doing. Futhermore, you can select the language for syntax highlighting / keyboard short-cuts at the log in window or use the --syntax
flag to choose the language you wish to emulate.
Other flags can be added to the run-client.py
command too. Below is an in-depth look at how to use them:
python run-client.py -h
/ python run-client.py --help
- Shows the help dialog and exits
python run-client.py -i
/ python run-client.py --cli
- Starts Troop with a command line interface
python run-client.py -H HOST
/ python run-client.py --host HOST
- Start Troop with the host value set to HOST
python run-client.py -P port
/ python run-client.py --port PORT
- Start Troop with the port value set to PORT
python run-client.py -m MODE
/ python run-client.py --mode MODE
- Start Troop with the specified mode (see above)
python run-client.py -c
/ python run-client.py --config
- Load host/port info from client.cfg
. You can create a client.cfg
file in the root directory if you have a host / port that you want to connect to regularly. It's contents should contain two lines:
host=<hostname_or_ip_address>
port=<port_number>
python run-client.py -a ARG1, ARG2, ...
/ python run-client.py --args ARG1, ARG2, ...
- Supply remaining command line arguments to the interpreter e.g.
python run-client.py --args --startup path/to/startup_file.py
If you are using Windows you might get an error along the lines of "python is not recognized command". This means you need to add Python to your system path so that your computer knows where to find Python's libraries. To do this open file explorer and right click on My Computer / This PC and click properties. From here you should open Advanced System Properties and click the button labelled Environment Variables. There should be a list of variables and their value. Of these variables there should be one named PATH. Edit it and add the location where Python was installed, most likely C:\Python27. If the PATH variable does not exist, create it and set its value to the Python installation.
For some versions of Linux Python retrieves the localhost IP address instead of the public facing IP address, which means users trying to connect to 127.0.0.1 when running the Troop client will attempt to connect to their own machine. To find your IP address, open a terminal/command prompt and type ipconfig
(windows) or ifconfig
(Linux/Mac) and press enter. This will display information about your network adapters and your IP address will probably look along the lines of 192.168.0.xx if you are using a standard home network.
If you do find any problems when using Troop, please raise an issue on the GitHub page quoting the error message and describing what you were doing at the time (on Troop not in life).
Huge thank you to Alex McLean for his inspiration for this project and to Lucy and Laurie, among other users from the live coding community, for testing it during its development.
Your feedback for this project would be greatly appreciated. If you have used the Troop software yourself, please take a few minutes to fill out my (mostly) multiple-choice online questionnaire.