I wish to place a python program on GitHub and have other people download and run it on their computers with assorted operating systems. I am relatively new to python but have used it enough to have noticed that getting the assorted versions of all the included modules to work together can be problematic. I just discovered the use of requirements.txt (generated with pipreqs and deployed with the command pip install -r /path/to/requirements.txt) but was very surprised to notice that requirements.txt does not actually state what version of python is being used so obviously it is not the complete solution on its own. So my question is: what set of specifications/files/something-else is needed to ensure that someone downloading my project will actually be able to run it with the fewest possible problems.

EDIT: My plan was to be guided by whichever answer got the most upvotes. But so far, after 4 answers and 127 views, not a single answer has even one upvote. If some of the answers are no good, it would be useful to see some comments as to why they are no good.

  • 1
    for the fewest possible problems, have you considered Docker (or other container-based solutions)? docker.com Mar 30, 2020 at 10:41
  • Re: Docker... Just found this: "the developer can rest assured that the application will run on any other Linux machine" - but I want this to work on any OS. (opensource.com/resources/what-docker)
    – Mick
    Mar 30, 2020 at 10:47
  • Normally you have support for all classical OS: windows (docs.docker.com/docker-for-windows) and mac (docs.docker.com/docker-for-windows) Mar 30, 2020 at 11:43
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    The answer here is highly contextual. Is the Python program doing things that are sys or os or subprocess type functions or more mathematical / analytical? The former can change with each version of Python and later can be quite version independent. What dependent libraries? numpy and pandas do an amazing job across platforms so you can just check you have a min version. What major version of Python? The difference between Python 2.x and 3.x with dependent libraries becomes harder still. If you write good code targeting a common major release that is a great start.
    – dawg
    Apr 1, 2020 at 17:11
  • 2
    As evidenced by the myriad of answers, there are so many ways to go about this. I'm really curious if the answers would change based on knowing what the application is. I would like to believe it shouldn't matter, but I suspect it could. I also think it very much depends on the intended audience. Savvy physics PhD running a machine learning application vs Joe internet playing a pygame of checkers. Apr 7, 2020 at 18:39

8 Answers 8


Have you considered setting up a setup.py file? It's a handy way of bundling all of your... well setup into a single location. So all your user has to do is A) clone your repo and B) run pip install . to run the setup.py

There's a great stack discussion about this.

As well as a handle example written by the requests guy.

This should cover most use cases. Now if you want to make it truly distributable then you'll want to look into setting it up in PyPi, the official distribution hub.

Beyond that if you're asking how to make a program "OS independent" there isn't a one size fits all. It depends on what you are doing with your code. Requires researching how your particular code interacts with those OS's etc.


There are many, many, many, many, many, many, many ways to do this. I'll skate over the principles behind each, and it's use case.

1. A python environment

There are many ways to do this. pipenv, conda, requirments.txt, etc etc.

With some of these, you can specify python versions. With others, just specify a range of python versions you know it works with - for example, if you're using python 3.7, it's unlikely not to support 3.6; there's only one or two minor changes. 3.8 should work as well.

Another similar method is setup.py. These are generally used to distribute libraries - like PyInstaller (another solution I'll mention below), or numpy, or wxPython, or PyQt5 etc - for import/command line use. The python packaging guide is quite useful, and there are loads of tutorials out there. (google python setup.py tutorial) You can also specify requirements in these files.

2. A container

Docker is the big one. If you haven't heard of it, I'll be surprised. A quick google of a summary comes up with this, which I'll quote part of:

So why does everyone love containers and Docker? James Bottomley, formerly Parallels' CTO of server virtualization and a leading Linux kernel developer, explained VM hypervisors, such as Hyper-V, KVM, and Xen, all are "based on emulating virtual hardware. That means they're fat in terms of system requirements."

Containers, however, use shared operating systems. This means they are much more efficient than hypervisors in system resource terms. Instead of virtualizing hardware, containers rest on top of a single Linux instance. This means you can "leave behind the useless 99.9 percent VM junk, leaving you with a small, neat capsule containing your application,"

That should summarise it for you. (Note you don't need a specific OS for containers.)

3. An executable file

There are 2 main tools that do this at the time of writing. PyInstaller, and cx_Freeze. Both are actively developed. Both are open source.

You take your script, and the tool compiles it to bytecode, finds the imports, copies those, and creates a portable python environment that runs your script on the target system without the end user needing python.

Personally, I prefer PyInstaller - I'm one of the developers. PyInstaller provides all of its functionality through a command line script, and supports most libraries that you can think of - and is extendable to support more. cx_Freeze requires a setup script.

Both tools support windows, Linux, macOS, and more. PyInstaller can create single file exes, or a one folder bundle, whereas cx_Freeze only supports one folder bundles. PyInstaller 3.6 supports python 2.7, and 3.5-3.7 - but 4.0 won't support python 2. cx_Freeze has dropped python 2 support as of the last major release (6.0 I think).

Anyway, enough about the tools features; you can look into those yourself. (See https://pyinstaller.org and https://cx-freeze.readthedocs.io for more info)

When using this distribution method, you usually provide source code on the GitHub repo, a couple of exes (one for each platform) ready for download, and instructions on how to build the code into an executable file.


The best tool I have used so far for this is Pipenv. Not only it unifies and simplifies the whole pip+virtualenv workflow for you, developer, but it also guarantees that the exact versions of all dependencies (including Python itself) are met when other people run your project with it.

The project website does a pretty good job at explaining how to use the tool, but, for completeness sake, I'll give a short explanation here.

Once you have Pipenv installed (for instance, by running pip install --user pipenv), you can go to the directory of your project and run pipenv --python 3.7, so Pipenv will create a new virtualenv for your project, create a Pipfile and a Pipfile.lock (more on them later). If you go ahead and run pipenv install -r requirements.txt it will install all your packages. Now you can do a pipenv shell to activate your new virtualenv, or a pipenv run your_main_file.py to simply run your project.

Now let's take a look at the contents of your Pipfile. It should be something resembling this:

Django = "*"
djangorestframework = "*"
iso8601 = "*"
graypy = "*"
whitenoise = "*"

python_version = "3.7"

This file has the human-readable specifications for the dependencies of your project (note that it specifies the Python version too). If your requirements.txt had pinned versions, your Pipfile could have them too, but you can safely wildcard them, because the exact versions are stored in the Pipfile.lock. Now you can run things like pipenv update to update your dependencies and don't forget to commit Pipfile and Pipfile.lock to your VCS.

Once people clone your project, all they have to do is run pipenv install and Pipenv will take care of the rest (it may even install the correct version of Python for them).

I hope this was useful. I'm not affiliated in any way with Pipenv, just wanted to share this awesome tool.


If your program is less about GUI, or has a web GUI, then you can share the code using Google Colaboratory.


Everyone can run it with the same environment. No need for installation.


In case converting all your python scripts into one executable can help you, then my answer below would help ...

I have been developing a large desktop application purely in python since 3 years. It is a GUI-based tool built on top of pyqt library (python-bindings of QT C++ framework).

I am currently using "py2exe" packaging library : is a distutils extension which allows to build standalone Windows executable programs (32-bit and 64-bit) from Python scripts; all you have to do is to:

  1. install py2exe: 'pip install py2exe'

  2. Create a setup.py script: It is used to specify the content of the final EXE (name, icon, author, data files, shared libraries, etc ..)

  3. Execute: python setup.py py2exe

I am also using "Inno Setup" software to create installer: Creating shortcuts, setting environment variables, icons, etc ...

  • py2exe hasn't been updated in years. I can't find any recent activity. I'd assume then, it's unmaintained. (Also, it only supports python <3.4. that means it only supports deprecated python versions).
    – Legorooj
    Apr 7, 2020 at 22:50

I'll give you a very brief summary of some of the existing available solutions when it comes to python packaging you may choose from (knowledge is power):

  1. Follow the guidelines provided at Structuring Your Project, these conventions are widely accepted by python community and it's usually a good starting point when newcomers start coding in python. By following these guidelines pythonists watching your project/source at github or other similar places will know straightaway how to install it. Also, uploading your project to pypi as well as adding CI by following those rules will be painless.

  2. Once your project is structured properly according to standard conventions, the next step might be using some of the available freezers, in case you'd like to ship to your end-users a package they can install without forcing them to have python installed on their machines. Be aware though these tools won't provide you any code protection... said otherwise, extracting the original python code from the final artifacts would be trivial in all cases

  3. If you still want to ship your project to your users without forcing them to install any dev dependency and you do also care about code protection so you don't want to consider any of the existing freezers you might use tools such as nuitka, shedskin, cython or similar ones. Usually reversing code from the artifacts produced by these tools isn't trivial at all... Cracking protection on the other hand is a different matter and unless you don't provide a physical binary to your end-user you can't do much about it other than slowing them down :)

  4. Also, in case you'd need to use external languages in your python project another classic link that comes to mind would be https://wiki.python.org/moin/IntegratingPythonWithOtherLanguages, adding the build systems of such tools to CI by following rules of 1 would be pretty easy.

That said, I'd suggest stick to bulletpoint 1 as I know that will be more than good enough to get you started, also that particular point should cover many of the existing use-cases for python "standard" projects.

While this is not intended to be a full guide by following those you'll be able to publish your python project to the masses in no time.


I think you can use docker with your python https://github.com/celery/celery/tree/master/docker

kindly follow the files and I think you can figure out the way to make your docker file for your python scripts!


Because it is missing from the other answers, I would like to add one completely different aspect:

Unit testing. Or testing in general.

Usually, it is good to have one known good configuration. Depending on what the dependencies of the program are, you might have to test different combinations of packages. You can do that in an automated fashion with e.g. tox or as part of a CI/CD pipeline.

There is no general rule of what combination of packages should be tested, but usually python2/3 compatability is a major issue. If you have strong dependencies on packages with major version differences, you might want to consider testing against these different versions.

  • This is a very important aspect of software development. However, this completely fails to answer the question. How does unit testing help distribution of a program?
    – Legorooj
    Apr 7, 2020 at 22:56
  • IMHO, OP is not specifically asking about distribution. He asksof ways to make sure that other people can run his program. I think unit testing can actually help doing that, as people might be restricted in the set of packages that can be used. In general the distribution question is important (and has been answered here), but I think in a real world scenario, we cannot rely on creating a whole venv just for one single package - it needs to be compatible with at least some standard configurations.
    – Dschoni
    Apr 8, 2020 at 9:55
  • I'm not disputing that unit testing is valuable in making sure it runs correctly, but the OP asked how to share the code in an "easy to install" fashion. That's why I think this is an invalid answer - for this specific question.
    – Legorooj
    Apr 8, 2020 at 10:51
  • I still think the question is not only about distribution. That's why I added this answer. If you develop on e.g. Windows, testing on Unix is essential if you want to make sure it runs before distribution.
    – Dschoni
    Apr 14, 2020 at 11:27
  • Out of curiosity, how is different from what I just said? ... making sure it runs correctly ...? Testing is an essential part of making sure it runs correctly, therefore it's an essential part of preparing to distribute it, but it's still not anything to do with actually distributing it
    – Legorooj
    Apr 14, 2020 at 12:23

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