up until recently I have only worked with one version of Python and used virtual environments every now and then. Now, I am working with some libraries that require older version of Python. So, I am very confused. Could anyone please clear up some of my confusion?
How do I install multiple Python versions?
I initially had Python version 3.8.x but upgraded to 3.10.x last month. There is currently only that one version on my PC now.
I wanted to install one of the Python 3.8.x version and went to https://www.python.org/downloads/. It lists a lot of versions and subversions like 3.6, 3.7, 3.8 etc. etc. with 3.8.1, 3.8.2 till 3.8.13. Which one should I pick?
I actually went ahead with 3.8.12 and downloaded the Tarball on the page: https://www.python.org/downloads/release/python-3812/
I extracted the tarball (23.6MB) and it created a folder with a setup.py file.
Is Python 3.8.12 now installed? Clicking on the setup.py file simply flashes the terminal for a second.
I have a few more questions. Hopefully, they won't get me downvoted. I am just confused and couldn't find proper answers for them.
Why does Python have such heavy dependency on the exact versions of libraries and packages etc?
For example, this question
How can I run Mozilla TTS/Coqui TTS training with CUDA on a Windows system?. This seems very beginner unfriendly. Slightly mismatched package
version can prevent any program from running.
Do virtual environments copy all the files from the main Python installation to create a virtual environment and then install specific packages inside it? Isn't that a lot of wasted resources in duplication because almost all projects require there own virtual environment.
Your questions depend a bit on "all the other software". For example, as #leiyang indicated, the answer will be different if you use conda vs just pip on vanilla CPython (the standard Windows Python).
I'm also going to assume you're actually on Windows, because on Linux I would recommend looking at pyenv. There is a pyenv-win, which may be worth looking into, but I don't use it myself because it doesn't play as nice if you also want (mini)conda environments.
1. (a) How do I install multiple Python versions?
Simply download the various installers and install them in sensible locations. E.g. "C:\Program Files\Python39" for Python 3.9, or some other location where you're allowed to install software.
Don't have Python add itself to the PATH though, since that'll only find the last version to do so and can really confuse things.
Also, you probably want to use virtual environments consistently, as this ties a specific project very clearly to a specific Python version, avoiding future confusion or problems.
1. (b) "3.8.1, 3.8.2 till 3.8.13" which should I pick?
Always pick the latest 3.x.y, so if there's a 3.8.13 for Windows, but no 3.8.14, pick that. Check if the version is actually available for your operating system, sometimes there are later versions for one OS, but not for another.
The reason is that between a verion like 3.6 and 3.7, there may be major changes that change how Python works. Generally, there will be backwards compatibility, but some changes may break how some of your packages work. However, when going up a minor version, there won't be any such breaking changes, just fixes and additions that don't get in the way of what was already there. A change from 2.x to 3.x only happens if the language itself goes through a major change, and rarely happens (and perhaps never will again, depending on who you ask).
An exception to the "no minor version change problems" is of course if you run some script that very specifically relies on something that was broken in 3.8.6, but no fixed in 3.8.7+ (as an example). However, that's very bad coding, to rely on what's broken and not fixing it later, so only go along with that if you have no other recourse. Otherwise, just the latest minor version of any version you're after.
Also: make sure you pick the correct architecture. If there's no specific requirement, just pick 64-bit, but if your script needs to interact with other installed software at the binary level, it may require you to install 32-bit Python (and 32-bit packages as well). If you have no such requirement, 64-bit allows more memory access and has some other benefits on modern computers.
2. Why does Python have such heavy dependency on the exact versions of libraries and packages etc?
It's not just Python, this is true for many languages. It's just more visible to the end user for Python, because you run it as an interpreted language. It's only compiled at the very last moment, on the computer it's running on.
This has the advantage that the code can run on a variety of computers and operating systems, but the downside that you need the right environment where you're running it. For people who code in languages like C++, they have to deal with this problem when they're coding, but target a much smaller number of environments (although there's still runtimes to contend with, and DirectX versions, etc.). Other languages just roll everything up into the program that's being distributed, while a Python script by itself can be tiny. It's a design choice.
There are a lot of tools to help you automate the process though and well-written packages will make the process quite painless. If you feel Python is very shakey when it comes to this, that's probable to blame on the packages or scripts you're using, not really the language. The only fault of the language is that it makes it very easy for developers to make such a mess for you and make your life hard with getting specific requirements.
Look for alternatives, but if you can't avoid using a specific script or package, once you figure out how to install or use it, document it or better yet, automate it so you don't have to think about it again.
3. Do virtual environments copy all the files from the main Python installation to create a virtual environment and then install specific packages inside it? Isn't that a lot of wasted resources in duplication because almost all projects require there own virtual environment.
Not all of them, but quite a few of them. However, you still need the original installation to be present on the system. Also, you can't pick up a virtual environment and put it somewhere else, not even on the same PC without some careful changes (often better to just recreate it).
You're right that this is a bit wasteful - but this is a difficult choice.
Either Python would be even more complicated, having to manage many different version of packages in a single environment (Java developers will be able to tell you war stories about this, with their dependency management - or wax lyrically about it, once they get it themselves).
Or you get what we have: a bit wasteful, but in the end diskspace is a lot cheaper than your time. And unlike your time, diskspace is almost infinitely expandable.
You can share virtual environments between very similar projects though, but especially if you get your code from someone else, it's best to not have to worry and just give up a few dozen MB for the project. On the upside: you can just delete a virtual environment directory and that pretty much gets rid of the whole things. Some applications like PyCharm may remember that it was once there, but other than that, that's the virtual environment gone.
Just install them. You can have any number of Python installations side by side. Unless you need to have 2 different minor versions, for example 3.10.1 and 3.10.2, there is no need to do anything special. (And if you do need that then you don't need any advice.) Just set up separate shortcuts for each one.
Remember you have to install any 3rd-party libraries you need in each version. To do this, navigate to the Scripts folder in the version you want to do the install in, and run pip from that folder.
Python's 3rd-party libraries are open-source and come from projects that have release schedules that don't necessarily coincide with Python's. So they will not always have a version available that coincides with the latest version of Python.
Often you can get around this by downloading unofficial binaries from Christoph Gohlke's site. Google Python Gohlke.
Install Python using the windows executable installers from python.org. If the version is 3.x.y, use the highest y that has a windows executable installer. Unless your machine is very old, use the 64-bit versions. Do not have them add python to your PATH environment variable, but in only one of the installs have it install the python launcher py. That will help you in using multiple versions. See e.g. here.
Python itself does not. But some modules/libraries do. Especially those that are not purely written in Python but contain extensions written in C(++). The reason for this is that compiling programs on ms-windows can be a real PITA. Unlike UNIX-like operating systems with Linux, ms-windows doesn't come with development tools as standard. Nor does it have decent package management. Since the official Python installers are built with microsoft tools, you need to use those with C(++) extensions as well. Before 2015, you even had to use exactly the same version of the compiler that Python was built with. That is still a good idea, but no longer strictly necessary. So it is a signigicant amount of work for developers to release binary packages for each supported Python version. It is much easier for them to say "requires Python 3.x".
I am on macOS, using brew, pyenv, and virtualenv.
I have a Python project that depends on bokeh and gdal (both python packages were installed with pip inside a virtual environment). Both bokeh and gdal depend on a system version of libopenssl, but they depend on different versions (1.0 and 1.1).
I have had this project working at various points in the past, with some combination of libraries (using pip for all python packages and brew for system packages) but when I change python versions and environments (using pyenv) to work on other projects, and then come back to this project, it no longer works. Usually something along these lines with a problem finding a shared library for openssl:
$ ./my_python_program.py
...
ImportError: dlopen(/Users/userBob/.pyenv/versions/3.7.0/lib/python3.7/lib-dynload/_ssl.cpython-37m-darwin.so, 2):
Library not loaded: /usr/local/opt/openssl#1.1/lib/libssl.1.1.dylib
Referenced from: /Users/userBob/.pyenv/versions/3.7.0/lib/python3.7/lib-dynload/_ssl.cpython-37m-darwin.so
Reason: image not found
I feel like I am eventually able to get things to work by trying random combinations of installing and uninstalling various package versions using pip and brew. But this is a fragile and inefficient way to maintain my projects.
In general what is the best way to handle this kind of situation? Do I need to simply record the exact brew and pip install/uninstall commands to get it working? Am I missing the concept of version "pinning"? Are there additional options with brew and pyenv that I am missing that might make this process easier?
I'm not sure this is the best way to do it, but I can tell you what I do usually.
First of all, I'm using Anaconda.
When I'm on a project, I switch to the relevant virtual environment.
Before switching out, when I commit/push my modifications, I also create an export file of my environment like you can find it there.
I also track this file with git, this way, if I make any modification when working on the environment, it's stored in the .yml file.
This way, I can reinstall all dependencies needed for the project if I format my machine or get a new one, etc. And the reference for every dependency I need is stored in the cloud with my sources. So in case I start getting weird behaviour, I just restore my environment with this reference file from the time when it was working.
I'm not switching between projects fast enough for me to justify automatizing this process, but I'm sure that's feasible if you want to.
I have a project written in python2. Suppose if I want to deploy my project after the end of life of python2 support, am I able to pull specific versions of specific packages?
For example, I am using boto3==1.4.7 version. So, am I able to pull the same version of the package after python2 support ends?
That should be possible, but it is better to port your Project to Python 3 and use the newest versions of the packages.
You may also consider storing these packages on some local server in case the support goes down. For example, boto3==1.4.7 is available as a tar.gz.
I want to install different versions of Python (and related packages and IDEs) on a single PC and keep them independent. I like the pythonxy but runs on Python 2.6, but I also wat to try Eric5 with Python3.1.
How can I keep thess different install separated ?
On Windows, this is trivial. You just install both, they get put in different directories.
On Linux, this is less so, but still fairly simple. Install from source, and use make altinstall instead of make install.
I have a linux VPS that uses an older version of python (2.4.3). This version doesn't include the UUID module, but I need it for a project. My options are to upgrade to python2.6 or find a way to make uuid work with the older version. I am a complete linux newbie. I don't know how to upgrade python safely or how I could get the UUID modules working with the already installed version. What is a better option and how would I go about doing it?
The safest way to upgrading Python is to install it to a different location (away from the default system path).
To do this, download the source of python and do a
./configure --prefix=/opt
(Assuming you want to install it to /opt which is where most install non system dependant stuff to)
The reason why I say this is because some other system libraries may depend on the current version of python.
Another reason is that as you are doing your own custom development, it is much better to have control over what version of the libraries (or interpreters) you are using rather than have a operating system patch break something that was working before. A controlled upgrade is better than having the application break on you all of a sudden.
The UUID module exists as a separate package for Python 2.3 and up:
http://pypi.python.org/pypi/uuid/1.30
So you can either install that in your Python2.4, or install Python2.6. If your distro doesn't have it, then Python is quite simple to compile from source. Look through the requirements to make sure all the libraries you need/want are installed before compiling Python. That's it.
The best solution will be installing python2.6 in the choosen directory - It will you give you access to many great features and better memory handling (infamous python=2.4 memory leak problem).
I have got several pythons installed onto my two computers, I found that the best solution for are two directories:
$HOME/usr-32
$HOME/usr-64
respectively to using operating system (I share $HOME between 32 and 64 bit versions of Linux).
In each I have one directory for every application/program, for example:
ls ~/usr-64/python-2.6.2/
bin include lib share
It leads completetely to avoiding conflicts between version and gives great portability (you can use usb pendrives etc).
Python 2.6.2 in previously example has been installed with option:
./configure --prefix=$HOME/usr-64/python-2.6.2