First, Python is explicitly designed to make it easy to have Python X.Y and Python V.W at the same time if X != V. PEP 394 explains the details, but basically,
python3 will always mean a 3.x version, and if
python also means a 3.x version,
python2 will mean a 2.x version. The same should be true for all well-behaved tightly-integrated scripts like
This is a good thing, because many POSIX platforms (most linux distros, OS X, etc.) include code that depends on some particular version of Python, so you have to be able to have that version, but often you want a newer version for your own code.
On most platforms, even if X == V, things are still easy as long as Y != W, because a default installation will also give you pythonX.Y, and set things up so well-behaved scripts do the same. This part isn't mandated by the PEP, so some linux distros don't do it, or do it in a different way. But fortunately, you just want 2.6 and 3.3, so you don't have to worry about this part.
So, if you just install
pip in any of the normal ways using Python X.Y, , you will get some new packages in Python X.Y's site-packages, probably a script named
pip-X.Y (note that it's a hyphen, not an underscore), and usually a symlink
pip3 to that script. So, you don't have to do anything to get this.
In particular, testing this sequence (the way the documentation recommends for system-wide installation):
$ curl -O https://bitbucket.org/pypa/setuptools/raw/bootstrap/ez_setup.py
$ sudo python3.3 ez_setup.py
$ curl -O https://raw.github.com/pypa/pip/master/contrib/get-pip.py
$ sudo python3.3 get-pip.py
… I ended up with exactly that.
If you didn't, you'll have to give us details on your platform, how you installed each Python (presumably 2.6 came as part of the system installation, but not 3.3), and how you installed each
If you instead did
sudo yum install python-pip and
sudo yum install python33-pip (or
python3-pip), exactly what you get is up to the distro, so it's possible that you'll end up with just, say,
pip (for 2.6) and
pip-3.3 (for 3.3), rather than
pip-3.3 and symlinks
pip3. Looking at the RPM contents for various distros' packages, it looks like the standard name for Red-Hat-like systems is
python3-pip, with a symlink to
pip-python3, and sometimes other names besides.
Anyway, unless you mix and match different methods, you're almost certain to get some way to distinguish the two
If worst comes to worst, and you've just got a script named
pip, and whichever one you installed last overwrote the one you installed first… You can always install the first one,
cp pip pip-2.6, install the second, and
mv pip pip-3.3; ln -s pip-2.6 pip; ln -s pip-3.3 pip3.
Or, if you can't even do that, the script is trivial, something like this:
# EASY-INSTALL-ENTRY-SCRIPT: 'pip==1.2.1','console_scripts','pip-3.3'
__requires__ = 'pip==1.2.1'
from pkg_resources import load_entry_point
if __name__ == '__main__':
load_entry_point('pip==1.2.1', 'console_scripts', 'pip-3.3')()
And you can just make a copy and s/3.3/2.6/g the copy (you may also have to replace the 1.2.1 if you somehow installed different versions of
pip into the different site-packages) and it will work.
But it really, really shouldn't come to this, however. Both setuptools and pip respect PEP 394, and any package manager that doesn't has to have some rules or its python 3 packages are useless. So, if you think these tricks are necessary, you probably did something wrong earlier.