sudo is used in Unix/Linux systems to perform tasks as another user, using their permissions, such as the ability to write to certain directories. When you don't specify the user to emulate, such as when running
sudo pip install flask
you are attempting to run the command as the system administrator, known as
root in many environments. You'll be asked for the administrator password (which can be your own, if you've given your user admin privileges), then the specified command runs as that user, meaning that it has read/write access to essentially every file and directory on the system (there are some exceptions, but they're mostly corner cases and not very important here). This means that you need to be extra careful when using
sudo, as an error as small as a single space can really mess things up: compare
sudo rm -rf /usr/local/lib/python3.4/dist-packages/numpy*
sudo rm -rf /usr /local/lib/python3.4/dist-packages/numpy*
See that space between
local/? You just started deleting the entire
/usr folder, which contains a large portion of the vital files and programs on the system. Hope you have a backup! Now, this doesn't mean you need to be scared to death of
sudo, but you do need to have a healthy respect for it.
Python installations tend to be system-level (yes, I know there are exceptions), which means you need to use
sudo to modify them, such as when installing 3rd-party modules with
pip. If you run
ls -l /usr/local/lib/python3.4
you'll see something along the lines of
drwxrwsr-x 125 root 4096 Nov 3 00:40 dist-packages
showing that the directory you're trying to install to with
pip is owned by
root, so the use of
sudo is necessary.
Now, there are a couple of ways around this. If you're comfortable with it, and don't mind modifying the system's global packages, go ahead and use
pip (in fact, you may need to use
sudo -H ... if you get a little message in yellow at the beginning about permissions in your home directory). All of your modules will be installed to
/usr/local/lib/python3.4/dist-packages and be available to all users on the system.
The second option is to use pip's
--user option, which will create a
lib/python3.4/site-packages hierarchy in your home directory (
~) and store any installed modules there, along with scripts in
~/bin (which you should add to your
$PATH. The advantage of this method is that you don't need to use
sudo, so you won't accidentally overwrite system-dependent modules where specific versions are required for other programs to run. The disadvantage is that the installed modules are only available to you, so you may run into issues if, for example, your web server is trying to run Flask as itself, and can't read the source files. However, that's nothing that a little config file-editing can't fix. This is my recommended solution for most users.
The third option is to use virtual environments like
virtualenv. This will create a custom Python installation in the location of your choosing, with a separate
python executable and
site-packages hierarchy (there are options as to whether or not you want to link to or use the system's
dist-packages repository). You can
pip install packages directly into the virtualenv, and make as many environments as your little heart desires, each with slightly different versions of various dependencies, for example, so you can more robustly test your programs. You can turn on and off the virtual environments, so for example you could have a couple running in different tabs of Terminal, for example, testing things in parallel. This is a close second-place recommendation of mine, because there's (slightly) more work involved in activating and using the environments, and you may get confused about which one you're working in if you're not very good about naming them. Downsides include the lack of system-wide availability, like the second option, and the fact that the virtual environment needs to be manually activated before use.
So, take a look at the options, and see which is best for your system and your particular situation. Good luck!