Many python packages have build dependencies on non-Python packages. I'm specifically thinking of lxml and cffi, but this dilemma applies to a lot of packages on PyPI. Both of these packages have unadvertised build dependencies on non-Python packages like libxml2-dev, libxslt-dev, zlib1g-dev, and libffi-dev. The websites for lxml and cffi declare some of these dependencies, but it appears that there is no way to do figure this out from a command line.

As a result, there are hundreds of questions on SO that take this general form:

pip install foo fails with an error: "fatal error: bar.h: No such file or directory". How do I fix it?

Is this a misuse of pip or is this how it is intended to work? Is there a sane way to know what build dependencies to install before running pip? My current approach is:

  1. I want to install a package called foo.
  2. pip install foo
  3. foo has a dependency on a Python package bar.
    • If bar build fails, then look at error message and guess/google what non-Python dependency I need to install.
    • sudo apt-get install libbaz-dev
    • sudo pip install bar
    • Repeat until bar succeeds.
  4. sudo pip uninstall foo
  5. Repeat entire process until no error messages.

Step #4 is particularly annoying. Apparently pip (version 1.5.4) installs the requested package first, before any dependencies. So if any dependencies fail, you can't just ask pip to install it again, because it thinks its already installed. There's also no option to install just the dependencies, so you must uninstall the package and then reinstall it.

Is there some more intelligent process for using pip?

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    For whatever it's worth, this is why there are so many python package managers for the scientific world. (E.g. "python distribution" package managers like conda & enpkg, setuptools replacements such as bento, and a bunch of lesser-known ones that I'm forgetting) On Windows or OSX, a package maintainer can distribute a binary wheel with all the necessary libraries, but on linux/BSD systems, it's harder to guarantee what compiler the system python was built with. At any rate, as far as I know, there's no way to specify external dependencies in the distutils metadata. Jan 1, 2015 at 20:51
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    I think part of the problem is also inherent in the way operating systems and dynamic linkers work. Ideally, you'd like to take advantage of shared libraries in an OS to be more efficient with memory and such. However, you can only install shared libraries with the system package manager since every other package in the same release cycle depends on a certain, agreed-upon version. Because of this, there can't really be a reliable interface between pip and apt since pip has no concept of release cycles. Jan 1, 2015 at 21:10
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    Debian's choice to not ship header files with the shared libraries by default is one of the reasons I shun anything Debian-related. There's no such thing as "quickly compiling something" on Debian, since you're always hunting for -dev packages; this problem is not restricted to pip. Jan 2, 2015 at 6:07
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    @Carpetsmoker Fine-grained control over what installing a package pulls in is a feature, not a bug. I don't think it would be very hard to write a wrapper to always pull in a -dev package if there is one.
    – tripleee
    Jan 2, 2015 at 6:29
  • @tripleee We are talking about a few header files ... Jan 2, 2015 at 6:33

2 Answers 2


This is actually a comment about the answer suggesting using apt-get but I don't have enough reputation points to leave one.

If you use virtualenv a lot, then installing the python-packages through apt-get can become a pain, as you can get mysterious errors when the python packages installed system-wide and the python packages installed in your virtualenv try to interact with each other. One thing that I have found that does help is to use the build-dep feature. To build the matplotlib dependencies, for example:

sudo apt-get build-dep python-matplotlib

And then activate your virtual environment and do pip install matplotlib. It will still go through the build process but many of the dependencies will be taken care of for you.

This is sort what the cran repositories suggest when installing R packages in ubuntu.

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    I think you should just rework this into a stand alone answer, it's pretty great. Jan 2, 2015 at 5:59
  • Agree with Travis; this is a clever answer that I had never thought of. Jan 2, 2015 at 6:00

For most popular packages, There is a workaround for recent ubuntu systems. For example, I want to install matplotlib. When you order pip install matplotlib, it usually fails because of a missing dependency.

You can use apt-get install python-matplotlib instead. For python3, you can use apt-get install python3-matplotlib

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    What about installing a package into a virtual environment?
    – alecxe
    Jan 1, 2015 at 23:45
  • @alecxe I have no idea. I don't see anyway to use my suggestion for virtual environments. Jan 1, 2015 at 23:51
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    There are two problems with this approach: (1) most ubuntu packages lag very far behind their PyPI counterparts, and (2) pip doesn't know anything about your APT packages, so I if apt-get install python-matplotlib and then later try to pip install something that depends on matplotlib, pip will try to install matplotlib again. I think it's better to use all APT or all pip; combining the two is just inviting future confusion and frustration. Jan 2, 2015 at 5:59

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