TL;DR -- pip+wheel needs to address the non-python dependency issue before it can be a full solution for Linux (or anything else, really) The long version: I think Linux wheel support is almost useless unless the pypa stack provides _something_ to handle non-python dependencies. 1) Pure Python packages work fine as source. 2) Python packages with C extensions build really easily out of the box -- so source distribution is fine (OK, I suppose some folks want to run a system without a compiler -- is this the intended use-case?) So what are the hard cases? the one we really want binary wheels for? - Windows, where a system compiler is a rarity: Done - OS-X, where a system compiler is a semi-rarity, and way too many "standard" system libs aren't there (or are old crappy versions...) - Almost Done. - Packages with semi-standard dependencies: can we expect ANY Linux distro to have libfreetype, libpng, libz, libjpeg, etc? probably, but maybe not installed (would a headless server have libfreetype?). And would those version be all compatible (probably if you specified a distro version) - Packages with non-standard non-python dependencies: libhdf5, lapack, BLAS, fortran(!) -- this is where the nightmare really is. I suspect most folks on this list will say that this is "Scipy Problem", and indeed, that's where the biggest issues are, and where systems like conda have grown up to address this. But at this point, I think it's really sad that the community has become fractured -- if folks start out with "I want to do scientific computing", then they get pointed to Enthought Canopy or Anaconda, and all is well (until they look for standard web development packages -- though that's getting better). But if someone starts out as a web developer, and is all happy with the PyPA stack (virtualenv, pip, etc...), then someone suggests they put some Bokeh plotting in their web site, or need to do some analytics on HDF5 files, or any number of things well supported by Python, but NOT by pip/wheel -- they are kind of stuck. My point is that it may actually be a bad thing to solve the easy problem while keeping out fingers in our ears about the hard ones.... (la la la la, I don't need to use those packages. la la la la) My thought: what pip+wheel needs to support much of this is the ability to specify a wheel dependency, rather than a package dependency -- i.e. "this particular wheel requires a libfreetype wheel". Then we could have binary wheels for non-python dependencies like libs (which would install the lib into pre-defined locations that could be relative path linked to) Sorry for the rant.... -Chris PS: Personally, after banging my head against this for years, I've committed to conda for the moment -- working to get conda to better support the wide range of python packages. I haven't tried it on Linux, but it does exist and works well for some folks. On Fri, Jul 17, 2015 at 1:22 AM, Nick Coghlan <ncoghlan@gmail.com> wrote:
On 17 July 2015 at 03:41, Nate Coraor <nate@bx.psu.edu> wrote:
Hi all,
I've recently been working on adding SOABI support for Python 2.x and other pieces needed to get wheels w/ C extensions for Linux working. Here's the work for wheels:
https://bitbucket.org/pypa/wheel/pull-request/54/
Based on that, I've added support for those wheels to pip here:
https://github.com/natefoo/pip/tree/linux-wheels
As mentioned in the wheels PR, there are some questions and decisions made that I need guidance on:
- On Linux, the distro name/version (as determined by platform.linux_distribution()) will be appended to the platform string, e.g. linux_x86_64_ubuntu_14_04. This is going to be necessary to make a reasonable attempt at wheel compatibility in PyPI. But this may violate PEP 425.
I think it's going beyond it in a useful way, though. At the moment, the "linux_x86_64" platform tag *under*specifies the platform - a binary extension built on Ubuntu 14.04 with default settings may not work on CentOS 7, for example.
Adding in the precise distro name and version number changes that to *over*specification, but I now think we can address that through configuration settings on the installer side that allow the specification of "compatible platforms". That way a derived distribution could add the corresponding upstream distribution's platform tag and their users would be able to install the relevant wheel files by default.
Rather than putting the Linux specific platform tag derivation logic directly in the tools, though, what if we claimed a file under the "/etc/python" subtree and used it to tell the tools what platform tags to use? For example, we could put the settings relating to package tags into "/etc/python/binary-compatibility.cfg" and allow that to be overridden on a per-virtualenv basis with a binary-compatibility.cfg file within the virtualenv.
For example, we could have a section where for a given platform, we overrode both the build and install tags appropriately. For RHEL 7.1, that may look like:
[linux_x86_64] build=rhel_7_1 install=rhel_7_0,rhel_7_1,centos_7_1406,centos_7_1503
Using JSON rather than an ini-style format would also work:
{ "linux_x86_64": { "build": "rhel_7_1", "install": ["rhel_7_0", "rhel_7_1", "centos_7_1406", "centos_7_1503"] } }
The reason I like this approach is that it leaves the definition of ABI compatibility in the hands of the distros, but also makes it safe to publish Linux wheel files on PyPI (just not with the generic linux_x86_64 platform tag).
- By default, wheels will be built using the most specific platform information. In practice, I build our wheels[1] using Debian Squeeze in Docker and therefore they should work on most currently "supported" Linuxes, but allowing such wheels to PyPI could still be dangerous because forward compatibility is not always guaranteed (e.g. if a SO version/name changes, or a C lib API method changes in a non-backward compatible way but the SO version/name does not change). That said, I'd be happy to make a much more generalized version of our docker-build[2] system that'd allow package authors to easily/rapidly build distro/version-specific wheels for many of the popular Linux distros. We can assume that a wheel built on a vanilla install of e.g. Ubuntu 14.04 will work on any other installation of 14.04 (this is what the distro vendors promise, anyway).
Right, if we break ABI within a release, that's our fault (putting on my distro developer hat), and folks will rightly yell at us for it. I was previously wary of this approach due to the "what about derived distributions?" problem, but realised recently that a config file that explicitly lists known binary compatible platforms should suffice for that. There's only a handful of systems folks are likely want to prebuild wheels for (Debian, Ubuntu, Fedora, CentOS/RHEL, openSuse), and a configuration file based system allows ABI compatible derived distros to be handled as if they were their parent.
- I attempt to set the SOABI if the SOABI config var is unset, this is for Python 2, but will also be done even on Python 3. Maybe that is the wrong decision (or maybe SOABI is guaranteed to be set on Python 3).
Python 3 should always set it, but if it's not present for some reason, deriving it makes sense.
- Do any other implementations define SOABI? PyPy does not, I did not test others. What should we do with these?
The implementation identifier is also included in the compatibility tags, so setting that in addition to the platform ABI tag when a wheel contains binary extensions should suffice.
Because the project I work for[3] relies heavily on large number of packages, some of which have complicated build-time dependencies, we have always provided them as eggs and monkeypatched platform support back in to pkg_resources. Now that the PyPA has settled on wheels as the preferred binary packaging format, I am pretty heavily motivated to do the work to work out all the issues with this implementation.
Thank you!
Regards, Nick.
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