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I was looking at PyPy and I was just wondering why it hasn't been adopted into the mainline Python distributions. Wouldn't things like JIT compilation and lower memory footprint greatly improve the speeds of all Python code?

In short, what are the main drawbacks of PyPy that cause it to remain a separate project?

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In addition, pypy have no support for numpy, yet. morepypy.blogspot.ch/2012/09/numpy-on-pypy-status-update.html –  rthiago Oct 16 '12 at 18:02
And numpy support only scratches the surface of what scientific computing applications would need before switching to PyPy. Here are some cogent thoughts from the original numpy author: technicaldiscovery.blogspot.com/2011/10/… –  superbatfish Jun 13 '13 at 15:52

6 Answers 6

up vote 219 down vote accepted

PyPy is not a fork of CPython and so it could never be merged directly into CPython.

Theoretically the Python community could universally adopt PyPy, PyPy could be made the reference implementation, and CPython could be discontinued. However, they each have their strengths and weaknesses:

  • CPython is easy to integrate with Python modules written in C, which is traditionally the way Python applications have been made performant for CPU-intensive tasks (see for instance the SciPy project).
  • The PyPy JIT compilation step makes the first execution of PyPy code slower than CPython -- it's only through repeated running of compiled code that it becomes faster overall. This means startup times are higher and therefore PyPy isn't suitable for running glue code or trivial scripts.
  • PyPy and CPython behavior is not identical in all respects, especially when it comes to "implementation details" (behavior that is not specified by the language but is still important at a practical level).
  • CPython runs on more architectures than PyPy and has been successfully adapted to run in embedded architectures in ways that may be impractical for PyPy.
  • CPython's reference counting scheme for memory management has more predictable performance impacts than PyPy's various GC systems.
  • PyPy does not yet fully support Python 3.x, although that is an active work item.

PyPy is a great project, but runtime speed on CPU-intensive tasks isn't everything, and in many applications it's the least of many concerns. For instance, Django can run on PyPy and that makes templating faster, but CPython's database drivers are faster than PyPy's so in the end, which implementation is more performant depends on where the bottleneck in your application is. CPU usage is rarely a bottleneck for web applications, whereas memory usage and database latency can be a big deal. So most Django deployments use CPython.

Another example: you'd think PyPy would be great for games, but in practice PyPy garbage collection causes noticeable jitter. For CPython, most of the CPU-intensive game stuff is offloaded to the PyGame library (written in C) anyways. I still think PyPy as an idea would be great for games, but it has a ways to go.

In general, PyPy and CPython have radically different approaches to fundamental design questions and make different tradeoffs, and neither one is "better" than the other in every case.

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It is not true that PyPy is unsuitable for running scripts. Its startup time is pretty much the same as CPython and its interpretation speed is similar. –  Lucian Feb 18 '13 at 14:08
It is worth noting that PyPy now comes with an incremental GC, and is potentially more suitable for games as a consequence. –  porgarmingduod Oct 23 '13 at 11:55

For one, it's not 100% compatible with Python 2.x, and has only preliminary support for 3.x.

It's also not something that could be merged - The Python implementation that is provided by PyPy is generated using a framework they have created, which is extremely cool, but also completely disparate with the existing CPython implementation. It would have to be a complete replacement.

There are some very concrete differences between PyPy and CPython, a big one being how extension modules are supported - which, if you want to go beyond the standard library, is a big deal.

It's also worth noting that PyPy isn't universally faster.

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Any reason for the downvote? –  Lattyware Oct 12 '12 at 21:55
+1 to balance the balance sheet –  Tomasz Zielinski Oct 13 '12 at 23:27

See this video by Guido van Rossum. He talks about the same question you asked at 12 min 33 secs.


  • lack of Python 3 compatibility
  • lack of extension support
  • not appropriate as glue code
  • speed is not everything

After all, he's the one to decide...

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+1 for the video link –  fotNelton Oct 14 '12 at 4:47
+1 for link WITH direct link to relevant part of video! Also +1 for hilariously truthful Guido van Rossum informal poll "how Many people are using PyPy in production?... no hands? coughs Well, I guess there is still hope [for CPython]." –  Trevor Boyd Smith Oct 14 '12 at 17:26
Also gave a +1 for the video link! One comment on the contents though: when Guido says it might be convenient to ship a binary compiled by PyPy, he was either mistaken or discussing a theoretical future feature. PyPy JIT output is not suitable for reuse because it is full of fixed-memory-position pointers! (At least as far as I understand -- I'd put more money on his word than mine =) ) –  Andrew Gorcester Oct 15 '12 at 2:56

One reason might be that according to PyPy site, it currently runs only on 32- and 64-bit Intel x86 architecture, while CPython runs on other platforms as well. This is probably due to platform-specific speed enhancements in PyPy. While speed is a good thing, people often want language implementations to be as "platform-independent" as possible.

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Note that an ARM backend is "almost there" and a PowerPC backend is WIP. Also note that this only refers to the JIT compiler, and porting the JIT to a new architecture merely requires implementing a code generator for a relatively simple and low-level IR, nothing more. –  delnan Oct 13 '12 at 13:30
@delnan thanks for the additional info. –  Bitwise Oct 14 '12 at 1:40

I recommend watching this keynote by David Beazley for more insights. It answers your question by giving clarity on nature & intricacies of PyPy.

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In addition to everything that's been said here, PyPy is not nearly as rock solid as CPython in terms of bugs. With SymPy, we've found at about a dozen bugs in PyPy over the past couple of years, both in released versions and in the nightlies.

On the other hand, we've only ever found one bug in CPython, and that was in a prerelease.

Plus, don't discount the lack of Python 3 support. No one in the core Python community even cares about Python 2 any more. They are working on the next big things in Python 3.4, which will be the fifth major release of Python 3. The PyPy guys still haven't gotten one of them. So they've got some catching up to do before they can start to be contenders.

Don't get me wrong. PyPy is awesome. But it's still far from being better than CPython in a lot of very important ways.

And by the way, if you use SymPy in PyPy, you won't see a smaller memory footprint (or a speedup either). See https://bugs.pypy.org/issue1447.

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