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Cape Town 2012 sprint report

Hello.

We're about to finish a PyPy sprint in Cape Town, South Africa that was one of the smallest done so far, only having Armin Rigo and Maciej Fijalkowski with Alex Gaynor joining briefly at the beginning, however also one of the longest, lasting almost 3 weeks. The sprint theme seems to be predominantly "no new features" and "spring cleaning". We overall removed about 20k lines of code in the PyPy source tree. The breakdown of things done and worked on:

  • We killed SomeObject support in annotation and rtyper. This is a modest code saving, however, it reduces the complexity of RPython and also, hopefully, improves compile errors from RPython. We're far from done on the path to have comprehensible compile-time errors, but the first step is always the hardest :)

  • We killed some magic in specifying the interface between builtin functions and Python code. It used to be possible to write builtin functions like this:

    def f(space, w_x='xyz'):
    

    which will magically wrap 'xyz' into a W_StringObject. Right now, instead, you have to write:

    @unwrap_spec(w_x=WrappedDefault('xyz'))
    def f(space, w_x):
    

    which is more verbose, but less magical.

  • We killed the CExtModuleBuilder which is the last remaining part of infamous extension compiler that could in theory build C extensions for CPython in RPython. This was never working very well and the main part was killed long ago.

  • We killed various code duplications in the C backend.

  • We killed microbench and a bunch of other small-to-medium unused directories.

  • We killed llgraph JIT backend and rewrote it from scratch. Now the llgraph backend is not translatable, but this feature was rarely used and caused a great deal of complexity.

  • We progressed on continulet-jit-3 branch, up to the point of merging it into result-in-resops branch, which also has seen a bit of progress.

    Purpose of those two branches:

    • continulet-jit-3: enable stackless to interact with the JIT by killing global state while resuming from the JIT into the interpreter. This has multiple benefits. For example it's one of the stones on the path to enable STM for PyPy. It also opens new possibilities for other optimizations including Python-Python calls and generators.
    • result-in-resops: the main goal is to speed up the tracing time of PyPy. We found out the majority of time is spent in the optimizer chain, which faces an almost complete rewrite. It also simplifies the storage of the operations as well as the number of implicit invariants that have to be kept in mind while developing.
  • We finished and merged the excellent work by Ronan Lamy which makes the flow object space (used for abstract interpretation during RPython compilation) independent from the Python interpreter. This means we've achieved an important milestone on the path of separating the RPython translation toolchain from the PyPy Python interpreter.

Cheers,
fijal & armin


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