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This is risky business, and I understand the Global Interpreter Lock to be a formidable foe of parallelism. However, if I'm using Numpy's C API (specifically the PyArray_DATA macro on a Numpy array), are there potential consequences to invoking it from multiple concurrent threads?

Note that I will still own the GIL and not be releasing it with Numpy's threading support. Also, even if Numpy makes no guarantees about thread safety but PyArray_DATA is thread-safe in practice, that's good enough for me.

I'm running Python 2.6.6 with Numpy 1.3.0 on Linux.

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up vote 3 down vote accepted

Answering my own question here, but after poking into the source code for Numpy 1.3.0, I believe the answer is: Yes, PyArray_DATA is thread-safe.

  1. PyArray_DATA is defined in ndarrayobject.h:

    #define PyArray_DATA(obj) ((void *)(((PyArrayObject *)(obj))->data))
    
  2. The PyArrayObject struct type is defined in the same file; the field of interest is:

    char *data;
    

    So now, the question is whether accessing data from multiple threads is safe or not.

  3. Creating a new Numpy array from scratch (i.e., not deriving it from an existing data structure) passes a NULL data pointer to PyArray_NewFromDescr, defined in arrayobject.c.

  4. This causes PyArray_NewFromDescr to invoke PyDataMem_NEW in order to allocate memory for the PyArrayObject's data field. This is simply a macro for malloc:

    #define PyDataMem_NEW(size) ((char *)malloc(size))
    

In summary, PyArray_DATA is thread-safe and as long as the Numpy arrays are created separately, it is safe to write to them from different threads.

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