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I guess I have an aliasing problem. I am using the fftw-library, which supports in-place FFTs. This means, that I call a fftw-function which has an interface similar to this:

void fftwFunction(double* input, fftw_complex* output);

where fftw_complex is double[2]. "In-place" means that the input and output arrays can point to the same physical array. (Note: Gives better performance.)

Now, I am using it like this:

class fftwClass
{
public:
  void AllocateMemory(size_t numBytes)
  {
    void* allocatedMemory = fftw_malloc(numBytes); // Aligned malloc
    mRealValues = reinterpret_cast<double*>(allocatedMemory);
    mFourierValues = reinterpret_cast< std::complex<double>* >(allocatedMemory);
  }

  void DoForwardFFT()
  {
    // Transformation from the real to the fourier-space.
    fftwFunction(mRealValues, mFourierValues);
  }

  void DoSomethingReal()
  {
    // Read and modify mRealValues
    // E.g.:
    mRealValues[0] = 5;
  }

  void DoSomethingFourier()
  {
    // Read and modify mFourierValues
    // E.g.:
    mFourierValues[0] = 5;
  }

private:
  double* mRealValues;
  std::complex<double>* mFourierValues;
};

The call sequence can be like this: AllocateMemory(), DoSomethingReal(), DoForwardFFT(), DoSomethingFourier().

My questions:

  • mRealValues and mFourierValues point to the same array, but have different types. Therefore I have an aliasing/type-punning problem in DoSomethingReal() and DoSomethingFourier(), haven't I?
  • Although gcc (-Wall -Wextra) nor Intel's nor Microsoft's compiler have warned me so far about any aliasing problem, and the program runs fine: Could there be a silent problem due to the aliasing?
  • What are possible solutions to solve this?

For gcc, the following compiles without warning, but does this solve the problem?

__attribute__((__may_alias__)) double* mRealValues;
__attribute__((__may_alias__)) std::complex<double>* mFourierValues;

Note regarding the cast to std::complex: fftw recommends it, and as far as I know this is defined behaviour in C++11. In any case, I have a static_assert in place to check that the sizes match, and this is not my question.
In any case, the actual code looks different, as fftw's usage is more complex (and of course I clean-up the allocated memory).

Also note, I know about this post, but it doesn't answer my question.

share|improve this question
    
"In any case, I have a static_assert in place to check that the sizes match" Not necessary. [complex.numbers]/4 guarantees that complex<T> has the size 2*sizeof(T) (indirectly via requirements on pointer arithmetics). It also allows aliasing (debatable on a language-lawyer level) an object of type complex<T> with an lvalue of type T(&)[2] plus pointer arithmetics. –  dyp Jul 15 '14 at 15:28

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