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We recommend allocating most arrays dynamically, with
fftw_malloc
. This isn’t too hard to do, although it is not as
straightforward for multi-dimensional arrays as it is for
one-dimensional arrays.
Creating the array is simple: using a dynamic-allocation routine like
fftw_malloc
, allocate an array big enough to store N
fftw_complex
values (for a complex DFT), where N is the product
of the sizes of the array dimensions (i.e. the total number of complex
values in the array). For example, here is code to allocate a
5 × 12 × 27 rank-3 array:
fftw_complex *an_array; an_array = (fftw_complex*) fftw_malloc(5*12*27 * sizeof(fftw_complex));
Accessing the array elements, however, is more tricky—you can’t
simply use multiple applications of the ‘[]’ operator like you
could for fixed-size arrays. Instead, you have to explicitly compute
the offset into the array using the formula given earlier for
row-major arrays. For example, to reference the (i,j,k)-th
element of the array allocated above, you would use the expression
an_array[k + 27 * (j + 12 * i)]
.
This pain can be alleviated somewhat by defining appropriate macros, or, in C++, creating a class and overloading the ‘()’ operator. The recent C99 standard provides a way to reinterpret the dynamic array as a “variable-length” multi-dimensional array amenable to ‘[]’, but this feature is not yet widely supported by compilers.