fftw_plan fftw_plan_r2r_1d(int n, double *in, double *out, fftw_r2r_kind kind, unsigned flags); fftw_plan fftw_plan_r2r_2d(int n0, int n1, double *in, double *out, fftw_r2r_kind kind0, fftw_r2r_kind kind1, unsigned flags); fftw_plan fftw_plan_r2r_3d(int n0, int n1, int n2, double *in, double *out, fftw_r2r_kind kind0, fftw_r2r_kind kind1, fftw_r2r_kind kind2, unsigned flags); fftw_plan fftw_plan_r2r(int rank, const int *n, double *in, double *out, const fftw_r2r_kind *kind, unsigned flags);
Plan a real input/output (r2r) transform of various kinds in zero or
more dimensions, returning an
fftw_plan (see Using Plans).
Once you have created a plan for a certain transform type and parameters, then creating another plan of the same type and parameters, but for different arrays, is fast and shares constant data with the first plan (if it still exists).
The planner returns
NULL if the plan cannot be created. A
NULL plan is always returned by the basic interface unless
you are using a customized FFTW configuration supporting a restricted
set of transforms, or for size-1
FFTW_REDFT00 kinds (which are
rankis the dimensionality of the transform (it should be the size of the arrays
*kind), and can be any non-negative integer. The ‘_1d’, ‘_2d’, and ‘_3d’ planners correspond to a
3, respectively. A
rankof zero is equivalent to a copy of one number from input to output.
n[rank], respectively, gives the (physical) size of the transform dimensions. They can be any positive integer.
nx ... x
n[rank-1]. See Multi-dimensional Array Format.
RODFT00transform kind in a dimension of size n, it is n-1 or n+1, respectively, that should be factorizable in the above form.
outpoint to the input and output arrays of the transform, which may be the same (yielding an in-place transform). These arrays are overwritten during planning, unless
FFTW_ESTIMATEis used in the flags. (The arrays need not be initialized, but they must be allocated.)
kind[rank], is the kind of r2r transform used for the corresponding dimension. The valid kind constants are described in Real-to-Real Transform Kinds. In a multi-dimensional transform, what is computed is the separable product formed by taking each transform kind along the corresponding dimension, one dimension after another.
flagsis a bitwise OR (‘|’) of zero or more planner flags, as defined in Planner Flags.