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<span id="FFTW-MPI-Fortran-Interface"></span><div class="header">
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<hr>
<span id="FFTW-MPI-Fortran-Interface-1"></span><h3 class="section">6.13 FFTW MPI Fortran Interface</h3>
<span id="index-Fortran-interface-1"></span>

<span id="index-iso_005fc_005fbinding"></span>
<p>The FFTW MPI interface is callable from modern Fortran compilers
supporting the Fortran 2003 <code>iso_c_binding</code> standard for calling
C functions.  As described in <a href="Calling-FFTW-from-Modern-Fortran.html">Calling FFTW from Modern Fortran</a>,
this means that you can directly call FFTW&rsquo;s C interface from Fortran
with only minor changes in syntax.  There are, however, a few things
specific to the MPI interface to keep in mind:
</p>
<ul>
<li> Instead of including <code>fftw3.f03</code> as in <a href="Overview-of-Fortran-interface.html">Overview of Fortran interface</a>, you should <code>include 'fftw3-mpi.f03'</code> (after
<code>use, intrinsic :: iso_c_binding</code> as before).  The
<code>fftw3-mpi.f03</code> file includes <code>fftw3.f03</code>, so you should
<em>not</em> <code>include</code> them both yourself.  (You will also want to
include the MPI header file, usually via <code>include 'mpif.h'</code> or
similar, although though this is not needed by <code>fftw3-mpi.f03</code>
<i>per se</i>.)  (To use the &lsquo;<samp>fftwl_</samp>&rsquo; <code>long double</code> extended-precision routines in supporting compilers, you should include <code>fftw3f-mpi.f03</code> in <em>addition</em> to <code>fftw3-mpi.f03</code>. See <a href="Extended-and-quadruple-precision-in-Fortran.html">Extended and quadruple precision in Fortran</a>.)

</li><li> Because of the different storage conventions between C and Fortran,
you reverse the order of your array dimensions when passing them to
FFTW (see <a href="Reversing-array-dimensions.html">Reversing array dimensions</a>).  This is merely a
difference in notation and incurs no performance overhead.  However,
it means that, whereas in C the <em>first</em> dimension is distributed,
in Fortran the <em>last</em> dimension of your array is distributed.

</li><li> <span id="index-MPI-communicator-3"></span>
In Fortran, communicators are stored as <code>integer</code> types; there is
no <code>MPI_Comm</code> type, nor is there any way to access a C
<code>MPI_Comm</code>.  Fortunately, this is taken care of for you by the
FFTW Fortran interface: whenever the C interface expects an
<code>MPI_Comm</code> type, you should pass the Fortran communicator as an
<code>integer</code>.<a id="DOCF8" href="#FOOT8"><sup>8</sup></a>

</li><li> Because you need to call the &lsquo;<samp>local_size</samp>&rsquo; function to find out
how much space to allocate, and this may be <em>larger</em> than the
local portion of the array (see <a href="MPI-Data-Distribution.html">MPI Data Distribution</a>), you should
<em>always</em> allocate your arrays dynamically using FFTW&rsquo;s allocation
routines as described in <a href="Allocating-aligned-memory-in-Fortran.html">Allocating aligned memory in Fortran</a>.
(Coincidentally, this also provides the best performance by
guaranteeding proper data alignment.)

</li><li> Because all sizes in the MPI FFTW interface are declared as
<code>ptrdiff_t</code> in C, you should use <code>integer(C_INTPTR_T)</code> in
Fortran (see <a href="FFTW-Fortran-type-reference.html">FFTW Fortran type reference</a>).

</li><li> <span id="index-fftw_005fexecute_005fdft-1"></span>
<span id="index-fftw_005fmpi_005fexecute_005fdft-1"></span>
<span id="index-new_002darray-execution-3"></span>
In Fortran, because of the language semantics, we generally recommend
using the new-array execute functions for all plans, even in the
common case where you are executing the plan on the same arrays for
which the plan was created (see <a href="Plan-execution-in-Fortran.html">Plan execution in Fortran</a>).
However, note that in the MPI interface these functions are changed:
<code>fftw_execute_dft</code> becomes <code>fftw_mpi_execute_dft</code>,
etcetera. See <a href="Using-MPI-Plans.html">Using MPI Plans</a>.

</li></ul>

<p>For example, here is a Fortran code snippet to perform a distributed
L&nbsp;&times;&nbsp;M
 complex DFT in-place.  (This assumes you have already
initialized MPI with <code>MPI_init</code> and have also performed
<code>call fftw_mpi_init</code>.)
</p>
<div class="example">
<pre class="example">  use, intrinsic :: iso_c_binding
  include 'fftw3-mpi.f03'
  integer(C_INTPTR_T), parameter :: L = ...
  integer(C_INTPTR_T), parameter :: M = ...
  type(C_PTR) :: plan, cdata
  complex(C_DOUBLE_COMPLEX), pointer :: data(:,:)
  integer(C_INTPTR_T) :: i, j, alloc_local, local_M, local_j_offset

!   <span class="roman">get local data size and allocate (note dimension reversal)</span>
  alloc_local = fftw_mpi_local_size_2d(M, L, MPI_COMM_WORLD, &amp;
                                       local_M, local_j_offset)
  cdata = fftw_alloc_complex(alloc_local)
  call c_f_pointer(cdata, data, [L,local_M])

!   <span class="roman">create MPI plan for in-place forward DFT (note dimension reversal)</span>
  plan = fftw_mpi_plan_dft_2d(M, L, data, data, MPI_COMM_WORLD, &amp;
                              FFTW_FORWARD, FFTW_MEASURE)

! <span class="roman">initialize data to some function</span> my_function(i,j)
  do j = 1, local_M
    do i = 1, L
      data(i, j) = my_function(i, j + local_j_offset)
    end do
  end do

! <span class="roman">compute transform (as many times as desired)</span>
  call fftw_mpi_execute_dft(plan, data, data)

  call fftw_destroy_plan(plan)
  call fftw_free(cdata)
</pre></div>

<p>Note that when we called <code>fftw_mpi_local_size_2d</code> and
<code>fftw_mpi_plan_dft_2d</code> with the dimensions in reversed order,
since a L&nbsp;&times;&nbsp;M
 Fortran array is viewed by FFTW in C as a
M&nbsp;&times;&nbsp;L
 array.  This means that the array was distributed over
the <code>M</code> dimension, the local portion of which is a
L&nbsp;&times;&nbsp;local_M
 array in Fortran.  (You must <em>not</em> use an
<code>allocate</code> statement to allocate an L&nbsp;&times;&nbsp;local_M
 array,
however; you must allocate <code>alloc_local</code> complex numbers, which
may be greater than <code>L * local_M</code>, in order to reserve space for
intermediate steps of the transform.)  Finally, we mention that
because C&rsquo;s array indices are zero-based, the <code>local_j_offset</code>
argument can conveniently be interpreted as an offset in the 1-based
<code>j</code> index (rather than as a starting index as in C).
</p>
<p>If instead you had used the <code>ior(FFTW_MEASURE,
FFTW_MPI_TRANSPOSED_OUT)</code> flag, the output of the transform would be a
transposed M&nbsp;&times;&nbsp;local_L
 array, associated with the <em>same</em>
<code>cdata</code> allocation (since the transform is in-place), and which
you could declare with:
</p>
<div class="example">
<pre class="example">  complex(C_DOUBLE_COMPLEX), pointer :: tdata(:,:)
  ...
  call c_f_pointer(cdata, tdata, [M,local_L])
</pre></div>

<p>where <code>local_L</code> would have been obtained by changing the
<code>fftw_mpi_local_size_2d</code> call to:
</p>
<div class="example">
<pre class="example">  alloc_local = fftw_mpi_local_size_2d_transposed(M, L, MPI_COMM_WORLD, &amp;
                           local_M, local_j_offset, local_L, local_i_offset)
</pre></div>
<div class="footnote">
<hr>
<h4 class="footnotes-heading">Footnotes</h4>

<h5><a id="FOOT8" href="#DOCF8">(8)</a></h3>
<p>Technically, this is because you aren&rsquo;t
actually calling the C functions directly. You are calling wrapper
functions that translate the communicator with <code>MPI_Comm_f2c</code>
before calling the ordinary C interface.  This is all done
transparently, however, since the <code>fftw3-mpi.f03</code> interface file
renames the wrappers so that they are called in Fortran with the same
names as the C interface functions.</p>
</div>
<hr>
<div class="header">
<p>
Previous: <a href="FFTW-MPI-Reference.html" accesskey="p" rel="prev">FFTW MPI Reference</a>, Up: <a href="Distributed_002dmemory-FFTW-with-MPI.html" accesskey="u" rel="up">Distributed-memory FFTW with MPI</a> &nbsp; [<a href="index.html#SEC_Contents" title="Table of contents" rel="contents">Contents</a>][<a href="Concept-Index.html" title="Index" rel="index">Index</a>]</p>
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