fft_block_type.cpp

//
// Copyright (c) 2005, 2006, 2007 by CodeSourcery
// Copyright (c) 2013 Stefan Seefeld
// All rights reserved.
//
// This file is part of OpenVSIP. It is made available under the
// license contained in the accompanying LICENSE.GPL file.

// Set to 1 to enable verbose output.
#define VERBOSE     0
// Set to 0 to disble use of random values.
#define FILL_RANDOM 1

#include <cmath>

#include <vsip/initfin.hpp>
#include <vsip/support.hpp>
#include <vsip/signal.hpp>
#include <vsip/math.hpp>
#include <vsip/random.hpp>
#include "fft_common.hpp"

template <typename T>
void
test_block_type()
{
#if TEST_2D_CC
  test_fft<0,1,complex<T>,complex<T>,2,vsip::fft_fwd>();
  test_fft<1,0,complex<T>,complex<T>,2,vsip::fft_fwd>();

#  if VSIP_IMPL_TEST_LEVEL > 0
  test_fft<0,2,complex<T>,complex<T>,2,vsip::fft_fwd>();
  test_fft<1,1,complex<T>,complex<T>,2,vsip::fft_fwd>();
  test_fft<1,2,complex<T>,complex<T>,2,vsip::fft_fwd>();
  test_fft<2,0,complex<T>,complex<T>,2,vsip::fft_fwd>();
  test_fft<2,1,complex<T>,complex<T>,2,vsip::fft_fwd>();
  test_fft<2,2,complex<T>,complex<T>,2,vsip::fft_fwd>();
#  endif
#endif

#if TEST_2D_RC
  test_fft<0,1,T,complex<T>,2,1>();
  test_fft<0,1,T,complex<T>,2,0>();
  test_fft<1,0,T,complex<T>,2,1>();
  test_fft<1,0,T,complex<T>,2,0>();

#  if VSIP_IMPL_TEST_LEVEL > 0
  test_fft<0,2,T,complex<T>,2,1>();
  test_fft<0,2,T,complex<T>,2,0>();

  test_fft<1,1,T,complex<T>,2,1>();
  test_fft<1,1,T,complex<T>,2,0>();
  test_fft<1,2,T,complex<T>,2,1>();
  test_fft<1,2,T,complex<T>,2,0>();

  test_fft<2,0,T,complex<T>,2,1>();
  test_fft<2,0,T,complex<T>,2,0>();
  test_fft<2,1,T,complex<T>,2,1>();
  test_fft<2,1,T,complex<T>,2,0>();
  test_fft<2,2,T,complex<T>,2,1>();
  test_fft<2,2,T,complex<T>,2,0>();
#  endif
#endif

#if TEST_3D_CC
  test_fft<0,1,complex<T>,complex<T>,3,vsip::fft_fwd>();
  test_fft<1,0,complex<T>,complex<T>,3,vsip::fft_fwd>();

#  if VSIP_IMPL_TEST_LEVEL > 0
  test_fft<0,2,complex<T>,complex<T>,3,vsip::fft_fwd>();
  test_fft<1,1,complex<T>,complex<T>,3,vsip::fft_fwd>();
  test_fft<1,2,complex<T>,complex<T>,3,vsip::fft_fwd>();
  test_fft<2,0,complex<T>,complex<T>,3,vsip::fft_fwd>();
  test_fft<2,1,complex<T>,complex<T>,3,vsip::fft_fwd>();
  test_fft<2,2,complex<T>,complex<T>,3,vsip::fft_fwd>();
#  endif
#endif

#if TEST_3D_RC
  test_fft<0,1,T,complex<T>,3,2>();
  test_fft<0,1,T,complex<T>,3,1>();
  test_fft<0,1,T,complex<T>,3,0>();
  test_fft<1,0,T,complex<T>,3,2>();
  test_fft<1,0,T,complex<T>,3,1>();
  test_fft<1,0,T,complex<T>,3,0>();

#  if VSIP_IMPL_TEST_LEVEL > 0
  test_fft<0,2,T,complex<T>,3,2>();
  test_fft<0,2,T,complex<T>,3,1>();
  test_fft<0,2,T,complex<T>,3,0>();

  test_fft<1,1,T,complex<T>,3,2>();
  test_fft<1,1,T,complex<T>,3,1>();
  test_fft<1,1,T,complex<T>,3,0>();
  test_fft<1,2,T,complex<T>,3,2>();
  test_fft<1,2,T,complex<T>,3,1>();
  test_fft<1,2,T,complex<T>,3,0>();

  test_fft<2,0,T,complex<T>,3,2>();
  test_fft<2,0,T,complex<T>,3,1>();
  test_fft<2,0,T,complex<T>,3,0>();
  test_fft<2,1,T,complex<T>,3,2>();
  test_fft<2,1,T,complex<T>,3,1>();
  test_fft<2,1,T,complex<T>,3,0>();
  test_fft<2,2,T,complex<T>,3,2>();
  test_fft<2,2,T,complex<T>,3,1>();
  test_fft<2,2,T,complex<T>,3,0>();
#  endif
#endif
}



int
main(int argc, char** argv)
{
  vsipl init(argc, argv);

  // show_config();

//
// check with different block types
//
  test_block_type<float>();

  return 0;
}