#include #include int main(int argc, char **argv) { int np[2]; ptrdiff_t n[3]; ptrdiff_t alloc_local; ptrdiff_t local_ni[3], local_i_start[3]; ptrdiff_t local_no[3], local_o_start[3]; double err; pfft_complex *planned_in, *executed_in; pfft_complex *planned_out, *executed_out; pfft_plan plan_forw=NULL, plan_back=NULL; MPI_Comm comm_cart_2d; /* Set size of FFT and process mesh */ n[0] = 29; n[1] = 27; n[2] = 31; np[0] = 2; np[1] = 2; /* Initialize MPI and PFFT */ MPI_Init(&argc, &argv); pfft_init(); /* Create two-dimensional process grid of size np[0] x np[1], if possible */ if( pfft_create_procmesh_2d(MPI_COMM_WORLD, np[0], np[1], &comm_cart_2d) ){ pfft_fprintf(MPI_COMM_WORLD, stderr, "Error: This test file only works with %d processes.\n", np[0]*np[1]); MPI_Finalize(); return 1; } /* Get parameters of data distribution */ alloc_local = pfft_local_size_dft_3d(n, comm_cart_2d, PFFT_TRANSPOSED_NONE, local_ni, local_i_start, local_no, local_o_start); /* Allocate memory */ planned_in = pfft_alloc_complex(alloc_local); planned_out = pfft_alloc_complex(alloc_local); /* Plan parallel forward FFT */ plan_forw = pfft_plan_dft_3d( n, planned_in, planned_out, comm_cart_2d, PFFT_FORWARD, PFFT_TRANSPOSED_NONE| PFFT_MEASURE| PFFT_DESTROY_INPUT); /* Plan parallel backward FFT */ plan_back = pfft_plan_dft_3d( n, planned_out, planned_in, comm_cart_2d, PFFT_BACKWARD, PFFT_TRANSPOSED_NONE| PFFT_MEASURE| PFFT_DESTROY_INPUT); /* Free planning arrays since we use other arrays for execution */ pfft_free(planned_in); pfft_free(planned_out); /* Allocate memory for execution */ executed_in = pfft_alloc_complex(alloc_local); executed_out = pfft_alloc_complex(alloc_local); /* Initialize input with random numbers */ pfft_init_input_complex_3d(n, local_ni, local_i_start, executed_in); /* execute parallel forward FFT */ pfft_execute_dft(plan_forw, executed_in, executed_out); /* clear the old input */ pfft_clear_input_complex_3d(n, local_ni, local_i_start, executed_in); /* execute parallel backward FFT */ pfft_execute_dft(plan_back, executed_out, executed_in); /* Scale data */ for(ptrdiff_t l=0; l < local_ni[0] * local_ni[1] * local_ni[2]; l++) executed_in[l] /= (n[0]*n[1]*n[2]); /* Print error of back transformed data */ err = pfft_check_output_complex_3d(n, local_ni, local_i_start, executed_in, comm_cart_2d); pfft_printf(comm_cart_2d, "Error after one forward and backward trafo of size n=(%td, %td, %td):\n", n[0], n[1], n[2]); pfft_printf(comm_cart_2d, "maxerror = %6.2e;\n", err); /* free mem and finalize */ pfft_destroy_plan(plan_forw); pfft_destroy_plan(plan_back); MPI_Comm_free(&comm_cart_2d); pfft_free(executed_in); pfft_free(executed_out); MPI_Finalize(); return 0; }