/* ////////////////////////////////////////////////////////////////////////////
-- testing any solver
*/
int main( int argc, char** argv )
{
TESTING_INIT();
magma_dopts zopts;
magma_queue_t queue;
magma_queue_create( /*devices[ opts->device ],*/ &queue );
int i=1;
magma_dparse_opts( argc, argv, &zopts, &i, queue );
real_Double_t res;
magma_d_sparse_matrix Z, Z2, A, A2, AT, AT2, B;
B.blocksize = zopts.blocksize;
B.alignment = zopts.alignment;
while( i < argc ) {
if ( strcmp("LAPLACE2D", argv[i]) == 0 && i+1 < argc ) { // Laplace test
i++;
magma_int_t laplace_size = atoi( argv[i] );
magma_dm_5stencil( laplace_size, &Z, queue );
} else { // file-matrix test
magma_d_csr_mtx( &Z, argv[i], queue );
}
printf( "# matrix info: %d-by-%d with %d nonzeros\n",
(int) Z.num_rows,(int) Z.num_cols,(int) Z.nnz );
// convert to be non-symmetric
magma_d_mconvert( Z, &A, Magma_CSR, Magma_CSRL, queue );
magma_d_mconvert( Z, &B, Magma_CSR, Magma_CSRU, queue );
// transpose
magma_d_mtranspose( A, &AT, queue );
// quite some conversions
//ELL
magma_d_mconvert( AT, &AT2, Magma_CSR, Magma_ELL, queue );
magma_d_mfree(&AT, queue );
magma_d_mconvert( AT2, &AT, Magma_ELL, Magma_CSR, queue );
magma_d_mfree(&AT2, queue );
//ELLPACKT
magma_d_mconvert( AT, &AT2, Magma_CSR, Magma_ELLPACKT, queue );
magma_d_mfree(&AT, queue );
magma_d_mconvert( AT2, &AT, Magma_ELLPACKT, Magma_CSR, queue );
magma_d_mfree(&AT2, queue );
//ELLRT
AT2.blocksize = 8;
AT2.alignment = 8;
magma_d_mconvert( AT, &AT2, Magma_CSR, Magma_ELLRT, queue );
magma_d_mfree(&AT, queue );
magma_d_mconvert( AT2, &AT, Magma_ELLRT, Magma_CSR, queue );
magma_d_mfree(&AT2, queue );
//SELLP
AT2.blocksize = 8;
AT2.alignment = 8;
magma_d_mconvert( AT, &AT2, Magma_CSR, Magma_SELLP, queue );
magma_d_mfree(&AT, queue );
magma_d_mconvert( AT2, &AT, Magma_SELLP, Magma_CSR, queue );
magma_d_mfree(&AT2, queue );
//ELLD
magma_d_mconvert( AT, &AT2, Magma_CSR, Magma_ELLD, queue );
magma_d_mfree(&AT, queue );
magma_d_mconvert( AT2, &AT, Magma_ELLD, Magma_CSR, queue );
magma_d_mfree(&AT2, queue );
//CSRCOO
magma_d_mconvert( AT, &AT2, Magma_CSR, Magma_CSRCOO, queue );
magma_d_mfree(&AT, queue );
magma_d_mconvert( AT2, &AT, Magma_CSRCOO, Magma_CSR, queue );
magma_d_mfree(&AT2, queue );
//CSRD
magma_d_mconvert( AT, &AT2, Magma_CSR, Magma_CSRD, queue );
magma_d_mfree(&AT, queue );
magma_d_mconvert( AT2, &AT, Magma_CSRD, Magma_CSR, queue );
magma_d_mfree(&AT2, queue );
//BCSR
magma_d_mconvert( AT, &AT2, Magma_CSR, Magma_BCSR, queue );
magma_d_mfree(&AT, queue );
magma_d_mconvert( AT2, &AT, Magma_BCSR, Magma_CSR, queue );
magma_d_mfree(&AT2, queue );
// transpose
magma_d_mtranspose( AT, &A2, queue );
magma_dmdiff( A, A2, &res, queue);
printf("# ||A-A2||_F = %8.2e\n", res);
if ( res < .000001 )
printf("# conversion tester: ok\n");
else
printf("# conversion tester: failed\n");
magma_dmlumerge( A2, B, &Z2, queue );
magma_dmdiff( Z, Z2, &res, queue);
printf("# ||Z-Z2||_F = %8.2e\n", res);
if ( res < .000001 )
printf("# LUmerge tester: ok\n");
else
printf("# LUmerge tester: failed\n");
magma_d_mfree(&A, queue );
magma_d_mfree(&A2, queue );
magma_d_mfree(&AT, queue );
magma_d_mfree(&AT2, queue );
magma_d_mfree(&B, queue );
magma_d_mfree(&Z2, queue );
magma_d_mfree(&Z, queue );
i++;
}
magma_queue_destroy( queue );
TESTING_FINALIZE();
return 0;
}
/* ////////////////////////////////////////////////////////////////////////////
-- testing any solver
*/
int main( int argc, char** argv )
{
magma_int_t info = 0;
TESTING_INIT();
magma_dopts zopts;
magma_queue_t queue=NULL;
magma_queue_create( &queue );
real_Double_t res;
magma_d_matrix Z={Magma_CSR}, Z2={Magma_CSR}, A={Magma_CSR}, A2={Magma_CSR},
AT={Magma_CSR}, AT2={Magma_CSR}, B={Magma_CSR};
int i=1;
CHECK( magma_dparse_opts( argc, argv, &zopts, &i, queue ));
B.blocksize = zopts.blocksize;
B.alignment = zopts.alignment;
while( i < argc ) {
if ( strcmp("LAPLACE2D", argv[i]) == 0 && i+1 < argc ) { // Laplace test
i++;
magma_int_t laplace_size = atoi( argv[i] );
CHECK( magma_dm_5stencil( laplace_size, &Z, queue ));
} else { // file-matrix test
CHECK( magma_d_csr_mtx( &Z, argv[i], queue ));
}
printf("%% matrix info: %d-by-%d with %d nonzeros\n",
int(Z.num_rows), int(Z.num_cols), int(Z.nnz) );
// convert to be non-symmetric
CHECK( magma_dmconvert( Z, &A, Magma_CSR, Magma_CSRL, queue ));
CHECK( magma_dmconvert( Z, &B, Magma_CSR, Magma_CSRU, queue ));
// transpose
CHECK( magma_dmtranspose( A, &AT, queue ));
// quite some conversions
//ELL
CHECK( magma_dmconvert( AT, &AT2, Magma_CSR, Magma_ELL, queue ));
magma_dmfree(&AT, queue );
CHECK( magma_dmconvert( AT2, &AT, Magma_ELL, Magma_CSR, queue ));
magma_dmfree(&AT2, queue );
//ELLPACKT
CHECK( magma_dmconvert( AT, &AT2, Magma_CSR, Magma_ELLPACKT, queue ));
magma_dmfree(&AT, queue );
CHECK( magma_dmconvert( AT2, &AT, Magma_ELLPACKT, Magma_CSR, queue ));
magma_dmfree(&AT2, queue );
//ELLRT
AT2.blocksize = 8;
AT2.alignment = 8;
CHECK( magma_dmconvert( AT, &AT2, Magma_CSR, Magma_ELLRT, queue ));
magma_dmfree(&AT, queue );
CHECK( magma_dmconvert( AT2, &AT, Magma_ELLRT, Magma_CSR, queue ));
magma_dmfree(&AT2, queue );
//SELLP
AT2.blocksize = 8;
AT2.alignment = 8;
CHECK( magma_dmconvert( AT, &AT2, Magma_CSR, Magma_SELLP, queue ));
magma_dmfree(&AT, queue );
CHECK( magma_dmconvert( AT2, &AT, Magma_SELLP, Magma_CSR, queue ));
magma_dmfree(&AT2, queue );
//ELLD
CHECK( magma_dmconvert( AT, &AT2, Magma_CSR, Magma_ELLD, queue ));
magma_dmfree(&AT, queue );
CHECK( magma_dmconvert( AT2, &AT, Magma_ELLD, Magma_CSR, queue ));
magma_dmfree(&AT2, queue );
//CSRCOO
CHECK( magma_dmconvert( AT, &AT2, Magma_CSR, Magma_CSRCOO, queue ));
magma_dmfree(&AT, queue );
CHECK( magma_dmconvert( AT2, &AT, Magma_CSRCOO, Magma_CSR, queue ));
magma_dmfree(&AT2, queue );
//CSRLIST
CHECK( magma_dmconvert( AT, &AT2, Magma_CSR, Magma_CSRLIST, queue ));
magma_dmfree(&AT, queue );
CHECK( magma_dmconvert( AT2, &AT, Magma_CSRLIST, Magma_CSR, queue ));
magma_dmfree(&AT2, queue );
//CSRD
CHECK( magma_dmconvert( AT, &AT2, Magma_CSR, Magma_CSRD, queue ));
magma_dmfree(&AT, queue );
CHECK( magma_dmconvert( AT2, &AT, Magma_CSRD, Magma_CSR, queue ));
magma_dmfree(&AT2, queue );
// transpose
CHECK( magma_dmtranspose( AT, &A2, queue ));
CHECK( magma_dmdiff( A, A2, &res, queue));
printf("%% ||A-A2||_F = %8.2e\n", res);
if ( res < .000001 )
printf("%% conversion tester: ok\n");
else
printf("%% conversion tester: failed\n");
CHECK( magma_dmlumerge( A2, B, &Z2, queue ));
CHECK( magma_dmdiff( Z, Z2, &res, queue));
printf("%% ||Z-Z2||_F = %8.2e\n", res);
if ( res < .000001 )
printf("%% LUmerge tester: ok\n");
else
printf("%% LUmerge tester: failed\n");
magma_dmfree(&A, queue );
magma_dmfree(&A2, queue );
magma_dmfree(&AT, queue );
magma_dmfree(&AT2, queue );
magma_dmfree(&B, queue );
magma_dmfree(&Z2, queue );
magma_dmfree(&Z, queue );
i++;
}
cleanup:
magma_dmfree(&A, queue );
magma_dmfree(&A2, queue );
magma_dmfree(&AT, queue );
magma_dmfree(&AT2, queue );
magma_dmfree(&B, queue );
magma_dmfree(&Z2, queue );
magma_dmfree(&Z, queue );
magma_queue_destroy( queue );
TESTING_FINALIZE();
return info;
}
