152bfb9bbSJeremy L Thompson /// @file 252bfb9bbSJeremy L Thompson /// Test collocated grad in multiple dimensions 352bfb9bbSJeremy L Thompson /// \test Test collocated grad in multiple dimensions 452bfb9bbSJeremy L Thompson #include <ceed.h> 552bfb9bbSJeremy L Thompson #include <math.h> 652bfb9bbSJeremy L Thompson 752bfb9bbSJeremy L Thompson static CeedScalar Eval(CeedInt dim, const CeedScalar x[]) { 852bfb9bbSJeremy L Thompson CeedScalar result = tanh(x[0] + 0.1); 952bfb9bbSJeremy L Thompson if (dim > 1) result += atan(x[1] + 0.2); 1052bfb9bbSJeremy L Thompson if (dim > 2) result += exp(-(x[2] + 0.3)*(x[2] + 0.3)); 1152bfb9bbSJeremy L Thompson return result; 1252bfb9bbSJeremy L Thompson } 1352bfb9bbSJeremy L Thompson 14*80a9ef05SNatalie Beams static CeedScalar GetTolerance(CeedScalarType scalar_type, int dim) { 15*80a9ef05SNatalie Beams CeedScalar tol; 16*80a9ef05SNatalie Beams if (scalar_type == CEED_SCALAR_FP32) { 17*80a9ef05SNatalie Beams if (dim == 3) 18*80a9ef05SNatalie Beams tol = 1.e-3; 19*80a9ef05SNatalie Beams else 20*80a9ef05SNatalie Beams tol = 1.e-4; 21*80a9ef05SNatalie Beams } else { 22*80a9ef05SNatalie Beams tol = 1.e-11; 23*80a9ef05SNatalie Beams } 24*80a9ef05SNatalie Beams return tol; 25*80a9ef05SNatalie Beams } 26*80a9ef05SNatalie Beams 2752bfb9bbSJeremy L Thompson int main(int argc, char **argv) { 2852bfb9bbSJeremy L Thompson Ceed ceed; 2952bfb9bbSJeremy L Thompson 3052bfb9bbSJeremy L Thompson CeedInit(argv[1], &ceed); 3152bfb9bbSJeremy L Thompson 3252bfb9bbSJeremy L Thompson for (CeedInt dim=1; dim<=3; dim++) { 33d1d35e2fSjeremylt CeedVector X, X_q, U, U_q, ones, grad_T_ones; 34d1d35e2fSjeremylt CeedBasis basis_x_lobatto, basis_u_gauss; 35d1d35e2fSjeremylt CeedInt P = 8, Q = 8, P_dim = CeedIntPow(P, dim), Qdim_ = CeedIntPow(Q, dim), 36d1d35e2fSjeremylt X_dim = CeedIntPow(2, dim); 37d1d35e2fSjeremylt CeedScalar x[X_dim*dim], u[P_dim]; 38d1d35e2fSjeremylt const CeedScalar *x_q, *u_q, *grad_t_ones_array; 39d1d35e2fSjeremylt CeedScalar sum_1 = 0, sum_2 = 0; 4052bfb9bbSJeremy L Thompson 4152bfb9bbSJeremy L Thompson for (CeedInt d=0; d<dim; d++) 42d1d35e2fSjeremylt for (CeedInt i=0; i<X_dim; i++) 43d1d35e2fSjeremylt x[d*X_dim + i] = (i % CeedIntPow(2, dim-d)) / 4452bfb9bbSJeremy L Thompson CeedIntPow(2, dim-d-1) ? 1 : -1; 4552bfb9bbSJeremy L Thompson 46d1d35e2fSjeremylt CeedVectorCreate(ceed, X_dim*dim, &X); 4752bfb9bbSJeremy L Thompson CeedVectorSetArray(X, CEED_MEM_HOST, CEED_USE_POINTER, x); 48d1d35e2fSjeremylt CeedVectorCreate(ceed, P_dim*dim, &X_q); 49d1d35e2fSjeremylt CeedVectorSetValue(X_q, 0); 50d1d35e2fSjeremylt CeedVectorCreate(ceed, P_dim, &U); 51d1d35e2fSjeremylt CeedVectorCreate(ceed, Qdim_*dim, &U_q); 52d1d35e2fSjeremylt CeedVectorSetValue(U_q, 0); 53d1d35e2fSjeremylt CeedVectorCreate(ceed, Qdim_*dim, &ones); 54d1d35e2fSjeremylt CeedVectorSetValue(ones, 1); 55d1d35e2fSjeremylt CeedVectorCreate(ceed, P_dim, &grad_T_ones); 56d1d35e2fSjeremylt CeedVectorSetValue(grad_T_ones, 0); 5752bfb9bbSJeremy L Thompson 5852bfb9bbSJeremy L Thompson // Get function values at quadrature points 5952bfb9bbSJeremy L Thompson CeedBasisCreateTensorH1Lagrange(ceed, dim, dim, 2, P, 60d1d35e2fSjeremylt CEED_GAUSS_LOBATTO, &basis_x_lobatto); 61d1d35e2fSjeremylt CeedBasisApply(basis_x_lobatto, 1, CEED_NOTRANSPOSE, CEED_EVAL_INTERP, X, X_q); 6252bfb9bbSJeremy L Thompson 63d1d35e2fSjeremylt CeedVectorGetArrayRead(X_q, CEED_MEM_HOST, &x_q); 64d1d35e2fSjeremylt for (CeedInt i=0; i<P_dim; i++) { 6552bfb9bbSJeremy L Thompson CeedScalar xx[dim]; 6652bfb9bbSJeremy L Thompson for (CeedInt d=0; d<dim; d++) 67d1d35e2fSjeremylt xx[d] = x_q[d*P_dim + i]; 6852bfb9bbSJeremy L Thompson u[i] = Eval(dim, xx); 6952bfb9bbSJeremy L Thompson } 70d1d35e2fSjeremylt CeedVectorRestoreArrayRead(X_q, &x_q); 7152bfb9bbSJeremy L Thompson CeedVectorSetArray(U, CEED_MEM_HOST, CEED_USE_POINTER, u); 7252bfb9bbSJeremy L Thompson 7352bfb9bbSJeremy L Thompson // Calculate G u at quadrature points, G' * 1 at dofs 7452bfb9bbSJeremy L Thompson CeedBasisCreateTensorH1Lagrange(ceed, dim, 1, P, Q, 75d1d35e2fSjeremylt CEED_GAUSS_LOBATTO, &basis_u_gauss); 76d1d35e2fSjeremylt CeedBasisApply(basis_u_gauss, 1, CEED_NOTRANSPOSE, CEED_EVAL_GRAD, U, U_q); 77d1d35e2fSjeremylt CeedBasisApply(basis_u_gauss, 1, CEED_TRANSPOSE, CEED_EVAL_GRAD, ones, 78d1d35e2fSjeremylt grad_T_ones); 7952bfb9bbSJeremy L Thompson 8052bfb9bbSJeremy L Thompson // Check if 1' * G * u = u' * (G' * 1) 81d1d35e2fSjeremylt CeedVectorGetArrayRead(grad_T_ones, CEED_MEM_HOST, &grad_t_ones_array); 82d1d35e2fSjeremylt CeedVectorGetArrayRead(U_q, CEED_MEM_HOST, &u_q); 83d1d35e2fSjeremylt for (CeedInt i=0; i<P_dim; i++) 84d1d35e2fSjeremylt sum_1 += grad_t_ones_array[i]*u[i]; 85d1d35e2fSjeremylt for (CeedInt i=0; i<dim*Qdim_; i++) 86d1d35e2fSjeremylt sum_2 += u_q[i]; 87d1d35e2fSjeremylt CeedVectorRestoreArrayRead(grad_T_ones, &grad_t_ones_array); 88d1d35e2fSjeremylt CeedVectorRestoreArrayRead(U_q, &u_q); 89*80a9ef05SNatalie Beams CeedScalar tol = GetTolerance(CEED_SCALAR_TYPE, dim); 90*80a9ef05SNatalie Beams if (fabs(sum_1 - sum_2) > tol) 91c042f62fSJeremy L Thompson // LCOV_EXCL_START 92d1d35e2fSjeremylt printf("[%d] %f != %f\n", dim, sum_1, sum_2); 93c042f62fSJeremy L Thompson // LCOV_EXCL_STOP 9452bfb9bbSJeremy L Thompson 9552bfb9bbSJeremy L Thompson CeedVectorDestroy(&X); 96d1d35e2fSjeremylt CeedVectorDestroy(&X_q); 9752bfb9bbSJeremy L Thompson CeedVectorDestroy(&U); 98d1d35e2fSjeremylt CeedVectorDestroy(&U_q); 99d1d35e2fSjeremylt CeedVectorDestroy(&ones); 100d1d35e2fSjeremylt CeedVectorDestroy(&grad_T_ones); 101d1d35e2fSjeremylt CeedBasisDestroy(&basis_x_lobatto); 102d1d35e2fSjeremylt CeedBasisDestroy(&basis_u_gauss); 10352bfb9bbSJeremy L Thompson } 10452bfb9bbSJeremy L Thompson CeedDestroy(&ceed); 10552bfb9bbSJeremy L Thompson return 0; 10652bfb9bbSJeremy L Thompson } 107