Commit 48493f1d authored by Dave Moxey's avatar Dave Moxey

Fix a couple of indentation issues, update CHANGELOG

(cherry picked from commit a5df2009)
parent 921d4443
......@@ -16,6 +16,7 @@ v4.3.3
**CompressibleFlowSolver**:
- Fix issue with residual output (!647)
- Issues with 1D Euler solver fixed (!565)
**Packaging**:
- Fix NekMesh dependencies for DEB package (!650)
......
......@@ -182,12 +182,12 @@ namespace Nektar
{
case 1:
{ // do nothing
const int nq = inarray[0].num_elements();
const int nq = inarray[0].num_elements();
const int vx = (int)vecLocs[i][0];
Vmath::Vmul (nq, inarray [vx], 1, normals [0], 1,
outarray[vx], 1);
break;
}
}
case 2:
{
const int nq = inarray[0].num_elements();
......@@ -273,12 +273,12 @@ namespace Nektar
{
case 1:
{ // do nothing
const int nq = normals[0].num_elements();
const int nq = normals[0].num_elements();
const int vx = (int)vecLocs[i][0];
Vmath::Vmul (nq, inarray [vx], 1, normals [0], 1,
outarray[vx], 1);
break;
}
}
case 2:
{
const int nq = normals[0].num_elements();
......
......@@ -240,32 +240,12 @@ namespace Nektar
NekMatrix<NekDouble> B(nquad,m_ncoeffs,m_base[0]->GetBdata(),eWrapper);
out = B * in;
#endif //NEKTAR_USING_DIRECT_BLAS_CALLS
#endif //NEKTAR_USING_DIRECT_BLAS_CALLS
}
}
/** \brief Forward transform from physical quadrature space stored in
* \a inarray and evaluate the expansion coefficients and store in
* \a outarray
*
* Perform a forward transform using a Galerkin projection by taking the
* inner product of the physical points and multiplying by the inverse of
* the mass matrix using the Solve method of the standard matrix
* container holding the local mass matrix, i.e. \f$ {\bf \hat{u}} =
* {\bf M}^{-1} {\bf I} \f$ where \f$ {\bf I}[p] = \int^1_{-1}
* \phi_p(\xi_1) u(\xi_1) d\xi_1 \f$
*
* This function stores the expansion coefficients calculated by the
* transformation in the coefficient space array \a outarray
*
* \param inarray: array of physical quadrature points to be transformed
*
* \param outarray: the coeffficients of the expansion
*/
void StdSegExp::v_ReduceOrderCoeffs(
void StdSegExp::v_ReduceOrderCoeffs(
int numMin,
const Array<OneD, const NekDouble> &inarray,
Array<OneD, NekDouble> &outarray)
......@@ -301,8 +281,25 @@ namespace Nektar
LibUtilities::InterpCoeff1D(
bortho0, coeff_tmp, b0, outarray);
}
/**
* \brief Forward transform from physical quadrature space stored in \a
* inarray and evaluate the expansion coefficients and store in \a
* outarray
*
* Perform a forward transform using a Galerkin projection by taking the
* inner product of the physical points and multiplying by the inverse
* of the mass matrix using the Solve method of the standard matrix
* container holding the local mass matrix, i.e. \f$ {\bf \hat{u}} =
* {\bf M}^{-1} {\bf I} \f$ where \f$ {\bf I}[p] = \int^1_{-1}
* \phi_p(\xi_1) u(\xi_1) d\xi_1 \f$
*
* This function stores the expansion coefficients calculated by the
* transformation in the coefficient space array \a outarray
*
* \param inarray: array of physical quadrature points to be transformed
* \param outarray: the coeffficients of the expansion
*/
void StdSegExp::v_FwdTrans(const Array<OneD, const NekDouble>& inarray,
Array<OneD, NekDouble> &outarray)
{
......
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