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sf_simp_P1nc.m File Reference

Description

SF_SIMP_P1NC Linear nonconforming shape function for simplices (P-1).

[ VBASE, NLDOF, XLDOF, SFUN ] = SF_SIMP_P1NC( I_EVAL, N_SDIM, N_VERT, I_DOF, XI, AINVJAC, VBASE ) Evaluates nonconforming linear P-1 shape functions (Crouzeix-Raviart) on simplices with values defined on the edge/face midpoints. XI is Barycentric coordinates.

Input       Value/[Size]           Description
-----------------------------------------------------------------------------------
i_eval      scalar:  1             Evaluate function values
                    >1             Evaluate values of derivatives
n_sdim      scalar: 2-3            Number of space dimensions
n_vert      scalar: 2-4            Number of vertices per cell
i_dof       scalar: 1-n_ldof       Local basis function to evaluate
xi          [n_sdim+1]             Local coordinates of evaluation point
aInvJac     [n,n_sdim+1*n_sdim]    Inverse of transformation Jacobian
vBase       [n]                    Preallocated output vector
                                                                                  .
Output      Value/[Size]           Description
-----------------------------------------------------------------------------------
vBase       [n]                    Evaluated function values
nLDof       [4]                    Number of local degrees of freedom on
                                   vertices, edges, faces, and cell interiors
xLDof       [n_sdim,n_ldof]        Local coordinates of local dofs
sfun        string                 Function name of called shape function
See also
sfnoncon1

Code listing

 nLDof = [0 0 0 0];
 nLDof(n_sdim) = n_sdim+1;
 sfun  = 'sf_simp_P1nc';


 if ( n_sdim==2 )
   ind   = [3 1 2];
   xLDof = [0.5   0 0.5; ...
            0.5 0.5   0; ...
              0 0.5 0.5];
 else
   ind   = [4 3 1 2];
   xLDof = [1/3 1/3   0 1/3; ...
            1/3 1/3 1/3   0; ...
            1/3   0 1/3 1/3; ...
              0 1/3 1/3 1/3];
 end

 switch i_eval    % Evaluation type flag.

   case 1         % Evaluation of function values.

     vBase = 1-n_sdim*xi(ind(i_dof));

   case {2,3,4}   % Evaluation of first derivatives.

     i_col = ind(i_dof)+(i_eval-2)*n_vert;

     vBase = -n_sdim*aInvJac(:,i_col);

   otherwise
     vBase = 0;

 end