URI: 
       tFix write of Reynolds number in fluid-grid VTK files - sphere - GPU-based 3D discrete element method algorithm with optional fluid coupling
  HTML git clone git://src.adamsgaard.dk/sphere
   DIR Log
   DIR Files
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   DIR LICENSE
       ---
   DIR commit a6e7460fa10dff1327ca9928b5594ebc9f41f4a6
   DIR parent 85df782e88c762b6bb74973fcf408d871badf45a
  HTML Author: Anders Damsgaard <anders@adamsgaard.dk>
       Date:   Thu, 31 Oct 2019 12:24:11 +0100
       
       Fix write of Reynolds number in fluid-grid VTK files
       
       Diffstat:
         M python/sphere.py                    |       4 ++--
       
       1 file changed, 2 insertions(+), 2 deletions(-)
       ---
   DIR diff --git a/python/sphere.py b/python/sphere.py
       t@@ -2097,7 +2097,7 @@ class sim:
                    dporos.SetNumberOfTuples(grid.GetNumberOfPoints())
        
                # array of scalars: Reynold's number
       -        Re = self.ReynoldsNumber()
       +        Re_values = self.ReynoldsNumber()
                Re = vtk.vtkDoubleArray()
                Re.SetName("Reynolds number [-]")
                Re.SetNumberOfComponents(1)
       t@@ -2143,7 +2143,7 @@ class sim:
                            vel.SetTuple(idx, self.v_f[x, y, z, :])
                            poros.SetValue(idx, self.phi[x, y, z])
                            dporos.SetValue(idx, self.dphi[x, y, z])
       -                    Re.SetValue(idx, Re[x, y, z])
       +                    Re.SetValue(idx, Re_values[x, y, z])
                            if self.cfd_solver[0] == 1:
                                k.SetValue(idx, self.k[x, y, z])
                                K.SetValue(idx, self.K[x, y, z])