Commit 0cbc9eee authored by Jean-Noël Grad's avatar Jean-Noël Grad
Browse files

Fix source code in tutorials and benchmarks

parent d7b3e0e8
......@@ -1472,7 +1472,7 @@ void Evaluation< LatticeModel_T >::operator()()
{
WALBERLA_LOG_RESULT_ON_ROOT( "force acting on cylinder (in dimensionless lattice units of the coarsest grid - evaluated in time step "
<< forceEvaluationExecutionCount_ << "):\n " << force_ << oss.str() <<
"\ndrag and lift coefficients (including extremas of last " << ( coefficients_[0].size() * checkFrequency_ ) << " time steps):"
"\ndrag and lift coefficients (including extrema of last " << ( coefficients_[0].size() * checkFrequency_ ) << " time steps):"
"\n \"real\" area:"
"\n c_D: " << cDRealArea << " (min = " << coefficientExtremas_[0].first << ", max = " << coefficientExtremas_[0].second << ")" <<
"\n c_L: " << cLRealArea << " (min = " << coefficientExtremas_[1].first << ", max = " << coefficientExtremas_[1].second << ")" <<
......@@ -2920,10 +2920,10 @@ int main( int argc, char **argv )
"// //\n"
"// Schaefer Turek Benchmark //\n"
"// //\n"
"// Reference: Schaefer, M. and Turek, S. (1996) 'Benchmark computations of laminar flow around a cylinder (with support //\n"
"// Reference: Schaefer, M. and Turek, S. (1996) Benchmark computations of laminar flow around a cylinder (with support //\n"
"// by F. Durst, E. Krause and R. Rannacher), in E. Hirschel (Ed.): Flow Simulation with High-Performance //\n"
"// Computers II. DFG Priority Research Program Results 1993-1995, No. 52 in Notes Numer, Fluid Mech., //\n"
"// pp.547-566, Vieweg, Weisbaden. //\n"
"// Computers II. DFG Priority Research Program Results 1993-1995, No. 48 in Notes on Numerical Fluid //\n"
"// Mechanics, pp.547-566, Vieweg, Weisbaden. //\n"
"// //\n"
"//////////////////////////////////////////////////////////////////////////////////////////////////////////////////////////" );
......
......@@ -104,7 +104,7 @@ We will now integrate the generated classes into a waLBerla application. After a
#include "CumulantMRTNoSlip.h"
#include "CumulantMRTPackInfo.h"
#include "CumulantMRTSweep.h"
#include "DensityAndVelocityFieldSetter.h"
#include "InitialPDFsSetter.h"
\endcode
We set up typedef aliases for the generated pack info and the D2Q9 stencil. For the PDF and velocity fields, we use instances of the field::GhostLayerField template. The number of entries of the PDF field is specified by the `Stencil_T::Size` parameter. As our domain is two-dimensional, the velocity at each lattice node is a two-dimensional vector. Thus, we set up the velocity field to have two index dimensions passing the stencil's dimension as a template parameter. Finally, we also define a typedef alias for our generated NoSlip boundary.
......
......@@ -62,7 +62,7 @@ public:
WALBERLA_ROOT_SECTION()
{
std::ofstream fileLocBottom( filename_.c_str());
fileLocBottom << "Time,[Locations on the BOTTOM Wall that Reattachment Occures (Normalized with Step Height) ]" << std::endl;
fileLocBottom << "Time,[Locations on the BOTTOM Wall that Reattachment Occurs (Normalized with Step Height) ]" << std::endl;
fileLocBottom.close();
}
}
......
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