[doxygen] Remove doxygen command in main files

* Now: // Add model specific output fields

[doxygen] Remove doxygen command in main files
* Now: // Add model specific output fields
58da3381 · Sina Ackermann · Simon Scholz · 5e34c2c0 · 58da3381 · 58da3381
Commit 58da3381 authored Dec 17, 2018 by Sina Ackermann Committed by Simon Scholz Dec 18, 2018
--- a/test/freeflow/navierstokes/angeli/main.cc
+++ b/test/freeflow/navierstokes/angeli/main.cc
@@ -111,7 +111,7 @@ int main(int argc, char** argv) try
    // initialize the vtk output module
    StaggeredVtkOutputModule<GridVariables, SolutionVector> vtkWriter(*gridVariables, x, problem->name());
    using IOFields = GetPropType<TypeTag, Properties::IOFields>;
-    IOFields::initOutputModule(vtkWriter); //!< Add model specific output fields
+    IOFields::initOutputModule(vtkWriter); // Add model specific output fields
    vtkWriter.addField(problem->getAnalyticalPressureSolution(), "pressureExact");
    vtkWriter.addField(problem->getAnalyticalVelocitySolution(), "velocityExact");
    vtkWriter.addFaceField(problem->getAnalyticalVelocitySolutionOnFace(), "faceVelocityExact");

--- a/test/freeflow/navierstokes/channel/1d/main.cc
+++ b/test/freeflow/navierstokes/channel/1d/main.cc
@@ -97,7 +97,7 @@ int main(int argc, char** argv) try
    // intialize the vtk output module
    using IOFields = GetPropType<TypeTag, Properties::IOFields>;
    StaggeredVtkOutputModule<GridVariables, SolutionVector> vtkWriter(*gridVariables, x, problem->name());
-    IOFields::initOutputModule(vtkWriter); //!< Add model specific output fields
+    IOFields::initOutputModule(vtkWriter); // Add model specific output fields
    vtkWriter.addField(problem->getAnalyticalPressureSolution(), "pressureExact");
    vtkWriter.addField(problem->getAnalyticalVelocitySolution(), "velocityExact");
    vtkWriter.addFaceField(problem->getAnalyticalVelocitySolutionOnFace(), "faceVelocityExact");

--- a/test/freeflow/navierstokes/channel/2d/main.cc
+++ b/test/freeflow/navierstokes/channel/2d/main.cc
@@ -114,7 +114,7 @@ int main(int argc, char** argv) try
    // initialize the vtk output module
    using IOFields = GetPropType<TypeTag, Properties::IOFields>;
    StaggeredVtkOutputModule<GridVariables, SolutionVector> vtkWriter(*gridVariables, x, problem->name());
-    IOFields::initOutputModule(vtkWriter); //!< Add model specific output fields
+    IOFields::initOutputModule(vtkWriter); // Add model specific output fields
    vtkWriter.write(restartTime);

    // the assembler with time loop for instationary problem

--- a/test/freeflow/navierstokes/channel/3d/main.cc
+++ b/test/freeflow/navierstokes/channel/3d/main.cc
@@ -98,7 +98,7 @@ int main(int argc, char** argv) try
    // intialize the vtk output module
    using IOFields = GetPropType<TypeTag, Properties::IOFields>;
    StaggeredVtkOutputModule<GridVariables, SolutionVector> vtkWriter(*gridVariables, x, problem->name());
-    IOFields::initOutputModule(vtkWriter); //!< Add model specific output fields
+    IOFields::initOutputModule(vtkWriter); // Add model specific output fields
    vtkWriter.write(0.0);

    // the assembler with time loop for instationary problem

--- a/test/freeflow/navierstokes/closedsystem/main.cc
+++ b/test/freeflow/navierstokes/closedsystem/main.cc
@@ -105,7 +105,7 @@ int main(int argc, char** argv) try
    // intialize the vtk output module
    using IOFields = GetPropType<TypeTag, Properties::IOFields>;
    StaggeredVtkOutputModule<GridVariables, SolutionVector> vtkWriter(*gridVariables, x, problem->name());
-    IOFields::initOutputModule(vtkWriter); //!< Add model specific output fields
+    IOFields::initOutputModule(vtkWriter); // Add model specific output fields
    vtkWriter.write(0.0);

    // instantiate time loop

--- a/test/freeflow/navierstokes/donea/main.cc
+++ b/test/freeflow/navierstokes/donea/main.cc
@@ -98,7 +98,7 @@ int main(int argc, char** argv) try
    // intialize the vtk output module
    using IOFields = GetPropType<TypeTag, Properties::IOFields>;
    StaggeredVtkOutputModule<GridVariables, SolutionVector> vtkWriter(*gridVariables, x, problem->name());
-    IOFields::initOutputModule(vtkWriter); //!< Add model specific output fields
+    IOFields::initOutputModule(vtkWriter); // Add model specific output fields
    vtkWriter.addField(problem->getAnalyticalPressureSolution(), "pressureExact");
    vtkWriter.addField(problem->getAnalyticalVelocitySolution(), "velocityExact");
    vtkWriter.addFaceField(problem->getAnalyticalVelocitySolutionOnFace(), "faceVelocityExact");

--- a/test/freeflow/navierstokes/kovasznay/main.cc
+++ b/test/freeflow/navierstokes/kovasznay/main.cc
@@ -97,7 +97,7 @@ int main(int argc, char** argv) try
    // intialize the vtk output module
    using IOFields = GetPropType<TypeTag, Properties::IOFields>;
    StaggeredVtkOutputModule<GridVariables, SolutionVector> vtkWriter(*gridVariables, x, problem->name());
-    IOFields::initOutputModule(vtkWriter); //!< Add model specific output fields
+    IOFields::initOutputModule(vtkWriter); // Add model specific output fields
    vtkWriter.addField(problem->getAnalyticalPressureSolution(), "pressureExact");
    vtkWriter.addField(problem->getAnalyticalVelocitySolution(), "velocityExact");
    vtkWriter.addFaceField(problem->getAnalyticalVelocitySolutionOnFace(), "faceVelocityExact");

--- a/test/freeflow/navierstokesnc/channel/main.cc
+++ b/test/freeflow/navierstokesnc/channel/main.cc
@@ -110,7 +110,7 @@ int main(int argc, char** argv) try
    // intialize the vtk output module
    using IOFields = GetPropType<TypeTag, Properties::IOFields>;
    StaggeredVtkOutputModule<GridVariables, SolutionVector> vtkWriter(*gridVariables, x, problem->name());
-    IOFields::initOutputModule(vtkWriter); //!< Add model specific output fields
+    IOFields::initOutputModule(vtkWriter); // Add model specific output fields
    vtkWriter.addField(problem->getDeltaP(), "deltaP");
    vtkWriter.write(0.0);


--- a/test/freeflow/navierstokesnc/densitydrivenflow/main.cc
+++ b/test/freeflow/navierstokesnc/densitydrivenflow/main.cc
@@ -109,7 +109,7 @@ int main(int argc, char** argv) try
    // intialize the vtk output module
    using IOFields = GetPropType<TypeTag, Properties::IOFields>;
    StaggeredVtkOutputModule<GridVariables, SolutionVector> vtkWriter(*gridVariables, x, problem->name());
-    IOFields::initOutputModule(vtkWriter); //!< Add model specific output fields
+    IOFields::initOutputModule(vtkWriter); // Add model specific output fields
    vtkWriter.addField(problem->getDeltaRho(), "deltaRho");
    vtkWriter.write(0.0);


--- a/test/freeflow/rans/main.cc
+++ b/test/freeflow/rans/main.cc
@@ -137,7 +137,7 @@ int main(int argc, char** argv) try
    // intialize the vtk output module
    using IOFields = GetPropType<TypeTag, Properties::IOFields>;
    StaggeredVtkOutputModule<GridVariables, SolutionVector> vtkWriter(*gridVariables, x, problem->name());
-    IOFields::initOutputModule(vtkWriter); //!< Add model specific output fields
+    IOFields::initOutputModule(vtkWriter); // Add model specific output fields
    vtkWriter.write(0.0);

    // the assembler with time loop for instationary problem

--- a/test/freeflow/ransnc/main.cc
+++ b/test/freeflow/ransnc/main.cc
@@ -133,7 +133,7 @@ int main(int argc, char** argv) try
    // intialize the vtk output module
    using IOFields = GetPropType<TypeTag, Properties::IOFields>;
    StaggeredVtkOutputModule<GridVariables, SolutionVector> vtkWriter(*gridVariables, x, problem->name());
-    IOFields::initOutputModule(vtkWriter); //!< Add model specific output fields
+    IOFields::initOutputModule(vtkWriter); // Add model specific output fields
    vtkWriter.write(0.0);

    // the assembler with time loop for instationary problem

--- a/test/io/vtk/test_vtk_staggeredfreeflowpvnames.cc
+++ b/test/io/vtk/test_vtk_staggeredfreeflowpvnames.cc
@@ -242,7 +242,7 @@ void testWriteAndReadVtk(std::shared_ptr<FVGridGeometry> fvGridGeometry,
    // initialize the vtk output module
    using IOFields = GetPropType<TypeTag, Properties::IOFields>;
    StaggeredVtkOutputModule<GridVariables, SolutionVector> vtkWriter(*gridVariables, writeFrom, fileName);
-    IOFields::initOutputModule(vtkWriter); //!< Add model specific output fields
+    IOFields::initOutputModule(vtkWriter); // Add model specific output fields
    vtkWriter.write(0);

    using ModelTraits = GetPropType<TypeTag, Properties::ModelTraits>;

--- a/test/porousmediumflow/1p/implicit/compressible/instationary/main.cc
+++ b/test/porousmediumflow/1p/implicit/compressible/instationary/main.cc
@@ -115,7 +115,7 @@ int main(int argc, char** argv) try
    using VelocityOutput = GetPropType<TypeTag, Properties::VelocityOutput>;
    vtkWriter.addVelocityOutput(std::make_shared<VelocityOutput>(*gridVariables));
    using IOFields = GetPropType<TypeTag, Properties::IOFields>;
-    IOFields::initOutputModule(vtkWriter); //!< Add model specific output fields
+    IOFields::initOutputModule(vtkWriter); // Add model specific output fields
    vtkWriter.write(0.0);

    // instantiate time loop

--- a/test/porousmediumflow/1p/implicit/compressible/stationary/main.cc
+++ b/test/porousmediumflow/1p/implicit/compressible/stationary/main.cc
@@ -105,7 +105,7 @@ int main(int argc, char** argv) try
    VtkOutputModule<GridVariables, SolutionVector> vtkWriter(*gridVariables, x, problem->name());
    using VelocityOutput = GetPropType<TypeTag, Properties::VelocityOutput>;
    vtkWriter.addVelocityOutput(std::make_shared<VelocityOutput>(*gridVariables));
-    IOFields::initOutputModule(vtkWriter); //!< Add model specific output fields
+    IOFields::initOutputModule(vtkWriter); // Add model specific output fields
    vtkWriter.write(0.0);

    // the assembler with time loop for instationary problem

--- a/test/porousmediumflow/1p/implicit/fracture2d3d/main.cc
+++ b/test/porousmediumflow/1p/implicit/fracture2d3d/main.cc
@@ -136,7 +136,7 @@ int main(int argc, char** argv) try
    VtkOutputModule<GridVariables, SolutionVector> vtkWriter(*gridVariables, x, problem->name());
    using VelocityOutput = GetPropType<TypeTag, Properties::VelocityOutput>;
    vtkWriter.addVelocityOutput(std::make_shared<VelocityOutput>(*gridVariables));
-    IOFields::initOutputModule(vtkWriter); //!< Add model specific output fields
+    IOFields::initOutputModule(vtkWriter); // Add model specific output fields
    vtkWriter.write(0.0);

    // instantiate time loop

--- a/test/porousmediumflow/1p/implicit/incompressible/main.cc
+++ b/test/porousmediumflow/1p/implicit/incompressible/main.cc
@@ -132,7 +132,7 @@ int main(int argc, char** argv) try
    using VelocityOutput = GetPropType<TypeTag, Properties::VelocityOutput>;
    vtkWriter.addVelocityOutput(std::make_shared<VelocityOutput>(*gridVariables));
    using IOFields = GetPropType<TypeTag, Properties::IOFields>;
-    IOFields::initOutputModule(vtkWriter); //!< Add model specific output fields
+    IOFields::initOutputModule(vtkWriter); // Add model specific output fields
    vtkWriter.write(0.0);

    // make assemble and attach linear system

--- a/test/porousmediumflow/1p/implicit/isothermal/main.cc
+++ b/test/porousmediumflow/1p/implicit/isothermal/main.cc
@@ -142,7 +142,7 @@ int main(int argc, char** argv) try
    VtkOutputModule<GridVariables, SolutionVector> vtkWriter(*gridVariables, x, problem->name());
    using VelocityOutput = GetPropType<TypeTag, Properties::VelocityOutput>;
    vtkWriter.addVelocityOutput(std::make_shared<VelocityOutput>(*gridVariables));
-    IOFields::initOutputModule(vtkWriter); //!< Add model specific output fields
+    IOFields::initOutputModule(vtkWriter); // Add model specific output fields

    // if we are using a random permeability field with gstat
    bool isRandomField = getParam<bool>("SpatialParams.RandomField", false);

--- a/test/porousmediumflow/1p/implicit/network1d3d/main.cc
+++ b/test/porousmediumflow/1p/implicit/network1d3d/main.cc
@@ -136,7 +136,7 @@ int main(int argc, char** argv) try
    VtkOutputModule<GridVariables, SolutionVector> vtkWriter(*gridVariables, x, problem->name());
    using VelocityOutput = GetPropType<TypeTag, Properties::VelocityOutput>;
    vtkWriter.addVelocityOutput(std::make_shared<VelocityOutput>(*gridVariables));
-    IOFields::initOutputModule(vtkWriter); //!< Add model specific output fields
+    IOFields::initOutputModule(vtkWriter); // Add model specific output fields
    vtkWriter.write(0.0);

    // instantiate time loop

--- a/test/porousmediumflow/1p/implicit/nonisothermal/main.cc
+++ b/test/porousmediumflow/1p/implicit/nonisothermal/main.cc
@@ -152,7 +152,7 @@ int main(int argc, char** argv) try
    VtkOutputModule<GridVariables, SolutionVector> vtkWriter(*gridVariables, x, problem->name());
    using VelocityOutput = GetPropType<TypeTag, Properties::VelocityOutput>;
    vtkWriter.addVelocityOutput(std::make_shared<VelocityOutput>(*gridVariables));
-    IOFields::initOutputModule(vtkWriter); //!< Add model specific output fields
+    IOFields::initOutputModule(vtkWriter); // Add model specific output fields
    vtkWriter.addField(problem->getExactTemperature(), "temperatureExact");
    vtkWriter.write(restartTime);


--- a/test/porousmediumflow/1p/implicit/periodicbc/main.cc
+++ b/test/porousmediumflow/1p/implicit/periodicbc/main.cc
@@ -104,7 +104,7 @@ int main(int argc, char** argv) try
    // intialize the vtk output module
    VtkOutputModule<GridVariables, SolutionVector> vtkWriter(*gridVariables, x, problem->name());
    using IOFields = GetPropType<TypeTag, Properties::IOFields>;
-    IOFields::initOutputModule(vtkWriter); //!< Add model specific output fields
+    IOFields::initOutputModule(vtkWriter); // Add model specific output fields
    vtkWriter.write(0.0);

    // make assemble and attach linear system