STYLE: Start reader/writer FEM module local variables with lowercase

Start reader/writer `FEM` module local variables with lowercase as per
ITK style guidelines.

Modules/Numerics/FEM/test/itkFEMElement2DC0LinearLineStressItpackTest.cxx

@@ -25,7 +25,7 @@ int
 itkFEMElement2DC0LinearQuadrilateralStrainItpackTest(int argc, char * argv[])
 {
   // Need to register default FEM object types,
-  // and setup SpatialReader to recognize FEM types
+  // and setup spatialReader to recognize FEM types
   // which is all currently done as a HACK in
   // the initialization of the itk::FEMFactoryBase::GetFactory()
   itk::FEMFactoryBase::GetFactory()->RegisterDefaultTypes();

Modules/Numerics/FEM/test/itkFEMElement2DC0LinearLineStressTest.cxx

@@ -30,7 +30,7 @@ itkFEMElement2DC0LinearLineStressTest(int argc, char * argv[])
     return EXIT_FAILURE;
   }
   // Need to register default FEM object types,
-  // and setup SpatialReader to recognize FEM types
+  // and setup spatialReader to recognize FEM types
   // which is all currently done as a HACK in
   // the initialization of the itk::FEMFactoryBase::GetFactory()
   itk::FEMFactoryBase::GetFactory()->RegisterDefaultTypes();
@@ -40,11 +40,11 @@ itkFEMElement2DC0LinearLineStressTest(int argc, char * argv[])
 
   using FEMSpatialObjectReaderType = itk::FEMSpatialObjectReader<2>;
   using FEMSpatialObjectReaderPointer = FEMSpatialObjectReaderType::Pointer;
-  FEMSpatialObjectReaderPointer SpatialReader = FEMSpatialObjectReaderType::New();
-  SpatialReader->SetFileName(argv[1]);
-  SpatialReader->Update();
+  FEMSpatialObjectReaderPointer spatialReader = FEMSpatialObjectReaderType::New();
+  spatialReader->SetFileName(argv[1]);
+  spatialReader->Update();
 
-  FEMSpatialObjectReaderType::GroupPointer myGroup = SpatialReader->GetGroup();
+  FEMSpatialObjectReaderType::GroupPointer myGroup = spatialReader->GetGroup();
   if (!myGroup)
   {
     std::cout << "No Group : [FAILED]" << std::endl;
@@ -55,7 +55,7 @@ itkFEMElement2DC0LinearLineStressTest(int argc, char * argv[])
   // Testing the fe mesh validity
   using FEMObjectSpatialObjectType = itk::FEMObjectSpatialObject<2>;
 
-  FEMObjectSpatialObjectType::ChildrenListType * children = SpatialReader->GetGroup()->GetChildren();
+  FEMObjectSpatialObjectType::ChildrenListType * children = spatialReader->GetGroup()->GetChildren();
   if (children->front()->GetTypeName() != "FEMObjectSpatialObject")
   {
     std::cout << " [FAILED]" << std::endl;
@@ -102,10 +102,10 @@ itkFEMElement2DC0LinearLineStressTest(int argc, char * argv[])
   femSODef->SetFEMObject(solver->GetOutput());
   using FEMSpatialObjectWriterType = itk::FEMSpatialObjectWriter<2>;
   using FEMSpatialObjectWriterPointer = FEMSpatialObjectWriterType::Pointer;
-  FEMSpatialObjectWriterPointer SpatialWriter = FEMSpatialObjectWriterType::New();
-  SpatialWriter->SetInput(femSODef);
-  SpatialWriter->SetFileName(argv[2]);
-  SpatialWriter->Update();
+  FEMSpatialObjectWriterPointer spatialWriter = FEMSpatialObjectWriterType::New();
+  spatialWriter->SetInput(femSODef);
+  spatialWriter->SetFileName(argv[2]);
+  spatialWriter->Update();
 
   std::cout << "Test PASSED!" << std::endl;
   return EXIT_SUCCESS;

Modules/Numerics/FEM/test/itkFEMElement2DC0LinearQuadrilateralMembraneTest.cxx

@@ -30,7 +30,7 @@ itkFEMElement2DC0LinearQuadrilateralMembraneTest(int argc, char * argv[])
     return EXIT_FAILURE;
   }
   // Need to register default FEM object types,
-  // and setup SpatialReader to recognize FEM types
+  // and setup spatialReader to recognize FEM types
   // which is all currently done as a HACK in
   // the initialization of the itk::FEMFactoryBase::GetFactory()
   itk::FEMFactoryBase::GetFactory()->RegisterDefaultTypes();
@@ -40,11 +40,11 @@ itkFEMElement2DC0LinearQuadrilateralMembraneTest(int argc, char * argv[])
 
   using FEMSpatialObjectReaderType = itk::FEMSpatialObjectReader<2>;
   using FEMSpatialObjectReaderPointer = FEMSpatialObjectReaderType::Pointer;
-  FEMSpatialObjectReaderPointer SpatialReader = FEMSpatialObjectReaderType::New();
-  SpatialReader->SetFileName(argv[1]);
-  SpatialReader->Update();
+  FEMSpatialObjectReaderPointer spatialReader = FEMSpatialObjectReaderType::New();
+  spatialReader->SetFileName(argv[1]);
+  spatialReader->Update();
 
-  FEMSpatialObjectReaderType::GroupPointer myGroup = SpatialReader->GetGroup();
+  FEMSpatialObjectReaderType::GroupPointer myGroup = spatialReader->GetGroup();
   if (!myGroup)
   {
     std::cout << "No Group : [FAILED]" << std::endl;
@@ -55,7 +55,7 @@ itkFEMElement2DC0LinearQuadrilateralMembraneTest(int argc, char * argv[])
   // Testing the fe mesh validity
   using FEMObjectSpatialObjectType = itk::FEMObjectSpatialObject<2>;
 
-  FEMObjectSpatialObjectType::ChildrenListType * children = SpatialReader->GetGroup()->GetChildren();
+  FEMObjectSpatialObjectType::ChildrenListType * children = spatialReader->GetGroup()->GetChildren();
   if (children->front()->GetTypeName() != "FEMObjectSpatialObject")
   {
     std::cout << " [FAILED]" << std::endl;
@@ -82,10 +82,10 @@ itkFEMElement2DC0LinearQuadrilateralMembraneTest(int argc, char * argv[])
   femSODef->SetFEMObject(solver->GetOutput());
   using FEMSpatialObjectWriterType = itk::FEMSpatialObjectWriter<2>;
   using FEMSpatialObjectWriterPointer = FEMSpatialObjectWriterType::Pointer;
-  FEMSpatialObjectWriterPointer SpatialWriter = FEMSpatialObjectWriterType::New();
-  SpatialWriter->SetInput(femSODef);
-  SpatialWriter->SetFileName(argv[2]);
-  SpatialWriter->Update();
+  FEMSpatialObjectWriterPointer spatialWriter = FEMSpatialObjectWriterType::New();
+  spatialWriter->SetInput(femSODef);
+  spatialWriter->SetFileName(argv[2]);
+  spatialWriter->Update();
 
   std::cout << "Test PASSED!" << std::endl;
   return EXIT_SUCCESS;

Modules/Numerics/FEM/test/itkFEMElement2DC0LinearQuadrilateralStrainItpackTest.cxx

@@ -31,7 +31,7 @@ itkFEMElement2DC0LinearQuadrilateralStrainItpackTest(int argc, char * argv[])
     return EXIT_FAILURE;
   }
   // Need to register default FEM object types,
-  // and setup SpatialReader to recognize FEM types
+  // and setup spatialReader to recognize FEM types
   // which is all currently done as a HACK in
   // the initialization of the itk::FEMFactoryBase::GetFactory()
   itk::FEMFactoryBase::GetFactory()->RegisterDefaultTypes();
@@ -49,11 +49,11 @@ itkFEMElement2DC0LinearQuadrilateralStrainItpackTest(int argc, char * argv[])
 
   using FEMSpatialObjectReaderType = itk::FEMSpatialObjectReader<2>;
   using FEMSpatialObjectReaderPointer = FEMSpatialObjectReaderType::Pointer;
-  FEMSpatialObjectReaderPointer SpatialReader = FEMSpatialObjectReaderType::New();
-  SpatialReader->SetFileName(argv[1]);
-  SpatialReader->Update();
+  FEMSpatialObjectReaderPointer spatialReader = FEMSpatialObjectReaderType::New();
+  spatialReader->SetFileName(argv[1]);
+  spatialReader->Update();
 
-  FEMSpatialObjectReaderType::GroupPointer myGroup = SpatialReader->GetGroup();
+  FEMSpatialObjectReaderType::GroupPointer myGroup = spatialReader->GetGroup();
   if (!myGroup)
   {
     std::cout << "No Group : [FAILED]" << std::endl;
@@ -64,7 +64,7 @@ itkFEMElement2DC0LinearQuadrilateralStrainItpackTest(int argc, char * argv[])
   // Testing the fe mesh validity
   using FEMObjectSpatialObjectType = itk::FEMObjectSpatialObject<2>;
 
-  FEMObjectSpatialObjectType::ChildrenListType * children = SpatialReader->GetGroup()->GetChildren();
+  FEMObjectSpatialObjectType::ChildrenListType * children = spatialReader->GetGroup()->GetChildren();
 
   itk::fem::LinearSystemWrapperItpack WrapperItpack;
   WrapperItpack.SetMaximumNonZeroValuesInMatrix(1000);
@@ -119,10 +119,10 @@ itkFEMElement2DC0LinearQuadrilateralStrainItpackTest(int argc, char * argv[])
   femSODef->SetFEMObject(solver->GetOutput());
   using FEMSpatialObjectWriterType = itk::FEMSpatialObjectWriter<2>;
   using FEMSpatialObjectWriterPointer = FEMSpatialObjectWriterType::Pointer;
-  FEMSpatialObjectWriterPointer SpatialWriter = FEMSpatialObjectWriterType::New();
-  SpatialWriter->SetInput(femSODef);
-  SpatialWriter->SetFileName(argv[2]);
-  SpatialWriter->Update();
+  FEMSpatialObjectWriterPointer spatialWriter = FEMSpatialObjectWriterType::New();
+  spatialWriter->SetInput(femSODef);
+  spatialWriter->SetFileName(argv[2]);
+  spatialWriter->Update();
 
   std::cout << "Test PASSED!" << std::endl;
   return EXIT_SUCCESS;

Modules/Numerics/FEM/test/itkFEMElement2DC0LinearQuadrilateralStrainTest.cxx

@@ -30,7 +30,7 @@ itkFEMElement2DC0LinearQuadrilateralStrainTest(int argc, char * argv[])
     return EXIT_FAILURE;
   }
   // Need to register default FEM object types,
-  // and setup SpatialReader to recognize FEM types
+  // and setup spatialReader to recognize FEM types
   // which is all currently done as a HACK in
   // the initialization of the itk::FEMFactoryBase::GetFactory()
   itk::FEMFactoryBase::GetFactory()->RegisterDefaultTypes();
@@ -40,11 +40,11 @@ itkFEMElement2DC0LinearQuadrilateralStrainTest(int argc, char * argv[])
 
   using FEMSpatialObjectReaderType = itk::FEMSpatialObjectReader<2>;
   using FEMSpatialObjectReaderPointer = FEMSpatialObjectReaderType::Pointer;
-  FEMSpatialObjectReaderPointer SpatialReader = FEMSpatialObjectReaderType::New();
-  SpatialReader->SetFileName(argv[1]);
-  SpatialReader->Update();
+  FEMSpatialObjectReaderPointer spatialReader = FEMSpatialObjectReaderType::New();
+  spatialReader->SetFileName(argv[1]);
+  spatialReader->Update();
 
-  FEMSpatialObjectReaderType::GroupPointer myGroup = SpatialReader->GetGroup();
+  FEMSpatialObjectReaderType::GroupPointer myGroup = spatialReader->GetGroup();
   if (!myGroup)
   {
     std::cout << "No Group : [FAILED]" << std::endl;
@@ -55,7 +55,7 @@ itkFEMElement2DC0LinearQuadrilateralStrainTest(int argc, char * argv[])
   // Testing the fe mesh validity
   using FEMObjectSpatialObjectType = itk::FEMObjectSpatialObject<2>;
 
-  FEMObjectSpatialObjectType::ChildrenListType * children = SpatialReader->GetGroup()->GetChildren();
+  FEMObjectSpatialObjectType::ChildrenListType * children = spatialReader->GetGroup()->GetChildren();
 
   if (children->front()->GetTypeName() != "FEMObjectSpatialObject")
   {
@@ -82,10 +82,10 @@ itkFEMElement2DC0LinearQuadrilateralStrainTest(int argc, char * argv[])
   femSODef->SetFEMObject(solver->GetOutput());
   using FEMSpatialObjectWriterType = itk::FEMSpatialObjectWriter<2>;
   using FEMSpatialObjectWriterPointer = FEMSpatialObjectWriterType::Pointer;
-  FEMSpatialObjectWriterPointer SpatialWriter = FEMSpatialObjectWriterType::New();
-  SpatialWriter->SetInput(femSODef);
-  SpatialWriter->SetFileName(argv[2]);
-  SpatialWriter->Update();
+  FEMSpatialObjectWriterPointer spatialWriter = FEMSpatialObjectWriterType::New();
+  spatialWriter->SetInput(femSODef);
+  spatialWriter->SetFileName(argv[2]);
+  spatialWriter->Update();
 
   std::cout << "Test PASSED!" << std::endl;
   return EXIT_SUCCESS;

Modules/Numerics/FEM/test/itkFEMElement2DC0LinearQuadrilateralStressTest.cxx

@@ -158,10 +158,10 @@ itkFEMElement2DC0LinearQuadrilateralStressTest(int argc, char * argv[])
 
   using FEMSpatialObjectWriterType = itk::FEMSpatialObjectWriter<Dimension>;
   using FEMSpatialObjectWriterPointer = FEMSpatialObjectWriterType::Pointer;
-  FEMSpatialObjectWriterPointer SpatialWriter = FEMSpatialObjectWriterType::New();
-  SpatialWriter->SetInput(femSODef);
-  SpatialWriter->SetFileName(argv[1]);
-  SpatialWriter->Update();
+  FEMSpatialObjectWriterPointer spatialWriter = FEMSpatialObjectWriterType::New();
+  spatialWriter->SetInput(femSODef);
+  spatialWriter->SetFileName(argv[1]);
+  spatialWriter->Update();
 
   std::cout << "Test PASSED!" << std::endl;
   return EXIT_SUCCESS;

Modules/Numerics/FEM/test/itkFEMElement2DC0LinearQuadrilateralStressTestFEMObject.cxx

@@ -27,7 +27,7 @@ int
 itkFEMElement2DC0LinearQuadrilateralStressTestFEMObject(int argc, char * argv[])
 {
   // Need to register default FEM object types,
-  // and setup SpatialReader to recognize FEM types
+  // and setup spatialReader to recognize FEM types
   // which is all currently done as a HACK in
   // the initialization of the itk::FEMFactoryBase::GetFactory()
   itk::FEMFactoryBase::GetFactory()->RegisterDefaultTypes();

Modules/Numerics/FEM/test/itkFEMElement2DC0LinearQuadrilateralStressTestFEMObjectReader.cxx

@@ -31,7 +31,7 @@ int
 itkFEMElement2DC0LinearQuadrilateralStressTestFEMObjectReader(int argc, char * argv[])
 {
   // Need to register default FEM object types,
-  // and setup SpatialReader to recognize FEM types
+  // and setup spatialReader to recognize FEM types
   // which is all currently done as a HACK in
   // the initialization of the itk::FEMFactoryBase::GetFactory()
   itk::FEMFactoryBase::GetFactory()->RegisterDefaultTypes();
@@ -42,18 +42,18 @@ itkFEMElement2DC0LinearQuadrilateralStressTestFEMObjectReader(int argc, char * a
 
   using FEMSpatialObjectReaderType = itk::FEMSpatialObjectReader<2>;
   using FEMSpatialObjectReaderPointer = FEMSpatialObjectReaderType::Pointer;
-  FEMSpatialObjectReaderPointer SpatialReader = FEMSpatialObjectReaderType::New();
-  SpatialReader->SetFileName("C:/Research/ITKGit/ITK/Testing/Data/Input/FEM/Trial.meta");
-  SpatialReader->Update();
+  FEMSpatialObjectReaderPointer spatialReader = FEMSpatialObjectReaderType::New();
+  spatialReader->SetFileName("C:/Research/ITKGit/ITK/Testing/Data/Input/FEM/Trial.meta");
+  spatialReader->Update();
 
   using FEMSpatialObjectWriterType = itk::FEMSpatialObjectWriter<2>;
   using FEMSpatialObjectWriterPointer = FEMSpatialObjectWriterType::Pointer;
-  FEMSpatialObjectWriterPointer SpatialWriter = FEMSpatialObjectWriterType::New();
-  SpatialWriter->SetInput(SpatialReader->GetScene());
-  SpatialWriter->SetFileName("C:/Research/ITKGit/ITK/Testing/Data/Input/FEM/TrialWrite.meta");
-  SpatialWriter->Update();
+  FEMSpatialObjectWriterPointer spatialWriter = FEMSpatialObjectWriterType::New();
+  spatialWriter->SetInput(spatialReader->GetScene());
+  spatialWriter->SetFileName("C:/Research/ITKGit/ITK/Testing/Data/Input/FEM/TrialWrite.meta");
+  spatialWriter->Update();
 
-  FEMSpatialObjectReaderType::ScenePointer myScene = SpatialReader->GetScene();
+  FEMSpatialObjectReaderType::ScenePointer myScene = spatialReader->GetScene();
   if (!myScene)
   {
     std::cout << "No Scene : [FAILED]" << std::endl;
@@ -65,7 +65,7 @@ itkFEMElement2DC0LinearQuadrilateralStressTestFEMObjectReader(int argc, char * a
   using FEMObjectSpatialObjectType = itk::FEMObjectSpatialObject<2>;
   using FEMObjectSpatialObjectPointer = FEMObjectSpatialObjectType::Pointer;
 
-  FEMObjectSpatialObjectType::ChildrenListType * children = SpatialReader->GetGroup()->GetChildren();
+  FEMObjectSpatialObjectType::ChildrenListType * children = spatialReader->GetGroup()->GetChildren();
   if (strcmp((*(children->begin()))->GetTypeName(), "FEMObjectSpatialObject"))
   {
     std::cout << " [FAILED]" << std::endl;

Modules/Numerics/FEM/test/itkFEMElement2DC0LinearTriangleMembraneTest.cxx

@@ -30,7 +30,7 @@ itkFEMElement2DC0LinearTriangleMembraneTest(int argc, char * argv[])
     return EXIT_FAILURE;
   }
   // Need to register default FEM object types,
-  // and setup SpatialReader to recognize FEM types
+  // and setup spatialReader to recognize FEM types
   // which is all currently done as a HACK in
   // the initialization of the itk::FEMFactoryBase::GetFactory()
   itk::FEMFactoryBase::GetFactory()->RegisterDefaultTypes();
@@ -40,11 +40,11 @@ itkFEMElement2DC0LinearTriangleMembraneTest(int argc, char * argv[])
 
   using FEMSpatialObjectReaderType = itk::FEMSpatialObjectReader<2>;
   using FEMSpatialObjectReaderPointer = FEMSpatialObjectReaderType::Pointer;
-  FEMSpatialObjectReaderPointer SpatialReader = FEMSpatialObjectReaderType::New();
-  SpatialReader->SetFileName(argv[1]);
-  SpatialReader->Update();
+  FEMSpatialObjectReaderPointer spatialReader = FEMSpatialObjectReaderType::New();
+  spatialReader->SetFileName(argv[1]);
+  spatialReader->Update();
 
-  FEMSpatialObjectReaderType::GroupPointer myGroup = SpatialReader->GetGroup();
+  FEMSpatialObjectReaderType::GroupPointer myGroup = spatialReader->GetGroup();
   if (!myGroup)
   {
     std::cout << "No Group : [FAILED]" << std::endl;
@@ -55,7 +55,7 @@ itkFEMElement2DC0LinearTriangleMembraneTest(int argc, char * argv[])
   // Testing the fe mesh validity
   using FEMObjectSpatialObjectType = itk::FEMObjectSpatialObject<2>;
 
-  FEMObjectSpatialObjectType::ChildrenListType * children = SpatialReader->GetGroup()->GetChildren();
+  FEMObjectSpatialObjectType::ChildrenListType * children = spatialReader->GetGroup()->GetChildren();
 
   if (children->front()->GetTypeName() != "FEMObjectSpatialObject")
   {
@@ -82,10 +82,10 @@ itkFEMElement2DC0LinearTriangleMembraneTest(int argc, char * argv[])
   femSODef->SetFEMObject(solver->GetOutput());
   using FEMSpatialObjectWriterType = itk::FEMSpatialObjectWriter<2>;
   using FEMSpatialObjectWriterPointer = FEMSpatialObjectWriterType::Pointer;
-  FEMSpatialObjectWriterPointer SpatialWriter = FEMSpatialObjectWriterType::New();
-  SpatialWriter->SetInput(femSODef);
-  SpatialWriter->SetFileName(argv[2]);
-  SpatialWriter->Update();
+  FEMSpatialObjectWriterPointer spatialWriter = FEMSpatialObjectWriterType::New();
+  spatialWriter->SetInput(femSODef);
+  spatialWriter->SetFileName(argv[2]);
+  spatialWriter->Update();
 
   std::cout << "Test PASSED!" << std::endl;
   return EXIT_SUCCESS;

Modules/Numerics/FEM/test/itkFEMElement2DC0LinearTriangleStrainTest.cxx

@@ -30,7 +30,7 @@ itkFEMElement2DC0LinearTriangleStrainTest(int argc, char * argv[])
     return EXIT_FAILURE;
   }
   // Need to register default FEM object types,
-  // and setup SpatialReader to recognize FEM types
+  // and setup spatialReader to recognize FEM types
   // which is all currently done as a HACK in
   // the initialization of the itk::FEMFactoryBase::GetFactory()
   itk::FEMFactoryBase::GetFactory()->RegisterDefaultTypes();
@@ -40,11 +40,11 @@ itkFEMElement2DC0LinearTriangleStrainTest(int argc, char * argv[])
 
   using FEMSpatialObjectReaderType = itk::FEMSpatialObjectReader<2>;
   using FEMSpatialObjectReaderPointer = FEMSpatialObjectReaderType::Pointer;
-  FEMSpatialObjectReaderPointer SpatialReader = FEMSpatialObjectReaderType::New();
-  SpatialReader->SetFileName(argv[1]);
-  SpatialReader->Update();
+  FEMSpatialObjectReaderPointer spatialReader = FEMSpatialObjectReaderType::New();
+  spatialReader->SetFileName(argv[1]);
+  spatialReader->Update();
 
-  FEMSpatialObjectReaderType::GroupPointer myGroup = SpatialReader->GetGroup();
+  FEMSpatialObjectReaderType::GroupPointer myGroup = spatialReader->GetGroup();
   if (!myGroup)
   {
     std::cout << "No Group : [FAILED]" << std::endl;
@@ -55,7 +55,7 @@ itkFEMElement2DC0LinearTriangleStrainTest(int argc, char * argv[])
   // Testing the fe mesh validity
   using FEMObjectSpatialObjectType = itk::FEMObjectSpatialObject<2>;
 
-  FEMObjectSpatialObjectType::ChildrenListType * children = SpatialReader->GetGroup()->GetChildren();
+  FEMObjectSpatialObjectType::ChildrenListType * children = spatialReader->GetGroup()->GetChildren();
 
   if (children->front()->GetTypeName() != "FEMObjectSpatialObject")
   {
@@ -83,10 +83,10 @@ itkFEMElement2DC0LinearTriangleStrainTest(int argc, char * argv[])
   femSODef->SetFEMObject(solver->GetOutput());
   using FEMSpatialObjectWriterType = itk::FEMSpatialObjectWriter<2>;
   using FEMSpatialObjectWriterPointer = FEMSpatialObjectWriterType::Pointer;
-  FEMSpatialObjectWriterPointer SpatialWriter = FEMSpatialObjectWriterType::New();
-  SpatialWriter->SetInput(femSODef);
-  SpatialWriter->SetFileName(argv[2]);
-  SpatialWriter->Update();
+  FEMSpatialObjectWriterPointer spatialWriter = FEMSpatialObjectWriterType::New();
+  spatialWriter->SetInput(femSODef);
+  spatialWriter->SetFileName(argv[2]);
+  spatialWriter->Update();
 
   std::cout << "Test PASSED!" << std::endl;
   return EXIT_SUCCESS;