ENH: outputimage parameter input can be of any types

Applications/Classification/otbImageSVMClassifier.cxx

@@ -18,6 +18,8 @@
 #include "otbWrapperApplication.h"
 #include "otbWrapperApplicationFactory.h"
 
+//#include "otbWrapperTypes.h"
+
 #include "itkVariableLengthVector.h"
 #include "otbChangeLabelImageFilter.h"
 #include "otbStandardWriterWatcher.h"
@@ -93,7 +95,7 @@ private:
     
     AddParameter(ParameterType_OutputImage, "out",  "Output Image");
     SetParameterDescription( "out", "Output labeled image");
-
+    SetParameterOutputImagePixelType( "out", ImagePixelType_uint8);
   }
 
   void DoUpdateParameters()
@@ -161,15 +163,7 @@ private:
       m_ClassificationFilter->SetInputMask(extract->GetOutput());
       }
 
-      std::cout<<"-------------3-----------------"<<std::endl;
-    
-    m_FinalCast = CastImageFilterType::New();
-    m_FinalCast->SetInput( m_ClassificationFilter->GetOutput() );
-    
-    SetParameterOutputImage("out", m_FinalCast->GetOutput());
-    
-    //SetParameterOuutputImage<UInt8ImageType>("out", m_ClassificationFilter->GetOutput());
-    std::cout<<"---------------4---------------"<<std::endl;
+    SetParameterOuutputImage<UInt8ImageType>("out", m_ClassificationFilter->GetOutput());
   }
 
   ClassificationFilterType::Pointer m_ClassificationFilter;

Code/ApplicationEngine/otbWrapperApplication.cxx

@@ -435,7 +435,6 @@ void Application::SetParameterStringList(std::string parameter, std::vector<std:
 
 void Application::SetParameterOutputImage(std::string parameter, FloatVectorImageType* value)
 {
- std::cout<<"Application::SetParameterOutputImage 1"<<std::endl;
   Parameter* param = GetParameterByKey(parameter);
 
   if (dynamic_cast<OutputImageParameter*>(param))
@@ -445,21 +444,6 @@ void Application::SetParameterOutputImage(std::string parameter, FloatVectorImag
     }
 }
 
-template <class TImageType>
-void Application::SetParameterOuutputImage(std::string parameter, TImageType* value)
-{ std::cout<<"Application::SetParameterOutputImage"<<std::endl;
-  Parameter* param = GetParameterByKey(parameter);
-
-  if (dynamic_cast<OutputImageParameter*>(param))
-    {
-    std::cout<<"Application::SetParameterOutputImage 0000"<<std::endl;
-    OutputImageParameter* paramDown = dynamic_cast<OutputImageParameter*>(param);
-    paramDown->SetValue(value);
-    std::cout<<"Application::SetParameterOutputImage plop"<<std::endl;
-    }
-}
-
-
 void Application::SetParameterOutputImagePixelType(std::string parameter, ImagePixelType pixelType)
 {
   Parameter* param = GetParameterByKey(parameter);

Code/ApplicationEngine/otbWrapperApplication.h

@@ -28,6 +28,8 @@
 
 #include "itkLogger.h"
 #include "otbWrapperMacros.h"
+#include "otbWrapperTypes.h"
+#include "otbWrapperOutputImageParameter.h"
 
 namespace otb
 {
@@ -220,8 +222,7 @@ public:
    * \li ParameterType_OutputImage
    */
   template <class TImageType>
-  void SetParameterOuutputImage(std::string parameter, TImageType* value);
-
+    void SetParameterOuutputImage(std::string parameter, TImageType* value);
 
   /* Set the pixel type in which the image will be saved
    *
@@ -392,4 +393,9 @@ private:
 } // end namespace Wrapper
 } //end namespace otb
 
+
+#ifndef OTB_MANUAL_INSTANTIATION
+#include "otbWrapperApplication.txx"
+#endif
+
 #endif // __otbWrapperApplication_h_

Code/ApplicationEngine/otbWrapperApplication.txx

+/*=========================================================================
+
+  Program:   ORFEO Toolbox
+  Language:  C++
+  Date:      $Date$
+  Version:   $Revision$
+
+
+  Copyright (c) Centre National d'Etudes Spatiales. All rights reserved.
+  See OTBCopyright.txt for details.
+
+
+     This software is distributed WITHOUT ANY WARRANTY; without even
+     the implied warranty of MERCHANTABILITY or FITNESS FOR A PARTICULAR
+     PURPOSE.  See the above copyright notices for more information.
+
+=========================================================================*/
+#include "otbWrapperApplication.h"
+
+#include "otbWrapperOutputImageParameter.h"
+
+//#include "otbWrapperParameterGroup.h"
+
+
+namespace otb
+{
+namespace Wrapper
+{
+
+template <class TImageType>
+void Application::SetParameterOuutputImage(std::string parameter, TImageType* value)
+{
+  Parameter* param = GetParameterByKey(parameter);
+
+  if (dynamic_cast<OutputImageParameter*>(param))
+    {
+    OutputImageParameter* paramDown = dynamic_cast<OutputImageParameter*>(param);
+    paramDown->SetValue(value);
+    }
+}
+
+}
+}

Code/ApplicationEngine/otbWrapperOutputImageParameter.cxx

@@ -17,7 +17,7 @@
 =========================================================================*/
 #include "otbWrapperOutputImageParameter.h"
 #include "itkCastImageFilter.h"
-
+#include "itkVectorCastImageFilter.h"
 
 namespace otb
 {
@@ -49,6 +49,8 @@ void OutputImageParameter::InitializeWriters()
   m_FloatWriter = FloatWriterType::New();
   m_DoubleWriter = DoubleWriterType::New();
 
+  m_RGBAUInt8Writer = RGBAUInt8WriterType::New();
+
   m_VectorInt8Writer = VectorInt8WriterType::New();
   m_VectorUInt8Writer = VectorUInt8WriterType::New();
   m_VectorInt16Writer = VectorInt16WriterType::New();
@@ -60,7 +62,7 @@ void OutputImageParameter::InitializeWriters()
 }
 
 
-#define otbRescaleAndWriteMacro(InputImageType, OutputImageType, writer) \
+#define otbCastAndWriteImageMacro(InputImageType, OutputImageType, writer) \
   {                                                                     \
     typedef itk::CastImageFilter<InputImageType, OutputImageType> CastFilterType; \
     typename CastFilterType::Pointer caster = CastFilterType::New();    \
@@ -75,56 +77,56 @@ template <class TInputImageType>
 void 
 OutputImageParameter::SwitchImageWrite()
 {
- std::cout<<"OutputImageParameter::SwitchImageWrite start"<<std::endl;
   switch(m_PixelType )
     {
     case ImagePixelType_int8:
     {
-    otbRescaleAndWriteMacro(TInputImageType, Int8ImageType, m_Int8Writer);
+    otbCastAndWriteImageMacro(TInputImageType, Int8ImageType, m_Int8Writer);
     break;
     }
     case ImagePixelType_uint8:
     {
- std::cout<<"OutputImageParameter::SwitchImageWrite UNIN8"<<std::endl;
-    otbRescaleAndWriteMacro(TInputImageType, UInt8ImageType, m_UInt8Writer);
+   std::cout<<"Write, output is image uint8"<<std::endl;
+    otbCastAndWriteImageMacro(TInputImageType, UInt8ImageType, m_UInt8Writer);
     break;
     }
     case ImagePixelType_int16:
     {
-    otbRescaleAndWriteMacro(TInputImageType, Int16ImageType, m_Int16Writer);
+    otbCastAndWriteImageMacro(TInputImageType, Int16ImageType, m_Int16Writer);
     break;
     }
     case ImagePixelType_uint16:
     {
-    otbRescaleAndWriteMacro(TInputImageType, UInt16ImageType, m_UInt16Writer);
+    otbCastAndWriteImageMacro(TInputImageType, UInt16ImageType, m_UInt16Writer);
     break;
     }
     case ImagePixelType_int32:
     {
-    otbRescaleAndWriteMacro(TInputImageType, Int32ImageType, m_Int32Writer);
+    otbCastAndWriteImageMacro(TInputImageType, Int32ImageType, m_Int32Writer);
     break;
     }
     case ImagePixelType_uint32:
     {
-    otbRescaleAndWriteMacro(TInputImageType, UInt32ImageType, m_UInt32Writer);
+    otbCastAndWriteImageMacro(TInputImageType, UInt32ImageType, m_UInt32Writer);
     break;
     }
     case ImagePixelType_float:
     {
-    otbRescaleAndWriteMacro(TInputImageType, FloatImageType, m_FloatWriter);
+   std::cout<<"Write, output is image float"<<std::endl;
+    otbCastAndWriteImageMacro(TInputImageType, FloatImageType, m_FloatWriter);
     break;
     }
     case ImagePixelType_double:
     {
-    otbRescaleAndWriteMacro(TInputImageType, DoubleImageType, m_DoubleWriter);
+ std::cout<<"Write, output is image double"<<std::endl;
+    otbCastAndWriteImageMacro(TInputImageType, DoubleImageType, m_DoubleWriter);
     break;
     }
     }
- std::cout<<"OutputImageParameter::SwitchImageWrite end"<<std::endl;
 }
 
 
-template <class TInputVectoImageType>
+template <class TInputVectorImageType>
 void
 OutputImageParameter::SwitchVectorImageWrite()
   {
@@ -132,63 +134,109 @@ OutputImageParameter::SwitchVectorImageWrite()
     {
     case ImagePixelType_int8:
     {
-    otbRescaleAndWriteMacro(TInputVectoImageType, Int8VectorImageType, m_VectorInt8Writer);
+    otbCastAndWriteImageMacro(TInputVectorImageType, Int8VectorImageType, m_VectorInt8Writer);
     break;
     }
     case ImagePixelType_uint8:
     {
-    otbRescaleAndWriteMacro(TInputVectoImageType, UInt8VectorImageType, m_VectorUInt8Writer);
+    otbCastAndWriteImageMacro(TInputVectorImageType, UInt8VectorImageType, m_VectorUInt8Writer);
     break;
     }
     case ImagePixelType_int16:
     {
-    otbRescaleAndWriteMacro(TInputVectoImageType, Int16VectorImageType, m_VectorInt16Writer);
+    otbCastAndWriteImageMacro(TInputVectorImageType, Int16VectorImageType, m_VectorInt16Writer);
     break;
     }
     case ImagePixelType_uint16:
     {
-    otbRescaleAndWriteMacro(TInputVectoImageType, UInt16VectorImageType, m_VectorUInt16Writer);
+    otbCastAndWriteImageMacro(TInputVectorImageType, UInt16VectorImageType, m_VectorUInt16Writer);
     break;
     }
     case ImagePixelType_int32:
     {
-    otbRescaleAndWriteMacro(TInputVectoImageType, Int32VectorImageType, m_VectorInt32Writer);
+    otbCastAndWriteImageMacro(TInputVectorImageType, Int32VectorImageType, m_VectorInt32Writer);
     break;
     }
     case ImagePixelType_uint32:
     {
-    otbRescaleAndWriteMacro(TInputVectoImageType, UInt32VectorImageType, m_VectorUInt32Writer);
+    otbCastAndWriteImageMacro(TInputVectorImageType, UInt32VectorImageType, m_VectorUInt32Writer);
     break;
     }
     case ImagePixelType_float:
     {
-    otbRescaleAndWriteMacro(TInputVectoImageType, FloatVectorImageType, m_VectorFloatWriter);
+    otbCastAndWriteImageMacro(TInputVectorImageType, FloatVectorImageType, m_VectorFloatWriter);
     break;
     }
     case ImagePixelType_double:
     {
-    otbRescaleAndWriteMacro(TInputVectoImageType, DoubleVectorImageType, m_VectorDoubleWriter);
+    otbCastAndWriteImageMacro(TInputVectorImageType, DoubleVectorImageType, m_VectorDoubleWriter);
     break;
     }
     }
   }
 
 
-
+template <class TInputRGBAImageType>
+void
+OutputImageParameter::SwitchRGBAImageWrite()
+  {
+  switch(m_PixelType )
+    {
+    case ImagePixelType_int8:
+    {
+    otbCastAndWriteImageMacro(TInputRGBAImageType, Int8RGBAImageType, m_RGBAInt8Writer);
+    break;
+    }
+    case ImagePixelType_uint8:
+    {
+    otbCastAndWriteImageMacro(TInputRGBAImageType, UInt8RGBAImageType, m_RGBAUInt8Writer);
+    break;
+    }
+    case ImagePixelType_int16:
+    {
+    otbCastAndWriteImageMacro(TInputRGBAImageType, Int16RGBAImageType, m_RGBAInt16Writer);
+    break;
+    }
+    case ImagePixelType_uint16:
+    {
+    otbCastAndWriteImageMacro(TInputRGBAImageType, UInt16RGBAImageType, m_RGBAUInt16Writer);
+    break;
+    }
+    case ImagePixelType_int32:
+    {
+    otbCastAndWriteImageMacro(TInputRGBAImageType, Int32RGBAImageType, m_RGBAInt32Writer);
+    break;
+    }
+    case ImagePixelType_uint32:
+    {
+    otbCastAndWriteImageMacro(TInputRGBAImageType, UInt32RGBAImageType, m_RGBAUInt32Writer);
+    break;
+    }
+    case ImagePixelType_float:
+    {
+    otbCastAndWriteImageMacro(TInputRGBAImageType, FloatRGBAImageType, m_RGBAFloatWriter);
+    break;
+    }
+    case ImagePixelType_double:
+    {
+    otbCastAndWriteImageMacro(TInputRGBAImageType, DoubleRGBAImageType, m_RGBADoubleWriter);
+    break;
+    }
+    }
+  }
 
 void
 OutputImageParameter::Write()
 {
-  std::cout<<"OutputImageParameter::Write"<<std::endl;
   m_Image->UpdateOutputInformation();
-  std::cout<<"OutputImageParameter::Write1"<<std::endl;
+
   if (dynamic_cast<Int8ImageType*>(m_Image.GetPointer())) 
     {
     SwitchImageWrite<Int8ImageType>();
     }
   else if (dynamic_cast<UInt8ImageType*>(m_Image.GetPointer()))
     {
- std::cout<<"OutputImageParameter::Write UNIN8"<<std::endl;
+    std::cout<<"Write, input is image uint8"<<std::endl;
     SwitchImageWrite<UInt8ImageType>();
     }
   else if (dynamic_cast<Int16ImageType*>(m_Image.GetPointer()))
@@ -247,92 +295,158 @@ OutputImageParameter::Write()
     {
     SwitchVectorImageWrite<DoubleVectorImageType>();
     }
+  else if (dynamic_cast<Int8ImageType*>(m_Image.GetPointer()))
+    {
+    SwitchRGBAImageWrite<Int8RGBAImageType>();
+    }
+  else if (dynamic_cast<UInt8RGBAImageType*>(m_Image.GetPointer()))
+    {
+    SwitchRGBAImageWrite<UInt8RGBAImageType>();
+    }
+  else if (dynamic_cast<Int16RGBAImageType*>(m_Image.GetPointer()))
+    {
+    SwitchRGBAImageWrite<Int16RGBAImageType>();
+    }
+  else if (dynamic_cast<UInt16RGBAImageType*>(m_Image.GetPointer()))
+    {
+    SwitchRGBAImageWrite<UInt16RGBAImageType>();
+    }
+  else if (dynamic_cast<Int32RGBAImageType*>(m_Image.GetPointer()))
+    {
+    SwitchRGBAImageWrite<Int32RGBAImageType>();
+    }
+  else if (dynamic_cast<UInt32RGBAImageType*>(m_Image.GetPointer()))
+    {
+    SwitchRGBAImageWrite<UInt32RGBAImageType>();
+    }
+  else if (dynamic_cast<FloatRGBAImageType*>(m_Image.GetPointer()))
+    {
+    SwitchRGBAImageWrite<FloatRGBAImageType>();
+    }
+  else if (dynamic_cast<DoubleRGBAImageType*>(m_Image.GetPointer()))
+    {
+    SwitchRGBAImageWrite<DoubleRGBAImageType>();
+    }
   else
     {
     itkExceptionMacro("Unknown image type");
     }
-
- std::cout<<"OutputImageParameter::Write2"<<std::endl;
   }
 
 
 itk::ProcessObject*
-OutputImageParameter::GetWriter( )
+OutputImageParameter::GetWriter()
 {
-  bool isVectorImage = true;
-  if ( dynamic_cast<Int8ImageType*>(m_Image.GetPointer())  || dynamic_cast<UInt8ImageType*>(m_Image.GetPointer()) ||
-       dynamic_cast<Int16ImageType*>(m_Image.GetPointer()) ||  dynamic_cast<UInt16ImageType*>(m_Image.GetPointer()) ||
-       dynamic_cast<Int32ImageType*>(m_Image.GetPointer()) || dynamic_cast<UInt32ImageType*>(m_Image.GetPointer()) ||
-       dynamic_cast<FloatImageType*>(m_Image.GetPointer()) || dynamic_cast<DoubleImageType*>(m_Image.GetPointer())    )         
-    {
-    isVectorImage = false;
-    }                  
+  int type = 0;
+  // 0 : image
+  // 1 : VectorImage
+  // 2 : RGBAImage
   
+  if ( dynamic_cast<Int8VectorImageType*>(  m_Image.GetPointer()) || 
+       dynamic_cast<UInt8VectorImageType*>( m_Image.GetPointer()) ||
+       dynamic_cast<Int16VectorImageType*>( m_Image.GetPointer()) ||  
+       dynamic_cast<UInt16VectorImageType*>(m_Image.GetPointer()) ||
+       dynamic_cast<Int32VectorImageType*>( m_Image.GetPointer()) || 
+       dynamic_cast<UInt32VectorImageType*>(m_Image.GetPointer()) ||
+       dynamic_cast<FloatVectorImageType*>( m_Image.GetPointer()) ||
+       dynamic_cast<DoubleVectorImageType*>(m_Image.GetPointer())   )
+    {
+    type = 1;
+    }                  
+  else if( dynamic_cast<Int8RGBAImageType*>(  m_Image.GetPointer()) || 
+           dynamic_cast<UInt8RGBAImageType*>( m_Image.GetPointer()) ||
+           dynamic_cast<Int16RGBAImageType*>( m_Image.GetPointer()) ||  
+           dynamic_cast<UInt16RGBAImageType*>(m_Image.GetPointer()) ||
+           dynamic_cast<Int32RGBAImageType*>( m_Image.GetPointer()) || 
+           dynamic_cast<UInt32RGBAImageType*>(m_Image.GetPointer()) ||
+           dynamic_cast<FloatRGBAImageType*>( m_Image.GetPointer()) || 
+           dynamic_cast<DoubleRGBAImageType*>(m_Image.GetPointer())   )
+    {
+    type = 2;
+    }
+
+
   itk::ProcessObject* writer = 0;
   switch ( GetPixelType() )
     {
     case ImagePixelType_int8:
     {
-    if( isVectorImage )
+    if( type == 1 )
       writer = m_VectorInt8Writer;
-    else
+    else if(type == 0)
       writer = m_Int8Writer;
+    else
+      writer = m_RGBAInt8Writer;
     break;
     }
     case ImagePixelType_uint8:
     {
-    if( isVectorImage )
+    if( type == 1 )
       writer = m_VectorUInt8Writer;
-    else
+    else if(type == 0)
       writer = m_UInt8Writer;
+    else
+      writer = m_RGBAUInt8Writer;
     break;
     }
     case ImagePixelType_int16:
     {
-    if( isVectorImage )
+    if( type == 1 )
       writer = m_VectorInt16Writer;
-    else
+    else if(type == 0)
       writer = m_Int16Writer;
+    else
+      writer = m_RGBAInt16Writer;
     break;
     }
     case ImagePixelType_uint16:
     {
-    if( isVectorImage )
+    if( type == 1 )
       writer = m_VectorUInt16Writer;
-    else
+    else if(type == 0)
       writer = m_UInt16Writer;
+    else
+      writer = m_RGBAUInt16Writer;
     break;
     }
     case ImagePixelType_int32:
     {
-    if( isVectorImage )
+    if( type == 1 )
       writer = m_VectorInt32Writer;
-    else
+    else if(type == 0)
       writer = m_Int32Writer;
+    else
+      writer = m_RGBAInt32Writer;
     break;
     }
     case ImagePixelType_uint32:
     {
-    if( isVectorImage )
+    if( type == 1 )
       writer = m_VectorUInt32Writer;
-    else
+    else if(type == 0)
       writer = m_UInt32Writer;
+    else
+      writer = m_RGBAUInt32Writer;
     break;
     }
     case ImagePixelType_float:
     {
-    if( isVectorImage )
+    if( type == 1 )
       writer = m_VectorFloatWriter;
-    else
+    else if(type == 0)
       writer = m_FloatWriter;
+    else
+      writer = m_RGBAFloatWriter;
     break;
     }
     case ImagePixelType_double:
     {
-    if( isVectorImage )
+    if( type == 1 )
       writer = m_VectorDoubleWriter;
-    else
+    else if(type == 0)
       writer = m_DoubleWriter;
+    else
+      writer = m_RGBADoubleWriter;
     break;
     }
     }

Code/ApplicationEngine/otbWrapperOutputImageParameter.h

@@ -97,10 +97,13 @@ protected:
   template <class TInputVectorImageType>
     void SwitchVectorImageWrite();
 
+  template <class TInputVectorImageType>
+    void SwitchRGBAImageWrite();
+
   //FloatVectorImageType::Pointer m_Image;
-  ImageBaseType::Pointer       m_Image;
-  std::string                   m_FileName;
-  ImagePixelType                m_PixelType;
+  ImageBaseType::Pointer m_Image;
+  std::string            m_FileName;
+  ImagePixelType         m_PixelType;
 
   typedef otb::StreamingImageFileWriter<Int8ImageType>   Int8WriterType;
   typedef otb::StreamingImageFileWriter<UInt8ImageType>  UInt8WriterType;
@@ -120,6 +123,15 @@ protected:
   typedef otb::StreamingImageFileWriter<FloatVectorImageType>  VectorFloatWriterType;
   typedef otb::StreamingImageFileWriter<DoubleVectorImageType> VectorDoubleWriterType;
 
+  typedef otb::StreamingImageFileWriter<Int8RGBAImageType>   RGBAInt8WriterType;
+  typedef otb::StreamingImageFileWriter<UInt8RGBAImageType>  RGBAUInt8WriterType;
+  typedef otb::StreamingImageFileWriter<Int16RGBAImageType>  RGBAInt16WriterType;
+  typedef otb::StreamingImageFileWriter<UInt16RGBAImageType> RGBAUInt16WriterType;
+  typedef otb::StreamingImageFileWriter<Int32RGBAImageType>  RGBAInt32WriterType;
+  typedef otb::StreamingImageFileWriter<UInt32RGBAImageType> RGBAUInt32WriterType;
+  typedef otb::StreamingImageFileWriter<FloatRGBAImageType>  RGBAFloatWriterType;
+  typedef otb::StreamingImageFileWriter<DoubleRGBAImageType> RGBADoubleWriterType;
+
   Int8WriterType::Pointer   m_Int8Writer;
   UInt8WriterType::Pointer  m_UInt8Writer;
   Int16WriterType::Pointer  m_Int16Writer;
@@ -138,6 +150,14 @@ protected:
   VectorFloatWriterType::Pointer  m_VectorFloatWriter;
   VectorDoubleWriterType::Pointer m_VectorDoubleWriter;
 
+  RGBAInt8WriterType::Pointer   m_RGBAInt8Writer;
+  RGBAUInt8WriterType::Pointer  m_RGBAUInt8Writer;
+  RGBAInt16WriterType::Pointer  m_RGBAInt16Writer;
+  RGBAUInt16WriterType::Pointer m_RGBAUInt16Writer;
+  RGBAInt32WriterType::Pointer  m_RGBAInt32Writer;
+  RGBAUInt32WriterType::Pointer m_RGBAUInt32Writer;
+  RGBAFloatWriterType::Pointer  m_RGBAFloatWriter;
+  RGBADoubleWriterType::Pointer m_RGBADoubleWriter;
 
 private:
   OutputImageParameter(const Parameter &); //purposely not implemented
@@ -149,16 +169,3 @@ private:
 } // End namespace otb
 
 #endif
-
-/*m_FloatWriter->SetFileName( this->GetFileName() );                    \
-    m_FloatWriter->SetInput(this->GetImage());                          \
-    m_FloatWriter->Modified();                                          \
-    m_FloatWriter->Update();    
-
- typedef itk::CastImageFilter<FloatVectorImageType, DoubleVectorImageType> CastFilterType; \
-    CastFilterType::Pointer cast = CastFilterType::New();               \
-    cast->SetInput( this->GetImage() );                                 \
-    m_DoubleWriter->SetFileName( this->GetFileName() );                 \
-    m_DoubleWriter->SetInput(cast->GetOutput());                        \
-    m_DoubleWriter->Update();
-*/ 

Code/ApplicationEngine/otbWrapperTypes.h

@@ -19,6 +19,7 @@
 #define __otbWrapperTypes_h
 
 #include <complex>
+#include "itkRGBAPixel.h"
 #include "otbImage.h"
 #include "otbVectorImage.h"
 #include "otbVectorData.h"
@@ -68,7 +69,14 @@ typedef enum
   ImagePixelType_double,
 } ImagePixelType;
 
-typedef otb::Image<float>                FloatImageType;
+typedef otb::Image<char>                       Int8ImageType;
+typedef otb::Image<unsigned char>              UInt8ImageType;
+typedef otb::Image<short>                      Int16ImageType;
+typedef otb::Image<unsigned short>             UInt16ImageType;
+typedef otb::Image<int>                        Int32ImageType;
+typedef otb::Image<unsigned int>               UInt32ImageType;
+typedef otb::Image<float>                      FloatImageType;
+typedef otb::Image<double>                     DoubleImageType;
 
 typedef otb::VectorImage<char>           Int8VectorImageType;
 typedef otb::VectorImage<unsigned char>  UInt8VectorImageType;
@@ -79,6 +87,15 @@ typedef otb::VectorImage<unsigned int>   UInt32VectorImageType;
 typedef otb::VectorImage<float>          FloatVectorImageType;
 typedef otb::VectorImage<double>         DoubleVectorImageType;
 
+typedef otb::Image< itk::RGBAPixel<short> >          Int8RGBAImageType;
+typedef otb::Image< itk::RGBAPixel<unsigned short> > UInt8RGBAImageType;
+typedef otb::Image< itk::RGBAPixel<char> >           Int16RGBAImageType;
+typedef otb::Image< itk::RGBAPixel<unsigned char> >  UInt16RGBAImageType;
+typedef otb::Image< itk::RGBAPixel<int> >            Int32RGBAImageType;
+typedef otb::Image< itk::RGBAPixel<unsigned int> >   UInt32RGBAImageType;
+typedef otb::Image< itk::RGBAPixel<float> >          FloatRGBAImageType;
+typedef otb::Image< itk::RGBAPixel<double> >         DoubleRGBAImageType;
+
 typedef std::complex<float>                   ComplexPixelType;
 typedef otb::VectorImage<ComplexPixelType, 2> ComplexFloatVectorImageType;
 

Code/Wrappers/CommandLine/otbWrapperCommandLineLauncher.cxx

@@ -649,7 +649,28 @@ CommandLineLauncher::DisplayParameterHelp( const Parameter::Pointer & param, con
       oss << "\t Default value: filename: "
           << m_Application->GetParameterAsString( paramKey )
           << std::endl;
-      oss << "\t                pixel type: float"<< std::endl;
+      oss << "\t                pixel type: ";
+      ImagePixelType outPixType = m_Application->GetParameterOutputImagePixelType( paramKey );
+      if( outPixType == ImagePixelType_int8 )
+        oss << "int8";
+      else if( outPixType == ImagePixelType_uint8 )
+        oss << "uint8";
+      else if( outPixType == ImagePixelType_int16 )
+        oss << "int16";
+      else if( outPixType == ImagePixelType_uint16 )
+        oss << "uint16";
+      else if( outPixType == ImagePixelType_int32 )
+        oss << "int32";
+      else if( outPixType == ImagePixelType_uint32 )
+        oss << "uint32";
+      else if( outPixType == ImagePixelType_float )
+        oss << "float";
+      else if( outPixType == ImagePixelType_double )
+        oss << "double";
+      else
+        {
+        itkExceptionMacro("Unknown output pixel type.");
+        }
       }
     else
       {
@@ -661,7 +682,28 @@ CommandLineLauncher::DisplayParameterHelp( const Parameter::Pointer & param, con
     if( type == ParameterType_OutputImage )
       {
       oss << "\t Default value: filename: none"<< std::endl;
-      oss << "\t                pixel type: float"<< std::endl;
+      oss << "\t                pixel type: ";
+      ImagePixelType outPixType = m_Application->GetParameterOutputImagePixelType( paramKey );
+      if( outPixType == ImagePixelType_int8 )
+        oss << "int8"<<std::endl;
+      else if( outPixType == ImagePixelType_uint8 )
+        oss << "uint8"<<std::endl;
+      else if( outPixType == ImagePixelType_int16 )
+        oss << "int16"<<std::endl;
+      else if( outPixType == ImagePixelType_uint16 )
+        oss << "uint16"<<std::endl;
+      else if( outPixType == ImagePixelType_int32 )
+        oss << "int32"<<std::endl;
+      else if( outPixType == ImagePixelType_uint32 )
+        oss << "uint32"<<std::endl;
+      else if( outPixType == ImagePixelType_float )
+        oss << "float"<<std::endl;
+      else if( outPixType == ImagePixelType_double )
+        oss << "double"<<std::endl;
+      else
+        {
+        itkExceptionMacro("Unknown output pixel type.");
+        }
       }
     else
       oss << "\t Default value: none"<<std::endl;
@@ -680,9 +722,21 @@ CommandLineLauncher::DisplayParameterHelp( const Parameter::Pointer & param, con
     }
   else
     {
-    oss << "\t        Status: USER VALUE (";
-    oss << m_Parser->GetAttributAsString( std::string("--").append(paramKey), m_Expression ) <<")";
-    oss << std::endl;
+    if( type == ParameterType_OutputImage )
+      {
+      std::vector<std::string> values = m_Parser->GetAttribut( std::string("--").append(paramKey), m_Expression );
+      oss << "\t        Status: filename : USER VALUE ("<<values[0]<<")"<<std::endl;
+      if( values.size() == 2)
+        oss << "\t        Status: pixel type : USER VALUE ("<<values[1]<<")"<<std::endl;
+      else
+        oss << "\t        Status: pixel type : DEFAULT VALUE"<<std::endl;
+      }
+    else
+      {
+      oss << "\t        Status: USER VALUE (";
+      oss << m_Parser->GetAttributAsString( std::string("--").append(paramKey), m_Expression ) <<")";
+      oss << std::endl;
+      }
     }
 
   return oss.str();