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/*=========================================================================
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 "otbWrapperApplicationFactory.h"
#include "otbVectorDataExtractROI.h"
#include "otbVectorDataProperties.h"
//Misc
#include "otbRemoteSensingRegion.h"
// Elevation handler
#include "otbWrapperElevationParametersHandler.h"
#include <iostream>
namespace otb
{
namespace Wrapper
{
class VectorDataExtractROI : public Application
{
public:
/** Standard class typedefs. */
typedef VectorDataExtractROI Self;
typedef Application Superclass;
typedef itk::SmartPointer<Self> Pointer;
typedef itk::SmartPointer<const Self> ConstPointer;
/** Standard macro */
itkNewMacro(Self);
itkTypeMacro(VectorDataExtractROI, otb::Application);
/** Filters typedef */
// Images
typedef FloatVectorImageType::PointType PointType;
typedef FloatVectorImageType::IndexType IndexType;
typedef FloatVectorImageType::SizeType SizeType;
typedef FloatVectorImageType::SpacingType SpacingType;
typedef otb::VectorDataExtractROI<VectorDataType> VectorDataExtractROIType;
// Misc
typedef otb::RemoteSensingRegion<double> RemoteSensingRegionType;
private:
void DoInit() ITK_OVERRIDE
{
SetName("VectorDataExtractROI");
SetDescription("Perform an extract ROI on the input vector data according to the input image extent");
SetDocName("VectorData Extract ROI");
SetDocLongDescription("This application extracts the vector data features"
" belonging to a region specified by the support "
"image envelope. Any features intersecting the "
"support region is copied to output. The output "
"geometries are NOT cropped.");
SetDocLimitations("None");
SetDocAuthors("OTB-Team");
SetDocSeeAlso(" ");
AddDocTag(Tags::Vector);
AddParameter(ParameterType_Group,"io","Input and output data");
SetParameterDescription("io", "Group containing input and output parameters");
AddParameter(ParameterType_InputVectorData, "io.vd", "Input Vector data");
SetParameterDescription("io.vd", "Input vector data");
AddParameter(ParameterType_InputImage, "io.in", "Support image");
SetParameterDescription("io.in", "Support image that specifies the extracted region");
AddParameter(ParameterType_OutputVectorData,"io.out","Output Vector data");
SetParameterDescription("io.out", "Output extracted vector data");
// Elevation
ElevationParametersHandler::AddElevationParameters(this, "elev");
// Doc example parameter settings
SetDocExampleParameterValue("io.in", "qb_RoadExtract.tif");
SetDocExampleParameterValue("io.vd", "qb_RoadExtract_classification.shp");
SetDocExampleParameterValue("io.out", "apTvUtVectorDataExtractROIApplicationTest.shp");
}
void DoUpdateParameters() ITK_OVERRIDE
{
// Nothing to do here for the parameters : all are independent
}
void DoExecute() ITK_OVERRIDE
{
// Get the inputs
VectorDataType* vd = GetParameterVectorData("io.vd");
FloatVectorImageType* inImage = GetParameterImage("io.in");
// Extracting the VectorData
m_VdExtract = VectorDataExtractROIType::New();
m_VdExtract->SetInput(vd);
// Find the geographic region of interest
// Get the index of the corner of the image
itk::ContinuousIndex<double,2> ul(inImage->GetLargestPossibleRegion().GetIndex());
PointType pul, pur, pll, plr;
ul[0] += -0.5;
ul[1] += -0.5;
itk::ContinuousIndex<double,2> ur, ll, lr;
ur = ul;
ll = ul;
lr = ul;
ur[0] += inImage->GetLargestPossibleRegion().GetSize()[0];
lr[0] += inImage->GetLargestPossibleRegion().GetSize()[0];
lr[1] += inImage->GetLargestPossibleRegion().GetSize()[1];
ll[1] += inImage->GetLargestPossibleRegion().GetSize()[1];
// Transform to physical point
inImage->TransformContinuousIndexToPhysicalPoint(ul, pul);
inImage->TransformContinuousIndexToPhysicalPoint(ur, pur);
inImage->TransformContinuousIndexToPhysicalPoint(ll, pll);
inImage->TransformContinuousIndexToPhysicalPoint(lr, plr);
// Build the cartographic region
RemoteSensingRegionType rsRegion;
RemoteSensingRegionType::IndexType rsOrigin;
RemoteSensingRegionType::SizeType rsSize;
rsOrigin[0] = std::min(pul[0], plr[0]);
rsOrigin[1] = std::min(pul[1], plr[1]);
rsSize[0] = vcl_abs(pul[0] - plr[0]);
rsSize[1] = vcl_abs(pul[1] - plr[1]);
rsRegion.SetOrigin(rsOrigin);
rsRegion.SetSize(rsSize);
rsRegion.SetRegionProjection(inImage->GetProjectionRef());
rsRegion.SetKeywordList(inImage->GetImageKeywordlist());
// Set the cartographic region to the extract roi filter
m_VdExtract->SetRegion(rsRegion);
// Setup the DEM Handler
otb::Wrapper::ElevationParametersHandler::SetupDEMHandlerFromElevationParameters(this,"elev");
// Set the output vectorData
SetParameterOutputVectorData("io.out", m_VdExtract->GetOutput());
}
VectorDataExtractROIType::Pointer m_VdExtract;
};
}
}
OTB_APPLICATION_EXPORT(otb::Wrapper::VectorDataExtractROI)
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